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diff --git a/docs/usecases/home_gateway.rst b/docs/usecases/home_gateway.rst new file mode 100644 index 00000000000..34ff558c91d --- /dev/null +++ b/docs/usecases/home_gateway.rst @@ -0,0 +1,556 @@ +VPP as a Home Gateway +===================== + +Vpp running on a small system (with appropriate NICs) makes a fine home +gateway. The resulting system performs far in excess of requirements: a +debug image runs at a vector size of ~1.2 terminating a 150-mbit down / +10-mbit up cable modem connection. + +At a minimum, install sshd and the isc-dhcp-server. If you prefer, you +can use dnsmasq. + +System configuration files +-------------------------- + +/etc/vpp/startup.conf: + +.. code-block:: c + + unix { + nodaemon + log /var/log/vpp/vpp.log + full-coredump + cli-listen /run/vpp/cli.sock + startup-config /setup.gate + poll-sleep-usec 100 + gid vpp + } + api-segment { + gid vpp + } + dpdk { + dev 0000:03:00.0 + dev 0000:14:00.0 + etc. + } + + plugins { + ## Disable all plugins, selectively enable specific plugins + ## YMMV, you may wish to enable other plugins (acl, etc.) + plugin default { disable } + plugin dhcp_plugin.so { enable } + plugin dns_plugin.so { enable } + plugin dpdk_plugin.so { enable } + plugin nat_plugin.so { enable } + plugin ping_plugin.so { enable } + ## if you plan to use the time-based MAC filter + plugin mactime_plugin.so { enable } + plugin vmxnet3_plugin.so { enable } + } + +/etc/dhcp/dhcpd.conf: + +.. code-block:: c + + subnet 192.168.1.0 netmask 255.255.255.0 { + range 192.168.1.10 192.168.1.99; + option routers 192.168.1.1; + option domain-name-servers 8.8.8.8; + } + +If you decide to enable the vpp dns name resolver, substitute +192.168.1.2 for 8.8.8.8 in the dhcp server configuration. + +/etc/default/isc-dhcp-server: + +.. code-block:: c + + # On which interfaces should the DHCP server (dhcpd) serve DHCP requests? + # Separate multiple interfaces with spaces, e.g. "eth0 eth1". + INTERFACESv4="lstack" + INTERFACESv6="" + +/etc/ssh/sshd_config: + +.. code-block:: c + + # What ports, IPs and protocols we listen for + Port <REDACTED-high-number-port> + # Change to no to disable tunnelled clear text passwords + PasswordAuthentication no + +For your own comfort and safety, do NOT allow password authentication +and do not answer ssh requests on port 22. Experience shows several +hack attempts per hour on port 22, but none on random high-number +ports. + +Systemd configuration +--------------------- + +In a typical home-gateway use-case, vpp owns the one-and-only WAN link +with a prayer of reaching the public internet. Simple things like +updating distro software requires use of the "lstack" interface created +above, and configuring a plausible upstream DNS name resolver. + +Configure /etc/systemd/resolved.conf as follows. + +/etc/systemd/resolved.conf: + +.. code-block:: c + + [Resolve] + DNS=8.8.8.8 + #FallbackDNS= + #Domains= + #LLMNR=no + #MulticastDNS=no + #DNSSEC=no + #Cache=yes + #DNSStubListener=yes + +Netplan configuration +--------------------- + +If you want to configure a static IP address on one of your home-gateway +Ethernet ports on Ubuntu 18.04, you'll need to configure netplan. +Netplan is relatively new. It and the network manager GUI and can be +cranky. In the configuration shown below, s/enp4s0/<your-interface>/... + +/etc/netplan-01-netcfg.yaml: + +.. code-block:: c + + # This file describes the network interfaces available on your system + # For more information, see netplan(5). + network: + version: 2 + renderer: networkd + ethernets: + enp4s0: + dhcp4: no + addresses: [192.168.2.254/24] + gateway4: 192.168.2.100 + nameservers: + search: [my.local] + addresses: [8.8.8.8] + +/etc/systemd/network-10.enp4s0.network: + +.. code-block:: c + + [Match] + Name=enp4s0 + + [Link] + RequiredForOnline=no + + [Network] + ConfigureWithoutCarrier=true + Address=192.168.2.254/24 + +Note that we've picked an IP address for the home gateway which is on an +independent unrouteable subnet. This is handy for installing (and +possibly reverting) new vpp software. + +VPP Configuration Files +----------------------- + +Here we see a nice use-case for the vpp debug CLI macro expander: + +/setup.gate: + +.. code-block:: c + + define HOSTNAME vpp1 + define TRUNK GigabitEthernet3/0/0 + + comment { Specific MAC address yields a constant IP address } + define TRUNK_MACADDR 48:f8:b3:00:01:01 + define BVI_MACADDR 48:f8:b3:01:01:02 + + comment { inside subnet 192.168.<inside_subnet>.0/24 } + define INSIDE_SUBNET 1 + + # Adjust as needed to match PCI addresses of inside network ports + define INSIDE_PORT1 GigabitEthernet6/0/0 + define INSIDE_PORT2 GigabitEthernet6/0/1 + define INSIDE_PORT3 GigabitEthernet8/0/0 + define INSIDE_PORT4 GigabitEthernet8/0/1 + + comment { feature selections } + define FEATURE_ADL uncomment + define FEATURE_NAT44 uncomment + define FEATURE_CNAT comment + define FEATURE_DNS comment + define FEATURE_IP6 comment + define FEATURE_IKE_RESPONDER comment + define FEATURE_MACTIME uncomment + define FEATURE_OVPN uncomment + define FEATURE_MODEM_ROUTE uncomment + + exec /setup.tmpl + +/setup.tmpl: + +.. code-block:: c + + show macro + + set int mac address $(TRUNK) $(TRUNK_MACADDR) + set dhcp client intfc $(TRUNK) hostname $(HOSTNAME) + set int state $(TRUNK) up + + bvi create instance 0 + set int mac address bvi0 $(BVI_MACADDR) + set int l2 bridge bvi0 1 bvi + set int ip address bvi0 192.168.$(INSIDE_SUBNET).1/24 + set int state bvi0 up + + set int l2 bridge $(INSIDE_PORT1) 1 + set int state $(INSIDE_PORT1) up + set int l2 bridge $(INSIDE_PORT2) 1 + set int state $(INSIDE_PORT2) up + set int l2 bridge $(INSIDE_PORT3) 1 + set int state $(INSIDE_PORT3) up + set int l2 bridge $(INSIDE_PORT4) 1 + set int state $(INSIDE_PORT4) up + + comment { dhcp server and host-stack access } + create tap host-if-name lstack host-ip4-addr 192.168.$(INSIDE_SUBNET).2/24 host-ip4-gw 192.168.$(INSIDE_SUBNET).1 + set int l2 bridge tap0 1 + set int state tap0 up + + service restart isc-dhcp-server + + $(FEATURE_ADL) { bin adl_interface_enable_disable $(TRUNK) } + $(FEATURE_ADL) { ip table 1 } + $(FEATURE_ADL) { ip route add table 1 0.0.0.0/0 via local } + + $(FEATURE_NAT44) { nat44 forwarding enable } + $(FEATURE_NAT44) { nat44 plugin enable sessions 63000 } + $(FEATURE_NAT44) { nat44 add interface address $(TRUNK) } + $(FEATURE_NAT44) { set interface nat44 in bvi0 out $(TRUNK) } + + $(FEATURE_NAT44) { nat44 add static mapping local 192.168.$(INSIDE_SUBNET).2 22342 external $(TRUNK) 22342 tcp } + $(FEATURE_NAT44) { $(FEATURE_IKE_RESPONDER) { nat44 add identity mapping external $(TRUNK) udp 500 } } + $(FEATURE_NAT44) { $(FEATURE_IKE_RESPONDER) { nat44 add identity mapping external $(TRUNK) udp 4500 } } + $(FEATURE_NAT44) { $(FEATURE_DNS) { nat44 add static mapping local 192.168.$(INSIDE_SUBNET).2 53053 external $(TRUNK) 53053 udp } } + $(FEATURE_NAT44) { $(FEATURE_OVPN) { nat44 add static mapping local 192.168.$(INSIDE_SUBNET).2 37979 external $(TRUNK) 37979 udp } } + $(FEATURE_NAT44) { $(FEATURE_OVPN) { set interface feature bvi0 skipnat arc ip4-unicast } } + $(FEATURE_NAT44) { $(FEATURE_OVPN) { ip route add 192.168.10.0/24 via 192.168.$(INSIDE_SUBNET).2 } } + + $(FEATURE_CNAT) { set cnat snat-policy none } + $(FEATURE_CNAT) { set cnat snat-policy addr $(TRUNK) } + $(FEATURE_CNAT) { set interface feature bvi0 cnat-snat-ip4 arc ip4-unicast } + $(FEATURE_CNAT) { cnat translation add proto tcp real $(TRUNK) 22342 to -> 192.168.$(INSIDE_SUBNET).2 22342 } + $(FEATURE_CNAT) { $(FEATURE_DNS) { cnat translation add proto udp real $(TRUNK) 53053 to -> 192.168.$(INSIDE_SUBNET).1 53053 } } + $(FEATURE_CNAT) { $(FEATURE_OVPN) { cnat translation add proto udp real $(TRUNK) 37979 to -> 192.168.$(INSIDE_SUBNET).2 37979 } } + $(FEATURE_CNAT) { $(FEATURE_OVPN) { set interface feature bvi0 skipnat arc ip4-unicast } } + $(FEATURE_CNAT) { $(FEATURE_OVPN) { ip route add 192.168.10.0/24 via 192.168.$(INSIDE_SUBNET).2 } } + + + $(FEATURE_DNS) { nat44 add identity mapping external $(TRUNK) udp 53053 } + $(FEATURE_DNS) { bin dns_name_server_add_del 8.8.8.8 } + $(FEATURE_DNS) { bin dns_enable_disable } + + $(FEATURE_IP6) { set int ip6 table $(TRUNK) 0 } + $(FEATURE_IP6) { ip6 nd address autoconfig $(TRUNK) default-route } + $(FEATURE_IP6) { dhcp6 client $(TRUNK) } + $(FEATURE_IP6) { dhcp6 pd client $(TRUNK) prefix group hgw } + $(FEATURE_IP6) { set ip6 address bvi0 prefix group hgw ::1/64 } + $(FEATURE_IP6) { ip6 nd address autoconfig bvi0 default-route } + comment { iPhones seem to need lots of RA messages... } + $(FEATURE_IP6) { ip6 nd bvi0 ra-managed-config-flag ra-other-config-flag ra-interval 30 20 ra-lifetime 180 } + comment { ip6 nd bvi0 prefix 0::0/0 ra-lifetime 100000 } + + comment { responder profile } + $(FEATURE_IKE_RESPONDER) { ikev2 profile add swan } + $(FEATURE_IKE_RESPONDER) { ikev2 profile set swan auth rsa-sig cert-file /home/dbarach/certs/swancert.pem } + $(FEATURE_IKE_RESPONDER) { set ikev2 local key /home/dbarach/certs/dorakey.pem } + $(FEATURE_IKE_RESPONDER) { ikev2 profile set swan id remote fqdn swan.barachs.net } + $(FEATURE_IKE_RESPONDER) { ikev2 profile set swan id local fqdn broiler2.barachs.net } + $(FEATURE_IKE_RESPONDER) { ikev2 profile set swan traffic-selector remote ip-range 192.168.1.0 - 192.168.1.255 port-range 0 - 65535 protocol 0 } + $(FEATURE_IKE_RESPONDER) { ikev2 profile set swan traffic-selector local ip-range 192.168.$(INSIDE_SUBNET).0 - 192.168.$(INSIDE_SUBNET).255 port-range 0 - 65535 protocol 0 } + $(FEATURE_IKE_RESPONDER) { create ipip tunnel src 73.120.164.15 dst 162.255.170.167 } + $(FEATURE_IKE_RESPONDER) { ikev2 profile set swan tunnel ipip0 } + + $(FEATURE_IKE_RESPONDER) { set int mtu packet 1390 ipip0 } + $(FEATURE_IKE_RESPONDER) { set int unnum ipip0 use $(TRUNK) } + + comment { if using the mactime plugin, configure it } + $(FEATURE_MACTIME) { bin mactime_add_del_range name roku mac 00:00:01:de:ad:be allow-static } + $(FEATURE_MACTIME) { bin mactime_enable_disable $(INSIDE_PORT1) } + $(FEATURE_MACTIME) { bin mactime_enable_disable $(INSIDE_PORT2) } + $(FEATURE_MACTIME) { bin mactime_enable_disable $(INSIDE_PORT3) } + $(FEATURE_MACTIME) { bin mactime_enable_disable $(INSIDE_PORT4) } + + $(FEATURE_MODEM_ROUTE) { ip route add 192.168.100.1/32 via $(TRUNK) } + +Installing new vpp software +--------------------------- + +If you're **sure** that a given set of vpp Debian packages will install +and work properly, you can install them while logged into the gateway +via the lstack / nat path. This procedure is a bit like standing on a +rug and yanking it. If all goes well, a perfect back-flip occurs. If +not, you may wish that you'd configured a static IP address on a +reserved Ethernet interface as described above. + +Installing a new vpp image via ssh to 192.168.1.2: + +.. code-block:: c + + # nohup dpkg -i *.deb >/dev/null 2>&1 & + +Within a few seconds, the inbound ssh connection SHOULD begin to respond +again. If it does not, you'll have to debug the issue(s). + +Reasonably Robust Remote Software Installation +---------------------------------------------- + +Here are a couple of scripts which yield a reasonably robust software +installation scheme. + +Build-host script +~~~~~~~~~~~~~~~~~ + +.. code-block:: c + + #!/bin/bash + + buildroot=/scratch/vpp-workspace/build-root + if [ $1x = "testx" ] ; then + subdir="test" + ipaddr="192.168.2.48" + elif [ $1x = "foox" ] ; then + subdir="foo" + ipaddr="foo.some.net" + elif [ $1x = "barx" ] ; then + subdir="bar" + ipaddr="bar.some.net" + else + subdir="test" + ipaddr="192.168.2.48" + fi + + echo Save current software... + ssh -p 22432 $ipaddr "rm -rf /gate_debians.prev" + ssh -p 22432 $ipaddr "mv /gate_debians /gate_debians.prev" + ssh -p 22432 $ipaddr "mkdir /gate_debians" + echo Copy new software to the gateway... + scp -P 22432 $buildroot/*.deb $ipaddr:/gate_debians + echo Install new software... + ssh -p 22432 $ipaddr "nohup /usr/local/bin/vpp-swupdate > /dev/null 2>&1 &" + + for i in 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 + do + echo Wait for $i seconds... + sleep 1 + done + + echo Try to access the device... + + ssh -p 22432 -o ConnectTimeout=10 $ipaddr "tail -20 /var/log/syslog | grep Ping" + if [ $? == 0 ] ; then + echo Access test OK... + else + echo Access failed, wait for configuration restoration... + for i in 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 + do + echo Wait for $i seconds... + sleep 1 + done + echo Retry access test + ssh -p 22432 -o ConnectTimeout=10 $ipaddr "tail -20 /var/log/syslog | grep Ping" + if [ $? == 0 ] ; then + echo Access test OK, check syslog on the device + exit 1 + else + echo Access test still fails, manual intervention required. + exit 2 + fi + fi + + exit 0 + +Target script +~~~~~~~~~~~~~ + +.. code-block:: c + + #!/bin/bash + + logger "About to update vpp software..." + cd /gate_debians + service vpp stop + sudo dpkg -i *.deb >/dev/null 2>&1 & + sleep 20 + logger "Ping connectivity test..." + for i in 1 2 3 4 5 6 7 8 9 10 + do + ping -4 -c 1 yahoo.com + if [ $? == 0 ] ; then + logger "Ping test OK..." + exit 0 + fi + done + + logger "Ping test NOT OK, restore old software..." + rm -rf /gate_debians + mv /gate_debians.prev /gate_debians + cd /gate_debians + nohup sudo dpkg -i *.deb >/dev/null 2>&1 & + sleep 20 + logger "Repeat connectivity test..." + for i in 1 2 3 4 5 6 7 8 9 10 + do + ping -4 -c 1 yahoo.com + if [ $? == 0 ] ; then + logger "Ping test OK after restoring old software..." + exit 0 + fi + done + + logger "Ping test FAIL after restoring software, manual intervention required" + exit 2 + +Note that the target script **requires** that the user id which invokes +it will manage to “sudo dpkg …” without further authentication. If +you’re uncomfortable with the security implications of that requirement, +you’ll need to solve the problem a different way. Strongly suggest +configuring sshd as described above to minimize risk. + +Testing new software +-------------------- + +If you frequently test new home gateway software, it may be handy to set +up a test gateway behind your production gateway. This testing +methodology reduces complaints from family members, to name one benefit. + +Change the inside network (dhcp) subnet from 192.168.1.0/24 to +192.168.3.0/24, change the (dhcp) advertised router to 192.168.3.1, +reconfigure the vpp tap interface addresses onto the 192.168.3.0/24 +subnet, and you should be all set. + +This scenario nats traffic twice: first, from the 192.168.3.0/24 network +onto the 192.168.1.0/24 network. Next, from the 192.168.1.0/24 network +onto the public internet. + +Patches +------- + +You'll want this addition to src/vpp/vnet/main.c to add the "service +restart isc-dhcp-server” and "service restart vpp" commands: + +.. code-block:: c + + #include <sys/types.h> + #include <sys/wait.h> + + static int + mysystem (char *cmd) + { + int rv = 0; + + if (fork()) + wait (&rv); + else + execl("/bin/sh", "sh", "-c", cmd); + + if (rv != 0) + clib_unix_warning ("('%s') child process returned %d", cmd, rv); + return rv; + } + + static clib_error_t * + restart_isc_dhcp_server_command_fn (vlib_main_t * vm, + unformat_input_t * input, + vlib_cli_command_t * cmd) + { + int rv; + + /* Wait a while... */ + vlib_process_suspend (vm, 2.0); + + rv = mysystem("/usr/sbin/service isc-dhcp-server restart"); + + vlib_cli_output (vm, "Restarted the isc-dhcp-server, status %d...", rv); + return 0; + } + + VLIB_CLI_COMMAND (restart_isc_dhcp_server_command, static) = + { + .path = "service restart isc-dhcp-server", + .short_help = "restarts the isc-dhcp-server", + .function = restart_isc_dhcp_server_command_fn, + }; + + static clib_error_t * + restart_dora_tunnels_command_fn (vlib_main_t * vm, + unformat_input_t * input, + vlib_cli_command_t * cmd) + { + int rv; + + /* Wait three seconds... */ + vlib_process_suspend (vm, 3.0); + + rv = mysystem ("/usr/sbin/service dora restart"); + + vlib_cli_output (vm, "Restarted the dora tunnel service, status %d...", rv); + return 0; + } + + VLIB_CLI_COMMAND (restart_dora_tunnels_command, static) = + { + .path = "service restart dora", + .short_help = "restarts the dora tunnel service", + .function = restart_dora_tunnels_command_fn, + }; + + static clib_error_t * + restart_vpp_service_command_fn (vlib_main_t * vm, + unformat_input_t * input, + vlib_cli_command_t * cmd) + { + (void) mysystem ("/usr/sbin/service vpp restart"); + return 0; + } + + VLIB_CLI_COMMAND (restart_vpp_service_command, static) = + { + .path = "service restart vpp", + .short_help = "restarts the vpp service, be careful what you wish for", + .function = restart_vpp_service_command_fn, + }; + +Using the time-based mac filter plugin +-------------------------------------- + +If you need to restrict network access for certain devices to specific +daily time ranges, configure the "mactime" plugin. Add it to the list of +enabled plugins in /etc/vpp/startup.conf, then enable the feature on the +NAT "inside" interfaces: + +.. code-block:: c + + bin mactime_enable_disable GigabitEthernet0/14/0 + bin mactime_enable_disable GigabitEthernet0/14/1 + ... + +Create the required src-mac-address rule database. There are 4 rule +entry types: + +- allow-static - pass traffic from this mac address +- drop-static - drop traffic from this mac address +- allow-range - pass traffic from this mac address at specific times +- drop-range - drop traffic from this mac address at specific times + +Here are some examples: + +.. code-block:: c + + bin mactime_add_del_range name alarm-system mac 00:de:ad:be:ef:00 allow-static + bin mactime_add_del_range name unwelcome mac 00:de:ad:be:ef:01 drop-static + bin mactime_add_del_range name not-during-business-hours mac <mac> drop-range Mon - Fri 7:59 - 18:01 + bin mactime_add_del_range name monday-busines-hours mac <mac> allow-range Mon 7:59 - 18:01 |