X-Git-Url: https://git.proxmox.com/?p=pve-docs.git;a=blobdiff_plain;f=pve-firewall.adoc;h=5f76f5deaa0f36db0f75ca31d4940a430a844a49;hp=c05eacbc8d3cfa669464c4c40539f5214f9e9c9f;hb=0840a66374ea6d49432f11addf1a32ddba3d6021;hpb=14c0602313ab11770113b10dc0c5571440036bab

diff --git a/pve-firewall.adoc b/pve-firewall.adoc
index c05eacb..5f76f5d 100644
--- a/pve-firewall.adoc
+++ b/pve-firewall.adoc
@@ -6,7 +6,7 @@ include::attributes.txt[]
 NAME
 ----
 
-pve-firewall - The PVE Firewall Daemon
+pve-firewall - PVE Firewall Daemon
 
 
 SYNOPSYS
@@ -25,13 +25,11 @@ ifndef::manvolnum[]
 include::attributes.txt[]
 endif::manvolnum[]
 
-// Copied from pve wiki: Revision as of 08:45, 9 November 2015
-
 Proxmox VE Firewall provides an easy way to protect your IT
-infrastructure. You can easily setup firewall rules for all hosts
+infrastructure. You can setup firewall rules for all hosts
 inside a cluster, or define rules for virtual machines and
 containers. Features like firewall macros, security groups, IP sets
-and aliases help making that task easier.
+and aliases helps to make that task easier.
 
 While all configuration is stored on the cluster file system, the
 iptables based firewall runs on each cluster node, and thus provides
@@ -39,8 +37,9 @@ full isolation between virtual machines. The distributed nature of
 this system also provides much higher bandwidth than a central
 firewall solution.
 
-NOTE: If you enable the firewall, all traffic is blocked by default,
-except WebGUI(8006) and ssh(22) from your local network.
+The firewall has full support for IPv4 and IPv6. IPv6 support is fully
+transparent, and we filter traffic for both protocols by default. So
+there is no need to maintain a different set of rules for IPv6.
 
 
 Zones
@@ -60,34 +59,61 @@ For each zone, you can define firewall rules for incoming and/or
 outgoing traffic.
 
 
-Ports used by Proxmox VE
-------------------------
-
-* Web interface: 8006
-* VNC Web console: 5900-5999
-* SPICE proxy: 3128
-* sshd (used for cluster actions): 22
-* rpcbind: 111
-*  corosync multicast (if you run a cluster): 5404, 5405 UDP
-
-
-Configuration
--------------
+Configuration Files
+-------------------
 
 All firewall related configuration is stored on the proxmox cluster
 file system. So those files are automatically distributed to all
 cluster nodes, and the 'pve-firewall' service updates the underlying
-iptables rules automatically on any change. Any configuration can be
-done using the GUI (i.e. Datacenter -> Firewall -> Options tab (tabs
-at the bottom of the page), or on a Node -> Firewall), so the
-following configuration file snippets are just for completeness.
+iptables rules automatically on changes.
+
+You can configure anything using the GUI (i.e. Datacenter -> Firewall,
+or on a Node -> Firewall), or you can edit the configuration files
+directly using your preferred editor.
+
+Firewall configuration files contains sections of key-value
+pairs. Lines beginning with a '#' and blank lines are considered
+comments. Sections starts with a header line containing the section
+name enclosed in '[' and ']'.
+
 
-Cluster wide configuration is stored at:
+Cluster Wide Setup
+~~~~~~~~~~~~~~~~~~
+
+The cluster wide firewall configuration is stored at:
  
  /etc/pve/firewall/cluster.fw
 
-The firewall is completely disabled by default, so you need to set the
-enable option here:
+The configuration can contain the following sections:
+
+'[OPTIONS]'::
+
+This is used to set cluster wide firewall options.
+
+include::pve-firewall-cluster-opts.adoc[]
+
+'[RULES]'::
+
+This sections contains cluster wide firewall rules for all nodes.
+
+'[IPSET <name>]'::
+
+Cluster wide IP set definitions.
+
+'[GROUP <name>]'::
+
+Cluster wide security group definitions.
+
+'[ALIASES]'::
+
+Cluster wide Alias definitions.
+
+
+Enabling the Firewall
+^^^^^^^^^^^^^^^^^^^^^
+
+The firewall is completely disabled by default, so you need to
+set the enable option here:
 
 ----
 [OPTIONS]
@@ -95,40 +121,88 @@ enable option here:
 enable: 1
 ----
 
-The cluster wide configuration can contain the following data:
+IMPORTANT: If you enable the firewall, traffic to all hosts is blocked by
+default. Only exceptions is WebGUI(8006) and ssh(22) from your local
+network.
 
-* IP set definitions
-* Alias definitions
-* Security group definitions
-* Cluster wide firewall rules for all nodes
+If you want to administrate your {pve} hosts from remote, you
+need to create rules to allow traffic from those remote IPs to the web
+GUI (port 8006). You may also want to allow ssh (port 22), and maybe
+SPICE (port 3128).
 
-VM firewall configuration is read from:
+TIP: Please open a SSH connection to one of your {PVE} hosts before
+enabling the firewall. That way you still have access to the host if
+something goes wrong .
 
- /etc/pve/firewall/<VMID>.fw
+To simplify that task, you can instead create an IPSet called
+'management', and add all remote IPs there. This creates all required
+firewall rules to access the GUI from remote.
 
-and contains the following data:
 
-* IP set definitions
-* Alias definitions
-* Firewall rules for this VM
-* VM specific options
+Host specific Configuration
+~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
-And finally, any host related configuration is read from:
+Host related configuration is read from:
 
  /etc/pve/nodes/<nodename>/host.fw
 
 This is useful if you want to overwrite rules from 'cluster.fw'
 config. You can also increase log verbosity, and set netfilter related
-options.
+options. The configuration can contain the following sections:
+
+'[OPTIONS]'::
+
+This is used to set host related firewall options.
+
+include::pve-firewall-host-opts.adoc[]
+
+'[RULES]'::
+
+This sections contains host specific firewall rules.
+
+
+VM/Container configuration
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+VM firewall configuration is read from:
+
+ /etc/pve/firewall/<VMID>.fw
+
+and contains the following data:
+
+'[OPTIONS]'::
+
+This is used to set VM/Container related firewall options.
+
+include::pve-firewall-vm-opts.adoc[]
+
+'[RULES]'::
+
+This sections contains VM/Container firewall rules.
+
+'[IPSET <name>]'::
+
+IP set definitions.
+
+'[ALIASES]'::
+
+IP Alias definitions.
+
 
 Enabling the Firewall for VMs and Containers
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+Each virtual network device has its own firewall enable flag. So you
+can selectively enable the firewall for each interface. This is
+required in addition to the general firewall 'enable' option.
+
+The firewall requires a special network device setup, so you need to
+restart the VM/container after enabling the firewall on a network
+interface.
 
-You need to enable the firewall on the virtual network interface configuration
-in addition to the general 'Enable Firewall' option in the 'Options' tab.
 
 Firewall Rules
-~~~~~~~~~~~~~~
+--------------
 
 Firewall rules consists of a direction (`IN` or `OUT`) and an
 action (`ACCEPT`, `DENY`, `REJECT`). You can also specify a macro
@@ -167,7 +241,7 @@ OUT ACCEPT # accept all outgoing packages
 ----
 
 Security Groups
-~~~~~~~~~~~~~~~
+---------------
 
 A security group is a collection of rules, defined at cluster level, which
 can be used in all VMs' rules. For example you can define a group named
@@ -192,7 +266,7 @@ GROUP webserver
 
 
 IP Aliases
-~~~~~~~~~~
+----------
 
 IP Aliases allow you to associate IP addresses of networks with a
 name. You can then refer to those names:
@@ -201,7 +275,7 @@ name. You can then refer to those names:
 * in `source` and `dest` properties of firewall rules
 
 Standard IP alias `local_network`
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
 This alias is automatically defined. Please use the following command
 to see assigned values:
@@ -228,7 +302,7 @@ local_network 1.2.3.4 # use the single ip address
 ----
 
 IP Sets
-~~~~~~~
+-------
 
 IP sets can be used to define groups of networks and hosts. You can
 refer to them with `+name` in the firewall rules' `source` and `dest`
@@ -240,7 +314,7 @@ set.
  IN HTTP(ACCEPT) -source +management
 
 Standard IP set `management`
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
 This IP set applies only to host firewalls (not VM firewalls).  Those
 ips are allowed to do normal management tasks (PVE GUI, VNC, SPICE,
@@ -259,7 +333,7 @@ communication. (multicast,ssh,...)
 ----
 
 Standard IP set 'blacklist'
-^^^^^^^^^^^^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
 Traffic from these ips is dropped by every host's and VM's firewall.
 
@@ -273,7 +347,7 @@ Traffic from these ips is dropped by every host's and VM's firewall.
 
 [[ipfilter-section]]
 Standard IP set 'ipfilter-net*'
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
 These filters belong to a VM's network interface and are mainly used to prevent
 IP spoofing. If such a set exists for an interface then any outgoing traffic
@@ -295,8 +369,9 @@ discovery protocol to work.
 192.168.2.10
 ----
 
+
 Services and Commands
-~~~~~~~~~~~~~~~~~~~~~
+---------------------
 
 The firewall runs two service daemons on each node:
 
@@ -320,11 +395,12 @@ If you want to see the generated iptables rules you can use:
 
  # iptables-save
 
+
 Tips and Tricks
-~~~~~~~~~~~~~~~
+---------------
 
 How to allow FTP
-^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~
 
 FTP is an old style protocol which uses port 21 and several other dynamic ports. So you
 need a rule to accept port 21. In addition, you need to load the 'ip_conntrack_ftp' module.
@@ -334,8 +410,9 @@ So please run:
 
 and add `ip_conntrack_ftp` to '/etc/modules' (so that it works after a reboot) .
 
+
 Suricata IPS integration
-^^^^^^^^^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~~~~~~~~~
 
 If you want to use the http://suricata-ids.org/[Suricata IPS]
 (Intrusion Prevention System), it's possible.
@@ -373,33 +450,8 @@ Available queues are defined in
 NFQUEUE=0
 ----
 
-Notes on IPv6
-^^^^^^^^^^^^^
-
-The firewall contains a few IPv6 specific options. One thing to note is that
-IPv6 does not use the ARP protocol anymore, and instead uses NDP (Neighbor
-Discovery Protocol) which works on IP level and thus needs IP addresses to
-succeed. For this purpose link-local addresses derived from the interface's MAC
-address are used. By default the 'NDP' option is enabled on both host and VM
-level to allow neighbor discovery (NDP) packets to be sent and received.
-
-Beside neighbor discovery NDP is also used for a couple of other things, like
-autoconfiguration and advertising routers.
-
-By default VMs are allowed to send out router solicitation messages (to query
-for a router), and to receive router advetisement packets. This allows them to
-use stateless auto configuration. On the other hand VMs cannot advertise
-themselves as routers unless the 'Allow Router Advertisement' (`radv: 1`) option
-is set.
-
-As for the link local addresses required for NDP, there's also an 'IP Filter'
-(`ipfilter: 1`) option which can be enabled which has the same effect as adding
-an `ipfilter-net*` ipset for each of the VM's network interfaces containing the
-corresponding link local addresses.  (See the
-<<ipfilter-section,Standard IP set 'ipfilter-net*'>> section for details.)
-
 Avoiding link-local addresses on tap and veth devices
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 
 With IPv6 enabled by default every interface gets a MAC-derived link local
 address. However, most devices on a typical {pve} setup are connected to a
@@ -431,16 +483,72 @@ net.ipv6.conf.lo.disable_ipv6 = 0
 ----
 # /etc/network/interfaces
 (...)
+# Dual stack:
+iface vmbr0 inet static
+    address 1.2.3.4
+    netmask 255.255.255.128
+    gateway 1.2.3.5
 iface vmbr0 inet6 static
     address fc00::31
     netmask 16
     gateway fc00::1
     accept_ra 0
     pre-up echo 0 > /proc/sys/net/ipv6/conf/$IFACE/disable_ipv6
+
+# With IPv6-only 'pre-up' is too early and 'up' is too late.
+# Work around this by creating the bridge manually
+iface vmbr1 inet manual
+    pre-up ip link add $IFACE type bridge
+    up echo 0 > /proc/sys/net/ipv6/conf/$IFACE/disable_ipv6
+iface vmbr1 inet6 static
+    address fc00:b:3::1
+    netmask 96
+    bridge_ports none
+    bridge_stp off
+    bridge_fd 0
+    bridge_vlan_aware yes
+    accept_ra 0
 (...)
 ----
 
 
+Notes on IPv6
+-------------
+
+The firewall contains a few IPv6 specific options. One thing to note is that
+IPv6 does not use the ARP protocol anymore, and instead uses NDP (Neighbor
+Discovery Protocol) which works on IP level and thus needs IP addresses to
+succeed. For this purpose link-local addresses derived from the interface's MAC
+address are used. By default the 'NDP' option is enabled on both host and VM
+level to allow neighbor discovery (NDP) packets to be sent and received.
+
+Beside neighbor discovery NDP is also used for a couple of other things, like
+autoconfiguration and advertising routers.
+
+By default VMs are allowed to send out router solicitation messages (to query
+for a router), and to receive router advetisement packets. This allows them to
+use stateless auto configuration. On the other hand VMs cannot advertise
+themselves as routers unless the 'Allow Router Advertisement' (`radv: 1`) option
+is set.
+
+As for the link local addresses required for NDP, there's also an 'IP Filter'
+(`ipfilter: 1`) option which can be enabled which has the same effect as adding
+an `ipfilter-net*` ipset for each of the VM's network interfaces containing the
+corresponding link local addresses.  (See the
+<<ipfilter-section,Standard IP set 'ipfilter-net*'>> section for details.)
+
+
+Ports used by Proxmox VE
+------------------------
+
+* Web interface: 8006
+* VNC Web console: 5900-5999
+* SPICE proxy: 3128
+* sshd (used for cluster actions): 22
+* rpcbind: 111
+*  corosync multicast (if you run a cluster): 5404, 5405 UDP
+
+
 ifdef::manvolnum[]
 
 Macro Definitions