mirror of
git://slackware.nl/current.git
synced 2024-12-29 10:25:00 +01:00
57f9e5505b
patches/packages/network-scripts-15.0-noarch-19_slack15.0.txz: Rebuilt. This update fixes a bug and adds a new feature: Re-add support for the DHCP_IPADDR parameter from rc.inet1.conf. Expand the help text for DHCP_IPADDR in rc.inet1.conf. Add support for a DHCP_OPTS parameter. Thanks to ljb643 and Darren 'Tadgy' Austin. patches/packages/vim-9.0.1667-x86_64-1_slack15.0.txz: Upgraded. This fixes a rare divide-by-zero bug that could cause vim to crash. In an interactive program such as vim, I can't really see this qualifying as a security issue, but since it was brought up as such on LQ we'll just go along with it this time. :) Thanks to marav for the heads-up. (* Security fix *) patches/packages/vim-gvim-9.0.1667-x86_64-1_slack15.0.txz: Upgraded.
554 lines
28 KiB
Text
554 lines
28 KiB
Text
Slackware Network Configuration
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===============================
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Networking in Slackware is configured by the /etc/rc.d/rc.inet1 script, and the
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configuration file /etc/rc.d/rc.inet1.conf. Wireless interfaces are configured
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just like any network interface, but accept many more configuration parameters.
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The rc.inet1.conf file contains a series of variable array definitions, with
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each array index corresponding to a single network interface. This means that
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each set of parameters with an index of 0 configure the first interface (since
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indexing starts at 0), parameters with an index of 1 configure the second
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interface, and so on. Not all parameters need to be set for each type of
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interface, or interface number. This is better illustrated with examples,
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which you will find in the documentation below.
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Starting and Stopping Interfaces
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--------------------------------
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The way to start networking (configuring all NICs, bringing the interfaces up,
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and creating a default route, if required) is by running the command:
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/etc/rc.d/rc.inet1 start
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This command will configure all networking interfaces which are defined in the
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configuration file, and is used at boot time to bring networking up.
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The counterpart to this is the:
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/etc/rc.d/rc.inet1 stop
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command, which will bring all networking to a stop. It is advised to use this
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with caution as it can make your host completely inaccessable from the network.
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Restarting the whole network (all available network interfaces) and resetting
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the default gateway (if set) is done in a similar fashion to starting it:
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/etc/rc.d/rc.inet1 restart
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And will first deconfigure all interfaces, before bringing them back up - which
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is functionally equalivant to a 'stop' and 'start' operation.
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More specifically speaking, you can start/stop/restart any network interface on
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an individual basis using the commands:
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/etc/rc.d/rc.inet1 <interface>_start
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/etc/rc.d/rc.inet1 <interface>_stop
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/etc/rc.d/rc.inet1 <interface>_restart
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where <interface> is the name of an existing network interface (eth0, eth1,
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wlan0, etc).
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Guided Networking Configuration
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-------------------------------
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The 'netconfig' script is capable of configuring basic networking parameters for
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the first ethernet interface of the system, and writing an annotated
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/etc/rc.d/rc.inet1.conf configuration file. 'netconfig' is usually invoked
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during installation to configure the first ethernet interface of your freshly
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installed system.
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'netconfig' is capable of configuring a set of IPv4 and/or IPv6 addresses for an
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interface, or setting the interface to be configured using DHCP (both DHCPv4 and
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DHCPv6) and IPv6 StateLess Address Auto Configuration (SLAAC). The default
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gateways and nameservers can also be configured through the guided interface.
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The option to use NetworkManager for interface configuration (instead of
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rc.inet1.conf) is also available.
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For most users with a single ethernet interface, and simple IP configuration
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requirements, 'netconfig' can completely configure the networking sub-system for
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you.
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Deprecated and New IPv4 Configuration Syntax
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--------------------------------------------
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With the release of Slackware 15.0, several parameters used in older
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rc.inet1.conf configurations have become deprecated and are substituted by a
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new, singular, IP parameter for v4 addresses.
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Specifically, the following parameters used in previous rc.inet1.conf
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configurations to configure IPv4 addresses have become deprecated:
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IPADDR[x]=""
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NETMASK[x]=""
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IPALIASES[x]=""
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These parameters should no longer be used in new configurations.
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New configurations should use the updated syntax parameter:
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IPADDRS[x]=""
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which can hold multiple, space delimited, IPv4 addresses with their CIDR
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masks in order to configure an interface.
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The format for the addresses specified in this new parameter is:
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IP-address/mask
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For example:
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IPADDRS[0]="192.168.0.1/24 10.10.10.10/8"
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which would be the equilivant of old syntax:
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IPADDR[0]="192.168.0.1"
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NETMASK[0]="255.255.255.0"
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IPALIASES[0]="10.10.10.10/8"
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If a mask (in CIDR notation) is not provided with the IP address in IPADDRS, it
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is assumed to be /24 (aka, 255.255.255.0). A warning will also be emitted about
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the missing mask.
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rc.inet1 is fully backwards compatible with the older syntax - old configuration
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files will contiinue to be accepted for the foreseeable future, but 'netconfig'
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has been adjusted to output the new syntax.
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Notes:
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* When DHCP or SLAAC is used to dynamically configure the interface, IP
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addresses specified in IPADDRS will be added to the interface as alias IPs.
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However, any address specified in IPADDR is *not* added to the interface in
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order to maintain backwards semantics with the pre 15.0 rc.inet1.
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* Should an rc.inet1.conf contain both the IPADDR and IPADDRS parameters
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(without DHCP or SLAAC being in use) the addresses listed in IPADDRS will be
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added to the interface after the IPADDR address is set.
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Manual Networking Configuration
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-------------------------------
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FIXME
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IPv6
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----
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Overview
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~~~~~~~~
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With the new IPv4 syntax detailed above, there is the addition of optional
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configuration semantics for IPv6.
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The IPv6 capabilities in Slackware 15.0+ are as follows:
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* Dual stack. Interfaces can be configured with an IPv4 address or an IPv6
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address, or both.
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* Each interface can have single or multiple v4 and/or v6 IPs.
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* Optional StateLess Address Auto Configuration (SLAAC) of v6 IP addresses,
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for quick and easy IPv6 configuration on supported networks.
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* DHCPv6 support for server controlled dynamic address configuration.
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* Fixed IPv6 addresses configured interfaces.
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'netconfig' can be used for guided configuration of all of the above features,
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or they can be configured manually using the options below.
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IPv6 Parameters
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~~~~~~~~~~~~~~~
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v6 IPs can be configured via SLAAC, DHCP6 or statically using the following
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new options for rc.inet1.conf:
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USE_SLAAC[x]="" Allow StateLess Address Auto Configuration of a
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(potentially) globally routable v6 IP. With this
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parameter set to "yes", the interface's v6 IP will ONLY
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be configured via SLAAC, even if Router Advertisment
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indicates DHCPv6 is available on the network - if SLAAC
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is not available on the network, no IPv6 address will be
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assigned.
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Since 'dhcpcd' is capable of handling SLAAC as well as
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DHCPv6, it is better practice to set USE_DHCP6[x]="yes"
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to perform full auto configuration instead.
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USE_DHCP6[x]="" Use 'dhcpcd' to configure the interface. This will
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bring up the interface using DHCPv6, falling back to
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SLAAC (if supported on the network), or will leave the
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interface unconfigured after a timeout. When this
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parameter is set to "yes", the USE_SLAAC[x] option is
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ignored.
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This is the preferred option to configure an interface
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dynamically - whether the network is setup for DHCPv6 or
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SLAAC, 'dhcpcd' will be able to configure the interface.
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IP6ADDRS[x]="" The static v6 IP addresses for the interface. This
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parameter takes a list of v6 IP addresses and prefix
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lengths in CIDR notation, in a space delimited list.
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For example: IP6ADDRS[x]="a:b:c:d:e::1/48 1:2:3:4::5/64"
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If a prefix length is not given (separated from the IP
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address with a /), a length of 64 will be assumed, and
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a warning emitted about the unset value.
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When either the USE_DHCP6[x] or USE_SLAAC[x] options are
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set to "yes", the IP addresses listed in this parameter
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are also added to the interface, but only upon sucessful
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assigning of the dynamic IP address.
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A static gateway can be configured using this parameter:
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GATEWAY6="" The default IPv6 gateway for the network. This is a
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single IPv6 address in standard format, without a
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prefix suffix.
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The following lesser used misc options can be used for tailouring of the IPv6
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configuration process:
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USE_RA[x]="" Normally, unless USE_SLAAC[x]="yes" is set, Router
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Advertisment (RA) is disabled for the interface as it
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can result in extraneous routes being added to the
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routing table. With this option set to "yes", RA
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packets will be accepted on the interface even when DHCP
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or fixed IP addressing is used, and the routes
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advertised by the router will be added to the table.
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Conversely, if this parameter is explicitly set to "no",
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RA will be disabled at all times - meaning SLAAC cannot
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be performed even when USE_SLAAC[x]="yes" is set. The
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default (unset) is to enable RA when SLAAC is in use,
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and to disable it otherwise.
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The use of this parameter should rarely be required as
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rc.inet1 will do the right thing.
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SLAAC_TIMEOUT[x]="" The time to wait (in seconds) for an interface to be
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configured by SLAAC. When unset, the default is 15.
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Some networks may require a longer period for the router
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to broadcast an advertisement packet on the network, so
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may need to increase this value.
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Disabling IPv6
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~~~~~~~~~~~~~~
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For some use cases, where IPv6 support is not required at all, disabling IPv6
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may be a better option than leaving the interface unconfigured.
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There are two similar methods which can be used to disable IPv6. Both of the
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options involve creating (or replacing the content if it already exists in)
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the file:
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/etc/modprobe.d/ipv6.conf
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(which overrides any configuration in the /lib/modprobe.d/ipv6.conf file),
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with the content:
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alias ipv6 off
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alias net-pf-10 off
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Or:
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install ipv6 /bin/true
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install net-pf-10 /bin/true
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It is important to disable both the 'ipv6' and 'net-pf-10' modules since the
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module can be automatically loaded by either name.
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Changes From Previous Behaviour
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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* Previous to Slackware 15.0, if the network the host is connecting to is set
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up for StateLess Address Auto Configuration (SLAAC), the host would bring up
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an interface with a (potentially) globally routable IPv6 address with no
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configuration by the user. This has been changed so that all network
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configuration must be explicitly enabled. Thus, interfaces will no longer
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automatically come up with a valid IPv6 address on networks which support
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auto configuration, without enabling the USE_SLAAC[x]="yes" parameter for
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the interface. This is a security enhancement.
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* Unless RA is explicitly enabled using the USE_RA[x]="yes" option, rc.inet1
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now disables RA (via the accept_ra tunable in /proc) for an interface before
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trying to add any IPs configured for it. This prevents RA on the network
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from automatically adding any routes to the table. When USE_SLAAC[x]="yes"
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is set, RA is implicitly re-enabled for the interface (since SLAAC and RA
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are usually used together on a network), unless explicitly disabled with
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USE_RA[x]="no". This is a change from previous versions of Slackware, which
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would auto configure routes without any user intevention. This is a
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security enhancement.
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Caveats
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~~~~~~~
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* When being configured with the USE_DHCP[x]="yes" and USE_DHCP6[x]="yes"
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parameters for an interface (that is, configured to obtain both a v4 and v6
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addresses via DHCP), 'dhcpcd' will only wait until one type of IP is
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obtained before backgrounding - it will not wait for both a v4 AND v6 to be
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configured. This means there is no way to know if the interface has been
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completely configured for both types of IP, as one type will continue to be
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sought in the background; but MAY ultimately fail. This is an issue with
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the way dhcpcd operates, not an issue with rc.inet1.
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Bonding / Link Aggregation
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--------------------------
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Overview
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~~~~~~~~
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Bonding (or Link Aggregation) is a teccnique for combining two or more
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physical interfaces into a single, logical, interface; a logical interface
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which has all the capabilities of a single physical interface.
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The Slackware bonding options provide full support for the features offered by
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the bonding kernel module, in the familiar Slackware parameter configuration
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syntax. Included is the ability to select the bonding mode, easy addition of
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interfaces to a bond using a new parameter in rc.inet1.conf, and the setting
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of bonding module options via a new, generic, IFOPTS[x] parameter.
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At this time 'netconfig' is unable to configure bonded interfaces, so they
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must be configured manually with the parameters detailed below.
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Bonding Parameters
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~~~~~~~~~~~~~~~~~~
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Bonded interfaces can be configured via two new bond specific parameters for
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use in rc.inet1.conf, plus the new, generic, IFOPTS[x] parameter. The new
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bonding parameters are:
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BONDNICS[x]="" The space delimited list of interfaces to add to this
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bond. The interfaces will be brought up and configured
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while bringing up the interface, so do not need to be
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previously defined in rc.inet1.conf. A bond can be
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created with only 1 interface, but does not become
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useful until at least 2 interfaces are configured.
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BONDMODE[x]="" This parameter sets the bonding mode for the logical
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interface. If not specified when BONDNICS[x] has been
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used, the default is 'balance-rr'. See below for a
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list of all bonding modes available.
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Bonding Modes
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~~~~~~~~~~~~~
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When a bonded logical interface is created, it needs to operate in a
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particular mode. By default that mode is 'balance-rr'. The following modes,
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along with details of their functionallity, are available using the kernel
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bonding driver:
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802.3ad Also known as LACP. This mode requires a switch that
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supports an IEEE 802.3ad. The physical interfaces must
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share the same speed and duplex settings and form a
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logical interface which provides fault tolerance and
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load balancing.
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active-backup When in this mode only one interface set to active,
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while all other interfaces are in the backup state. If
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the active interface fails, a backup interface replaces
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it as the only active interface in the bond. This mode
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only provides fault tolerance, no load balancing.
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This mode requires that the 'primary <interface>'
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option be configured with the IFOPTS[x]="" parameter.
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balance-alb The receiving packets are load balanced through Address
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Resolution Protocol (ARP) negotiation. This mode
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provides fault tolerance and load balancing.
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balance-rr This mode is also known as round-robin mode. Packets
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are sequentially transmitted and received through each
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interface one by one. This mode provides load
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balancing functionality along with fault tolerance.
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This is the default mode of operation.
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balance-tlb This mode ensures that outgoing traffic is distributed
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according to the load on each physical interface. If
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one interface fails to receive traffic, another
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interface is assigned to the receiving role. This mode
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provides fault tolerance and load balancing.
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balance-xor The source MAC address uses eXclusive OR (XOR) logic
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with the destination MAC address in order to determine
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which physical interface the packet should be sent via.
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This calculation ensures that the same physical (slave)
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interface is selected for each destination host. If the
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physical interface to be used is in a failed state, one
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of the backup interfaces is used instead. This mode
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provides fault tolerance and load balancing.
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broadcast All packets are sent to all the physical (slaved)
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interfaces at once. This mode provides fault tolerence
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but may result in duplicate packets arriving at the
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destination host, assuming they are not screened out by
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networking hardware.
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Bonding Options
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~~~~~~~~~~~~~~~
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Bonding specific options can be set using the the IFOPTS[x]="" paramter (which
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takes a pipe (|) delimited list of options) for the interface being
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configured. The following are the most useful options (but not an exhaustive
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list - see "Further Reading" below for more information) which can be set:
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lacp_rate This option specifies the rate at which the host will
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ask the switch to transmit LACPDU packets in 802.3ad
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mode. Possible values are:
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slow Transmit LACPDUs every 30 seconds.
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fast Transmit LACPDUs every 1 second.
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The default is slow, but fast is recommended for rapid
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recovery after a physical link failure.
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miimon Specifies the MII link monitoring frequency in
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milliseconds. This determines how often the link state
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of each physical (slaved) interface is checked for link
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failures. A value of zero disables MII link monitoring,
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but this is NOT advised. A value of 100 is a good
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starting point. The default value is 0, so be sure to
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set this option with ALL bonding modes.
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primary The physical (slave) interface (eth0, eth1, etc) which
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is to be used as the primary interface. The specified
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interface will always be the active slave while it is
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available. Only when the primary interface is off-line
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will alternate interfaces be used. This is useful when
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one interface is preferred over another (e.g. when one
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interface has higher throughput than another). This
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option is only valid for "active-backup", "balance-tlb",
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and "balance-alb" bonding modes.
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xmit_hash_policy Selects the transmit hash policy to use for interface
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selection in "balance-xor", "802.3ad", and "balance-tlb"
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bonding modes. Possible values are:
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layer2 Use eXclusive OR (XOR) of source and
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destination MAC addresses and packet
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type ID fields to generate the hash.
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This algorithm will place all traffic
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to a particular destination on the
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same phydivsl (slave) interface.
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layer2+3 Use a combination of layer2 and
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layer3 protocol information (MAC
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addresses and IP addresses) to
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generate the hash. This algorithm
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will place all traffic to a particular
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destination on the same physical
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(slave) interface. This policy is
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intended to provide a more balanced
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distribution of traffic than layer2
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alone.
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layer3+4 This policy uses upper layer protocol
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information, when available, to
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generate the hash. This allows for
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traffic to a particular destination to
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span multiple physical (slave)
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interfaces, although a single
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connection will not span multiple
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slaves.
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The default value is layer2. Additional (lesser used)
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policies are available - see the "Further Reading"
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section below for further details.
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Caveats
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~~~~~~~
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* The IFOPTS[x]="" parameter should always include the 'miimon' option - not
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using this option will result in network degradation.
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* In "active-backup" mode, the "primary" option should also always be
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supplied.
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* When using "802.3ad" mode, set "lacp_rate fast" for faster recovery from an
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interface failure. In other modes, the 'xmit_hash_policy' should be set.
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Examples
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~~~~~~~~
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FIXME: Add examples.
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Further Reading
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~~~~~~~~~~~~~~~
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Full documentation of the bonding layer is available in the kernel source
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documentation at: /usr/src/linux/Documentation/networking/bonding.txt.
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VLANs (a.k.a, 802.1q)
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---------------------
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Overview
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~~~~~~~~
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Virtual LANs (VLANs) allow the segmentation of physical networks into
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multiple, isolated, private virtual networks, whilst using shared network
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switches and hardware.
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VLANs work by applying tags to network frames to form virtual private LANs.
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In this way, VLANs can keep network applications separate despite being
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connected to the same physical network, and without requiring multiple sets of
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cabling and networking devices to be deployed.
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In essence, a VLAN is a collection of devices or network hosts that
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communicate with one another as if they make up a single LAN, but utilising
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shared network hardware.
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Because VLAN frames are tagged with a VLAN ID, it is possible to 'cherry-pick'
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those frames from the network by use of a VLAN interface on the host.
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Slackware now allows configuration of such interfaces in order to allow a host
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to join a specific VLAN or VLANs. The guided deployment in 'netconfig' has
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been updated to support the creation of such VLAN interfaces.
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|
|
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The configuration in rc.inet1.conf for VLANs is a simple modification of the
|
|
existing support for declaration of a network interface using the standard
|
|
Slackware IFNAME[x] parameter. As shown in the examples below, VLANs
|
|
interfaces can be built on top on top of regular, physical, interfaces, or on
|
|
top of a bond interface to allow for link aggregation.
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|
|
|
The new IFOPT[x] generic interface options parameter can be used to customise
|
|
the usage and configuration of the VLAN interfaces, but is not required in a
|
|
normal configuration setting.
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|
|
|
|
|
Exposing VLANs
|
|
~~~~~~~~~~~~~~
|
|
Configuring VLAN interfaces utilises the standard Slackware networking
|
|
configuration syntax in rc.inet1.conf; with setting up an interface as simple
|
|
as changing the IFNAME[x]="" parameter.
|
|
|
|
VLAN interfaces can be configured quite simply in rc.inet1.conf, in the
|
|
standard Slackware way of defining an interface. The key to the configuration
|
|
is to use the correct IFNAME[x]="" parameter for the underlying physical (or
|
|
bond) interface and the tagged VLAN ID that should be exposed. For example:
|
|
IFNAME[0]="eth0.10"
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|
IFOPTS[0]=""
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IPADDRS[0]="192.168.10.1/24"
|
|
|
|
The VLAN ID is taken from the full interface name, as set in the IFNAME[x]
|
|
parameter which is comprised of the underlying physical (or bond) interface
|
|
name, a period (.) and the VLAN ID to expose. The above example would use the
|
|
physical interface 'eth0', and expose the VLAN with ID 10, and configure the
|
|
interface with the IPv4 address 192.168.10.1 with a mask of 24.
|
|
|
|
IFOPTS[x]="" is a pipe (|) delimited list of VLAN kernel module specific
|
|
settings to be applied to the interface. The ip-link(8) man page contains
|
|
details of exactly what settings can be used with this option (search for
|
|
"VLAN Type Support"). For example:
|
|
IFOPTS[x]="protocol 802.1ad | reorder_hdr off"
|
|
Under normal circumstances, where a standard VLAN interface is required, no
|
|
options need be supplied.
|
|
|
|
|
|
Examples
|
|
~~~~~~~~
|
|
FIXME: Add examples.
|
|
|
|
|
|
Bridges
|
|
-------
|
|
|
|
|
|
Wireless (WiFi) Network Interfaces
|
|
----------------------------------
|
|
|
|
|
|
TUN/TAP
|
|
-------
|
|
|
|
|
|
Advanced networking configuration
|
|
---------------------------------
|
|
(stacking interface configs - bond, then VLAN, then bridge)
|
|
|
|
It is also possible to use a bond as the underlying interface, which allows
|
|
link aggregated VLAN interfaces to be created for network redundancy. For
|
|
example:
|
|
IFNAME[0]="bond0"
|
|
BONDNICS[0]="eth0 eth1"
|
|
BONDMODE[0]="active-backup"
|
|
IFOPTS[0]="miimon 100 | primary eth0"
|
|
IFNAME[1]="bond0.5"
|
|
IFNAME[2]="br0"
|
|
BRNICS[2]="bond0.5"
|
|
IPADDRS[2]="192.168.5.10/24"
|
|
IP6ADDRS[2]="a:b:c:d::1/64"
|
|
Would create a bond interface using the eth0 and eth1 physical ethernet
|
|
interfaces, in an "active-backup" redundancy configuration with the primary
|
|
interface being "eth0", exposing VLAN ID 5 and setting an IPv4 address of
|
|
"192.168.5.10" mask "24", plus an IPv6 address of "a:b:c:d::1" prefix "64"
|
|
for the interface.
|
|
|
|
|
|
General Caveats
|
|
---------------
|
|
|
|
The network interface definitions are stored in variable arrays. The bash shell has no facilities to retrieve the largest array index used. There-
|
|
fore, the rc.inet1 script makes the assumption that array indexes stay below the value of 6. Effectively this means that you can configure up to 6
|
|
network interfaces in rc.inet1.conf by default.
|
|
|
|
If you want to configure more than six network interfaces, you will have to edit the file /etc/rc.d/rc.inet1.conf and change the value `6' in the
|
|
line:
|
|
#MAXNICS="6"
|
|
(at the very bottom of the file) to a value that is larger than the largest index value you use, and uncomment the line.
|
|
|
|
The /etc/rc.d/rc.wireless script is not meant to be run on its own by the user!
|
|
|
|
|
|
rc.inet1 does not keep a record of how an interface was configured. If the
|
|
interface config is changed in rc.inet1.conf from, say, DHCP to static IP,
|
|
restarting networking may fail because the previous type of interface config
|
|
cannot be stopped (because its type is unknown). In this instance, it is easier
|
|
to reboot to start from fresh. However, if reboot is not possible, it may be
|
|
required to bring the interface down manually (either by deconfiguring the IPs,
|
|
or killing dhcpcd) before trying to restart the interface.
|
|
|