From 257a2f1965174e566dec594b350f2c4e83640cbc Mon Sep 17 00:00:00 2001 From: pbldp <> Date: Fri, 9 May 2003 20:25:58 +0000 Subject: [PATCH] Some fixes --- .../Peter-Bieringer/Linux+IPv6-HOWTO.de.lyx | 35 +++++++----- .../Peter-Bieringer/Linux+IPv6-HOWTO.lyx | 56 +++++++++++-------- 2 files changed, 53 insertions(+), 38 deletions(-) diff --git a/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.de.lyx b/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.de.lyx index c1da1a30..4757502b 100644 --- a/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.de.lyx +++ b/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.de.lyx @@ -52,7 +52,7 @@ Bieringer \layout SGML - 0.41.4.de.1 2003-05-02a 0.41.4.de.1 2003-05-02 PB Details siehe \begin_inset LatexCommand \ref[revision history]{revision-history} @@ -974,6 +974,16 @@ IPv6 ist ein neues Schicht 3 Transportprotokoll (siehe vom Januar 1980). Seitdem wurden viele Adressen vergeben und Erweiterungen angeregt. + Die aktuelle RFC ist +\lang english + +\begin_inset LatexCommand \url[RFC 2460 / Internet Protocol Version 6 Specification]{http://www.faqs.org/rfcs/rfc760.html} + +\end_inset + + +\lang ngerman +. Hauptänderungen in IPv6 sind das neue Design des Headers sowie die Erweiterung der Adresslänge von 32 bits auf 128 bits. Die Schicht 3 ist für den Transport der Pakete von Endpunkt-zu-Endpunkt @@ -1607,7 +1617,7 @@ x fe8 \shape italic \emph on -x: <- currently the only one in use. +x: <- zurzeit als einziger in Benutzung \layout Code fe9 @@ -1630,9 +1640,6 @@ x: Eine Adresse mit diesem Präfix gibt es an jedem IPv6 fähigen Interface nach einer stateless automatischen Konfiguration (dies ist der Regelfall). -\layout Standard - -Hinweis: Derzeit ist nur fe80 in Verwendung. \layout Subsection Site-lokaler Adress-Typ @@ -4388,14 +4395,14 @@ Die 6to4 Adresse wird wie folgt definiert (Schema ist dem +---+------+-----------+--------+--------------------------------+ \layout Standard -FP ist das bekannte Präfix für globale Adressen, TLA ist der Top Level Aggregato -r. +FP und TLA zusammen haben den Wert 0x2002. V4ADDR ist die weltweit einmalige IPv4 Adresse des Knoten (in hexadezimaler Notation). - Mit dem SLA wird das Subnets identifiziert (65536 lokale Subnets sind möglich). + Mit dem SLA wird das Subnetz identifiziert (65536 lokale Subnetze sind + möglich) und benutzbar, um die lokale Netzwerstruktur abzubilden. \layout Standard -Bei diesem Präfix wird normalerweise mit dem SLA +Für Gateays wird dieser Präfix normalerweise mit dem SLA \begin_inset Quotes sld \end_inset @@ -4403,7 +4410,7 @@ Bei diesem Pr \begin_inset Quotes srd \end_inset - erstellt und dem 6to4 Tunnel-Interface das Suffix + definiert und dem 6to4 Tunnel-Interface das Suffix \begin_inset Quotes sld \end_inset @@ -4913,7 +4920,7 @@ Dann ist das daraus resultierende 6to4 Pr 2002:0102:0304:: \layout Standard -Lokalen 6to4 Gateways sollte immer das manuelle Suffix +Lokalen 6to4 Gateways sollte immer das Suffix \begin_inset Quotes sld \end_inset @@ -5124,7 +5131,7 @@ echo \end_inset können Sie am einfachsten das /proc Dateisystem einsehen. - Hierfür gibt es aber zwei Voraussetzungen, die erfüllt sein müssen: + Hierfür gibt es aber einige Voraussetzungen, die erfüllt sein müssen: \layout Itemize Das /proc-Dateisystem muss im Kernel aktiviert sein. @@ -10177,7 +10184,7 @@ Wissenschaftliche Publikationen (Kurzbeschreibungen, Bibliographien, Online \end_inset , Dezember 2002 publiziert von -\begin_inset LatexCommand \url[IPv6 Cluster]{http://www.ist-ipv6.org/index.html} +\begin_inset LatexCommand \url[IPv6 Cluster]{http://www.ist-ipv6.org/} \end_inset @@ -10793,7 +10800,7 @@ Aktuelle (auch) IPv6-bezogene Drafts finden Sie hier: \layout Itemize -\begin_inset LatexCommand \url[Next Generation Transitition (ngtrans)]{http://www.ietf.org/ids.by.wg/ngtrans.html} +\begin_inset LatexCommand \url[Next Generation Transition (ngtrans)]{http://www.ietf.org/ids.by.wg/ngtrans.html} \end_inset diff --git a/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.lyx b/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.lyx index 514c32e8..ce7bfce3 100644 --- a/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.lyx +++ b/LDP/users/Peter-Bieringer/Linux+IPv6-HOWTO.lyx @@ -52,7 +52,7 @@ Bieringer \layout SGML - Release 0.41.3 2003-04-23a Release 0.41.3 2003-04-23 PB See \begin_inset LatexCommand \ref[revision history]{revision-history} @@ -400,7 +400,6 @@ German With 2002-11-10 a German translation was started by Georg Käfer and the first public version was published 2003-02-10. - Taken source: CVS-version 1.53 of LyX file = howto version 0.39.2. It's originally available on Deep Space 6 at \begin_inset LatexCommand \url[http://mirrors.deepspace6.net/Linux+IPv6-HOWTO-de/]{http://mirrors.deepspace6.net/Linux+IPv6-HOWTO-de/} @@ -413,8 +412,14 @@ With 2002-11-10 a German translation was started by Georg K French \layout Standard -With 2003-04-09 a French translation was started and is still in progress - by Michel Boucey . +With 2003-04-09 a French translation was started by Michel Boucey and the first public version was published 2003-05-04. + It's originally available on Deep Space 6 at +\begin_inset LatexCommand \url[http://mirrors.deepspace6.net/Linux+IPv6-HOWTO-fr/]{http://mirrors.deepspace6.net/Linux+IPv6-HOWTO-fr/} + +\end_inset + +. \layout Section Technical @@ -951,7 +956,7 @@ Basics What is IPv6? \layout Standard -IPv6 is a new layer 3 transport protocol (see +IPv6 is a new layer 3 protocol (see \color red \begin_inset LatexCommand \url[linuxports/howto/intro_to_networking/ISO - OSI Model]{http://www.linuxports.com/howto/intro_to_networking/c4412.htm#PAGE103HTML} @@ -968,6 +973,12 @@ IPv6 is a new layer 3 transport protocol (see from January 1980) and since its inception, there have been many requests for more addresses and enhanced capabilities. + Latest RFC is +\begin_inset LatexCommand \url[RFC 2460 / Internet Protocol Version 6 Specification]{http://www.faqs.org/rfcs/rfc760.html} + +\end_inset + +. Major changes in IPv6 are the redesign of the header, including the increase of address size from 32 bits to 128 bits. Because layer 3 is responsible for end-to-end packet transport using packet @@ -1584,9 +1595,6 @@ x: An address with this prefix is found on each IPv6-enabled interface after stateless auto-configuration (which is normally always the case). -\layout Standard - -Note: only fe80 is currently in use. \layout Subsection Site local address type @@ -1995,9 +2003,9 @@ Automatically computed (also known as stateless) With auto-configuration, the host part of the address is computed by converting the MAC address of an interface (if available), with the EUI-64 method, to a unique IPv6 address. - If no MAC address is available (happens e.g. - on virtual devices), something else (like the IPv4 addresses or the MAC - address of a physical interface) is used instead. + If no MAC address is available for this device (happens e.g. + on virtual devices), something else (like the IPv4 address or the MAC address + of a physical interface) is used instead. \layout Standard \align left Consider again the first example @@ -4267,13 +4275,13 @@ The 6to4 address is defined like following (schema is taken from +---+------+-----------+--------+--------------------------------+ \layout Standard -Where FP is the known prefix for global addresses, TLA is the top level - aggregator. +FP and TLA together (16 bits) have the value 0x2002. V4ADDR is the node's global unique IPv4 address (in hexadecimal notation). - SLA is the subnet identifier (65536 local subnets possible). + SLA is the subnet identifier (65536 local subnets possible) and are usable + to represent your local network structure. \layout Standard -Such prefix is generated and normally using SLA +For gateways, such prefix is generated by normally using SLA \begin_inset Quotes sld \end_inset @@ -4289,7 +4297,7 @@ Such prefix is generated and normally using SLA \begin_inset Quotes srd \end_inset - assigned to the 6to4 tunnel interface. + and assigned to the 6to4 tunnel interface. \layout Subsubsection 6to4 upstream tunneling @@ -4767,7 +4775,7 @@ the generated 6to4 prefix will be 2002:0102:0304:: \layout Standard -Local 6to4 gateways should always assigned the manual suffix +Local 6to4 gateways should always assigned the suffix \begin_inset Quotes sld \end_inset @@ -5020,7 +5028,7 @@ echo \begin_inset Quotes srd \end_inset - is the simplest way to access the /proc filesystem, but two requirements + is the simplest way to access the /proc filesystem, but some requirements are needed for that \layout Itemize @@ -5309,7 +5317,7 @@ In IPv6 you can't control forwarding per device, forwarding control has for more). This is different to IPv4, where you are able to control forwarding per - device (decission is made on interface where packet came in). + device (decision is made on interface where packet came in). \layout Standard This also sets all interfaces' Host/Router setting 'forwarding' to the specified @@ -5868,7 +5876,7 @@ icmp_* \layout Standard This control settings are not used by IPv6. - To enable ICMPv6 rate limting (which is very recommended because of the + To enable ICMPv6 rate limiting (which is very recommended because of the capability of ICMPv6 storms) netfilter-v6 rules must be used. \layout Subsection @@ -6909,8 +6917,8 @@ Be sure that IPv6 is loaded, either because it is compiled into the kernel \layout Enumerate Configure your interface. - Here we assume eth0 and RIR address (3ffe::). - Edit /etc/network/interfaces : + Here we assume eth0 and address (3ffe:ffff:1234:5::1:1). + Edit /etc/network/interfaces: \layout Code iface eth0 inet6 static @@ -9941,7 +9949,7 @@ Science Publications (abstracts, bibliographies, online resources) \end_inset , December 2002 published by -\begin_inset LatexCommand \url[IPv6 Cluster]{http://www.ist-ipv6.org/index.html} +\begin_inset LatexCommand \url[IPv6 Cluster]{http://www.ist-ipv6.org/} \end_inset @@ -10551,7 +10559,7 @@ Current (also) IPv6-related drafts can be found here: \layout Itemize -\begin_inset LatexCommand \url[Next Generation Transitition (ngtrans)]{http://www.ietf.org/ids.by.wg/ngtrans.html} +\begin_inset LatexCommand \url[Next Generation Transition (ngtrans)]{http://www.ietf.org/ids.by.wg/ngtrans.html} \end_inset