+However, it is possible in theory for applications to even detect
+and make use of Shift + mouse clicks. We don't know of any
+applications that do this, but in case someone ever writes one,
+unchecking the \q{Shift overrides application's use of mouse}
+checkbox will cause Shift + mouse clicks to go to the server as well
+(so that mouse-driven copy and paste will be completely disabled).
+
+If you want to prevent the application from taking over the mouse at
+all, you can do this using the Features control panel; see
+\k{config-features-mouse}.
+
+\S{config-rectselect} Default selection mode
+
+\cfg{winhelp-topic}{selection.rect}
+
+As described in \k{using-selection}, PuTTY has two modes of
+selecting text to be copied to the clipboard. In the default mode
+(\q{Normal}), dragging the mouse from point A to point B selects to
+the end of the line containing A, all the lines in between, and from
+the very beginning of the line containing B. In the other mode
+(\q{Rectangular block}), dragging the mouse between two points
+defines a rectangle, and everything within that rectangle is copied.
+
+Normally, you have to hold down Alt while dragging the mouse to
+select a rectangular block. Using the \q{Default selection mode}
+control, you can set rectangular selection as the default, and then
+you have to hold down Alt to get the \e{normal} behaviour.
+
+\S{config-charclasses} Configuring word-by-word selection
+
+\cfg{winhelp-topic}{selection.charclasses}
+
+PuTTY will select a word at a time in the terminal window if you
+double-click to begin the drag. This panel allows you to control
+precisely what is considered to be a word.
+
+Each character is given a \e{class}, which is a small number
+(typically 0, 1 or 2). PuTTY considers a single word to be any
+number of adjacent characters in the same class. So by modifying the
+assignment of characters to classes, you can modify the word-by-word
+selection behaviour.
+
+In the default configuration, the character classes are:
+
+\b Class 0 contains white space and control characters.
+
+\b Class 1 contains most punctuation.
+
+\b Class 2 contains letters, numbers and a few pieces of punctuation
+(the double quote, minus sign, period, forward slash and
+underscore).
+
+So, for example, if you assign the \c{@} symbol into character class
+2, you will be able to select an e-mail address with just a double
+click.
+
+In order to adjust these assignments, you start by selecting a group
+of characters in the list box. Then enter a class number in the edit
+box below, and press the \q{Set} button.
+
+This mechanism currently only covers ASCII characters, because it
+isn't feasible to expand the list to cover the whole of Unicode.
+
+Character class definitions can be modified by control sequences
+sent by the server. This configuration option controls the
+\e{default} state, which will be restored when you reset the
+terminal (see \k{reset-terminal}). However, if you modify this
+option in mid-session using \q{Change Settings}, it will take effect
+immediately.
+
+\H{config-colours} The Colours panel
+
+The Colours panel allows you to control PuTTY's use of colour.
+
+\S{config-boldcolour} \q{Bolded text is a different colour}
+
+\cfg{winhelp-topic}{colours.bold}
+
+When the server sends a control sequence indicating that some text
+should be displayed in bold, PuTTY can handle this two ways. It can
+either change the font for a bold version, or use the same font in a
+brighter colour. This control lets you choose which.
+
+By default the box is checked, so non-bold text is displayed in
+light grey and bold text is displayed in bright white (and similarly
+in other colours). If you uncheck the box, bold and non-bold text
+will be displayed in the same colour, and instead the font will
+change to indicate the difference.
+
+\S{config-logpalette} \q{Attempt to use logical palettes}
+
+\cfg{winhelp-topic}{colours.logpal}
+
+Logical palettes are a mechanism by which a Windows application
+running on an 8-bit colour display can select precisely the colours
+it wants instead of going with the Windows standard defaults.
+
+If you are not getting the colours you ask for on an 8-bit display,
+you can try enabling this option. However, be warned that it's never
+worked very well.
+
+\S{config-syscolour} \q{Use system colours}
+
+\cfg{winhelp-topic}{colours.system}
+
+Enabling this option will cause PuTTY to ignore the configured colours
+for \q{Default Background/Foreground} and \q{Cursor Colour/Text} (see
+\k{config-colourcfg}), instead going with the system-wide defaults.
+
+Note that non-bold and bold text will be the same colour if this
+option is enabled. You might want to change to indicating bold text
+by font changes (see \k{config-boldcolour}).
+
+\S{config-colourcfg} Adjusting the colours in the terminal window
+
+\cfg{winhelp-topic}{colours.config}
+
+The main colour control allows you to specify exactly what colours
+things should be displayed in. To modify one of the PuTTY colours,
+use the list box to select which colour you want to modify. The RGB
+values for that colour will appear on the right-hand side of the
+list box. Now, if you press the \q{Modify} button, you will be
+presented with a colour selector, in which you can choose a new
+colour to go in place of the old one.
+
+PuTTY allows you to set the cursor colour, the default foreground
+and background, and the precise shades of all the ANSI configurable
+colours (black, red, green, yellow, blue, magenta, cyan, and white).
+You can also modify the precise shades used for the bold versions of
+these colours; these are used to display bold text if you have
+selected \q{Bolded text is a different colour}, and can also be used
+if the server asks specifically to use them.
+
+\H{config-connection} The Connection panel
+
+The Connection panel allows you to configure options that apply to
+more than one type of connection.
+
+\S{config-termtype} \q{Terminal-type string}
+
+\cfg{winhelp-topic}{connection.termtype}
+
+Most servers you might connect to with PuTTY are designed to be
+connected to from lots of different types of terminal. In order to
+send the right control sequences to each one, the server will need
+to know what type of terminal it is dealing with. Therefore, each of
+the SSH, Telnet and Rlogin protocols allow a text string to be sent
+down the connection describing the terminal.
+
+PuTTY attempts to emulate the Unix \c{xterm} program, and by default
+it reflects this by sending \c{xterm} as a terminal-type string. If
+you find this is not doing what you want - perhaps the remote
+terminal reports \q{Unknown terminal type} - you could try setting
+this to something different, such as \c{vt220}.
+
+If you're not sure whether a problem is due to the terminal type
+setting or not, you probably need to consult the manual for your
+application or your server.
+
+\S{config-termspeed} \q{Terminal speeds}
+
+\cfg{winhelp-topic}{connection.termspeed}
+
+The Telnet, Rlogin, and SSH protocols allow the client to specify
+terminal speeds to the server.
+
+This parameter does \e{not} affect the actual speed of the connection,
+which is always \q{as fast as possible}; it is just a hint that is
+sometimes used by server software to modify its behaviour. For
+instance, if a slow speed is indicated, the server may switch to a
+less bandwidth-hungry display mode.
+
+The value is usually meaningless in a network environment, but
+PuTTY lets you configure it, in case you find the server is reacting
+badly to the default value.
+
+The format is a pair of numbers separated by a comma, for instance,
+\c{38400,38400}. The first number represents the output speed
+(\e{from} the server), and the second is the input speed (\e{to} the
+server). (Only the first is used in the Rlogin protocol.)
+
+This option has no effect on Raw connections.
+
+\S{config-username} \q{Auto-login username}
+
+\cfg{winhelp-topic}{connection.username}
+
+All three of the SSH, Telnet and Rlogin protocols allow you to
+specify what user name you want to log in as, without having to type
+it explicitly every time. (Some Telnet servers don't support this.)
+
+In this box you can type that user name.
+
+\S{config-keepalive} Using keepalives to prevent disconnection
+
+\cfg{winhelp-topic}{connection.keepalive}
+
+If you find your sessions are closing unexpectedly (\q{Connection
+reset by peer}) after they have been idle for a while, you might
+want to try using this option.
+
+Some network routers and firewalls need to keep track of all
+connections through them. Usually, these firewalls will assume a
+connection is dead if no data is transferred in either direction
+after a certain time interval. This can cause PuTTY sessions to be
+unexpectedly closed by the firewall if no traffic is seen in the
+session for some time.
+
+The keepalive option (\q{Seconds between keepalives}) allows you to
+configure PuTTY to send data through the session at regular
+intervals, in a way that does not disrupt the actual terminal
+session. If you find your firewall is cutting idle connections off,
+you can try entering a non-zero value in this field. The value is
+measured in seconds; so, for example, if your firewall cuts
+connections off after ten minutes then you might want to enter 300
+seconds (5 minutes) in the box.
+
+Note that keepalives are not always helpful. They help if you have a
+firewall which drops your connection after an idle period; but if
+the network between you and the server suffers from breaks in
+connectivity then keepalives can actually make things worse. If a
+session is idle, and connectivity is temporarily lost between the
+endpoints, but the connectivity is restored before either side tries
+to send anything, then there will be no problem - neither endpoint
+will notice that anything was wrong. However, if one side does send
+something during the break, it will repeatedly try to re-send, and
+eventually give up and abandon the connection. Then when
+connectivity is restored, the other side will find that the first
+side doesn't believe there is an open connection any more.
+Keepalives can make this sort of problem worse, because they
+increase the probability that PuTTY will attempt to send data during
+a break in connectivity. Therefore, you might find they help
+connection loss, or you might find they make it worse, depending on
+what \e{kind} of network problems you have between you and the
+server.
+
+Keepalives are only supported in Telnet and SSH; the Rlogin and Raw
+protocols offer no way of implementing them. (For an alternative, see
+\k{config-tcp-keepalives}.)
+
+Note that if you are using SSH1 and the server has a bug that makes
+it unable to deal with SSH1 ignore messages (see
+\k{config-ssh-bug-ignore1}), enabling keepalives will have no effect.
+
+\S{config-nodelay} \q{Disable Nagle's algorithm}
+
+\cfg{winhelp-topic}{connection.nodelay}
+
+Nagle's algorithm is a detail of TCP/IP implementations that tries
+to minimise the number of small data packets sent down a network
+connection. With Nagle's algorithm enabled, PuTTY's bandwidth usage
+will be slightly more efficient; with it disabled, you may find you
+get a faster response to your keystrokes when connecting to some
+types of server.
+
+The Nagle algorithm is disabled by default.
+
+\S{config-tcp-keepalives} \q{Enable TCP keepalives}
+
+\cfg{winhelp-topic}{connection.tcpkeepalive}
+
+\e{NOTE:} TCP keepalives should not be confused with the
+application-level keepalives described in \k{config-keepalive}. If in
+doubt, you probably want application-level keepalives; TCP keepalives
+are provided for completeness.
+
+The idea of TCP keepalives is similar to application-level keepalives,
+and the same caveats apply. The main differences are:
+
+\b TCP keepalives are available on \e{all} connection types, including
+Raw and Rlogin.
+
+\b The interval between TCP keepalives is usually much longer,
+typically two hours; this is set by the operating system, and cannot
+be configured within PuTTY.
+
+\b If the operating system does not receive a response to a keepalive,
+it may send out more in quick succession and if terminate the connection
+if no response is received.
+
+TCP keepalives may be useful for ensuring that half-open connections
+are terminated than for keeping a connection alive.
+
+TCP keepalives are disabled by default.
+
+\H{config-proxy} The Proxy panel
+
+\cfg{winhelp-topic}{proxy.main}
+
+The Proxy panel allows you to configure PuTTY to use various types
+of proxy in order to make its network connections. The settings in
+this panel affect the primary network connection forming your PuTTY
+session, but also any extra connections made as a result of SSH port
+forwarding (see \k{using-port-forwarding}).
+
+\S{config-proxy-type} Setting the proxy type
+
+\cfg{winhelp-topic}{proxy.type}
+
+The \q{Proxy type} radio buttons allow you to configure what type of
+proxy you want PuTTY to use for its network connections. The default
+setting is \q{None}; in this mode no proxy is used for any
+connection.
+
+\b Selecting \q{HTTP} allows you to proxy your connections through a
+web server supporting the HTTP \cw{CONNECT} command, as documented
+in \W{http://www.ietf.org/rfc/rfc2817.txt}{RFC 2817}.
+
+\b Selecting \q{SOCKS 4} or \q{SOCKS 5} allows you to proxy your
+connections through a SOCKS server.
+
+\b Many firewalls implement a less formal type of proxy in which a
+user can make a Telnet connection directly to the firewall machine
+and enter a command such as \c{connect myhost.com 22} to connect
+through to an external host. Selecting \q{Telnet} allows you to tell
+PuTTY to use this type of proxy.
+
+\S{config-proxy-exclude} Excluding parts of the network from proxying
+
+\cfg{winhelp-topic}{proxy.exclude}
+
+Typically you will only need to use a proxy to connect to non-local
+parts of your network; for example, your proxy might be required for
+connections outside your company's internal network. In the
+\q{Exclude Hosts/IPs} box you can enter ranges of IP addresses, or
+ranges of DNS names, for which PuTTY will avoid using the proxy and
+make a direct connection instead.
+
+The \q{Exclude Hosts/IPs} box may contain more than one exclusion
+range, separated by commas. Each range can be an IP address or a DNS
+name, with a \c{*} character allowing wildcards. For example:
+
+\c *.example.com
+
+This excludes any host with a name ending in \c{.example.com} from
+proxying.
+
+\c 192.168.88.*
+
+This excludes any host with an IP address starting with 192.168.88
+from proxying.
+
+\c 192.168.88.*,*.example.com
+
+This excludes both of the above ranges at once.
+
+Connections to the local host (the host name \c{localhost}, and any
+loopback IP address) are never proxied, even if the proxy exclude
+list does not explicitly contain them. It is very unlikely that this
+behaviour would ever cause problems, but if it does you can change
+it by enabling \q{Consider proxying local host connections}.
+
+Note that if you are doing DNS at the proxy (see
+\k{config-proxy-dns}), you should make sure that your proxy
+exclusion settings do not depend on knowing the IP address of a
+host. If the name is passed on to the proxy without PuTTY looking it
+up, it will never know the IP address and cannot check it against
+your list.
+
+\S{config-proxy-dns} Name resolution when using a proxy
+
+\cfg{winhelp-topic}{proxy.dns}
+
+If you are using a proxy to access a private network, it can make a
+difference whether DNS name resolution is performed by PuTTY itself
+(on the client machine) or performed by the proxy.
+
+The \q{Do DNS name lookup at proxy end} configuration option allows
+you to control this. If you set it to \q{No}, PuTTY will always do
+its own DNS, and will always pass an IP address to the proxy. If you
+set it to \q{Yes}, PuTTY will always pass host names straight to the
+proxy without trying to look them up first.
+
+If you set this option to \q{Auto} (the default), PuTTY will do
+something it considers appropriate for each type of proxy. Telnet
+and HTTP proxies will have host names passed straight to them; SOCKS
+proxies will not.
+
+Note that if you are doing DNS at the proxy, you should make sure
+that your proxy exclusion settings (see \k{config-proxy-exclude}) do
+not depend on knowing the IP address of a host. If the name is
+passed on to the proxy without PuTTY looking it up, it will never
+know the IP address and cannot check it against your list.
+
+The original SOCKS 4 protocol does not support proxy-side DNS. There
+is a protocol extension (SOCKS 4A) which does support it, but not
+all SOCKS 4 servers provide this extension. If you enable proxy DNS
+and your SOCKS 4 server cannot deal with it, this might be why.
+
+\S{config-proxy-auth} Username and password
+
+\cfg{winhelp-topic}{proxy.auth}
+
+If your proxy requires authentication, you can enter a username and
+a password in the \q{Username} and \q{Password} boxes.
+
+Note that if you save your session, the proxy password will be
+saved in plain text, so anyone who can access your PuTTY
+configuration data will be able to discover it.
+
+Authentication is not fully supported for all forms of proxy:
+
+\b Username and password authentication is supported for HTTP
+proxies and SOCKS 5 proxies.
+
+\b SOCKS 4 can use the \q{Username} field, but does not support
+passwords.
+
+\b You can specify a way to include a username and password in the
+Telnet proxy command (see \k{config-proxy-command}).
+
+\S{config-proxy-command} Specifying the Telnet proxy command
+
+\cfg{winhelp-topic}{proxy.command}
+
+If you are using the Telnet proxy type, the usual command required
+by the firewall's Telnet server is \c{connect}, followed by a host
+name and a port number. If your proxy needs a different command,
+you can enter an alternative here.
+
+In this string, you can use \c{\\n} to represent a new-line, \c{\\r}
+to represent a carriage return, \c{\\t} to represent a tab
+character, and \c{\\x} followed by two hex digits to represent any
+other character. \c{\\\\} is used to encode the \c{\\} character
+itself.
+
+Also, the special strings \c{%host} and \c{%port} will be replaced
+by the host name and port number you want to connect to. The strings
+\c{%user} and \c{%pass} will be replaced by the proxy username and
+password you specify. To get a literal \c{%} sign, enter \c{%%}.
+
+If the Telnet proxy server prompts for a username and password
+before commands can be sent, you can use a command such as:
+
+\c %user\n%pass\nconnect %host %port\n
+
+This will send your username and password as the first two lines to
+the proxy, followed by a command to connect to the desired host and
+port. Note that if you do not include the \c{%user} or \c{%pass}
+tokens in the Telnet command, then the \q{Username} and \q{Password}
+configuration fields will be ignored.
+
+\H{config-telnet} The Telnet panel
+
+The Telnet panel allows you to configure options that only apply to
+Telnet sessions.
+
+\S{config-environ} Setting environment variables on the server
+
+\cfg{winhelp-topic}{telnet.environ}
+
+The Telnet protocol provides a means for the client to pass
+environment variables to the server. Many Telnet servers have
+stopped supporting this feature due to security flaws, but PuTTY
+still supports it for the benefit of any servers which have found
+other ways around the security problems than just disabling the
+whole mechanism.
+
+To add an environment variable to the list transmitted down the
+connection, you enter the variable name in the \q{Variable} box,
+enter its value in the \q{Value} box, and press the \q{Add} button.
+To remove one from the list, select it in the list box and press
+\q{Remove}.
+
+\S{config-oldenviron} \q{Handling of OLD_ENVIRON ambiguity}
+
+\cfg{winhelp-topic}{telnet.oldenviron}
+
+The original Telnet mechanism for passing environment variables was
+badly specified. At the time the standard (RFC 1408) was written,
+BSD telnet implementations were already supporting the feature, and
+the intention of the standard was to describe the behaviour the BSD
+implementations were already using.
+
+Sadly there was a typing error in the standard when it was issued,
+and two vital function codes were specified the wrong way round. BSD
+implementations did not change, and the standard was not corrected.
+Therefore, it's possible you might find either BSD or RFC-compliant
+implementations out there. This switch allows you to choose which
+one PuTTY claims to be.
+
+The problem was solved by issuing a second standard, defining a new
+Telnet mechanism called \cw{NEW_ENVIRON}, which behaved exactly like
+the original \cw{OLD_ENVIRON} but was not encumbered by existing
+implementations. Most Telnet servers now support this, and it's
+unambiguous. This feature should only be needed if you have trouble
+passing environment variables to quite an old server.
+
+\S{config-ptelnet} Passive and active Telnet negotiation modes
+
+\cfg{winhelp-topic}{telnet.passive}
+
+In a Telnet connection, there are two types of data passed between
+the client and the server: actual text, and \e{negotiations} about
+which Telnet extra features to use.
+
+PuTTY can use two different strategies for negotiation:
+
+\b In \e{active} mode, PuTTY starts to send negotiations as soon as
+the connection is opened.
+
+\b In \e{passive} mode, PuTTY will wait to negotiate until it sees a
+negotiation from the server.
+
+The obvious disadvantage of passive mode is that if the server is
+also operating in a passive mode, then negotiation will never begin
+at all. For this reason PuTTY defaults to active mode.
+
+However, sometimes passive mode is required in order to successfully
+get through certain types of firewall and Telnet proxy server. If
+you have confusing trouble with a firewall, you could try enabling
+passive mode to see if it helps.
+
+\S{config-telnetkey} \q{Keyboard sends telnet Backspace and Interrupt}
+
+\cfg{winhelp-topic}{telnet.specialkeys}
+
+If this box is checked, the Backspace key on the keyboard will send
+the Telnet special backspace code, and Control-C will send the
+Telnet special interrupt code. You probably shouldn't enable this
+unless you know what you're doing.
+
+\S{config-telnetnl} \q{Return key sends telnet New Line instead of ^M}
+
+\cfg{winhelp-topic}{telnet.newline}
+
+Unlike most other remote login protocols, the Telnet protocol has a
+special \q{new line} code that is not the same as the usual line
+endings of Control-M or Control-J. By default, PuTTY sends the
+Telnet New Line code when you press Return, instead of sending
+Control-M as it does in most other protocols.
+
+Most Unix-style Telnet servers don't mind whether they receive
+Telnet New Line or Control-M; some servers do expect New Line, and
+some servers prefer to see ^M. If you are seeing surprising
+behaviour when you press Return in a Telnet session, you might try
+turning this option off to see if it helps.
+
+\H{config-rlogin} The Rlogin panel
+
+The Rlogin panel allows you to configure options that only apply to
+Rlogin sessions.
+
+\S{config-rlogin-localuser} \q{Local username}
+
+\cfg{winhelp-topic}{rlogin.localuser}
+
+Rlogin allows an automated (password-free) form of login by means of
+a file called \c{.rhosts} on the server. You put a line in your
+\c{.rhosts} file saying something like \c{jbloggs@pc1.example.com},
+and then when you make an Rlogin connection the client transmits the
+username of the user running the Rlogin client. The server checks
+the username and hostname against \c{.rhosts}, and if they match it
+does not ask for a password.
+
+This only works because Unix systems contain a safeguard to stop a
+user from pretending to be another user in an Rlogin connection.
+Rlogin connections have to come from port numbers below 1024, and
+Unix systems prohibit this to unprivileged processes; so when the
+server sees a connection from a low-numbered port, it assumes the
+client end of the connection is held by a privileged (and therefore
+trusted) process, so it believes the claim of who the user is.
+
+Windows does not have this restriction: \e{any} user can initiate an
+outgoing connection from a low-numbered port. Hence, the Rlogin
+\c{.rhosts} mechanism is completely useless for securely
+distinguishing several different users on a Windows machine. If you
+have a \c{.rhosts} entry pointing at a Windows PC, you should assume
+that \e{anyone} using that PC can spoof your username in an Rlogin
+connection and access your account on the server.
+
+The \q{Local username} control allows you to specify what user name
+PuTTY should claim you have, in case it doesn't match your Windows
+user name (or in case you didn't bother to set up a Windows user
+name).
+
+\H{config-ssh} The SSH panel
+
+The SSH panel allows you to configure options that only apply to
+SSH sessions.
+
+\S{config-command} Executing a specific command on the server
+
+\cfg{winhelp-topic}{ssh.command}
+
+In SSH, you don't have to run a general shell session on the server.
+Instead, you can choose to run a single specific command (such as a
+mail user agent, for example). If you want to do this, enter the
+command in the \q{Remote command} box.
+
+\S{config-ssh-pty} \q{Don't allocate a pseudo-terminal}
+
+\cfg{winhelp-topic}{ssh.nopty}
+
+When connecting to a Unix system, most interactive shell sessions
+are run in a \e{pseudo-terminal}, which allows the Unix system to
+pretend it's talking to a real physical terminal device but allows
+the SSH server to catch all the data coming from that fake device
+and send it back to the client.
+
+Occasionally you might find you have a need to run a session \e{not}
+in a pseudo-terminal. In PuTTY, this is generally only useful for
+very specialist purposes; although in Plink (see \k{plink}) it is
+the usual way of working.
+
+\S{config-ssh-comp} \q{Enable compression}
+
+\cfg{winhelp-topic}{ssh.compress}
+
+This enables data compression in the SSH connection: data sent by
+the server is compressed before sending, and decompressed at the
+client end. Likewise, data sent by PuTTY to the server is compressed
+first and the server decompresses it at the other end. This can help
+make the most of a low-bandwidth connection.
+
+\S{config-ssh-prot} \q{Preferred SSH protocol version}
+
+\cfg{winhelp-topic}{ssh.protocol}
+
+This allows you to select whether you would like to use SSH protocol
+version 1 or version 2. \#{FIXME: say something about this elsewhere?}
+
+PuTTY will attempt to use protocol 1 if the server you connect to
+does not offer protocol 2, and vice versa.
+
+If you select \q{1 only} or \q{2 only} here, PuTTY will only connect
+if the server you connect to offers the SSH protocol version you
+have specified.
+
+\S{config-ssh-encryption} Encryption algorithm selection
+
+\cfg{winhelp-topic}{ssh.ciphers}
+
+PuTTY supports a variety of different encryption algorithms, and
+allows you to choose which one you prefer to use. You can do this by
+dragging the algorithms up and down in the list box (or moving them
+using the Up and Down buttons) to specify a preference order. When
+you make an SSH connection, PuTTY will search down the list from the
+top until it finds an algorithm supported by the server, and then
+use that.
+
+PuTTY currently supports the following algorithms:
+
+\b AES (Rijndael) - 256, 192, or 128-bit CBC (SSH-2 only)
+
+\b Blowfish - 128-bit CBC
+
+\b Triple-DES - 168-bit CBC
+
+\b Single-DES - 56-bit CBC (see below for SSH-2)
+
+If the algorithm PuTTY finds is below the \q{warn below here} line,
+you will see a warning box when you make the connection:
+
+\c The first cipher supported by the server
+\c is single-DES, which is below the configured
+\c warning threshold.
+\c Do you want to continue with this connection?
+
+This warns you that the first available encryption is not a very
+secure one. Typically you would put the \q{warn below here} line
+between the encryptions you consider secure and the ones you
+consider substandard. By default, PuTTY supplies a preference order
+intended to reflect a reasonable preference in terms of security and
+speed.
+
+In SSH-2, the encryption algorithm is negotiated independently for
+each direction of the connection, although PuTTY does not support
+separate configuration of the preference orders. As a result you may
+get two warnings similar to the one above, possibly with different
+encryptions.
+
+Single-DES is not recommended in the SSH 2 draft protocol
+standards, but one or two server implementations do support it.
+PuTTY can use single-DES to interoperate with
+these servers if you enable the \q{Enable legacy use of single-DES in
+SSH 2} option; by default this is disabled and PuTTY will stick to
+recommended ciphers.
+
+\H{config-ssh-auth} The Auth panel
+
+The Auth panel allows you to configure authentication options for
+SSH sessions.
+
+\S{config-ssh-tis} \q{Attempt TIS or CryptoCard authentication}
+
+\cfg{winhelp-topic}{ssh.auth.tis}
+
+TIS and CryptoCard authentication are simple challenge/response
+forms of authentication available in SSH protocol version 1 only.
+You might use them if you were using S/Key one-time passwords, for
+example, or if you had a physical security token that generated
+responses to authentication challenges.
+
+With this switch enabled, PuTTY will attempt these forms of
+authentication if the server is willing to try them. You will be
+presented with a challenge string (which will be different every
+time) and must supply the correct response in order to log in. If
+your server supports this, you should talk to your system
+administrator about precisely what form these challenges and
+responses take.
+
+\S{config-ssh-ki} \q{Attempt keyboard-interactive authentication}
+
+\cfg{winhelp-topic}{ssh.auth.ki}
+
+The SSH 2 equivalent of TIS authentication is called
+\q{keyboard-interactive}. It is a flexible authentication method
+using an arbitrary sequence of requests and responses; so it is not
+only useful for challenge/response mechanisms such as S/Key, but it
+can also be used for (for example) asking the user for a new
+password when the old one has expired.
+
+PuTTY leaves this option enabled by default, but supplies a switch
+to turn it off in case you should have trouble with it.
+
+\S{config-ssh-agentfwd} \q{Allow agent forwarding}
+
+\cfg{winhelp-topic}{ssh.auth.agentfwd}
+
+This option allows the SSH server to open forwarded connections back
+to your local copy of Pageant. If you are not running Pageant, this
+option will do nothing.
+
+See \k{pageant} for general information on Pageant, and
+\k{pageant-forward} for information on agent forwarding. Note that
+there is a security risk involved with enabling this option; see
+\k{pageant-security} for details.
+
+\S{config-ssh-changeuser} \q{Allow attempted changes of username in SSH2}
+
+\cfg{winhelp-topic}{ssh.auth.changeuser}
+
+In the SSH 1 protocol, it is impossible to change username after
+failing to authenticate. So if you mis-type your username at the
+PuTTY \q{login as:} prompt, you will not be able to change it except
+by restarting PuTTY.
+
+The SSH 2 protocol \e{does} allow changes of username, in principle,
+but does not make it mandatory for SSH 2 servers to accept them. In
+particular, OpenSSH does not accept a change of username; once you
+have sent one username, it will reject attempts to try to
+authenticate as another user. (Depending on the version of OpenSSH,
+it may quietly return failure for all login attempts, or it may send
+an error message.)
+
+For this reason, PuTTY will by default not prompt you for your
+username more than once, in case the server complains. If you know
+your server can cope with it, you can enable the \q{Allow attempted
+changes of username} option to modify PuTTY's behaviour.
+
+\S{config-ssh-privkey} \q{Private key file for authentication}
+
+\cfg{winhelp-topic}{ssh.auth.privkey}
+
+This box is where you enter the name of your private key file if you
+are using public key authentication. See \k{pubkey} for information
+about public key authentication in SSH.
+
+This key must be in PuTTY's native format (\c{*.PPK}).
+
+\H{config-ssh-tunnels} The Tunnels panel
+
+The Tunnels panel allows you to configure tunnelling of other
+connection types through an SSH connection.
+
+\S{config-ssh-x11} X11 forwarding
+
+\cfg{winhelp-topic}{ssh.tunnels.x11}
+
+If your server lets you run X Window System applications, X11
+forwarding allows you to securely give those applications access to
+a local X display on your PC.
+
+To enable X11 forwarding, check the \q{Enable X11 forwarding} box.
+If your X display is not the primary display on your local machine
+(which it almost certainly will be unless you have deliberately
+arranged otherwise), you need to enter its location in the \q{X
+display location} box.
+
+See \k{using-x-forwarding} for more information about X11
+forwarding.
+
+\S2{config-ssh-x11auth} Remote X11 authentication
+
+\cfg{winhelp-topic}{ssh.tunnels.x11auth}
+
+If you are using X11 forwarding, the virtual X server created on the
+SSH server machine will be protected by authorisation data. This
+data is invented, and checked, by PuTTY.
+
+The usual authorisation method used for this is called
+\cw{MIT-MAGIC-COOKIE-1}. This is a simple password-style protocol:
+the X client sends some cookie data to the server, and the server
+checks that it matches the real cookie. The cookie data is sent over
+an unencrypted X11 connection; so if you allow a client on a third
+machine to access the virtual X server, then the cookie will be sent
+in the clear.
+
+PuTTY offers the alternative protocol \cw{XDM-AUTHORIZATION-1}. This
+is a cryptographically authenticated protocol: the data sent by the
+X client is different every time, and it depends on the IP address
+and port of the client's end of the connection and is also stamped
+with the current time. So an eavesdropper who captures an
+\cw{XDM-AUTHORIZATION-1} string cannot immediately re-use it for
+their own X connection.
+
+PuTTY's support for \cw{XDM-AUTHORIZATION-1} is a somewhat
+experimental feature, and may encounter several problems:
+
+\b Some X clients probably do not even support
+\cw{XDM-AUTHORIZATION-1}, so they will not know what to do with the
+data PuTTY has provided.
+
+\b This authentication mechanism will only work in SSH v2. In SSH
+v1, the SSH server does not tell the client the source address of
+a forwarded connection in a machine-readable format, so it's
+impossible to verify the \cw{XDM-AUTHORIZATION-1} data.
+
+\b You may find this feature causes problems with some SSH servers,
+which will not clean up \cw{XDM-AUTHORIZATION-1} data after a
+session, so that if you then connect to the same server using
+a client which only does \cw{MIT-MAGIC-COOKIE-1} and are allocated
+the same remote display number, you might find that out-of-date
+authentication data is still present on your server and your X
+connections fail.
+
+PuTTY's default is \cw{MIT-MAGIC-COOKIE-1}. If you change it, you
+should be sure you know what you're doing.
+
+\S{config-ssh-portfwd} Port forwarding
+
+\cfg{winhelp-topic}{ssh.tunnels.portfwd}
+
+Port forwarding allows you to tunnel other types of network
+connection down an SSH session. See \k{using-port-forwarding} for a
+general discussion of port forwarding and how it works.
+
+The port forwarding section in the Tunnels panel shows a list of all
+the port forwardings that PuTTY will try to set up when it connects
+to the server. By default no port forwardings are set up, so this
+list is empty.
+
+To add a port forwarding:
+
+\b Set one of the \q{Local} or \q{Remote} radio buttons, depending
+on whether you want to forward a local port to a remote destination
+(\q{Local}) or forward a remote port to a local destination
+(\q{Remote}). Alternatively, select \q{Dynamic} if you want PuTTY to
+provide a local SOCKS 4/4A/5 proxy on a local port.
+
+\b Enter a source port number into the \q{Source port} box. For
+local forwardings, PuTTY will listen on this port of your PC. For
+remote forwardings, your SSH server will listen on this port of the
+remote machine. Note that most servers will not allow you to listen
+on port numbers less than 1024.
+
+\b If you have selected \q{Local} or \q{Remote} (this step is not
+needed with \q{Dynamic}), enter a hostname and port number separated
+by a colon, in the \q{Destination} box. Connections received on the
+source port will be directed to this destination. For example, to
+connect to a POP-3 server, you might enter
+\c{popserver.example.com:110}.
+
+\b Click the \q{Add} button. Your forwarding details should appear
+in the list box.
+
+To remove a port forwarding, simply select its details in the list
+box, and click the \q{Remove} button.
+
+In the \q{Source port} box, you can also optionally enter an IP
+address to listen on, by specifying (for instance) \c{127.0.0.5:79}.
+See \k{using-port-forwarding} for more information on how this
+works and its restrictions.
+
+\S{config-ssh-portfwd-localhost} Controlling the visibility of
+forwarded ports
+
+\cfg{winhelp-topic}{ssh.tunnels.portfwd.localhost}
+
+The source port for a forwarded connection usually does not accept
+connections from any machine except the SSH client or server machine
+itself (for local and remote forwardings respectively). There are
+controls in the Tunnels panel to change this:
+
+\b The \q{Local ports accept connections from other hosts} option
+allows you to set up local-to-remote port forwardings in such a way
+that machines other than your client PC can connect to the forwarded
+port. (This also applies to dynamic SOCKS forwarding.)
+
+\b The \q{Remote ports do the same} option does the same thing for
+remote-to-local port forwardings (so that machines other than the
+SSH server machine can connect to the forwarded port.) Note that
+this feature is only available in the SSH 2 protocol, and not all
+SSH 2 servers support it (OpenSSH 3.0 does not, for example).
+
+\H{config-ssh-bugs} The Bugs panel
+
+Not all SSH servers work properly. Various existing servers have
+bugs in them, which can make it impossible for a client to talk to
+them unless it knows about the bug and works around it.
+
+Since most servers announce their software version number at the
+beginning of the SSH connection, PuTTY will attempt to detect which
+bugs it can expect to see in the server and automatically enable
+workarounds. However, sometimes it will make mistakes; if the server
+has been deliberately configured to conceal its version number, or
+if the server is a version which PuTTY's bug database does not know
+about, then PuTTY will not know what bugs to expect.
+
+The Bugs panel allows you to manually configure the bugs PuTTY
+expects to see in the server. Each bug can be configured in three
+states:
+
+\b \q{Off}: PuTTY will assume the server does not have the bug.
+
+\b \q{On}: PuTTY will assume the server \e{does} have the bug.
+
+\b \q{Auto}: PuTTY will use the server's version number announcement
+to try to guess whether or not the server has the bug.
+
+\S{config-ssh-bug-ignore1} \q{Chokes on SSH1 ignore messages}
+
+\cfg{winhelp-topic}{ssh.bugs.ignore1}
+
+An ignore message (SSH_MSG_IGNORE) is a message in the SSH protocol
+which can be sent from the client to the server, or from the server
+to the client, at any time. Either side is required to ignore the
+message whenever it receives it. PuTTY uses ignore messages to hide
+the password packet in SSH1, so that a listener cannot tell the
+length of the user's password; it also uses ignore messages for
+connection keepalives (see \k{config-keepalive}).
+
+If this bug is detected, PuTTY will stop using ignore messages. This
+means that keepalives will stop working, and PuTTY will have to fall
+back to a secondary defence against SSH1 password-length
+eavesdropping. See \k{config-ssh-bug-plainpw1}. If this bug is
+enabled when talking to a correct server, the session will succeed,
+but keepalives will not work and the session might be more
+vulnerable to eavesdroppers than it could be.
+
+This is an SSH1-specific bug. No known SSH2 server fails to deal
+with SSH2 ignore messages.
+
+\S{config-ssh-bug-plainpw1} \q{Refuses all SSH1 password camouflage}
+
+\cfg{winhelp-topic}{ssh.bugs.plainpw1}
+
+When talking to an SSH1 server which cannot deal with ignore
+messages (see \k{config-ssh-bug-ignore1}), PuTTY will attempt to
+disguise the length of the user's password by sending additional
+padding \e{within} the password packet. This is technically a
+violation of the SSH1 specification, and so PuTTY will only do it
+when it cannot use standards-compliant ignore messages as
+camouflage. In this sense, for a server to refuse to accept a padded
+password packet is not really a bug, but it does make life
+inconvenient if the server can also not handle ignore messages.
+
+If this \q{bug} is detected, PuTTY will have no choice but to send
+the user's password with no form of camouflage, so that an
+eavesdropping user will be easily able to find out the exact length
+of the password. If this bug is enabled when talking to a correct
+server, the session will succeed, but will be more vulnerable to
+eavesdroppers than it could be.
+
+This is an SSH1-specific bug. SSH2 is secure against this type of
+attack.
+
+\S{config-ssh-bug-rsa1} \q{Chokes on SSH1 RSA authentication}
+
+\cfg{winhelp-topic}{ssh.bugs.rsa1}
+
+Some SSH1 servers cannot deal with RSA authentication messages at
+all. If Pageant is running and contains any SSH1 keys, PuTTY will
+normally automatically try RSA authentication before falling back to
+passwords, so these servers will crash when they see the RSA attempt.
+
+If this bug is detected, PuTTY will go straight to password
+authentication. If this bug is enabled when talking to a correct
+server, the session will succeed, but of course RSA authentication
+will be impossible.
+
+This is an SSH1-specific bug.
+
+\S{config-ssh-bug-hmac2} \q{Miscomputes SSH2 HMAC keys}
+
+\cfg{winhelp-topic}{ssh.bugs.hmac2}
+
+Versions 2.3.0 and below of the SSH server software from
+\cw{ssh.com} compute the keys for their HMAC message authentication
+codes incorrectly. A typical symptom of this problem is that PuTTY
+dies unexpectedly at the beginning of the session, saying
+\q{Incorrect MAC received on packet}.
+
+If this bug is detected, PuTTY will compute its HMAC keys in the
+same way as the buggy server, so that communication will still be
+possible. If this bug is enabled when talking to a correct server,
+communication will fail.
+
+This is an SSH2-specific bug.
+
+\S{config-ssh-bug-derivekey2} \q{Miscomputes SSH2 encryption keys}
+
+\cfg{winhelp-topic}{ssh.bugs.derivekey2}
+
+Versions below 2.0.11 of the SSH server software from \cw{ssh.com}
+compute the keys for the session encryption incorrectly. This
+problem can cause various error messages, such as \q{Incoming packet
+was garbled on decryption}, or possibly even \q{Out of memory}.
+
+If this bug is detected, PuTTY will compute its encryption keys in
+the same way as the buggy server, so that communication will still
+be possible. If this bug is enabled when talking to a correct
+server, communication will fail.
+
+This is an SSH2-specific bug.
+
+\S{config-ssh-bug-sig} \q{Requires padding on SSH2 RSA signatures}
+
+\cfg{winhelp-topic}{ssh.bugs.rsapad2}
+
+Versions below 3.3 of OpenSSH require SSH2 RSA signatures to be
+padded with zero bytes to the same length as the RSA key modulus.
+The SSH2 draft specification says that an unpadded signature MUST be
+accepted, so this is a bug. A typical symptom of this problem is
+that PuTTY mysteriously fails RSA authentication once in every few
+hundred attempts, and falls back to passwords.
+
+If this bug is detected, PuTTY will pad its signatures in the way
+OpenSSH expects. If this bug is enabled when talking to a correct
+server, it is likely that no damage will be done, since correct
+servers usually still accept padded signatures because they're used
+to talking to OpenSSH.
+
+This is an SSH2-specific bug.
+
+\S{config-ssh-bug-dhgex} \q{Chokes on Diffie-Hellman group exchange}
+
+\cfg{winhelp-topic}{ssh.bugs.dhgex2}
+
+We have anecdotal evidence that some SSH servers claim to be able to
+perform Diffie-Hellman group exchange, but fail to actually do so
+when PuTTY tries to. If your SSH2 sessions spontaneously close
+immediately after opening the PuTTY window, it might be worth
+enabling the workaround for this bug to see if it helps.
+
+We have no hard evidence that any specific version of specific
+server software reliably demonstrates this bug. Therefore, PuTTY
+will never \e{assume} a server has this bug; if you want the
+workaround, you need to enable it manually.
+
+This is an SSH2-specific bug.
+
+\S{config-ssh-bug-pksessid2} \q{Misuses the session ID in PK auth}
+
+\cfg{winhelp-topic}{ssh.bugs.pksessid2}
+
+Versions below 2.3 of OpenSSH require SSH2 public-key authentication
+to be done slightly differently: the data to be signed by the client
+contains the session ID formatted in a different way. If public-key
+authentication mysteriously does not work but the Event Log (see
+\k{using-eventlog}) thinks it has successfully sent a signature, it
+might be worth enabling the workaround for this bug to see if it
+helps.
+
+If this bug is detected, PuTTY will sign data in the way OpenSSH
+expects. If this bug is enabled when talking to a correct server,
+SSH2 public-key authentication will fail.
+
+This is an SSH2-specific bug.
+
+\H{config-file} Storing configuration in a file
+
+PuTTY does not currently support storing its configuration in a file
+instead of the Registry. However, you can work around this with a
+couple of batch files.
+
+You will need a file called (say) \c{PUTTY.BAT} which imports the
+contents of a file into the Registry, then runs PuTTY, exports the
+contents of the Registry back into the file, and deletes the
+Registry entries. This can all be done using the Regedit command
+line options, so it's all automatic. Here is what you need in
+\c{PUTTY.BAT}:
+
+\c @ECHO OFF
+\c regedit /s putty.reg
+\c regedit /s puttyrnd.reg
+\c start /w putty.exe
+\c regedit /ea new.reg HKEY_CURRENT_USER\Software\SimonTatham\PuTTY
+\c copy new.reg putty.reg
+\c del new.reg
+\c regedit /s puttydel.reg
+
+This batch file needs two auxiliary files: \c{PUTTYRND.REG} which
+sets up an initial safe location for the \c{PUTTY.RND} random seed
+file, and \c{PUTTYDEL.REG} which destroys everything in the Registry
+once it's been successfully saved back to the file.
+
+Here is \c{PUTTYDEL.REG}:
+
+\c REGEDIT4
+\c
+\c [-HKEY_CURRENT_USER\Software\SimonTatham\PuTTY]
+
+Here is an example \c{PUTTYRND.REG} file: