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  Compressed TCP/IP-Sessions using SSH-like tools
  Sebastian Schreiber <Schreib@SySS.de>

  2.2.2000

  1.  Introduction

  In the past, we used to compress files in order to save disk space.
  Today, disk space is cheap - but bandwidth is limited. By compressing
  data streams, you achieve two goals:

  1) You save bandwidth/transfered volume (that is important if you have
  to pay for traffic or if your network is loaded.).

  2) Speeding up low-bandwidth connections (Modem, GSM, ISDN).

  This HowTo explains how to save both bandwith and connection time by
  using tools like SSH1, SSH2, OpenSSH or LSH.

  2.  Compressing HTTP/FTP,...

  My office is connected with a 64KBit ISDN line to the internet, so the
  maximum transfer rate is about 7K/s. You can speed up the connection
  by compressing it: when I download files, Netscape shows up a transfer
  rate of up to 40K/s (Logfiles are compressable by factor 15). SSH is a
  tool that is mainly designed to build up secure connections over
  unsecured networks. Further more, SSH is able to compress connections
  and to do port forwarding (like rinetd or redir).  So it is the
  appropriate tool to compress any simple TCP/IP connection. "Simple"
  means, that only one TCP-connection is opened. An FTP-connections or
  the connection between M$-Outlook and MS-Exchange are not simple as
  several connections are established. SSH uses the LempleZiv (LZ77)
  compression algorithm - so you will achieve the same high compression
  rate as winzip/pkzip. In order to compress all HTTP-connections from
  my intranet to the internet, I just have to execute one command on my
  dial-in machine:

  ssh -l <login ID> <hostname> -C -L8080:<proxy_at_ISP>:80 -f sleep
  10000

  <hostname> = host that is located at my ISP. SSH-access is required.

  <login ID> = my login-ID on <hostname>

  <proxy_at_ISP> =the web proxy of my ISP

  My browser is configured to use localhost:8080 as proxy. My laptop
  connects to the same socket. The connection is compressed and
  forwarded to the real proxy by SSH. The infrastructure looks like:



                    64KBit ISDN
  My PC--------------------------------A PC (Unix/Linux/Win-NT) at my ISP
  SSH-Client         compressed        SSH-Server, Port 22
  Port 8080                             |
   |                                    |
   |                                    |
   |                                    |
   |10MBit Ethernet                     |100MBit
   |not compressed                      |not compressed
   |                                    |
   |                                    |
  My second PC                         ISP's WWW-proxy
  with Netscape,...                    Port 80
  (Laptop)



  3.  Compressing Email

  3.1.  Incoming Emails (POP3, IMAP4)

  Most people fetch their email from the mailserver via POP3. POP3 is a
  protocol with many disadvantages:


  1. POP3 transfers password in clear text. (There are SSL-
     implementations of POP/IMAP and a challenge/response
     authentication, defined in RFC-2095/2195).

  2. POP3 causes much protocol overhead: first the client requests a
     message than the server sends the message. After that the client
     requests the transferred article to be deleted. The server confirms
     the deletion. After that the server is ready for the next
     transaction. So 4 transactions are needed for each email.

  3. POP3 transfers the mails without compression although email is
     highly compressible (factor=3.5).

  You could compress POP3 by forwarding localhost:110 through a
  compressed connection to your ISP's POP3-socket. After that you have
  to tell your mail client to connect to localhost:110 in order to
  download mail. That secures and speeds up the connection -- but the
  download time still suffers from the POP3-inherent protocol overhead.



  It makes sense to substitute POP3 by a more efficient protocol. The
  idea is to download the entire mailbox at once without generating
  protocol overhead.  Furthermore it makes sense to compress the
  connections. The appropriate tool which offers both features is SCP.
  You can download your mail-file like this:



  scp -C -l loginId:/var/spool/mail/loginid /tmp/newmail



  But there is a problem: what happens if a new email arrives at the
  server during the download of your mailbox? The new mail would be
  lost. Therefore it makes more sense to use the following commands:

  ssh -l loginid mailserver -f mv /var/spool/mail/loginid
  /tmp/loginid_fetchme
  scp -C -l loginid:/tmp/my_new_mail /tmp/loginid_fetchme

  A move (mv) is a elementary operation, so you won't get into truble if
  you receive new mail during the execution of the comands. But if the
  mail server directories /tmp/ and /var/spool/mail are not on the same
  disc you might get problems. A solution is to create a lockfile on the
  server before you execute the mv: touch /var/spool/mail/loginid.lock.
  You should remove it, after that.  A better solution is to move the
  file loginid in the same directory:

  ssh -l loginid mailserver -f mv /var/spool/mail/loginid
  /var/spool/mail/loginid_fetchme

  After that you can use formail instead of procmail in order to filter
  /tmp/newmail into the right folder(s): formail -s procmail <
  /tmp/newmail

  3.2.  Outgoing Email (SMTP)

  You send email over compresses and encrypted SSH-connections, in order
  to:


  �  Save network traffic

  �  Secure the connection (This does not make sense, if the mail is
     transported over untrusted networks, later.)

  �  Authenticate the sender.  Many mail servers deny mail relaying in
     order to prevent abuse. If you send an email over an SSH-
     connection, the remote mail server (i.e. sendmail or MS-exchange)
     thinks to be connected, locally.

  If you have SSH-access on the mail server, you need the following
  command:

  ssh -C -l loginid mailserver -L2525:mailserver:25

  If you don't have SSH-access on the mail server but to a server that
  is allowed to use your mail server as relay, the command is:

  ssh -C -l loginid other_server -L2525:mailserver:25

  After that you can configure your mail client (or mail server: see
  "smarthost") to send out mails to localhost port 2525.

  4.  Thoughts about performance.

  Of course compression/encryption takes CPU time. It turned out that an
  old Pentium-133 is able to encrypt and compress about 1GB/hour --
  that's quite a lot. If you compile SSH with the option "--with-none"
  you can tell SSH to use no encryption. That saves a little
  performance. Here is a comprise between several download methods
  (during the test, a noncompressed 6MB-file was transfered from a
  133MHz-Pentium-1 to a 233MHz Pentium2 laptop over a 10MBit ethernet
  without other load).



  +-------------------+--------+----------+-----------+----------------------+
  |                   |  FTP   |encrypted |compressed |compressed & encrypted|
  +-------------------+--------+----------+-----------+----------------------+
  +-------------------+--------+----------+-----------+----------------------+
  |   Elapsed Time    | |7.6s  |   26s    |    9s     |          23s         |
  +-------------------+--------+----------+-----------+----------------------+
  |    Throughput     | 790K/s |  232K/s  |  320K/s   |        264K/s        |
  +-------------------+--------+----------+-----------+----------------------+
  |Compression Factor |   1    |    1     |    3.8    |          3.8         |
  +-------------------+--------+----------+-----------+----------------------+



  5.  Greetings

  Thanks to Harald K�nig <koenig@tat.physik.uni-tuebingen.de>, who used
  rcp in order to download complete mailboxes. The latest version of
  this howto is available on http://www.syss.de/howto.







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