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This document is inteded for those who wish to read the ssh source
code.  This tries to give an overview of the structure of the code.
      
Copyright (c) 1995 Tatu Ylonen <ylo@cs.hut.fi>
Updated 17 Nov 1995.
Updated 19 Oct 1999 for OpenSSH-1.2

The software consists of ssh (client), sshd (server), scp, sdist, and
the auxiliary programs ssh-keygen, ssh-agent, ssh-add, and
make-ssh-known-hosts.  The main program for each of these is in a .c
file with the same name.

There are some subsystems/abstractions that are used by a number of
these programs.

  Buffer manipulation routines
      
    - These provide an arbitrary size buffer, where data can be appended.
      Data can be consumed from either end.  The code is used heavily
      throughout ssh.  The basic buffer manipulation functions are in
      buffer.c (header buffer.h), and additional code to manipulate specific
      data types is in bufaux.c.

  Compression Library
  
    - Ssh uses the GNU GZIP compression library (ZLIB).

  Encryption/Decryption

    - Ssh contains several encryption algorithms.  These are all
      accessed through the cipher.h interface.  The interface code is
      in cipher.c, and the implementations are in libc.

  Multiple Precision Integer Library

    - Uses the SSLeay BIGNUM sublibrary.
    - Some auxiliary functions for mp-int manipulation are in mpaux.c.

  Random Numbers

    - Uses arc4random() and such.

  RSA key generation, encryption, decryption

    - Ssh uses the RSA routines in libssl.

  RSA key files

    - RSA keys are stored in files with a special format.  The code to
      read/write these files is in authfile.c.  The files are normally
      encrypted with a passphrase.  The functions to read passphrases
      are in readpass.c (the same code is used to read passwords).

  Binary packet protocol

    - The ssh binary packet protocol is implemented in packet.c.  The
      code in packet.c does not concern itself with packet types or their
      execution; it contains code to build packets, to receive them and
      extract data from them, and the code to compress and/or encrypt
      packets.  CRC code comes from crc32.c.

    - The code in packet.c calls the buffer manipulation routines
      (buffer.c, bufaux.c), compression routines (compress.c, zlib),
      and the encryption routines.

  X11, TCP/IP, and Agent forwarding

    - Code for various types of channel forwarding is in channels.c.
      The file defines a generic framework for arbitrary communication
      channels inside the secure channel, and uses this framework to
      implement X11 forwarding, TCP/IP forwarding, and authentication
      agent forwarding.
      The new, Protocol 1.5, channel close implementation is in nchan.c

  Authentication agent

    - Code to communicate with the authentication agent is in authfd.c.

  Authentication methods

    - Code for various authentication methods resides in auth-*.c
      (auth-passwd.c, auth-rh-rsa.c, auth-rhosts.c, auth-rsa.c).  This
      code is linked into the server.  The routines also manipulate
      known hosts files using code in hostfile.c.  Code in canohost.c
      is used to retrieve the canonical host name of the remote host.
      Code in match.c is used to match host names.  

    - In the client end, authentication code is in sshconnect.c.  It
      reads Passwords/passphrases using code in readpass.c.  It reads
      RSA key files with authfile.c.  It communicates the
      authentication agent using authfd.c.

  The ssh client

    - The client main program is in ssh.c.  It first parses arguments
      and reads configuration (readconf.c), then calls ssh_connect (in
      sshconnect.c) to open a connection to the server (possibly via a
      proxy), and performs authentication (ssh_login in sshconnect.c).
      It then makes any pty, forwarding, etc. requests.  It may call
      code in ttymodes.c to encode current tty modes.  Finally it
      calls client_loop in clientloop.c.  This does the real work for
      the session.

    - The client is suid root.  It tries to temporarily give up this
      rights while reading the configuration data.  The root
      privileges are only used to make the connection (from a
      privileged socket).  Any extra privileges are dropped before
      calling ssh_login.

  Pseudo-tty manipulation and tty modes

    - Code to allocate and use a pseudo tty is in pty.c.  Code to
      encode and set terminal modes is in ttymodes.c.

  Logging in (updating utmp, lastlog, etc.)

    - The code to do things that are done when a user logs in are in
      login.c.  This includes things such as updating the utmp, wtmp,
      and lastlog files.  Some of the code is in sshd.c.

  Writing to the system log and terminal

    - The programs use the functions fatal(), log(), debug(), error()
      in many places to write messages to system log or user's
      terminal.  The implementation that logs to system log is in
      log-server.c; it is used in the server program.  The other
      programs use an implementation that sends output to stderr; it
      is in log-client.c.  The definitions are in ssh.h.

  The sshd server (daemon)

    - The sshd daemon starts by processing arguments and reading the
      configuration file (servconf.c).  It then reads the host key,
      starts listening for connections, and generates the server key.
      The server key will be regenerated every hour by an alarm.

    - When the server receives a connection, it forks, disables the
      regeneration alarm, and starts communicating with the client.
      They first perform identification string exchange, then
      negotiate encryption, then perform authentication, preparatory
      operations, and finally the server enters the normal session
      mode by calling server_loop in serverloop.c.  This does the real
      work, calling functions in other modules.
      
    - The code for the server is in sshd.c.  It contains a lot of
      stuff, including:
        - server main program
	- waiting for connections
	- processing new connection
	- authentication
	- preparatory operations
	- building up the execution environment for the user program
	- starting the user program.

  Auxiliary files

    - There are several other files in the distribution that contain
      various auxiliary routines:
        ssh.h	     the main header file for ssh (various definitions)
        getput.h     byte-order independent storage of integers
        includes.h   includes most system headers.  Lots of #ifdefs.
	tildexpand.c expand tilde in file names
	uidswap.c    uid-swapping
	xmalloc.c    "safe" malloc routines