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System Administration Guide: Network Services
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Document Information

Preface

Part I Network Services Topics

1.  Network Service (Overview)

2.  Managing Web Cache Servers

3.  Time-Related Services

Part II Accessing Network File Systems Topics

4.  Managing Network File Systems (Overview)

5.  Network File System Administration (Tasks)

6.  Accessing Network File Systems (Reference)

Part III SLP Topics

7.  SLP (Overview)

8.  Planning and Enabling SLP (Tasks)

9.  Administering SLP (Tasks)

10.  Incorporating Legacy Services

11.  SLP (Reference)

Part IV Mail Services Topics

12.  Mail Services (Overview)

13.  Mail Services (Tasks)

14.  Mail Services (Reference)

Part V Serial Networking Topics

15.  Solaris PPP 4.0 (Overview)

16.  Planning for the PPP Link (Tasks)

17.  Setting Up a Dial-up PPP Link (Tasks)

18.  Setting Up a Leased-Line PPP Link (Tasks)

19.  Setting Up PPP Authentication (Tasks)

20.  Setting Up a PPPoE Tunnel (Tasks)

21.  Fixing Common PPP Problems (Tasks)

22.  Solaris PPP 4.0 (Reference)

23.  Migrating From Asynchronous Solaris PPP to Solaris PPP 4.0 (Tasks)

24.  UUCP (Overview)

25.  Administering UUCP (Tasks)

26.  UUCP (Reference)

Part VI Working With Remote Systems Topics

27.  Working With Remote Systems (Overview)

28.  Administering the FTP Server (Tasks)

29.  Accessing Remote Systems (Tasks)

Accessing Remote Systems (Task Map)

Logging In to a Remote System (rlogin)

Authentication for Remote Logins (rlogin)

/etc/hosts.equiv File

.rhosts File

Linking Remote Logins

Direct or Indirect Remote Logins

What Happens After You Log In Remotely

How to Search for and Remove .rhosts Files

How to Find Out If a Remote System Is Operating

How to Find Who Is Logged In to a Remote System

How to Log In to a Remote System (rlogin)

How to Log Out From a Remote System (exit)

Logging In to a Remote System (ftp)

Authentication for Remote Logins (ftp)

Essential ftp Commands

How to Open an ftp Connection to a Remote System

How to Close an ftp Connection to a Remote System

How to Copy Files From a Remote System (ftp)

How to Copy Files to a Remote System (ftp)

Remote Copying With rcp

Security Considerations for Copy Operations

Specifying Source and Target

How to Copy Files Between a Local and a Remote System (rcp)

Part VII Monitoring Network Services Topics

30.  Monitoring Network Performance (Tasks)

Glossary

Index

Logging In to a Remote System (rlogin)

The rlogin command enables you to log in to a remote system. After you are logged in, you can navigate through the remote file system and manipulate its contents (subject to authorization), copy files, or execute remote commands.

If the system you are logging in to is in a remote domain, be sure to append the domain name to the system name. In this example, SOLAR is the name of the remote domain:

rlogin pluto.SOLAR

Also, you can interrupt a remote login operation at any time by typing Control-d.

Authentication for Remote Logins (rlogin)

Authentication (establishing who you are) for rlogin operations can be performed either by the remote system or by the network environment.

The main difference between these forms of authentication lies in the type of interaction they require from you and the way they are established. If a remote system tries to authenticate you, you are prompted for a password, unless you set up the /etc/hosts.equiv or .rhosts file. If the network tries to authenticate you, you are not asked for a password, because the network already knows who you are.

When the remote system attempts to authenticate you, it relies on information in its local files, specifically if one of the following is true:

Network authentication relies on one of these two methods:


Note - Network authentication generally supersedes system authentication.


/etc/hosts.equiv File

The /etc/hosts.equiv file contains a list of trusted hosts for a remote system, one per line. If a user attempts to log in remotely (using rlogin) from one of the hosts that is listed in this file, and if the remote system can access the user's password entry, the remote system allows the user to log in without a password.

A typical hosts.equiv file has the following structure:

host1
host2 user_a
+@group1
-@group2

When a simple entry for a host is made in hosts.equiv, such as the previous entry for host1, it means that the host is trusted, and so is any user at that machine.

If the user name is also mentioned, as in the second entry in the example, then the host is trusted only if the specified user is attempting access.

A group name that is preceded by a plus sign (+) means that all the machines in that netgroup are considered trusted.

A group name that is preceded by a minus sign (–) means that none of the machines in that netgroup is considered trusted.

Security Risks When Using the /etc/hosts.equiv File

The /etc/hosts.equiv file presents a security risk. If you maintain a /etc/hosts.equiv file on your system, you should include only trusted hosts in your network. The file should not include any host that belongs to a different network, or any machines that are in public areas. For example, do not include a host that is located in a terminal room.

The use of hosts that are not trusted can create a serious security problem. Either replace the /etc/hosts.equiv file with a correctly configured one, or remove the file altogether.

A single line of + in the /etc/hosts.equiv file indicates that every known host is trusted.

.rhosts File

The .rhosts file is the user equivalent of the /etc/hosts.equiv file. This file contains a list of host-user combinations, rather than hosts in general. If a host-user combination is listed in this file, the specified user is granted permission to log in remotely from the specified host without having to supply a password.

Note that a .rhosts file must reside at the top level of a user's home directory. .rhost files that are located in subdirectories are not consulted.

Users can create .rhosts files in their home directories. Using the .rhosts file is another way to allow trusted access between users' own accounts on different systems without using the /etc/hosts.equiv file.

Security Risks When Using the .rhosts File

Unfortunately, the .rhosts file presents a major security problem. While the /etc/hosts.equiv file is under the system administrator's control and can be managed effectively, any user can create a .rhosts file that grants access to whomever the user chooses without the system administrator's knowledge.

In a situation in which all of the users' home directories are on a single server and only certain people have superuser access on that server, a good way to prevent a user from using a .rhosts file is to create an empty file as superuser in their home directory. You would then change the permissions in this file to 000 so that it would be difficult to change it, even as superuser. This change would effectively prevent a user from risking system security by using a .rhosts file irresponsibly. The change would not, however, solve anything if the user is able to change the effective path to his or her home directory.

The only secure way to manage .rhosts files is to completely disallow them. See How to Search for and Remove .rhosts Files for detailed instructions. As system administrator, you can check the system often for violations of this policy. One possible exception to this policy is for the root account; you might need to have a .rhosts file to perform network backups and other remote services.

Linking Remote Logins

If your system is configured properly, you can link remote logins. For example, a user on earth logs in to jupiter, and from there decides to log in to pluto.

The user could have logged out of jupiter and then logged in directly to pluto, but this type of linking can be more convenient.

To link remote logins without having to supply a password, you must have the /etc/hosts.equiv or .rhosts file set up correctly.

Direct or Indirect Remote Logins

The rlogin command allows you to log in to a remote system directly or indirectly.

A direct remote login is attempted with the default user name, that is, the user name of the individual who is currently logged in to the local system. This is the most common form of remote login.

An indirect remote login is attempted with a different user name, which is supplied during the remote login operation. This is the type of remote login you might attempt from a workstation that you borrowed temporarily. For instance, if you were in a coworker's office and needed to examine files in your home directory, you might log in to your system remotely, from your coworker's system. However, you would perform an indirect remote login, supplying your own user name.

The dependencies between direct and indirect logins and authentication methods are summarized in the following table.

Table 29-2 Dependencies Between Login Method and Authentication Method (rlogin)

Type of Login
User Name Supplied By
Authentication
Password
Direct
System
Network
None
System
Required
Indirect
User
Network
None
System
Required

What Happens After You Log In Remotely

When you log in to a remote system, the rlogin command attempts to find your home directory. If the rlogin command can't find your home directory, it assigns you to the remote system's root (/) directory. For example:

Unable to find home directory, logging in with / 

However, if the rlogin command finds your home directory, it sources both your .cshrc and .login files. Therefore, after a remote login, your prompt is your standard login prompt, and the current directory is the same as when you log in locally.

For example, if your usual prompt displays your system name and working directory, and when you log in, your working directory is your home directory, your login prompt resembles the following:

earth(/home/smith):

Then when you log in to a remote system, you see a similar prompt and your working directory is your home directory, regardless of the directory from which you entered the rlogin command:

earth(/home/smith): rlogin pluto
.
.
.
pluto(/home/smith):

The only difference is that the name of the remote system would substitute for your local system at the beginning of the prompt. The remote file system is parallel to your home directory.

Effectively, if you change directory to /home and then run ls, you see the following:

earth(home/smith): cd ..
earth(/home): ls
smith  jones

How to Search for and Remove .rhosts Files

  1. Become superuser or assume an equivalent role.

    Roles contain authorizations and privileged commands. For more information about roles, see Configuring RBAC (Task Map) in System Administration Guide: Security Services.

  2. Search for and remove .rhosts files by using the find(1) command.
    # find home-directories -name .rhosts -print -exec rm {} \;
    home-directories

    Identifies the path to a directory where users' home directories are located. Note that you can enter multiple paths to search more than one home directory at a time.

    -name .rhosts

    Identifies the file name.

    -print

    Prints the current path name.

    -exec rm {} \;

    Tells the find command to apply the rm command to all files that are identified by using the matching file name.

    The find command starts at the designated directory and searches for any file that is named .rhosts. If it finds such as file, find prints the path on the screen and removes it.

Example 29-1 Searching for and Removing .rhosts Files

The following example searches and removes .rhosts files in all the user's home directories that are located in the /export/home directory.

# find /export/home -name .rhosts -print | xargs -i -t rm {} \;

How to Find Out If a Remote System Is Operating

Find out if a remote system is operating by using the ping command.

$ ping system-name | ip-address
system-name

The name of the remote system

ip-address

The IP address of the remote system

The ping command returns one of three messages:

Status Message
Explanation
system-name is alive
The system can be accessed over the network.
ping: unknown host system-name
The system name is unknown.
ping: no answer from system-name
The system is known, but is not currently operating.

If the system you “ping” is located in a different domain, the return message can also contain routing information, which you can ignore.

The ping command has a timeout of 20 seconds. Effectively, if it does not receive a response within 20 seconds, it returns the third message. You can force ping to wait longer (or less) by typing a time-out value, in seconds:

$ ping system-name | ip-address time-out

For more information, see ping(1M).

How to Find Who Is Logged In to a Remote System

Find who is logged in to a remote system by using the rusers(1) command.

$ rusers [-l] remote-system-name
rusers

(No options) Displays the name of the system, followed by the name of users who are currently logged in to it, including root

-l

Displays additional information about each user: the user's login window, login time and date, amount of time logged in, and the name of the remote system from which the user logged on

Example 29-2 Finding Who Is Logged In to a Remote System

The following example shows the short output of rusers.

$ rusers pluto
pluto    smith  jones

In the following example, the long version of rusers shows that two users are logged in to the remote system starbug. The first user logged in from the system console on September 10 and has been logged on for 137 hours and 15 minutes. The second user logged in from a remote system, mars, on September 14.

$rusers -l starbug
root         starbug:console           Sep 10 16:13  137:15
rimmer       starbug:pts/0             Sep 14 14:37         (mars)

How to Log In to a Remote System (rlogin)

Log in to a remote system by using the rlogin(1) command.

$ rlogin [-l user-name] system-name
rlogin

(No options) Logs you in to the remote system directly, effectively, with your current user name

-l user-name

Logs you into the remote system indirectly, effectively, with the user name you supply

If the network attempts to authenticate you, you are not prompted for a password. If the remote system attempts to authenticate you, you are asked to provide a password.

If the operation succeeds, the rlogin command displays brief information about your latest remote login to that system, the version of the operating system that is running on the remote system, and whether you have mail waiting for you in your home directory.

Example 29-3 Logging In to a Remote System (rlogin)

The following example shows the output of a direct remote login to pluto. The user has been authenticated by the network.

$ rlogin starbug
Last login: Mon Jul 12 09:28:39 from venus
Sun Microsystems Inc.   SunOS 5.8       February 2000
starbug:

The following example shows the output of an indirect remote login to pluto, with the user being authenticated by the remote system.

$ rlogin -l smith pluto
password: user-password
Last login: Mon Jul 12 11:51:58 from venus
Sun Microsystems Inc.   SunOS 5.8       February 2000
starbug: 

How to Log Out From a Remote System (exit)

Log out from a remote system by using the exit(1) command.

$ exit
 

Example 29-4 Logging Out From a Remote System (exit)

This example shows the user smith logging out from the system pluto.

$ exit
pluto% logout
Connection closed.
earth%