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We remove the frobnicate @pxref in the "System Databases and Name Service Switch" chapter. The @pxref doesn't make sense in the given context.
669 lines
26 KiB
Plaintext
669 lines
26 KiB
Plaintext
@node Name Service Switch, Users and Groups, Job Control, Top
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@chapter System Databases and Name Service Switch
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@c %MENU% Accessing system databases
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@cindex Name Service Switch
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@cindex NSS
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@cindex databases
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Various functions in the C Library need to be configured to work
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correctly in the local environment. Traditionally, this was done by
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using files (e.g., @file{/etc/passwd}), but other nameservices (like the
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Network Information Service (NIS) and the Domain Name Service (DNS))
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became popular, and were hacked into the C library, usually with a fixed
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search order.
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@Theglibc{} contains a cleaner solution of this problem. It is
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designed after a method used by Sun Microsystems in the C library of
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@w{Solaris 2}. @Theglibc{} follows their name and calls this
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scheme @dfn{Name Service Switch} (NSS).
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Though the interface might be similar to Sun's version there is no
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common code. We never saw any source code of Sun's implementation and
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so the internal interface is incompatible. This also manifests in the
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file names we use as we will see later.
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@menu
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* NSS Basics:: What is this NSS good for.
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* NSS Configuration File:: Configuring NSS.
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* NSS Module Internals:: How does it work internally.
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* Extending NSS:: What to do to add services or databases.
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@end menu
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@node NSS Basics, NSS Configuration File, Name Service Switch, Name Service Switch
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@section NSS Basics
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The basic idea is to put the implementation of the different services
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offered to access the databases in separate modules. This has some
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advantages:
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@enumerate
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@item
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Contributors can add new services without adding them to @theglibc{}.
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@item
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The modules can be updated separately.
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@item
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The C library image is smaller.
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@end enumerate
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To fulfill the first goal above the ABI of the modules will be described
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below. For getting the implementation of a new service right it is
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important to understand how the functions in the modules get called.
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They are in no way designed to be used by the programmer directly.
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Instead the programmer should only use the documented and standardized
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functions to access the databases.
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@noindent
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The databases available in the NSS are
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@cindex ethers
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@cindex group
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@cindex hosts
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@cindex netgroup
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@cindex networks
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@cindex protocols
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@cindex passwd
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@cindex rpc
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@cindex services
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@cindex shadow
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@vtable @code
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@item aliases
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Mail aliases
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@comment @pxref{Mail Aliases}.
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@item ethers
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Ethernet numbers,
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@comment @pxref{Ethernet Numbers}.
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@item group
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Groups of users, @pxref{Group Database}.
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@item hosts
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Host names and numbers, @pxref{Host Names}.
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@item netgroup
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Network wide list of host and users, @pxref{Netgroup Database}.
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@item networks
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Network names and numbers, @pxref{Networks Database}.
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@item protocols
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Network protocols, @pxref{Protocols Database}.
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@item passwd
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User passwords, @pxref{User Database}.
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@item rpc
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Remote procedure call names and numbers,
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@comment @pxref{RPC Database}.
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@item services
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Network services, @pxref{Services Database}.
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@item shadow
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Shadow user passwords,
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@comment @pxref{Shadow Password Database}.
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@end vtable
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@noindent
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There will be some more added later (@code{automount}, @code{bootparams},
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@code{netmasks}, and @code{publickey}).
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@node NSS Configuration File, NSS Module Internals, NSS Basics, Name Service Switch
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@section The NSS Configuration File
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@cindex @file{/etc/nsswitch.conf}
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@cindex @file{nsswitch.conf}
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Somehow the NSS code must be told about the wishes of the user. For
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this reason there is the file @file{/etc/nsswitch.conf}. For each
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database this file contain a specification how the lookup process should
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work. The file could look like this:
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@example
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@include nsswitch.texi
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@end example
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The first column is the database as you can guess from the table above.
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The rest of the line specifies how the lookup process works. Please
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note that you specify the way it works for each database individually.
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This cannot be done with the old way of a monolithic implementation.
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The configuration specification for each database can contain two
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different items:
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@itemize @bullet
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@item
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the service specification like @code{files}, @code{db}, or @code{nis}.
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@item
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the reaction on lookup result like @code{[NOTFOUND=return]}.
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@end itemize
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@menu
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* Services in the NSS configuration:: Service names in the NSS configuration.
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* Actions in the NSS configuration:: React appropriately to the lookup result.
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* Notes on NSS Configuration File:: Things to take care about while
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configuring NSS.
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@end menu
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@node Services in the NSS configuration, Actions in the NSS configuration, NSS Configuration File, NSS Configuration File
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@subsection Services in the NSS configuration File
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The above example file mentions five different services: @code{files},
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@code{db}, @code{dns}, @code{nis}, and @code{nisplus}. This does not
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mean these
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services are available on all sites and it does also not mean these are
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all the services which will ever be available.
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In fact, these names are simply strings which the NSS code uses to find
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the implicitly addressed functions. The internal interface will be
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described later. Visible to the user are the modules which implement an
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individual service.
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Assume the service @var{name} shall be used for a lookup. The code for
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this service is implemented in a module called @file{libnss_@var{name}}.
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On a system supporting shared libraries this is in fact a shared library
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with the name (for example) @file{libnss_@var{name}.so.2}. The number
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at the end is the currently used version of the interface which will not
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change frequently. Normally the user should not have to be cognizant of
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these files since they should be placed in a directory where they are
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found automatically. Only the names of all available services are
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important.
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@node Actions in the NSS configuration, Notes on NSS Configuration File, Services in the NSS configuration, NSS Configuration File
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@subsection Actions in the NSS configuration
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The second item in the specification gives the user much finer control
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on the lookup process. Action items are placed between two service
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names and are written within brackets. The general form is
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@display
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@code{[} ( @code{!}? @var{status} @code{=} @var{action} )+ @code{]}
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@end display
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@noindent
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where
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@smallexample
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@var{status} @result{} success | notfound | unavail | tryagain
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@var{action} @result{} return | continue
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@end smallexample
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The case of the keywords is insignificant. The @var{status}
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values are the results of a call to a lookup function of a specific
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service. They mean
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@ftable @samp
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@item success
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No error occurred and the wanted entry is returned. The default action
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for this is @code{return}.
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@item notfound
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The lookup process works ok but the needed value was not found. The
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default action is @code{continue}.
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@item unavail
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@cindex DNS server unavailable
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The service is permanently unavailable. This can either mean the needed
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file is not available, or, for DNS, the server is not available or does
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not allow queries. The default action is @code{continue}.
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@item tryagain
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The service is temporarily unavailable. This could mean a file is
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locked or a server currently cannot accept more connections. The
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default action is @code{continue}.
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@end ftable
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@noindent
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If we have a line like
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@smallexample
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ethers: nisplus [NOTFOUND=return] db files
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@end smallexample
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@noindent
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this is equivalent to
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@smallexample
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ethers: nisplus [SUCCESS=return NOTFOUND=return UNAVAIL=continue
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TRYAGAIN=continue]
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db [SUCCESS=return NOTFOUND=continue UNAVAIL=continue
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TRYAGAIN=continue]
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files
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@end smallexample
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@noindent
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(except that it would have to be written on one line). The default
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value for the actions are normally what you want, and only need to be
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changed in exceptional cases.
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If the optional @code{!} is placed before the @var{status} this means
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the following action is used for all statuses but @var{status} itself.
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I.e., @code{!} is negation as in the C language (and others).
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Before we explain the exception which makes this action item necessary
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one more remark: obviously it makes no sense to add another action
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item after the @code{files} service. Since there is no other service
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following the action @emph{always} is @code{return}.
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@cindex nisplus, and completeness
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Now, why is this @code{[NOTFOUND=return]} action useful? To understand
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this we should know that the @code{nisplus} service is often
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complete; i.e., if an entry is not available in the NIS+ tables it is
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not available anywhere else. This is what is expressed by this action
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item: it is useless to examine further services since they will not give
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us a result.
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@cindex nisplus, and booting
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@cindex bootstrapping, and services
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The situation would be different if the NIS+ service is not available
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because the machine is booting. In this case the return value of the
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lookup function is not @code{notfound} but instead @code{unavail}. And
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as you can see in the complete form above: in this situation the
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@code{db} and @code{files} services are used. Neat, isn't it? The
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system administrator need not pay special care for the time the system
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is not completely ready to work (while booting or shutdown or
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network problems).
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@node Notes on NSS Configuration File, , Actions in the NSS configuration, NSS Configuration File
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@subsection Notes on the NSS Configuration File
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Finally a few more hints. The NSS implementation is not completely
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helpless if @file{/etc/nsswitch.conf} does not exist. For
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all supported databases there is a default value so it should normally
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be possible to get the system running even if the file is corrupted or
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missing.
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@cindex default value, and NSS
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For the @code{hosts} and @code{networks} databases the default value is
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@code{dns [!UNAVAIL=return] files}. I.e., the system is prepared for
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the DNS service not to be available but if it is available the answer it
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returns is definitive.
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The @code{passwd}, @code{group}, and @code{shadow} databases are
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traditionally handled in a special way. The appropriate files in the
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@file{/etc} directory are read but if an entry with a name starting
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with a @code{+} character is found NIS is used. This kind of lookup
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remains possible by using the special lookup service @code{compat}
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and the default value for the three databases above is
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@code{compat [NOTFOUND=return] files}.
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For all other databases the default value is
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@code{nis [NOTFOUND=return] files}. This solution give the best
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chance to be correct since NIS and file based lookup is used.
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@cindex optimizing NSS
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A second point is that the user should try to optimize the lookup
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process. The different service have different response times.
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A simple file look up on a local file could be fast, but if the file
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is long and the needed entry is near the end of the file this may take
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quite some time. In this case it might be better to use the @code{db}
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service which allows fast local access to large data sets.
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Often the situation is that some global information like NIS must be
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used. So it is unavoidable to use service entries like @code{nis} etc.
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But one should avoid slow services like this if possible.
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@node NSS Module Internals, Extending NSS, NSS Configuration File, Name Service Switch
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@section NSS Module Internals
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Now it is time to describe what the modules look like. The functions
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contained in a module are identified by their names. I.e., there is no
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jump table or the like. How this is done is of no interest here; those
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interested in this topic should read about Dynamic Linking.
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@comment @ref{Dynamic Linking}.
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@menu
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* NSS Module Names:: Construction of the interface function of
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the NSS modules.
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* NSS Modules Interface:: Programming interface in the NSS module
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functions.
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@end menu
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@node NSS Module Names, NSS Modules Interface, NSS Module Internals, NSS Module Internals
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@subsection The Naming Scheme of the NSS Modules
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@noindent
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The name of each function consist of various parts:
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@quotation
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_nss_@var{service}_@var{function}
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@end quotation
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@var{service} of course corresponds to the name of the module this
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function is found in.@footnote{Now you might ask why this information is
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duplicated. The answer is that we want to make it possible to link
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directly with these shared objects.} The @var{function} part is derived
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from the interface function in the C library itself. If the user calls
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the function @code{gethostbyname} and the service used is @code{files}
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the function
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@smallexample
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_nss_files_gethostbyname_r
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@end smallexample
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@noindent
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in the module
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@smallexample
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libnss_files.so.2
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@end smallexample
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@noindent
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@cindex reentrant NSS functions
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is used. You see, what is explained above in not the whole truth. In
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fact the NSS modules only contain reentrant versions of the lookup
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functions. I.e., if the user would call the @code{gethostbyname_r}
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function this also would end in the above function. For all user
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interface functions the C library maps this call to a call to the
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reentrant function. For reentrant functions this is trivial since the
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interface is (nearly) the same. For the non-reentrant version The
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library keeps internal buffers which are used to replace the user
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supplied buffer.
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I.e., the reentrant functions @emph{can} have counterparts. No service
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module is forced to have functions for all databases and all kinds to
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access them. If a function is not available it is simply treated as if
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the function would return @code{unavail}
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(@pxref{Actions in the NSS configuration}).
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The file name @file{libnss_files.so.2} would be on a @w{Solaris 2}
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system @file{nss_files.so.2}. This is the difference mentioned above.
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Sun's NSS modules are usable as modules which get indirectly loaded
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only.
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The NSS modules in @theglibc{} are prepared to be used as normal
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libraries themselves. This is @emph{not} true at the moment, though.
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However, the organization of the name space in the modules does not make it
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impossible like it is for Solaris. Now you can see why the modules are
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still libraries.@footnote{There is a second explanation: we were too
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lazy to change the Makefiles to allow the generation of shared objects
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not starting with @file{lib} but don't tell this to anybody.}
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@node NSS Modules Interface, , NSS Module Names, NSS Module Internals
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@subsection The Interface of the Function in NSS Modules
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Now we know about the functions contained in the modules. It is now
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time to describe the types. When we mentioned the reentrant versions of
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the functions above, this means there are some additional arguments
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(compared with the standard, non-reentrant version). The prototypes for
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the non-reentrant and reentrant versions of our function above are:
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@smallexample
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struct hostent *gethostbyname (const char *name)
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int gethostbyname_r (const char *name, struct hostent *result_buf,
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char *buf, size_t buflen, struct hostent **result,
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int *h_errnop)
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@end smallexample
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@noindent
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The actual prototype of the function in the NSS modules in this case is
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@smallexample
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enum nss_status _nss_files_gethostbyname_r (const char *name,
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struct hostent *result_buf,
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char *buf, size_t buflen,
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int *errnop, int *h_errnop)
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@end smallexample
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I.e., the interface function is in fact the reentrant function with the
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change of the return value and the omission of the @var{result}
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parameter. While the user-level function returns a pointer to the
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result the reentrant function return an @code{enum nss_status} value:
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@vtable @code
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@item NSS_STATUS_TRYAGAIN
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numeric value @code{-2}
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@item NSS_STATUS_UNAVAIL
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numeric value @code{-1}
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@item NSS_STATUS_NOTFOUND
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numeric value @code{0}
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@item NSS_STATUS_SUCCESS
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numeric value @code{1}
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@end vtable
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@noindent
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Now you see where the action items of the @file{/etc/nsswitch.conf} file
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are used.
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If you study the source code you will find there is a fifth value:
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@code{NSS_STATUS_RETURN}. This is an internal use only value, used by a
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few functions in places where none of the above value can be used. If
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necessary the source code should be examined to learn about the details.
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In case the interface function has to return an error it is important
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that the correct error code is stored in @code{*@var{errnop}}. Some
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return status value have only one associated error code, others have
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more.
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@multitable @columnfractions .3 .2 .50
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@item
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@code{NSS_STATUS_TRYAGAIN} @tab
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@code{EAGAIN} @tab One of the functions used ran temporarily out of
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resources or a service is currently not available.
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@item
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@tab
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@code{ERANGE} @tab The provided buffer is not large enough.
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The function should be called again with a larger buffer.
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@item
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@code{NSS_STATUS_UNAVAIL} @tab
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@code{ENOENT} @tab A necessary input file cannot be found.
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@item
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@code{NSS_STATUS_NOTFOUND} @tab
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@code{ENOENT} @tab The requested entry is not available.
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@end multitable
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These are proposed values. There can be other error codes and the
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described error codes can have different meaning. @strong{With one
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exception:} when returning @code{NSS_STATUS_TRYAGAIN} the error code
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@code{ERANGE} @emph{must} mean that the user provided buffer is too
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small. Everything is non-critical.
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The above function has something special which is missing for almost all
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the other module functions. There is an argument @var{h_errnop}. This
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points to a variable which will be filled with the error code in case
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the execution of the function fails for some reason. The reentrant
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function cannot use the global variable @var{h_errno};
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@code{gethostbyname} calls @code{gethostbyname_r} with the last argument
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set to @code{&h_errno}.
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The @code{get@var{XXX}by@var{YYY}} functions are the most important
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functions in the NSS modules. But there are others which implement
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the other ways to access system databases (say for the
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password database, there are @code{setpwent}, @code{getpwent}, and
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@code{endpwent}). These will be described in more detail later.
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Here we give a general way to determine the
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signature of the module function:
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@itemize @bullet
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@item
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the return value is @code{int};
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@item
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the name is as explained in @pxref{NSS Module Names};
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@item
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the first arguments are identical to the arguments of the non-reentrant
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function;
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@item
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the next three arguments are:
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@table @code
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|
@item STRUCT_TYPE *result_buf
|
|
pointer to buffer where the result is stored. @code{STRUCT_TYPE} is
|
|
normally a struct which corresponds to the database.
|
|
@item char *buffer
|
|
pointer to a buffer where the function can store additional data for
|
|
the result etc.
|
|
@item size_t buflen
|
|
length of the buffer pointed to by @var{buffer}.
|
|
@end table
|
|
|
|
@item
|
|
possibly a last argument @var{h_errnop}, for the host name and network
|
|
name lookup functions.
|
|
@end itemize
|
|
|
|
@noindent
|
|
This table is correct for all functions but the @code{set@dots{}ent}
|
|
and @code{end@dots{}ent} functions.
|
|
|
|
|
|
@node Extending NSS, , NSS Module Internals, Name Service Switch
|
|
@section Extending NSS
|
|
|
|
One of the advantages of NSS mentioned above is that it can be extended
|
|
quite easily. There are two ways in which the extension can happen:
|
|
adding another database or adding another service. The former is
|
|
normally done only by the C library developers. It is
|
|
here only important to remember that adding another database is
|
|
independent from adding another service because a service need not
|
|
support all databases or lookup functions.
|
|
|
|
A designer/implementor of a new service is therefore free to choose the
|
|
databases s/he is interested in and leave the rest for later (or
|
|
completely aside).
|
|
|
|
@menu
|
|
* Adding another Service to NSS:: What is to do to add a new service.
|
|
* NSS Module Function Internals:: Guidelines for writing new NSS
|
|
service functions.
|
|
@end menu
|
|
|
|
@node Adding another Service to NSS, NSS Module Function Internals, Extending NSS, Extending NSS
|
|
@subsection Adding another Service to NSS
|
|
|
|
The sources for a new service need not (and should not) be part of @theglibc{}
|
|
itself. The developer retains complete control over the
|
|
sources and its development. The links between the C library and the
|
|
new service module consists solely of the interface functions.
|
|
|
|
Each module is designed following a specific interface specification.
|
|
For now the version is 2 (the interface in version 1 was not adequate)
|
|
and this manifests in the version number of the shared library object of
|
|
the NSS modules: they have the extension @code{.2}. If the interface
|
|
changes again in an incompatible way, this number will be increased.
|
|
Modules using the old interface will still be usable.
|
|
|
|
Developers of a new service will have to make sure that their module is
|
|
created using the correct interface number. This means the file itself
|
|
must have the correct name and on ELF systems the @dfn{soname} (Shared
|
|
Object Name) must also have this number. Building a module from a bunch
|
|
of object files on an ELF system using GNU CC could be done like this:
|
|
|
|
@smallexample
|
|
gcc -shared -o libnss_NAME.so.2 -Wl,-soname,libnss_NAME.so.2 OBJECTS
|
|
@end smallexample
|
|
|
|
@noindent
|
|
@ref{Link Options, Options for Linking, , gcc, GNU CC}, to learn
|
|
more about this command line.
|
|
|
|
To use the new module the library must be able to find it. This can be
|
|
achieved by using options for the dynamic linker so that it will search
|
|
the directory where the binary is placed. For an ELF system this could be
|
|
done by adding the wanted directory to the value of
|
|
@code{LD_LIBRARY_PATH}.
|
|
|
|
But this is not always possible since some programs (those which run
|
|
under IDs which do not belong to the user) ignore this variable.
|
|
Therefore the stable version of the module should be placed into a
|
|
directory which is searched by the dynamic linker. Normally this should
|
|
be the directory @file{$prefix/lib}, where @file{$prefix} corresponds to
|
|
the value given to configure using the @code{--prefix} option. But be
|
|
careful: this should only be done if it is clear the module does not
|
|
cause any harm. System administrators should be careful.
|
|
|
|
|
|
@node NSS Module Function Internals, , Adding another Service to NSS, Extending NSS
|
|
@subsection Internals of the NSS Module Functions
|
|
|
|
Until now we only provided the syntactic interface for the functions in
|
|
the NSS module. In fact there is not much more we can say since the
|
|
implementation obviously is different for each function. But a few
|
|
general rules must be followed by all functions.
|
|
|
|
In fact there are four kinds of different functions which may appear in
|
|
the interface. All derive from the traditional ones for system databases.
|
|
@var{db} in the following table is normally an abbreviation for the
|
|
database (e.g., it is @code{pw} for the password database).
|
|
|
|
@table @code
|
|
@item enum nss_status _nss_@var{database}_set@var{db}ent (void)
|
|
This function prepares the service for following operations. For a
|
|
simple file based lookup this means files could be opened, for other
|
|
services this function simply is a noop.
|
|
|
|
One special case for this function is that it takes an additional
|
|
argument for some @var{database}s (i.e., the interface is
|
|
@code{int set@var{db}ent (int)}). @ref{Host Names}, which describes the
|
|
@code{sethostent} function.
|
|
|
|
The return value should be @var{NSS_STATUS_SUCCESS} or according to the
|
|
table above in case of an error (@pxref{NSS Modules Interface}).
|
|
|
|
@item enum nss_status _nss_@var{database}_end@var{db}ent (void)
|
|
This function simply closes all files which are still open or removes
|
|
buffer caches. If there are no files or buffers to remove this is again
|
|
a simple noop.
|
|
|
|
There normally is no return value different to @var{NSS_STATUS_SUCCESS}.
|
|
|
|
@item enum nss_status _nss_@var{database}_get@var{db}ent_r (@var{STRUCTURE} *result, char *buffer, size_t buflen, int *errnop)
|
|
Since this function will be called several times in a row to retrieve
|
|
one entry after the other it must keep some kind of state. But this
|
|
also means the functions are not really reentrant. They are reentrant
|
|
only in that simultaneous calls to this function will not try to
|
|
write the retrieved data in the same place (as it would be the case for
|
|
the non-reentrant functions); instead, it writes to the structure
|
|
pointed to by the @var{result} parameter. But the calls share a common
|
|
state and in the case of a file access this means they return neighboring
|
|
entries in the file.
|
|
|
|
The buffer of length @var{buflen} pointed to by @var{buffer} can be used
|
|
for storing some additional data for the result. It is @emph{not}
|
|
guaranteed that the same buffer will be passed for the next call of this
|
|
function. Therefore one must not misuse this buffer to save some state
|
|
information from one call to another.
|
|
|
|
Before the function returns the implementation should store the value of
|
|
the local @var{errno} variable in the variable pointed to be
|
|
@var{errnop}. This is important to guarantee the module working in
|
|
statically linked programs.
|
|
|
|
As explained above this function could also have an additional last
|
|
argument. This depends on the database used; it happens only for
|
|
@code{host} and @code{networks}.
|
|
|
|
The function shall return @code{NSS_STATUS_SUCCESS} as long as there are
|
|
more entries. When the last entry was read it should return
|
|
@code{NSS_STATUS_NOTFOUND}. When the buffer given as an argument is too
|
|
small for the data to be returned @code{NSS_STATUS_TRYAGAIN} should be
|
|
returned. When the service was not formerly initialized by a call to
|
|
@code{_nss_@var{DATABASE}_set@var{db}ent} all return value allowed for
|
|
this function can also be returned here.
|
|
|
|
@item enum nss_status _nss_@var{DATABASE}_get@var{db}by@var{XX}_r (@var{PARAMS}, @var{STRUCTURE} *result, char *buffer, size_t buflen, int *errnop)
|
|
This function shall return the entry from the database which is
|
|
addressed by the @var{PARAMS}. The type and number of these arguments
|
|
vary. It must be individually determined by looking to the user-level
|
|
interface functions. All arguments given to the non-reentrant version
|
|
are here described by @var{PARAMS}.
|
|
|
|
The result must be stored in the structure pointed to by @var{result}.
|
|
If there is additional data to return (say strings, where the
|
|
@var{result} structure only contains pointers) the function must use the
|
|
@var{buffer} or length @var{buflen}. There must not be any references
|
|
to non-constant global data.
|
|
|
|
The implementation of this function should honor the @var{stayopen}
|
|
flag set by the @code{set@var{DB}ent} function whenever this makes sense.
|
|
|
|
Before the function returns the implementation should store the value of
|
|
the local @var{errno} variable in the variable pointed to be
|
|
@var{errnop}. This is important to guarantee the module working in
|
|
statically linked programs.
|
|
|
|
Again, this function takes an additional last argument for the
|
|
@code{host} and @code{networks} database.
|
|
|
|
The return value should as always follow the rules given above
|
|
(@pxref{NSS Modules Interface}).
|
|
|
|
@end table
|