From d1e063beb43e595680c65e3804d1f8ddff53373b Mon Sep 17 00:00:00 2001 From: Guido Guenther Date: Sat, 18 Nov 2006 23:48:07 +0100 Subject: Imported Debian version 0.3.8.8 --- e2fslib/et/com_err.texinfo | 579 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 579 insertions(+) create mode 100644 e2fslib/et/com_err.texinfo (limited to 'e2fslib/et/com_err.texinfo') diff --git a/e2fslib/et/com_err.texinfo b/e2fslib/et/com_err.texinfo new file mode 100644 index 0000000..6ca745d --- /dev/null +++ b/e2fslib/et/com_err.texinfo @@ -0,0 +1,579 @@ +\input texinfo @c -*-texinfo-*- + +@c $Header: /home/cvs/arcboot/e2fslib/et/com_err.texinfo,v 1.1 2004/11/29 10:39:38 ladis Exp $ +@c $Source: /home/cvs/arcboot/e2fslib/et/com_err.texinfo,v $ +@c $Locker: $ + +@c Note that although this source file is in texinfo format (more +@c or less), it is not yet suitable for turning into an ``info'' +@c file. Sorry, maybe next time. +@c +@c In order to produce hardcopy documentation from a texinfo file, +@c run ``tex com_err.texinfo'' which will load in texinfo.tex, +@c provided in this distribution. (texinfo.tex is from the Free +@c Software Foundation, and is under different copyright restrictions +@c from the rest of this package.) + +@setfilename com_err +@settitle A Common Error Description Library for UNIX + +@ifinfo +@dircategory Development +@format +START-INFO-DIR-ENTRY +* com_err: (com_err.info). A Common Error Description Library for UNIX. +END-INFO-DIR-ENTRY +@end format +@end ifinfo + +@iftex +@tolerance 10000 + +@c Mutate section headers... +@begingroup + @catcode#=6 + @gdef@secheading#1#2#3{@secheadingi {#3@enspace #1}} +@endgroup +@end iftex + +@ifinfo +This file documents the use of the Common Error Description library. + +Copyright (C) 1987, 1988 Student Information Processing Board of the +Massachusetts Institute of Technology. + +Permission to use, copy, modify, and distribute this software and its +documentation for any purpose and without fee is hereby granted, provided +that the above copyright notice appear in all copies and that both that +copyright notice and this permission notice appear in supporting +documentation, and that the names of M.I.T. and the M.I.T. S.I.P.B. not be +used in advertising or publicity pertaining to distribution of the software +without specific, written prior permission. M.I.T. and the M.I.T. S.I.P.B. +make no representations about the suitability of this software for any +purpose. It is provided "as is" without express or implied warranty. + +Note that the file texinfo.tex, provided with this distribution, is from +the Free Software Foundation, and is under different copyright restrictions +from the remainder of this package. + +@ignore +Permission is granted to process this file through Tex and print the +results, provided the printed document carries copying permission +notice identical to this one except for the removal of this paragraph +(this paragraph not being relevant to the printed manual). + +@end ignore + +@setchapternewpage odd + +@titlepage +@center @titlefont{A Common Error Description} +@center @titlefont{Library for UNIX} +@sp 2 +@center Ken Raeburn +@center Bill Sommerfeld +@sp 1 +@center MIT Student Information Processing Board +@sp 3 +@center last updated 1 January 1989 +@center for version 1.2 +@center ***DRAFT COPY ONLY*** + +@vskip 2in + +@center @b{Abstract} + +UNIX has always had a clean and simple system call interface, with a +standard set of error codes passed between the kernel and user +programs. Unfortunately, the same cannot be said of many of the +libraries layered on top of the primitives provided by the kernel. +Typically, each one has used a different style of indicating errors to +their callers, leading to a total hodgepodge of error handling, and +considerable amounts of work for the programmer. This paper describes +a library and associated utilities which allows a more uniform way for +libraries to return errors to their callers, and for programs to +describe errors and exceptional conditions to their users. + +@page +@vskip 0pt plus 1filll + +Copyright @copyright{} 1987, 1988 by the Student Information Processing +Board of the Massachusetts Institute of Technology. + +Permission to use, copy, modify, and distribute this software and its +documentation for any purpose and without fee is hereby granted, provided +that the above copyright notice appear in all copies and that both that +copyright notice and this permission notice appear in supporting +documentation, and that the names of M.I.T. and the M.I.T. S.I.P.B. not be +used in advertising or publicity pertaining to distribution of the software +without specific, written prior permission. M.I.T. and the M.I.T. S.I.P.B. +make no representations about the suitability of this software for any +purpose. It is provided "as is" without express or implied warranty. + +Note that the file texinfo.tex, provided with this distribution, is from +the Free Software Foundation, and is under different copyright restrictions +from the remainder of this package. + +@end titlepage + + +@node Top, Why com_err?, (dir), (dir) + +@top A Common Error Description Library for UNIX + +This manual documents the com_err library. + +@menu +* Why com_err?:: +* Error codes:: +* Error table source file:: +* The error-table compiler:: +* Run-time support routines:: +* Coding Conventions:: +* Building and Installation:: +* Bug Reports:: +* Acknowledgements:: +@end menu + +@end ifinfo + +@page + +@node Why com_err?, Error codes, Top, Top +@section Why com_err? + +In building application software packages, a programmer often has to +deal with a number of libraries, each of which can use a different +error-reporting mechanism. Sometimes one of two values is returned, +indicating simply SUCCESS or FAILURE, with no description of errors +encountered. Sometimes it is an index into a table of text strings, +where the name of the table used is dependent on the library being +used when the error is generated; since each table starts numbering at +0 or 1, additional information as to the source of the error code is +needed to determine which table to look at. Sometimes no text messages are +supplied at all, and the programmer must supply them at any point at which +he may wish to report error conditions. +Often, a global variable is assigned some value describing the error, but +the programmer has to know in each case whether to look at @code{errno}, +@code{h_errno}, the return value from @code{hes_err()}, or whatever other +variables or routines are specified. +And what happens if something +in the procedure of +examining or reporting the error changes the same variable? + +The package we have developed is an attempt to present a common +error-handling mechanism to manipulate the most common form of error code +in a fashion that does not have the problems listed above. + +A list of up to 256 text messages is supplied to a translator we have +written, along with the three- to four-character ``name'' of the error +table. The library using this error table need only call a routine +generated from this error-table source to make the table ``known'' to the +com_err library, and any error code the library generates can be converted +to the corresponding error message. There is also a default format for +error codes accidentally returned before making the table known, which is +of the form @samp{unknown code foo 32}, where @samp{foo} would be the name +of the table. + +@node Error codes, Error table source file, Why com_err?, Top +@section Error codes + +Error codes themselves are 32 bit (signed) integers, of which the high +order 24 bits are an identifier of which error table the error code is +from, and the low order 8 bits are a sequential error number within +the table. An error code may thus be easily decomposed into its component +parts. Only the lowest 32 bits of an error code are considered significant +on systems which support wider values. + +Error table 0 is defined to match the UNIX system call error table +(@code{sys_errlist}); this allows @code{errno} values to be used directly +in the library (assuming that @code{errno} is of a type with the same width +as @t{long}). Other error table numbers are formed by compacting together +the first four characters of the error table name. The mapping between +characters in the name and numeric values in the error code are defined in +a system-independent fashion, so that two systems that can pass integral +values between them can reliably pass error codes without loss of meaning; +this should work even if the character sets used are not the same. +(However, if this is to be done, error table 0 should be avoided, since the +local system call error tables may differ.) + +Any variable which is to contain an error code should be declared @t{long}. +The draft proposed American National Standard for C (as of May, 1988) +requires that @t{long} variables be at least 32 bits; any system which does +not support 32-bit @t{long} values cannot make use of this package (nor +much other software that assumes an ANSI-C environment base) without +significant effort. + +@node Error table source file, The error-table compiler, Error codes, Top +@section Error table source file + +The error table source file begins with the declaration of the table name, +as + +@example +error_table @var{tablename} +@end example + +Individual error codes are +specified with + +@example +error_code @var{ERROR_NAME}, @var{"text message"} +@end example + +where @samp{ec} can also be used as a short form of @samp{error_code}. To +indicate the end of the table, use @samp{end}. Thus, a (short) sample +error table might be: + +@example + + error_table dsc + + error_code DSC_DUP_MTG_NAME, + "Meeting already exists" + + ec DSC_BAD_PATH, + "A bad meeting pathname was given" + + ec DSC_BAD_MODES, + "Invalid mode for this access control list" + + end + +@end example + +@node The error-table compiler, Run-time support routines, Error table source file, Top +@section The error-table compiler + +The error table compiler is named @code{compile_et}. It takes one +argument, the pathname of a file (ending in @samp{.et}, e.g., +@samp{dsc_err.et}) containing an error table source file. It parses the +error table, and generates two output files -- a C header file +(@samp{discuss_err.h}) which contains definitions of the numerical values +of the error codes defined in the error table, and a C source file which +should be compiled and linked with the executable. The header file must be +included in the source of a module which wishes to reference the error +codes defined; the object module generated from the C code may be linked in +to a program which wishes to use the printed forms of the error codes. + +This translator accepts a @kbd{-language @var{lang}} argument, which +determines for which language (or language variant) the output should be +written. At the moment, @var{lang} is currently limited to @kbd{ANSI-C} +and @kbd{K&R-C}, and some abbreviated forms of each. Eventually, this will +be extended to include some support for C++. The default is currently +@kbd{K&R-C}, though the generated sources will have ANSI-C code +conditionalized on the symbol @t{__STDC__}. + +@node Run-time support routines, Coding Conventions, The error-table compiler, Top +@section Run-time support routines + +Any source file which uses the routines supplied with or produced by the +com_err package should include the header file @file{}. It +contains declarations and definitions which may be needed on some systems. +(Some functions cannot be referenced properly without the return type +declarations in this file. Some functions may work properly on most +architectures even without the header file, but relying on this is not +recommended.) + +The run-time support routines and variables provided via this package +include the following: + +@example +void initialize_@var{xxxx}_error_table (void); +@end example + +One of these routines is built by the error compiler for each error table. +It makes the @var{xxxx} error table ``known'' to the error reporting +system. By convention, this routine should be called in the initialization +routine of the @var{xxxx} library. If the library has no initialization +routine, some combination of routines which form the core of the library +should ensure that this routine is called. It is not advised to leave it +the caller to make this call. + +There is no harm in calling this routine more than once. + +@example +#define ERROR_TABLE_BASE_@var{xxxx} @var{nnnnn}L +@end example + +This symbol contains the value of the first error code entry in the +specified table. +This rarely needs be used by the +programmer. + +@deftypefun const char *error_message (long @var{code}); + +This routine returns the character string error message associated +with @code{code}; if this is associated with an unknown error table, or +if the code is associated with a known error table but the code is not +in the table, a string of the form @samp{Unknown code @var{xxxx nn}} is +returned, where @var{xxxx} is the error table name produced by +reversing the compaction performed on the error table number implied +by that error code, and @var{nn} is the offset from that base value. + +Although this routine is available for use when needed, its use should be +left to circumstances which render @code{com_err} (below) unusable. + +@end deftypefun + +@deftypefun +void com_err (const char *@var{whoami}, long @var{error_code}, + const char *@var{format}, ...); + +This routine provides an alternate way to print error messages to +standard error; it allows the error message to be passed in as a +parameter, rather than in an external variable. @emph{Provide grammatical +context for ``message.''} + +The module reporting the error should be passed in via @var{whoami}. +If @var{format} is @code{(char *)NULL}, the formatted message will not be +printed. @var{format} may not be omitted. + +@end deftypefun + +@deftypefun +void com_err_va (const char *@var{whoami}, long @var{error_code}, const char *@var{format}, va_list @var{args}); + +This routine provides an interface, equivalent to @code{com_err} above, +which may be used by higher-level variadic functions (functions which +accept variable numbers of arguments). + +@end deftypefun + +@deftypefun void (*set_com_err_hook (void (*@var{proc}) (const char *@var{whoami}, long @var{error_code}, va_list @var{args}))) (const char *@var{whoami}, long @var{error_code}, va_list @var{args}); + +@deftypefunx void reset_com_err_hook (); + +These two routines allow a routine to be dynamically substituted for +@samp{com_err}. After @samp{set_com_err_hook} has been called, +calls to @samp{com_err} will turn into calls to the new hook routine. +@samp{reset_com_err_hook} turns off this hook. This may intended to +be used in daemons (to use a routine which calls @cite{syslog(3)}), or +in a window system application (which could pop up a dialogue box). + +If a program is to be used in an environment in which simply printing +messages to the @code{stderr} stream would be inappropriate (such as in a +daemon program which runs without a terminal attached), +@code{set_com_err_hook} may be used to redirect output from @code{com_err}. +The following is an example of an error handler which uses @cite{syslog(3)} +as supplied in BSD 4.3: + +@example +#include +#include +#include + +/* extern openlog (const char * name, int logopt, int facility); */ +/* extern syslog (int priority, char * message, ...); */ + +void hook (const char * whoami, long code, + const char * format, va_list args) +@{ + char buffer[BUFSIZ]; + static int initialized = 0; + if (!initialized) @{ + openlog (whoami, + LOG_NOWAIT|LOG_CONS|LOG_PID|LOG_NDELAY, + LOG_DAEMON); + initialized = 1; + @} + vsprintf (buffer, format, args); + syslog (LOG_ERR, "%s %s", error_message (code), buffer); +@} +@end example + +After making the call +@code{set_com_err_hook (hook);}, +any calls to @code{com_err} will result in messages being sent to the +@var{syslogd} daemon for logging. +The name of the program, @samp{whoami}, is supplied to the +@samp{openlog()} call, and the message is formatted into a buffer and +passed to @code{syslog}. + +Note that since the extra arguments to @code{com_err} are passed by +reference via the @code{va_list} value @code{args}, the hook routine may +place any form of interpretation on them, including ignoring them. For +consistency, @code{printf}-style interpretation is suggested, via +@code{vsprintf} (or @code{_doprnt} on BSD systems without full support for +the ANSI C library). + +@end deftypefun + +@node Coding Conventions, Building and Installation, Run-time support routines, Top +@section Coding Conventions + +The following conventions are just some general stylistic conventions +to follow when writing robust libraries and programs. Conventions +similar to this are generally followed inside the UNIX kernel and most +routines in the Multics operating system. In general, a routine +either succeeds (returning a zero error code, and doing some side +effects in the process), or it fails, doing minimal side effects; in +any event, any invariant which the library assumes must be maintained. + +In general, it is not in the domain of non user-interface library +routines to write error messages to the user's terminal, or halt the +process. Such forms of ``error handling'' should be reserved for +failures of internal invariants and consistancy checks only, as it +provides the user of the library no way to clean up for himself in the +event of total failure. + +Library routines which can fail should be set up to return an error +code. This should usually be done as the return value of the +function; if this is not acceptable, the routine should return a +``null'' value, and put the error code into a parameter passed by +reference. + +Routines which use the first style of interface can be used from +user-interface levels of a program as follows: + +@example +@{ + if ((code = initialize_world(getuid(), random())) != 0) @{ + com_err("demo", code, + "when trying to initialize world"); + exit(1); + @} + if ((database = open_database("my_secrets", &code))==NULL) @{ + com_err("demo", code, + "while opening my_secrets"); + exit(1); + @} +@} +@end example + +A caller which fails to check the return status is in error. It is +possible to look for code which ignores error returns by using lint; +look for error messages of the form ``foobar returns value which is +sometimes ignored'' or ``foobar returns value which is always +ignored.'' + +Since libraries may be built out of other libraries, it is often necessary +for the success of one routine to depend on another. When a lower level +routine returns an error code, the middle level routine has a few possible +options. It can simply return the error code to its caller after doing +some form of cleanup, it can substitute one of its own, or it can take +corrective action of its own and continue normally. For instance, a +library routine which makes a ``connect'' system call to make a network +connection may reflect the system error code @code{ECONNREFUSED} +(Connection refused) to its caller, or it may return a ``server not +available, try again later,'' or it may try a different server. + +Cleanup which is typically necessary may include, but not be limited +to, freeing allocated memory which will not be needed any more, +unlocking concurrancy locks, dropping reference counts, closing file +descriptors, or otherwise undoing anything which the procedure did up +to this point. When there are a lot of things which can go wrong, it +is generally good to write one block of error-handling code which is +branched to, using a goto, in the event of failure. A common source +of errors in UNIX programs is failing to close file descriptors on +error returns; this leaves a number of ``zombied'' file descriptors +open, which eventually causes the process to run out of file +descriptors and fall over. + +@example +@{ + FILE *f1=NULL, *f2=NULL, *f3=NULL; + int status = 0; + + if ( (f1 = fopen(FILE1, "r")) == NULL) @{ + status = errno; + goto error; + @} + + /* + * Crunch for a while + */ + + if ( (f2 = fopen(FILE2, "w")) == NULL) @{ + status = errno; + goto error; + @} + + if ( (f3 = fopen(FILE3, "a+")) == NULL) @{ + status = errno; + goto error; + @} + + /* + * Do more processing. + */ + fclose(f1); + fclose(f2); + fclose(f3); + return 0; + +error: + if (f1) fclose(f1); + if (f2) fclose(f2); + if (f3) fclose(f3); + return status; +@} +@end example + +@node Building and Installation, Bug Reports, Coding Conventions, Top +@section Building and Installation + +The distribution of this package will probably be done as a compressed +``tar''-format file available via anonymous FTP from SIPB.MIT.EDU. +Retrieve @samp{pub/com_err.tar.Z} and extract the contents. A subdirectory +@t{profiled} should be created to hold objects compiled for profiling. +Running ``make all'' should then be sufficient to build the library and +error-table compiler. The files @samp{libcom_err.a}, +@samp{libcom_err_p.a}, @samp{com_err.h}, and @samp{compile_et} should be +installed for use; @samp{com_err.3} and @samp{compile_et.1} can also be +installed as manual pages. + +Potential problems: + +@itemize @bullet + +@item Use of @code{strcasecmp}, a routine provided in BSD for +case-insensitive string comparisons. If an equivalent routine is +available, you can modify @code{CFLAGS} in the makefile to define +@code{strcasecmp} to the name of that routine. + +@item Compilers that defined @code{__STDC__} without providing the header +file @code{}. One such example is Metaware's High ``C'' +compiler, as provided at Project Athena on the IBM RT/PC workstation; if +@code{__HIGHC__} is defined, it is assumed that @code{} is not +available, and therefore @code{} must be used. If the symbol +@code{VARARGS} is defined (e.g., in the makefile), @code{} will +be used. + +@item If your linker rejects symbols that are simultaneously defined in two +library files, edit @samp{Makefile} to remove @samp{perror.c} from the +library. This file contains a version of @cite{perror(3)} which calls +@code{com_err} instead of calling @code{write} directly. + +@end itemize + +As I do not have access to non-BSD systems, there are probably +bugs present that may interfere with building or using this package on +other systems. If they are reported to me, they can probably be fixed for +the next version. + +@node Bug Reports, Acknowledgements, Building and Installation, Top +@section Bug Reports + +The principal author of this library is: Ken +Raeburn, @t{raeburn@@MIT.EDU}. + +This version of the com_err library is being maintained by Theodore +Ts'o, and so bugs and comments should be sent to @t{tytso@@thunk.org}. + + +@node Acknowledgements, , Bug Reports, Top +@section Acknowledgements + +I would like to thank: Bill Sommerfeld, for his help with some of this +documentation, and catching some of the bugs the first time around; +Honeywell Information Systems, for not killing off the @emph{Multics} +operating system before I had an opportunity to use it; Honeywell's +customers, who persuaded them not to do so, for a while; Ted Anderson of +CMU, for catching some problems before version 1.2 left the nest; Stan +Zanarotti and several others of MIT's Student Information Processing Board, +for getting us started with ``discuss,'' for which this package was +originally written; and everyone I've talked into --- I mean, asked to read +this document and the ``man'' pages. + +@bye -- cgit v1.2.3