361 lines
14 KiB
HTML
361 lines
14 KiB
HTML
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<head>
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<title> libsm : Assert and Abort </title>
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</head>
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<body>
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<a href="index.html">Back to libsm overview</a>
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<center>
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<h1> libsm : Assert and Abort </h1>
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<br> Id: assert.html,v 1.6 2001/08/27 21:47:03 ca Exp
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<br> $NetBSD: assert.html,v 1.1.1.2 2003/06/01 14:01:34 atatat Exp $
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</center>
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<h2> Introduction </h2>
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This package contains abstractions
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for assertion checking and abnormal program termination.
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<h2> Synopsis </h2>
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<pre>
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#include <sm/assert.h>
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/*
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** abnormal program termination
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*/
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void sm_abort_at(char *filename, int lineno, char *msg);
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typedef void (*SM_ABORT_HANDLER)(char *filename, int lineno, char *msg);
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void sm_abort_sethandler(SM_ABORT_HANDLER);
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void sm_abort(char *fmt, ...)
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/*
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** assertion checking
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*/
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SM_REQUIRE(expression)
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SM_ASSERT(expression)
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SM_ENSURE(expression)
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extern SM_DEBUG_T SmExpensiveRequire;
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extern SM_DEBUG_T SmExpensiveAssert;
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extern SM_DEBUG_T SmExpensiveEnsure;
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#if SM_CHECK_REQUIRE
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#if SM_CHECK_ASSERT
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#if SM_CHECK_ENSURE
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cc -DSM_CHECK_ALL=0 -DSM_CHECK_REQUIRE=1 ...
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</pre>
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<h2> Abnormal Program Termination </h2>
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The functions sm_abort and sm_abort_at are used to report a logic
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bug and terminate the program. They can be invoked directly,
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and they are also used by the assertion checking macros.
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<dl>
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<dt>
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void sm_abort_at(char *filename, int lineno, char *msg)
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<dd>
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This is the low level interface for causing abnormal program
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termination. It is intended to be invoked from a
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macro, such as the assertion checking macros.
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If filename != NULL then filename and lineno specify the line
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of source code on which the logic bug is detected. These
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arguments are normally either set to __FILE__ and __LINE__
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from an assertion checking macro, or they are set to NULL and 0.
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The default action is to print an error message to smioerr
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using the arguments, and then call abort(). This default
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behaviour can be changed by calling sm_abort_sethandler.
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<p>
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<dt>
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void sm_abort_sethandler(SM_ABORT_HANDLER handler)
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<dd>
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Install 'handler' as the callback function that is invoked
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by sm_abort_at. This callback function is passed the same
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arguments as sm_abort_at, and is expected to log an error
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message and terminate the program. The callback function should
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not raise an exception or perform cleanup: see Rationale.
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sm_abort_sethandler is intended to be called once, from main(),
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before any additional threads are created: see Rationale.
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You should not use sm_abort_sethandler to
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switch back and forth between several handlers;
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this is particularly dangerous when there are
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multiple threads, or when you are in a library routine.
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<p>
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<dt>
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void sm_abort(char *fmt, ...)
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<dd>
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This is the high level interface for causing abnormal program
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termination. It takes printf arguments. There is no need to
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include a trailing newline in the format string; a trailing newline
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will be printed if appropriate by the handler function.
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</dl>
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<h2> Assertions </h2>
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The assertion handling package
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supports a style of programming in which assertions are used
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liberally throughout the code, both as a form of documentation,
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and as a way of detecting bugs in the code by performing runtime checks.
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<p>
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There are three kinds of assertion:
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<dl>
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<dt>
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SM_REQUIRE(expr)
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<dd>
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This is an assertion used at the beginning of a function
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to check that the preconditions for calling the function
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have been satisfied by the caller.
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<p>
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<dt>
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SM_ENSURE(expr)
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<dd>
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This is an assertion used just before returning from a function
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to check that the function has satisfied all of the postconditions
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that it is required to satisfy by its contract with the caller.
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<p>
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<dt>
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SM_ASSERT(expr)
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<dd>
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This is an assertion that is used in the middle of a function,
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to check loop invariants, and for any other kind of check that is
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not a "require" or "ensure" check.
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</dl>
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If any of the above assertion macros fail, then sm_abort_at
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is called. By default, a message is printed to stderr and the
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program is aborted. For example, if SM_REQUIRE(arg > 0) fails
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because arg <= 0, then the message
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<blockquote><pre>
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foo.c:47: SM_REQUIRE(arg > 0) failed
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</pre></blockquote>
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is printed to stderr, and abort() is called.
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You can change this default behaviour using sm_abort_sethandler.
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<h2> How To Disable Assertion Checking At Compile Time </h2>
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You can use compile time macros to selectively enable or disable
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each of the three kinds of assertions, for performance reasons.
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For example, you might want to enable SM_REQUIRE checking
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(because it finds the most bugs), but disable the other two types.
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<p>
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By default, all three types of assertion are enabled.
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You can selectively disable individual assertion types
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by setting one or more of the following cpp macros to 0
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before <sm/assert.h> is included for the first time:
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<blockquote>
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SM_CHECK_REQUIRE<br>
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SM_CHECK_ENSURE<br>
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SM_CHECK_ASSERT<br>
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</blockquote>
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Or, you can define SM_CHECK_ALL as 0 to disable all assertion
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types, then selectively define one or more of SM_CHECK_REQUIRE,
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SM_CHECK_ENSURE or SM_CHECK_ASSERT as 1. For example,
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to disable all assertions except for SM_REQUIRE, you can use
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these C compiler flags:
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<blockquote>
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-DSM_CHECK_ALL=0 -DSM_CHECK_REQUIRE=1
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</blockquote>
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After <sm/assert.h> is included, the macros
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SM_CHECK_REQUIRE, SM_CHECK_ENSURE and SM_CHECK_ASSERT
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are each set to either 0 or 1.
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<h2> How To Write Complex or Expensive Assertions </h2>
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Sometimes an assertion check requires more code than a simple
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boolean expression.
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For example, it might require an entire statement block
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with its own local variables.
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You can code such assertion checks by making them conditional on
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SM_CHECK_REQUIRE, SM_CHECK_ENSURE or SM_CHECK_ASSERT,
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and using sm_abort to signal failure.
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<p>
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Sometimes an assertion check is significantly more expensive
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than one or two comparisons.
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In such cases, it is not uncommon for developers to comment out
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the assertion once the code is unit tested.
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Please don't do this: it makes it hard to turn the assertion
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check back on for the purposes of regression testing.
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What you should do instead is make the assertion check conditional
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on one of these predefined debug objects:
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<blockquote>
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SmExpensiveRequire<br>
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SmExpensiveAssert<br>
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SmExpensiveEnsure
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</blockquote>
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By doing this, you bring the cost of the assertion checking code
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back down to a single comparison, unless expensive assertion checking
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has been explicitly enabled.
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By the way, the corresponding debug category names are
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<blockquote>
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sm_check_require<br>
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sm_check_assert<br>
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sm_check_ensure
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</blockquote>
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What activation level should you check for?
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Higher levels correspond to more expensive assertion checks.
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Here are some basic guidelines:
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<blockquote>
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level 1: < 10 basic C operations<br>
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level 2: < 100 basic C operations<br>
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level 3: < 1000 basic C operations<br>
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...
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</blockquote>
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<p>
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Here's a contrived example of both techniques:
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<blockquote><pre>
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void
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w_munge(WIDGET *w)
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{
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SM_REQUIRE(w != NULL);
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#if SM_CHECK_REQUIRE
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/*
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** We run this check at level 3 because we expect to check a few hundred
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** table entries.
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*/
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if (sm_debug_active(&SmExpensiveRequire, 3))
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{
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int i;
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for (i = 0; i < WIDGET_MAX; ++i)
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{
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if (w[i] == NULL)
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sm_abort("w_munge: NULL entry %d in widget table", i);
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}
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}
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#endif /* SM_CHECK_REQUIRE */
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</pre></blockquote>
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<h2> Other Guidelines </h2>
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You should resist the urge to write SM_ASSERT(0) when the code has
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reached an impossible place. It's better to call sm_abort, because
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then you can generate a better error message. For example,
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<blockquote><pre>
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switch (foo)
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{
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...
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default:
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sm_abort("impossible value %d for foo", foo);
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}
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</pre></blockquote>
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Note that I did not bother to guard the default clause of the switch
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statement with #if SM_CHECK_ASSERT ... #endif, because there is
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probably no performance gain to be had by disabling this particular check.
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<p>
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Avoid including code that has side effects inside of assert macros,
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or inside of SM_CHECK_* guards. You don't want the program to stop
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working if assertion checking is disabled.
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<h2> Rationale for Logic Bug Handling </h2>
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When a logic bug is detected, our philosophy is to log an error message
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and terminate the program, dumping core if possible.
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It is not a good idea to raise an exception, attempt cleanup,
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or continue program execution. Here's why.
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<p>
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First of all, to facilitate post-mortem analysis, we want to dump core
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on detecting a logic bug, disturbing the process image as little as
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possible before dumping core. We don't want to raise an exception
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and unwind the stack, executing cleanup code, before dumping core,
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because that would obliterate information we need to analyze the cause
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of the abort.
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<p>
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Second, it is a bad idea to raise an exception on an assertion failure
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because this places unacceptable restrictions on code that uses
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the assertion macros.
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The reason is this: the sendmail code must be written so that
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anywhere it is possible for an assertion to be raised, the code
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will catch the exception and clean up if necessary, restoring
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data structure invariants and freeing resources as required.
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If an assertion failure was signalled by raising an exception,
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then every time you added an assertion, you would need to check
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both the function containing the assertion and its callers to see
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if any exception handling code needed to be added to clean up properly
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on assertion failure. That is far too great a burden.
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<p>
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It is a bad idea to attempt cleanup upon detecting a logic bug
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for several reasons:
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<ul>
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<li>If you need to perform cleanup actions in order to preserve the
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integrity of the data that the program is handling, then the
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program is not fault tolerant, and needs to be redesigned.
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There are several reasons why a program might be terminated unexpectedly:
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the system might crash, the program might receive a signal 9,
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the program might be terminated by a memory fault (possibly as a
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side effect of earlier data structure corruption), and the program
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might detect a logic bug and terminate itself. Note that executing
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cleanup actions is not feasible in most of the above cases.
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If the program has a fault tolerant design, then it will not lose
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data even if the system crashes in the middle of an operation.
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<p>
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<li>If the cause of the logic bug is earlier data structure corruption,
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then cleanup actions intended to preserve the integrity of the data
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that the program is handling might cause more harm than good: they
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might cause information to be corrupted or lost.
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<p>
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<li>If the program uses threads, then cleanup is much more problematic.
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Suppose that thread A is holding some locks, and is in the middle of
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modifying a shared data structure. The locks are needed because the
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data structure is currently in an inconsistent state. At this point,
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a logic bug is detected deep in a library routine called by A.
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How do we get all of the running threads to stop what they are doing
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and perform their thread-specific cleanup actions before terminating?
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We may not be able to get B to clean up and terminate cleanly until
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A has restored the invariants on the data structure it is modifying
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and releases its locks. So, we raise an exception and unwind the stack,
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restoring data structure invariants and releasing locks at each level
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of abstraction, and performing an orderly shutdown. There are certainly
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many classes of error conditions for which using the exception mechanism
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to perform an orderly shutdown is appropriate and feasible, but there
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are also classes of error conditions for which exception handling and
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orderly shutdown is dangerous or impossible. The abnormal program
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termination system is intended for this second class of error conditions.
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If you want to trigger orderly shutdown, don't call sm_abort:
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raise an exception instead.
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</ul>
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<p>
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Here is a strategy for making sendmail fault tolerant.
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Sendmail is structured as a collection of processes. The "root" process
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does as little as possible, except spawn children to do all of the real
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work, monitor the children, and act as traffic cop.
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We use exceptions to signal expected but infrequent error conditions,
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so that the process encountering the exceptional condition can clean up
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and keep going. (Worker processes are intended to be long lived, in
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order to minimize forking and increase performance.) But when a bug
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is detected in a sendmail worker process, the worker process does minimal
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or no cleanup and then dies. A bug might be detected in several ways:
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the process might dereference a NULL pointer, receive a signal 11,
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core dump and die, or an assertion might fail, in which case the process
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commits suicide. Either way, the root process detects the death of the
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worker, logs the event, and spawns another worker.
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<h2> Rationale for Naming Conventions </h2>
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The names "require" and "ensure" come from the writings of Bertrand Meyer,
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a prominent evangelist for assertion checking who has written a number of
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papers about the "Design By Contract" programming methodology,
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and who created the Eiffel programming language.
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Many other assertion checking packages for C also have "require" and
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"ensure" assertion types. In short, we are conforming to a de-facto
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standard.
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<p>
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We use the names <tt>SM_REQUIRE</tt>, <tt>SM_ASSERT</tt>
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and <tt>SM_ENSURE</tt> in preference to to <tt>REQUIRE</tt>,
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<tt>ASSERT</tt> and <tt>ENSURE</tt> because at least two other
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open source libraries (libisc and libnana) define <tt>REQUIRE</tt>
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and <tt>ENSURE</tt> macros, and many libraries define <tt>ASSERT</tt>.
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We want to avoid name conflicts with other libraries.
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</body>
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</html>
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