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prevents doing this in one pass.
425 lines
13 KiB
HTML
425 lines
13 KiB
HTML
<html>
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<head>
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<title>libsm : Memory Allocation</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 : Memory Allocation </h1>
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<br> $Id: heap.html,v 1.9 2000/12/08 21:41:42 ca Exp $
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</center>
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<h2> Introduction </h2>
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The heap package provides a layer of abstraction on top of
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<tt>malloc</tt>, <tt>realloc</tt> and <tt>free</tt>
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that provides optional error checking and memory leak detection,
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and which optionally raises an exception when an allocation request
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cannot be satisfied.
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<h2> Synopsis </h2>
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<pre>
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#include <sm/heap.h>
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/*
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** Wrappers for malloc, realloc, free
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*/
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void *sm_malloc(size_t size);
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void *sm_realloc(void *ptr, size_t size);
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void sm_free(void *ptr);
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/*
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** Wrappers for malloc, realloc that raise an exception instead of
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** returning NULL on heap exhaustion.
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*/
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void *sm_malloc_x(size_t size);
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void *sm_realloc_x(void *ptr, size_t size);
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/*
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** Print a list of currently allocated blocks,
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** used to diagnose memory leaks.
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*/
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void sm_heap_report(FILE *stream, int verbosity);
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/*
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** Low level interfaces.
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*/
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int sm_heap_group();
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int sm_heap_setgroup(int g);
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int sm_heap_newgroup();
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void *sm_malloc_tagged(size_t size, char *file, int line, int group);
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void *sm_malloc_tagged_x(size_t size, char *file, int line, int group);
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bool sm_heap_register(void *ptr, size_t size, char *file, int line);
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</pre>
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<h2> How to allocate and free memory </h2>
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<tt>sm_malloc</tt>, <tt>sm_realloc</tt> and <tt>sm_free</tt>
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are portable plug in replacements
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for <tt>malloc</tt>, <tt>realloc</tt> and <tt>free</tt> that provide
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error checking and memory leak detection.
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<tt>sm_malloc_x</tt> and <tt>sm_realloc_x</tt>
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are variants of
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<tt>sm_malloc</tt> and <tt>sm_realloc</tt>
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that raise an exception on error.
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To use the package effectively,
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all calls to <tt>malloc</tt>, <tt>realloc</tt> and <tt>free</tt>
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should be replaced by calls
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to the corresponding <tt>sm_</tt>* routines.
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<dl>
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<dt>
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<tt> void *sm_malloc(size_t size) </tt>
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<dd>
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This function is a plug-in replacement for <tt>malloc</tt>.
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It allocates <tt>size</tt> bytes of memory on the heap
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and returns a pointer to it,
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or it returns <tt>NULL</tt> on failure.
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<p>
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The C standard says that <tt>malloc(0)</tt> may return
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either <tt>NULL</tt> or a non-<tt>NULL</tt> value.
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To ensure consistent behaviour on all platforms,
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<tt>sm_malloc(0)</tt> is equivalent to <tt>sm_malloc(1)</tt>.
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<p>
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In addition, if heap checking is enabled, then <tt>sm_malloc</tt>
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maintains a hash table describing all currently allocated
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memory blocks. This table is used for argument validity
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checking in <tt>sm_realloc</tt> and <tt>sm_free</tt>,
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and it can be printed using <tt>sm_heap_report</tt>
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as an aid to finding memory leaks.
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<p>
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<dt>
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<tt> void *sm_malloc_x(size_t size) </tt>
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<dd>
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This function is just like <tt>sm_malloc</tt>
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except that it raises the <tt>SmHeapOutOfMemory</tt> exception
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instead of returning <tt>NULL</tt> on error.
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<p>
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<dt>
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<tt> void *sm_realloc(void *ptr, size_t size) </tt>
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<dd>
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This function is a plug-in replacement for <tt>realloc</tt>.
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If <tt>ptr</tt> is null then this call is equivalent
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to <tt>sm_malloc(size)</tt>.
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Otherwise, the size of the object pointed to by <tt>ptr</tt>
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is changed to <tt>size</tt> bytes, and a pointer to the
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(possibly moved) object is returned.
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If the space cannot be allocated, then the object pointed to
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by <tt>ptr</tt> is unchanged and <tt>NULL</tt> is returned.
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<p>
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If <tt>size</tt> is 0 then we pretend that <tt>size</tt> is 1.
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This may be a mistake.
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<p>
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If ptr is not NULL and heap checking is enabled,
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then ptr is required to be a value that was
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previously returned by sm_malloc or sm_realloc, and which
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has not yet been freed by sm_free. If this condition is not
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met, then the program is aborted using sm_abort.
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<p>
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<dt>
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<tt> void *sm_realloc_x(void *ptr, size_t size) </tt>
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<dd>
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This function is just like <tt>sm_realloc</tt>
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except that it raises the SmHeapOutOfMemory exception
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instead of returning <tt>NULL</tt> on error.
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<p>
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<dt>
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<tt> void sm_free(void *ptr) </tt>
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<dd>
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This function is a plug-in replacement for free.
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If heap checking is disabled, then this function is equivalent
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to a call to free. Otherwise, the following additional semantics
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apply.
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<p>
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If ptr is NULL, this function has no effect.
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<p>
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Otherwise, ptr is required to be a value that was
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previously returned by sm_malloc or sm_realloc, and which
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has not yet been freed by sm_free. If this condition is not
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met, then the program is aborted using sm_abort.
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<p>
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Otherwise, if there is no error, then the block pointed to by ptr
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will be set to all zeros before free() is called. This is intended
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to assist in detecting the use of dangling pointers.
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</dl>
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<h2> How to control tag information </h2>
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When heap checking is enabled,
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the heap package maintains a hash table which associates the
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following values with each currently allocated block:
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<dl>
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<dt>
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<tt> size_t size </tt>
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<dd>
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The size of the block.
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<dt>
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<tt> char *tag </tt>
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<dd>
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By default, this is the name of the source file from which
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the block was allocated, but you can specify an arbitrary
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string pointer, or <tt>NULL</tt>.
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<dt>
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<tt> int num </tt>
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<dd>
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By default, this is the line number from which the block was
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allocated.
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<dt>
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<tt> int group </tt>
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<dd>
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By convention, group==0 indicates that the block is permanently
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allocated and will never be freed. The meanings of other group
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numbers are defined by the application developer.
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Unless you take special action, all blocks allocated by
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<tt>sm_malloc</tt> and <tt>sm_malloc_x</tt> will be assigned
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to group 1.
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</dl>
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These tag values are printed by <tt>sm_heap_report</tt>,
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and are used to help analyze memory allocation behaviour
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and to find memory leaks.
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The following functions give you precise control over the
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tag values associated with each allocated block.
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<dl>
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<dt>
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<tt> void *sm_malloc_tagged(size_t size, int tag, int num, int group) </tt>
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<dd>
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Just like <tt>sm_malloc</tt>, except you directly specify
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all of the tag values.
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If heap checking is disabled at compile time, then a call
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to <tt>sm_malloc_tagged</tt> is macro expanded to
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a call to <tt>malloc</tt>.
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<p>
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Note that the expression <tt>sm_malloc(size)</tt> is macro expanded to
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<blockquote><pre>
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sm_malloc_tagged(size, __FILE__, __LINE__, sm_heap_group())
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</pre></blockquote>
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<dt>
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<tt> void *sm_malloc_tagged_x(size_t size, int tag, int num, int group) </tt>
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<dd>
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A variant of <tt>sm_malloc_tagged</tt>
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that raises an exception on error.
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A call to <tt>sm_malloc_x</tt> is macro expanded
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to a call to <tt>sm_malloc_tagged_x</tt>.
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<p>
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<dt>
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<tt> int sm_heap_group() </tt>
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<dd>
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The heap package maintains a thread-local variable containing
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the current group number.
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This is the group that <tt>sm_malloc</tt> and <tt>sm_malloc_x</tt>
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will assign a newly allocated block to.
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The initial value of this variable is 1.
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The current value of this variable is returned by
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<tt>sm_heap_group()</tt>.
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<p>
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<dt>
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<tt> int sm_heap_setgroup(int g) </tt>
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<dd>
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Set the current group to the specified value.
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</dl>
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Here are two examples of how you might use these interfaces.
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<ol>
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<li>
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One way to detect memory leaks is to turn on heap checking
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and call <tt>sm_heap_report(stdout,2)</tt>
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when the program exits.
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This prints a list of all allocated blocks that do not belong to group 0.
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(Blocks in group 0 are assumed to be permanently allocated,
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and so their existence at program exit does not indicate a leak.)
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If you want to allocate a block and assign it to group 0,
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you have two choices:
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<blockquote><pre>
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int g = sm_heap_group();
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sm_heap_setgroup(0);
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p = sm_malloc_x(size);
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sm_heap_setgroup(g);
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</pre></blockquote>
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or
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<blockquote><pre>
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p = sm_malloc_tagged_x(size, __FILE__, __LINE__, 0);
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</pre></blockquote>
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<li>
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Suppose you have a utility function foo_alloc which allocates
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and initializes a 'foo' object. When sm_heap_report is called,
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all unfreed 'foo' objects will be reported to have the same
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source code file name and line number.
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That might make it difficult to determine where a memory leak is.
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<p>
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Here is how you can arrange for more precise reporting for
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unfreed foo objects:
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<blockquote><pre>
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#include <sm/heap.h>
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#if SM_HEAP_CHECK
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# define foo_alloc_x() foo_alloc_tagged_x(__FILE__,__LINE)
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FOO *foo_alloc_tagged_x(char *, int);
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#else
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FOO *foo_alloc_x(void);
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# define foo_alloc_tagged_x(file,line) foo_alloc_x()
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#endif
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...
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#if SM_HEAP_CHECK
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FOO *
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foo_alloc_tagged_x(char *file, int line)
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#else
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FOO *
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foo_alloc_x(void)
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#endif
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{
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FOO *p;
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p = sm_malloc_tagged_x(sizeof(FOO), file, line, sm_heap_group());
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...
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return p;
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}
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</pre></blockquote>
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</ol>
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<h2> How to dump the block list </h2>
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To perform memory leak detection, you need to arrange for your
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program to call sm_heap_report at appropriate times.
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<dl>
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<dt>
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<tt> void sm_heap_report(FILE *stream, int verbosity) </tt>
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<dd>
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If heap checking is disabled, this function does nothing.
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If verbosity <= 0, this function does nothing.
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<p>
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If verbosity >= 1, then sm_heap_report prints a single line
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to stream giving the total number of bytes currently allocated.
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If you call sm_heap_report each time the program has reached a
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"ground state", and the reported amount of heap storage is
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monotonically increasing, that indicates a leak.
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<p>
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If verbosity >= 2, then sm_heap_report additionally prints one line
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for each block of memory currently allocated, providing that
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the group != 0.
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(Such blocks are assumed to be permanently allocated storage, and
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are not reported to cut down the level of noise.)
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<p>
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If verbosity >= 3, then sm_heap_report prints one line for each
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allocated block, regardless of the group.
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</dl>
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<h2> How to enable heap checking </h2>
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The overhead of using the package can be made as small as you want.
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You have three options:
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<ol>
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<li>
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If you compile your software with -DSM_HEAP_CHECK=0 then
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sm_malloc, sm_realloc and sm_free will be redefined
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as macros that call malloc, realloc, and free. In this case,
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there is zero overhead.
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<li>
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If you do not define -DSM_HEAP_CHECK=0, and you do not explicitly
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turn on heap checking at run time, then your program will run
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without error checking and memory leak detection, and the additional
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cost of calling sm_malloc, sm_realloc and sm_free is a
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function call and test. That overhead is sufficiently low that
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the checking code can be left compiled in a production environment.
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<li>
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If you do not define -DSM_HEAP_CHECK=0, and you explicitly turn on
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heap checking at run time, then the additional cost of calling
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sm_malloc, sm_realloc and sm_free is a hash table lookup.
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</ol>
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Here's how to modify your application to use the heap package.
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First, change all calls to malloc, realloc and free to sm_malloc,
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sm_realloc and sm_free.
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Make sure that there is a -d command line option that
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uses the libsm debug package to enable named debug options.
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Add the following code to your program just before it calls exit,
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or register an atexit handler function containing the following code:
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<blockquote><pre>
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#if SM_HEAP_CHECK
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/* dump the heap, if we are checking for memory leaks */
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if (sm_debug_active(&SmHeapCheck, 2))
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sm_heap_report(stdout, sm_debug_level(&SmHeapCheck) - 1);
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#endif
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</pre></blockquote>
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To turn on heap checking, use the command line option "-dsm_check_heap.1".
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This will cause a table of all currently allocated blocks to be
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maintained. The table is used by sm_realloc and sm_free to perform
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validity checking on the first argument.
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<p>
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The command line option "-dsm_check_heap.2" will cause your application
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to invoke sm_heap_report with verbosity=1 just before exit.
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That will print a single line reporting total storage allocation.
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<p>
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The command line option "-dsm_check_heap.3" will cause your application
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to invoke sm_heap_report with verbosity=2 just before exit.
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This will print a list of all leaked blocks.
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<p>
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The command line option "-dsm_check_heap.4" will cause your application
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to invoke sm_heap_report with verbosity=3 just before exit.
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This will print a list of all allocated blocks.
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<h2> Using sm_heap_register </h2>
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Suppose you call a library routine foo that allocates a block of storage
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for you using malloc, and expects you to free the block later using
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free. Because the storage was not allocated using sm_malloc, you
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will normally get an abort if you try to pass the pointer to
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sm_free. The way to fix this problem is to 'register' the pointer
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returned by foo with the heap package, by calling sm_heap_register:
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<blockquote><pre>
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bool sm_heap_register(ptr, size, file, line, group)
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</pre></blockquote>
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The 'ptr' argument is the pointer returned by foo. The 'size' argument
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can be smaller than the actual size of the allocated block, but it must
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not be larger. The file and line arguments indicate at which line of
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source code the block was allocated, and is printed by sm_heap_report.
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For group, you probably want to pass sm_heap_group().
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<p>
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This function returns <tt>true</tt> on success,
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or <tt>false</tt> if it failed due to heap exhaustion.
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</body>
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</html>
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