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This is ./mmalloc.info, produced by Makeinfo version 3.12f from
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mmalloc.texi.
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START-INFO-DIR-ENTRY
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* Mmalloc: (mmalloc).           The GNU mapped-malloc package.
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END-INFO-DIR-ENTRY
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   This file documents the GNU mmalloc (mapped-malloc) package, written
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by fnf@cygnus.com, based on GNU malloc written by mike@ai.mit.edu.
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   Copyright (C) 1992 Free Software Foundation, Inc.
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   Permission is granted to make and distribute verbatim copies of this
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manual provided the copyright notice and this permission notice are
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preserved on all copies.
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   Permission is granted to copy and distribute modified versions of
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this manual under the conditions for verbatim copying, provided also
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that the entire resulting derived work is distributed under the terms
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of a permission notice identical to this one.
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   Permission is granted to copy and distribute translations of this
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manual into another language, under the above conditions for modified
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versions.
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File: mmalloc.info,  Node: Top,  Next: Overview,  Prev: (dir),  Up: (dir)
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mmalloc
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*******
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   This file documents the GNU memory-mapped malloc package mmalloc.
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* Menu:
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* Overview::                    Overall Description
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* Implementation::              Implementation
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 --- The Detailed Node Listing ---
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Implementation
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* Compatibility::               Backwards Compatibility
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* Functions::                   Function Descriptions
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File: mmalloc.info,  Node: Overview,  Next: Implementation,  Prev: Top,  Up: Top
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Overall Description
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*******************
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   This is a heavily modified version of GNU `malloc'.  It uses `mmap'
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as the basic mechanism for obtaining memory from the system, rather
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than `sbrk'.  This gives it several advantages over the more
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traditional malloc:
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   * Several different heaps can be used, each of them growing or
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     shinking under control of `mmap', with the `mmalloc' functions
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     using a specific heap on a call by call basis.
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   * By using `mmap', it is easy to create heaps which are intended to
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     be persistent and exist as a filesystem object after the creating
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     process has gone away.
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   * Because multiple heaps can be managed, data used for a specific
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     purpose can be allocated into its own heap, making it easier to
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     allow applications to "dump" and "restore" initialized
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     malloc-managed memory regions.  For example, the "unexec" hack
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     popularized by GNU Emacs could potentially go away.
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File: mmalloc.info,  Node: Implementation,  Prev: Overview,  Up: Top
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Implementation
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**************
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   The `mmalloc' functions contain no internal static state.  All
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`mmalloc' internal data is allocated in the mapped in region, along
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with the user data that it manages.  This allows it to manage multiple
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such regions and to "pick up where it left off" when such regions are
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later dynamically mapped back in.
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   In some sense, malloc has been "purified" to contain no internal
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state information and generalized to use multiple memory regions rather
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than a single region managed by `sbrk'.  However the new routines now
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need an extra parameter which informs `mmalloc' which memory region it
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is dealing with (along with other information).  This parameter is
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called the "malloc descriptor".
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   The functions initially provided by `mmalloc' are:
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     void *mmalloc_attach (int fd, void *baseaddr);
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     void *mmalloc_detach (void *md);
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     int mmalloc_errno (void *md);
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     int mmalloc_setkey (void *md, int keynum, void *key);
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     void *mmalloc_getkey (void *md, int keynum);
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     void *mmalloc (void *md, size_t size);
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     void *mrealloc (void *md, void *ptr, size_t size);
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     void *mvalloc (void *md, size_t size);
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     void mfree (void *md, void *ptr);
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* Menu:
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* Compatibility::               Backwards Compatibility
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* Functions::                   Function Descriptions
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File: mmalloc.info,  Node: Compatibility,  Next: Functions,  Prev: Implementation,  Up: Implementation
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Backwards Compatibility
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=======================
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   To allow a single malloc package to be used in a given application,
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provision is made for the traditional `malloc', `realloc', and `free'
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functions to be implemented as special cases of the `mmalloc'
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functions.  In particular, if any of the functions that expect malloc
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descriptors are called with a `NULL' pointer rather than a valid malloc
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descriptor, then they default to using an `sbrk' managed region.  The
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`mmalloc' package provides compatible `malloc', `realloc', and `free'
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functions using this mechanism internally.  Applications can avoid this
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extra interface layer by simply including the following defines:
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     #define malloc(size)               mmalloc ((void *)0, (size))
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     #define realloc(ptr,size)  mrealloc ((void *)0, (ptr), (size));
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     #define free(ptr)          mfree ((void *)0, (ptr))
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or replace the existing `malloc', `realloc', and `free' calls with the
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above patterns if using `#define' causes problems.
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File: mmalloc.info,  Node: Functions,  Prev: Compatibility,  Up: Implementation
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Function Descriptions
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=====================
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   These are the details on the functions that make up the `mmalloc'
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package.
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`void *mmalloc_attach (int FD, void *BASEADDR);'
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     Initialize access to a `mmalloc' managed region.
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     If FD is a valid file descriptor for an open file, then data for
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     the `mmalloc' managed region is mapped to that file.   Otherwise
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     `/dev/zero' is used and the data will not exist in any filesystem
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     object.
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     If the open file corresponding to FD is from a previous use of
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     `mmalloc' and passes some basic sanity checks to ensure that it is
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     compatible with the current `mmalloc' package, then its data is
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     mapped in and is immediately accessible at the same addresses in
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     the current process as the process that created the file.
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     If BASEADDR is not `NULL', the mapping is established starting at
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     the specified address in the process address space.  If BASEADDR
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     is `NULL', the `mmalloc' package chooses a suitable address at
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     which to start the mapped region, which will be the value of the
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     previous mapping if opening an existing file which was previously
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     built by `mmalloc', or for new files will be a value chosen by
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     `mmap'.
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     Specifying BASEADDR provides more control over where the regions
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     start and how big they can be before bumping into existing mapped
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     regions or future mapped regions.
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     On success, returns a malloc descriptor which is used in subsequent
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     calls to other `mmalloc' package functions.  It is explicitly
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     `void *' (`char *' for systems that don't fully support `void') so
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     that users of the package don't have to worry about the actual
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     implementation details.
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     On failure returns `NULL'.
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`void *mmalloc_detach (void *MD);'
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     Terminate access to a `mmalloc' managed region identified by the
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     descriptor MD, by closing the base file and unmapping all memory
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     pages associated with the region.
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     Returns `NULL' on success.
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     Returns the malloc descriptor on failure, which can subsequently
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     be used for further action (such as obtaining more information
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     about the nature of the failure).
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`void *mmalloc (void *MD, size_t SIZE);'
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     Given an `mmalloc' descriptor MD, allocate additional memory of
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     SIZE bytes in the associated mapped region.
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`*mrealloc (void *MD, void *PTR, size_t SIZE);'
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     Given an `mmalloc' descriptor MD and a pointer to memory
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     previously allocated by `mmalloc' in PTR, reallocate the memory to
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     be SIZE bytes long, possibly moving the existing contents of
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     memory if necessary.
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`void *mvalloc (void *MD, size_t SIZE);'
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     Like `mmalloc' but the resulting memory is aligned on a page
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     boundary.
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`void mfree (void *MD, void *PTR);'
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     Given an `mmalloc' descriptor MD and a pointer to memory previously
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     allocated by `mmalloc' in PTR, free the previously allocated
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     memory.
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`int mmalloc_errno (void *MD);'
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     Given a `mmalloc' descriptor, if the last `mmalloc' operation
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     failed for some reason due to a system call failure, then returns
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     the associated `errno'.  Returns 0 otherwise.  (This function is
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     not yet implemented).
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Tag Table:
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Node: Top939
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Node: Overview1375
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Node: Implementation2403
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Node: Compatibility3796
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Node: Functions4870
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End Tag Table

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