rockbox/lib/tlsf
Frank Gevaerts 36a99906e1 Build libtlsf for all systems
libtlsf used not to be built for HWCODEC, but now that the gif
viewer uses libtlsf instead of building its own copy, libtlsf
is needed everywhere.

Change-Id: I730719c6a20e749adb8597056d2049b7758620e4
2013-02-23 21:11:10 +01:00
..
src tlsf: move to /lib (it's also used by plugins). 2012-03-28 23:02:39 +02:00
Changelog tlsf: move to /lib (it's also used by plugins). 2012-03-28 23:02:39 +02:00
COPYING tlsf: move to /lib (it's also used by plugins). 2012-03-28 23:02:39 +02:00
libtlsf.make Deprecate the EXTRA_LIBS variable. 2013-01-24 16:06:45 +01:00
README tlsf: move to /lib (it's also used by plugins). 2012-03-28 23:02:39 +02:00
SOURCES Build libtlsf for all systems 2013-02-23 21:11:10 +01:00
TODO tlsf: move to /lib (it's also used by plugins). 2012-03-28 23:02:39 +02:00

TLSF Memory Storage allocator implementation.
Version 2.4 Feb 2008

Authors: Miguel Masmano, Ismael Ripoll & Alfons Crespo.
Copyright UPVLC, OCERA Consortium.

TLSF is released in the GPL/LGPL licence. The exact terms of the licence
are described in the COPYING file.

This component provides basic memory allocation functions:
malloc and free, as defined in the standard "C" library.

This allocator was designed to provide real-time performance, that is:
1.- Bounded time malloc and free.
2.- Fast response time.
3.- Efficient memory management, that is low fragmentation.


The worst response time for both malloc and free is O(1).



How to use it:

This code  is prepared to  be used as  a stand-alone code that  can be
linked with a regular application or  it can be compiled to be a Linux
module  (which  required the  BigPhysicalArea  patch).  Initially  the
module was  designed to  work jointly with  RTLinux-GPL, but it  can be
used as a stand alone Linux module.

When compiled as a regular linux process the API is:

Initialisation and destruction functions
----------------------------------------

init_memory_pool may be called before any request or release call:

- size_t init_memory_pool(size_t, void *);
- void destroy_memory_pool(void *);

Request and release functions
-----------------------------

As can be seen, there are two functions for each traditional memory
allocation function (malloc, free, realloc, and calloc). One with the
prefix "tlsf_" and the other with the suffix "_ex". 

The versions with the prefix "tlsf_" provides the expected behaviour,
that is, allocating/releasing memory from the default memory pool. The
default memory pool is the last pool initialised by the
init_memory_pool function.

On the other hand, the functions with the prefix "_ex" enable the use of several memory pools.

- void *tlsf_malloc(size_t);
- void *malloc_ex(size_t, void *);

- void tlsf_free(void *ptr);
- void free_ex(void *, void *);

- void *tlsf_realloc(void *ptr, size_t size);
- void *realloc_ex(void *, size_t, void *);

- void *tlsf_calloc(size_t nelem, size_t elem_size);
- void *calloc_ex(size_t, size_t, void *);

EXAMPLE OF USE:

char memory_pool[1024*1024];

{
	...

	init_memory_pool(1024*1024, memory_pool);

	...
	
	ptr1=malloc_ex(100, memory_pool);
	ptr2=tlsf_malloc(100); // This function will use memory_pool
	
        ...

        tlsf_free(ptr2);
	free_ex(ptr1, memory_pool);
}

Growing the memory pool
-----------------------

Starting from the version 2.4, the function add_new_area adds an
memory area to an existing memory pool.

- size_t add_new_area(void *, size_t, void *);

This feature is pretty useful when an existing memory pool is running
low and we want to add more free memory to it.
EXAMPLE OF USE:

char memory_pool[1024*1024];
char memory_pool2[1024*1024];

{
	...

	init_memory_pool(1024*1024, memory_pool);

	...
	
	ptr[0]=malloc_ex(1024*256 memory_pool); 
	ptr[1]=malloc_ex(1024*512, memory_pool); 
	add_new_area(memory_pool2, 1024*1024, memory_pool);
	// Now we have an extra free memory area of 1Mb
	// The next malloc may not fail
	ptr[2]=malloc_ex(1024*512, memory_pool); 
	
        ...

}


SBRK and MMAP support
---------------------

The version 2.4 can use the functions SBRK and MMAP to _automatically_
growing the memory pool, before running out of memory.

So, when this feature is enabled, unless the operating system were out
of memory, a malloc operation would not fail due to an "out-of-memory"
error.

To enable this support, compile tlsf.c with the FLAGS -DUSE_MMAP=1 or
-DUSE_SBRK=1 depending on whether you want to use "mmap" or "sbrk" or both.

** By default (default Makefile) this feature is enabled.

EXAMPLE OF USE:

gcc -o tlsf.o -O2 -Wall -DUSE_MMAP=1 -DUSE_SBRK=1

---

If the sbrk/mmap support is enabled and we are _only_ going to use one
memory pool, it is not necessary to call init_memory_pool

EXAMPLE OF USE (with MMAP/SBRK support enabled):

{
	...
	
	ptr2=tlsf_malloc(100); // This function will use memory_pool
	
        ...

        tlsf_free(ptr2);
}




This work has been supported by the followin projects:
EUROPEAN: IST-2001-35102(OCERA) http://www.ocera.org.
SPANISH: TIN2005-08665-C3-03