source: soft/giet_vm/giet_common/pmem.h @ 564

Last change on this file since 564 was 408, checked in by alain, 10 years ago

Introducing a physical memory allocator (pmem.c & pmem.h files).

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1///////////////////////////////////////////////////////////////////////////////////
2// File     : pmem.h
3// Date     : 01/09/2014
4// Author   : alain greiner
5// Copyright (c) UPMC-LIP6
6///////////////////////////////////////////////////////////////////////////////////
7// The pmem.c and pmem.h files are part ot the GIET-VM nano kernel.
8// They define the data structures and functions used by the boot code
9// to allocate physical memory.
10///////////////////////////////////////////////////////////////////////////////////
11// The physical address format is 40 bits, structured in five fields:
12//     | 4 | 4 |  11  |  9   |   12   |
13//     | X | Y | BPPI | SPPI | OFFSET |
14// - The (X,Y) fields define the cluster index
15// - The BPPI field is the Big Physical Page Index
16// - The SPPI field is the Small Physical Page Index
17// - The |X|Y|BPPI|SPPI| concatenation is the PPN (Physical Page Number)
18//
19// The physical memory allocation is statically done by the boot-loader.
20// As the physical memory can be distributed in all clusters, there is
21// one physical memory allocator in each cluster, and the allocation
22// state is defined by the boot_pmem_alloc[x][y] array (defined in the
23// boot.c file).
24// As the allocated physical memory is never released, the allocator structure
25// is very simple and is defined below in the pmem_alloc_t structure.
26// As the boot-loader is executed by one single processor, this structure
27// does not contain any lock protecting exclusive access.
28// Both small pages allocator and big pages allocators allocate a variable
29// number of CONTIGUOUS pages in the physical space.
30// The first big page in cluster[0][0] is reserved for identity mapping vsegs,
31// and is not allocated by the pmem allocator.
32///////////////////////////////////////////////////////////////////////////////////
33
34#ifndef _PMEM_H_
35#define _PMEM_H_
36
37/////////////////////////////////////////////////////////////////////////////////////
38// Physical memory allocator in cluster[x][y]
39/////////////////////////////////////////////////////////////////////////////////////
40
41typedef struct PmemAlloc
42{ 
43    unsigned int x;          // allocator x coordinate
44    unsigned int y;          // allocator y coordinate
45    unsigned int max_bppi;   // max bppi value in cluster[x][y]
46    unsigned int nxt_bppi;   // next free bppi in cluster[x][y]
47    unsigned int max_sppi;   // max sppi value in cluster[x][y]
48    unsigned int nxt_sppi;   // next free sppi in cluster[x][y]
49    unsigned int spp_bppi;   // current bppi for small pages
50}  pmem_alloc_t;
51
52////////////////////////////////////////////////////////////////////////////////////
53// functions prototypes
54////////////////////////////////////////////////////////////////////////////////////
55
56///////////////////////////////////////////////////////////////////////////////////
57// This function initialises the physical memory allocator in cluster (x,y)
58// The pseg base address and the pseg size must be multiple of 2 Mbytes
59// (one big page).
60// - base is the pseg local base address (no cluster extension)
61// - size is the pseg length (bytes)
62// The first page in cluster[0][0] is reserved for identity mapped vsegs.
63///////////////////////////////////////////////////////////////////////////////////
64void _pmem_alloc_init( unsigned int x,
65                       unsigned int y,
66                       unsigned int base,
67                       unsigned int size );
68
69///////////////////////////////////////////////////////////////////////////////////
70// This function allocates n contiguous small pages (4 Kbytes),
71// from the physical memory allocator defined by the p pointer.
72// It returns the PPN (28 bits) of the first physical small page.
73// Exit if not enough free space.
74///////////////////////////////////////////////////////////////////////////////////
75unsigned int _get_small_ppn( pmem_alloc_t* p,
76                             unsigned int  n );
77
78///////////////////////////////////////////////////////////////////////////////////
79// This function allocates n contiguous big pages (2 Mbytes),
80// from the physical memory allocator defined by the p pointer.
81// It returns the PPN (28 bits) of the first physical big page
82// (the SPPI field of the ppn is always 0).
83// Exit if not enough free space.
84///////////////////////////////////////////////////////////////////////////////////
85unsigned int _get_big_ppn( pmem_alloc_t* p,
86                           unsigned int  n );
87
88#endif
89
90// Local Variables:
91// tab-width: 4
92// c-basic-offset: 4
93// c-file-offsets:((innamespace . 0)(inline-open . 0))
94// indent-tabs-mode: nil
95// End:
96// vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4
97
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