#ifndef PPC_TRIVIAL_PTE_MAPPING_H
#define PPC_TRIVIAL_PTE_MAPPING_H
/* $Id$ */
/* Rudimentary page/hash table support for Powerpc
*
* A simple, static (i.e. no 'per-process' virtual
* address space etc.) page table providing
* one-to-one effective <-> virtual <-> physical
* address mapping.
*
* PURPOSE:
* 1) allow write-protection of text/read-only data areas
* 2) provide more effective-address space in case
* the BATs are not enough
* LIMITATIONS:
* - once activated, the page table cannot be changed
* - no PTE replacement (makes no sense in a real-time
* environment, anyway) -> the page table just MUST
* be big enough!.
* - only one page table supported.
*/
/* Author: Till Straumann <strauman@slac.stanford.edu>, 4/2002 */
/* Abstract handle for a page table */
typedef struct Triv121PgTblRec_ *Triv121PgTbl;
/* Initialize a trivial page table
* using 2^ldSize bytes of memory starting at
* 'base'.
*
* RETURNS: a handle to the internal data structure
* used to manage the page table. NULL on
* error.
*
* NOTES: - 'base' must be aligned to the size
* - minimal ldSize is 16 (== 64k)
* - this routine maps the page table itself
* with read-only access. While this prevents
* the CPU from overwriting the page table,
* it can still be corrupted by PCI bus masters
* (like DMA engines, [VME] bridges etc.) and
* even by this CPU if either the MMU is off
* or if there is a DBAT mapping granting write
* access...
*/
Triv121PgTbl
triv121PgTblInit(unsigned long base, unsigned ldSize);
/* get the log2 of the minimal page table size needed
* for mapping 'size' bytes.
*
* EXAMPLE: create a page table which maps the entire
* physical memory. The page table itself shall
* be allocated at the top of the available
* memory (assuming 'memsize' is a power of two):
*
* ldSize = triv121PgTblLdMinSize(memsize);
* memsize -= (1<<ldSize); / * reduce memory available to RTEMS * /
* pgTbl = triv121PgTblInit(memsize,ldSize);
*
*/
unsigned long
triv121PgTblLdMinSize(unsigned long size);
/* Map an address range 1:1 in pgTbl with the given protection;
*
* RETURNS: -1 (TRIV121_MAP_SUCCESS) on success; the page index
* for which no PTE could be allocated, on failure.
*
* NOTES: - This routine returns MINUS ONE ON SUCCESS
* - (parts) of a mapping which overlap with
* already existing PTEs are silently ignored.
*
* Therefore, you can e.g. first create
* a couple of write protected maps and
* finally map the entire memory r/w. This
* will leave the write protected maps
* intact.
*/
long
triv121PgTblMap(
Triv121PgTbl pgTbl, /* handle, returned by Init or Get */
long vsid, /* vsid for this mapping (contains topmost 4 bits of EA);
*
* NOTE: it is allowed to pass a VSID < 0 to tell this
* routine it should use a VSID corresponding to a
* 1:1:1 effective - virtual - physical mapping
*/
unsigned long start, /* segment offset (lowermost 28 bits of EA) of address range
*
* NOTE: if VSID < 0 (TRIV121_121_VSID), 'start' is inter-
* preted as an effective address (EA), i.e. all 32
* bits are used - the most significant four going into
* to the VSID...
*/
unsigned long numPages, /* number of pages to map */
unsigned wimgAttr, /* 'wimg' attributes
* (Write thru, cache Inhibit, coherent Memory,
* Guarded memory)
*/
unsigned protection /* 'pp' access protection: Super User
*
* 0 r/w none
* 1 r/w ro
* 2 r/w r/w
* 3 ro ro
*/
);
#define TRIV121_ATTR_W 8
#define TRIV121_ATTR_I 4
#define TRIV121_ATTR_M 2
#define TRIV121_ATTR_G 1
/* for I/O pages (e.g. PCI, VME addresses) use cache inhibited
* and guarded pages. RTM about the 'eieio' instruction!
*/
#define TRIV121_ATTR_IO_PAGE (TRIV121_ATTR_I|TRIV121_ATTR_G)
#define TRIV121_PP_RO_PAGE (3) /* read-only for everyone */
#define TRIV121_PP_RW_PAGE (2) /* read-write for everyone */
#define TRIV121_121_VSID (-1) /* use 1:1 effective<->virtual address mapping */
#define TRIV121_MAP_SUCCESS (-1) /* triv121PgTblMap() returns this on SUCCESS */
/* get a handle to the one and only page table
* (must have been initialized/allocated)
*
* RETURNS: NULL if the page table has not been initialized/allocated.
*/
Triv121PgTbl
triv121PgTblGet(void);
/*
* compute the SDR1 register value for the page table
*/
unsigned long
triv121PgTblSDR1(Triv121PgTbl pgTbl);
/*
* Activate the page table:
* - set up the segment registers for a 1:1 effective <-> virtual address mapping,
* give user and supervisor keys.
* - set up the SDR1 register
* - flush all tlbs
* - 'lock' pgTbl, i.e. prevent all further modifications.
*
* NOTE: This routine does not change any BATs. Since these
* have priority over the page table, the user
* may have to switch overlapping BATs OFF in order
* for the page table mappings to take effect.
*/
void
triv121PgTblActivate(Triv121PgTbl pgTbl);
#endif