FreeCalypso > hg > fc-magnetite
view src/aci2/bmi/mmiBlkResources.c @ 673:62a5285e014a
Lorekeeping: allow tpudrv-leonardo.lib on Leonardo/Tango
Back in 2015 the Mother's idea was to produce a FreeCalypso development
board that would be a clone of TI Leonardo, including the original
quadband RFFE; one major additional stipulation was that this board
needed to be able to run original unmodified TCS211-20070608 firmware
with all blobs intact, with only minimal binary patches to main.lib
and tpudrv.lib. The necessary patched libs were produced at that time
in the tcs211-patches repository.
That plan was changed and we produced FCDEV3B instead, with Openmoko's
triband RFFE instead of Leonardo quadband, but when FC Magnetite started
in 2016, a TPUDRV_blob= provision was still made, allowing the possibility
of patching OM's tpudrv.lib for a restored Leonardo RFFE.
Now in 2020 we have FC Tango which is essentially a verbatim clone of
Leonardo core, including the original quadband RFFE. We have also
deblobbed our firmware so much that we have absolutely no real need
for a blob version of tpudrv.lib - but I thought it would be neat to put
the ancient TPUDRV_blob= mechanism (classic config) to its originally
intended use, just for the heck of it.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 29 May 2020 03:55:36 +0000 |
| parents | 3c2acfa1a72f |
| children |
line wrap: on
line source
/******************************************************************************* CONDAT (UK) ******************************************************************************** This software product is the property of Condat (UK) Ltd and may not be disclosed to any third party without the express permission of the owner. ******************************************************************************** $Project name: Basic MMI $Project code: BMI (6349) $Module: PhoneBook $File: MmiBlkResources.c $Revision: 1.0 $Author: Condat(UK) $Date: 25/10/00 ******************************************************************************** Description: This modules provides, in conjunction with the MmiBlkManager module, the resource management facilities for the MMI. ******************************************************************************** $History: MmiBlkResources.c 25/10/00 Original Condat(UK) BMI version. $End *******************************************************************************/ /******************************************************************************* Include Files *******************************************************************************/ #define ENTITY_MFW /* includes */ #include <string.h> #include <stdio.h> #include <stdlib.h> #if defined (NEW_FRAME) #include "typedefs.h" #include "vsi.h" #include "pei.h" #include "custom.h" #include "gsm.h" #else #include "STDDEFS.H" #include "custom.h" #include "gsm.h" #include "vsi.h" #endif // #include <malloc.h> #include "MmiBlkResources.h" /******************************************************************************* Local Structures *******************************************************************************/ /* Define the control structures used to implement the block resource manager */ #define RESOURCE_MANAGER_KEY 0x00BABE02L #define RESOURCE_SEARCH_LIMIT 4 typedef struct _tBlkEntry_ { tBlkId BlkId; tBlkHandle BlkHandle; } tBlkEntry, *pBlkEntry; typedef struct _tBlkControl_ { long int BlkKey; tBlkHandle BlkBase; int BlkLength; pBlkEntry BlkStartPtr; tBlkHandle BlkMinAddress; tBlkHandle BlkMaxAddress; } tBlkControl, *pBlkControl; /******************************************************************************* Private Routines *******************************************************************************/ /******************************************************************************* $Function: ValidBlockResource $Description: Verifies that the resource indicated by the handle is a valid resource. $Returns: 0 If invalid, non-zero if valid. $Arguments: BlkRsrc, handle of resource *******************************************************************************/ static int ValidBlockResource( tBlkHandle BlkRsrc ) { pBlkControl BlkControl = (pBlkControl) BlkRsrc; /* Check for non-NULL handle */ if ( BlkControl == NULL ) return 0; /* Check key has been set up correctly */ return ( BlkControl->BlkKey == RESOURCE_MANAGER_KEY ); } /******************************************************************************* Public Routines *******************************************************************************/ /******************************************************************************* $Function: mmibr_Initialise $Description: The initialisation routine must be called as part of the startup phase of the system, it will allocate working space for the block handler if required, and will initialise any structures required to maintain the corect operation of the functions. This routine must be called prior to invocation of any other block resource function $Returns: Handle to a resource block, NULL if unsuccessful $Arguments: BlkBase, Base address of the block of data relating to the resource NumEntries, number of entries associated with the resource *******************************************************************************/ tBlkHandle mmibr_Initialise( tBlkHandle BlkBase, int NumEntries ) { pBlkControl Blk; int i; /* As part of the initialisation process, we need to allocate a block of memory in which to store the control information associated with this block resource manager */ if ( ( Blk = (pBlkControl) ALLOC_MEMORY( sizeof(tBlkControl) ) ) != NULL ) { /* Store the things we know straight off */ Blk->BlkKey = RESOURCE_MANAGER_KEY; Blk->BlkBase = BlkBase; Blk->BlkLength = NumEntries; Blk->BlkStartPtr = (pBlkEntry) BlkBase; /* In order to detect memory allocations, we scan the list of known entries, storing the maximum and minimum addresses in the list. This scan allows us to detect when allocated memory is being returned, since the address will be outside the contiguous memory block we are managing. */ Blk->BlkMinAddress = Blk->BlkMaxAddress = BlkBase; for ( i = 0; i < NumEntries; i++ ) { if ( Blk->BlkMaxAddress < Blk->BlkStartPtr[i].BlkHandle ) Blk->BlkMaxAddress = Blk->BlkStartPtr[i].BlkHandle; } } return Blk; } /******************************************************************************* $Function: mmibr_ShutDown $Description: The shutdown function can be called to free any allocations set up by the Initialise routine. In a running system this is unlikely to be called unless a catastrophic error has occurred and the system needs to be restarted. $Returns: none. $Arguments: Pointer to a block resource handle (ie ptr to ptr) *******************************************************************************/ void mmibr_ShutDown( tBlkHandle *BlkRsrc ) { /* Only allow the resource manager to be shutdown if the provided handle is consistent */ if ( ValidBlockResource( *BlkRsrc ) ) { free( *BlkRsrc ); *BlkRsrc = NULL; } } /******************************************************************************* $Function: mmibr_Fetch $Description: We will adopt a mechanism where each block of data being provided will need to be returned to the block resource manager when it is no longer being used, this will provide an orthogonal approach when dealing with data coming from either ROM or dynamically allocated memory. $Returns: pointer to resource, NULL if unsuccessful $Arguments: BlkRsrc, resource handle created by mmibr_Initialise Id, identifier of the resource to be returned *******************************************************************************/ tBlkHandle mmibr_Fetch( tBlkHandle BlkRsrc, tBlkId Id ) { int Start, End, Search; tBlkId CurrentId; tBlkHandle SearchPtr; /* convert the handle and verify it's valid */ pBlkControl BlkControl = (pBlkControl) BlkRsrc; if ( ! ValidBlockResource( BlkRsrc ) ) return NULL; /* When locating a specific entry, we need to search the list of ids for one matching the input value. Since the Ids will be organised as an ordered list, very important that bit, we can perform a simple binary search to locate the items. */ Start = 0; End = BlkControl->BlkLength - 1; SearchPtr = NULL; do { /* grab the entry midway between the current start and end */ Search = Start + ((End - Start) >> 1); CurrentId = BlkControl->BlkStartPtr[Search].BlkId; /* Binary chop the search space */ if ( CurrentId == Id ) { /* Found a match, grab handle and terminate search */ SearchPtr = BlkControl->BlkStartPtr[Search].BlkHandle; Start = End; } else if ( CurrentId > Id ) { /* Not got a match, but it's not in the top half so move the End pointer down */ End = Search; } else { /* Not got a match, but it's not in the bottom half so move the Start pointer up */ Start = Search; } /* when we get down to the last three or four entries, just search linearly to solve it, this is generally quicker for a small number of entries than continuing the binary chop */ if ( ( End - Start ) < RESOURCE_SEARCH_LIMIT ) { /* search quickly through the possibles */ for ( Search = Start; Search <= End; Search++ ) if ( Id == BlkControl->BlkStartPtr[Search].BlkId ) SearchPtr = BlkControl->BlkStartPtr[Search].BlkHandle; /* And terminate the binary chop */ Start = End; } } while ( Start != End ); return SearchPtr; } /******************************************************************************* End of File *******************************************************************************/