FreeCalypso > hg > fc-magnetite
view src/ui3/mfw/mfw_mfw.c @ 624:012028896cfb
FFS dev.c, Leonardo target: Fujitsu MB84VF5F5F4J2 #if 0'ed out
The FFS code we got from TI/Openmoko had a stanza for "Fujitsu MB84VF5F5F4J2
stacked device", using a fake device ID code that would need to be patched
manually into cfgffs.c (suppressing and overriding autodetection) and using
an FFS base address in the nCS2 bank, indicating that this FFS config was
probably meant for the MCP version of Leonardo which allows for 16 MiB flash
with a second bank on nCS2.
We previously had this FFS config stanza conditionalized under
CONFIG_TARGET_LEONARDO because the base address contained therein is invalid
for other targets, but now that we actually have a Leonardo build target in
FC Magnetite, I realize that the better approach is to #if 0 out this stanza
altogether: it is already non-functional because it uses a fake device ID
code, thus it is does not add support for more Leonardo board variants,
instead it is just noise.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 22 Dec 2019 21:24:29 +0000 |
parents | e8ddbb0837ed |
children |
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/* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) $Workfile:: mfw_mfw.c $| | $Author:: Es $ CONDAT GmbH $Revision:: 11 $| | CREATED: 21.09.98 $Modtime:: 23.03.00 10:47 $| | STATE : code | +--------------------------------------------------------------------+ MODULE : MFW_MFW PURPOSE : element chaining functions EXPORT : TO DO : $History:: mfw_mfw.c $ Sep 14, 2007 REF: OMAPS00145866 Adrian Salido Description: FT - MMI: Wrong trace class Solution: changed event traces to function traces because the information content of this is low for non-MMI people and against TI coding convention. Nov 05, 2005 REF: OMAPS00049571 Sumanth Kumar. C Description: eZi Text function is not working Solution: current_mfw_elem variable is updated when any of the elements such as window, keyboard, timer, etc., are deleted so that the current_mfw_element does not point to element that has already been freed. Feb 28, 2004 REF: CRR 25608 Deepa M.D The mfwEorc is made const.The changes will be present both in Color and Golite build . Jan 27, 2005 REF: CRR MMI-SPR-28300 xnkulkar Description: BMI: memory leak in mfwFree/mfwAlloc ?? Solution: Trace output to print memory address and size freed modified in function mfwFree() Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar Description: MFW memory size variable changed from U16 -> U32 Solution: The use of variable U16 has been replaced with U32 Oct 06, 2004 REF: CRR 25608 Deepa M.D Bug:Change "static MfwHdr mfwEorc =" to const Fix: MfwHdr mfwEorc is made const to save memory. * * ***************** Version 11 ***************** * User: Es Date: 23.03.00 Time: 14:43 * Updated in $/GSM/Condat/MS/SRC/MFW * Added 'mfwParent(elem)' * * ***************** Version 10 ***************** * User: Es Date: 18.02.00 Time: 15:45 * Updated in $/GSM/Condat/MS/SRC/MFW * fixed alloc/free bug (shrink) * changed MfwMemLarge macro * added constants for MMI event handler return values * * ***************** Version 9 ***************** * User: Kk Date: 10.01.00 Time: 14:03 * Updated in $/GSM/Condat/MS/SRC/MFW * * ***************** Version 4 ***************** * User: Rm Date: 12/22/99 Time: 4:34p * Updated in $/GSM/Condat/SND-MMI/MFW * * ***************** Version 3 ***************** * User: Be Date: 29.11.99 Time: 14:31 * Updated in $/GSM/Condat/SND-MMI/MFW * target integration * * ***************** Version 2 ***************** * User: Es Date: 22.11.99 Time: 10:24 * Updated in $/GSM/Condat/SND-MMI/MFW * * ***************** Version 1 ***************** * User: Es Date: 18.11.99 Time: 16:35 * Created in $/GSM/Condat/SND-MMI/MFW * Initial * * ***************** Version 6 ***************** * User: Es Date: 1.04.99 Time: 17:07 * Updated in $/GSM/DEV/MS/SRC/MFW * removed lots of traces * * ***************** Version 5 ***************** * User: Es Date: 18.02.99 Time: 17:01 * Updated in $/GSM/DEV/MS/SRC/MFW * * ***************** Version 4 ***************** * User: Es Date: 17.02.99 Time: 19:11 * Updated in $/GSM/DEV/MS/SRC/MFW * * ***************** Version 3 ***************** * User: Es Date: 27.01.99 Time: 15:06 * Updated in $/GSM/DEV/MS/SRC/MFW * * ***************** Version 2 ***************** * User: Es Date: 23.12.98 Time: 16:19 * Updated in $/GSM/DEV/MS/SRC/MFW */ #define ENTITY_MFW #define TRACE_MEMORY_CHECK #include <stdio.h> #include <string.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 <stdio.h> //#include <string.h> #include "mfw_mfw.h" #include "mfw_sys.h" #include "mfw_win.h" #include "mfw_sat.h" /* CQ16435 : Header Required */ // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: The use of variable U16 has been replaced with U32 U32 mfwMemDynTotal = 0; /* sample memory usage */ U32 mfwMemLowWater = 0xffffffff; /* sample memory usage */ MfwHdr *mfwFocus = 0; /* the focus node */ MfwHdr *mfwRoot = 0; /* root of MFW elements */ MfwCb mfwCommand [MfwTypMax]; /* MFW commands to modules */ static MfwHdr *mfwSatIdleWin = 0; /* CQ16435 : When this window gets focus, SAT will be informed */ static MfwMemHdr mfwMem; /* root of free memory list */ static U8 *mfwMemBase; /* mfw dynamic memory pool */ static U8 *mfwMemEnd; /* end of mfw memory */ // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: The use of variable U16 has been replaced with U32 static U32 mfwMemLeft; /* space left in pool */ //Feb 28, 2005 REF: CRR 25608 Deepa M.D //The mfwEorc is made const.The changes will be present both in Color and Golite build static const MfwHdr mfwEorc = {0, MfwTypMax, 0}; /* end of root chain */ /***************************Go-lite Optimization changes end***********************/ U8 mfwSignallingMethod = 0; /* default is focus+root */ EXTERN MfwHdr * current_mfw_elem; #define SENTINAL_CHECK 1 // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: define SENTINEL_SIZE to a value of 4 #define SENTINEL_SIZE 4 //Will, Dec/07/2004-->Ti is 4 bytes /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwInit | +--------------------------------------------------------------------+ PURPOSE : initialize framework */ // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: The use of variable U16 has been replaced with U32 MfwRes mfwInit (void *externalRoot, U32 dynMemSize) { int i; mfwSetFocus(0); /* initially no focus */ dynMemSize &= ~(sizeof(MfwMemHdr)-1); /* align to header size */ mfwMemDynTotal = dynMemSize; if (dynMemSize) { /***************************Go-lite Optimization changes start***********************/ mfwRoot = (MfwHdr *)&mfwEorc; /* points to end of chain */ /***************************Go-lite Optimization changes end***********************/ mfwMemBase = (U8 *) externalRoot; /* setup memory handler */ mfwMemEnd = (U8 *) externalRoot + dynMemSize; mfwMem.next = 0; mfwMem.len = 0; ((MfwMemHdr *) mfwMemBase)->next = dynMemSize; ((MfwMemHdr *) mfwMemBase)->len = dynMemSize; mfwMemLeft = dynMemSize; memset(mfwMemBase+sizeof(MfwMemHdr),0, dynMemSize-sizeof(MfwMemHdr)); } else { mfwRoot = (MfwHdr *) externalRoot; /* setup root pointer */ /***************************Go-lite Optimization changes start***********************/ if (!mfwRoot) mfwRoot = (MfwHdr *)&mfwEorc; /* points to end of chain */ /***************************Go-lite Optimization changes end***********************/ mfwMemBase = 0; mfwMemEnd = 0; mfwMem.next = 0; mfwMem.len = 0; } for (i = 0; i < MfwTypMax; i++) /* init command table */ mfwCommand[i] = 0; return MfwResOk; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwExit | +--------------------------------------------------------------------+ PURPOSE : finalize framework */ void mfwExit (void) { TRACE_FUNCTION("mfwExit()"); } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwSignallingMethod| +--------------------------------------------------------------------+ PURPOSE : Defines the signalling method */ MfwRes mfwSetSignallingMethod (U8 method) { mfwSignallingMethod = method; return MfwResOk; /*return statement added for warning removal*/ } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwSetFocus | +--------------------------------------------------------------------+ PURPOSE : Assign Focus to the passed window */ void mfwSetFocus(MfwHdr *w) { if (satEvtRegistered(SatEvtIdleScreenActivated) == TRUE) { if ((mfwSatIdleWin != 0) && (mfwSatIdleWin == w)) { /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT("NDH >>> CQ16435 : Send the Idle Screen Available Event to the SIM"); satEvtDownload(SatEvtIdleScreen); } } mfwFocus = w; return; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwSetSatIdle | +--------------------------------------------------------------------+ PURPOSE : Set the window which will trigger SAT Event Idle Activated if required */ void mfwSetSatIdle(MfwHdr *w) { MfwWin *win; if (!w) { mfwSatIdleWin = 0; return; } win = w->data; mfwSatIdleWin = win->elems; return; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwInsert | +--------------------------------------------------------------------+ PURPOSE : chain up framework element */ MfwHdr *mfwInsert (MfwHdr *h, MfwHdr *e) { if (!e) /* nothing to insert */ return 0; if (!h) /* use root chain */ { e->next = mfwRoot; mfwRoot = e; } else if (h->type == MfwTypWin) /* use window chain */ { e->next = ((MfwWin *) (h->data))->elems; ((MfwWin *) h->data)->elems = e; if (mfwFocus == e->next) /* was focus window ? */ mfwSetFocus(e); /* yes: reassign focus */ } else /* insert into any chain */ { return 0; } return e; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwAppend | +--------------------------------------------------------------------+ PURPOSE : chain up framework element at end of chain */ MfwHdr *mfwAppend (MfwHdr **h, MfwHdr *e) { if (!e) /* nothing to append */ return 0; if (!h) /* append to header chain */ h = &mfwRoot; if ((*h)->type == MfwTypMax) /* empty chain */ { if (mfwFocus == *h) mfwSetFocus(e); e->next = *h; *h = e; if(e->type == MfwTypWin || e->type == MfwTypKbd ||e->type == MfwTypTim || e->type == MfwTypEdt || e->type == MfwTypMnu || e->type == MfwTypIcn) current_mfw_elem = e; return e; } while ((*h)->next && (*h)->next->type != MfwTypMax) h = &((*h)->next); e->next = (*h)->next; (*h)->next = e; if(e->type == MfwTypWin || e->type == MfwTypKbd ||e->type == MfwTypTim || e->type == MfwTypEdt || e->type == MfwTypMnu || e->type == MfwTypIcn) current_mfw_elem = e; return e; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwRemove | +--------------------------------------------------------------------+ PURPOSE : unchain element and return its root */ MfwHdr **mfwRemove (MfwHdr *e) { MfwHdr **rp, **rpr, *h; if (!e) /* nothing to remove */ return 0; h = e; /* find elements root */ while (h->next && h->type != MfwTypMax) h = h->next; if (h->type != MfwTypMax) return 0; h = h->next; /* h points to root element */ if (!h) /* remove from header chain */ rp = &mfwRoot; else if (h->type == MfwTypWin) /* remove from window chain */ rp = &(((MfwWin*)(h->data))->elems); else /* don't remove from normal */ return 0; rpr = rp; while (*rp && (*rp)->type != MfwTypMax) { if (*rp == e) { *rp = e->next; if (mfwFocus == e) /* first element of window */ mfwSetFocus(e->next); /* Nov 05, 2005 REF: OMAPS00049571 Sumanth Kumar. C * Solution: current_mfw_elem variable is updated when any of the elements * such as window, keyboard, timer, etc., are deleted so that the * current_mfw_element does not point to element that has already been freed. */ if(e->type == MfwTypWin || e->type == MfwTypKbd ||e->type == MfwTypTim || e->type == MfwTypEdt || e->type == MfwTypMnu || e->type == MfwTypIcn) current_mfw_elem = e->next; return rpr; } rp = &((*rp)->next); } return 0; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwParent | +--------------------------------------------------------------------+ PURPOSE : get parent of given element */ MfwHnd mfwParent (MfwHdr *h) { if (!h) /* no element */ return 0; while (h->next && h->type != MfwTypMax) { h = h->next; if(!h) { return 0; } } if (h->type != MfwTypMax) return 0; /* ERROR ! */ h = h->next; /* h points to root element */ if (h && h->type == MfwTypWin) /* parent should be window */ return h; return 0; /* root element */ } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwHeader | +--------------------------------------------------------------------+ PURPOSE : get header of a given element */ MfwHnd mfwHeader (void) { return current_mfw_elem; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwControl | +--------------------------------------------------------------------+ PURPOSE : retrieve element control block */ MfwHnd mfwControl (MfwHdr *h) { if (!h) return 0; if (h->type <= MfwTypNone || h->type >= MfwTypMax) return 0; return h->data; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwAlloc | +--------------------------------------------------------------------+ PURPOSE : alloc MFW memory */ // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: The use of variable U16 has been replaced with U32 U8 *mfwAlloc (U32 size) { MfwMemHdr *p, *n, *l; U8 *data_ptr; if (!size) { TRACE_ERROR("mfwAlloc(): invalid memory request"); return 0; } #ifdef SENTINAL_CHECK if (!mfwMemBase) { size += (SENTINEL_SIZE*2); data_ptr = (U8 *) sysAlloc(size); memset(data_ptr, 0x55, SENTINEL_SIZE); memset(data_ptr + (size-SENTINEL_SIZE), 0x55, SENTINEL_SIZE); data_ptr += SENTINEL_SIZE; return data_ptr; } size = (U32) mfwMemLarge(size) + (SENTINEL_SIZE*2); if (size >= mfwMemLeft) { TRACE_ERROR("mfwAlloc(): no memory"); return 0; } if (mfwMemBase + mfwMem.next > mfwMemEnd || mfwMemBase + mfwMem.next < mfwMemBase) { TRACE_ERROR("mfwAlloc(): corrupted memory"); return 0; } p = &mfwMem; /* root of dyn memory */ n = (MfwMemHdr *) (mfwMemBase + p->next); /* first free block */ while ((U8 *) n < mfwMemEnd) { if (n->len == size) /* fits exactly: */ { p->next = n->next; /* just remove from chain */ mfwMemLeft -= size; if (mfwMemLeft < mfwMemLowWater) mfwMemLowWater = mfwMemLeft; data_ptr = (U8 *)n; memset(data_ptr, 0x55, SENTINEL_SIZE); memset(data_ptr + size-SENTINEL_SIZE, 0x55, SENTINEL_SIZE); memset(data_ptr + SENTINEL_SIZE, 0, size-(SENTINEL_SIZE*2)); data_ptr += SENTINEL_SIZE; #ifdef TRACE_MEMORY_CHECK /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT_P2("MFWAlloc %d bytes in address %p",size,n); mfwCheckMemoryLeft(); #endif return data_ptr; } if (n->len > size) /* take it from a big one */ { l = (MfwMemHdr *) ((U8 *) n + size); /* new header */ l->next = n->next; /* setup chain to next */ l->len = (U32) (n->len - size); /* remaining memory */ p->next += size; /* link with previous block */ mfwMemLeft -= size; if (mfwMemLeft < mfwMemLowWater) mfwMemLowWater = mfwMemLeft; data_ptr = (U8 *)n; memset(data_ptr, 0x55, SENTINEL_SIZE); memset(data_ptr + size-SENTINEL_SIZE, 0x55, SENTINEL_SIZE); memset(data_ptr + SENTINEL_SIZE, 0, size-(SENTINEL_SIZE*2)); data_ptr += SENTINEL_SIZE; #ifdef TRACE_MEMORY_CHECK /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT_P2("MFWAlloc %d bytes in address %p",size,n); mfwCheckMemoryLeft(); #endif return data_ptr; /* allocated me address */ } p = n; n = (MfwMemHdr *) (mfwMemBase + n->next); } #else if (!mfwMemBase) return (U8 *) sysAlloc(size); size = (U32) mfwMemLarge(size); if (size >= mfwMemLeft) { TRACE_ERROR("mfwAlloc(): no memory"); return 0; } if (mfwMemBase + mfwMem.next > mfwMemEnd || mfwMemBase + mfwMem.next < mfwMemBase) { TRACE_ERROR("mfwAlloc(): corrupted memory"); return 0; } p = &mfwMem; /* root of dyn memory */ n = (MfwMemHdr *) (mfwMemBase + p->next); /* first free block */ while ((U8 *) n < mfwMemEnd) { if (n->len == size) /* fits exactly: */ { p->next = n->next; /* just remove from chain */ mfwMemLeft -= size; if (mfwMemLeft < mfwMemLowWater) mfwMemLowWater = mfwMemLeft; memset(n,0,size); #ifdef TRACE_MEMORY_CHECK /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT_P2("MFWAlloc %d bytes in address %p",size,n); mfwCheckMemoryLeft(); #endif return (U8 *) n; } if (n->len > size) /* take it from a big one */ { l = (MfwMemHdr *) ((U8 *) n + size); /* new header */ l->next = n->next; /* setup chain to next */ l->len = (U32) (n->len - size); /* remaining memory */ p->next += size; /* link with previous block */ mfwMemLeft -= size; if (mfwMemLeft < mfwMemLowWater) mfwMemLowWater = mfwMemLeft; memset(n,0,size); #ifdef TRACE_MEMORY_CHECK /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT_P2("MFWAlloc %d bytes in address %p",size,n); mfwCheckMemoryLeft(); #endif return (U8 *) n; /* allocated me address */ } p = n; n = (MfwMemHdr *) (mfwMemBase + n->next); } #endif if ((U8 *)n == mfwMemEnd) { TRACE_ERROR("mfwAlloc(): no memory block big enough to allocate size requested"); } else { TRACE_ERROR("mfwAlloc(): Error: free list corruption is likely"); } return 0; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW | | STATE : code ROUTINE : mfwFree | +--------------------------------------------------------------------+ PURPOSE : free allocated MFW memory */ // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: The use of variable U16 has been replaced with U32 void mfwFree (U8 *mem, U32 size) { MfwMemHdr *p, *n; U8 check_val[SENTINEL_SIZE]; // U32 check_val = 0x55555555; memset(&check_val, 0x55, SENTINEL_SIZE); #ifdef SENTINAL_CHECK mem -= SENTINEL_SIZE; #endif if (!size || !mem ) { TRACE_ERROR("mfwFree(): invalid"); return; /* nothing to free */ } #ifdef SENTINAL_CHECK /* ** Check the 4 preceeding bytes to ensure they haven't been changed */ if (memcmp(mem, &check_val, SENTINEL_SIZE) != 0) { TRACE_ERROR("mfwFree(): Error: Preceeding Sentinal Bytes have been corrupted"); } #endif #ifdef TRACE_MEMORY_CHECK // Jan 27, 2005 REF: CRR MMI-SPR-28300 xnkulkar // Description: BMI: memory leak in mfwFree/mfwAlloc ?? // Solution: Trace output to print memory address and size freed modified /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT_P2("MFWFree address = %p, size : %d bytes",mem,size); #endif if (!mfwMemBase) { void *m = mem; #ifdef SENTINAL_CHECK /* ** Check the SENTINEL_SIZE last bytes to ensure they haven't been changed */ if (memcmp(mem + size + SENTINEL_SIZE, &check_val, SENTINEL_SIZE) != 0) { TRACE_ERROR("mfwFree(): Error: Following Sentinal Bytes have been corrupted"); } #endif sysFree(m); return; } #ifdef SENTINAL_CHECK size = (U32) mfwMemLarge(size) + (SENTINEL_SIZE*2); #else size = (U32) mfwMemLarge(size); #endif if ( mem < mfwMemBase || mem >= mfwMemEnd || mem + size > mfwMemEnd || mem + size <= mfwMemBase) { TRACE_ERROR("mfwFree(): invalid"); return; /* nothing to free */ } p = &mfwMem; /* root of dyn memory */ n = (MfwMemHdr *) (mfwMemBase + p->next); /* first free block */ /* ** Skip through the Free Link List until we get to where the current pointer ** should be added */ while ((U8 *) n < mfwMemEnd && (U8 *) n < mem) { /* search allocated area */ p = n; n = (MfwMemHdr *) (mfwMemBase + n->next); } /* ** Check that the select memory isn't already free */ if (mem == (U8 *) p || mem == (U8 *) n) { TRACE_ERROR("mfwFree(): already free"); return; /* already free */ } /* ** Memory not already free */ #ifdef SENTINAL_CHECK /* ** Check the 4 last bytes to ensure they haven't been changed */ if (memcmp(mem + size - SENTINEL_SIZE, &check_val, SENTINEL_SIZE) != 0) { TRACE_ERROR("mfwFree(): Error: Following Sentinal Bytes have been corrupted"); } #endif /* ** This memset should only be performed after we are sure that the memory should be freed */ memset(mem, 0, size); if (p != &mfwMem && (U8 *) p + p->len == mem) { /* adjacent to left free: */ p->len += size; /* just add it */ } else { p->next = (U32) (mem - mfwMemBase); /* new free link */ p = (MfwMemHdr *) mem; /* to new header */ p->next = (U32) ((U8 *) n - mfwMemBase); /* link to next */ p->len = size; } if ((U8 *) n < mfwMemEnd && ((mem + size) == (U8 *) n)) { /* adjacent to right free: */ p->next = n->next; /* eliminate link and */ p->len += n->len; /* eat up the space */ } mfwMemLeft += size; #ifdef TRACE_MEMORY_CHECK mfwCheckMemoryLeft(); #endif } // Dec 22, 2004 REF: CRR MFW-SPR-27847 xnkulkar // Description: MFW memory size variable changed from U16 -> U32 // Solution: The use of variable U16 has been replaced with U32 U32 mfwCheckMemoryLeft(void) { /* x0083025 on Sep 14, 2007 for OMAPS00145866 (adrian) */ MMI_TRACE_EVENT_P1("memory left %ld",mfwMemLeft); return mfwMemLeft; } /* ** This function gives the bounds safety of strncpy, but NULL terminates the string like strcpy ** ** parameters : cpyto : the pointer to the destination string ** : cpyfrm : the pointer to the source string ** : len : the maximum length of the destination string including the NULL terminator ** ** returns : A character pointer to the destination string if successful, otherwise NULL ** ** CQ16507 : strcpy call for string without null termination causing hardware reset */ char *mfwStrncpy(char *cpyto, const char *cpyfrm, size_t len) { if (len <= 0) return (void *)0; if (cpyto == (char *)0) return (void *)0; strncpy(cpyto, cpyfrm, len-1); *(cpyto + (len -1)) = 0x00; return cpyto; }