FreeCalypso > hg > fc-magnetite
view src/aci2/mfw/mfw_mfw.c @ 484:a1946652f71c
top README: update for the status of hybrid firmware
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Wed, 20 Jun 2018 08:18:48 +0000 |
parents | 93999a60b835 |
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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 $ 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 #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; } /* +--------------------------------------------------------------------+ | 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)) { 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; return e; } while ((*h)->next && (*h)->next->type != MfwTypMax) h = &((*h)->next); e->next = (*h)->next; (*h)->next = 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 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 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 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 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 // 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 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 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) { 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; }