/*
* ======== RMP_delete ========
*/
Void RMP_delete(RMP_Handle handle)
{
#ifdef xdc_target__os_Linux
Int shmId = handle->sharedMemId; /* Shared Mem Id */
#endif
Void * base = (Void *)(shmAddrs[handle->shmCount]); /* Base Address */
/* Decrease the refCount */
handle->refCount--;
/* If the referenceCount is zero, call the RMM delete */
if (0 == handle->refCount) {
RMM_delete(RMMHANDLE(handle));
}
#ifdef xdc_target__os_Linux
/* Free the shared memory segment */
SHM_freeObj(base, shmId);
#else
free(base);
#endif
}
/*
* ======== RMM_create ========
*/
DSP_STATUS RMM_create(struct RMM_TargetObj **pTarget,
struct RMM_Segment segTab[], u32 numSegs)
{
struct RMM_Header *hptr;
struct RMM_Segment *sptr, *tmp;
struct RMM_TargetObj *target;
s32 i;
DSP_STATUS status = DSP_SOK;
DBC_Require(pTarget != NULL);
DBC_Require(numSegs == 0 || segTab != NULL);
GT_3trace(RMM_debugMask, GT_ENTER,
"RMM_create(0x%lx, 0x%lx, 0x%lx)\n",
pTarget, segTab, numSegs);
/* Allocate DBL target object */
MEM_AllocObject(target, struct RMM_TargetObj, RMM_TARGSIGNATURE);
if (target == NULL) {
GT_0trace(RMM_debugMask, GT_6CLASS,
"RMM_create: Memory allocation failed\n");
status = DSP_EMEMORY;
}
if (DSP_FAILED(status))
goto func_cont;
target->numSegs = numSegs;
if (!(numSegs > 0))
goto func_cont;
/* Allocate the memory for freelist from host's memory */
target->freeList = MEM_Calloc(numSegs * sizeof(struct RMM_Header *),
MEM_PAGED);
if (target->freeList == NULL) {
GT_0trace(RMM_debugMask, GT_6CLASS,
"RMM_create: Memory allocation failed\n");
status = DSP_EMEMORY;
} else {
/* Allocate headers for each element on the free list */
for (i = 0; i < (s32) numSegs; i++) {
target->freeList[i] =
MEM_Calloc(sizeof(struct RMM_Header),
MEM_PAGED);
if (target->freeList[i] == NULL) {
GT_0trace(RMM_debugMask, GT_6CLASS,
"RMM_create: Memory "
"allocation failed\n");
status = DSP_EMEMORY;
break;
}
}
/* Allocate memory for initial segment table */
target->segTab = MEM_Calloc(numSegs *
sizeof(struct RMM_Segment), MEM_PAGED);
if (target->segTab == NULL) {
GT_0trace(RMM_debugMask, GT_6CLASS,
"RMM_create: Memory allocation failed\n");
status = DSP_EMEMORY;
} else {
/* Initialize segment table and free list */
sptr = target->segTab;
for (i = 0, tmp = segTab; numSegs > 0; numSegs--, i++) {
*sptr = *tmp;
hptr = target->freeList[i];
hptr->addr = tmp->base;
hptr->size = tmp->length;
hptr->next = NULL;
tmp++;
sptr++;
}
}
}
func_cont:
/* Initialize overlay memory list */
if (DSP_SUCCEEDED(status)) {
target->ovlyList = LST_Create();
if (target->ovlyList == NULL) {
GT_0trace(RMM_debugMask, GT_6CLASS,
"RMM_create: Memory allocation failed\n");
status = DSP_EMEMORY;
}
}
if (DSP_SUCCEEDED(status)) {
*pTarget = target;
} else {
*pTarget = NULL;
if (target)
RMM_delete(target);
}
DBC_Ensure((DSP_SUCCEEDED(status) && MEM_IsValidHandle((*pTarget),
RMM_TARGSIGNATURE)) || (DSP_FAILED(status) && *pTarget ==
NULL));
return status;
}
