MME_ERROR MME_Init(void)
{
if (manager) {
return MME_DRIVER_ALREADY_INITIALIZED;
}
manager = malloc(sizeof(MMEManager_t));
if (NULL == manager) {
return MME_NOMEM;
}
memset(manager, 0, sizeof(*manager));
if (!EMBX_OS_MUTEX_INIT(&(manager->factoryListMutex))) {
goto error_recovery;
}
if (!EMBX_OS_MUTEX_INIT(&(manager->abortMutex))) {
goto error_recovery;
}
return MME_SUCCESS;
error_recovery:
if (manager->factoryListMutex) {
EMBX_OS_MUTEX_DESTROY(&(manager->factoryListMutex));
}
if (manager->abortMutex) {
EMBX_OS_MUTEX_DESTROY(&(manager->abortMutex));
}
EMBX_OS_MemFree(manager);
return MME_NOMEM;
}
MME_ERROR MME_MessageQueue_Init(MMEMessageQueue * msgQ, int maxEntries)
{
MME_ERROR err;
int size = maxEntries * sizeof(MMEMessageQueueEntry);
MME_Info(MME_INFO_QUEUE, (">>>MME_MessageQueue_Init(0x%08x, %d)\n",
(unsigned) msgQ, maxEntries));
msgQ->maxEntries = maxEntries;
msgQ->queue = (MMEMessageQueueEntry*) EMBX_OS_MemAlloc(size);
if (msgQ->queue == NULL) {
MME_Info(MME_INFO_QUEUE, ("<<<MME_MessageQueue_Init = MME_NOMEM\n"));
return MME_NOMEM;
}
memset(msgQ->queue, 0, size);
if (!EMBX_OS_MUTEX_INIT(&msgQ->queueLock)) {
MME_Info(MME_INFO_QUEUE, ("<<<MME_MessageQueue_Init = MME_NOMEM\n"));
return MME_NOMEM;
}
err = MME_MessageQueue_RemoveAll(msgQ);
MME_Assert(MME_SUCCESS == err); /* currently has no failure path */
MME_Info(MME_INFO_QUEUE, ("<<<MME_MessageQueue_Init = MME_SUCCESS\n"));
return MME_SUCCESS;
}
MME_ERROR MME_HostInit(void)
#endif
{
if (NULL != manager) {
return MME_DRIVER_ALREADY_INITIALIZED;
}
manager = EMBX_OS_MemAlloc(sizeof(HostManager_t));
if (!manager) {
return MME_NOMEM;
}
memset(manager, 0, sizeof(HostManager_t));
manager->transformerInstances = MME_LookupTable_Create(MAX_TRANSFORMER_INSTANCES, 1);
if (!manager->transformerInstances) {
goto error_path;
}
if (EMBX_FALSE == EMBX_OS_MUTEX_INIT(&manager->monitorMutex)) {
goto error_path;
}
if (EMBX_FALSE == EMBX_OS_MUTEX_INIT(&manager->eventLock)) {
goto error_path;
}
if (EMBX_FALSE == EMBX_OS_EVENT_INIT(&manager->waitorDone)) {
goto error_path;
}
return MME_SUCCESS;
error_path:
if (manager->transformerInstances) {
MME_LookupTable_Delete(manager->transformerInstances);
}
EMBX_OS_MemFree(manager);
manager = NULL;
return MME_NOMEM;
}
static MME_ERROR createExecutionLoop(MMEManager_t *manager, int id)
{
const struct { MME_UINT priority; const char *name; } lookup[MME_NUM_EXECUTION_LOOPS] = {
{ MME_TUNEABLE_EXECUTION_LOOP_LOWEST_PRIORITY, "ExecutionLoopLowest" },
{ MME_TUNEABLE_EXECUTION_LOOP_BELOW_NORMAL_PRIORITY, "ExecutionLoopBelowNormal" },
{ MME_TUNEABLE_EXECUTION_LOOP_NORMAL_PRIORITY, "ExecutionLoopNormal" },
{ MME_TUNEABLE_EXECUTION_LOOP_ABOVE_NORMAL_PRIORITY, "ExecutionLoopAboveNormal" },
{ MME_TUNEABLE_EXECUTION_LOOP_HIGHEST_PRIORITY, "ExecutionLoopHighest" },
};
MME_Assert(manager);
MME_Assert(id < MME_NUM_EXECUTION_LOOPS);
if (manager->loopTasksRunning[id]) {
return MME_SUCCESS;
}
MME_Assert(0 == manager->loopTasks[id]);
MME_Assert(0 == manager->receiverLists[id]);
/* this code can only be called from the manager thread and therefore needs
* no thread protection.
*/
if (!EMBX_OS_MUTEX_INIT(&(manager->receiverListMutexes[id]))) {
return MME_NOMEM;
}
if (!EMBX_OS_EVENT_INIT(&(manager->commandEvents[id]))) {
goto cleanup_mutex;
}
/* spawn the worker thread */
manager->loopTasks[id] = EMBX_OS_ThreadCreate((void(*)()) executionLoopTask,
(void *) id, MME_GetTuneable(lookup[id].priority), lookup[id].name);
if (0 == manager->loopTasks[id]) {
goto cleanup_event;
}
/* mark the task as running */
manager->loopTasksRunning[id] = 1;
return MME_SUCCESS;
cleanup_event:
EMBX_OS_EVENT_DESTROY(&(manager->commandEvents[id]));
cleanup_mutex:
EMBX_OS_MUTEX_DESTROY(&(manager->receiverListMutexes[id]));
return MME_NOMEM;
}
EMBX_EVENT EMBX_OS_EventCreate(void)
{
EMBX_EVENT ev = NULL;
/* This is not multithread safe - perhaps use an atomic test&set ? */
if (!cacheInitialised)
{
cacheInitialised = 1;
(void) EMBX_OS_MUTEX_INIT(&cacheLock);
}
EMBX_OS_MUTEX_TAKE(&cacheLock);
if ((ev = cacheHead) != NULL)
{
cacheHead = cacheHead->next;
/* Mark desc as being in use */
ev->next = (EMBX_EVENT) EMBX_HANDLE_VALID;
EMBX_OS_MUTEX_RELEASE(&cacheLock);
}
else
{
EMBX_OS_MUTEX_RELEASE(&cacheLock);
/* Dynamically allocate a new cache container
* and initialise the event inside it
*/
ev = EMBX_OS_MemAlloc(sizeof(*ev));
if (ev)
{
/* Mark desc as being in use */
ev->next = (EMBX_EVENT) EMBX_HANDLE_VALID;
ev->event = semaphore_create_fifo(0);
}
}
return ev;
}
Transformer_t* MME_RemoteTransformer_Create(HostManager_t *manager, TransportInfo_t* info, EMBX_PORT adminPort)
{
static const TransformerVTable_t vtable = {
RemoteTransformer_Destroy,
RemoteTransformer_Init,
RemoteTransformer_Term,
RemoteTransformer_Kill,
RemoteTransformer_AbortCommand,
RemoteTransformer_KillCommand,
RemoteTransformer_SendCommand,
RemoteTransformer_IsStillAlive,
RemoteTransformer_GetTransformerCapability,
RemoteTransformer_WaitForMessage,
RemoteTransformer_LookupCommand,
RemoteTransformer_ReleaseCommandSlot
};
RemoteTransformer_t* remoteTransformer;
int i;
remoteTransformer = EMBX_OS_MemAlloc(sizeof(RemoteTransformer_t));
if (!remoteTransformer) {
return NULL;
}
/* zero the structure */
memset(remoteTransformer, 0, sizeof(RemoteTransformer_t));
/* initialize the non-zero elements */
remoteTransformer->super.vtable = &vtable;
remoteTransformer->super.manager = manager;
remoteTransformer->super.info = info;
remoteTransformer->adminPort = adminPort;
remoteTransformer->maxCommandSlots = MAX_TRANSFORMER_SEND_OPS;
/* allocate the command slots (used to keep track of in-flight commands) */
remoteTransformer->commandSlots = EMBX_OS_MemAlloc(sizeof(CommandSlot_t) *
remoteTransformer->maxCommandSlots);
if (0 == remoteTransformer->commandSlots) {
goto error_recovery;
}
for (i=0; i<remoteTransformer->maxCommandSlots; i++) {
remoteTransformer->commandSlots[i].command = 0;
remoteTransformer->commandSlots[i].status = MME_COMMAND_COMPLETED_EVT;
}
if (!EMBX_OS_EVENT_INIT(&remoteTransformer->terminateWasReplied)) {
goto error_recovery;
}
if (!EMBX_OS_MUTEX_INIT(&remoteTransformer->commandSlotLock)) {
EMBX_OS_EVENT_DESTROY(&remoteTransformer->terminateWasReplied);
goto error_recovery;
}
/* reference the transport info structure (so it can't be deregistered) */
info->referenceCount++;
return &remoteTransformer->super;
error_recovery:
/* EMBX_OS_MemFree() will ignore NULL pointers */
EMBX_OS_MemFree(remoteTransformer->commandSlots);
EMBX_OS_MemFree(remoteTransformer);
return NULL;
}
