index a2cbfd6a6abe48505f50564dcec3245f18495fd7..f82728dcb02ead73a15287ecf2c85b17fe748921 100644 (file)
--- a/linux/src/api/MessageQ.c
+++ b/linux/src/api/MessageQ.c
#define MessageQ_internal 1 /* must be defined before include file */
#include <ti/ipc/MessageQ.h>
#include <_MessageQ.h>
+#include <ti/ipc/interfaces/IHeap.h>
#include <ti/ipc/interfaces/ITransport.h>
#include <ti/ipc/interfaces/IMessageQTransport.h>
#include <ti/ipc/interfaces/INetworkTransport.h>
NameServer_Handle nameServer;
pthread_mutex_t gate;
int seqNum;
+ pthread_mutex_t seqNumGate;
IMessageQTransport_Handle transports[MultiProc_MAXPROCESSORS][2];
ITransport_Handle transInst[MessageQ_MAXTRANSPORTS];
MessageQ_PutHookFxn putHookFxn;
+ Ptr *heaps;
+ Int numHeaps;
} MessageQ_ModuleObject;
typedef struct MessageQ_CIRCLEQ_ENTRY {
*/
typedef struct MessageQ_Object_tag {
CIRCLEQ_HEAD(dummy2, MessageQ_CIRCLEQ_ENTRY) msgList;
+ pthread_mutex_t msgListGate;
MessageQ_Params params;
MessageQ_QueueId queue;
int unblocked;
{
.refCount = 0,
.nameServer = NULL,
- .putHookFxn = NULL
+#if defined(IPC_BUILDOS_ANDROID)
+ .gate = PTHREAD_RECURSIVE_MUTEX_INITIALIZER,
+#else
+ .gate = PTHREAD_RECURSIVE_MUTEX_INITIALIZER_NP,
+#endif
+ .seqNumGate = PTHREAD_MUTEX_INITIALIZER,
+ .putHookFxn = NULL,
+ .heaps = NULL,
+ .numHeaps = 0
};
/*!
UInt16 clusterId;
if (handle == NULL) {
- printf("MessageQ_registerTransport: invalid handle, must be non-NULL\n"
- );
+ fprintf(stderr,
+ "MessageQ_registerTransport: invalid handle, must be non-NULL\n"
+ );
return status;
}
clusterId = rprocId - MultiProc_getBaseIdOfCluster();
if (clusterId >= MultiProc_MAXPROCESSORS) {
- printf("MessageQ_registerTransport: invalid procId %d\n", rprocId);
+ fprintf(stderr,
+ "MessageQ_registerTransport: invalid procId %d\n", rprocId);
return status;
}
Bool MessageQ_registerTransportId(UInt tid, ITransport_Handle inst)
{
if (inst == NULL) {
- printf("MessageQ_registerTransportId: invalid NULL handle\n");
+ fprintf(stderr, "MessageQ_registerTransportId: invalid NULL handle\n");
return MessageQ_E_INVALIDARG;
}
if (tid >= MessageQ_MAXTRANSPORTS) {
- printf("MessageQ_unregisterNetTransport: invalid transport id %d,"
+ fprintf(stderr,
+ "MessageQ_unregisterNetTransport: invalid transport id %d, "
"must be < %d\n", tid, MessageQ_MAXTRANSPORTS);
return MessageQ_E_INVALIDARG;
}
if (MessageQ_module->transInst[tid] != NULL) {
- printf("MessageQ_registerTransportId: transport id %d already "
+ fprintf(stderr,
+ "MessageQ_registerTransportId: transport id %d already "
"registered\n", tid);
return MessageQ_E_ALREADYEXISTS;
clusterId = rprocId - MultiProc_getBaseIdOfCluster();
if (clusterId >= MultiProc_MAXPROCESSORS) {
- printf("MessageQ_unregisterTransport: invalid rprocId %d\n", rprocId);
+ fprintf(stderr, "MessageQ_unregisterTransport: invalid rprocId %d\n",
+ rprocId);
return;
}
Void MessageQ_unregisterTransportId(UInt tid)
{
if (tid >= MessageQ_MAXTRANSPORTS) {
- printf("MessageQ_unregisterTransportId: invalid transport id %d, "
+ fprintf(stderr,
+ "MessageQ_unregisterTransportId: invalid transport id %d, "
"must be < %d\n", tid, MessageQ_MAXTRANSPORTS);
return;
*/
Int MessageQ_setup(const MessageQ_Config *cfg)
{
- Int status;
+ Int status = MessageQ_S_SUCCESS;
LAD_ClientHandle handle;
struct LAD_CommandObj cmd;
union LAD_ResponseObj rsp;
Int i;
Int tid;
+ /* this entire function must be serialized */
pthread_mutex_lock(&MessageQ_module->gate);
- MessageQ_module->refCount++;
- if (MessageQ_module->refCount > 1) {
-
- pthread_mutex_unlock(&MessageQ_module->gate);
-
+ /* ensure only first thread performs startup procedure */
+ if (++MessageQ_module->refCount > 1) {
PRINTVERBOSE1("MessageQ module has been already setup, refCount=%d\n",
- MessageQ_module->refCount)
-
- return MessageQ_S_ALREADYSETUP;
+ MessageQ_module->refCount)
+ status = MessageQ_S_ALREADYSETUP;
+ goto exit;
}
- pthread_mutex_unlock(&MessageQ_module->gate);
-
handle = LAD_findHandle();
if (handle == LAD_MAXNUMCLIENTS) {
- PRINTVERBOSE1(
- "MessageQ_setup: can't find connection to daemon for pid %d\n",
- getpid())
-
- return MessageQ_E_RESOURCE;
+ PRINTVERBOSE1("MessageQ_setup: can't find connection to daemon for "
+ "pid %d\n", getpid())
+ status = MessageQ_E_RESOURCE;
+ goto exit;
}
cmd.cmd = LAD_MESSAGEQ_SETUP;
cmd.clientId = handle;
- memcpy(&cmd.args.messageQSetup.cfg, cfg, sizeof (*cfg));
+ memcpy(&cmd.args.messageQSetup.cfg, cfg, sizeof(*cfg));
if ((status = LAD_putCommand(&cmd)) != LAD_SUCCESS) {
- PRINTVERBOSE1(
- "MessageQ_setup: sending LAD command failed, status=%d\n", status)
- return MessageQ_E_FAIL;
+ PRINTVERBOSE1("MessageQ_setup: sending LAD command failed, "
+ "status=%d\n", status)
+ status = MessageQ_E_FAIL;
+ goto exit;
}
if ((status = LAD_getResponse(handle, &rsp)) != LAD_SUCCESS) {
PRINTVERBOSE1("MessageQ_setup: no LAD response, status=%d\n", status)
- return status;
+ status = MessageQ_E_FAIL;
+ goto exit;
}
status = rsp.setup.status;
- PRINTVERBOSE2(
- "MessageQ_setup: got LAD response for client %d, status=%d\n",
- handle, status)
+ PRINTVERBOSE2("MessageQ_setup: LAD response for client %d, status=%d\n",
+ handle, status)
MessageQ_module->seqNum = 0;
MessageQ_module->nameServer = rsp.setup.nameServerHandle;
MessageQ_module->numQueues = cfg->maxRuntimeEntries;
MessageQ_module->queues = calloc(cfg->maxRuntimeEntries,
- sizeof (MessageQ_Handle));
-
- pthread_mutex_init(&MessageQ_module->gate, NULL);
+ sizeof(MessageQ_Handle));
+ MessageQ_module->numHeaps = cfg->numHeaps;
+ MessageQ_module->heaps = calloc(cfg->numHeaps, sizeof(Ptr));
for (i = 0; i < MultiProc_MAXPROCESSORS; i++) {
for (pri = 0; pri < 2; pri++) {
MessageQ_module->transInst[tid] = NULL;
}
- return status;
+exit:
+ /* if error, must decrement reference count */
+ if (status < 0) {
+ MessageQ_module->refCount--;
+ }
+
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
+ return (status);
}
/*
*/
Int MessageQ_destroy(void)
{
- Int status;
+ Int status = MessageQ_S_SUCCESS;
LAD_ClientHandle handle;
struct LAD_CommandObj cmd;
union LAD_ResponseObj rsp;
+ int i;
+
+ /* this entire function must be serialized */
+ pthread_mutex_lock(&MessageQ_module->gate);
+
+ /* ensure only last thread does the work */
+ if (--MessageQ_module->refCount > 0) {
+ goto exit;
+ }
+
+ /* ensure all registered heaps have been unregistered */
+ for (i = 0; i < MessageQ_module->numHeaps; i++) {
+ if (MessageQ_module->heaps[i] != NULL) {
+ PRINTVERBOSE1("MessageQ_destroy: Warning: found heapId=%d", i);
+ }
+ }
+ free(MessageQ_module->heaps);
+ MessageQ_module->heaps = NULL;
handle = LAD_findHandle();
if (handle == LAD_MAXNUMCLIENTS) {
- PRINTVERBOSE1(
- "MessageQ_destroy: can't find connection to daemon for pid %d\n",
- getpid())
-
- return MessageQ_E_RESOURCE;
+ PRINTVERBOSE1("MessageQ_destroy: can't find connection to daemon "
+ "for pid %d\n", getpid())
+ status = MessageQ_E_RESOURCE;
+ goto exit;
}
cmd.cmd = LAD_MESSAGEQ_DESTROY;
cmd.clientId = handle;
if ((status = LAD_putCommand(&cmd)) != LAD_SUCCESS) {
- PRINTVERBOSE1(
- "MessageQ_destroy: sending LAD command failed, status=%d\n", status)
- return MessageQ_E_FAIL;
+ PRINTVERBOSE1("MessageQ_destroy: sending LAD command failed, "
+ "status=%d\n", status)
+ status = MessageQ_E_FAIL;
+ goto exit;
}
if ((status = LAD_getResponse(handle, &rsp)) != LAD_SUCCESS) {
PRINTVERBOSE1("MessageQ_destroy: no LAD response, status=%d\n", status)
- return status;
+ status = MessageQ_E_FAIL;
+ goto exit;
}
status = rsp.status;
- PRINTVERBOSE2(
- "MessageQ_destroy: got LAD response for client %d, status=%d\n",
- handle, status)
+ PRINTVERBOSE2("MessageQ_destroy: got LAD response for client %d, "
+ "status=%d\n", handle, status)
- return status;
+exit:
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
+ return (status);
}
/*
obj->queue = rsp.messageQCreate.queueId;
obj->serverHandle = rsp.messageQCreate.serverHandle;
+ pthread_mutex_init(&obj->msgListGate, NULL);
CIRCLEQ_INIT(&obj->msgList);
if (sem_init(&obj->synchronizer, 0, 0) < 0) {
PRINTVERBOSE1(
PRINTVERBOSE2("MessageQ_create: creating endpoints for '%s' "
"queueIndex %d\n", (name == NULL) ? "NULL" : name , queueIndex)
+ pthread_mutex_lock(&MessageQ_module->gate);
+
for (clusterId = 0; clusterId < MultiProc_MAXPROCESSORS; clusterId++) {
for (priority = 0; priority < 2; priority++) {
transport = MessageQ_module->transports[clusterId][priority];
default:
/* error */
- printf("MessageQ_create: Error: transport id %d is an "
+ fprintf(stderr,
+ "MessageQ_create: Error: transport id %d is an "
"unsupported transport type.\n", tid);
break;
}
*/
MessageQ_module->queues[queueIndex] = (MessageQ_Handle)obj;
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
return (MessageQ_Handle)obj;
}
"MessageQ_delete: got LAD response for client %d, status=%d\n",
handle, status)
+ pthread_mutex_lock(&MessageQ_module->gate);
+
for (clusterId = 0; clusterId < MultiProc_MAXPROCESSORS; clusterId++) {
for (priority = 0; priority < 2; priority++) {
transport = MessageQ_module->transports[clusterId][priority];
default:
/* error */
- printf("MessageQ_create: Error: transport id %d is an "
+ fprintf(stderr,
+ "MessageQ_create: Error: transport id %d is an "
"unsupported transport type.\n", tid);
break;
}
queueIndex = MessageQ_getQueueIndex(obj->queue);
MessageQ_module->queues[queueIndex] = NULL;
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
free(obj);
*handlePtr = NULL;
/*
* ======== MessageQ_put ========
- * Place a message onto a message queue
+ * Deliver the given message, either locally or to the transport
*
- * Calls transport's put(), which handles the sending of the message
- * using the appropriate kernel interface (socket, device ioctl) call
- * for the remote procId encoded in the queueId argument.
+ * If the destination is a local queue, deliver the message. Otherwise,
+ * pass the message to a transport for delivery. The transport handles
+ * the sending of the message using the appropriate interface (socket,
+ * device ioctl, etc.).
*/
Int MessageQ_put(MessageQ_QueueId queueId, MessageQ_Msg msg)
{
+ Int status = MessageQ_S_SUCCESS;
MessageQ_Object *obj;
- UInt16 dstProcId = (UInt16)(queueId >> 16);
- UInt16 queueIndex;
- UInt16 queuePort = (MessageQ_QueueIndex)(queueId & 0x0000ffff);
- Int status = MessageQ_S_SUCCESS;
+ UInt16 dstProcId;
+ UInt16 queueIndex;
+ UInt16 queuePort;
ITransport_Handle baseTrans;
IMessageQTransport_Handle msgTrans;
INetworkTransport_Handle netTrans;
Int priority;
UInt tid;
UInt16 clusterId;
+ Bool delivered;
+
+ /* extract destination address from the given queueId */
+ dstProcId = (UInt16)(queueId >> 16);
+ queuePort = (MessageQ_QueueIndex)(queueId & 0x0000ffff);
- /* use the queue port # for destination address */
+ /* write the destination address into the message header */
msg->dstId = queuePort;
msg->dstProc= dstProcId;
- /* invoke put hook function after addressing the message */
+ /* invoke the hook function after addressing the message */
if (MessageQ_module->putHookFxn != NULL) {
MessageQ_module->putHookFxn(queueId, msg);
}
- /* extract the transport ID from the message header */
+ /* For an outbound message: If message destination is on this
+ * processor, then check if the destination queue is in this
+ * process (thread-to-thread messaging).
+ *
+ * For an inbound message: Check if destination queue is in this
+ * process (process-to-process messaging).
+ */
+ if (dstProcId == MultiProc_self()) {
+ queueIndex = queuePort - MessageQ_PORTOFFSET;
+
+ if (queueIndex < MessageQ_module->numQueues) {
+ obj = (MessageQ_Object *)MessageQ_module->queues[queueIndex];
+
+ if (obj != NULL) {
+ /* deliver message to queue */
+ pthread_mutex_lock(&obj->msgListGate);
+ CIRCLEQ_INSERT_TAIL(&obj->msgList,
+ (MessageQ_CIRCLEQ_ENTRY *)msg, elem);
+ pthread_mutex_unlock(&obj->msgListGate);
+ sem_post(&obj->synchronizer);
+ goto done;
+ }
+ }
+ }
+
+ /* Getting here implies the message is outbound. Must give it to
+ * either the primary or secondary transport for delivery. Start
+ * by extracting the transport ID from the message header.
+ */
tid = MessageQ_getTransportId(msg);
if (tid >= MessageQ_MAXTRANSPORTS) {
- printf("MessageQ_put: Error: transport id %d too big, must be < %d\n",
+ fprintf(stderr,
+ "MessageQ_put: Error: transport id %d too big, must be < %d\n",
tid, MessageQ_MAXTRANSPORTS);
- return (MessageQ_E_FAIL);
+ status = MessageQ_E_FAIL;
+ goto done;
}
- /* if tid is set, use secondary transport regardless of destination */
+ /* if transportId is set, use secondary transport for message delivery */
if (tid != 0) {
baseTrans = MessageQ_module->transInst[tid];
if (baseTrans == NULL) {
- printf("MessageQ_put: Error: transport is null\n");
- return (MessageQ_E_FAIL);
+ fprintf(stderr, "MessageQ_put: Error: transport is null\n");
+ status = MessageQ_E_FAIL;
+ goto done;
}
/* downcast instance pointer to transport interface */
switch (ITransport_itype(baseTrans)) {
case INetworkTransport_TypeId:
netTrans = INetworkTransport_downCast(baseTrans);
- INetworkTransport_put(netTrans, (Ptr)msg);
+ delivered = INetworkTransport_put(netTrans, (Ptr)msg);
+ status = (delivered ? MessageQ_S_SUCCESS :
+ (errno == ESHUTDOWN ? MessageQ_E_SHUTDOWN :
+ MessageQ_E_FAIL));
break;
default:
/* error */
- printf("MessageQ_put: Error: transport id %d is an "
+ fprintf(stderr, "MessageQ_put: Error: transport id %d is an "
"unsupported transport type\n", tid);
status = MessageQ_E_FAIL;
break;
}
}
else {
- /* if destination on another processor, use primary transport */
- if (dstProcId != MultiProc_self()) {
- priority = MessageQ_getMsgPri(msg);
- clusterId = dstProcId - MultiProc_getBaseIdOfCluster();
-
- /* primary transport can only be used for intra-cluster delivery */
- if (clusterId > MultiProc_getNumProcsInCluster()) {
- printf("MessageQ_put: Error: destination procId=%d is not "
- "in cluster. Must specify a transportId.\n", dstProcId);
- return (MessageQ_E_FAIL);
- }
-
- msgTrans = MessageQ_module->transports[clusterId][priority];
-
- IMessageQTransport_put(msgTrans, (Ptr)msg);
+ /* use primary transport for delivery */
+ priority = MessageQ_getMsgPri(msg);
+ clusterId = dstProcId - MultiProc_getBaseIdOfCluster();
+
+ /* primary transport can only be used for intra-cluster delivery */
+ if (clusterId > MultiProc_getNumProcsInCluster()) {
+ fprintf(stderr,
+ "MessageQ_put: Error: destination procId=%d is not "
+ "in cluster. Must specify a transportId.\n", dstProcId);
+ status = MessageQ_E_FAIL;
+ goto done;
}
- else {
- /* check if destination queue is in this process */
- queueIndex = queuePort - MessageQ_PORTOFFSET;
-
- if (queueIndex >= MessageQ_module->numQueues) {
- printf("MessageQ_put: Error: unable to deliver message, "
- "queueIndex too large or transportId missing.\n");
- return (MessageQ_E_FAIL);
- }
- obj = (MessageQ_Object *)MessageQ_module->queues[queueIndex];
-
- if (obj == NULL) {
- printf("MessageQ_put: Error: unable to deliver message, "
- "destination queue not in this process.\n");
- return (MessageQ_E_FAIL);
- }
-
- /* deliver message to process local queue */
- pthread_mutex_lock(&MessageQ_module->gate);
- CIRCLEQ_INSERT_TAIL(&obj->msgList, (MessageQ_CIRCLEQ_ENTRY *)msg,
- elem);
- pthread_mutex_unlock(&MessageQ_module->gate);
- sem_post(&obj->synchronizer);
- }
+ msgTrans = MessageQ_module->transports[clusterId][priority];
+ delivered = IMessageQTransport_put(msgTrans, (Ptr)msg);
+ status = (delivered ? MessageQ_S_SUCCESS :
+ (errno == ESHUTDOWN ? MessageQ_E_SHUTDOWN : MessageQ_E_FAIL));
}
+done:
return (status);
}
* Optimization here to get a message without going in to the sem
* operation, but the sem count will not be maintained properly.
*/
- pthread_mutex_lock(&MessageQ_module->gate);
+ pthread_mutex_lock(&obj->msgListGate);
if (obj->msgList.cqh_first != &obj->msgList) {
*msg = (MessageQ_Msg)obj->msglist.cqh_first;
CIRCLEQ_REMOVE(&obj->msgList, *msg, reserved0);
- pthread_mutex_unlock(&MessageQ_module->gate);
+ pthread_mutex_unlock(&obj->msgListGate);
}
else {
- pthread_mutex_unlock(&MessageQ_module->gate);
+ pthread_mutex_unlock(&obj->msgListGate);
}
#endif
sem_wait(&obj->synchronizer);
}
else {
+ /* add timeout (microseconds) to current time of day */
gettimeofday(&tv, NULL);
+ tv.tv_sec += timeout / 1000000;
+ tv.tv_usec += timeout % 1000000;
+
+ if (tv.tv_usec >= 1000000) {
+ tv.tv_sec++;
+ tv.tv_usec -= 1000000;
+ }
+
+ /* set absolute timeout value */
ts.tv_sec = tv.tv_sec;
- ts.tv_nsec = (tv.tv_usec + timeout) * 1000;
+ ts.tv_nsec = tv.tv_usec * 1000; /* convert to nanoseconds */
if (sem_timedwait(&obj->synchronizer, &ts) < 0) {
if (errno == ETIMEDOUT) {
PRINTVERBOSE0("MessageQ_get: operation timed out\n")
-
- return MessageQ_E_TIMEOUT;
+ return (MessageQ_E_TIMEOUT);
+ }
+ else {
+ PRINTVERBOSE0("MessageQ_get: sem_timedwait error\n")
+ return (MessageQ_E_FAIL);
}
}
}
if (obj->unblocked) {
- return MessageQ_E_UNBLOCKED;
+ return obj->unblocked;
}
- pthread_mutex_lock(&MessageQ_module->gate);
+ pthread_mutex_lock(&obj->msgListGate);
*msg = (MessageQ_Msg)obj->msgList.cqh_first;
CIRCLEQ_REMOVE(&obj->msgList, (MessageQ_CIRCLEQ_ENTRY *)*msg, elem);
- pthread_mutex_unlock(&MessageQ_module->gate);
+ pthread_mutex_unlock(&obj->msgListGate);
return status;
}
*/
MessageQ_Msg MessageQ_alloc(UInt16 heapId, UInt32 size)
{
+ IHeap_Handle heap;
MessageQ_Msg msg;
- /*
- * heapId not used for local alloc (as this is over a copy transport), but
- * we need to send to other side as heapId is used in BIOS transport.
- */
- msg = (MessageQ_Msg)calloc(1, size);
+ if (heapId > (MessageQ_module->numHeaps - 1)) {
+ PRINTVERBOSE1("MessageQ_alloc: Error: heapId (%d) too large", heapId);
+ return (NULL);
+ }
+ else if (MessageQ_module->heaps[heapId] == NULL) {
+ PRINTVERBOSE1("MessageQ_alloc: Error: heapId (%d) not registered",
+ heapId);
+ return (NULL);
+ }
+ else {
+ heap = (IHeap_Handle)MessageQ_module->heaps[heapId];
+ }
+
+ msg = IHeap_alloc(heap, size);
+
+ if (msg == NULL) {
+ return (NULL);
+ }
+
MessageQ_msgInit(msg);
msg->msgSize = size;
msg->heapId = heapId;
- return msg;
+ return (msg);
}
/*
Int MessageQ_free(MessageQ_Msg msg)
{
UInt32 status = MessageQ_S_SUCCESS;
+ IHeap_Handle heap;
- /* Check to ensure this was not allocated by user: */
+ /* ensure this was not allocated by user */
if (msg->heapId == MessageQ_STATICMSG) {
status = MessageQ_E_CANNOTFREESTATICMSG;
}
+ else if (msg->heapId > (MessageQ_module->numHeaps - 1)) {
+ status = MessageQ_E_INVALIDARG;
+ }
+ else if (MessageQ_module->heaps[msg->heapId] == NULL) {
+ status = MessageQ_E_NOTFOUND;
+ }
else {
- free(msg);
+ heap = (IHeap_Handle)MessageQ_module->heaps[msg->heapId];
}
- return status;
+ IHeap_free(heap, (void *)msg);
+
+ return (status);
}
-/* Register a heap with MessageQ. */
+/*
+ * ======== MessageQ_registerHeap ========
+ */
Int MessageQ_registerHeap(Ptr heap, UInt16 heapId)
{
Int status = MessageQ_S_SUCCESS;
- /* Do nothing, as this uses a copy transport */
+ pthread_mutex_lock(&MessageQ_module->gate);
- return status;
+ if (heapId > (MessageQ_module->numHeaps - 1)) {
+ status = MessageQ_E_INVALIDARG;
+ }
+ else if (MessageQ_module->heaps[heapId] != NULL) {
+ status = MessageQ_E_ALREADYEXISTS;
+ }
+ else {
+ MessageQ_module->heaps[heapId] = heap;
+ }
+
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
+ return (status);
}
-/* Unregister a heap with MessageQ. */
+/*
+ * ======== MessageQ_unregisterHeap ========
+ */
Int MessageQ_unregisterHeap(UInt16 heapId)
{
Int status = MessageQ_S_SUCCESS;
- /* Do nothing, as this uses a copy transport */
+ pthread_mutex_lock(&MessageQ_module->gate);
- return status;
+ if (heapId > (MessageQ_module->numHeaps - 1)) {
+ status = MessageQ_E_INVALIDARG;
+ }
+ else if (MessageQ_module->heaps[heapId] == NULL) {
+ status = MessageQ_E_NOTFOUND;
+ }
+ else {
+ MessageQ_module->heaps[heapId] = NULL;
+ }
+
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
+ return (status);
}
/* Unblocks a MessageQ */
{
MessageQ_Object *obj = (MessageQ_Object *)handle;
- obj->unblocked = TRUE;
+ obj->unblocked = MessageQ_E_UNBLOCKED;
+ sem_post(&obj->synchronizer);
+}
+
+/* Unblocks a MessageQ that's been shutdown due to transport failure */
+Void MessageQ_shutdown(MessageQ_Handle handle)
+{
+ MessageQ_Object *obj = (MessageQ_Object *)handle;
+
+ obj->unblocked = MessageQ_E_SHUTDOWN;
sem_post(&obj->synchronizer);
}
return queueId;
}
+/* Returns the local handle associated with queueId. */
+MessageQ_Handle MessageQ_getLocalHandle(MessageQ_QueueId queueId)
+{
+ MessageQ_Object *obj;
+ MessageQ_QueueIndex queueIndex;
+ UInt16 procId;
+
+ procId = MessageQ_getProcId(queueId);
+ if (procId != MultiProc_self()) {
+ return NULL;
+ }
+
+ queueIndex = MessageQ_getQueueIndex(queueId);
+ obj = (MessageQ_Object *)MessageQ_module->queues[queueIndex];
+
+ return (MessageQ_Handle)obj;
+}
+
/* Sets the tracing of a message */
Void MessageQ_setMsgTrace(MessageQ_Msg msg, Bool traceFlag)
{
msg->flags = MessageQ_HEADERVERSION | MessageQ_NORMALPRI;
msg->srcProc = MultiProc_self();
- pthread_mutex_lock(&MessageQ_module->gate);
+ pthread_mutex_lock(&MessageQ_module->seqNumGate);
msg->seqNum = MessageQ_module->seqNum++;
- pthread_mutex_unlock(&MessageQ_module->gate);
+ pthread_mutex_unlock(&MessageQ_module->seqNumGate);
#endif
}
MessageQ_Handle *oldQueues;
UInt oldSize;
+ pthread_mutex_lock(&MessageQ_module->gate);
+
oldSize = MessageQ_module->numQueues * sizeof (MessageQ_Handle);
queues = calloc(queueIndex + MessageQ_GROWSIZE, sizeof(MessageQ_Handle));
MessageQ_module->queues = queues;
MessageQ_module->numQueues = queueIndex + MessageQ_GROWSIZE;
+ pthread_mutex_unlock(&MessageQ_module->gate);
+
free(oldQueues);
return;
}
+
+/*
+ * ======== MessageQ_bind ========
+ * Bind all existing message queues to the given processor
+ *
+ * Note: This function is a hack to work around the driver.
+ *
+ * The Linux rpmsgproto driver requires a socket for each
+ * message queue and remote processor tuple.
+ *
+ * socket --> (queue, processor)
+ *
+ * Therefore, each time a new remote processor is started, all
+ * existing message queues need to create a socket for the new
+ * processor.
+ *
+ * The driver should not have this requirement. One socket per
+ * message queue should be sufficient to uniquely identify the
+ * endpoint to the driver.
+ */
+Void MessageQ_bind(UInt16 procId)
+{
+ int q;
+ int clusterId;
+ int priority;
+ MessageQ_Handle handle;
+ MessageQ_QueueId queue;
+ IMessageQTransport_Handle transport;
+
+ clusterId = procId - MultiProc_getBaseIdOfCluster();
+ pthread_mutex_lock(&MessageQ_module->gate);
+
+ for (q = 0; q < MessageQ_module->numQueues; q++) {
+
+ if ((handle = MessageQ_module->queues[q]) == NULL) {
+ continue;
+ }
+
+ queue = ((MessageQ_Object *)handle)->queue;
+
+ for (priority = 0; priority < 2; priority++) {
+ transport = MessageQ_module->transports[clusterId][priority];
+ if (transport != NULL) {
+ IMessageQTransport_bind((Void *)transport, queue);
+ }
+ }
+ }
+
+ pthread_mutex_unlock(&MessageQ_module->gate);
+}
+
+/*
+ * ======== MessageQ_unbind ========
+ * Unbind all existing message queues from the given processor
+ *
+ * Hack: see MessageQ_bind.
+ */
+Void MessageQ_unbind(UInt16 procId)
+{
+ int q;
+ int clusterId;
+ int priority;
+ MessageQ_Handle handle;
+ MessageQ_QueueId queue;
+ IMessageQTransport_Handle transport;
+
+ pthread_mutex_lock(&MessageQ_module->gate);
+
+ for (q = 0; q < MessageQ_module->numQueues; q++) {
+
+ if ((handle = MessageQ_module->queues[q]) == NULL) {
+ continue;
+ }
+
+ queue = ((MessageQ_Object *)handle)->queue;
+ clusterId = procId - MultiProc_getBaseIdOfCluster();
+
+ for (priority = 0; priority < 2; priority++) {
+ transport = MessageQ_module->transports[clusterId][priority];
+ if (transport != NULL) {
+ IMessageQTransport_unbind((Void *)transport, queue);
+ }
+ }
+ }
+
+ pthread_mutex_unlock(&MessageQ_module->gate);
+}