Abstract: A system and method can provide a scalable data storage in a middleware environment. The system can include a cluster of replicated store daemon processes in a plurality of processing nodes, wherein each machine node can host a replicated store daemon process of the cluster of replicated store daemon processes. Additionally, the system can include one or more replicated stores associated with an application server the processing node. The replicated store daemon cluster can persist data from a replicated store to another node, the other node also being associated with the replicated store daemon cluster. The system and method can additionally support a messaging service in a middleware environment. The messaging service can use the replicated store to store a copy of a message in the local processing node and on another processing node associated with the same replicated store daemon cluster.

Abstract: In accordance with an embodiment, described herein is a system and method for enabling persistence of application data, using replication over a remote direct memory access (RDMA) network. In an enterprise application server or other environment having a plurality of processing nodes, a replicated store enables application data to be written using remote direct memory access to the random access memory (RAM) of a set of nodes, which avoids single points of failure. Replicated store daemons allocate and expose memory to client applications via network endpoints, at which data operations such as reads and writes can be performed, in a manner similar to a block storage device. Resilvering can be used to copy data from one node to another, if it is determined that the number of data replicas within a particular set of nodes is not sufficient to meet the persistence requirements of a particular client application.

Abstract: Techniques are described for providing one or more remote nodes with direct access to persistent random access memory (PRAM). In an embodiment, registration information is generated for a remote direct access enabled network interface controller (RNIC). The registration information associates an access key with a target region in PRAM. The access key is sent to a remote node of the one or more nodes. The RNIC may subsequently receive a remote direct memory access (RDMA) message from the remote node that includes the access key. In response to the RDMA message, the RNIC performs a direct memory access within the target region of PRAM.

Abstract: A middleware machine environment can provide message queues for multinode applications. The transactional middleware machine environment includes a message control data structure on a message receiver and a heap data structure in a shared memory that is associated with the message receiver. The message sender operates to write a message directly into the heap data structure, and to maintain metadata associated with the message in the message control data structure. Furthermore, the message control data structure can be a ring structure with a head pointer and a tail pointer. Additionally, the message receiver resides on a server that is connected with a plurality of clients, with each of said clients keeping a private copy of the message control data structure. Also, the message receiver can support concurrent access to the message control data structure associated with the message receiver.

Abstract: A middleware machine environment can manage message queues for multimode applications. The middleware machine environment includes a shared memory on a message receiver, wherein the shared memory maintains one or more message queues for the middleware machine environment. The middleware machine environment further includes a daemon process that is capable of creating at least one message queue in the shared memory, when a client requests that the at least one message queue be set up to support sending and receiving messages. Additionally, different processes on a client operate to use at least one proxy to communicate with the message server. Furthermore, the middleware machine environment can protect message queues for multimode applications using a security token created by the daemon process.

Abstract: In accordance with an embodiment, described herein is a system and method for enabling persistence of application data, using replication over a remote direct memory access (RDMA) network. In an enterprise application server or other environment having a plurality of processing nodes, a replicated store enables application data to be written using remote direct memory access to the random access memory (RAM) of a set of nodes, which avoids single points of failure. Replicated store daemons allocate and expose memory to client applications via network endpoints, at which data operations such as reads and writes can be performed, in a manner similar to a block storage device. Resilvering can be used to copy data from one node to another, if it is determined that the number of data replicas within a particular set of nodes is not sufficient to meet the persistence requirements of a particular client application.

Abstract: A system and method can provide a scalable data storage in a middleware environment. The system can include a cluster of replicated store daemon processes in a plurality of processing nodes, wherein each machine node can host a replicated store daemon process of the cluster of replicated store daemon processes. Additionally, the system can include one or more replicated stores associated with an application server the processing node. The replicated store daemon cluster can persist data from a replicated store to another node, the other node also being associated with the replicated store daemon cluster. The system and method can additionally support a messaging service in a middleware environment. The messaging service can use the replicated store to store a copy of a message in the local processing node and on another processing node associated with the same replicated store daemon cluster.

Abstract: Techniques are described for providing one or more remote nodes with direct access to persistent random access memory (PRAM). In an embodiment, registration information is generated for a remote direct access enabled network interface controller (RNIC). The registration information associates an access key with a target region in PRAM. The access key is sent to a remote node of the one or more nodes. The RNIC may subsequently receive a remote direct memory access (RDMA) message from the remote node that includes the access key. In response to the RDMA message, the RNIC performs a direct memory access within the target region of PRAM.

Abstract: A middleware machine environment can manage message queues for multimode applications. The middleware machine environment includes a shared memory on a message receiver, wherein the shared memory maintains one or more message queues for the middleware machine environment. The middleware machine environment further includes a daemon process that is capable of creating at least one message queue in the shared memory, when a client requests that the at least one message queue be set up to support sending and receiving messages. Additionally, different processes on a client operate to use at least one proxy to communicate with the message server. Furthermore, the middleware machine environment can protect message queues for multimode applications using a security token created by the daemon process.

Abstract: A middleware machine environment can provide message queues for multinode applications. The transactional middleware machine environment includes a message control data structure on a message receiver and a heap data structure in a shared memory that is associated with the message receiver. The message sender operates to write a message directly into the heap data structure, and to maintain metadata associated with the message in the message control data structure. Furthermore, the message control data structure can be a ring structure with a head pointer and a tail pointer. Additionally, the message receiver resides on a server that is connected with a plurality of clients, with each of said clients keeping a private copy of the message control data structure. Also, the message receiver can support concurrent access to the message control data structure associated with the message receiver.