A first server device obtains first device information of the first server device. The first device information may include an event or a device identifier. The first server device determines a first condition corresponding to the first device information of the first server device, and performs a first processing action corresponding to the first device information when determining that the first device information meets the first condition.

Various aspects of the subject technology relate to systems, methods, and machine-readable media for cross-platform programmable network communication. The method includes receiving, at a network toolchain, instructions for network hardware of a radio access network (RAN), the instructions comprising a domain specific language for the RAN. The method also includes determining through the network toolchain an architectural model for the network hardware, the architectural model comprising network patterns of the network hardware. The method also includes generating, by the network toolchain, translated instructions based on the instructions, the translated instructions comprising a configuration and control layer (CCL) code. The method also includes sending the CCL code to the network hardware. The method also includes executing the CCL code by the network hardware. The method also includes causing the network hardware to perform a network function based on execution of the CCL code.

Various aspects of the subject technology relate to systems, methods, and machine-readable media for cross-platform programmable network communication. The method includes receiving, at a network toolchain, instructions for network hardware of a radio access network (RAN), the instructions comprising a domain specific language for the RAN. The method also includes determining through the network toolchain an architectural model for the network hardware, the architectural model comprising network patterns of the network hardware. The method also includes generating, by the network toolchain, translated instructions based on the instructions, the translated instructions comprising a configuration and control layer (CCL) code. The method also includes sending the CCL code to the network hardware. The method also includes executing the CCL code by the network hardware. The method also includes causing the network hardware to perform a network function based on execution of the CCL code.

A method of managing traffic associated with a User Equipment, UE, by a User Plane Function, UPF, in a telecommunication network, said UPF being associated with a Session Management Function, SMF, and a Network Data Analytics Function, NWDAF, wherein said UPF has access to an observation space comprising a list of possible states said network may take and wherein said UPF has access to an action space comprising a list of possible actions that said UPF is allowed to perform, said method comprising the steps of receiving a state of said network, wherein said state is comprised by said list of possible states, receiving a reward, wherein said reward indicates a degree of satisfaction of said network to be in said state, receiving network traffic from said UE and performing, triggered by said received traffic, an action comprised by said list of possible actions based on said received state of said network and based on said received reward.

A network device intercepts, from an application associated with a user space, a request message associated with obtaining information regarding a network state from a kernel. The network device directs the request message to a service daemon of the user space based on intercepting the request message, and determines, using the service daemon, network state information regarding the network state. The network device intercepts, from the service daemon, a response message associated with providing the network state information to the application, and directs an altered response message to the application based on intercepting the response message such that the altered response message identifies the kernel as a source of the response message and not the service daemon as the source of the response message.

A method of managing traffic associated with a User Equipment, UE, by a User Plane Function, UPF, in a telecommunication network, said UPF being associated with a Session Management Function, SMF, and a Network Data Analytics Function, NWDAF, wherein said UPF has access to an observation space comprising a list of possible states said network may take and wherein said UPF has access to an action space comprising a list of possible actions that said UPF is allowed to perform, said method comprising the steps of receiving a state of said network, wherein said state is comprised by said list of possible states, receiving a reward, wherein said reward indicates a degree of satisfaction of said network to be in said state, receiving network traffic from said UE and performing, triggered by said received traffic, an action comprised by said list of possible actions based on said received state of said network and based on said received reward.

A method of managing traffic associated with a User Equipment, UE, by a User Plane Function, UPF, in a telecommunication network, said UPF being associated with a Session Management Function, SMF, and a Network Data Analytics Function, NWDAF, wherein said UPF has access to an observation space comprising a list of possible states said network may take and wherein said UPF has access to an action space comprising a list of possible actions that said UPF is allowed to perform, said method comprising the steps of receiving a state of said network, wherein said state is comprised by said list of possible states, receiving a reward, wherein said reward indicates a degree of satisfaction of said network to be in said state, receiving network traffic from said UE and performing, triggered by said received traffic, an action comprised by said list of possible actions based on said received state of said network and based on said received reward.

Various aspects of the subject technology relate to systems, methods, and machine-readable media for cross-platform programmable network communication. The method includes receiving, at a network toolchain, instructions for network hardware of a radio access network (RAN), the instructions comprising a domain specific language for the RAN. The method also includes determining through the network toolchain an architectural model for the network hardware, the architectural model comprising network patterns of the network hardware. The method also includes generating, by the network toolchain, translated instructions based on the instructions, the translated instructions comprising a configuration and control layer (CCL) code. The method also includes sending the CCL code to the network hardware. The method also includes executing the CCL code by the network hardware. The method also includes causing the network hardware to perform a network function based on execution of the CCL code.

Various aspects of the subject technology relate to systems, methods, and machine-readable media for cross-platform programmable network communication. The method includes receiving, at a network toolchain, instructions for network hardware of a radio access network (RAN), the instructions comprising a domain specific language for the RAN. The method also includes determining through the network toolchain an architectural model for the network hardware, the architectural model comprising network patterns of the network hardware. The method also includes generating, by the network toolchain, translated instructions based on the instructions, the translated instructions comprising a configuration and control layer (CCL) code. The method also includes sending the CCL code to the network hardware. The method also includes executing the CCL code by the network hardware. The method also includes causing the network hardware to perform a network function based on execution of the CCL code.

A method includes: receiving, by a network data analytics function entity, a first message that is sent by an application function entity and that includes a measurement event and an identity ID of an application; obtaining a first measurement parameter based on the measurement event; receiving, by the network data analytics function entity, a notification message that is sent by a terminal and that is used to indicate the network data analytics function entity to perform data collection on the application; sending a second message including the ID of the application and the first measurement parameter to a policy control function entity, and requesting the policy control function entity to send the second measurement parameter to the terminal.