sidecar container will include: 1. A logging agent to push logs to a platform centralized logging service. 2. Container policy enforcement. This includes ensuring container hardening from DCAR containers notifications when there is anomalous behavior. 4. Vulnerability Management 5. A service mesh proxy to connect to the service mesh 6. Zero Trust down to the container level. Zero trust requires strict controls Program-specific Log Storage and Retrieval Service 2. Service Mesh 3. Program-specific artifact repository 4. Runtime Behavior Analysis Artificial Intelligence (AI) service 5. DCAR for the hardened containers

#poland on gophers.slack.com. https://invite.slack.golangbridge.orgAgenda 1. You need Event Mesh, no Service Mesh – Chris Suszyński (Redhat) 2. Your announcements || Engineer lost & found | Grab coffee/beer

#poland on gophers.slack.com. https://invite.slack.golangbridge.orgAgenda 1. You need Event Mesh, no Service Mesh – Chris Suszyński (Redhat) 2. Your announcements || Engineer lost & found | Grab coffee/beer

to network it I need… • a Service Mesh, but to secure it I need… • an automated Certificate Authority, and for more security I need… • a Container scanning and monitoring service, and to monitor it more • a Log Aggregation and Search service, but to install it I need… • root access on a bunch of servers, but I need more servers so I need… • an Infrastructure as a Service platform, but for high availability

• Each worker connects to all workers whose id is less than the worker's own id. • In this way a mesh network is established, wherein every worker is directly connected with every other worker. While workers it is connected to. For example, consider a Julia cluster of 32 processes in an all-to-all mesh network: • Each Julia process thus has 31 communication tasks. • Each task handles all incoming getnameinfo(host::IPAddr) -> String Performs a reverse-lookup for IP address to return a hostname and service using the operating system's underlying getnameinfo implementation. Examples julia> getnameinfo(IPv4("8

• Each worker connects to all workers whose id is less than the worker's own id. • In this way a mesh network is established, wherein every worker is directly connected with every other worker. While workers it is connected to. For example, consider a Julia cluster of 32 processes in an all-to-all mesh network: • Each Julia process thus has 31 communication tasks. • Each task handles all incoming getnameinfo(host::IPAddr) -> String Performs a reverse-lookup for IP address to return a hostname and service using the operating system's underlying getnameinfo implementation. Examples julia> getnameinfo(IPv4("8

• Each worker connects to all workers whose id is less than the worker's own id. • In this way a mesh network is established, wherein every worker is directly connected with every other worker. While workers it is connected to. For example, consider a Julia cluster of 32 processes in an all-to-all mesh network: • Each Julia process thus has 31 communication tasks. • Each task handles all incoming getnameinfo(host::IPAddr) -> String Performs a reverse-lookup for IP address to return a hostname and service using the operating system's underlying getnameinfo implementation. Examples julia> getnameinfo(IPv4("8

• Each worker connects to all workers whose id is less than the worker's own id. • In this way a mesh network is established, wherein every worker is directly connected with every other worker. While workers it is connected to. For example, consider a Julia cluster of 32 processes in an all-to-all mesh network: • Each Julia process thus has 31 communication tasks. • Each task handles all incoming getnameinfo(host::IPAddr) -> String Performs a reverse-lookup for IP address to return a hostname and service using the operating system's underlying getnameinfo implementation. Examples julia> getnameinfo(IPv4("8

• Each worker connects to all workers whose id is less than the worker's own id. • In this way a mesh network is established, wherein every worker is directly connected with every other worker. While workers it is connected to. For example, consider a Julia cluster of 32 processes in an all-to-all mesh network: • Each Julia process thus has 31 communication tasks. • Each task handles all incoming getnameinfo(host::IPAddr) -> String Performs a reverse-lookup for IP address to return a hostname and service using the operating system's underlying getnameinfo implementation. Examples julia> getnameinfo(IPv4("8

• Each worker connects to all workers whose id is less than the worker's own id. • In this way a mesh network is established, wherein every worker is directly connected with every other worker. While workers it is connected to. For example, consider a Julia cluster of 32 processes in an all-to-all mesh network: • Each Julia process thus has 31 communication tasks. • Each task handles all incoming getnameinfo(host::IPAddr) -> String Performs a reverse-lookup for IP address to return a hostname and service using the operating system's underlying getnameinfo implementation. Examples julia> getnameinfo(IPv4("8