Functional node for an information transmission network and corresponding network

The invention claimed is: 1. A functional node for an information transmission network, comprising: at least one distribution module, executed by a computer in the functional node, configured to distribute messages between input and output ports, wherein the distribution module comprises at least one association of at least three ports, including a first input port connected to a second output port by a first unconditional propagation link for unconditionally propagating messages, not depending on the messages, wherein the first and/or second ports are connected to a third port by a second conditional propagation link for conditionally propagating messages, depending on the messages, wherein the first unconditional propagation link and the second conditional propagation link are distinct from one another and form two different ways for message distribution between the corresponding ports of the functional node, wherein the first unconditional propagation link and the second conditional propagation link are configured to be operated simultaneously, and wherein the distribution module is configured to implement, for at least some of the ports, the functions: managing repeated transmissions and receptions of a same message, managing redundancy of the messages transmitted and/or received by the functional node, and observing usage levels of the internal resources of the functional node. 2. The functional node of claim 1 , wherein the third port is an output port connected to the first input port. 3. The functional node of claim 1 , wherein the third port is an input port connected to the second output port. 4. The functional node of claim 1 , wherein the distribution module further comprises an analyzing capability for analyzing at least some of the messages to control the second conditional propagation link accordingly. 5. The functional node of claim 4 , wherein the analyzed message portion is an identification field of that message. 6. The functional node of claim 1 , wherein the at least three ports of the association are programmable among the ports of the module. 7. The functional node of claim 6 , wherein the at least three ports of the association and/or the association of the at least three ports are programmable on a message-by-message basis. 8. The functional node of claim 1 , wherein the association of the at least three ports is programmable. 9. The functional node of claim 8 , further comprising several associations of at least three ports programmable independently of one another. 10. The functional node of claim 1 , wherein the distribution module is connected to at least one network interface module, internal or external to the functional node, through one or more local message input and/or output ports, allowing those modules to exchange messages. 11. The functional node of claim 10 , wherein at least one association of ports comprises at least one local port. 12. The functional node of claim 11 , wherein the network interface module is connected to at least one application module, internal or external to the functional node. 13. The functional node of claim 10 , wherein the distribution module is also connected to the network interface module by an information exchange capability authorizing message insertion by the functional node. 14. The functional node of claim 13 , wherein the insertion authorization information is delivered port by port. 15. The functional node of claim 10 , wherein the distribution module is configured to implement at least one multiplexing law of the messages resulting from the network interface module intended for the output ports of the functional node, not depending on the messages. 16. The functional node of claim 1 , wherein the distribution module comprises remote input and output ports configured to exchange messages with the outside environment of the functional node. 17. The functional node of claim 1 , wherein the distribution module is configured to implement, for at least some of the ports, the functions or parts of functions chosen from at least one of the following functions: classifying messages propagating in the functional node, checking input and/or output integrity on the ports, checking throughput on the ports, checking aging of the messages within the components, checking message sizes on the ports, and allocating authorizations for message insertions by the functional node. 18. The functional node of claim 17 , wherein the allocation of the message insertion authorizations by the functional node is done on a message-by-message basis. 19. The functional node of claim 1 , wherein the distribution module comprises a recognition capability for recognizing messages on at least a subset of the distribution module's ports to inhibit the propagation of unrecognized messages. 20. The functional node of claim 19 , wherein the subset of the distribution module's ports are ports other than the first and second ports. 21. An information transmission network, comprising at least one functional node of claim 1 . 22. The information transmission network of claim 21 , wherein the network is unidirectional. 23. The information transmission network of claim 21 , wherein the network is bidirectional. 24. The information transmission network of claim 21 , comprising several functional nodes connected to one another in at least one loop for unconditionally propagating messages. 25. The information transmission network of claim 24 , comprising several loops. 26. The information transmission network of claim 25 , wherein at least two loops are interconnected.