FR3126081A1 - Data packet switching method, associated electronic device and vehicle - Google Patents

Abstract

Switching method comprising the following steps: Reception of a data packet, by a first switch (100) comprising a first set of output ports (110, 120, 130, 140, 150, 160) consisting of a first number of output ports,Reading of a first field of the data packet consisting of a first number of bits,Selection of a first output port (130) from the reading of the first field,Transmission of the data packet, by the first switch (100), by the first output port (130), characterized in that the first field comprises a first unique identifier of the first output port (130), and in that the selection of the first output port (130) is made from the first unique identifier. Figure for the abstract: Figure 1

Description

Data packet switching method, associated electronic device and vehicle

The invention relates to the switching of data packets in a network, for example of the Ethernet type.

A switch is a device that directs the data packets received on an input port to one of these output ports based on the content of a field of the data packet. In the case of packets in Ethernet format, the switch includes a so-called ARL (Address Resolution Logic) table which defines, for each MAC destination (address) (in accordance with the ISO/IEC 802-3 standard of 1982) of the data packet , an output port of the switch.

Such an ARL table has several drawbacks. In particular, when the ARL table is dynamic, it can be lost in the event of a restart, omitting elements from the network (if the element is paused at the time of the restart). A static ARL table, on the other hand, has the disadvantage of making adding elements to the array problematic.

To overcome this drawback, the invention relates to a method for switching a data packet, the method comprising the following steps:

• Reception of the data packet, by a first switch comprising a first set of output ports, the first set of output ports consisting of a first number of output ports, (the reception is for example carried out via 'a first input port of the first switch),
• Reading (for example by the first switch) of a first field of the data packet consisting of a first number of bits,
• Selection (eg by the first switch) of a first output port from the first set of output ports, based on the reading of the first field, the first output port being completely (or totally or entirely) determined by the first field,
• Transmission of the data packet, by the first switch, through (or through) the first output port

Characterized in that the first field comprises a first unique identifier of the first output port, and in that the selection of the first output port is carried out from the first unique identifier.

Thus the invention makes it possible to dispense with an ARL table, the output port on which the data packet must be transmitted being included in the first field as the unique identifier of this output port.

The data packet is for example a frame, for example in Ethernet format.

According to one embodiment, the first set of output ports consists of all of the output ports of the first switch. It can also consist of all the ports connected (to other network elements) of the first switch, which makes it possible to minimize the resources used by the device.

The steps of reading the first field and/or selecting the first output port are for example carried out by the first switch. For example, the first switch is a specialized electronic circuit that can statically store the first unique identifier. As a variant, these steps can be carried out by another electronic component than the first switch.

By the fact that an output port is completely (or totally or entirely) determined by the first field, it is meant that no other data in the data packet determines (or contributes to determining) the output port.

By the fact that an identifier of a port is unique, it is meant that no other identifier identifies this port, neither in the first field, nor in the data packet, nor in the memory, or more generally in the circuits of the electronic device or switch (for output port selection purposes).

According to one embodiment, the data packet complies with the Ethernet format (for example, in accordance with the ISO/IEC 802-3 standard of 1982) and the first field is included in the MAC destination according to the Ethernet format (for example, in accordance with ISO/IEC 802-3 of 1982) of the data packet. For example, the first field is included in the NIC (“Network Interface Controller”) in the Ethernet format (for example, in accordance with the ISO/IEC 802-3 of 1982 standard) of the data packet.

The first unique identifier is for example a first bit with a first determined value. The first number of bits is for example equal to the first number of ports. Each bit of the field thus serves to indicate whether an output port of the first component is the first output port. According to this embodiment, there can advantageously be several output ports for a data packet.

Alternatively, the first unique identifier is a string of bits. In this case, each combination of bits in the bit string defines a value that identifies a different first output port. This coding has the advantage of being more compact.

The method according to the invention can optionally continue in a second switch. For example, the first output port is connected to a second input port of a second switch, and the method according to the invention further comprises the following steps:

• Receipt of the data packet, by the second switch, through the second input port (in other words: via the second input port), the second switch comprising a second set of output ports, the second set of output ports consisting of a second number of output ports,
• Reading of a second field of the data packet, separate from the first field (in other words: the first field has no bit in common with the second field), consisting of a second number of bits,
• Selection (eg by the first switch) of a second output port from the second set of output ports, based on the reading of the second field, the second output port being completely (or totally entirely) determined by the second field,
• Transmission of the data packet, by the second switch, by (or via) the second output port,

The second field comprising a second unique identifier of the second output port, and the selection of the second output port being carried out from the second unique identifier.

According to one embodiment, the second set of output ports consists of all of the output ports of the second switch or of all of the ports connected (to another element of the network) of the second switch.

According to one embodiment, the second field is included in the MAC destination according to the Ethernet format (for example, in accordance with the ISO/IEC 802-3 standard of 1982) of the data packet. For example, the second field is included in the NIC (“Network Interface Controller”) in the Ethernet format (for example, in accordance with the ISO/IEC 802-3 of 1982 standard) of the data packet.

For example, the second unique identifier is a second bit and has a second determined value. The second number of bits is equal to the second number of ports. Each bit of the field thus serves to indicate whether an output port of the second component is the second output port. According to this embodiment, there can advantageously be several output ports for a data packet.

As a variant, the second unique identifier is a second string of bits presenting a second value. In this case, each combination of bit string bit values identifies a different second output port. This coding has the advantage of being more compact.

The invention also relates to an electronic device configured to implement the steps of the method according to the invention and comprising the first switch and/or the second switch.

The invention also relates to a motor vehicle comprising this electronic device.

The invention also relates to a computer program comprising instructions executable by a microcontroller or a microprocessor for implementing the method according to the invention.

It is understood that the electronic device or another element is "configured to" carry out an operation or a step, by the fact that the element comprises means for (in other words "is shaped for" or "is suitable for") carrying out the operation or step. These are preferably electronic means, for example a computer program, data in memory and/or specialized electronic circuits.

The electronic device and/or the first and/or second switches are configured to carry out the steps of the method according to the invention and may comprise a microprocessor or a microcontroller which can store a computer program comprising instructions executable by the microprocessor or the microcontroller and/or may include specialized circuits for implementing the method according to the invention.

Other characteristics and advantages of the present invention will appear more clearly on reading the following detailed description comprising embodiments of the invention given by way of non-limiting examples and illustrated by the appended drawings, in which:

is of an electronic device according to one embodiment of the invention.

represents a data packet according to an embodiment of the invention.

represents the method of the invention, according to an exemplary embodiment, for the electronic device of the .

Detailed description of an embodiment of the invention

Referring to Figures 1, the electronic device 1000 includes a first switch 100 and a second switch 200. The first switch includes a first set of output ports 110, 120, 130, 140, 150 and 160 and a first input port 105. Ports 110, 120, 130, 140 are connected to network elements. Ports 150 and 160 are not connected to any network element. A first output port 130 is connected to the second input port 205 of the second switch 200. The second switch includes a second set of output ports 210, 220, 230 and 240. The output ports 210, 220 and 230 are connected to network elements. Output port 240 is not connected to any network element.

The device 1000 is for example included in a motor vehicle (not shown).

The electronic device 1000, in particular the switch 100 and/or the switch 200, can be configured to implement the steps of the method of the . and may comprise a microprocessor or a microcontroller which may memorize a computer program comprising instructions executable by the microprocessor or the microcontroller and/or may comprise specialized circuits for the implementation of the method of the .

With reference to the and at the , according to one embodiment, the method comprises the following steps:

• At step S10, reception via a first input port 105 of the first switch 100 of the data packet 400, by a first switch 100 comprising a first set of output ports 110, 120, 130, 140 , 150, 160, the first set of output ports 110, 120, 130, 140, 150, 160 being made up of a first number of output ports, here 6.
• At step S20, reading for example by the first switch 100 of a first field 440 of the data packet 400 consisting of a first number of bits – 6 in this example,
• At step S30, selection for example by the first switch 100 of a first output port 130, from the reading, at step S20 of the first field 440, the first output port 130 being completely determined by the first field 440, the first field 440 comprising a first unique identifier of the first output port 130, and the selection of the first output port 130 being made from the first unique identifier,
• In step S40, transmission of the data packet, by the first switch 100, by the first output port 130.

The data packet 400 is for example a frame, for example in Ethernet format. The data packet 400 conforms to the Ethernet format (for example, in accordance with the ISO/IEC 802-3 standard of 1982) and the first field 440 is included in the MAC destination 420 according to the Ethernet format (for example, in accordance with the standard ISO/IEC 802-3 of 1982). For example, the first field is included in the NIC ("Network Interface Controller") 430 in the Ethernet format (for example, in accordance with the ISO/IEC 802-3 of 1982 standard).

The first set of output ports of the first switch can be constituted by all of the output ports 110, 120, 130, 140, 150, 160 of the first switch 100. Alternatively, the first set of output ports of the first switch 100 consists of all the ports 110, 120, 130, 140 of the first switch 100 connected to other elements of the network.

The steps of reading S20 of the first field 440 and/or of selecting S30 of the first output port 130, are for example carried out by the first switch 100. For example, the first switch 100 is a specialized electronic circuit which can memorize statically the first unique identifier. As a variant, these steps can be carried out by another electronic component than the first switch 100.

The first unique identifier is for example a first bit has a first determined value, for example at the value 1, in the first field 440. The first field 440 comprises for example a number of bits equal to the first number of ports, each bit of the field 440 serving to indicate whether an output port 110, 120, 130, 140, 150 or 160 of the first component 100 is the first output port. According to this embodiment, there can be several output ports for a data packet.

Alternatively, the first unique identifier is a bit string identifying the first output port 130. In this case, each combination of the bits in the bit string defines a value which identifies a first output port. This coding has the advantage of being more compact.

Furthermore, the process of includes the following steps:

• In step S50, reception of the data packet 400, originating from the first output port 130, by the second switch 200, by the second input port 205, the second switch 200 comprising a second set of output ports 210 , 220, 230, 240, the second set of output ports 210, 220, 230, 240 being made up of a second number of output ports, namely 4,
• At step S60, reading, by the second switch 200, of a second field 450 of the data packet 400, separate from the first field 440 (in other words: the first has no bit in common with the second field), consisting a second number of bits,
• At step S70, selection, by the second switch 200, of a second output port 210 from the reading (at step S60) of the second field 450, the second output port 210 being completely (or completely completely ) determined by the second field 450, the second field 450 comprising a second unique identifier of the second output port, and the selection of the second output port 210 being made from the second unique identifier,
• At step S80, data packet 400 is transmitted by second switch 200 through (or through) second output port 210.

The second set of output ports may consist of all of the output ports of the second switch 200 or, alternatively, of all of the connected ports 210, 220, 230, (to other network elements) of the second switch 200.

According to one embodiment, the second field 450 is included in the MAC destination 420 according to the Ethernet format (for example, according to the ISO/IEC 802-3 standard of 1982). For example, the second field 450 is included in the NIC 430 ("Network Interface Controller") according to the Ethernet format (for example, according to the ISO/IEC 802-3 standard of 1982).

For example, the second unique identifier is a second bit and has a second determined value, for example at the value 1, in the first field 440.

According to one embodiment, the second number of bits is equal to the second number of ports.

Each bit of the second field 404 thus serves to indicate whether an output port of the second component is the second output port. According to this embodiment, there can advantageously be several output ports for a data packet.

As a variant, the second unique identifier is a second string of bits presenting a second value.

In this case, each combination of bits in the bit string defines a value that identifies a second output port. This coding has the advantage of being more compact.

Claims (10)

A method of switching a data packet (400), the method comprising the following steps:

• Reception (S10) of the data packet (400), by a first switch (100) comprising a first set of output ports (110, 120, 130, 140, 150, 160), the first set of output ports (110 , 120, 130, 140, 150, 160) consisting of a first number of output ports
• Reading (S20) of a first field (440) of the data packet (400) consisting of a first number of bits,
• Selection (S30) of a first output port (130) in the first set of output ports (110, 120, 130, 140, 150, 160), from the reading (S20) of the first field (440) , the first output port (130) being completely determined by the first field (440),
• Transmission (S40) of the data packet (400), by the first switch (100), by the first output port (130),

Characterized in that the first field (440) comprises a first unique identifier of the first output port (130), and in that the selection (S30) of the first output port (130) is made from the first unique identifier. Switching method according to Claim 1, in which the first unique identifier is a first bit with a first determined value. Switching method according to the preceding claim, in which the first number of bits is equal to the first number of ports. A switching method according to claim 1 wherein the first unique identifier is a string of bits. Switching method according to any of the preceding claims, in which the first output port (130) is connected to a second input port (205) of a second switch (200), and further comprising the following steps:

• Receipt (S50) of the data packet (400), by the second switch (200), through the second input port (205), the second switch (200) comprising a second set of output ports (210, 220, 230, 240), the second set of output ports (210, 220, 230, 240) consisting of a second number of output ports,
• Reading (S60) of a second field (450) of the data packet (400), separate from the first field (450), consisting of a second number of bits,
• Selection (S70) of a second output port 210 from the second set of output ports (210, 220, 230, 240), based on the reading (S60) of the second field, the second output port being completely determined by the second field,
• Transmission (S80) of the data packet (400), by the second switch (200), by the second output port (210),

The second field (450) comprising a second unique identifier (440) of the second output port, and the selection of the second output port (210) being made from the second unique identifier. Switching method according to Claim 5, in which the second unique identifier is a second bit and has a second determined value. Switching method according to Claim 5, in which the second unique identifier is a second string of bits having a second value. An electronic device (1000) configured to implement the steps of the method according to any one of claims 1 to 4, and comprising the first switch (100). Electronic device (1000) according to the preceding claim, configured to implement, in addition, the steps of the method according to any one of claims 5 to 7, and comprising the second switch (200). Motor vehicle comprising the electronic device (1000) according to claim 8 or 9.