KR20040074680A - Frame traffic allocation method in link aggregation ethernet providing for traffic balancing through several links among applications - Google Patents

Abstract

PURPOSE: A method for distributing an amount of frame transmission of a link-integrated Ethernet for transmitting frames in balance to multiple links among applications is provided to enhance link-usage efficiency and an overall operating speed. CONSTITUTION: A MAC(Media Access Control) layer of an Ethernet link unit receives MAC frames(S110) and determines the structure of the MAC frames(S120). The Ethernet link unit initializes a certain link designation turn(L), a certain pointer value(P), a certain transmission turn(SQTNL), and a received frame turn(N) to '1'(S140) and distributes the first received MAC frame(F1) to the first link(S150). The frame sequence(N) is increased by 1 whenever a new MAC frame is received(S160). If a length of the currently received MAC frame(FN) is smaller than a length of the previously received MAC frame(FN-1)(S180) or the currently received MAC frame indicates a type(S170), the point value(P) is increased one by one and the certain transmission turn(SQTNLA) is determined as an initial designation value(S190) and is distributed to the links(S210).

Description

Frame traffic allocation method in link aggregation ethernet providing for traffic balancing through several links among applications

The present invention relates to Ethernet as defined in IEEE802.3, and more particularly to a method for distributing frame throughput of link aggregation Ethernet.

Ethernet, defined in IEEE802.3, connects local area networks (LANs), the Internet, or intranets in private or public networks, enabling efficient data transmission between devices such as computers and mobile terminals.

In this case, the transmitted data has a MAC frame structure in a media access control (MAC) layer, and a link aggregation method is used as a technique for transmitting the MAC frame. The MAC frame includes a preamble, a destination address (hereinafter abbreviated as "DA"), a source address (hereinafter abbreviated as "SA"), a length / type, It consists of a number of fields, such as data. In this case, the link aggregation scheme for transmitting the MAC frame can increase the execution speed and bandwidth by establishing multiple links between two devices and simultaneously transmitting data for all the links. to be.

In general link aggregation ethernet defined in IEEE802.3, the concept of conversation is introduced to perform traffic allocation on multiple links for incoming MAC frames. Send frames on the same link. That is, the conversation is divided by MAC DA / SA, network DA / SA, and TCP ports, depending on the application. Frames defined by the same conversation must be transmitted through the same link. I think that the disordering problem is solved. Since the MAC layer does not perform overlapping of frames, compensation of loss, or rearrangement of order, in order to prevent duplication of frames or disordering in data transmission, as described above. By defining the concept of conversation, MAC frames need to be sent.

However, if there is a link aggregation application that determines a conversation by MAC DA / SA in the MAC layer, if the MAC frame has the same DA / SA, it is defined as the same conversation. At this time, in the data transmission between the same two applications, since all MAC frames have the same MAC DA / SA, all MAC frames are treated as the same conversation (conversation), all frames are transmitted only on one of the links. Therefore, since only one link is overloaded, and other links not in use are in a dormant state, there is a problem that the overall operation speed is lowered and all the links are not used efficiently.

To prevent this, the conversation may be distinguished by an IP (internet protocol) address (network DA / SA) or a TCP port number in the upper layer. That is, the criteria for defining a conversation vary depending on the type of application. However, in this case, there is a problem in that unnecessary time is required to interpret the MAC frame, or the cost of adding complicated hardware increases.

Accordingly, a technical problem of the present invention is to define a conversation by using only a length / type field of a MAC frame in the MAC layer, so that a plurality of applications in data transmission between the same two applications or a plurality of applications are defined. The present invention provides a method for distributing frame throughput of link aggregation Ethernet, which transmits frames in a balanced manner.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.

1 is a flowchart illustrating a frame throughput distribution operation of a link aggregation Ethernet according to an embodiment of the present invention.

2 is a diagram illustrating a frame transmission amount distribution method when only the length of a frame is different.

3 is a diagram illustrating a frame transmission amount distribution method when the length or type (length / type) of a frame is different.

In accordance with an aspect of the present invention, there is provided a method for distributing frame throughput of link aggregation Ethernet, which receives data received from a plurality of devices and distributes the data to a plurality of links having a predetermined number, and transmits the data to a plurality of counterpart devices. In a method for distributing transmission amount of MAC frames by an Ethernet link device, the method includes the following steps.

That is, in the frame transmission distribution of the link aggregation Ethernet according to the present invention, first, the Ethernet link apparatus receives the MAC frames at the MAC layer, determines the structure of the MAC frames, and belongs to different conversations. Each of the MAC frames is distributed over the different links. If the conversation of the MAC frames is the same, the Ethernet link device according to the length or type (length / type) of the MAC frames, a predetermined link designation sequence (L), and a predetermined pointer value for each of the MAC frames (P) and a predetermined transmission sequence number (SQTNL) are determined, and the MAC frames are distributed to each of the links corresponding to the predetermined link designation sequence (L) in the order of the pointer value and the predetermined transmission sequence number (SQTNL). do.

Wherein the distribution to each of the links comprises: distributing, by the Ethernet link device, the MAC frame initially received to any one of the links indicating an initial link; For the MAC frame received by the Ethernet link device a second time later, when the length of the currently received MAC frame is less than the length of the previously received MAC frame, or the currently received MAC frame If a frame indicates a type, the predetermined pointer value P is increased by one, and the predetermined transmission sequence number SQTNL is determined as an initial designated value and distributed to the links; And for the MAC frame received by the Ethernet link device after the second time, when the length of the currently received MAC frame is greater than the length of the previously received MAC frame, designating the predetermined link. Determining a distribution number (L) and the predetermined transmission sequence number (SQTNL) as one incremented from a previous value and distributing them to the links.

The pointer value may be determined to be duplicated with the same value as the MAC frames, and the MAC frames having the same pointer value are transmitted to the counterpart device in the order of the predetermined transmission sequence (SQTNL).

The predetermined link designation sequence (L) is characterized in that it is assigned to the initial link again after all of the plurality of links are designated once and become the final designated value (TNL).

After the predetermined transmission sequence number (SQTNL) becomes a final designated value (TNL) of the sequence representing the plurality of links, the predetermined transmission sequence number (SQTNL) is again assigned to the initial designated value, and the predetermined pointer value ( P) is increased by one.

The length of the MAC frames is characterized by being information represented by two bytes placed behind the destination address field and the source address field (DA / SA).

When the length of the MAC frames is greater than 0x600, the Ethernet link device determines that the type of the MAC frames is a type.

The type of the MAC frames is characterized in that the information represented by two bytes placed behind the destination address field and the source address field (DA / SA).

The predetermined link designation sequence (L) is characterized in that any one of the serial number when listing the serial number in each of the plurality of links.

The predetermined transmission sequence number (SQTNL) may be any one of serial numbers when listing serial numbers on each of the plurality of links.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is a flowchart illustrating a frame throughput distribution operation of a link aggregation Ethernet according to an embodiment of the present invention.

Referring to FIG. 1, the method for distributing frame throughput of link aggregate Ethernet according to an embodiment of the present invention receives data received from a plurality of devices and distributes the data to a plurality of links having a predetermined number of counterpart devices. In the method for distributing the transmission amount of MAC frames by the Ethernet link device for transmitting to the network, the following steps are included. Here, the link device is a device that performs link aggregation of Ethernet defined in IEEE802.3.

That is, in the frame transmission distribution of the link aggregation Ethernet according to the present invention, first, the Ethernet link device receives the MAC frames at the MAC layer (S110), determines the structure of the MAC frames (S120), and different conversations. Each of the MAC frames belonging to the (conversation) is distributed to the different links (S130). Here, the conversation means that the MAC frame is defined as the same conversation if the MAC frames have the same DA / SA. That is, when data received from the same device is transmitted to the same counterpart device, since the DA / SA of the MAC frame is the same, it is the same conversation at this time.

On the other hand, if the conversation of the MAC frames is the same, the Ethernet link device according to the length or type (length / type) of the MAC frame, a predetermined link designation sequence (L) to each of the MAC frames, and a predetermined A pointer value P and a predetermined transmission sequence number SQTNL are determined to determine the MAC frames in the order of the pointer value and the predetermined transmission sequence number SQTNL, respectively, and the links corresponding to the predetermined link designation sequence L, respectively. Distribute to (S140 ~ S290).

That is, the distribution to each of the links is, first, the Ethernet link device, L indicating a predetermined link designation sequence (L), a predetermined pointer value (P), a predetermined transmission sequence (SQTNL), and received frame sequence, respectively. , P, SQTNL, and N are initialized to " 1 " (S140), and the first received MAC frame F1 is distributed to an initial link of the links, that is, a first link. N representing the frame order is incremented by one each time a new MAC frame is received (S160).

Here, the predetermined link designating sequence number L does not need to be initially initialized to "1", and when the serial number is listed on each of the plurality of links, the predetermined link designating sequence number L may be designated as an initial value by any one of the serial numbers. Each time a frame is received, it is incremented by one to have the value of either serial number of each of the plurality of links. Also, the predetermined transmission sequence number SQTNL does not need to be initially initialized to "1", and may be designated to be an initial value as one of the serial numbers when listing serial numbers on each of the plurality of links. Each time a frame is received, it is incremented by one to have the value of any one of the serial numbers of each of the plurality of links.

Next, for the MAC frame received by the Ethernet link device a second time later (N> 1), the length of the currently received MAC frame FN is the previously received MAC frame FN−. When the length is smaller than 1) (S180) or when the currently received MAC frame FN indicates a type (S170), the predetermined pointer value P is increased by one, and the predetermined transmission sequence number is increased. SQTNL is determined as an initial designated value (S190, or S220) and distributed to the links (S210).

Herein, the length of the MAC frames is information represented by two bytes placed behind a destination address field and a source address field (DA / SA), and when larger than 0x600, a type of the MAC frames indicates a type (S170). .

Next, when the length of the currently received MAC frame is greater than the length of the previously received MAC frame, for the MAC frame received second or later (S180). The predetermined link designation order (L) and the predetermined transmission order (SQTNL) are determined to be one incremented from the previous value (S250 and S280) and distributed to the links (S230 to S280). The predetermined link designation sequence (L) is assigned to the initial link again after all of the plurality of links are designated once and become the final designated value (TNL) (S230 to S240). Further, the predetermined transmission sequence number SQTNL is also assigned to the initial designated value again after becoming the final designated value TNL among the sequences representing the plurality of links, and the predetermined pointer value P is increased by one. (S260-S270).

The MAC frames distributed on the links are sequentially sent to the counterpart device. That is, among the several MAC frames delivered to the transmitter queue included in the link device, the P value is transmitted first. In this case, if the MAC frames having the P value duplicated with the same value exist in the plurality of links, the smallest transmission is performed first in the order of the predetermined transmission sequence (SQTNL). Having a large P value cannot be transmitted until a frame having a small P value is transmitted. Thus, even if a pause frame is distributed on a link, packets of other links cannot be transmitted while the link is being delayed due to the frame number.

In addition, when one link fails and cannot be used, since frames to be sent on the link all have unique P and SQTNL sequences, they may be arranged and transmitted in order even if they are moved to other links.

For example, the frame transmission rate distribution operation of the link aggregation Ethernet according to an embodiment of the present invention will be described in more detail.

2 is a diagram illustrating a frame transmission amount distribution method when only the length of a frame is different.

Referring to FIG. 2, when the lengths of the ten MAC frames F1 to F10 are equal to "F1> F2 <F3> F4 <F5 <F6> F7> F8 <F9> F10", FIG. F1 is thus distributed on the first link as P = 1 and SQTNL = 1, F2 is distributed on the first link as P = 2 and SQTNL = 1, and P and SQTNL sequences are designated for each of F3 to F10 as well. .

In this case, in link distribution of each of the ten MAC frames F1 to F10 of FIG. 2, F1, F2, F9, and F10 are assigned to the first link, and F3 and F4 are assigned to the second link. When F5 is designated on the third link and F6, F7, and F8 are designated on the fourth link, and are transmitted to the counterpart device in the order of F1 to F10, they are balanced and distributed to multiple links.

3 is a diagram illustrating a frame transmission amount distribution method when the length or type (length / type) of a frame is different.

Referring to FIG. 3, the lengths or lengths of the ten MAC frames F1 to F10 are “F1, F2 = ARP, F3 = IP, F4 <F5 <F6, F7 = IPX, F8 <F9 > F10 ", F1 is distributed to the first link as P = 1 and SQTNL = 1, F2 is distributed to the first link as P = 2 and SQTNL = 1, and similarly F3 to F10 respectively. P and SQTNL sequences are also specified for. Here, each of the Address Resolution Protocol (ARP), Internet Protocol (IP), and Internetwork Packet Exchange (IPX) is type information of a MAC frame indicating an address derivation protocol, an Internet protocol, and a packet exchange between networks. It is represented by two bytes placed after the destination address field and the source address field (DA / SA), and has a frame length greater than 0x600.

In this case, in link distribution of each of the ten MAC frames F1 to F10 of FIG. 3, F1, F2, F3, and F4 are designated on the first link, and F5 is designated on the second link. When F6, F7, and F8 are designated on the third link, and F9 and F10 are designated on the fourth link, and are transmitted to the counterpart device in the order of F1 to F10, they are balanced and transmitted on a plurality of links.

As described above, the method for distributing frame throughput of link aggregation Ethernet according to the present invention is an Ethernet link that receives data received from a plurality of devices and distributes the data to a plurality of predetermined links and transmits the data to a plurality of counterpart devices. A method for distributing transmission amounts of MAC frames by a device, the Ethernet link device first receiving the MAC frames at a MAC layer, determining the structure of the MAC frames, and allowing the MAC to belong to different conversations. Each of the frames is distributed over the different links.

The Ethernet link device, according to the length or type (length / type) of the MAC frames, if the conversation of the MAC frames are the same, a predetermined link designation sequence (L) to each of the MAC frames, and a predetermined pointer A value P and a predetermined transmission sequence number SQTNL are determined, and the MAC frames are assigned to each of the links corresponding to the predetermined link designation sequence L in the order of the pointer value and the predetermined transmission sequence number SQTNL. To distribute.

As described above, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the frame transmission amount distribution method of the link aggregation Ethernet according to the present invention enables data transmission to be performed by a newly defined conversation using only the length / type field of the MAC frame in the MAC layer. In the data transmission between two identical applications or multiple applications, a frame can be transmitted in a balanced manner among multiple links. Therefore, it is possible to increase the efficiency of link use without adding complicated hardware, and to improve the overall operation speed.

Claims (10)

Claims [1] A method for distributing transmission amounts of MAC frames by an Ethernet link apparatus that receives data received from a plurality of devices and distributes the data to a plurality of links having a predetermined number, and transmits the data to a plurality of counterpart devices. Receiving, by the Ethernet link device, the MAC frames at a MAC layer; Determining, by the Ethernet link device, the structure of the MAC frames and distributing each of the MAC frames belonging to different conversations to the different links; And By the Ethernet link device, if the conversations of the MAC frames are the same, a predetermined link designation sequence, a predetermined pointer value, and a predetermined transmission sequence are determined for each of the MAC frames according to the length or form of the MAC frames. And distributing the MAC frames to each of the links corresponding to the predetermined link designation sequence in the order of a pointer value and the predetermined transmission sequence. The method of claim 1 wherein the distribution to each of the links, Distributing, by the Ethernet link device, the MAC frame initially received to any one of the links indicating an initial link; For the MAC frame received by the Ethernet link device a second time later, when the length of the currently received MAC frame is less than the length of the previously received MAC frame, or if the currently received MAC frame is in shape, Incrementing the predetermined pointer value by one, and determining the predetermined transmission sequence number as an initial designated value and distributing the links to the links; And When the length of the currently received MAC frame is greater than the length of the previously received MAC frame, for the MAC frame received by the Ethernet link device after the second time, the predetermined link designation sequence and the predetermined transmission sequence are performed. And distributing the links to the links by determining a value increased by one from a previous value. The method of claim 1 or 2, wherein the pointer value is The MAC frames may be duplicated with the same value, and the MAC frames having the same pointer value are transmitted to the counterpart device in the order of the predetermined transmission sequence. The method of claim 1 or 2, wherein the predetermined link designation sequence is And all of the plurality of links are assigned to the initial link after all of the plurality of links are designated once and set to a final designated value. The method according to claim 1 or 2, wherein the predetermined transmission sequence number is After the final designation value among the sequence numbers representing the plurality of links, the predetermined transmission sequence number is again assigned to the initial designation value, and the predetermined pointer value is increased by one. . The method of claim 1 or 2, wherein the length of the MAC frames, A frame transmission amount distribution method of link aggregation Ethernet, characterized in that the information is displayed in two bytes after the destination address field and the source address field. The method of claim 1 or 2, wherein the length of the MAC frames, If greater than 0x600, the Ethernet link device determines that the MAC frames are in the form of MAC frames. The method of claim 1 or 2, wherein the MAC frames are in the form of: A frame transmission amount distribution method of link aggregation Ethernet, characterized in that the information is displayed in two bytes after the destination address field and the source address field. The method according to claim 1 to claim 2, wherein the predetermined link designation sequence, And when serial numbers are listed on each of the plurality of links, any one of the serial numbers. The method according to claim 1, wherein the predetermined transmission sequence, And when serial numbers are listed on each of the plurality of links, any one of the serial numbers.