JP2616438B2 - Packet transmitting method and layer 2 transmitting apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packet transmission method for efficiently transmitting packets between apparatuses for transmitting and receiving packets and a layer 2 transmission apparatus.

[0002]

2. Description of the Related Art As a conventional apparatus for performing packet communication, for example, an apparatus having a main processing unit 1, a protocol control unit 2, and a data relay unit 3 as shown in FIG. 2 is used. The protocol control unit 2 includes a command register 20, a status register 21, a transmission buffer 22, and a conversion unit 23.

In the transmission processing sequence in such an apparatus, the main processing unit 1 periodically monitors the transmission buffer 22 and specifies packets one by one if packets that are transmission data are stored. A transmission instruction is given to the command register 20. As a result, the command register 20
The specified packet is read from the transmission buffer 22 and supplied to the conversion unit 23. The converter 23 converts the supplied packet into a frame and transmits the frame as serial data. Then, when the transmission processing is completed, this is reported to the main processing unit 1 via the status register 21, and after receiving this report, the main processing unit 1 sends out a transmission command for transmitting the next packet. In addition, at least one flag is inserted between the packets in accordance with the protocol rules at the timing between packets, and when there is no packet to be transmitted, only the flag is repeatedly transmitted.

[0004]

However, in such a conventional device, a packet to be transmitted transmits a transmission command one by one. However, the protocol control of the device terminates the transmission process and proceeds to the next transmission process. There is a delay before moving on,
During this time, the transmission command is not supplied, so that even if there is a packet to be transmitted next, it is determined that there is no apparent packet to be transmitted. During the period when this packet is not transmitted, only the flag is repeatedly transmitted. At least one flag is required between packets, but no more flags are required. During that time, necessary information is not transmitted, so that time is wasted occupying the line, and the line is not used. There was a problem that the efficiency became poor. The present invention has been made in view of such a situation, and has been made to reduce useless transmission time and not to deteriorate line use efficiency.

[0005]

In order to solve such a problem, the invention according to the first aspect of the present invention is a method for storing data in a packet storage means.
More than one packet to be sent was specified
Sends a send command and sends multiple commands specified by the send command.
Packets are serially collected and transmitted, and multiple packets
In this case, the next transmission command is transmitted before the transmission of the packet is completed. The invention according to claim 2 is specified by a transmission command.
Read multiple packets from the packet storage
And send these multiple packets serially
A transmitting unit and a packet storing unit that stores the packet stored in the packet storing unit.
Send a transmission command that specifies multiple packets to be transmitted.
Means for sending a sending command to the sending means,
Operation to start multiple packets specified by the send command.
The time earlier than the end of transmission of the
Timer means for notifying, and the transmission command sending means sends a transmission command each time a notification is received from the timer means. According to a third aspect of the present invention, in the second aspect of the present invention, the transmission command sending means sends the designated packet
When the transmission time of these packets is shorter than the required time
The interval is set in the timer means .

[0006]

According to the first aspect of the present invention, when a plurality of packets are transmitted, the next transmission instruction is supplied near the time when the transmission of a group of packets ends. According to a second aspect of the present invention, a transmission instruction is supplied to the transmission means by designating the number of packets stored in the packet storage means, and a time point slightly earlier than the end time is notified from the timer means to the transmission instruction transmission means, The transmission command transmitting means transmits a transmission command each time the notification is received. According to a third aspect of the present invention, in the second aspect, the time set in the timer means is determined according to the number of packets transmitted.

[0007]

FIG. 1 is a block diagram showing an embodiment of a layer 2 transmitting apparatus. 1 includes a main processing unit 1, a protocol control unit 2, a data relay unit 3, and a management timer 4. The protocol control unit 2 includes a command register 20, a status register 21, a transmission buffer 22, and a conversion unit 23. That is, this embodiment includes a protocol control unit 2 for performing control for performing packet communication, and the main processing unit 1 controls the operation of the protocol control unit 2. The main processing unit 1 constitutes a transmission unit and a transmission command transmission unit.
The management timer 4 constitutes timer means.

As an element constituting the protocol control unit 2, a command register 20 receives a transmission processing command from the main control unit 1, reads a packet to be transmitted from the transmission buffer 22 in accordance with the command, and supplies the packet to the conversion unit 23. I do. When the transmission executed in accordance with the transmission command received by the command register 20 is completed, the status register 21 reports this to the main processing unit 1. The transmission buffer 22 stores a packet transmitted from the data relay unit 3 under the control of the main control unit 1. The converter 23 converts the packet into a frame, adds a flag, and transmits the packet. The management timer 4 starts operating in synchronization with a transmission command sent from the main control unit 1 to the command register 20, and the time is up shortly before transmission by the transmission command ends.

Next, the operation of this embodiment will be described. Packets necessary for transmission are stored in the data relay unit 3, and packets serving as transmission units are read out therefrom in order and stored in the transmission buffer 22. Transmission buffer 2
The packet stored in No. 2 indicates that the packet has not been transmitted by setting a predetermined bit to “1”, and the main processing unit 1 monitors this bit, and the bit is set to “1”. Are specified in order, and a transmission instruction including the information is supplied to the command register 20. Further, the main processing unit 1 sets a time slightly shorter than the time during which all of the specified packets are transmitted to the management timer 4 in synchronization with the transmission command. The time required for transmitting a packet is estimated from the number of packets.

The command register 20 decodes a given transmission command, transmits a specified packet serially,
The bit set to "1" from the end of the transmission is changed to "0" so that the end of the transmission can be identified. The management timer 4 times out when the time set by the main processing unit 1 elapses, and sends the information to the main processing unit 1. As a result, the main processing unit 1 performs an interrupt process.

By the interruption process, the main control unit 1 monitors the transmission buffer 22 again, and sends out a transmission command designating a plurality of packets which need to be transmitted following the plurality of packets transmitted previously. That is, since a predetermined bit of the packet for which transmission has been completed is "0", a transmission command is transmitted by specifying a plurality of bits having a predetermined bit "1" following the bit. Setting a time corresponding to the number of packets in the management timer 4 is the same as described above.

As described above, by transmitting a plurality of packets together instead of transmitting each time a packet is detected, a delay time associated with protocol processing occurs only when a transmission command is transmitted. And management timer 4
And the management timer 4 interrupts the main processing unit 1 at the timing when the transmission of the plurality of packets specified by the transmission command ends, so that the next processing is not performed for the first time after the transmission of the packet is completed. Since the preparation for the next transmission is made before the end of the transmission, no dead time for the next transmission is required, so that the line use efficiency is high.

The timing between a preceding packet and a packet transmitted thereafter, that is, between individual packets to be transmitted, is inserted for only one flag specified by protocol control. On the other hand, conventionally, since the transmission processing of the transmission instruction of the next packet starts after the transmission of the preceding packet is completed, a dead time larger than one flag is required between packets due to a delay in protocol control. It always existed, which reduced line utilization. However, according to the present invention, since a plurality of packets are transmitted collectively, there is no dead time between packets.

A plurality of packets are designated collectively, and when the transmission of a group of packets is completed, a transmission completion report is sent from the status register 21 to the main processing unit 1. Therefore, the main processing unit 1 can know that the transmission of the packet has been completed. This transmission end report has triggered the next transmission in the conventional method, but in the present invention, the next transmission is triggered by the management timer 4.
Since this is obtained by the interrupt processing from, this transmission end report may be used to confirm the progress of the processing.
For example, if there is no transmission end report within a predetermined time after the occurrence of the interruption by the management timer 4, it is considered that there is some abnormality, and in such a case, an alarm may be sent to a device not shown. Can be

The conversion unit 23 converts a packet into a frame, similarly to the conventional device. The packets of the data relay unit 3 are stored in the transmission buffer 22 for each packet.
Stored over the previously stored location. At this time, since the specific bit has been rewritten from “1” to “0” as described above, a new packet is sequentially stored by overwriting the portion where the specific bit has changed to “0” in order. Is done.

[0016]

As described above, the first aspect of the present invention is:
Since the transmission command is transmitted for each batch of packets transmitted serially, and the transmission command is transmitted near the end of transmission of the packet being transmitted, the batch of packets transmitted earlier is transmitted. Immediately after the end of the transmission, the subsequent packet is transmitted, which has the effect of reducing the dead time due to the delay of the protocol control. According to the second aspect of the present invention, a transmission command is supplied by designating the number of packets to be transmitted among the packets stored in the packet storage means, the operation is started in synchronization with the transmission command, and the next operation is started immediately after the transmission end. Is transmitted, immediately after the completion of the transmission of a group of previously transmitted packets, a subsequent packet is transmitted immediately, and the dead time associated with a delay in protocol control is reduced. According to a third aspect of the present invention, in the second aspect of the present invention, the time set in the timer means is determined according to the number of packets to be transmitted. This has the effect that transmission can be performed at an appropriate timing.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of one embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of an example of a conventional device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Main processing part, 2 ... Protocol control part, 3 ... Data relay part, 20 ... Command register, 21 ... Status register, 22 ... Transmission buffer, 23 ... Conversion part.

Claims (3)

(57) [Claims] In a packet transmission method for sequentially transmitting packets to be transmitted stored in a packet storage means according to a transmission command, a transmission among packets stored in the packet storage means is provided.
Sends a transmission command that specifies multiple packets to be sent, and serializes multiple packets specified by the transmission command.
And transmitting a next transmission command before the transmission of the plurality of packets is completed . 2. A layer 2 transmitting apparatus for sequentially transmitting packets stored in a packet storage means according to a transmission command, wherein a plurality of packets specified by the transmission command are transmitted to said packet.
Read out from the packet storage means and serialize the plurality of packets.
Transmitting means for transmitting the packets collectively, and transmitting the packets among the packets stored in the packet storing means.
Sending means for designating a plurality of packets to be transmitted,
Transmission command sending means for sending to the transmission command sending means, and timer means for starting operation in synchronization with the transmission command and notifying the transmission command sending means of a time point earlier than a transmission end time point of the plurality of packets specified by the transmission command. The transmission apparatus according to claim 1, wherein said transmission command transmission means transmits a transmission command each time a notification is received from said timer means. 3. The transmission command sending means according to claim 2, wherein said transmission command sending means responds to a designated number of packets.
The time shorter than the time required for transmitting these packets
A layer 2 transmission device, which is set in timer means .