JP2681273B2 - Retransmission display setting control device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Outline] A retransmission indication bit FIB for indicating whether or not a transmission information frame is a retransmission information frame is set in a register, and the contents of the register are set as a retransmission indication bit FIB in the transmission information frame. Since it is inserted, it is possible to simplify the resend processing program. [Field of Industrial Application] The present invention relates to a common line signal system (CCITT No. 7 signal system).
The present invention relates to a retransmission display setting control device when an information frame is retransmitted. The common line signal system is a system in which a selection signal, a supervisory signal, and the like are transmitted as an information frame through a common signal line. In the case of a transmission error or the like, retransmission processing is performed. It is desired to simplify this retransmission process. [Prior Art] A transmission / reception control unit that transmits and receives information frames by a common line signaling system has, for example, the configuration shown in FIG. In the figure, 21 is a processor, 22 is a DMA (direct memory access) controller, 23 is a transmission / reception controller, 24 is a memory, 25 is a common bus, 26 and 27 are registers, 28
Reference numerals -1 to 28-j are areas for storing the command descriptors DP1 to DPj, and 29-1 to 29-j are areas for storing the information frames I1 to Ij. The information frame transmitted / received by the transmission / reception control device 23 is activated by the processor 21 and controlled by the DMA control device 22.
Is transferred between the memory 24 and the transmission / reception control device 23. The information frame has a format shown in FIG. 5, and includes a flag F, a reception confirmation number BSN, a retransmission request indication bit BIB, a transmission number FSN, a retransmission indication bit FIB,
It is composed of a signal length display portion LI, signal information SIF, an error check code CRC, and a flag F. The reception confirmation number BSN is obtained by adding +1 to the transmission number FSN in the reception information frame that was successfully received, and the retransmission request indication bit BIB and the retransmission indication bit FIB are, for example,
Initially set to "1", the retransmission request indication bit BIB is inverted to "0" when a retransmission request is made, and the retransmission indication bit FIB is inverted to "0" when showing a retransmission information frame. The transmission number FSN indicates the transmission order of information frames. When the processor 21 continuously controls transmission of a plurality of information frames I1 to Ij, the transmission number FSN indicating the transmission order and the transmission number FS in the latest information frame normally received at the present time.
Information frame with N + +1 reception confirmation number BSN
I1 to Ij are respectively assigned to areas 29-1 of start addresses a11 to a1j
Command descriptors DP1 to DPj that store the information frames I1 to Ij and specify the transmission operations of the information frames I1 to Ij,
It is set in the areas 28-1 to 28-j of the start addresses a01 to a0j. The command descriptors DP1 to DPj include start addresses a11 to a1j of areas 29-1 to 29-j storing corresponding information frames I1 to Ij and data lengths B1 to Bj of the information frames I1 to Ij.
Bj and the start address a01 to a0j of the area where the command descriptor of the information frame to be transmitted subsequently is stored
Information including and is stored, and the transmission information frames I1 to Ij are chained. The information frames I1 to Ij as described above are stored in the memory 24 as areas.
29-1 to 29-j are stored in the command descriptor DP
After 1 to DPj are stored in the areas 28-1 to 28-j, the processor 21 sends the command descriptor DP corresponding to the information frame I1 to be transmitted first to the register 26 of the DMA controller 22.
The start address a01 of 1 is set, and the DMA controller 22 is activated. Thereby, the DMA controller 22 reads and analyzes the command descriptor DP1 in the area 28-1 of the memory 24 on the basis of the head address a01 set in the register 26, and the information from the area 29-1 on the basis of the head address a11. The frame I1 is read and transferred to the transmission / reception control device 23, and the information frame I1 is transmitted from the transmission / reception control device 23 to the partner device. In this case, the retransmission request indication bit BIB and the retransmission indication bit FIB in the information frame I1 are not related to the retransmission and are set to "1". When the transmission of this information frame I1 is completed, the DMA controller 22 reads and analyzes the next command descriptor DP2 from the area 28-2 having the address a02 included in the command descriptor DP1 as the start address, and analyzes the read result. The information frame I2 is read out from the area 29-2 on the basis of the data, transferred to the transmission / reception control device 23, and sent from the transmission / reception control device 23 to the partner device. In this case as well, the resend request indication bit BIB
And the retransmission indication bit FIB are set to "1". In the same manner, the information frames Ij can be continuously transmitted. In this case, the maximum number of consecutive transmission information frames is 127 when the transmission confirmation number from the partner device cannot be obtained and the transmission number FSN is 0 to 7E ₍₁₆₎ . Further, the processor 21 monitors the reception confirmation number BSN added to the information frame transmitted from the partner device, and if the reception confirmation number BSN is, for example, "2", the transmission number F
Since it can be determined that the information frame I1 having the SN of "1" is normally received by the partner device, the information frame I1 in the area 29-1 of the memory 24 is deleted and the area 29-1 is released. In this case, the reception confirmation number BSN (= transmission number F in the reception information frame is based on the transmission number FSN in the reception information frame at the time of storing each information frame I1 to Ij in the memory 24).
SN + 1) is set in each information frame I1 to Ij and the memory 24
When stored in, the same reception confirmation number BSN is obtained during continuous transmission of the information frames I1 to Ij. Therefore, its information frame I
Even if the information frame is received from the partner device during continuous transmission of 1 to Ij, the reception confirmation notification for the information frame cannot be performed. Therefore, in the partner device, the information frame stored in the memory cannot be deleted until a new reception confirmation notification is received, so that the area of the memory cannot be released. Therefore, in the register 27 of the transmission / reception control device 23, the reception confirmation number BSN is set based on the transmission number FSN in the latest reception information frame that was successfully received, and the contents of this register 27 are We have previously proposed to insert it as the receipt confirmation number BSN. Thus, when the information frame from the partner device can be normally received, the reception confirmation number for the information frame can be transmitted. If the reception cannot be normally received, the reception confirmation number BSN is set based on the transmission number FSN in the reception information frame, and the transmission / reception control device 23 sends an information frame with the retransmission request indication bit BIB set to "0". . When the reception confirmation number BSN at the time of receiving and identifying such a retransmission request indicating bit BIB is “2”, for example, the processor 21 sends the transmission number “2”.
The retransmission control from the information frame I2 is performed, and the retransmission indication bit FIB in the retransmission information frame is set to "0". On the receiving side of the retransmission information frame, the retransmission request indicator bit
The transmission information frame with the BIB set to "0" is transmitted, and the retransmission indication bit FIB in the reception information frame is "0". Therefore, the reception information frame is identified and the reception processing is performed. . [Problems to be Solved by the Invention] As described above, the order management of information frames is performed by the transmission number.
The FSN, the reception confirmation number BSN, the retransmission request display bit BIB, and the retransmission display bit FIB are performed, and the processor 21 performs the process of setting the contents each time the retransmission process is performed. Based on the transmission number,
The processor 21 updates the reception confirmation number in the transmission information frame. Therefore, there is a drawback that the load on the software is large. An object of the present invention is to simplify the setting of retransmission indication bit FIB. [Means for Solving the Problems] A retransmission display setting control device of the present invention transmits and receives an information frame including at least a reception confirmation number, a retransmission request display bit, a transmission number, and a retransmission display bit by a common line signaling method. The reception control unit 3 includes a control unit 1 and a reception control unit 3, and the reception control unit 3 includes means for extracting the reception confirmation number BSN and the retransmission request indication bit BIB from the reception information frame and transferring the extracted reception confirmation number BSN to the transmission control unit 1. The control unit 1 sets the retransmission display bit FIB to be added to the transmission information frame, and the retransmission request register bit BI transferred from the reception control unit.
A check unit that determines that there is a retransmission request when B is inverted is detected, and the retransmission display bit FIB set in the retransmission display register 2 is inverted according to the determination result that there is a retransmission request in this checking unit, and the reception confirmation number A retransmission chaining control unit that controls retransmission start from the information frame of the transmission number based on the BSN is provided. [Operation] When a resend information frame is sent when a resend request is made, it is only necessary to set the resend indicator bit FIB in the resend indicator register 2 so that the resend indicator bit FI is included in the resend information frame.
When B is inserted and retransmission processing is continuously performed, it is not necessary to set the retransmission indication bit each time, so the load on the software is reduced. Further, since the contents of the resend display register 2 are only inverted, the control thereof is simple. Embodiment An embodiment of the present invention will be described below in detail with reference to the drawings. FIG. 2 is a block diagram showing a main part of an embodiment of the present invention.
Is a transmission control unit, 12 is a reception control unit, 13 is a signal transmission circuit, and 14
Is a reception confirmation register, 15 is a non-delivery queue control unit, 16 is a check unit, 17 is a retransmission chaining control unit, and 18 is a retransmission display register. At the time of initial setting, the contents of the reception confirmation register 14 are cleared, and the retransmission display register 18 is set to "1". Then, the reception information frame from the partner device is input to the reception control unit 12, the reception confirmation number BSN, the retransmission request display bit BIB,
When the transmission number FSN and the retransmission indication bit FIB are extracted and error checking is performed using the error check code CRC, and it is determined that there is no error, the reception confirmation register 14 receives the transmission number FSN of the reception information frame. Set as confirmation number BSN. Also, the reception confirmation number BSN extracted from the reception information frame
And the retransmission request indicating bit BIB are transferred to the transmission control unit 11. The reception confirmation number BSN and the retransmission request indication bit BIB are checked by the check unit 16, and if the retransmission request is not received, the information frame normally received by the reception confirmation number BSN is stored in the memory (see FIG. 4). To free the area. Further, the non-delivery queue control unit 15 controls the reading of the information frames sequentially based on the chaining of the information frames of the consecutive transmission stored in the memory (see FIG. 4) and adds them to the signal transmission circuit 13. The contents of the reception confirmation register 14 and the retransmission display register 18 are added to the signal transmission circuit 13, the contents of the reception confirmation register 14 are inserted as a reception confirmation number BSN, and the contents of the retransmission display register 18 are the retransmission display bits FIB. Is inserted as. In the check unit 16, when the transferred retransmission request indication bit BIB is "0" and it is identified that the retransmission is requested,
A retransmission request is issued to the retransmission chaining control unit 17. As a result, the retransmission chaining control unit 17 causes the retransmission display register 18 to
The content of is inverted to "0", the retransmission start control from the information frame of the transmission number based on the reception confirmation number BIN is controlled, and the already transmitted information frames are chained. As a result, the retransmission indication bit FIB of “0” set in the retransmission indication register 18 is inserted into each retransmission information frame and transmitted. Then, the retransmission request indication bit BI in the reception information frame
B is "0", the retransmission indication bit FIB in the transmission information frame is correspondingly "0", and after the transmission of the information frame for the retransmission processing is completed, the transmission control of a new information frame is performed as it is. When the error is detected again next time, the retransmission request indication bit BIB is inverted from “0” to “1” and the retransmission indication bit in the retransmission information frame corresponding to it is inverted.
It is enough to invert FIB from "0" to "1". FIG. 3 is a sequence explanatory diagram of an embodiment of the present invention,
The case where an information frame is transmitted between the devices A and B is shown. From device A, reception confirmation number BSN = 7F, retransmission request indication bit BIB
= 1, transmission number FSN = 1, retransmission indication bit FIB = 1, and when device B receives it normally, device B receives confirmation number BSN = 1, retransmission request indication bit BIB = 1, transmission number FSN = 0, information frame with retransmission indication bit FIB = 1 is transmitted. When an error occurs in this information frame or is lost on the transmission path, the device A recognizes the abnormality by receiving the next information frame with the transmission number FSN = 1, and retransmits it to the device B. Will make a request. In this case, the device A receives the information frames with the transmission numbers FSN = 1 and 2, but ignores all the lost information frames with the transmission number FSN = 0. The device A inverts the resend request indication bit BIB from "1" to "0" and makes a resend request of FSN = 0 from the reception confirmation number BSN (= 7F) confirmed at the time of occurrence of an abnormality. At this time, the device A also serves to send the information frame to be sent next. In the device B, since the retransmission request indicating bit BIB has changed from "1" to "0", it is determined that there is a retransmission request, and the reception confirmation number BSN = 7F indicates the transmission number 0 (next to 7F). No.) information frame is started. At that time, if a new information frame is correctly received from the device A, a new reception confirmation number is added, and eventually this information frame at the start of retransmission is BSN = 2, BIB = 1, FSN = 0, FIB = 0.
This retransmission indication bit FIB is automatically inserted into the information frame by inverting the contents of the retransmission indication register 18. Then, under the control of the retransmission chaining control unit 17, the information frame with the transmission number FSN = 0 and the retransmission indication bit FIB = 0 is sequentially transmitted from the device B, and then the information frame with FSN = 1 and FIB = 0 is transmitted. It The contents of the retransmission indication register 18 are automatically inserted as retransmission indication bits FIB even when these information frames are transmitted. In device A, the retransmission indication bit FIB is "0" and the transmission number FSN =
When the information frame of 0 is normally received, the device B confirms the reception. Subsequently, when the information frame of FSN = 1, FIB = 0 is received from the device B and the device A also has a new information frame to be transmitted, the transmission number FSN is newly added. In this case, BSN = 1, An information frame is transmitted with BIB = 0, FSN = 3, and FIB = 1. In the device B, the reception confirmation number BIN = 1 makes it possible to delete the information frames having the transmission numbers FSN = 0 and 1 and release the area. After that, from device B to BSN
= 4, BIB = 1, FSN = 3, FIB = 0, the device A deletes the information frames up to FSN = 4 and releases the area. [Effects of the Invention] As described above, according to the present invention, the retransmission control register 1 is provided with the retransmission display register 2 and the content of the retransmission display register 2 is used as the retransmission display bit FIB of the transmission information frame. When a request is made, the contents of this resend display register 2 are inverted to indicate the resend indication bit FI
B can be automatically inserted into each information frame to be transmitted according to the retransmission chaining, and the program is simplified compared to the conventional example in which the retransmission indication bit FIB is inserted into each retransmission information frame by software. be able to. Therefore, when the processing of the information frame transmitted by the common line signaling system is congested, the processing load on the processor is reduced, and a very large practical effect can be obtained by adding a slight configuration.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram of the principle of the present invention, FIG. 2 is a block diagram of essential parts of an embodiment of the present invention, and FIG. 3 is a sequence explanatory diagram of an embodiment of the present invention, FIG. Is a block diagram of a transmission / reception control unit, and FIG. 5 is a frame format explanatory diagram. 1 is a transmission control unit, 2 is a retransmission display register, 3 is a reception control unit, 11 is a transmission control unit, 12 is a reception control unit, 13 is a signal transmission circuit, 14 is a reception confirmation register, 15 is a non-delivery queue control unit,
Reference numeral 16 is a check unit, 17 is a retransmission chaining control unit, and 18 is a retransmission display register.

   ────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Takashi Nara               1015 Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa                 Fujitsu Limited (72) Inventor Ryoji Takano               1015 Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa                 Fujitsu Limited (72) Inventor Takashi Hatano               1015 Kamiodanaka, Nakahara-ku, Kawasaki-shi, Kanagawa                 Fujitsu Limited (72) Inventor Yoshio Morita               3-9 Shin-Yokohama, Kohoku Ward, Yokohama City, Kanagawa Prefecture               No. 18 Fujitsu Daiichi Communication Software Co., Ltd.               In company

Claims (1)

(57) [Claims] It has a transmission control unit and a reception control unit for transmitting and receiving an information frame including at least a reception confirmation number, a retransmission request indication bit, a transmission number, and a retransmission indication bit by a common line signaling method, and the reception control unit is a reception information frame. Means for transferring the reception confirmation number (BSN) and the retransmission request indicator bit (BIB) from the transmission confirmation unit to the transmission control unit, wherein the transmission control unit adds a retransmission indication bit (FIB) to the transmission information frame. ) Is set, a check unit that determines that there is a retransmission request when it is detected that the retransmission request indication bit (BIB) transferred from the reception control unit is inverted, and a retransmission request in the check unit The retransmission indicator bit (FIB) to be set in the retransmission indicator register is inverted according to the result of the determination, and the information number of the transmission number based on the reception confirmation number (BSN). Retransmission display setting control device being characterized in that a retransmission chaining control unit for controlling retransmission start from over arm.