DE4418979C2 - Procedure for adapting message formats - Google Patents

Description

The invention relates to a method for adapting after format that is based on an asynchronous transfer Mode working communication network are transmitted after the preamble of claim 1.

From European patent application 0 531 599 A1 is a configurable adapter for a gigabit / s switch known. It is a so-called switching subsystem, wel ches with the help of a coupling network located therein can connect to outputs. Within this switching network are only data cells with a fixed length switched through asynchronous transfer mode (ATM). Des A transmitter is provided half at each input of the switching network hen that receives user data of any length and cells uniform length to the switching network. At all exits of the switching network, receivers are connected, which the cell len with the same length back to the original shape bring the user data.

For this purpose there are separate ones for each transmitter and for each receiver Control processors required, allowing the conversion of the data only flow in one direction with the help of special trained storage facilities (associative storage, pipe line register). This arrangement of the transmitters and receiver for the configurable adapter requires one high control effort because for every direction of transmission a connection a separate control is required so that two controls must be provided for each connection. Also the  memory configuration used in this switching subsystem is very expensive.

In a DE specialist book with the title: "ATM networks: construction, Function, Performance "(Author: Othmar Kyas), which was published in the The year 1993 was published by DATACOM-Verlag, starting on page 189 describes a so-called ATM adaptation layer. In the with Chapter AAL type 5 is detailed explains how it arises from a structure of user data for transmission using the asynchronous transfer mode (ATM) suitable cells are constructed. Of course must accordingly for the reverse direction of transmission also the ATM cells are converted into user data, as well it is required for the relevant data processing device will. This description contains detailed information about the nature of the user data and the ATM cells, however, it is not described with which technical features necessary conversions to adjust will.

The object of the invention is to provide a method ben, with which an adjustment or conversion of the package sizes and of the ATM cells in both directions with only one Control device can be made so that an optimal Cooperation with a data processing facility is. The aim is to receive and send data necessary steps so largely from an adjustment direction be taken over that the processor of the data processing processing device is only slightly loaded.

This task is solved by a combination of features, such as it is specified in claim 1.

This is advantageously achieved that ent standing interface function optimally to the properties the data processing device is adapted so that a direct assignment is possible and sending and receiving Data as quickly as possible. The storage confi  guration is chosen so that no special version of the memory cher is necessary and their capacity easily to the given units of the data processing device and an ATM can be adjusted.

Further developments of the invention result from the dependent claims chen.

An embodiment of the invention is described below illustrated by drawings:

It shows

Fig. 1 is a block diagram of a Anpassungseinrich tung,

Fig. 2 the diagram of the interaction of storage means upon receipt of ATM cells,

Fig. 3 shows the principle of a receiver memory,

FIG. 4a the schema of a message packet,

FIG. 4b shows the diagram of an ATM cell.

With reference to FIG. 1 the manner in which output from the data processing device DVE data will now be described, the ATM network can be offered. In this case, from the message packets NP shown in FIG. 4a of different lengths, ATM cells AZ with standardized equal lengths are to arise, as indicated in FIG. 4b. If the data processing device DVE has to deliver data that are to be sent via the ATM network, the adaptation device AE is first informed of the total length of a message packet NP and the virtual address information VA for the ATM header. The information on the length of a message packet NP is entered in a transmission control register SSR, and the virtual address information VA arrives in a header register HR. The data words DW then arrive in succession in a transmission register SR, which can each hold one data word DW. If the adaptation device AE recognizes that a virtual address information VA has been received in the header register HR, the control device SE uses this to generate a header H as it must be present in every ATM cell AZ. This header H is immediately entered in a free area of a transmission memory SSP. This transmission memory SSP is designed as a FIFO memory, or it is operated as such. This means that information that has been stored first is also saved first. In the same area where the ATM header H has been entered, the data words DW then arrive one after the other from the transmission register SR. These DW data are counted by the control device SE so that it can be recognized when an ATM cell AZ is complete. An ATM header H is then generated again from the information stored in the header register HR and is entered in the next memory area of the transmit memory SSP. The then following Da words DW are entered in this memory area, so that the next ATM cell AZ is created.

As soon as an ATM cell AZ is completely in the transmit memory SSP finds, this is offered to a cell interface ZIF, so that mediation can take place via the ATM network. This he The first ATM cell AZ is sent out when the ATM network is open is ready to take. The relevant memory area in the transmit memory The SSP is released. Since the transmit memory SSP in its Capacity is such that it has at least one message packet NP can accommodate, as long as more ATM cells AZ formed until the entire content of a message packet NP has been transmitted by the data processing device DVE is. The control device SE recognizes this by the fact that the An number of transmitted data words DW corresponds to that in the Send control register SSR total length of a post straightening package NP. The ATM cells AZ, which one after the other in the Transmit memories SSP arise, are in the same order delivered to the cell interface ZIF. Since the transmit memory SSP can hold at least as many ATM cells AZ as necessary are to the data contained in a message packet NP transmitted, there is no loss of information if individual ATM cells AZ are not immediately switched over the ATM network can.

If from the data processing device DVE further after straightening packages NP should be sent, this can only  then happen when there is enough space in the transmit memory SSP is available to record a complete message packet NP. The capacity of the transmit memory SSP is expedient dimensioned such that not only a complete message packet NP, but an ATM cell AZ is also added can. Whenever AZ delivers ATM cells to the Cell interface ZIF the transmit memory SSP is emptied so far that a complete message packet NP can be included, the adaptation device AE sends a message to the Da tenververarbeitungeinrichtung DVE that from there another Message packet NP can be delivered.

Referring to Figs. 1 to 3 will now be described, as are on the ATM network ATM cells incoming AZ within the ANPAS sungseinrichtung AE combined into message packets NP. An ATM cell AZ is first received in the cell interface ZIF. From the header H of this ATM cell AZ, which is then located there, an address part AT is removed and thus a control memory KSP is addressed. Information is entered in the control memory KSP which provides information as to whether the ATM cell AZ in question may be received at all and whether ATM cells AZ belonging to the connection in question have already been received. The line addressed with the address part AT, e.g. B. ZK1, the control memory KSP consists of three columns, which contain important information for the further processing of ATM cells AZ into message packets NP. The first column contains information that provides information about the NT message type. If there is no entry in this column for the message type NT (information about the type of further processing) (content = 0), the ATM cell in question is not included in the adaptation unit AE, so that no reception by the data processing device DVE is possible. The other two columns of the control memory KSP contain row addresses ZA and column addresses SA, which are used for the matrix-like control of a receive memory ESP. The row address ZA indicates in which row of the reception memory ESP a message packet NP to be compiled from the content of several ATM cells AZ is to be stored.

If the control device SE at the content of the relevant line ZK1 to ZKn of the control memory KSP recognizes that an ATM Cell AZ must be received, the content of this ATM Cell AZ word by word in the relevant row of the receive memory chers ESP added.

Each time a data word DW is stored from the information part IF of an ATM cell AZ (see FIG. 4b), the column address SA is counted further, so that after the receipt of a complete ATM cell AZ the column address SA is in the control memory KSP, where to continue if a further ATM cell AZ is received, which belongs to the same connection and thus belongs to the same message packet NP. The receive memory ESP is controlled in matrix form with the row address ZA and the column address SA in such a way that each individual data word DW can be placed specifically at a specific point. The reception memory ESP is dimensioned in such a way that it can accommodate several message packets NP. As a result, message packets NP can still be received even if they cannot be immediately passed on to the data processing device DVE.

The reception memory ESP is designed so that the number of Columns S1 to Sn correspond to the number of data words DW that maximum contained in a message packet NP. When on write data words DW that come from different ATM cells AZ can be determined when the last column Sn is reached, so that the message packet NP is then complete. If this criterion is recognized by the control device SE has been so the in the relevant line, z. B. ZK1, of the control memory KSP contained in the ent speaking columns NT, ZA and SA of an information store Broadcast ISP. Then there is the control memory KSP pending address part AT, which is also in the informa tion memory ISP is taken over. This information store ISP is designed as a FIFO memory or is as such driven so that the information entered first also read out again first. The first read information  Mations of a line ZK reach an information register IR, which communicates the data processing device DVE is that there is a message packet NP to be taken over.

The data processing device DVE takes over information from the information register IR, which provides information about the virtu ellen address part AT or VA, the message type NT and the Length (SA) of the message packet NP present The control device SE of the adaptation device AE thereupon transfers the data words DW from the concerned Line, e.g. B. Z1, the receive memory ESP to the receive gister ER, from where the data processing device DVE word by word the entire content of a message packet NP calls. If the transmission of the last data word DWn is one Message packet NP from a line Z1 of the receive memory ESP has taken place in the receive register ER this relevant line Z1 for receiving a new night straightening packages NP again in the form of ATM cells AZ supply. For this purpose, the relevant address ZA becomes free becoming line Z1 of the receive memory ESP in the address memory ASP registered.

The address memory ASP shown in FIG. 2 contains as many lines ZA1 to ZAn as lines Z1 to Zn are present in the receive memory ESP. Each line ZA1 to ZAn of the address memory ASP contains as many bits as are necessary for the line address ZA to address all lines of the receive memory ESP. Whenever a line Z1 to Zn of the reception memory ESP becomes free, its address ZA is entered in the address memory ASP. The address memory ASP is designed as a FIFO memory or is operated as such, so that a first entered free address ZA within the address memory ASP is treated in such a way that it is also read out first and thus for the re-assignment of a line Z1 to Zn des Receive memory ESP is available. The column address SA is set to zero in this process, since the first data word DW can be used to start when a new ATM cell AZ is received.

In the control device SE of the adaptation device AE provided a time monitoring not shown in detail hen, with the proper formation and sending of ATM-Zel len AZ is monitored. When a predetermined time has expired is before sending everyone to a NP message packet too forming ATM cells AZ is completed, then an error message FM1 submitted to the data processing device. There can be used to indicate that incorrect behavior of the Adaptation device AE has existed, or that blockages in ATM network have occurred.

Another error message FM2 is generated and sent to the data processing device DVE given if egg ei nes message packet NP the number of data words DW larger or less than that previously in the transmit control register SSR registered packet length. It can thus be determined if the data words DW belonging to a message packet NP have not been properly compiled or their Number has not been specified correctly.

The control device SE is also a computing device RE assigned, which when transferring data words from a Message packet NP in the transmit memory SSP a redundancy Calculation over all belonging to a message packet NP Data words DW performs. The result of this calculation is in the last bytes of the last ATM cell AZ, which belong to this Message package NP heard, entered. The computing device RE is also used when in the opposite direction ATM cells AZ that have been received via the ATM network, Message packets NP are formed. Here too Transfer of the individual data words DW from the reception memory ESP performed a redundancy calculation in the receive register ER leads. The result of this calculation is compared with that on Sen side value compared. One result de any difference is in the reception control register EKR registered by the data processing device DVE read after receiving a complete message packet NP  becomes. One difference states that the news in question package NP has bit errors.

As is shown in FIG. 1, three mutually independent bus systems are provided for data exchange within the adaptation device AE. A first bus system DVE-Bus is provided for data exchange with the data processing device DVE, to which within the adaptation device AE only the devices required for sending message packets NP, such as transmission control register SSR, header register HR and transmission register SR as well as for the Reception of message packets NP required devices such as reception control register EKR, information register IR and reception register ER are connected. This has the advantage that only a limited number of devices located in the adaptation device AE have to be controlled by the data processing device DVE.

The control device SE of the adaptation device AE has Access to the above facilities via a second bus system AE bus. This second bus system AE bus is used exclusively Lich, the com from the data processing device DVE collecting information and data and in the opposite direction of the information to be transferred there and To transmit data.

The control device SE also has access to another Bus system S / E-Bus, where the transmit memory SSP, the reception memory ESP and the cell interface ZIF are connected. The ISP information store is also connected to it, the control memory KSP and the address memory ASP. About the This further bus system S / E will all be between the memories directions and the cell interface ZIF information to be exchanged mations and data transferred.

It is particularly important that all storage devices ISP, KSP, ASP, SSP and ESP under the control of the control unit tung SE stand. The control device SE generates all for the  Use of the necessary control and memory Address information.

This allows the control device SE of the adaptation device AE the conversion of message packets NP into ATM cells AZ and vice versa edit completely automatically, and the data ver DVE processing device is used for data transfer necessary measures only little burden. The capacities of the memory device located in the adaptation device AE and the format of the message packets NP and the ATM Cells AZ can meet the needs of data processing Direction DVE or the ATM network optimally adapted accordingly will.

Claims (7)

1. Method for adapting message formats, wherein message packets of different lengths originating from a data processing device are transmitted via the ATM network after conversion into cells of standardized length, or cells of standard length coming via an ATM network are converted back into message packets of different lengths and are offered to the data processing facility,
characterized in that a bidirectional transmission, ie transmission and reception, is carried out for the message packets by means of an adaptation device (AE) which is connected between the data processing device (DVE) and the ATM network,
that by means of the data processing device (DVE) the adaptation device (AE) first the total length of a message packet (NP) and the virtual address information (VA) for the ATM header (H) is communicated, this data in a transmission control register (SSR ), or written into a header register (HR),
that the message packets (NP) to be adapted are then written word by word into a transmission register (SR), that the header (H) for the first ATM cell (AZ) from the ones in the header register (HR) is located via the adaptation device (AE) Data is generated and this is entered into a transmit memory (SSP) working as a FIFO (First in First Out),
that the data words (DW) of a message packet (NP) received by the data processing device (DVE) are successively entered into a transmit memory (SSP) in each case via the transmitter register (SR) following the header (H) and header (H) and the standardized number of Bytes for the information field (IF) in the transmit memory (SSP) are created so that this complete ATM cell (AZ) is then immediately sent via a cell interface (ZIF) to the ATM network, that by means of the adaptation device (AE) after the entry of the first ATM cell (AZ) in the transmit memory (SSP) in turn a header (H) is generated and this is entered in the transmit memory (SSP), followed by the further data words (DW), which then to the next ATM cell (AZ ) include that all further ATM cells (AZ) are formed in the same way until the message packet (NP) has reached the previously reported total length, after which the last ATM cell (AZ) is recognized,
that a further message packet (NP) is only released by the data processing device (DVE) when the adaptation device (AE) reports that the transmit memory (SSP) can hold all data words (DW) of a message packet (NP),
that when an ATM cell arriving via the ATM network (AZ) initially only the header (H) is adopted in the cell interface (ZIF), from which an address part (AT) is used to address a control memory (KSP), the information contains whether an ATM cell (AZ) may be received at all, and whether ATM cells (AZ) already belonging to the connection in question have been received, that in recognizing the admissibility of the reception of ATM cells (AZ) in a line (Z1 to Zn) of a reception memory (ESP) addressed by the information of the control memory (KSP) is collected, each line (Z1 to Zn) of this reception memory (ESP) having a capacity corresponding to the length of a message packet (NP), and that a message is sent from the adaptation device (AE) to the data processing device (DVE) when a message packet (NP) has been completely received so that it is immediately sent by the data processing device direction (DVE) can be taken over. 2. The method according to claim 1, characterized, that at the beginning of the transfer of a data word (DW) from the Data processing device (DVE) to adapt direction (AE) within the control device (SE) Time monitoring device (ZE) is started, and that an error message (FM1) to the data processing facility (DVE) is submitted if a specified time starts has run out before sending everyone from a message tenpaket (NP) formed ATM cells (AZ) is completed. 3. The method according to claim 1, characterized, that another error message (FM2) is generated and sent to the Data processing device (DVE) is delivered when the entered length of a message packet (NP) does not exceed agrees with the number of transferred data words DW. 4. The method according to claim 1, characterized in that a redundancy calculation by means of a computing device (RE) about all data words belonging to a message packet (NP) (DW) is done and that the result of this calculation in the last four bytes of the last ATM cell (AZ) is entered. 5. The method according to claim 1, characterized in that about an additional one provided in the reception memory (ESP) Address memory (ASP), which is operated as a FIFO memory and its content for addressing the receive memory (ESP) is used by the addresses of free memory lines (Z1 to Zn) of the receive memory (ESP) from an address memory (ASP) are entered in the control memory (KSP), the Storage areas are managed.   6. The method according to claim 1, characterized, that after the complete reception of everyone for a message tenpaket (NP) belonging ATM cells (AZ) and their entry in the receive memory (ESP) for this message packet (NP) belonging address data from the control memory (KSP) in an information memory working according to the FIFO principle (ISP) are taken over, the data processing being direction (DVE) receives a message about at least one received and to be received message packet (NP). 7. The method according to claim 1, characterized in that using a receiving register (ER) temporarily one for the Transfer to the data processing facility (DVE) prepared data word (DW) of a message packet (NP) is recorded, with the relevant memory area in the Receive memory (ESP) is only released when that last data word (DWn) of a message packet (NP) adopted has been.