KR100413526B1 - Method and apparatus for processing call control data stored on an Hash Table in implementing BICC Protocol, and recording medium therefor - Google Patents

Abstract

The present invention relates to a method for processing call control information stored in a hash table when implementing the BCC protocol, an apparatus for processing call control information, and a recording medium having recorded thereon a program for executing the method for processing the call control information.

The method for processing call control information according to the present invention includes generating a pointer indicating the inserted call control information when inserting call control information into a hash table, and searching or deleting the call control information inserted into the hash table. And identifying the call control information using the generated pointer. According to the present invention, it is possible to remove the delay that may occur in the insertion, search, and delete operations of the bicc_data during the process of the BICC protocol, and to improve the reliability of the call processing.

Description

Method and apparatus for processing call control data stored on an Hash Table in implementing BICC Protocol, and recording medium therefor}

The present invention relates to a method for processing call control information stored in a hash table when implementing the BICC protocol, an apparatus for processing call control information, and a recording medium having recorded thereon a program for executing the method for processing the call control information in a computer. will be.

The BICC (Bearer Independent Call Control) protocol is a protocol proposed by ITU-T to transparently transfer call control information between peer media gateway controllers (MGCs).

1 illustrates a network system configuration using the BICC protocol for VoATM service.

ISUP (ISDN User Part) performs call control and voice information delivery in SS7 network, and MEGACO controls media gateways 130 and 170 based on signaling data received from BICC to bearer for voice information delivery over ATM backbone. Allows you to set and release. When the call setup request is received in the connected ISUP section, the corresponding BICC protocol of the media gateway controller 120 generates an outgoing call processing process, and the media gateway controller 160 serving as the destination of the call setup performs the incoming call processing. Process is formed. At this time, it is necessary to set up a special data structure to store the call control information for the generated incoming / outgoing call processing process.

2 shows a conventional data structure of BICC data used for call processing in the BICC protocol. The incoming call process 220 for incoming call processing is generated in the BICC main process 210, and the data structure 260 for storing incoming call control information by the incoming call process includes the CIC 231 and the biccPID 232. ), oppPID (233), CallType (234). Contains a pointer (235) field.

Call Instance Code (CIC) 231 is a number for uniquely identifying a call assigned to a current call by BICC, biccPID 232 is an identifier of a process that processes a call, oppPID 233 is an identifier of a corresponding counterpart process, CallType 234 indicates whether there is an incoming / outgoing call, and pointer 235 is a pointer variable used to indicate the next data on the list when stored as a list in a hash table. Such a data structure has a one-to-one correspondence with the corresponding process when the generated process ends, that is, until the call is released. The data structure is referred to as bicc_data for the following description.

The generated bicc_data for call control is stored in a table to effectively process multiple call information simultaneously. The structure of such a table can be various, but the most typical form is a hash table using separate chaining.

3 shows the configuration of a conventional hash table 300 in which bicc_data used for call processing in the BICC protocol is stored. In order to determine the index on the index array 310, a hash function that divides the kit value by the size N of the array and takes a remainder is used. In this case, a CIC value is used as a key value. Since the number of possible data stored in the table is naturally larger than the number of arrays, a collision occurs for the array index, and the list 320 pointed to by the array is configured to store the data having such a conflict. List 320 is a simple linked list structure in which each data in the list has a pointer to the next data in the list. Hash table with this structure is created in BICC main process of this controller (MGC) in each media gate constituting the network. Then, bicc_data is created by processes for each call processing, and then operations such as insert, search, and delete are performed. Do this.

4 is a flowchart of a process illustrating a conventional insert operation using the conventional hash table illustrated in FIG. 3. In the case of the insert operation, first, bicc_data to be inserted from the BICC process is obtained (step 410), and the index is calculated by inserting the key value into the hash function (step 420) using the CIC value of the imported bicc_data as the key value (step 420). 430). When the index of the array is calculated, bicc_data is inserted into the list [index], which can be inserted at the beginning or end of the list [index] (step 440). Next, by notifying the process whether the insertion operation is successful (step 450), the insertion operation is terminated.

FIG. 5 shows a flowchart of a process showing a conventional search operation using the conventional hash table shown in FIG. In the case of a search operation, since the BICC process has the CIC value of the bicc_data to be searched, the CIC value is directly obtained from the BICC process (step 510), and the index is set by inserting the key value into the hash function using the obtained CIC value as the key value. Calculate (step 520). When the index of the array is calculated, the search operation is terminated by searching the CIC for the list [index] (step 530) and returning the retrieved bicc_data to the corresponding process (step 540).

FIG. 6 shows a flowchart of a process showing a conventional delete operation using the conventional hash table shown in FIG. 3. In the case of the delete operation, as in the search operation, the BICC process has the CIC value of the bicc_data to be searched, and thus immediately obtains the CIC value from the BICC process (step 610), and uses the obtained CIC value as a key value in the hash function. The index is calculated by inserting a value (step 620). When the index of the array is calculated, the CIC is searched for the list [index] (step 630), it is determined whether the search is successful (step 640), and if it is successful, the bicc_data retrieved for the list [index] is deleted ( In step 650, the success result is notified to the process (step 660), and if it is not successful, the deletion operation is terminated by immediately notifying the process of the failure result (step 660).

As described above, the efficiency of inserting, searching and deleting on the hash table implemented as follows is as follows. The time required for the insertion operation is the calculation time of the hash function + the insertion time in the corresponding list, and the time required for the search operation is the calculation time of the hash function + the linear search time in the corresponding list. The time taken for is the computation time of the hash function + the linear search time in the corresponding list + the deletion time in the list.

The problem with the efficiency of the hash table implemented as a simple linked list is that the insert operation can be handled at a fixed constant time, but in the case of the search operation and the delete operation, the linear search time is included. In the worst case, it requires time as long as the list length, so it cannot be processed in constant time, which can cause delays in call processing.

The present invention solves the above problems and removes the delay that may occur in the insertion, search, and delete operations of the bicc_data during the BICC protocol call processing, and the call control information processing method for improving the reliability of the call processing A call control information processing apparatus and a recording medium thereof are provided.

1 is a configuration diagram of a network system using a BICC protocol;

2 shows a conventional data structure of BICC data used for call processing in the BICC protocol;

3 is a configuration diagram of a conventional hash table in which BICC data used for call processing in the BICC protocol is stored;

4 is a flow chart showing a conventional insert operation using the hash table shown in FIG.

5 is a flowchart showing a conventional search operation using the hash table shown in FIG. 3;

FIG. 6 is a flowchart illustrating a conventional delete operation using the hash table shown in FIG. 3.

7 illustrates an example of a BICC data structure according to the present invention;

8 is a diagram illustrating an example of a configuration of a hash table in which BICC data is stored according to the present invention;

9 is a view showing a relationship between a call processing process and a hash table according to the present invention;

10 is a flowchart illustrating an insertion operation in accordance with the present invention;

11 is a view showing a relationship between a call processing process and a hash table during an insert operation according to the present invention;

12 is a flowchart illustrating a search operation in accordance with the present invention;

13 is a view showing a relationship between a call processing process and a hash table in a search operation according to the present invention;

14 is a flowchart illustrating a delete operation according to the present invention;

15 is a view showing a relationship between a call processing process and a hash table during a delete operation according to the present invention.

Explanation of symbols on the main parts of the drawings

110: switch 120: media gateway controller

130: media gateway 140: signaling network

150: ATM network 700: BICC data structure

800: hash table

One feature of the present invention for solving the above problems is a method of processing call control information stored in a hash table when implementing the BICC protocol, the inserted call when inserting the call control information into the hash table Generating a pointer indicating control information, and identifying the call control information using the generated pointer when retrieving or deleting the call control information inserted into the hash table.

Another aspect of the present invention provides a method of processing call control information stored in a hash table when a BICC protocol is implemented, wherein when a call processing process inserts call control information into the hash table, the call control information indicates the inserted call control information. Providing a pointer to a call processing process corresponding to the call control information; and retrieving the call control information using the provided pointer when the call processing process retrieves the call control information inserted into the hash table. It is to include a step.

Another feature of the present invention is a method for processing call control information stored in a hash table when a BICC protocol is implemented, when the call processing process inserts call control information into the hash table. Providing a pointer to a call processing process corresponding to the call control information, and when the call processing process deletes the call control information inserted into the hash table, deleting the call control information using the provided pointer. It is to include a step.

Advantageously, the method comprises a hash pointer comprising a left pointer indicating call control information that precedes (just before) each call control information in a list and a right pointer that indicates call control information that follows (right behind). The call control information deleting step may further include: identifying the call control information to be deleted using the returned pointer, a left pointer of the identified call control information; Identifying the preceding call control information and the following call control information of the call control information to be deleted from the list by using the right pointer, respectively; and the following call control information by the right pointer of the preceding call control information. And a left pointer of the following call control information indicates the preceding call control information. A a step of pointing.

Another feature of the present invention is a data storage unit having a hash table configured to store call control information stored in a hash table in a BICC protocol implementation in a bidirectional linked list, and a call control to be processed. And a call processing unit having a pointer indicating information and an operation unit for inserting, searching, and deleting the call control information with respect to the hash table using the pointer.

Preferably, after the operation unit inserts the call control information into the hash table, a pointer value indicating the call control information is provided to a pointer of the call processing unit.

Further, preferably, the call control information stored in the bidirectional connection list indicates at least a left pointer indicating call control information immediately before the call control information in the list, and call control information immediately after the call control information. Contains the right pointer. Also, preferably, when the operation unit deletes the call control information inserted into the hash table, the call control information to be deleted from the list using the left pointer and the right pointer of the call control information indicated by the pointer, respectively. Identify preceding call control information and succeeding call control information, causing a right pointer of the preceding call control information to point to the following call control information, and a left pointer of the following call control information to the preceding call control information Point to information.

Another aspect of the present invention relates to a computer readable recording medium having recorded thereon a program for executing the call control information processing method on a computer.

Hereinafter, with reference to the accompanying Figures 7 to 15 will be described in detail the present invention.

7 shows an example of a bicc-_data data structure 700 according to the present invention. The data structure 700 has bidirectional pointers 710 and 760, unlike conventional data structures having only one-way pointers. The remaining fields of the data structure 700 are the same as the conventional data structure configuration. The left pointer 710 is a pointer variable pointing to bicc_data immediately before the list, and the right pointer 720 indicates a pointer variable pointing to bicc_data immediately after the list. In the conventional case consisting of only one-way pointers, the position of the bicc_data located immediately before the deletion operation should be known as well as the position of the bicc_data to be deleted when performing the delete operation. It is possible to perform the delete operation alone.

8 shows an example of a configuration of a hash table composed of a list in which bicc_data is stored according to the present invention. The hash table 800 includes an index array 810 having a size of N specified by an index value using a CIC value of bicc_data as a key value in a hash function, and a bidirectional pointer 830 and 840 as shown in FIG. 7. It contains a list 820 that is made with the basic elements bicc_data.

9 illustrates a relationship between a call processing process and a hash table in accordance with the present invention. 920, 930, and 940 indicate an incoming / outgoing process dynamically generated in response to a call setup request, and 950 indicates a hash table composed of a bidirectional list that stores bicc_data which stores call information for each process as a whole. The black circles of 960,970,980 represent the configuration in which bicc_data, which correspond to incoming / outgoing call processes one-to-one, is inserted into the corresponding list with the CIC value of bicc_data as the key value of the hash function. Indicates that the pointer value of bicc_data stored in the hash table 950 is passed to the encoding process. For example, the incoming call process 920 has a pointer to the bicc_data 960 (having the address value stored in the bicc_data 960) as a result of the insertion operation of the bicc_data 960. The process 920 may search for or delete the bicc_data 960 from the list using the pointer. Here, it should be noted that the pointer of each input / output relay process may be implemented as a register, for example, and is different from the bidirectional pointer in the data structure shown in FIG.

10 shows a flowchart of a process illustrating an insertion operation in accordance with the present invention. The inserting operation is similar to that of the conventional inserting operation. First, the inserting process to perform the inserting operation takes the bicc_data to be inserted from the BICC process (step 1010), and uses the CIC value of the obtained bicc_data as a key value ( In step 1020, the index is calculated by inserting the key value into the hash function (step 1030). When the index of the array is calculated, bicc_data is inserted into the list [index] (step 440). Next, the pointer of the inserted bicc_data is transferred to the corresponding BICC process (step 1050).

For example, referring to FIG. 11, the relationship between the call processing process and the hash table during the insert operation according to the present invention will be described. When the BICC process 1110 inserts bicc_data C 1130 into the list [1], Insert bicc_data C (1130) at the end of list [1] (1170), point the right pointer of bicc_data B immediately before bicc_data C inserted in list [1] to point to bicc_data C, and bicc_data C Point the left pointer of to the address of bicc_data B. Next, by returning the pointer 1140 having the address of the inserted bicc_data C to the BICC process 1120, the BICC process 1110 has a pointer 1140 of bibic_data C.

12 shows a flowchart of a process representing a search operation in accordance with the present invention.

In the case of a search operation, since the BICC process already has a pointer to bicc-data as a result of the insert operation, the search process that performs the search operation retrieves the bicc_data using the pointer and returns the pointer to the BICC process. In step 1210, all search operations are terminated. In other words, the search operation can replace the search operation by checking a pointer value corresponding to bicc_data corresponding to each BICC process.

For example, referring to FIG. 13, when describing a relationship between a call processing process and a hash table during a search operation according to the present invention, since the BICC process 1310 has a pointer 1330 of bicc_data C, the pointer is used. Directly retrieve the bicc_data C (1360) of the list.

14 is a flowchart of a process illustrating a delete operation according to the present invention. First, a delete process that performs a delete operation obtains a pointer of a bicc_data to be deleted from the BICC process (step 1410), deletes the corresponding bicc_data using the passed pointer (step 1420), and determines whether the delete operation succeeds to the BICC process. By notifying (step 1430), the deleting operation is terminated.

For example, referring to FIG. 15, the relationship between the call processing process and the hash table during the delete operation according to the present invention will be described. Since the BICC process 1510 has a pointer 1530 of bicc_data C, the pointer is used. Find the bicc_dataC (1560) of the list and perform the delete operation. However, before the delete operation, point the right pointer of the bicc_data B (1550) immediately before the bicc_data C (1560) to point to the bicc_data D (1570) immediately after the bicc_data C (1560) to be deleted (that is, the bicc_data B (1550). ), The left pointer of bicc_data D (1570) immediately after the bicc_data C (1560) should point to the bicc_data B (1550) immediately before the bicc_data C (1560) to be deleted. (Ie, store "8" in the left pointer of bicc_data D (1570)).

Thus, the efficiency of the insertion, search, and deletion on the hash table implemented according to the present invention is as follows. The time required for the insert operation is the calculation time of the hash function + the insertion time (2 pointer operations) to the corresponding list, and the time required for the search operation is the check time (1 pointer operation) of the pointer value. The time taken for the operation is the deletion time (two pointer operations) in the corresponding list. Thus, in the present invention, if each process has a pointer to bicc_data, and the list of hash tables is configured as a bidirectional linked list, the operation is performed within a fixed time, that is, a constant time, not only for the insert operation but also for the search operation and the insert operation. can do.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

As described above, according to the present invention, a hash table for storing call control information is implemented as a bidirectional list in the BICC protocol used in a media gateway controller that performs a VoATM service, and each call processing process has a pointer to bicc_data, thereby inserting an operation. In addition, the search operation and the deletion operation can be processed within a fixed constant time irrespective of the length of the list, thereby eliminating the delay of the caller, and increasing its effectiveness especially in the practical problem of increasing call processing capacity. Can be.

Claims (9)

In the method of processing the call control information stored in the hash table when implementing the BICC protocol, Generating a pointer indicating the inserted call control information when inserting call control information into the hash table; And identifying the call control information using the generated pointer when retrieving or deleting the call control information inserted into the hash table. In the method of processing the call control information stored in the hash table when implementing the BICC protocol, When a call processing process inserts call control information into the hash table, providing a pointer to the inserted call control information to a call processing process corresponding to the call control information; And retrieving the call control information using the provided pointer when the call processing process retrieves the call control information inserted into the hash table. In the method of processing the call control information stored in the hash table when implementing the BICC protocol, When a call processing process inserts call control information into the hash table, providing a pointer to the inserted call control information to a call processing process corresponding to the call control information; And deleting the call control information by using the provided pointer when the call processing process deletes the call control information inserted into the hash table. The method of claim 3, Implementing the hash table as a bidirectional linked list comprising a left pointer for each call control information preceded (just before) in the list and a right pointer for the subsequent (just behind) call control information; More, The call control information deleting step, Identifying the call control information to be deleted using the returned pointer; Identifying the preceding call control information and the following call control information of the call control information to be deleted from the list by using the left pointer and the right pointer of the identified call control information, respectively; Causing the right pointer of the preceding call control information to point to the following call control information, and causing the left pointer of the following call control information to point to the preceding call control information. When the BICC protocol is implemented, the call control information stored in the hash table is processed in the processing device. A data storage having a hash table configured to store call control information in a bidirectional linked list; And a call processing unit having a pointer indicating call control information to be processed, and an arithmetic unit which inserts, retrieves, and deletes the call control information into the hash table using the pointer. The method of claim 5, And a pointer value indicating the call control information to the pointer of the call processing unit after the operation unit inserts the call control information into the hash table. The method of claim 6, The call control information stored in the bidirectional connection list includes at least a left pointer indicating call control information immediately before the call control information in the list, and a right pointer indicating call control information immediately after the call control information, Call control information processing device. The method of claim 7, wherein When the operation unit deletes the call control information inserted into the hash table, Identifying the preceding call control information and the following call control information of the call control information to be deleted from the list by using the left pointer and the right pointer of the call control information indicated by the pointer, respectively, and the right side of the preceding call control information. And a pointer pointing the trailing call control information, and causing a left pointer of the trailing call control information to point to the preceding call control information. A computer-readable recording medium having recorded thereon a program for executing the method according to any one of claims 1 to 4 on a computer.