JPH03296822A - Logical space address allocating system - Google Patents

Abstract

PURPOSE:To automatically allocate the logical addresses of a program at the time of registering the program whose logical addresses are fixed by executing the reallocation of addresses allocated to another program and the resolution of reallocated addresses even when the logical addresses are overlapped to that of the other program. CONSTITUTION:Whether the program name of the program concerned has been registered or not is checked by referring logical address allocation control information(LAC) 14, and when the program name has not been registered yet, whether an existing registered program whose addresses are overlapped to the section of fixed addresses is included in the LAC 14 or not is checked by using the section as a key to recognize a part of the addresses is overlapped. After recognizing that the overlapped existing program is an optional logical address program, the program information of the fixed addresses is registered, the logical addresses are reallocated to the program by referring the LAC 14 again and the program name of the objective program and the section of the allocated logical addresses are reregistered in the LAC 14. Then, the address resolution processing of the program is continued.

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention relates to an address allocation method for logical storage space in an H1 computer system. [Prior art] When a program running on a computer transfers control to another program or approaches a data storage area, the program sets the 1° logical at 1 nos to a fixed value, indicating the attachment of the program and data storage area. If this is the case, it is necessary to control the address so that it does not overlap. especially,
Such programs exist among older programs developed in years.

[1. . It is now necessary to manage the allocation of logical atons under conditions where there are programs or data storage areas that can have arbitrary addresses. Traditionally, logical address assignment was performed using the following two methods.117 As shown in Figure 3, the logical address assignment is performed in all computer systems that use one control program. By centrally managing the allocation of logical addresses for all programs or data storage areas that run, and assigning unique, fixed logical addresses to individual programs or data storage areas across all computer systems, Alternatively, it is a unified management logical address allocation method in which address resolution processing is completed in advance before accessing the data storage area. The other method is to refer to the logical address management information held by the system when a program is called and loaded into memory, as shown in FIG.
Logical address 1 allocated when the address is allocated and the memory is released after the program processing is completed.
This is a dynamic logical Atnos allocation method in which Nos is also made free space at the same time. For programs or data storage areas that require addresses to be fixed in the entire system, the logical address range is centrally managed as in the former method and recorded in advance in the logical address management information.2. FIG. 3 is an explanatory diagram for explaining an overview of a conventional unified management logical address assignment method, and FIG. 4 is an explanatory diagram for explaining a conventional dynamic logical address assignment method. In Figures 3 and 4, 1 is the program creation name, 2
3 is the target program, 3 is the address resolution/registration stage 1, and 4 is the logical Atnos unified allocation management mechanism. 5 is an external storage space for program registration, 6 is a logical address-source management information, and 7 is a program loading means. 8 is a memory 59 is a dynamic logical address allocation/address resolution/program loading means, 10 is an external storage space for program registration, ], ] is logical atone management information, and 12 is a memory. [Problems to be Solved by the Invention] However, in the centrally managed logical address allocation method shown in FIG. The problem was that it required management. Furthermore, the conventional dynamic logic at! shown in FIG. With the Nose allocation method, there is no particular problem when the logical address is arbitrary and only programs are used, but if programs or data storage areas that require a fixed logical address are mixedly used, it is necessary to fix the logical address. It is necessary to centrally manage the logical addresses of programs or data storage areas that need to be stored, and when registering in the system, it is necessary to add and record a child fixed atto-nos section in the logical address management information in advance. The problem is that it is troublesome and prone to errors because it requires manual management work. The present invention has been made to solve the above-mentioned problems, and the problem is to be aware of the coexistence of programs or data storage areas with fixed logical addresses and programs or data storage areas with arbitrary logical addresses. program without,
An object of the present invention is to provide a technology that can automatically allocate logical addresses to data storage areas. The above and other objects and novel features of the present invention will become apparent from the description of this specification and the accompanying drawings. [Means for Solving the Problems] In order to solve the above-mentioned problems, the present invention provides a method for solving problems in a logical space in a computer system in which the correspondence between a logical address and a program to be allocated is fixed for each computer system. A logical address allocation method that allocates addresses as programs, and should maintain and allocate management information regarding the correspondence between names that can uniquely identify programs and allocated logical addresses, and the range of free logical addresses that are not allocated to any program. Information indicating whether the logical address is fixed or arbitrary is set in the program control information based on the information on whether the logical address is fixed or arbitrary and, in the case of a fixed address, the interval information of that logical address. However, in the case of a fixed address, a specified address range is assigned to the program, and in the case of a program, the address is resolved, and in the case of a program that can accept any address, the program registration means is configured to skip the address assignment and resolution processing, and a new individual When recording a program in the system, if the logical address to be assigned to the program is arbitrary by referring to the logical address management information and the control information of the target program for the program, the logical address management information In addition to updating the logical address management information mentioned above, in the case of a program, the address is resolved, and if the logical address to be assigned is fixed, the fixed address assigned to the program is used as a key. Check the logical address management information to see if the address range has been assigned to another program, and if it has not been assigned, the program name, address range, and address to be assigned are fixed. If you have registered information and all or part of that address has been assigned to another program, please register the new program name, address range, and information that the address to be assigned is fixed, and then register the address. If the other program with which the logical address is duplicated is a program whose logical address can be arbitrary, the logical address is reassigned by referring to the logical address management information and the logical address management information is updated. The most important feature is that it has logical address (re)assignment/address (re)resolution means for performing resolution. In addition, in order to enable the data storage area to be handled in the same way as the program, a program in which only the data area is defined is used as the data storage area. [Operation] According to the above-mentioned means, the control program manages the allocation of logical addresses for each individual system, so that the program or data storage area to which the logical address is allocated can be used by the program or data storage area used by each individual system. In addition to setting information on whether the logical address is fixed in the control information of the program or data storage area in advance, the program or data storage area with a fixed logical address is registered in the system. At the same time, it is checked whether the fixed logical address of the program or data storage area overlaps with another program or data storage area, and if it is, the fixed logical address of the other program or data storage area is checked. In the case of reassignment and program, re-address resolution is performed at the same time, so the logical address can be any program or data storage area with a fixed logical address, and the logical address for the program or data storage area can be changed without being aware of the mixture with the program or data storage area. In other words, the conventional technology is capable of automatically assigning addresses, even when a program or data storage area with a fixed logical address and an arbitrary program or data storage area are used together. Or, when registering a data storage area, even if its logical address overlaps with another program or data storage area, the address that has already been allocated to another program or data storage area must be reallocated, and in the case of a program, the address must be re-resolved. By doing this, you can program without being aware of the mixture of the two. The difference is that the logical address assignment of the data storage area can be done automatically. [Embodiment of the Invention] An embodiment of the present invention will be specifically described below with reference to the drawings. FIG. 1 is an explanatory diagram illustrating a logical space address allocation method according to an embodiment of the present invention, and FIG. It is an explanatory diagram for explanation. 1 and 2, 13 is an external storage space for program registration, 14 is logical address allocation management information for each system, 15 is a new registration program, 16 is a program registration means for registering a program in the external storage space, 17 18 is a logical address (re)assignment/address (re)resolver that performs program logical address (re)assignment and program address (re)resolution, and 18 is a program caller. ] 89 is a program loading means for loading the program into the memory, and 20 is a memory. First, a program with a fixed logical address is registered in the external storage space 13 for program registration using the program registration means 16.Next, the logical address (re) to the program is registered.
When the allocation/address (re)solving means]7 is operated, the logical address (re)allocation/address (re)solving means 17 reads the program registered in the external storage space for program registration]3, Recognize that the read program is a program with a fixed logical address. Next, check whether the program name of the target program is registered by referring to the logical address allocation management information J4, and if it is not registered, use the fixed address section as a key and write the address of that section in the management information. Check for duplicate existing registered programs and find that some addresses are duplicates! ! ! Understand. After confirming that the existing program that is being duplicated is a program with an arbitrary logical address, register the program information for the fixed At1 No. The logical address is reallocated and the name of the target program and the allocated logical address section are re-registered in the management information. Subsequently, address resolution processing is performed for the program, and the processed target program is stored in the column storage space 13 for program registration. When the target of duplication is a data storage area, only the logical address assignment and management information update are performed.9 Afterwards, when the system is running, the logical address 17
When the target program is called from another program by the address (re)resolving means 17, it is loaded onto the memory 20 by the program loading means 19 in response to a program loading request from the program caller]8. . At this time, the program's address resolution processing has already been completed, so it is not performed. As can be seen from the above description, according to this embodiment, based on the system-specific W1 physical address management information, a logical address is allocated only to the program or data storage area used in the system, and the logical address is fixed. Even if a program or data storage area and an arbitrary program or data storage area coexist, when registering the program or data storage area in the system, refer to the control information of the program or data storage area to create a program with a fixed logical address. Or identify whether it is a data storage area or not, and if the logical address is a program or data storage area with a fixed logical address, the logical address of an existing program or data storage area is reallocated, and if the logical address is a program, re-address resolution is performed. After processing, the target program or data storage area is registered, so you can register the logical address for the program and data storage area without being aware of the coexistence of a program or data storage area with a fixed logical address and an arbitrary program or data storage area. Assignment can be done automatically. The present invention has been specifically explained above based on examples, but
It goes without saying that the present invention is not limited to the embodiments described above, and can be modified in various ways without departing from the spirit thereof. [Effects of the Invention] As described above, according to the present invention, logical addresses for programs and data storage areas can be set without being aware of the coexistence of programs and data storage areas with fixed logical addresses and arbitrary programs or data storage areas. Assignment can be done automatically. Furthermore, since the data storage area can be handled in the form of a program, it is possible to fix the address.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram illustrating a logical space address allocation method according to an embodiment of the present invention. FIG. 2 is an explanatory diagram for explaining the positional relationship of the components in the computer system and the flow of processing in this embodiment. FIG. 3 is an explanatory diagram for explaining the conventional unified management logical address allocation method. , FIG. 4 is an explanatory diagram for explaining the problems of the conventional dynamic logical address allocation method. In the figure, 1... program creator, 2... target program, 3... address resolution/registration means, 4... logical address-original allocation management mechanism, 5... external storage space for program registration , 6... Logical address - original management information, 7
...Program loading means, 8...Memory, 9...
・Dynamic logical address allocation/address resolution/program loading means, 10...external storage space for program registration,
11...Logical address management information, 12...Memory,
13... External storage space for program registration, 14...
System-specific logical address management information, 15... New registration program, 16... Program registration means, 17
. . . Logical address (re)assignment/address (re)solution means, 18 . . . Target program caller, 19 . . . Program load means, 20 . . . Memory. Figure 3

Claims (2)

[Claims] (1) A logical address allocation method that allocates addresses in logical space as programs in computer systems where the correspondence between logical addresses and programs to be allocated is fixed for each computer system. It maintains management information regarding the correspondence between identifiable names and assigned logical addresses and the range of free logical addresses that have not been assigned to any program, as well as information on whether the logical addresses to be assigned are fixed or arbitrary, and the fixed address range. In this case, information indicating whether the logical address is fixed or arbitrary is set in the control information of the program based on the interval information of the logical address, and in the case of a fixed address, the specified address interval is assigned to the program,
A program registration means that resolves addresses in the case of programs and skips address assignment and resolution processing in the case of programs that can use any address, and a logical address If the logical address to be assigned to the program is arbitrary by referring to the management information of the target program and the control information of the target program, the logical address is assigned by referring to the logical address management information and the logical address management information is updated. In this case, the address is resolved, and if the logical address to be allocated is fixed, the address range is allocated to another program by referring to the logical address management information using the fixed address allocated to that program as key information. If it is not allocated, register the program name, address range, and information that the address to be allocated is fixed, and check if all or part of the address is allocated to another program. If the program name and address range to be newly registered and the information that the address to be allocated is fixed are registered, and if another program with the same address is a program whose logical address can be arbitrary, then , having a logical address (re)assignment/address (re)solution means that refers to logical address management information, reassigns a logical address, updates the logical address management information, and resolves the address in the case of a program; A logical space address allocation method characterized by: (2) In the logical space address allocation method according to claim (1), in order to make it possible to treat the data storage area in the same way as the program, a program in which only the data area is defined is used as the data storage area. A logical space address allocation method characterized by: