Apparatus and method for user-defined tunables | Patent Publication Number 20080065876
US 20080065876 A1Aswin Chandramouleeswaran
A user-defined tunable, and an apparatus and a method for creating the user-defined tunable, are described. The user-defined tunable includes a tunable name, an assigned value, and an expression that relates the user-defined tunable to one or more kernel tunables. The kernel tunables have parameter values defined by the expression, and a change to the expression changes the parameter values of the kernel tunables.
- 1. A system, implemented on a suitably programmed computing device, for creating user-defined tunables for assignment to a kernel of an operating system, comprising: na system administrator interface, comprising: na command and options module operable to create and change user-defined tunables and to change kernel tunables, a flag module operable to assign flags to one or more options, whereby the flags provide an indication to the kernel; an interface module that operates to display the user-defined tunables and the kernel tunables; and a storage module that stores the user-defined and kernel modules.
- 12. A method, implemented on a suitably programmed computing device, for tuning a kernel of an operating system kernel, comprising: nstarting the operating system, wherein the operating system kernel is accessible; within the operating system kernel, configuring one or more user-defined tunables, wherein the user-defined tunables are related to kernel tunables by an expression; and changing a user-defined tunable value, wherein a change to the value of the user-defined tunable causes a change to the kernel tunable according to an expression relating the user-defined tunable to the kernel tunable.
- 17. A computer-readable medium having programming that, when executed by a suitable computing device, allows tuning of an operating system kernel, the tuning comprising the steps of: nwithin the operating system kernel, configuring one or more user-defined tunables, wherein the user-defined tunables are related to kernel tunables by expressions; changing a user-defined tunable value, wherein a change to the value of the user-defined tunable causes a change to a kernel tunable according to an expression relating the user-defined tunable to the kernel tunable; and modifying the expression relating the user-defined tunable and the kernel tunable, wherein modifying the expression changes the value of the kernel tunable.
This application is a continuation application of and claims priority to U.S. patent application Ser. No. 10/669,207, filed Sep. 25, 2003, entitled “Apparatus and Method For User-Defined Tunables.†The specification of the earlier application is incorporated herein by reference in its entirety.
The technical field is UNIX® operating systems. More specifically, the technical field relates to tools and processes that a system administrator can employ to create tunables, and to adjust the values assigned to tunables.
One central component of a computer system operating in a UNIX® environment is an operating system kernel. In a typical UNIX® environment, many applications, or processes, may be running. All these processes use the memory-resident kernel to provide system services. The kernel manages the set of processes that are running on the system by ensuring that each such process is provided with some central processor unit (CPU) cycles when needed, and by arranging for such process to be resident in memory so that the process can run when required. The kernel provides a standard set of services that allows the process to interact with the kernel. In the UNIX® environment, these services are sometimes referred to as system calls because the process calls a routine in the kernel to undertake some specific task. The kernel will then perform the task, and will return a result. In essence, the kernel fills in the gaps between what the process intends to happen and how system hardware needs to be controlled to achieve the process's objective.
The kernel's standard set of services is expressed in a set of kernel modules (or simply, modules). The kernel typically includes modules such as drivers, file system modules, scheduling classes, Streams modules, and system calls. These modules are compiled and subsequently linked together to form the kernel. When the system is started, or “booted up,†the kernel is loaded into memory.
The UNIX® environment often employs kernel modules having adjustable parameters. Such adjustable parameters are commonly known as tunables. In current systems, tunables are created, and their default values are set by the kernel developer. In these current systems, the computer system end-user, or system administrator, is able to adjust the values assigned to these tunables, but is not able to create new tunables.
What is disclosed is a user-defined tunable that includes a tunable name, a tunable description, an assigned value, and expressions that relate one or more kernel tunables to the user-defined tunable. Each of the kernel tunables includes a parameter value defined by an expression. A change to the value of the user-defined tunable changes the parameter value of each of the kernel tunables whose values are expressions involving that user-defined tunable.
Also disclosed is an apparatus that provides user-defined tunables for use in a UNIX® operating system. The apparatus includes a system administrator interface having a user-defined tunable creation option, and a system administrator controlled value assignment option. The apparatus further includes a tunable repository that stores the user-defined tunables, and kernel configuration tools that read the user-defined tunables from the tunable repository and relate the user-defined tunables to a kernel in the UNIX® operating system.
Further, what is disclosed is a method for implementing user-defined tunables in a UNIX® operating system. The method includes the steps of creating a user-defined tunable and, using an expression, relating the user-defined tunable to one or more kernel tunables.
Finally, what is disclosed is a computer-readable medium having code to implement user-defined tunables in a UNIX® operating system. When implemented, the code allows performance of the steps of creating a user-defined tunable and, using an expression, relating the user-defined tunable to one or more kernel tunables.
The detailed description will refer to the following figures in which like numerals refer to like items, and in which:
In a UNIX® operating environment, kernel modules are provided with developer-provided tunables (referred to hereafter as kernel tunables). The operating system kernel may have a number of kernel modules. Each kernel module may define any number of kernel tunables, with the kernel tunables having tunable parameters, which are integer variables that control the behavior of the module. Kernel tunables are used for a variety of different tasks: some kernel tunables control resource allocations, other kernel tunables control security policies, still other kernel tunables enable optional kernel behavior. A typical kernel may have as many as 200 kernel tunables.
The kernel 10 also incorporates user-defined tunables (not shown). User-defined tunables are those created by system administrators. One user-defined tunable can be related to another user-defined tunable by way of expressions. User-defined tunables are also used in expressions for one or more kernel tunables and, hence, act as scaling factors. Once these user-defined tunables are established by the system administrator, the system administrator can change one user-defined tunable to modify all related kernel tunables. For example, the system administrator could create a num_databases tunable, and then set several kernel tunables based on its value. A subsequent change to the value of num_databases causes all related kernel tunable values to change as well. In addition, user-defined tunables can be defined by system administrators using tunable names that make sense to the system administrator. Finally, the user-defined tunables act exactly like kernel tunables in kernel configuration tools. Thus, user-defined tunables make the job of kernel tuning easier for the system administrator.
The system administrator interface 150 includes the necessary tools to view the user-defined tunables, to change tunable parameters, and to create expressions that relate the user-defined tunables to kernel tunables.
Using the various kctune command options 202, the system administrator can see that each tunable has a name and a textual description. Each tunable is associated with a kernel module whose name is listed in a verbose output. Tunables can be seen and changed only if they are associated with a module that is installed on the computer operating system, or are user-defined tunables.
When displaying tunable information for the currently running computer operating system, kctune 200 includes the current tunable value and the expression used to compute the value. If changes to the tunable's value are being held for the next system boot, the next boot value and expression are also shown. A verbose listing also shows the tunable's value when the system was last booted.
Tunable values are computed integer expressions, which can refer to other tunable values. The value of a tunable could be 4200, 0×400, or 4*nproc+20. Values and expressions use the syntax of the C programming language. Therefore numbers can be written in decimal, octal, or hexadecimal format.
Kernel tunables can be set to a default value, meaning the system will determine the optimum value for that parameter. In an embodiment, user-defined tunables, if set to default, are removed from the UNIX® operating system.
Tunable values can be assigned based on an expression. For example, user-defined tunable, utunable1, and kernel tunable, ktunable2, may be related by: ktunable2=utunable1*2+100, which means the value assigned to ktunable2 is the value of utunable1 times two, plus 100. Values of other kernel tunable may also be assigned by expressions using utunable1.
User-defined tunables operate in much the same fashion as kernel tunables. To create a user-defined tunable, the system administrator uses kctune 200, but with the −u (user-defined) flag. Subsequent changes to the user-defined tunable involve use of the kctune command 200, but use of the −u flag is not required. To remove the user-defined tunable utunable1, the system administrator uses: kctune−s utunable1=.
In block 420, if the system administrator selects modify an existing tunable, the process 400 move to block 460, and the system administrator designates the tunable to be modified. Using the system administrator interface 150, the system administrator can modify an existing user-defined tunable or an existing kernel tunable. In block 470, the system administrator selects a modification option. For example, the system administrator may select to modify an expression relating a user-defied tunable to one or more kernel tunables. In block 480, the system administrator selects a save option. The process 400 then moves to block 490 and ends.
The computer readable medium 500 may be any known medium, including optical discs, magnetic discs, hard discs, and other storage devices known to those of skill in the art. Alternatively, the programming required to implement the user-defined tunables may be provided using a carrier wave over a communications network such as the Internet, for example.