Operating System Structure
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1 CSE325 Principles of Operating Systems Operating System Structure David Duggan January 27, 2011
2 A View of Operating System Services 1/26/2011 CSE325 - OS Structure 2
3 Operating System Design and Implementation Affected by choice of hardware, type of system User goals and System goals User goals operating system should be convenient to use, easy to learn, reliable, safe, secure, and fast System goals operating system should be easy to design, implement, and maintain, as well as flexible, reliable, errorfree, secure, and efficient Important principle to separate Policy: What will be done? Mechanism: How to do it? The separation of policy from mechanism is a very important principle, it allows maximum flexibility if policy decisions are to be changed later 1/26/2011 CSE325 - OS Structure 3
4 Operating Systems Structures Structure/Organization/Layout of OSs: 1. Monolithic (one unstructured program) 2. Layered 3. Microkernel 4. Virtual Machines The role of Virtualization CSE325 - OS Structure
5 Monolithic Operating System CSE325 - OS Structure 1/26/2011 5
6 Monolithic OS Basic Structure Application programs that invoke the requested system services. A set of system services that carry out the operating system procedures/calls. A set of utility procedures that help the system services. 1/26/2011 CSE325 - OS Structure 6
7 MS-DOS System Structure MS-DOS written to provide functionality in the least space: not divided into modules (monolithic). Although MS-DOS has some structure, its interfaces and levels of functionality are not well separated. CSE325 - OS Structure
8 MS-DOS Layer Structure 1/26/2011 8
9 UNIX System Structure UNIX limited by hardware functionality, the original UNIX operating system had limited structuring. The UNIX OS consists of two separable parts The kernel Consists of everything below the system-call interface and above the physical hardware Provides the file system, CPU scheduling, memory management, and other operating-system functions; a large number of functions for one level Systems programs 1/26/2011 CSE325 - OS Structure 9
10 Traditional UNIX System Structure
11 Traditional UNIX Kernel [Bach86]
12 Layered Approach The operating system is divided into a number of layers (levels), each built on top of lower layers. The bottom layer (layer 0) is the hardware; the highest (layer N) is the user interface. With modularity, layers are selected such that each uses functions (operations) and services of only lower-level layers. CSE325 - OS Structure
13 Layered Operating System 1/26/
14 Operating System Layers CSE325 - OS Structure 1/26/
15 Older Windows System Layers 15
16 Microkernel System Structure Move as much functionality as possible from the kernel into user space. Only a few essential functions in the kernel: primitive memory management (address space) I/O and interrupt management Inter-Process Communication (IPC) basic scheduling Other OS services are provided by processes running in user mode (vertical servers): device drivers, file system, virtual memory 1/26/2011 CSE325 - OS Structure 16
17 Layered vs. Microkernel Architecture 17
18 Microkernel System Structure Communication takes place between user modules using message passing Benefits: Easier to extend a microkernel Easier to port the operating system to new architectures More reliable (less code is running in kernel mode) More secure Detriments: Performance overhead of user space to kernel space communication CSE325 - OS Structure
19 Microkernel Operating System CSE325 - OS Structure 1/26/2011
20 Benefits of a Microkernel Organization Extensibility/Reliability modular design easier to extend a microkernel more reliable (less code is running in kernel mode) more secure (less code to be validated in kernel) small microkernel can be rigorously tested. Portability changes needed to port the system to a new processor is done in the microkernel, not in the other services. 1/26/2011 CSE325 - OS Structure 20
21 Mach 3 Microkernel Structure 1/26/2011 CSE325 - OS Structure 21
22 Mac OS X Structure 1/26/2011 CSE325 - OS Structure 22
23 Windows NT Client-Server Structure 1/26/2011 CSE325 - OS Structure 23
24 Windows NT 4.0 Architecture
25 Structure of the MINIX 3 System
26 Kernel Modules Most modern operating systems implement kernel modules Uses object-oriented approach Each core component is separate Each talks to the others over known interfaces Each is loadable as needed within the kernel Overall, similar to layers but more flexible 1/26/2011 CSE325 - OS Structure 26
27 Solaris Modular Approach CSE325 - OS Structure 1/26/
28 XP Architecture
29 Virtual Machines A virtual machine takes the layered approach to its logical next step. It treats hardware and the operating system kernel as though they were all hardware A virtual machine provides an interface identical to the underlying bare hardware The operating system host creates the illusion that a process has its own processor (and virtual memory) Each guest provided with a (virtual) copy of underlying computer 1/26/2011 CSE325 - OS Structure 29
30 Virtual Machines (Cont.) Non-virtual Machine Virtual Machine (a) Non-virtual machine (b) virtual machine 1/26/2011 CSE325 - OS Structure 30
31 Testing a new Operating System
32 Integrating two Operating Systems
33 The Role of Virtualization (a) General organization between a program, interface, and system. (b) General organization of virtualizing system A on top of system B. 33
34 Java Virtual Machine Compiled Java programs are platform-neutral bytecodes executed by a Java Virtual Machine (JVM). JVM consists of: - class loader - class verifier - runtime interpreter Just-In-Time (JIT) compilers increase performance. CSE325 - OS Structure
35 The Java Virtual Machine 1/26/
36 Hypervisor/VMM 1/26/2011 CSE325 - OS Structure 36
37 Types of Hypervisors (a) A type 1 hypervisor. (b) A type 2 hypervisor 1/26/2011 CSE325 - OS Structure 37
38 Para- vs. Full-virtualization Presents guest with system similar but not identical to hardware Guest must be modified to run on paravirtualized hardware Guest can be an OS, or in the case of Solaris 10 applications running in containers Full-virtualization: unmodified guest OSes 1/26/2011 CSE325 - OS Structure 38
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