xref: /freebsd/share/doc/psd/05.sysman/0.t (revision 2008043f386721d58158e37e0d7e50df8095942d)
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@(#)0.t 8.1 (Berkeley) 6/8/93

Berkeley Software Architecture Manual

4.4BSD Edition .AU William Joy, Robert Fabry, .AU Samuel Leffler, M. Kirk McKusick, .AU Michael Karels .AI Computer Systems Research Group Computer Science Division Department of Electrical Engineering and Computer Science University of California, Berkeley Berkeley, CA 94720 .EH 'PSD:5-%''4.4BSD Architecture Manual' .OH '4.4BSD Architecture Manual''PSD:5-%' .AB .FS * UNIX is a trademark of Bell Laboratories. .FE This document summarizes the facilities provided by the 4.4BSD version of the UNIX\|* operating system. It does not attempt to act as a tutorial for use of the system nor does it attempt to explain or justify the design of the system facilities. It gives neither motivation nor implementation details, in favor of brevity.

The first section describes the basic kernel functions provided to a UNIX process: process naming and protection, memory management, software interrupts, object references (descriptors), time and statistics functions, and resource controls. These facilities, as well as facilities for bootstrap, shutdown and process accounting, are provided solely by the kernel.

The second section describes the standard system abstractions for files and file systems, communication, terminal handling, and process control and debugging. These facilities are implemented by the operating system or by network server processes. .AE

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TABLE OF CONTENTS

 "Introduction." 

 "0. Notation and types" 

 "1. Kernel primitives" 

1.1. Processes and protection
1.1.1. Host and process identifiers
1.1.2. Process creation and termination
1.1.3. User and group ids
1.1.4. Process groups

1.2. Memory management
1.2.1. Text, data and stack
1.2.2. Mapping pages
1.2.3. Page protection control
1.2.4. Giving and getting advice
1.2.5. Protection primitives

1.3. Signals
1.3.1. Overview
1.3.2. Signal types
1.3.3. Signal handlers
1.3.4. Sending signals
1.3.5. Protecting critical sections
1.3.6. Signal stacks

1.4. Timing and statistics
1.4.1. Real time
1.4.2. Interval time

1.5. Descriptors
1.5.1. The reference table
1.5.2. Descriptor properties
1.5.3. Managing descriptor references
1.5.4. Multiplexing requests
1.5.5. Descriptor wrapping

1.6. Resource controls
1.6.1. Process priorities
1.6.2. Resource utilization
1.6.3. Resource limits

1.7. System operation support
1.7.1. Bootstrap operations
1.7.2. Shutdown operations
1.7.3. Accounting
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2. System facilities

2.1. Generic operations
2.1.1. Read and write
2.1.2. Input/output control
2.1.3. Non-blocking and asynchronous operations

2.2. File system
2.2.1 Overview
2.2.2. Naming
2.2.3. Creation and removal
2.2.3.1. Directory creation and removal
2.2.3.2. File creation
2.2.3.3. Creating references to devices
2.2.3.4. Portal creation
2.2.3.6. File, device, and portal removal
2.2.4. Reading and modifying file attributes
2.2.5. Links and renaming
2.2.6. Extension and truncation
2.2.7. Checking accessibility
2.2.8. Locking
2.2.9. Disc quotas

2.3. Interprocess communication
2.3.1. Interprocess communication primitives
2.3.1.1.\0 Communication domains
2.3.1.2.\0 Socket types and protocols
2.3.1.3.\0 Socket creation, naming and service establishment
2.3.1.4.\0 Accepting connections
2.3.1.5.\0 Making connections
2.3.1.6.\0 Sending and receiving data
2.3.1.7.\0 Scatter/gather and exchanging access rights
2.3.1.8.\0 Using read and write with sockets
2.3.1.9.\0 Shutting down halves of full-duplex connections
2.3.1.10.\0 Socket and protocol options
2.3.2. UNIX domain
2.3.2.1. Types of sockets
2.3.2.2. Naming
2.3.2.3. Access rights transmission
2.3.3. INTERNET domain
2.3.3.1. Socket types and protocols
2.3.3.2. Socket naming
2.3.3.3. Access rights transmission
2.3.3.4. Raw access

2.4. Terminals and devices
2.4.1. Terminals
2.4.1.1. Terminal input
2.4.1.1.1 Input modes
2.4.1.1.2 Interrupt characters
2.4.1.1.3 Line editing
2.4.1.2. Terminal output
2.4.1.3. Terminal control operations
2.4.1.4. Terminal hardware support
2.4.2. Structured devices
2.4.3. Unstructured devices

2.5. Process control and debugging

I. Summary of facilities

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.. .bp 2.94 went to 2.6, 3.64 to 3.30
.. 3.5i went to 3.8i
.. .nr H1 -1 .sh "Notation and types

The notation used to describe system calls is a variant of a C language call, consisting of a prototype call followed by declaration of parameters and results. An additional keyword result, not part of the normal C language, is used to indicate which of the declared entities receive results. As an example, consider the read call, as described in section 2.1: cc = read(fd, buf, nbytes); result int cc; int fd; result char *buf; int nbytes; The first line shows how the read routine is called, with three parameters. As shown on the second line cc is an integer and read also returns information in the parameter buf.

Description of all error conditions arising from each system call is not provided here; they appear in the programmer's manual. In particular, when accessed from the C language, many calls return a characteristic -1 value when an error occurs, returning the error code in the global variable errno. Other languages may present errors in different ways.

A number of system standard types are defined in the include file <sys/types.h> and used in the specifications here and in many C programs. These include caddr_t giving a memory address (typically as a character pointer), off_t giving a file offset (typically as a long integer), and a set of unsigned types u_char, u_short, u_int and u_long, shorthand names for unsigned char, unsigned short, etc.