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Amendment Standard – Superseded. This amendment is part of the POSIX series of standards for applications and user interfaces to open systems. It defines the applications interface to basic system services for input/output, file system access, and process management. It also defines a format for data interchange. When options specified in the Realtime Extension are included, the standard also defines interfaces appropriate for realtime applications.

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4	(3) Process group
5	5.4.2 Make a FIFO Special File Make a FIFO Special File
7	before it is delivered A notable exception to this is SIGCLD which in System
11	INFORMATION TECHNOLOGY-POS
12	Introduction Organization of This Standard
13	Base Documents Background
14	Audience Purpose
18	Related Standards Activities
27	Section 1: General 1.1 Scope When the value is zero there is a (possibly empty) set of processes awaiting the operation shall cause the calling process to be blocked and added to the set of semaphore File attributes that are not necessary for data retrieval (access time modification Identical to a syn- 2 I LC- [A-Z semaphore. h> signal.h> sys/mman.h> sys/stat.h> sys/times.h> An implementation may define additional notification mechanisms error conditions defined for read ( ) and write ( the error conditions defined for read 1 and write ( The aiocb structure and the data buffers associated with the asynchronous I/C) 77 LIO-READ then an U0 operation is submitted as if by a call to aio-read Following a call to sem-open0 with semaphore name all references to the semaphore have been destroyed by calls to sem-dose ( Function: sernxetuaZue( m.unlockaZZ mZockaZZ( Function: rnsync Upon successful completion the msync() function shall return a value of zero; oth- If any of the following conditions occur the sched_getqriority-max( Either the implementation shall support the clock-settime ( cloch_gettime ( Per-process timers shall not be inherited by a child process across a forki Either the implementation shall support the timer-settime ( If the timerxetouerrun( Name 22 extensions to this structure which may change the behavior of’ the application Function: mq-close ( the mq-attr structure are ignored by mq-setattr( Therefore a Conforming POSIX development process The standard specifies several new values for the si-code member of the tional information for implementation-generated signals such as SIGFPE This standard chose not nals generated by one of the P0SM.lb asynchronous events and those instead of in a signal-handling function This allows applications to be written in Note that the semantics of the sigulaitinfo0 function are nearly identical to that Zseek ( The difference between synchronized YO data integrity and synchronized YO file Memory locking for realtime applications is also generally considered to be an ﬁall tially clstirblished by nznmp( the address of that repjon to othtx processes macro that invokes unlink ( time quantum or whether it is a systemwide value or a per-process value 6391 expiration time and the it-internal member to the desired repetition Many applications including both realtime and database applications require a 230 sigevent with the members 23 sigev-notify sigev-signo sigeu-value and the union 233 234 sigval with the members 235 sival-int sivalgtr 236 24 The unarnet) operation provides basic identification of the system The sysconf( POSM.1 operations typically specifylng the behavior in terms of POSIX { CHILD-MAX does not preempt the process calling semqost( If MAX-PROC” > 64 65 plus the number of processors minus If MAX-PROC > 128 129 plus the number of processors minus MQ Close Time already containing a single message for messages of the fol- The cache capabilities buffer structure rf-cupcuche buf specifies the cache capabili- The members of the structure are defined as follows: Function: rf-setattr( found to be in error No attributes of the file are changed directory then the capabilities refer to Function: rfsetbiocap ( Function: rfxetuiocup [ mq-open ( mq-unlin k( msync (
28	1.2 Normative References 1040 1041 1042 24 Fundamental transfer size / Fundamental transfer size /
29	1.3 Conformance
35	Section 2: Terminology and General Requirements 2.1 Conventions
36	2.2 Definitions
41	Section
43	2.2 Definitions
45	11.2 Semaphore Functions H.2 Realtime File Functions
47	2.2 Definitions
51	2.3 General Concepts
54	2.4 ErrorNumbers Error Numbers Error Numbers 2.4}
58	2.5 Primitive System Data Types Primitive System Data Types sages of the following msg-Zen: lowing lengths: Primitive System Data Types I2.5 I2.5 Primitive System Data Types Primitive System Data Types Primitive System Data Types I2.51 Primitive System Data Types I2.5 Primitive System Data Types Primitive System Data Types Primitive System Data Types
59	2.6 Environment Description
60	2.7 C Language Definitions Symbols From the C Standard I2.7.11
62	Reserved Header Symbols
66	2.8 Numerical Limits Minimum Values I2.8.2
67	Minimum Values
68	Run-Time Increasable Values
69	Run-Time Invariant Values (Possibly Indeterminate) B.12 Memory Management
70	Pathname Variable Values Invariant Value Maximum Values B.13 Execution Scheduling
71	2.9 Symbolic Constants Symbolic Constants for the access() Function Symbolic Constants for the Zseek() Function B 15 Message Passing
72	Compile-Time Symbolic Constants
73	Execution-Time SymbolicConstants
75	Section 3: Process Primitives 3.1 Process Creation and Execution 3.1.1 Process Creation Process Creatic In
77	3.1.2 Execute a File Execute a File Execute a File Execute a File Execute a File Execute a File Execute a File Execute a File I3.1.21 Execute a File
78	H.2 Realtime File Functions
79	3.1 Process Creation and Execution
81	3.2 Process Termination 6537
82	3.2.1 Wait for Process Termination Wait for Process ‚Fermination <sys/wait hi
84	3.2.2 Terminate a Process Terminate a Process 3,2.2)
86	3.3 Signals 3.3.1 Signal Concepts Signal Names
87	Required Signals Job Control Signals
88	Memory Protection Signals
89	3.3 Signals
91	3.3 Signals
94	3.3.2 Send a Signal to a Process Send a Signal to a Process 3.3.2}
95	3.3.3 Manipulate Signal Sets Manipulate Signid Sets
96	3.3.4 Examine and Change Signal Action
99	3.3.5 Examine and Change Blocked Signals
101	3.3.6 Examine Pending Signals 3.3.7 Wait for a Signal 15.2 Message Passing Functions Wait for a Signal
102	3.3.8 Synchronously Accept a Signal Synchronously Accept a Signal Synchronously Accept a Signal
103	3.3 Signals
104	3.3.9 Queue a Signal to a Process
105	3.4 Timer Operations 3.4.1 Schedule Alarm Schedule Alarm {
106	3.4.2 Suspend Process Execution Suspend Process Execution
107	3.4.3 Delay Process Execution Delay Process Execution
109	Section 4: Process Environment 4.1 Process Identification 4.1.1 Get Process and Parent Process IDS ocess IDS f4.1.11 ocess IDS
110	4.2 User Identification IDS 4.2.2 Set User and Group IDS Group IDS Group TDs I4.2.l Group IDS I4.2.11 Group IDS
112	4.2.3 Get Supplementary Group IDS IDS
113	4.2.4 Get User Name getlogin ( )
114	4.3 Process Groups 4.3.1 Get Process Group ID 4.3.2 Create Session and Set Process Group ID Get Process Gro
115	4.3.3 Set Process Group ID for Job Control
116	4.4 System Identification 4.4.1 Get System Name Get System Name
117	4.5 Time 4.5.1 Get System Time uname() Structure Members
118	4.5.2 Get Process Times Get Process Tim }
119	4.6 Environment Variables 4.6.1 Environment Access Environment Access
120	4.7 Terminal Identification 4.7.1 Venerate Terminal Pathname Generate Terminal Pathname
121	4.7.2 Determine Terminal Device Name 4.8 Configurable System Variables 4.8.1 Get Configurable System Variables Determine Terminal Device Name Variables I4.8
122	Configurable System Variables
125	Section 5: Files and Directories 5.1 Directories 5.1.1 Format of Directory Entries 5.1.2 Directory Operations Directory Operations Directory Operations { Format of Directory Entries Directory Operations
128	5.2 Working Directory 5.2.1 Change Current Working Directory Change Current Working Directory I5.2.1
129	5.2.2 Get Working Directory Pathname Get Working Directory Pathname
130	5.3 General File Creation 5.3.1 Open a File Open a File
133	Create a New File or Rewrite an Existing One Create a New File or Rewrite an Existing One
134	5.3.3 Set File Creation Mask 5.3.4 Link to a File Link to a File
136	5.4 Special File Creation 5.4.1 Make a Directory important to document whether using shared memory may result in some Make a Directory I5.4.1
139	5.5 FileRemoval 5.5.1 Remove Directory Entries
140	5.5.2 Remove a Directory
141	5.5.3 Rename a File
143	5.6 File Characteristics File Characteristics: Header and Data Structure der and Data Structure
144	stat Structure
146	5.6.2 Get File Status Get File Status Get File Status
147	5.6.3 Check File Accessibility Check File Accessibility 15.6.31
148	5.6.4 Change File Modes Change File Modcs 15.6.4 Change File Modes
150	5.6.5 Change Owner and Group of a File Change Owner and Group of a File
152	5.6.6 Set File Access and Modification Times
153	5.6.7 Truncate a File to a Specified Length Truncate a File to a Specified Length
155	5.7 Configurable Pathname Variables 5.7.1 Get Configurable Pathname Variables Get Configurable Pathname Variables Get Configurable Pathname Variables
156	Configurable Pathname Variables
159	Section 6: Input and Output Primitives 6.1 Pipes 6.1.1 Create an Inter-Process Channel Create an Inter-Process Channel I6.1.1
160	6.2 File Descriptor Manipulation 6.2.1 Duplicate an Open File Descriptor Duplicate an Open File Descriptor Duplicate an Open File Descriptor
161	6.3 File Descriptor Deassignment 6.3.1 Close a File Close a File
163	6.4 Input and Output 6.4.1 Read from a File
165	6.4.2 Write to a File
168	6.5 Control Operations on Files 6.5.1 Data Definitions for File Control Operations cmd Values for fcntZ() File Descriptor Flags Used forfcntlo Z-type Values for Record Locking With fcntZ( ) Data Definitions for File Control Operations
169	6.5.2 File Control File Access Modes Used for open() andfcntlo Mask for Use With File Access Modes File Control
171	flock Structure
172	fcntZ() Return Values
173	6.5.3 Reposition Reamrite File Offset Reposition Reamrite File Offset
175	6.6 File Synchronization 6.6.1 Synchronize the State of a File 6.6 File Synchronization Synchronize the State of a File
176	6.6.2 Synchronize the Data of a File Synchronize the Data of a File
177	6.7 Asynchronous Input and Output 6.7.1 Data Definitions for Asynchronous Input and Output 6.7 Asynchronous Input and Output Asynchronous I/O Control Block
179	6.7 Asynchronous Input and Output
180	6.7.2 Asynchronous Read Asynchronous Read
181	6.7 Asynchronous Input and Output
182	6.7.3 Asynchronous Write Asynchronous Write 6.7.3}
183	6.7 Asynchronous Input and Output
184	6.7.4 List Directed U0 7.2.4 Set Foreground Process Group ID List Directed U0
185	6.7 Asynchronous Input and Output
187	6.7.5 Retrieve Error Status of Asynchronous U0 Operation 6.7 Asynchronous Input and Output I6.7.51
188	6.7.6 Retrieve Return Status of Asynchronous U0 Operation 6.7.6}
189	6.7.7 Cancel Asynchronous U0 Request 6.7 Asynchronous Input arid Output Cancel Asynchronous I/O Request
190	6.7.8 Wait for Asynchronous VO Request Wait for Asynchronous I/O Request
191	6.7 Asynchronous Input and Output
192	6.7.9 Asynchronous File Synchronization Asynchronous File Synchronization I6.7.91
193	6.7 Asynchronous Input and Output
195	Section 7: Device- and Class-Specific Functions 7.1 General Terminal Interface 7.1.1 Interface Characteristics 7.1.1.1 Opening a Terminal Device File 7.1.1.2 Process Groups
196	7.1.1.3 The Controlling Terminal 7.1.1.4 Terminal Access Control
197	7.1.1.5 Input ProcessingandReading Data
198	7.1.1.6 Canonical Mode Input Processing 7.1.1.7 NoncanonicalModeInput Processing
199	7.1.1.8 Writing Data andoutput Processing 7.1.1.9 Special Characters
201	7.1.1.10 Modem Disconnect 7.1.2 Parameters That Can Be Set l 7.1.2.1 termzos Structure
202	Input Modes twmios Structure trrmios c-iflag Field
203	Output Modes
204	Control Modes termios c-cflag Field
205	Local Modes termios c-lflag Field
206	Special Control Characters terrniosc-cc Special Control Characters
207	Baud Rate Values 7.1.3 Baud Rate Functions 7.1.3.1 Synopsis termios Baud Rate Values Baud Rate Functions Baud Rate Functians Baud Rate Functions Baud Rate Functions
208	7.1.3.3 Returns 7.1.3.4 Errors 7.1.3.5 Cross-References
209	General Terminal Interface Control Functions 7.2.1 Gct and Set State tcgetattr( 1 Get and Set State
211	7.2.2 Line Control Functions tcdrain ( ) Line Control Functions Line Control Functions Line Control Functions
213	7.2.3 Get Foreground Process Group ID Get Foreground Process Group ID 7.2.3}
217	Section 8: Language-Specific Services for the C Programming Language 8.1 Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines I8.l Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines I8.l Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines I8 Referenced C Language Routines Referenced C Language Routines age Routines age Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C LA anguage Routines Referenced C Language Routines Referenced C L anguage Routines Referenced C L anguage Routines Referenced C L anguage Routines Referenced C Language Routines Referenced C L anguage Routines Referenced C L anguage Routines Referenced C L anguage Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines I8.11 Referenced C Language Routines I8.l Referenced C Language Routines I8.l Referenced C Language Routines I8.l Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines I8.11 Referenced C Language Routines I8.l Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines outines outines I8.l outines outines I8.l outines utines 8.1) utines Referenced C Language Routines Referenced C Language Routines Referenced C Language Routines tan ( 1 Referenced C Language Routines tanh () Referenced C Language Routines
218	8.1.1 Extensions to Time Functions Extensions to Time Functions f8.1.11 Referenced C L anguage Routines tines Referenced C Language Routines Referenced C Language Routines outines
220	8.1.2 Extensions to setlocale( 1 Function
221	8.2 C Language InputIOutput Functions
222	8.2.1 Map a Stream Pointer to a File Descriptor Map a Stream Pointer to a File Descriptor
223	8.2.2 Open a Stream on a File Descriptor Open a Stream on a File Descriptor IS.2.2
224	8.2.3 Interactions of Other FZLE-Type C Functions
228	8.2.4 Operations on Files – the remove() Function 8.3 Other C Language Functions 8.3.1 Nonlocal Jumps 8.3.2 SetTimeZone Nonlocal Jumps
231	9.1 System Databases
232	9.2 Database Access 9.2.1 Group Database Access group Structure Group Database Access 19.2.1 Group Database Access
233	9.2.2 1 Jser Database Access passwd Structure getpwnam Z}
235	Section 10: Data Interchange Format 10.1 ArchiveJInterchange File Format 10.1.1 Extended tar Format tar Extended tar Format
236	tar Header Block
239	10.1.2 Extended cpio Format Extended cpio Format
240	Byte-Oriented cpi.0 Archive Entry
241	Values for cpio c mode Field
243	10.1.3 Multiple Volumes
245	Section 11: Synchronization 11.1 Semaphore Characteristics 11.2 Semaphore Functions 11 2.1 Initialize an Unnamed Semaphore
246	11.2.2 Destroy an Unnamed Semaphore
247	11.2.3 Initialize/Open a Named Semaphore 11.2 Semaphore Functions
249	11.2 Semaphore Functions
250	11.2.4 Close a Named Semaphore
251	11.2.5 Remove a Named Semaphore 11.2 Semaphore Functions
252	11.2.6 Lock a Semaphore
253	11.2.7 Unlock a Semaphore
255	11.2.8 Get the Value of a Semaphore 11.2 Semaphore Functions
257	Section 12: Memory Management
258	12.1 Memory Locking Functions 12.1.1 LocWUnlock the Address Space of a Process LocWnlock the Address Space of a Process LocWnlock the Address Space of a Process sys /marl h>
259	12.1 Memory Locking Functions
260	12.1.2 LocWUnlock a Range of Process Address Space LockAJnlock a Range of Process Address Space Address Space 12.1.2)
261	12.1 Memory Locking Functions
262	12.2 Memory Mapping Functions 12.2.1 Map Process Addresses to a Memory Object Map Process Addresses to a Memory Object 12.2.1}
263	Memory Protection Values
265	12.2 Memory Mapping Functions
266	12.2.2 Unmap Previously Mapped Addresses Unmap Previously Mapped Addresses 12.2.2)
267	12.2.3 Change Memory Protection Change Memory Protection
269	12.2.4 Memory Object Synchronization 12.2 Memory Mapping Functions
271	12.3 Shared Memory Functions 12.3.1 Open a Shared Memory Object 12.3 Shared Memory Functions
273	12.3.2 Remove a Shared Memory Object 12.3 Shared Memory Functions
275	Section 13: Execution Scheduling 13.1 Scheduling Parameters 13.2 Scheduling Policies 13.2 Scheduling Policies
276	13.2.1 SCHED-FIFO
277	13.2.2 SCHED-RR 13.2.3 SCHED-OTHER
278	13.3 Process Scheduling Functions 13.3.1 Set Scheduling Parameters
279	13.3.2 Get Scheduling Parameters 13.3 Process Scheduling Functions
280	13.3.3 Set Scheduling Policy and Scheduling Parameters
281	13.3 Process Scheduling Functions
282	13.3.4 Get Scheduling Policy
283	13.3.5 Yield Processor
284	13.3.6 Get Scheduling Parameter Limits
285	13.3 Process Scheduling Functions
287	Section 14: Clocks and Timers 14.1 Data Definitions for Clocks and Timers 14.1.1 Time Value Specification Structures Data Definitions for Clocks and Timers
288	14.1.2 Timer Event Notification Control Block 14.1.3 Type Definitions 14.1.4 Manifest Constants Type Definitions
289	14.2 Clock and Timer Functions 14.2.1 Clocks 14.2 Clock and Timer Functions Clocks ( Clocks ( Clocks I14.2.1
290	14.2.2 Create a Per-Process Timer
291	14.2 Clock and Timer Functions
292	14.2.3 Delete a Per-Process Timer
293	14.2.4 Per-Process Timers
295	14.2.5 High Resolution Sleep 14.2 Clock and Timer Functions High Resolution Sleep {
297	Section 15: Message Passing 15.1 Data Definitions for Message Queues 15.1.1 Data Structures 15.1 Data Definitions for Message Queues Data Structures mqueue.h>
298	15.2 Message Passing Functions 15.2.1 Open a Message Queue
301	15.2.2 Close a Message Queue 115.2.2
302	15.2.3 Remove a Message Queue
303	15.2.4 Send a Message to a Message Queue 15.2 Message Passing Functions Send a Message to a Message Queue
305	15.2.5 Receive a Message From a Message Queue Receive a Message From a Message Queue
306	15.2.6 Notify Process that a Message is Available on a Queue
307	15.2.7 Set Message Queue Attributes 15.2 Message Passing Functions Set Message Queue Attributes
309	15.2.8 Get Message Queue Attributes 15.2 Message Passing Functions ributes
311	Annex A (informative) Bibliography A.l Related Open Systems Standards
313	A.2 Other Standards
314	A.3 Historical Documentation and Introductory Texts
316	A.4 Other Sources of Information
317	Annex B (informative) Rationale and Notes Scope and Normative Cross-References
328	B.2 Ilefini tions and General Requirements
341	B.2 Definitions and General Requiremmts
356	Suggested Feature Test Macros
360	B.3 Process Primitives
369	B.3 Process Primitives
371	B.3 Process Primitives
375	B.3 Process Primitives
377	B.3 Process Primitives
385	B.3 Process Primitives
388	B.4 Process Environment
395	B.5 Files and Directories
406	B.6 Input and Output Primitives
415	B.6 Input and Output Primitives
417	B.6 Input and Output Primitives
419	B.6 Input and Output Primitives
421	B.6 Input and Output Primitives
423	B.7 Device- and Class-Specific Functions
426	(tm_year-70)31536 000 + ((tm_year-69)/4)86
433	Language-Specific Services for the C Programming Language
443	B.9 System Databases
444	B.10 Data Interchange Format
451	B.11 Synchronization B 11 Synchronization
453	B.12 Memory Management B 12 Memory Management
455	B.12 Memory Management
461	B.12 Memory Management
463	B 12 Memory Managemcd
465	B.12 Memory Management
466	B.X3 Execution Scheduling
469	B.13 Execution Scheduling
470	B.14 Clocks and Timers
473	B 14 Clocks and Timers
475	B 14 Clocks and Timers
477	B.15 Message Passing
481	B.15 Message Passing
483	Annex C (informative) Header Contents Samples
491	Annex C Header Contents Samples
501	Annex D (informative) Profiles D.l Definitions
503	D.2 Options in This Part of ISO/IEC D.3 Related Standards D.4 Related Activities
504	D.5 Relationship toIEEE Draft Project IEEE P1003.0
505	Annex E (informative) Sample National Profile
506	E.l (Example) Profile for Denmark
509	AnnexF (informative) Portability Considerations F.l User Requirements F.l User Requirements
511	F.2 Portability Capabilities F.2 Portability Capabilities
512	Portability Capability Summary
513	F.2 Portability Capabilities
515	F.2 Portability Capabilities
516	F.3 E™rofiling Considerations
519	F.3 Profiling Considerations
521	F.3 Profiling Considerations
523	Annex G (informative) Performance Metrics G 1 Performance Measurement Documentation
524	G.2 Signals
525	G.3 Synchronized Input and Output
527	G.4 Asynchronous Input and Output
529	G.5 Semaphores G.5 Semaphores
530	G.6 Process Memory Locking
531	G.7 Shared Memory G.8 Execution Scheduling G.8 Execution Scheduling
533	G.9 Clocks and Timers G.9 Clocks and Timers
536	G.10 Message Passing
537	Annex H (informative) Realtime Files Annex H Realtime Files
538	H.l Data Definitions for Realtime Files
539	Data Definitions for Realtime Files
541	Data Definitions for Realtime Files
544	H.2 Realtime File Functions
549	H.2 Realtime File Functions
551	H.2 Realtime File Functions
553	H.2 Realtime File Functions
556	H.3 Realtime Files
557	H.3 Realtime Files
558	H.4 Rationale for Realtime Files
559	H.4 Rationale for Realtime Files
561	H.5 Realtime File Functions H.5 Realtime File Functions
563	H.5 Realtime File Functions
567	Identifier Index Identifier Index
569	Identifier Index
573	Identifier Index
575	Alphabetic Topical Index

Published By	Publication Date	Number of Pages
IEEE	1994	616


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Standard Title	IEEE Standard for Information Technology – Portable Operating System Interfaces (POSIX(TM)) – Part 1: System Application Program Interface (API) – Amendment 1: Realtime Extension [C language]
Published Code	IEEE
Publication Date	1994
Pages Count	616

IEEE 1003.1b 1993:1994 Edition

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