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Inspur Conformance Statement

Product Standard: Internationalized System Calls and Libraries Extended V3

Organization Inspur
Author Cong Rong


1. Internationalized System Calls and Libraries Extended V3

Product Information

Product IdentificationVersion/Release NumberProduct Supplier
1. Inspur K-UX 2.0 Inspur (Beijing) Electronic Information Industry Co., Ltd. 

Environment Specification

Testing Environment Binary-compatible Family Portability Environment Indicator of Compliance Compliance Details
1.
Inspur NF-5220
Inspur K-UX on x86_64
None. Test Report from Test Suite Test Suite: VSX4.7.5 VSX5.3.3 VSU5.3.4 VSRT5.4.5 VSTH5.5.5
Test Report: report_vsx_inspur.tar.bz2

Temporary Waivers

None.


1.1 General Attributes

1.1.1 XSI Option Groups

Question 1: Which of the following XSI Option Groups are supported by the implementation?

Response

Rationale


1.1.2 Options

Question 2: Which of the following options are supported by the implementation?

Response

Rationale


1.1.3 POSIX.1 Supported Features

Question 3: For each of the symbolic constants, specified in the <unistd.h> header file, are the associated features always available on the system?

Response

Rationale


1.1.4 Float, Stdio, and Limit Values

Question 4: What are the values associated with the following constants specified in the <float.h> header file?

Response

Rationale


Question 5: What are the values associated with the following constants (optionally specified in the <limits.h> header file)?

Response

Rationale


Question 6: What are the values associated with the following constants specified in the <limits.h> header file?

Response

Rationale


Question 7: What are the values associated with the following numerical constants specified in the <limits.h> header file?

Response

Rationale


Question 8: What are the values associated with the following numerical constants specified in the <stdio.h> header file?

Response

Rationale


1.1.5 Error Conditions

Question 9: Which of the following option errors, ( denoted by "may fail" within the specification ), listed in System Interfaces, Issue 6 are detected in the circumstances specified?

Response

Rationale


1.1.6 Mathematical Interfaces

Question 10: What format of floating-point numbers is supported by this implementation?

Response

Rationale


Question 11: Which floating-point exceptions are supported by this implementation for the fegetexecptflag(), feraiseexcept(), fesetexecptflag(), and fetestexecptflag() functions?

Response

Rationale


Question 12: Which floating-point rounding directions are supported by this implementation for the fegetround(), and fesetround() functions?

Response

Rationale


Question 13: Is a non-stop floating-point exception mode supported by this implementation?

Response

Rationale


1.1.7 Data Encryption

Question 14: Are the optional data encryption interfaces provided?

Response

Rationale


1.2 Process Handling

1.2.1 Process Generation

Question 15: Which file types (regular, directory, FIFO, special and so on) are considered to be executable?

Response

Rationale


1.3 File Handling

1.3.1 Access Control

Question 16: What file access control mechanisms does the implementation provide?

Response

Rationale


1.3.2 Files and Directories

Question 17: Are any additional or alternate file access control mechanisms implemented that could cause fstat() or stat() to fail?

Response

Rationale


1.4 Internationalized System Interfaces

1.4.1 Coded Character Sets

Question 18: What coded character sets are supported by the implementation?

Response

Rationale


Question 19: What is the implementation's underlying internal codeset?

Response

Rationale


1.5 Pseudo-Terminals

1.5.1 Master close

Question 20: Does closing the master side of a pseudo-terminal flush all queued input and output?

Response

Rationale


1.5.2 Slave close

Question 21: Does closing the slave side of a pseudo-terminal cause a zero-length message to be sent to the master?

Response

Rationale


1.5.3 Naming Conventions

Question 22: What naming conventions are associated with the master side of pseudo-terminal devices?

Response

Rationale


1.6 Polling

Question 23: What types of file can be polled?

Response

Rationale


1.7 Stack Growth Direction

Question 24: What is the direction of stack growth?

Response

Rationale


1.8 Signal Codes

Question 25: Which of the following si_code values may be generated?

Response

Rationale


1.9 Set Process Group ID

Question 26: Does the setpgrp() function create a new session?

Response

Rationale


1.10 Signals Generating a Core File

Question 27: Does the implementation generate a core file when the following signals are delivered to a process?

Response

Rationale


1.11 Sockets

1.11.1 Listen Queues

Question 28: What is the limit the implementation places on the length of a socket's listen queue?

Response

Rationale


1.11.2 Address Families, Socket Types, and Protocols

Question 29: What combinations of address family, socket types, and protocols does the implementation support?

Response

Rationale


1.11.3 Socket Types

Question 30: What socket types does the implementation support?

Response

Rationale


1.12 Threads

1.12.1 Cancellation Points

Question 31: Which functions have cancellation points that occur when a thread is executing?

Response

Rationale


1.13 C-language Compilation Environment

Question 32: What C-language compilation environments are provided?

Response

Rationale


Question 33: What execution environments are provided on the system under test?

Response

Rationale


1.14 Realtime

1.14.1 Prioritized I/O

Question 34: Does the implementation support _POSIX_PRIORITIZED_IO?

Response

Rationale


1.14.2 Cancelable Asynchronous I/O Operations

Question 35: If the Realtime Option Group is supported, what asynchronous I/O operations are cancelable with aio_cancel()?

Response

Rationale


1.15 Realtime Threads

1.15.1 Scheduling Policies

Question 36: If the Realtime Threads Option Group is supported, what scheduling policy is associated with SCHED_OTHER?

Response

Rationale


1.15.2 Scheduling Contention Scope

Question 37: If the Realtime Threads Option Group is supported, what scheduling contention scopes are supported: PTHREAD_SCOPE_PROCESS, PTHREAD_SCOPE_SYSTEM, or both?

Response

Rationale


1.15.3 Default Scheduling Contention Scope

Question 38: If the Realtime Threads Option Group is supported, what is the default scheduling contention scope when a process is created?

Response

Rationale


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