1 cs 501 spring 2008 cs 501: software engineering lecture 19 reliability 1
Post on 21-Dec-2015
220 views
TRANSCRIPT
3 CS 501 Spring 2008
Lectures on Reliability and Dependability
Lecture 19, Reliability 1: The development processReviews
Lecture 20, Reliability 2: Reliability and securityProgramming techniques
Lecture 21, Reliability 3: Testing and bug fixing
Acceptance testing is covered in Lecture 23, Delivering the System
4 CS 501 Spring 2008
Dependable and Reliable Systems: The Royal Majesty
From the report of the National Transportation Safety Board:
"On June 10, 1995, the Panamanian passenger ship Royal Majesty grounded on Rose and Crown Shoal about 10 miles east of Nantucket Island, Massachusetts, and about 17 miles from where the watch officers thought the vessel was. The vessel, with 1,509 persons on board, was en route from St. George’s, Bermuda, to Boston, Massachusetts."
"The Raytheon GPS unit installed on the Royal Majesty had been designed as a standalone navigation device in the mid- to late1980s, ...The Royal Majesty’s GPS was configured by Majesty Cruise Line to automatically default to the Dead Reckoning mode when satellite data were not available."
5 CS 501 Spring 2008
The Royal Majesty: Analysis
• The ship was steered by an autopilot that relied on position information from the Global Positioning System (GPS).
• If the GPS could not obtain a position from satellites, it provided an estimated position based on Dead Reckoning (distance and direction traveled from a known point).
• The GPS failed one hour after leaving Bermuda.
• The crew failed to see the warning message on the display (or to check the instruments).
• 34 hours and 600 miles later, the Dead Reckoning error was 17 miles.
6 CS 501 Spring 2008
The Royal Majesty: Software Lessons
All the software worked as specified (no bugs), but ...
• Since the GPS software had been specified, the requirements had changed (stand alone system to part of integrated system).
• The manufacturers of the autopilot and GPS adopted different design philosophies about the communication of mode changes.
• The autopilot was not programmed to recognize valid/invalid status bits in message from the GPS (NMEA 0183).
• The warnings provided by the user interface were not sufficiently conspicuous to alert the crew.
• The officers had not been properly trained on this equipment.
7 CS 501 Spring 2008
Key Factors for Reliable Software
• Organization culture that expects quality
• Approach to software design and implementation that hides complexity (e.g., structured design, object-oriented programming)
• Precise, unambiguous specification
• Use of software tools that restrict or detect errors (e.g., strongly typed languages, source control systems, debuggers)
• Programming style that emphasizes simplicity, readability, and avoidance of dangerous constructs
• Incremental validation
8 CS 501 Spring 2008
Building Dependable Systems: Three Principles
For a software system to be dependable:
• Each stage of development must be done well.
• Changes should be incorporated into the structure as carefully as the original system development.
• Testing and correction do not ensure quality, but dependable systems are not possible without systematic testing.
9 CS 501 Spring 2008
Building Dependable Systems: Organizational Culture
Good organizations create good systems:
• Acceptance of the group's style of work (e.g., meetings, preparation, support for juniors)
• Visibility
• Completion of a task before moving to the next (e.g., documentation, comments in code)
10 CS 501 Spring 2008
Building Dependable Systems: Quality Management Processes
Assumption:
Good processes lead to good software
The importance of routine:
Standard terminology (requirements, specification, design, etc.)
Software standards (naming conventions, etc.)
Internal and external documentation
Reporting procedures
11 CS 501 Spring 2008
Building Dependable Systems: Quality Management Processes
When time is short...
Pay extra attention to the early stages of the process: feasibility, requirements, design.
There will be no time to redo mistakes in the requirements.
Experience shows that taking extra time on the early stages will usually reduce the total time to release.
12 CS 501 Spring 2008
Building Dependable Systems: Specifications for the Client
Specifications are of no value if they do not meet the client's needs
• The client must understand and review the requirements specification in detail
• Appropriate members of the client's staff must review relevant areas of the design (e.g., operations, training materials, system administration)
• The acceptance tests must belong to the client
13 CS 501 Spring 2008
Building Dependable Systems: Modified Waterfall Model
Requirements
System design
Testing
Operation & maintenance
Program design
Implementation (coding)
Acceptance & release
Feasibility study
Changes
14 CS 501 Spring 2008
Building Dependable Systems: Change
Change management:
Source code management and version control
Tracking of change requests and bug reports
Procedures for changing requirements specifications, designs and other documentation
Regression testing
Release control
15 CS 501 Spring 2008
Building Dependable Systems: Complexity
The human mind can encompass only limited complexity:
• Comprehensibility
• Simplicity
• Partitioning of complexity
A simple system or subsystem is easier to get right than a complex one.
16 CS 501 Spring 2008
Reliability Metrics
Reliability
Probability of a failure occurring in operational use.
Perceived reliability
Depends upon:
user behaviorset of inputspain of failure
17 CS 501 Spring 2008
Metrics: User Perception of Reliability
1. A personal computer that crashes frequently v. a machine that is out of service for two days.
2. A database system that crashes frequently but comes back quickly with no loss of data v. a system that fails once in three years but data has to be restored from backup.
3. A system that does not fail but has unpredictable periods when it runs very slowly.
18 CS 501 Spring 2008
Reliability Metrics
Traditional Measures• Mean time between failures• Availability (up time)• Mean time to repair
Market Measures• Complaints• Customer retention
User Perception is Influenced by• Distribution of failures
Hypothetical example: Cars are less safe than airplanes in accidents per hour, but safer in accidents per mile.
19 CS 501 Spring 2008
Reliability Metrics for Distributed Systems
Traditional metrics are hard to apply in multi-component systems:
• In a big network, at any given moment something will be giving trouble, but very few users will see it.
• A system that has excellent average reliability might give terrible service to certain users.
• There are so many components that system administrators rely on automatic reporting systems to identify problem areas.
20 CS 501 Spring 2008
Metrics for Requirements: Specification of System Reliability
Example: ATM card reader
Failure class Example Metric
Permanent System fails to operate 1 per 1,000 daysnon-corrupting with any card -- reboot
Transient System can not read 1 in 1,000 transactionsnon-corrupting an undamaged card
Corrupting A pattern of Never transactions corrupts database
21 CS 501 Spring 2008
Metrics: Cost of Improved Reliability
$
Up time
99% 100%
Will you spend your money on new functionality or improved reliability?
22 CS 501 Spring 2008
Example: Central Computing System
A central computer system is vital to an entire organization. Any failure is serious.
Step 1: Gather data on every failure
• Many years of data in a simple data base
• Every failure analyzed:
hardwaresoftware (default)environment (e.g., power, air conditioning)human (e.g., operator error)
Example. Supercomputers may average 10 hours productive work per day.
23 CS 501 Spring 2008
Example: Central Computing System
Step 2: Analyze the data
• Weekly, monthly, and annual statistics
Number of failures and interruptionsMean time to repair
• Graphs of trends by component, e.g.,
Failure rates of disk drivesHardware failures after power failuresCrashes caused by software bugs in each
component
24 CS 501 Spring 2008
Example: Central Computing System
Step 3: Invest resources where benefit will be maximum, e.g.,
• Orderly shut down after power failure
• Priority order for software improvements
• Changed procedures for operators
• Replacement hardware
25 CS 501 Spring 2008
Static Validation & Verification
Carried out throughout the software development process.
Validation & verification
Requirements specification Design Program
REVIEWS
26 CS 501 Spring 2008
Reviews: Process (Plan)
Objectives:
• To review progress against plan (formal or informal).
• To adjust plan (schedule, team assignments, functionality, etc.).
Impact on quality:
Good quality systems usually result from plans that are demanding but realistic.
Good people like to be stretched and to work hard, but must not be pressed beyond their capabilities.
27 CS 501 Spring 2008
Reviews: Design and Code
Concept
Colleagues review each other's work:
can be applied to any stage of software development
can be formal or informal
Design and code reviews are a fundamental part of good software development
28 CS 501 Spring 2008
Review Process
Preparation
The developer provides colleagues with documentation (e.g., specification or design), or code listing
Participants study the documentation in advance
Meeting
The developer leads the reviewers through the documentation, describing what each section does and encouraging questions
Must allow plenty of time and be prepared to continue on another day.
29 CS 501 Spring 2008
Benefits of Design and Code Reviews
Benefits:
• Extra eyes spot mistakes, suggest improvements
• Colleagues share expertise; helps with training
• An occasion to tidy loose ends
• Incompatibilities between components can be identified
• Helps scheduling and management control
Fundamental requirements:
• Senior team members must show leadership
• Good reviews require good preparation
• Everybody must be helpful, not threatening
30 CS 501 Spring 2008
Review Team (Full Version)
A review is a structured meeting, with the following people
Moderator -- ensures that the meeting moves ahead steadily
Scribe -- records discussion in a constructive manner
Developer -- person(s) whose work is being reviewed
Interested parties -- people above and below in the software process
Outside experts -- knowledgeable people who have are not working on this project
Client -- representatives of the client who are knowledgeable about this part of the process
31 CS 501 Spring 2008
Example: Program Design
Moderator
Scribe
Developer -- the design team
Interested parties -- people who created the system design and/or requirements specification, and the programmers who will implement the system
Outside experts -- knowledgeable people who are not working on this project
Client -- only if the client has a strong technical representative
32 CS 501 Spring 2008
Static and Dynamic Verification
Static verification: Techniques of verification that do not include execution of the software.
• May be manual or use computer tools.
Dynamic verification:
• Testing the software with trial data.
• Debugging to remove errors.
33 CS 501 Spring 2008
Static Verification: Program Inspections
Formal program reviews whose objective is to detect faults
• Code may be read or reviewed line by line.
• 150 to 250 lines of code in 2 hour meeting.
• Use checklist of common errors.
• Requires team commitment, e.g., trained leaders
So effective that it is claimed that it can replace unit testing
34 CS 501 Spring 2008
Inspection Checklist: Common Errors
Data faults: Initialization, constants, array bounds, character strings
Control faults: Conditions, loop termination, compound statements, case statements
Input/output faults: All inputs used; all outputs assigned a value
Interface faults: Parameter numbers, types, and order; structures and shared memory
Storage management faults: Modification of links, allocation and de-allocation of memory
Exceptions: Possible errors, error handlers
35 CS 501 Spring 2008
Static Analysis Tools
Program analyzers scan the source of a program for possible faults and anomalies (e.g., Lint for C programs).
• Control flow: loops with multiple exit or entry points
• Data use: Undeclared or uninitialized variables, unused variables, multiple assignments, array bounds
• Interface faults: Parameter mismatches, non-use of functions results, uncalled procedures
• Storage management: Unassigned pointers, pointer arithmetic
36 CS 501 Spring 2008
Static Analysis Tools (continued)
Static analysis tools
• Cross-reference table: Shows every use of a variable, procedure, object, etc.
• Information flow analysis: Identifies input variables on which an output depends.
• Path analysis: Identifies all possible paths through the program.