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Verification and validation
1.
Verification and Validation ©Ian
Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 1
2.
Objectives
● To introduce software verification and validation and to discuss the distinction between them ● To describe the program inspection process and its role in V & V ● To explain static analysis as a verification technique ● To describe the Cleanroom software development process ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 2
3.
Topics covered
● Verification and validation planning ● Software inspections ● Automated static analysis ● Cleanroom software development ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 3
4.
Verification vs validation
● Verification: "Are we building the product right”. ● The software should conform to its specification. ● Validation: "Are we building the right product”. ● The software should do what the user really requires. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 4
5.
The V &
V process ● Is a whole life-cycle process - V & V must be applied at each stage in the software process. ● Has two principal objectives • The discovery of defects in a system; • The assessment of whether or not the system is useful and useable in an operational situation. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 5
6.
V& V goals
● Verification and validation should establish confidence that the software is fit for purpose. ● This does NOT mean completely free of defects. ● Rather, it must be good enough for its intended use and the type of use will determine the degree of confidence that is needed. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 6
7.
V & V
confidence ● Depends on system’s purpose, user expectations and marketing environment • Software function • The level of confidence depends on how critical the software is to an organisation. • User expectations • Users may have low expectations of certain kinds of software. • Marketing environment • Getting a product to market early may be more important than finding defects in the program. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 7
8.
Static and dynamic
verification ● Software inspections. Concerned with analysis of the static system representation to discover problems (static verification) • May be supplement by tool-based document and code analysis ● Software testing. Concerned with exercising and observing product behaviour (dynamic verification) • The system is executed with test data and its operational behaviour is observed ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 8
9.
Static and dynamic
V&V ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 9
10.
Program testing
● Can reveal the presence of errors NOT their absence. ● The only validation technique for non- functional requirements as the software has to be executed to see how it behaves. ● Should be used in conjunction with static verification to provide full V&V coverage. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 10
11.
Types of testing
● Defect testing • Tests designed to discover system defects. • A successful defect test is one which reveals the presence of defects in a system. • Covered in Chapter 23 ● Validation testing • Intended to show that the software meets its requirements. • A successful test is one that shows that a requirements has been properly implemented. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 11
12.
Testing and debugging
● Defect testing and debugging are distinct processes. ● Verification and validation is concerned with establishing the existence of defects in a program. ● Debugging is concerned with locating and repairing these errors. ● Debugging involves formulating a hypothesis about program behaviour then testing these hypotheses to find the system error. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 12
13.
The debugging process ©Ian
Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 13
14.
V & V
planning ● Careful planning is required to get the most out of testing and inspection processes. ● Planning should start early in the development process. ● The plan should identify the balance between static verification and testing. ● Test planning is about defining standards for the testing process rather than describing product tests. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 14
15.
The V-model of
development ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 15
16.
The structure of
a software test plan ● The testing process. ● Requirements traceability. ● Tested items. ● Testing schedule. ● Test recording procedures. ● Hardware and software requirements. ● Constraints. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 16
17.
The software test
plan The testing process A description of the major phases of the testing process. These might be as described earlier in this chapter. Requirements traceability Users are most interested in the system meeting its requirements and testing should be planned so that all requirements are individually tested. Tested items The products of the software process that are to be tested should be specified. Testing schedule An overall testing schedule and resource allocation for this schedule. This, obviously, is linked to the more general project development schedule. Test recording procedures It is not enough simply to run tests. The results of the tests must be systematically recorded. It must be possible to audit the testing process to check that it been carried out correctly. Hardware and software requirements This section should set out software tools required and estimated hardware utilisation. Constraints Constraints affecting the testing process such as staff shortages should be anticipated in this section. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 17
18.
Software inspections
● These involve people examining the source representation with the aim of discovering anomalies and defects. ● Inspections not require execution of a system so may be used before implementation. ● They may be applied to any representation of the system (requirements, design,configuration data, test data, etc.). ● They have been shown to be an effective technique for discovering program errors. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 18
19.
Inspection success
● Many different defects may be discovered in a single inspection. In testing, one defect ,may mask another so several executions are required. ● The reuse domain and programming knowledge so reviewers are likely to have seen the types of error that commonly arise. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 19
20.
Inspections and testing
● Inspections and testing are complementary and not opposing verification techniques. ● Both should be used during the V & V process. ● Inspections can check conformance with a specification but not conformance with the customer’s real requirements. ● Inspections cannot check non-functional characteristics such as performance, usability, etc. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 20
21.
Program inspections
● Formalised approach to document reviews ● Intended explicitly for defect detection (not correction). ● Defects may be logical errors, anomalies in the code that might indicate an erroneous condition (e.g. an uninitialised variable) or non-compliance with standards. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 21
22.
Inspection pre-conditions
● A precise specification must be available. ● Team members must be familiar with the organisation standards. ● Syntactically correct code or other system representations must be available. ● An error checklist should be prepared. ● Management must accept that inspection will increase costs early in the software process. ● Management should not use inspections for staff appraisal ie finding out who makes mistakes. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 22
23.
The inspection process ©Ian
Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 23
24.
Inspection procedure
● System overview presented to inspection team. ● Code and associated documents are distributed to inspection team in advance. ● Inspection takes place and discovered errors are noted. ● Modifications are made to repair discovered errors. ● Re-inspection may or may not be required. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 24
25.
Inspection roles
Author or owner The programmer or designer responsible for producing the program or document. Responsible for fixing defects discovered during the inspection process. Inspector Finds errors, omissions and inconsistencies in programs and documents. May also identify broader issues that are outside the scope of the inspection team. Reader Presents the code or document at an inspection meeting. Scribe Records the results of the inspection meeting. Chairman or moderator Manages the process and facilitates the inspection. Reports process results to the Chief moderator. Chief moderator Responsible for inspection process improvements, checklist updating, standards development etc. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 25
26.
Inspection checklists
● Checklist of common errors should be used to drive the inspection. ● Error checklists are programming language dependent and reflect the characteristic errors that are likely to arise in the language. ● In general, the 'weaker' the type checking, the larger the checklist. ● Examples: Initialisation, Constant naming, loop termination, array bounds, etc. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 26
27.
Inspection checks 1
Data faults Are all program variables initialised before their values are used? Have all constants been named? Should the upper bound of arrays be equal to the size of the array or Size -1? If character strings are used, is a de limiter explicitly assigned? Is there any possibility of buffer overflow? Control faults For each conditional statement, is the condition correct? Is each loop certain to terminate? Are compound statements correctly bracketed? In case statements, are all possible cases accounted for? If a break is required after each case in case statements, has it been included? Input/output faults Are all input variables used? Are all output variables assigned a value before they are output? Can unexpected inputs cause corruption? ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 27
28.
Inspection checks 2
Interface faults Do all function and method calls have the correct number of parameters? Do formal and actual parameter types match? Are the parameters in the right order? If components access shared memory, do they have the same model of the shared memory structure? Storage If a linked structure is modified, have all links been management faults correctly reassigned? If dynamic storage is used, has space been allocated correctly? Is space explicitly de-allocated after it is no longer required? Exception Have all possible error conditions been taken into account? management faults ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 28
29.
Inspection rate
● 500 statements/hour during overview. ● 125 source statement/hour during individual preparation. ● 90-125 statements/hour can be inspected. ● Inspection is therefore an expensive process. ● Inspecting 500 lines costs about 40 man/hours effort - about £2800 at UK rates. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 29
30.
Automated static analysis
● Static analysers are software tools for source text processing. ● They parse the program text and try to discover potentially erroneous conditions and bring these to the attention of the V & V team. ● They are very effective as an aid to inspections - they are a supplement to but not a replacement for inspections. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 30
31.
Static analysis checks
Fault class Static analysis check Data faults Variables used before initialisation Variables declared but never used Variables assigned twice but never used between assignments Possible array bound violations Undeclared variables Control faults Unreachable code Unconditional branches into loops Input/output faults Variables output twice with no intervening assignment Interface faults Parameter type mismatches Parameter number mismatches Non-usage of the results of functions Uncalled functions and procedures Storage management Unassigned pointers faults Pointer arithmetic ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 31
32.
Stages of static
analysis ● Control flow analysis. Checks for loops with multiple exit or entry points, finds unreachable code, etc. ● Data use analysis. Detects uninitialised variables, variables written twice without an intervening assignment, variables which are declared but never used, etc. ● Interface analysis. Checks the consistency of routine and procedure declarations and their use ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 32
33.
Stages of static
analysis ● Information flow analysis. Identifies the dependencies of output variables. Does not detect anomalies itself but highlights information for code inspection or review ● Path analysis. Identifies paths through the program and sets out the statements executed in that path. Again, potentially useful in the review process ● Both these stages generate vast amounts of information. They must be used with care. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 33
34.
LINT static analysis
138% more lint_ex.c #include <stdio.h> printarray (Anarray) int Anarray; { printf(“%d”,Anarray); } main () { int Anarray[5]; int i; char c; printarray (Anarray, i, c); printarray (Anarray) ; } 139% cc lint_ex.c 140% lint lint_ex.c lint_ex.c(10): warning: c may be used before set lint_ex.c(10): warning: i may be used before set printarray: variable # of args. lint_ex.c(4) :: lint_ex.c(10) printarray, arg. 1 used inconsistently lint_ex.c(4) :: lint_ex.c(10) printarray, arg. 1 used inconsistently lint_ex.c(4) :: lint_ex.c(11) printf returns value which is always ignored ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 34
35.
Use of static
analysis ● Particularly valuable when a language such as C is used which has weak typing and hence many errors are undetected by the compiler, ● Less cost-effective for languages like Java that have strong type checking and can therefore detect many errors during compilation. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 35
36.
Verification and formal
methods ● Formal methods can be used when a mathematical specification of the system is produced. ● They are the ultimate static verification technique. ● They involve detailed mathematical analysis of the specification and may develop formal arguments that a program conforms to its mathematical specification. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 36
37.
Arguments for formal
methods ● Producing a mathematical specification requires a detailed analysis of the requirements and this is likely to uncover errors. ● They can detect implementation errors before testing when the program is analysed alongside the specification. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 37
38.
Arguments against formal
methods ● Require specialised notations that cannot be understood by domain experts. ● Very expensive to develop a specification and even more expensive to show that a program meets that specification. ● It may be possible to reach the same level of confidence in a program more cheaply using other V & V techniques. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 38
39.
Cleanroom software development
● The name is derived from the 'Cleanroom' process in semiconductor fabrication. The philosophy is defect avoidance rather than defect removal. ● This software development process is based on: • Incremental development; • Formal specification; • Static verification using correctness arguments; • Statistical testing to determine program reliability. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 39
40.
The Cleanroom process ©Ian
Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 40
41.
Cleanroom process characteristics
● Formal specification using a state transition model. ● Incremental development where the customer prioritises increments. ● Structured programming - limited control and abstraction constructs are used in the program. ● Static verification using rigorous inspections. ● Statistical testing of the system (covered in Ch. 24). ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 41
42.
Formal specification and
inspections ● The state based model is a system specification and the inspection process checks the program against this mode.l ● The programming approach is defined so that the correspondence between the model and the system is clear. ● Mathematical arguments (not proofs) are used to increase confidence in the inspection process. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 42
43.
Cleanroom process teams
● Specification team. Responsible for developing and maintaining the system specification. ● Development team. Responsible for developing and verifying the software. The software is NOT executed or even compiled during this process. ● Certification team. Responsible for developing a set of statistical tests to exercise the software after development. Reliability growth models used to determine when reliability is acceptable. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 43
44.
Cleanroom process evaluation
● The results of using the Cleanroom process have been very impressive with few discovered faults in delivered systems. ● Independent assessment shows that the process is no more expensive than other approaches. ● There were fewer errors than in a 'traditional' development process. ● However, the process is not widely used. It is not clear how this approach can be transferred to an environment with less skilled or less motivated software engineers. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 44
45.
Key points
● Verification and validation are not the same thing. Verification shows conformance with specification; validation shows that the program meets the customer’s needs. ● Test plans should be drawn up to guide the testing process. ● Static verification techniques involve examination and analysis of the program for error detection. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 45
46.
Key points
● Program inspections are very effective in discovering errors. ● Program code in inspections is systematically checked by a small team to locate software faults. ● Static analysis tools can discover program anomalies which may be an indication of faults in the code. ● The Cleanroom development process depends on incremental development, static verification and statistical testing. ©Ian Sommerville 2004 Software Engineering, 7th edition. Chapter 22 Slide 46
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