Installation Guide » History » Version 73
Andrei Tatarnikov, 04/22/2015 05:51 PM
1 | 1 | Andrei Tatarnikov | h1. Installation Guide |
---|---|---|---|
2 | |||
3 | 36 | Alexander Kamkin | {{toc}} |
4 | |||
5 | 17 | Andrei Tatarnikov | h3. System Requirements |
6 | 1 | Andrei Tatarnikov | |
7 | 52 | Andrei Tatarnikov | MicroTESK is a set of Java-based utilities that are run from the command line. It can be used on *_Windows_*, *_Linux_* and *_OS X_* machines that have *_JDK 1.7 or later_* installed. To build MicroTESK from source code or to build generated Java models, *_Apache Ant version 1.8_ or later* is required. To generate test data based on constraints, MicroTESK needs *_Microsoft Research Z3_* that can work under the corresponding operating system. |
8 | 1 | Andrei Tatarnikov | |
9 | 17 | Andrei Tatarnikov | h3. Installation Steps |
10 | 1 | Andrei Tatarnikov | |
11 | 64 | Andrei Tatarnikov | # Download from http://forge.ispras.ru/projects/microtesk/files and unpack the MicroTESK installation package (the @.tar.gz@ file, latest release) to your computer. The folder to which it was unpacked will be further referred to as the installation directory (@<installation dir>@). |
12 | 53 | Andrei Tatarnikov | # [Not required for MicroTESK 2.1 beta] Download and install constraint solver tools to the @<installation dir>/tools@ directory (see the *Installing Constraint Solvers* section). |
13 | 46 | Andrei Tatarnikov | # Declare the *MICROTESK_HOME* environment variable and set its value to the path to the installation directory (see the *Setting Environment Variables* section). |
14 | 60 | Andrei Tatarnikov | # Set the @<installation dir>/bin@ as the working directory (add the path to the @PATH@ environment variable) to be able to run MicroTESK utilities from any path. |
15 | 33 | Alexander Kamkin | # Now you can run the @compile.sh@ (or @.bat@) script to create a microprocessor model and the @generate.sh@ (or @.bat@) script to generate test for this model. |
16 | 13 | Andrei Tatarnikov | |
17 | 47 | Andrei Tatarnikov | h3. Setting Environment Variables |
18 | |||
19 | 48 | Andrei Tatarnikov | h4. _Windows_ |
20 | 47 | Andrei Tatarnikov | |
21 | 50 | Andrei Tatarnikov | # Open the "System Properties" window. |
22 | # Switch to the "Advanced" tab. |
||
23 | # Click on Environment Variables. |
||
24 | # Click "New.." under "System Variables". |
||
25 | 63 | Andrei Tatarnikov | # In the "New System Variable" dialog specify variable name as @MICROTESK_HOME@ and variable value as @<installation dir>@. |
26 | 50 | Andrei Tatarnikov | # Click "OK" on all open windows. |
27 | # Reopen the command prompt window. |
||
28 | |||
29 | 49 | Andrei Tatarnikov | h4. _Linux and OS X_ |
30 | 48 | Andrei Tatarnikov | |
31 | 1 | Andrei Tatarnikov | Add the command below to the @~.bash_profile@ file (Linux) or the @~/.profile@ file (OS X): |
32 | 61 | Andrei Tatarnikov | <pre>export MICROTESK_HOME=<installation dir></pre> To start editing the file, type @vi ~/.bash_profile@ (or @vi ~/.profile@). Changes will be applied after restarting the command-line terminal or reboot. You can also execute the command in your command-line terminal to make temporary changes. |
33 | 47 | Andrei Tatarnikov | |
34 | 55 | Andrei Tatarnikov | h3. Installing Constraint Solvers |
35 | |||
36 | 70 | Andrei Tatarnikov | To generate test data based on constraints, MicroTESK requires external constraint solvers. The current version supports the "Z3":https://github.com/z3prover and "CVC4":http://cvc4.cs.nyu.edu constraint solvers. Constraint executables should be downloaded and placed to the @<installation dir>/tools@ directory. |
37 | 1 | Andrei Tatarnikov | |
38 | 71 | Andrei Tatarnikov | *_Installing Z3_* |
39 | 70 | Andrei Tatarnikov | |
40 | 68 | Andrei Tatarnikov | * Windows users should download Z3 (32 or 64-bit version) from the following page: http://z3.codeplex.com/releases and unpack the archive to the @<installation dir>/tools/z3/windows@ directory. Note: the executable file path is @<windows>/z3/bin/z3.exe@. |
41 | 1 | Andrei Tatarnikov | |
42 | 68 | Andrei Tatarnikov | * UNIX and Linux users should use one of the links below and and unpack the archive to the @<installation dir>/tools/z3/unix@ directory. Note: the executable file path is @<unix>/z3/bin/z3@. |
43 | 34 | Alexander Kamkin | | Debian x64 | http://z3.codeplex.com/releases/view/101916 | |
44 | | Ubuntu x86 | http://z3.codeplex.com/releases/view/101913 | |
||
45 | | Ubuntu x64 | http://z3.codeplex.com/releases/view/101911 | |
||
46 | | FreeBSD x64 | http://z3.codeplex.com/releases/view/101907 | |
||
47 | 21 | Andrei Tatarnikov | |
48 | 1 | Andrei Tatarnikov | * OS X users should download Z3 from http://z3.codeplex.com/releases/view/101918 and unpack the archive to the @<installation dir>/z3/osx@ directory. Note: the executable file path is @<osx>/z3/bin/z3@. |
49 | 70 | Andrei Tatarnikov | |
50 | 71 | Andrei Tatarnikov | *_Installing CVC4_* |
51 | 70 | Andrei Tatarnikov | |
52 | 72 | Andrei Tatarnikov | * Windows users should download the latest version of CVC4 binary from http://cvc4.cs.nyu.edu/builds/win32-opt/ and save it to the @<installation dir>/tools/cvc4/windows@ directory as @cvc4.exe@. |
53 | 70 | Andrei Tatarnikov | |
54 | 73 | Andrei Tatarnikov | * UNIX and Linux should download the latest version of CVC4 binary from http://cvc4.cs.nyu.edu/builds/x86_64-linux-opt/unstable/ and save it to the @<installation dir>/tools/cvc4/unix@ directory as @cvc4@. |
55 | 70 | Andrei Tatarnikov | |
56 | * OS X. _TODO_ |
||
57 | 15 | Andrei Tatarnikov | |
58 | 40 | Alexander Kamkin | h3. Installation Directory Structure |
59 | 13 | Andrei Tatarnikov | |
60 | 40 | Alexander Kamkin | The MicroTESK installation directory contains the following subdirectories: |
61 | 13 | Andrei Tatarnikov | |
62 | 33 | Alexander Kamkin | | @arch@ | Examples of microprocessor specifications and test templates for the described designs | |
63 | | @bin@ | Scripts to run features of MicroTESK (modelling and test generation) | |
||
64 | 56 | Andrei Tatarnikov | | @doc@ | Documentation on MicroTESK | |
65 | 43 | Andrei Tatarnikov | | @gen@ | Generated Java models of the specified microprocessor designs | |
66 | | @lib@ | JAR files and Ruby scripts to perform modelling and test generation tasks | |
||
67 | 66 | Andrei Tatarnikov | | @src@ | Source code of MicroTESK | |
68 | 14 | Andrei Tatarnikov | |
69 | h3. Running MicroTESK |
||
70 | 26 | Andrei Tatarnikov | |
71 | 67 | Andrei Tatarnikov | To generate a Java model of a microprocessor from its nML specification, a user needs to run the compile.sh script (Unix, Linux, OS X) or the compile.bat script (Windows). For example, the following command generates a model for the miniMIPS specification: |
72 | 1 | Andrei Tatarnikov | |
73 | 26 | Andrei Tatarnikov | <pre> |
74 | 67 | Andrei Tatarnikov | sh bin/compile.sh arch/minimips/model/minimips.nml |
75 | 27 | Andrei Tatarnikov | </pre> |
76 | 1 | Andrei Tatarnikov | |
77 | 57 | Andrei Tatarnikov | _NOTE: Models for all demo specifications are already built and included in the MicroTESK distribution package. So a user can start working with MicroTESK from generating test programs for these models._ |
78 | 1 | Andrei Tatarnikov | |
79 | 57 | Andrei Tatarnikov | To generate a test program, a user needs to use the generate.sh script (Unix, Linux, OS X) or the generate.bat script (Windows). The scripts require the following parameters: |
80 | |||
81 | # _model name_; |
||
82 | # _test template file_; |
||
83 | # _target test program source code file_. |
||
84 | |||
85 | 67 | Andrei Tatarnikov | For example, the following command runs the @euclid.rb@ test template for the miniMIPS model generated by the command from the previous example and saves the generated test program to the @test.asm@ file: |
86 | 57 | Andrei Tatarnikov | |
87 | 27 | Andrei Tatarnikov | <pre> |
88 | 67 | Andrei Tatarnikov | sh bin/generate.sh minimips arch/minimips/templates/euclid.rb test.asm |
89 | 26 | Andrei Tatarnikov | </pre> |