Complex Matrix Math Calculator with Bonus Units Conversion Tool

Microsoft Mathematics provides a set of mathematical tools that help students get school work done quickly and easily. With Microsoft Mathematics, students can learn to solve equations step-by-step while gaining a better understanding of fundamental concepts in pre-algebra, algebra (matrix math), trigonometry, physics, chemistry, and calculus. Any college or university student will find this calculator extremely helpful.

You can download this amazing tool for free from Microsoft here.

Bonus tools, include a handy unit converter, which may seem redundant given online calculators, but if you pin this (C:\Program Files\Microsoft Mathematics\ConversionTool.exe) to Start, you'll know it's accurate and virus free. 

The Formulas and Equations yields a plethora of equations and constants. 

Stuck Keyboard Tester - Windows Volume Keeps increasing or decreasing

Recently,  I came across a whole slew of issues in regards to Windows Volume that seems stuck and constantly increases or decrease on start-up. I could not find a good solution to confirm this so I built some apps to help.

1. Keyboard and Mouse State Tester, which will interrogate the current key you hold down and press Check Now button with.

Keyboard and Mouse State Tester.7z download, unzip (http://www.7-zip.org/) and right-click runas Administrator. No install required. Requires .NET 4.0
Zip contains MouseKeyboardStateTest.exe. There is no bloatware, viruses or malware in this app.

Please donate a coffee!

 

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2.Stuck Keyboard Tester, will display the current key pressed. The text box should be blank, until you press a key. The unique feature of this app, stuck key will appear and be counted.

Stuck Keyboard Tester.7z download, unzip (http://www.7-zip.org/) and right-click runas Administrator. No install required. Requires .NET 4.0
Zip contains StuckKeyboardTest.exe. There is no bloatware, viruses or malware in this app.

Metadata Consulting Software Purchase request password to unlock.

1 license per OS $4.99 USD

Enter password

Stuck Keyboard Tester.zip

Determining if a file is an executable (.exe) pro-grammatically.

Ever look at hex dump of a exe file and wonder why it starts with MZ?

ffset:0(0x0)  size:131072( 0x20000 ) dump by http://pedump.me/ 

00000000:  4d 5a 90 00 03 00 00 00  04 00 00 00 ff ff 00 00  |MZ..............|
00000010:  b8 00 00 00 00 00 00 00  40 00 00 00 00 00 00 00  |........@.......|
00000020:  00 00 00 00 00 00 00 00  00 00 00 00 00 00 00 00  |................|
00000030:  00 00 00 00 00 00 00 00  00 00 00 00 e8 00 00 00  |................|
00000040:  0e 1f ba 0e 00 b4 09 cd  21 b8 01 4c cd 21 54 68  |........!..L.!Th|
00000050:  69 73 20 70 72 6f 67 72  61 6d 20 63 61 6e 6e 6f  |is program canno|
00000060:  74 20 62 65 20 72 75 6e  20 69 6e 20 44 4f 53 20  |t be run in DOS |
00000070:  6d 6f 64 65 2e 0d 0d 0a  24 00 00 00 00 00 00 00  |mode....$.......|

Well here's you trivial fact of the day...

In ASCII representation, 0x5A4D is MZ, the initials of Mark Zbikowski, one of the original architects of MS-DOS.

And guess what this is how we determine if this file is an executable, we just check for MZ at the beginning of it.

Why would you do this, well if you create a firewall rule to scan zip files you might want to scan if contains renamed zip files, by checking the "MZ"-ness.

 Here's the code

IMAGE_FILE_MACHINE extensive machine type enum list

A modest enumeration list of Machine Types with better descriptions. This came from my search to be able to determine an application architecture build type of a file. See Determining if App Executable is 32-bit or 64-bit discussion and code here.

1. //http://msdn.microsoft.com/en-us/library/windows/desktop/ms680313(v=vs.85).aspx
2. //OVERLOADED _AMD64 = 0x8664,  seems to mean x64 app,
             OR _EMT64 = 0x8664, named IA-32e (later renamed EM64T, 
3. then yet again renamed to Intel 64 by Intel to stave of AMD)       
4. //            _I386 = 0x14c,           means x32 app
5. public enum MachineType : ushort
6. {
7.    IMAGE_FILE_MACHINE_UNKNOWN = 0x0,        
8.    IMAGE_FILE_MACHINE_ALPHA = 0x184,       //Digital Equipment Corporation (DEC) Alpha (32-bit)
9.    IMAGE_FILE_MACHINE_AM33 = 0x1d3,        //Matsushita AM33, now MN103 (32-bit) part of Panasonic Corporation
10.    IMAGE_FILE_MACHINE_AMD64 = 0x8664,      //AMD (64-bit) - Advanced Micro Devices oR IS IT ??? OVERLOADED _AMD64 = 0x8664 - http://msdn.microsoft.com/en-us/library/windows/desktop/ms680313(v=vs.85).aspx  
11.    IMAGE_FILE_MACHINE_ARM = 0x1c0,         //ARM little endian (32-bit), ARM Holdings, later versions 6+ used in iPhone, Microsoft Nokia N900
12.    IMAGE_FILE_MACHINE_ARMV7 = 0x1c4,       //ARMv7 or IMAGE_FILE_MACHINE_ARMNT (or higher) Thumb mode only (32 bit).
13.    IMAGE_FILE_MACHINE_ARM64 = 0xaa64,      //ARM8+ (64-bit)
14.    IMAGE_FILE_MACHINE_EBC = 0xebc,         //EFI byte code (32-bit), now (U)EFI or (Unified) Extensible Firmware Interface
15.    IMAGE_FILE_MACHINE_I386 = 0x14c,        //Intel 386 or later processors and compatible processors (32-bit)
16.    IMAGE_FILE_MACHINE_I860 = 0x14d,        //Intel i860 (aka 80860) (32-bit) was a RISC microprocessor design introduced by Intel in 1989, this was depricated in 90's
17.    IMAGE_FILE_MACHINE_IA64 = 0x200,        //Intel Itanium architecture processor family, (64-bit)
18.    IMAGE_FILE_MACHINE_M68K = 0x268,        //Motorola 68000 Series (32-bit) CISC microprocessors
19.    IMAGE_FILE_MACHINE_M32R = 0x9041,       //Mitsubishi M32R little endian (32-bit) now owned by Renesas Electronics Corporation
20.    IMAGE_FILE_MACHINE_MIPS16 = 0x266,      //MIPS16 (16-bit instruction codes, 8to32bit bus)- Microprocessor without Interlocked Pipeline Stages Architecture
21.    IMAGE_FILE_MACHINE_MIPSFPU = 0x366,     //MIPS with FPU, MIPS Technologies (32-bit)
22.    IMAGE_FILE_MACHINE_MIPSFPU16 = 0x466,   //MIPS16 with FPU (Floating Point Unit aka a math co-processesor)(16-bit instruction codes, 8to32bit bus)
23.    IMAGE_FILE_MACHINE_POWERPC = 0x1f0,     //Power PC little endian, Performance Optimization With Enhanced RISC – Performance Computing (32-bit) one of the first
24.    IMAGE_FILE_MACHINE_POWERPCFP = 0x1f1,   //Power PC with floating point support (FPU) (32-bit), designed by AIM Alliance (Apple, IBM, and Motorola)
25.    IMAGE_FILE_MACHINE_POWERPCBE = 0x01F2,  //Power PC Big Endian (64?-bits)
26.    IMAGE_FILE_MACHINE_R3000 = 0x0162,      //R3000 (32-bit) RISC processor
27.    IMAGE_FILE_MACHINE_R4000 = 0x166,       //R4000 MIPS (64-bit) - claims to be first true 64-bit processor
28.    IMAGE_FILE_MACHINE_R10000 = 0x0168,     //R10000 MIPS IV is a (64-bit) architecture, but the R10000 did not implement the entire physical or virtual address to reduce cost. Instead, it has a 40-bit physical address and a 44-bit virtual address, thus it is capable of addressing 1 TB of physical memory and 16 TB of virtual memory. These comments by metadataconsulting.ca
29.    IMAGE_FILE_MACHINE_SH3 = 0x1a2,         //Hitachi SH-3 (32-bit) - SuperH processor (SH3) core family
30.    IMAGE_FILE_MACHINE_SH3DSP = 0x1a3,      //Hitachi SH-3 DSP (32-bit)
31.    IMAGE_FILE_MACHINE_SH4 = 0x1a6,         //Hitachi SH-4 (32-bit)
32.    IMAGE_FILE_MACHINE_SH5 = 0x1a8,         //Hitachi SH-5, (64-bit) core with a 128-bit vector FPU (64 32-bit registers) and an integer unit which includes the SIMD support and 63 64-bit registers.
33.    IMAGE_FILE_MACHINE_TRICORE = 0x0520,    //Infineon AUDO (Automotive unified processor) (32-bit) - Tricore architecture a unified RISC/MCU/DSP microcontroller core
34.    IMAGE_FILE_MACHINE_THUMB = 0x1c2,       //ARM or Thumb (interworking), (32-bit) core instruction set, used in Nintendo Gameboy Advance
35.    IMAGE_FILE_MACHINE_WCEMIPSV2 = 0x169,   //MIPS Windows Compact Edition v2
36.    IMAGE_FILE_MACHINE_ALPHA64 = 0x284      //DEC Alpha AXP (64-bit) or IMAGE_FILE_MACHINE_AXP64
37. }

Determining if App Executable is 32-bit or 64-bit

Need to find out if your application executable is 32-bit or 64-bit reliably pro-grammatically in C#

My first attempt was to use the GetBinaryType() - using DLL Import

but reading comment in the MSDN Library reference indicates it is not reliable solution. 

So how can we examine a file to determine "bitness"? 

Again we head back to the source in a issue of February 2002 issue of MSDN Magazine "Win32 Portable Executable File Format"

The format of an operating system's executable file is in many ways a mirror of the operating system. Although studying an executable file format isn't usually high on most programmers' list of things to do, a great deal of knowledge can be gleaned this way. In this article, I'll give a tour of the Portable Executable (PE) file format that Microsoft has designed for use by all their Win32®-based systems: Windows NT®, Win32s™, and Windows® 95. 

PE File Structure

      Now let's dig into the actual format of PE files. I'll start from the beginning of the file, and describe the data structures that are present in every PE file. Afterwards, I'll describe the more specialized data structures (such as imports or resources) that reside within a PE's sections. All of the data structures that I'll discuss below are defined in WINNT.H, unless otherwise noted.
      In many cases, there are matching 32 and 64-bit data structures—for example, IMAGE_NT_HEADERS32 and IMAGE_NT_HEADERS64.

The IMAGE_NT_HEADERS Header

      The IMAGE_NT_HEADERS structure is the primary location where specifics of the PE file are stored. Its offset is given by the e_lfanew field in the IMAGE_DOS_HEADER at the beginning of the file. There are actually two versions of the IMAGE_NT_HEADER structure, one for 32-bit executables and the other for 64-bit versions. The differences are so minor that I'll consider them to be the same for the purposes of this discussion. The only correct, Microsoft-approved way of differentiating between the two formats is via the value of the Magic field in the IMAGE_OPTIONAL_HEADER (described shortly).

An IMAGE_NT_HEADER is comprised of three fields:

 
 typedef struct _IMAGE_NT_HEADERS {
      DWORD Signature;
     IMAGE_FILE_HEADER FileHeader;
     IMAGE_OPTIONAL_HEADER32 OptionalHeader;
  } IMAGE_NT_HEADERS32, *PIMAGE_NT_HEADERS32;

In a valid PE file, the Signature field is set to the value 0x00004550, which in ASCII is "PE00". A #define, IMAGE_NT_SIGNATURE, is defined for this value. The second field, a struct of type IMAGE_FILE_HEADER, predates PE files.

The PE File IMAGE_FILE_HEADER referenced in the above article as Figure 3 is quoted below. 

Figure 3 IMAGE_FILE_HEADER (http://msdn.microsoft.com/en-us/magazine/bb985997.aspx)

  

Size	Field	Description	Meaning or Bitness
WORD	Machine	The target CPU for this executable. Common values are: IMAGE_FILE_MACHINE_I386 0x014c // Intel 386 IMAGE_FILE_MACHINE_IA64 0x0200 // Intel 64	x86 (32-bit) x64 (64-bit)

  

And this seems great we have found a way to distinguish x32 or x64 files. 

BUT, Accroding to MSDN Windows Dev Center documentation we have conflicting values. 
http://msdn.microsoft.com/en-us/library/windows/desktop/ms680313(v=vs.85).aspx

Constant	Hex Value	Meaning
IMAGE_FILE_MACHINE_I386	0x014c	x86
IMAGE_FILE_MACHINE_IA64	0x0200	Intel Itanium
IMAGE_FILE_MACHINE_AMD64	0x8664	x64

IMAGE_FILE_MACHINE_AMD64  is not Advanced Micro Devices (64-bit) processor indication, 
but correctly will give us where or not a dll or exe is 64-bit or it's "bitness".

Now coding this in C# we have  

using System;
using System.IO; 

public enum MachineType {Unknown = 0, 
                          x86 = 0x014c, 
                          i64 = 0x0200, 
                          x64 = 0x8664 }  

public string GetAppCompiledMachineType(string fileName)
{
            const int PE_POINTER_OFFSET = 60;            
            const int MACHINE_OFFSET = 4;
            byte[] data = new byte[4096];

            using (Stream s = new FileStream(fileName, FileMode.Open, FileAccess.Read)) {
                s.Read(data, 0, 4096);
            }

            // dos header is 64 bytes, last element, long (4 bytes) is the address of the PE header
            int PE_HEADER_ADDR = BitConverter.ToInt32(data, PE_POINTER_OFFSET);
            int machineUint = BitConverter.ToUInt16(data, PE_HEADER_ADDR + MACHINE_OFFSET);
            return ((MachineType)machineUint).ToString();
}

Using the above code yields the proper results. I have tried this on numerous known 64-bit apps and it works properly, x64 is returned for 64-bit apps.

How to List all .NET Versions installed on your Computer

Run the following from command line (run as Administrator). Note: This is very slow and take about 2 mins to run (even on Intel i7!).

wmic product where "Name like 'Microsoft .Net%'" get Name, Version

Produces the bottom half. Results seem to list x64 installs. (It should list upper half as well).

 Name                                               Version
...
Microsoft .NET Framework 2.0 Service Pack 2        2.2.30729
Microsoft .NET Framework 3.0 Service Pack 2        3.2.30729
Microsoft .NET Framework 3.5 SP1                   3.5.30729

Microsoft .NET Framework 4 Client Profile          4.0.30319
Microsoft .NET Framework 4 Multi-Targeting Pack    4.0.30319
Microsoft .NET Framework 4.5 SDK                   4.5.50709
Microsoft .NET Framework 4.5 Multi-Targeting Pack  4.5.50709
Microsoft .NET Framework 4.5.1                     4.5.50938

The official Microsoft version is to check the registry, see below for partial snippet of that page.

To do this, following the steps below:

1. Click Start, type regedit in the Search programs and files box (click Run and type regedit in the Run Dialogbox in Windows XP), and then press Enter.
2. In the Registry Editor, locate the Registry Key Name in the table below and check the value for the related .NET Framework.
   
   

This WMIC cmd (run as admininstrator) lists a broader set and is targeting win32 files and is  still very slow.

wmic /namespace:\\root\cimv2 path win32_product where "Name like '%%.NET%%'" get Name, Version

Name                                                          Version

Microsoft Visual Studio 2010 ADO.NET Entity Framework Tools  10.0.40219
Microsoft ASP.NET MVC 2                                      2.0.50217.0
Blend for Visual Studio SDK for .NET 4.5                     3.0.40218.0
Microsoft ASP.NET MVC 4 Runtime                              4.0.20710.0
Microsoft ASP.NET Visual Studio 2010 Finalizer               4.0.20710.0
Microsoft .NET Framework 4.5 Multi-Targeting Pack            4.5.50709
Microsoft ASP.NET Visual Studio 2010 Uninstall Finalizer     4.0.20710.0
Microsoft ASP.NET MVC 2 - Visual Studio 2010 Tools           2.0.50217.0
Microsoft ASP.NET Web Pages 2 Runtime                        2.0.20713.0
Tools for .Net 3.5                                           3.11.50727
Microsoft ASP.NET MVC 3                                      3.0.20105.0
Microsoft ASP.NET MVC 3 - Visual Studio 2010 Tools Update    3.0.20406.0
Microsoft Expression Blend SDK for .NET 4                    2.0.20525.0
Microsoft .NET Framework 4 Multi-Targeting Pack              4.0.30319
Microsoft Sync Services for ADO.NET v2.0 SP1 (x64)           2.0.3010.0
Microsoft .NET Framework 4.5 SDK                             4.5.50709
Microsoft ASP.NET Web Pages 2 - Visual Studio 2010 Tools     2.0.20710.0
Microsoft .NET Framework 4.5.1                               4.5.50938
Microsoft ASP.NET Web Pages - Visual Studio 2010 Tools       1.0.20105.0
Microsoft ASP.NET Web Pages                                  1.0.20105.0
Microsoft ASP.NET MVC 4 - Visual Studio 2010 Tools           4.0.20710.

This dir cmd (run as administrator) quickly shows installed frameworks x86 and x64.

dir %WINDIR%\Microsoft.Net\Framework\v* /O:-N /B

dir %WINDIR%\Microsoft.Net\Framework64\v* /O:-N /B

c:\Users\Mutex>
v4.0.30319
v3.5
v3.0
v2.0.50727
v1.1.4322
v1.0.3705

Elliptic curve cryptography explained and C# open source libary

Excellent Intro to Cryptography by Brit Cruise

Brit Cruise Does excellent series on Cryptography
Elliptic Curve Cryptography

https://www.youtube.com/watch?v=kzyLW44Ve2k

Open Source Programming Library for C# - ECC cipher suites (RFC 4492)
http://www.bouncycastle.org/csharp/