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Whenever I execute a C program, there are 3 standard files, stdin, stdout, stderr. Theses map to /proc/self/fd/0, /proc/self/fd/1, /proc/self/fd/2 in Linux, which link to /dev/pts/0 in my computer. This is pseudo-terminal, to which this process outputs to and takes inputs from.

What is the equivalent of this in Windows? Where do these stdin, stdout, stderr point to, when I execute same program in Windows?

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    I don't think Windows provides access to those via a pseudo file-system like Linux does, but I'm not sure. Why do you need them? What do you want to do?
    – Ted Lyngmo
    Commented Aug 25, 2022 at 15:01
  • @TedLyngmo to answer why I wanted them, I was thinking if C standards did not provide stdX, how to take input and display output. In Linux this can be done by opening /dev/pts/0 or /dev/tty file. In Windows, what is the solution? Commented Aug 25, 2022 at 15:57
  • "how to take input and display output" - but, you have stdin, stdout and stderr for that already?
    – Ted Lyngmo
    Commented Aug 25, 2022 at 16:03
  • @TedLyngmo I said 'if C standards did not provide stdin, stdout, stderr then'... Commented Aug 25, 2022 at 16:39
  • stdin, stdout, and stderr, and the integer fd's 0, 1, and 2 they're based on, existed long before /proc/self/fd did. The latter is a convenience (and a huge one!), but it's hardly fundamental to the implementation of the standard-file-descriptor concept. Commented Aug 25, 2022 at 16:52

3 Answers 3

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On a Linux kernel, the stdin, stdout and stderr streams have corresponding entries in /proc. That /proc filesystem is an informational structure which provides visibility into the system; it is not the implementation of these streams.

Firstly, stdout is a C concept: an instance of a FILE * I/O stream. The operating system kernel (whether it be Linux or Windows) doesn't know anything about this. These streams hold operating system file descriptors/handles. A Linux or Windows program has a stdout stream due to being linked to a C library, which may not be true of a program that is not written in C, or a C-based language that uses a C run-time.

A process in an a Unix-like operating system has numbered file descriptors, starting at zero. The first three—0, 1 and 2—are, by convention, input, output and error.

In Microsoft Windows, there is a similar concept. A process has three handles of type HANDLE which serve the same purpose. When you create a process using CreateProcess, they are specified in the STARTUPINFO structure which has these members:

HANDLE hStdInput;
HANDLE hStdOutput;
HANDLE hStdError;

which are meaningful if the STARTF_USESTDHANDLES flag is specified.

Microsoft Windows doesn't have a /proc filesystem. It has API-based mechanisms for inspecting various system states. System utilities are written to these API's. For instance, the Handle program can be used for inspecting what processes have what files open. A similar application on Linux would traverse /proc under the hood.

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    If suppose C standards did not provide stdin, stdout, how to take input and display output. In Linux this can be done by opening /dev/pts/0 or /dev/tty file. In Windows, what is the solution? Commented Aug 25, 2022 at 23:07
  • If you don't use a C library, or work in C at all, you don't have to open any /dev/ device. You have file descriptor 0, 1 and 2, which were set up by and inherited from the parent process. Windows programs similarly receive the three handles from CreateProcess, or at least optionally.
    – Kaz
    Commented Aug 26, 2022 at 2:10
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    In Windows, you can use the function GetStdHandle to obtain any one of the three handles that were passed to the process. Thus no C library is needed, just these funtions in kernel32.lib.
    – Kaz
    Commented Aug 26, 2022 at 2:12
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They don't exist as files on Windows. Even though Windows NT has a object manager in the kernel where named kernel objects exist, the console is not part of it.

At the Win32 layer, those 3 handles are returned by GetStdHandle. They are special handles and when WriteFile/ReadFile are called, they check for these special handles and reroutes the request to the console API internally. On the other hand, if a std handle is redirected then the handle can be a real file on disk or a pipe and normal I/O is performed. CON, CONIN$ and CONOUT$ are special names known by CreateFile and provides access to the console screen buffers but this is not exactly the same thing as the handles from GetStdHandle.

The C run-time library sits on top of Win32 and provides another level of abstraction. Internally it will have mappings to/from std, FILE* and the native Win32 HANDLE.

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There is no direct equivalent of /dev/stdin and other Unix pseudo files.

You could create a named pipe (CreateNamedPipe) but it isn't exactly identical.

The windows files conIN$ and conOUT$ are similar, but they only read or write to the current window.

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