Bash Script For Mac

 

Generate Self-Signed SSL Certificates for Local Development On A Mac Have you ever need to develop HTTPS sites locally? To make it work you need to generate a SSL certificate of your own and tell your computer to trust it so you don't get weird Your connection is not private errors in your browser. Generating the certs is a complicated hassle. So I made a bash script to do it all for you. (Props to for most of the background info to get this script working) How do I use this?

  1. Bash Script Machine Name
  2. Bash Script Mac Address

To run a non-executable sh script, use: sh myscript To run a non-executable bash script, use: bash myscript To start an executable (which is any file with executable permission); you just specify it by its path: /foo/bar /bin/bar./bar To make a script executable, give it the necessary permission: chmod +x bar./bar When a file is executable, the kernel is responsible for figuring out how to execte it. For non-binaries, this is done by looking at the first line of the file.

BashBash Script For MacBash Script For Mac

It should contain a hashbang: #! /usr/bin/env bash The hashbang tells the kernel what program to run (in this case the command /usr/bin/env is ran with the argument bash). Then, the script is passed to the program (as second argument) along with all the arguments you gave the script as subsequent arguments. That means every script that is executable should have a hashbang.

If it doesn't, you're not telling the kernel what it is, and therefore the kernel doesn't know what program to use to interprete it. It could be bash, perl, python, sh, or something else.

(In reality, the kernel will often use the user's default shell to interprete the file, which is very dangerous because it might not be the right interpreter at all or it might be able to parse some of it but with subtle behavioural differences such as is the case between sh and bash). A note on /usr/bin/env Most commonly, you'll see hash bangs like so: #!/bin/bash The result is that the kernel will run the program /bin/bash to interpret the script. Unfortunately, bash is not always shipped by default, and it is not always available in /bin.

While on Linux machines it usually is, there are a range of other POSIX machines where bash ships in various locations, such as /usr/xpg/bin/bash or /usr/local/bin/bash. To write a portable bash script, we can therefore not rely on hard-coding the location of the bash program. POSIX already has a mechanism for dealing with that: PATH.

Bash Script Machine Name

The idea is that you install your programs in one of the directories that are in PATH and the system should be able to find your program when you want to run it by name. Sadly, you cannot just do this: #!bash The kernel won't (some might) do a PATH search for you. There is a program that can do a PATH search for you, though, it's called env. Luckily, nearly all systems have an env program installed in /usr/bin. So we start env using a hardcoded path, which then does a PATH search for bash and runs it so that it can interpret your script: #!/usr/bin/env bash This approach has one downside: According to POSIX, the hashbang can have one argument. In this case, we use bash as the argument to the env program.

Bash Script Mac Address

That means we have no space left to pass arguments to bash. So there's no way to convert something like #!/bin/bash -exu to this scheme. You'll have to put set -exu after the hashbang instead. This approach also has another advantage: Some systems may ship with a /bin/bash, but the user may not like it, may find it's buggy or outdated, and may have installed his own bash somewhere else. This is often the case on OS X (Macs) where Apple ships an outdated /bin/bash and users install an up-to-date /usr/local/bin/bash using something like Homebrew.

When you use the env approach which does a PATH search, you take the user's preference into account and use his preferred bash over the one his system shipped with.