How to install Command Line Tools, CLT, and the Homebrew package manager on macOS Catalina.As a usage demo, I'll show you how to install the wget utility wit. I have both Xcode and command line tool installed. I am trying to install Homebrew on Catalina. Its not installing this is what I get > /usr/bin/sudo /bin/mkdir -p /usr/local/bin mkdir. Installing Python on Mac OS X Catalina Posted by bernard 11 November 2020 11 November 2020 (This is a reminder to myself, and maybe a help for someone else who might be in the same situation as me.
Additionally, SUMO provides native macOS application bundles for its graphical applications, so they can be added to the macOS dock. There is a separate brew cask that will copy these bundles to the Applications folder: brew cask install sumo-gui. 苹果公司在今天(2019.10.08)凌晨正式推送了 macOS Catalina(10.15)更新 ,新系统将诞生了18年的 iTune. You will need a macOS computer running High Sierra or higher with administrative access and an internet connection. Step 1 — Using the macOS Terminal. To access the command line interface on your Mac, you’ll use the Terminal application provided by macOS.
You can install cryptography
with pip
:
Hi, I am running MacOS X 10.14.3 (German Version) which I installed directly from the downloaded install ISO in the latest VMware Fusion. Now I get a notification form softwareupdate that there is an update available. Updated to reflect the release of macOS 10.5 Catalina Updated to add back PHP 5.6 and PHP 7.0 from and external deprecated keg Updated to reflect the latest release of PHP 7.3 and the removal of PHP 7.0 from Brew.
If this does not work please upgrade your pip first, as that is thesingle most common cause of installation problems.
Currently we test cryptography
on Python 3.6+ and PyPy3 7.3.1 on theseoperating systems.
We test compiling with clang
as well as gcc
and use the followingOpenSSL releases:
OpenSSL1.1.0-latest
OpenSSL1.1.1-latest
The wheel package on Windows is a statically linked build (as of 0.5) so alldependencies are included. To install cryptography
, you will typicallyjust run
If you prefer to compile it yourself you’ll need to have OpenSSL installed.You can compile OpenSSL yourself as well or use a binary distribution.Be sure to download the proper version for your architecture and Python(VC2015 is required for 3.6 and above). Wherever you place your copy of OpenSSLyou’ll need to set the LIB
and INCLUDE
environment variables to includethe proper locations. For example:
As of OpenSSL 1.1.0 the library names have changed from libeay32
andssleay32
to libcrypto
and libssl
(matching their names on all otherplatforms). cryptography
links against the new 1.1.0 names by default. Ifyou need to compile cryptography
against an older version then you mustset CRYPTOGRAPHY_WINDOWS_LINK_LEGACY_OPENSSL
or else installation will fail.
You will also need to have Rust installed andavailable.
If you need to rebuild cryptography
for any reason be sure to clear thelocal wheel cache.
Note
If you are on RHEL/CentOS/Fedora/Debian/Ubuntu or another distributionderived from the preceding list, then you should upgrade pip andattempt to install cryptography
again before following the instructionsto compile it below. These platforms will receive a binary wheel andrequire no compiler if you have an updated pip
!
cryptography
ships manylinux
wheels (as of 2.0) so all dependenciesare included. For users on pip 19.0 or above running on a manylinux2010
(or greater) compatible distribution (almost everything except Alpine) allyou should need to do is:
If you are on Alpine or just want to compile it yourself thencryptography
requires a C compiler, a Rust compiler, headers for Python (ifyou’re not using pypy
), and headers for the OpenSSL and libffi
librariesavailable on your system.
On all Linux distributions you will need to have Rust installed andavailable.
Warning
The Rust available by default in Alpine < 3.12 is older than the minimumsupported version. See the Rust installation instructions for information about installing a newer Rust.
If you get an error with openssl-dev
you may have to use libressl-dev
.
Warning
The Rust available in current Debian stable and some Ubuntu versions isolder than the minimum supported version. Ubuntu 18.04 and 20.04 aresufficiently new, but otherwise please see theRust installation instructions for informationabout installing a newer Rust.
Warning
For RHEL and CentOS you must be on version 8.3 or newer for the commandbelow to install a sufficiently new Rust. If your Rust is less than 1.41.0please see the Rust installation instructionsfor information about installing a newer Rust.
Warning
You must install Rust using the Rust installation instructions. cryptography
requires a Rust version newer thanwhat is provided in the distribution packages.
You should now be able to build and install cryptography. To avoid gettingthe pre-built wheel on manylinux
compatible distributions you’ll need touse --no-binary
.
Python links to OpenSSL for its own purposes and this can sometimes causeproblems when you wish to use a different version of OpenSSL with cryptography.If you want to use cryptography with your own build of OpenSSL you will need tomake sure that the build is configured correctly so that your version ofOpenSSL doesn’t conflict with Python’s.
The options you need to add allow the linker to identify every symbol correctlyeven when multiple versions of the library are linked into the same program. Ifyou are using your distribution’s source packages these will probably bepatched in for you already, otherwise you’ll need to use options something likethis when configuring OpenSSL:
Cryptography ships statically-linked wheels for macOS, Windows, and Linux (viamanylinux
). This allows compatible environments to use the most recentOpenSSL, regardless of what is shipped by default on those platforms. SomeLinux distributions (most notably Alpine) are not manylinux
compatible sowe cannot distribute wheels for them.
However, you can build your own statically-linked wheels that will work on yourown systems. This will allow you to continue to use relatively old Linuxdistributions (such as LTS releases), while making sure you have the mostrecent OpenSSL available to your Python programs.
To do so, you should find yourself a machine that is as similar as possible toyour target environment (e.g. your production environment): for example, spinup a new cloud server running your target Linux distribution. On this machine,install the Cryptography dependencies as mentioned in Building cryptography on Linux.Please also make sure you have virtualenv installed: this should beavailable from your system package manager.
Then, paste the following into a shell script. You’ll need to populate theOPENSSL_VERSION
variable. To do that, visit openssl.org and find thelatest non-FIPS release version number, then set the string appropriately. Forexample, for OpenSSL 1.0.2k, use OPENSSL_VERSION='1.0.2k'
.
When this shell script is complete, you’ll find a collection of wheel files ina directory called wheelhouse
. These wheels can be installed by asufficiently-recent version of pip
. The Cryptography wheel in thisdirectory contains a statically-linked OpenSSL binding, which ensures that youhave access to the most-recent OpenSSL releases without corrupting your systemdependencies.
Note
If installation gives a fatalerror:'openssl/aes.h'filenotfound
see the FAQ for information about how to fix this issue.
The wheel package on macOS is a statically linked build (as of 1.0.1) so forusers with pip 8 or above you only need one step:
If you want to build cryptography yourself or are on an older macOS version,cryptography requires the presence of a C compiler, development headers, andthe proper libraries. On macOS much of this is provided by Apple’s Xcodedevelopment tools. To install the Xcode command line tools (on macOS 10.10+)open a terminal window and run:
This will install a compiler (clang) along with (most of) the requireddevelopment headers.
You will also need to have Rust installed andavailable, which can be obtained from Homebrew,MacPorts, or directly from the Rust website.
Finally you need OpenSSL, which you can obtain from Homebrew or MacPorts.Cryptography does not support the OpenSSL/LibreSSL libraries Apple shipsin its base operating system.
To build cryptography and dynamically link it:
MacPorts:
You can also build cryptography statically:
MacPorts:
If you need to rebuild cryptography
for any reason be sure to clear thelocal wheel cache.
Note
If you are on RHEL/CentOS/Fedora/Debian/Ubuntu or another distributionderived from the preceding list, then you should upgrade pip (ina virtual environment!) and attempt to install cryptography
againbefore trying to install the Rust toolchain. These platforms will receivea binary wheel and require no compiler if you have an updated pip
!
Building cryptography
requires having a working Rust toolchain. The currentminimum supported Rust version is 1.41.0. This is newer than the Rust mostpackage managers ship, so users will likely need to install with theinstructions below.
Instructions for installing Rust can be found on the Rust Project’s website.We recommend installing Rust with rustup
(as documented by the RustProject) in order to ensure you have a recent version.
Rust is only required when building cryptography
, meaning that you mayinstall it for the duration of your pipinstall
command and then remove itfrom a system. A Rust toolchain is not required to usecryptography
. Indeployments such as docker
, you may use a multi-stage Dockerfile
whereyou install Rust during the build phase but do not install it in the runtimeimage. This is the same as the C compiler toolchain which is also required tobuild cryptography
, but not afterwards.
Some system emulations on Linux use KVM, a special emulation mode which claims to reach nearly native speed.KVM is mainly used for x86 (32 and 64 bit) emulation on x86 hosts running Linux. Should you want to run Qemu with KVM support on a G5, depending on your distribution, you might have to compile your own kernel with KVM support.
If your host's (your computer) architecture matches the guest's (QEMU) architecture and is running Mac OS 10.10 or higher, then you could speed up execution to near native speed using this option: -accel hvf
The system requirements are:
Additional build requirements are:
make (when installed through brew, make is installed as gmake, so use gmake)
After downloading the QEMU source code, double-click it to expand it.
Then configure and make QEMU. The target-list option is used to build only the machine or machines you want. If you don't specify it, all machines would be built. Probably not what you want.
This way doesn't require you to wait for the configure command to complete:
If your system has the 'say' command, you can use it to tell you when QEMU is done
You can use './configure --help' to see a full list of options.
Here are all the currently available machines:
We recommend building QEMU with the -default compiler provided by Apple, for your version of Mac OS X (which will be 'clang'). The configure script will automatically pick this.
Note: If after the configure step you see a message like this:
you may have to install your own version of gcc. You can build it from source (expect that to take several hours) or obtain third party binaries of gcc available from Homebrew or MacPorts.
You can have several versions of GCC on your system. To specify a certain version, use the --cc and --cxx options.
If you need to compile with newer versions of clang (to get f.i. AVX/AVX2 support), you can install llvm through e.g., brew.
Note that building for machines with CPUs supporting such extensions will exclude running your binary on earlier machines.
Compile with:
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