zoxide/install.sh
2023-05-06 14:25:33 +05:30

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Executable File

#!/bin/sh
# shellcheck shell=dash
# The official zoxide installer.
#
# It runs on Unix shells like {a,ba,da,k,z}sh. It uses the common `local`
# extension. Note: Most shells limit `local` to 1 var per line, contra bash.
main() {
if [ "${KSH_VERSION-}" = 'Version JM 93t+ 2010-03-05' ]; then
# The version of ksh93 that ships with many illumos systems does not
# support the "local" extension. Print a message rather than fail in
# subtle ways later on:
err 'the installer does not work with this ksh93 version; please try bash'
fi
set -u
# Detect and print host target triple.
ensure get_architecture
local _arch="${RETVAL}"
assert_nz "${_arch}" "arch"
echo "Detected architecture: ${_arch}"
# Create and enter a temporary directory.
local _tmp_dir
_tmp_dir="$(mktemp -d)" || err "mktemp: could not create temporary directory"
cd "${_tmp_dir}" || err "cd: failed to enter directory: ${_tmp_dir}"
# Download and extract zoxide.
ensure download_zoxide "${_arch}"
local _package="${RETVAL}"
assert_nz "${_package}" "package"
echo "Downloaded package: ${_package}"
case "${_package}" in
*.tar.gz)
need_cmd tar
ensure tar -xf "${_package}"
;;
*.zip)
need_cmd unzip
ensure unzip -oq "${_package}"
;;
*)
err "unsupported package format: ${_package}"
;;
esac
# Install binary.
local _bin_dir="${HOME}/.local/bin"
local _bin_name
case "${_arch}" in
*windows*) _bin_name="zoxide.exe" ;;
*) _bin_name="zoxide" ;;
esac
ensure mkdir -p "${_bin_dir}"
ensure cp "${_bin_name}" "${_bin_dir}"
ensure chmod +x "${_bin_dir}/${_bin_name}"
echo "Installed zoxide to ${_bin_dir}"
# Install manpages.
local _man_dir="${HOME}/.local/share/man"
ensure mkdir -p "${_man_dir}/man1"
ensure cp "man/man1/"* "${_man_dir}/man1/"
echo "Installed manpages to ${_man_dir}"
# Print success message and check $PATH.
echo ""
echo "zoxide is installed!"
if ! echo ":${PATH}:" | grep -Fq ":${_bin_dir}:"; then
echo "NOTE: ${_bin_dir} is not on your \$PATH. zoxide will not work unless it is added to \$PATH."
fi
}
download_zoxide() {
local _arch="$1"
if check_cmd curl; then
_dld=curl
elif check_cmd wget; then
_dld=wget
else
need_cmd 'curl or wget'
fi
need_cmd grep
local _releases_url="https://api.github.com/repos/ajeetdsouza/zoxide/releases/latest"
local _releases
case "${_dld}" in
curl) _releases="$(curl -sL "${_releases_url}")" ||
err "curl: failed to download ${_releases_url}" ;;
wget) _releases="$(wget -qO- "${_releases_url}")" ||
err "wget: failed to download ${_releases_url}" ;;
*) err "unsupported downloader: ${_dld}" ;;
esac
(echo "${_releases}" | grep -q 'API rate limit exceeded') &&
err "you have exceeded GitHub's API rate limit. Please try again later, or use a different installation method: https://github.com/ajeetdsouza/zoxide/#installation"
local _package_url
_package_url="$(echo "${_releases}" | grep "browser_download_url" | cut -d '"' -f 4 | grep "${_arch}")" ||
err "zoxide has not yet been packaged for your architecture (${_arch}), please file an issue: https://github.com/ajeetdsouza/zoxide/issues"
local _ext
case "${_package_url}" in
*.tar.gz) _ext="tar.gz" ;;
*.zip) _ext="zip" ;;
*) err "unsupported package format: ${_package_url}" ;;
esac
local _package="zoxide.${_ext}"
case "${_dld}" in
curl) _releases="$(curl -sLo "${_package}" "${_package_url}")" || err "curl: failed to download ${_package_url}" ;;
wget) _releases="$(wget -qO "${_package}" "${_package_url}")" || err "wget: failed to download ${_package_url}" ;;
*) err "unsupported downloader: ${_dld}" ;;
esac
RETVAL="${_package}"
}
# The below functions have been extracted with minor modifications from the
# Rustup install script:
#
# https://github.com/rust-lang/rustup/blob/4c1289b2c3f3702783900934a38d7c5f912af787/rustup-init.sh
get_architecture() {
local _ostype _cputype _bitness _arch _clibtype
_ostype="$(uname -s)"
_cputype="$(uname -m)"
_clibtype="musl"
if [ "${_ostype}" = Linux ]; then
if [ "$(uname -o || true)" = Android ]; then
_ostype=Android
fi
fi
if [ "${_ostype}" = Darwin ] && [ "${_cputype}" = i386 ]; then
# Darwin `uname -m` lies
if sysctl hw.optional.x86_64 | grep -q ': 1'; then
_cputype=x86_64
fi
fi
if [ "${_ostype}" = SunOS ]; then
# Both Solaris and illumos presently announce as "SunOS" in "uname -s"
# so use "uname -o" to disambiguate. We use the full path to the
# system uname in case the user has coreutils uname first in PATH,
# which has historically sometimes printed the wrong value here.
if [ "$(/usr/bin/uname -o || true)" = illumos ]; then
_ostype=illumos
fi
# illumos systems have multi-arch userlands, and "uname -m" reports the
# machine hardware name; e.g., "i86pc" on both 32- and 64-bit x86
# systems. Check for the native (widest) instruction set on the
# running kernel:
if [ "${_cputype}" = i86pc ]; then
_cputype="$(isainfo -n)"
fi
fi
case "${_ostype}" in
Android)
_ostype=linux-android
;;
Linux)
check_proc
_ostype=unknown-linux-${_clibtype}
_bitness=$(get_bitness)
;;
FreeBSD)
_ostype=unknown-freebsd
;;
NetBSD)
_ostype=unknown-netbsd
;;
DragonFly)
_ostype=unknown-dragonfly
;;
Darwin)
_ostype=apple-darwin
;;
illumos)
_ostype=unknown-illumos
;;
MINGW* | MSYS* | CYGWIN* | Windows_NT)
_ostype=pc-windows-msvc
;;
*)
err "unrecognized OS type: ${_ostype}"
;;
esac
case "${_cputype}" in
i386 | i486 | i686 | i786 | x86)
_cputype=i686
;;
xscale | arm)
_cputype=arm
if [ "${_ostype}" = "linux-android" ]; then
_ostype=linux-androideabi
fi
;;
armv6l)
_cputype=arm
if [ "${_ostype}" = "linux-android" ]; then
_ostype=linux-androideabi
else
_ostype="${_ostype}eabihf"
fi
;;
armv7l | armv8l)
_cputype=armv7
if [ "${_ostype}" = "linux-android" ]; then
_ostype=linux-androideabi
else
_ostype="${_ostype}eabihf"
fi
;;
aarch64 | arm64)
_cputype=aarch64
;;
x86_64 | x86-64 | x64 | amd64)
_cputype=x86_64
;;
mips)
_cputype=$(get_endianness mips '' el)
;;
mips64)
if [ "${_bitness}" -eq 64 ]; then
# only n64 ABI is supported for now
_ostype="${_ostype}abi64"
_cputype=$(get_endianness mips64 '' el)
fi
;;
ppc)
_cputype=powerpc
;;
ppc64)
_cputype=powerpc64
;;
ppc64le)
_cputype=powerpc64le
;;
s390x)
_cputype=s390x
;;
riscv64)
_cputype=riscv64gc
;;
*)
err "unknown CPU type: ${_cputype}"
;;
esac
# Detect 64-bit linux with 32-bit userland
if [ "${_ostype}" = unknown-linux-musl ] && [ "${_bitness}" -eq 32 ]; then
case ${_cputype} in
x86_64)
# 32-bit executable for amd64 = x32
if is_host_amd64_elf; then {
echo "x32 userland is unsupported" 1>&2
exit 1
}; else
_cputype=i686
fi
;;
mips64)
_cputype=$(get_endianness mips '' el)
;;
powerpc64)
_cputype=powerpc
;;
aarch64)
_cputype=armv7
if [ "${_ostype}" = "linux-android" ]; then
_ostype=linux-androideabi
else
_ostype="${_ostype}eabihf"
fi
;;
riscv64gc)
err "riscv64 with 32-bit userland unsupported"
;;
*) ;;
esac
fi
# Detect armv7 but without the CPU features Rust needs in that build,
# and fall back to arm.
# See https://github.com/rust-lang/rustup.rs/issues/587.
if [ "${_ostype}" = "unknown-linux-musleabihf" ] && [ "${_cputype}" = armv7 ]; then
if ensure grep '^Features' /proc/cpuinfo | grep -q -v neon; then
# At least one processor does not have NEON.
_cputype=arm
fi
fi
_arch="${_cputype}-${_ostype}"
RETVAL="${_arch}"
}
get_bitness() {
need_cmd head
# Architecture detection without dependencies beyond coreutils.
# ELF files start out "\x7fELF", and the following byte is
# 0x01 for 32-bit and
# 0x02 for 64-bit.
# The printf builtin on some shells like dash only supports octal
# escape sequences, so we use those.
local _current_exe_head
_current_exe_head=$(head -c 5 /proc/self/exe)
if [ "${_current_exe_head}" = "$(printf '\177ELF\001')" ]; then
echo 32
elif [ "${_current_exe_head}" = "$(printf '\177ELF\002')" ]; then
echo 64
else
err "unknown platform bitness"
fi
}
get_endianness() {
local cputype=$1
local suffix_eb=$2
local suffix_el=$3
# detect endianness without od/hexdump, like get_bitness() does.
need_cmd head
need_cmd tail
local _current_exe_endianness
_current_exe_endianness="$(head -c 6 /proc/self/exe | tail -c 1)"
if [ "${_current_exe_endianness}" = "$(printf '\001')" ]; then
echo "${cputype}${suffix_el}"
elif [ "${_current_exe_endianness}" = "$(printf '\002')" ]; then
echo "${cputype}${suffix_eb}"
else
err "unknown platform endianness"
fi
}
is_host_amd64_elf() {
need_cmd head
need_cmd tail
# ELF e_machine detection without dependencies beyond coreutils.
# Two-byte field at offset 0x12 indicates the CPU,
# but we're interested in it being 0x3E to indicate amd64, or not that.
local _current_exe_machine
_current_exe_machine=$(head -c 19 /proc/self/exe | tail -c 1)
[ "${_current_exe_machine}" = "$(printf '\076')" ]
}
check_proc() {
# Check for /proc by looking for the /proc/self/exe link.
# This is only run on Linux.
if ! test -L /proc/self/exe; then
err "unable to find /proc/self/exe. Is /proc mounted? Installation cannot proceed without /proc."
fi
}
need_cmd() {
if ! check_cmd "$1"; then
err "need '$1' (command not found)"
fi
}
check_cmd() {
command -v "$1" >/dev/null 2>&1
}
# Run a command that should never fail. If the command fails execution
# will immediately terminate with an error showing the failing
# command.
ensure() {
if ! "$@"; then err "command failed: $*"; fi
}
assert_nz() {
if [ -z "$1" ]; then err "found empty string: $2"; fi
}
err() {
echo "Error: $1" >&2
exit 1
}
# This is put in braces to ensure that the script does not run until it is
# downloaded completely.
{
main "$@" || exit 1
}