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libreerp_ynh/scripts/_future.sh
2018-09-27 00:31:17 +02:00

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log() {
echo "${1}"
}
info() {
log "[INFO] ${1}"
}
warn() {
log "[WARN] ${1}"
}
err() {
log "[ERR] ${1}"
}
ynh_check_var () {
test -n "$1" || ynh_die "$2"
}
ynh_exit_properly () {
exit_code=$?
if [ "$exit_code" -eq 0 ]; then
exit 0
fi
trap '' EXIT
set +eu
echo -e "\e[91m \e[1m"
err "$app script has encountered an error."
if type -t CLEAN_SETUP > /dev/null; then
CLEAN_SETUP
fi
ynh_die
}
# Activate signal capture
# Exit if a command fail, and if a variable is used unset.
# Capturing exit signals on shell script
#
# example: CLEAN_SETUP () {
# # Clean residual file un remove by remove script
# }
# ynh_trap_on
ynh_trap_on () {
set -eu
trap ynh_exit_properly EXIT # Capturing exit signals on shell script
}
ynh_export () {
local ynh_arg=""
for var in $@;
do
ynh_arg=$(echo $var | awk '{print toupper($0)}')
ynh_arg="YNH_APP_ARG_$ynh_arg"
export $var=${!ynh_arg}
done
}
# Save listed var in YunoHost app settings
# usage: ynh_save_args VARNAME1 [VARNAME2 [...]]
ynh_save_args () {
for var in $@;
do
ynh_app_setting_set $app $var ${!var}
done
}
ynh_sso_access () {
ynh_app_setting_set $app unprotected_uris "/"
if [[ $is_public -eq 0 ]]; then
ynh_app_setting_set $app protected_uris "$1"
fi
sudo yunohost app ssowatconf
}
ynh_configure () {
local TEMPLATE=$1
local DEST=$2
type j2 2>/dev/null || sudo pip install j2cli
j2 "${YNH_CWD}/../conf/$TEMPLATE.j2" > "${YNH_CWD}/../conf/$TEMPLATE"
sudo cp "${YNH_CWD}/../conf/$TEMPLATE" "$DEST"
}
ynh_configure_nginx () {
ynh_configure nginx.conf /etc/nginx/conf.d/$domain.d/$app.conf
sudo service nginx reload
}
# Find a free port and return it
#
# example: port=$(ynh_find_port 8080)
#
# usage: ynh_find_port begin_port
# | arg: begin_port - port to start to search
ynh_find_port () {
port=$1
test -n "$port" || ynh_die "The argument of ynh_find_port must be a valid port."
while netcat -z 127.0.0.1 $port # Check if the port is free
do
port=$((port+1)) # Else, pass to next port
done
echo $port
}
ynh_rm_nginx_conf () {
if [ -e "/etc/nginx/conf.d/$domain.d/$app.conf" ]; then
sudo rm "/etc/nginx/conf.d/$domain.d/$app.conf"
sudo service nginx reload
fi
}
ynh_secure_rm () {
[[ "/var/www /opt /home/yunohost.app" =~ $1 ]] \
|| (test -n "$1" && sudo rm -Rf $1 )
}
# Upgrade
ynh_read_json () {
python3 -c "import sys, json;print(json.load(open('$1'))['$2'])"
}
ynh_read_manifest () {
if [ -f '../manifest.json' ] ; then
ynh_read_json '../manifest.json' "$1"
else
ynh_read_json '../settings/manifest.json' "$1"
fi
}
ynh_exit_if_up_to_date () {
if [ "${version}" = "${last_version}" ]; then
info "Up-to-date, nothing to do"
exit 0
fi
}
# # Execute a command as root user
#
# usage: ynh_psql_execute_as_root sql [db]
# | arg: sql - the SQL command to execute
# | arg: db - the database to connect to
ynh_psql_execute_as_root () {
sudo su -c "psql" - postgres <<< ${1}
}
# Create a user
#
# usage: ynh_psql_create_user user pwd [host]
# | arg: user - the user name to create
# | arg: pwd - the password to identify user by
ynh_psql_create_user() {
ynh_psql_execute_as_root \
"CREATE USER ${1} WITH PASSWORD '${2}';"
}
# Create a database and grant optionnaly privilegies to a user
#
# usage: ynh_psql_create_db db [user [pwd]]
# | arg: db - the database name to create
# | arg: user - the user to grant privilegies
# | arg: pwd - the password to identify user by
ynh_psql_create_db() {
db=$1
# grant all privilegies to user
if [[ $# -gt 1 ]]; then
ynh_psql_create_user ${2} "${3}"
sudo su -c "createdb -O ${2} $db" - postgres
else
sudo su -c "createdb $db" - postgres
fi
}
# Drop a database
#
# usage: ynh_psql_drop_db db
# | arg: db - the database name to drop
ynh_psql_drop_db() {
sudo su -c "dropdb ${1}" - postgres
}
# Drop a user
#
# usage: ynh_psql_drop_user user
# | arg: user - the user name to drop
ynh_psql_drop_user() {
sudo su -c "dropuser ${1}" - postgres
}
# Execute a command as another user
# usage: exec_as USER COMMAND [ARG ...]
exec_as() {
local USER=$1
shift 1
if [[ $USER = $(whoami) ]]; then
eval "$@"
else
# use sudo twice to be root and be allowed to use another user
sudo sudo -u "$USER" "$@"
fi
}
ynh_debian_release () {
lsb_release --codename --short
}
is_stretch () {
if [ "$(ynh_debian_release)" == "stretch" ]
then
return 0
else
return 1
fi
}
is_jessie () {
if [ "$(ynh_debian_release)" == "jessie" ]
then
return 0
else
return 1
fi
}
# Internal helper design to allow helpers to use getopts to manage their arguments
#
# example: function my_helper()
# {
# declare -Ar args_array=( [a]=arg1= [b]=arg2= [c]=arg3 )
# local arg1
# local arg2
# local arg3
# ynh_handle_getopts_args "$@"
#
# [...]
# }
# my_helper --arg1 "val1" -b val2 -c
#
# usage: ynh_handle_getopts_args "$@"
# | arg: $@ - Simply "$@" to tranfert all the positionnal arguments to the function
#
# This helper need an array, named "args_array" with all the arguments used by the helper
# that want to use ynh_handle_getopts_args
# Be carreful, this array has to be an associative array, as the following example:
# declare -Ar args_array=( [a]=arg1 [b]=arg2= [c]=arg3 )
# Let's explain this array:
# a, b and c are short options, -a, -b and -c
# arg1, arg2 and arg3 are the long options associated to the previous short ones. --arg1, --arg2 and --arg3
# For each option, a short and long version has to be defined.
# Let's see something more significant
# declare -Ar args_array=( [u]=user [f]=finalpath= [d]=database )
#
# NB: Because we're using 'declare' without -g, the array will be declared as a local variable.
#
# Please keep in mind that the long option will be used as a variable to store the values for this option.
# For the previous example, that means that $finalpath will be fill with the value given as argument for this option.
#
# Also, in the previous example, finalpath has a '=' at the end. That means this option need a value.
# So, the helper has to be call with --finalpath /final/path, --finalpath=/final/path or -f /final/path, the variable $finalpath will get the value /final/path
# If there's many values for an option, -f /final /path, the value will be separated by a ';' $finalpath=/final;/path
# For an option without value, like --user in the example, the helper can be called only with --user or -u. $user will then get the value 1.
#
# To keep a retrocompatibility, a package can still call a helper, using getopts, with positional arguments.
# The "legacy mode" will manage the positional arguments and fill the variable in the same order than they are given in $args_array.
# e.g. for `my_helper "val1" val2`, arg1 will be filled with val1, and arg2 with val2.
ynh_handle_getopts_args () {
# Manage arguments only if there's some provided
set +x
if [ $# -ne 0 ]
then
# Store arguments in an array to keep each argument separated
local arguments=("$@")
# For each option in the array, reduce to short options for getopts (e.g. for [u]=user, --user will be -u)
# And built parameters string for getopts
# ${!args_array[@]} is the list of all keys in the array (A key is 'u' in [u]=user, user is a value)
local getopts_parameters=""
local key=""
for key in "${!args_array[@]}"
do
# Concatenate each keys of the array to build the string of arguments for getopts
# Will looks like 'abcd' for -a -b -c -d
# If the value of a key finish by =, it's an option with additionnal values. (e.g. --user bob or -u bob)
# Check the last character of the value associate to the key
if [ "${args_array[$key]: -1}" = "=" ]
then
# For an option with additionnal values, add a ':' after the letter for getopts.
getopts_parameters="${getopts_parameters}${key}:"
else
getopts_parameters="${getopts_parameters}${key}"
fi
# Check each argument given to the function
local arg=""
# ${#arguments[@]} is the size of the array
for arg in `seq 0 $(( ${#arguments[@]} - 1 ))`
do
# And replace long option (value of the key) by the short option, the key itself
# (e.g. for [u]=user, --user will be -u)
# Replace long option with =
arguments[arg]="${arguments[arg]//--${args_array[$key]}/-${key} }"
# And long option without =
arguments[arg]="${arguments[arg]//--${args_array[$key]%=}/-${key}}"
done
done
# Read and parse all the arguments
# Use a function here, to use standart arguments $@ and be able to use shift.
parse_arg () {
# Read all arguments, until no arguments are left
while [ $# -ne 0 ]
do
# Initialize the index of getopts
OPTIND=1
# Parse with getopts only if the argument begin by -, that means the argument is an option
# getopts will fill $parameter with the letter of the option it has read.
local parameter=""
getopts ":$getopts_parameters" parameter || true
if [ "$parameter" = "?" ]
then
ynh_die "Invalid argument: -${OPTARG:-}"
elif [ "$parameter" = ":" ]
then
ynh_die "-$OPTARG parameter requires an argument."
else
local shift_value=1
# Use the long option, corresponding to the short option read by getopts, as a variable
# (e.g. for [u]=user, 'user' will be used as a variable)
# Also, remove '=' at the end of the long option
# The variable name will be stored in 'option_var'
local option_var="${args_array[$parameter]%=}"
# If this option doesn't take values
# if there's a '=' at the end of the long option name, this option takes values
if [ "${args_array[$parameter]: -1}" != "=" ]
then
# 'eval ${option_var}' will use the content of 'option_var'
eval ${option_var}=1
else
# Read all other arguments to find multiple value for this option.
# Load args in a array
local all_args=("$@")
# If the first argument is longer than 2 characters,
# There's a value attached to the option, in the same array cell
if [ ${#all_args[0]} -gt 2 ]; then
# Remove the option and the space, so keep only the value itself.
all_args[0]="${all_args[0]#-${parameter} }"
# Reduce the value of shift, because the option has been removed manually
shift_value=$(( shift_value - 1 ))
fi
# Then read the array value per value
for i in `seq 0 $(( ${#all_args[@]} - 1 ))`
do
# If this argument is an option, end here.
if [ "${all_args[$i]:0:1}" == "-" ] || [ -z "${all_args[$i]}" ]
then
# Ignore the first value of the array, which is the option itself
if [ "$i" -ne 0 ]; then
break
fi
else
# Declare the content of option_var as a variable.
eval ${option_var}=""
# Else, add this value to this option
# Each value will be separated by ';'
if [ -n "${!option_var}" ]
then
# If there's already another value for this option, add a ; before adding the new value
eval ${option_var}+="\;"
fi
eval ${option_var}+=\"${all_args[$i]}\"
shift_value=$(( shift_value + 1 ))
fi
done
fi
fi
# Shift the parameter and its argument(s)
shift $shift_value
done
}
# LEGACY MODE
# Check if there's getopts arguments
if [ "${arguments[0]:0:1}" != "-" ]
then
# If not, enter in legacy mode and manage the arguments as positionnal ones.
echo "! Helper used in legacy mode !"
for i in `seq 0 $(( ${#arguments[@]} -1 ))`
do
# Use getopts_parameters as a list of key of the array args_array
# Remove all ':' in getopts_parameters
getopts_parameters=${getopts_parameters//:}
# Get the key from getopts_parameters, by using the key according to the position of the argument.
key=${getopts_parameters:$i:1}
# Use the long option, corresponding to the key, as a variable
# (e.g. for [u]=user, 'user' will be used as a variable)
# Also, remove '=' at the end of the long option
# The variable name will be stored in 'option_var'
local option_var="${args_array[$key]%=}"
# Store each value given as argument in the corresponding variable
# The values will be stored in the same order than $args_array
eval ${option_var}+=\"${arguments[$i]}\"
done
else
# END LEGACY MODE
# Call parse_arg and pass the modified list of args as an array of arguments.
parse_arg "${arguments[@]}"
fi
fi
set -x
}
# Argument $1 is the size of the swap in MiB
ynh_add_swap () {
# Declare an array to define the options of this helper.
declare -Ar args_array=( [s]=size= )
local size
# Manage arguments with getopts
ynh_handle_getopts_args "$@"
local swap_max_size=$(( $size * 1024 ))
local free_space=$(df --output=avail / | sed 1d)
# Because we don't want to fill the disk with a swap file, divide by 2 the available space.
local usable_space=$(( $free_space / 2 ))
# Compare the available space with the size of the swap.
# And set a acceptable size from the request
if [ $usable_space -ge $swap_max_size ]
then
local swap_size=$swap_max_size
elif [ $usable_space -ge $(( $swap_max_size / 2 )) ]
then
local swap_size=$(( $swap_max_size / 2 ))
elif [ $usable_space -ge $(( $swap_max_size / 3 )) ]
then
local swap_size=$(( $swap_max_size / 3 ))
elif [ $usable_space -ge $(( $swap_max_size / 4 )) ]
then
local swap_size=$(( $swap_max_size / 4 ))
else
echo "Not enough space left for a swap file" >&2
local swap_size=0
fi
# If there's enough space for a swap, and no existing swap here
if [ $swap_size -ne 0 ] && [ ! -e /swap ]
then
# Preallocate space for the swap file
fallocate -l ${swap_size}K /swap
chmod 0600 /swap
# Create the swap
mkswap /swap
# And activate it
swapon /swap
# Then add an entry in fstab to load this swap at each boot.
echo -e "/swap swap swap defaults 0 0 #Swap added by $app" >> /etc/fstab
fi
}
ynh_del_swap () {
# If there a swap at this place
if [ -e /swap ]
then
# Clean the fstab
sed -i "/#Swap added by $app/d" /etc/fstab
# Desactive the swap file
swapoff /swap
# And remove it
rm /swap
fi
}