#!/bin/bash # # **inc/python** - Python-related functions # # Support for pip/setuptools interfaces and virtual environments # # External functions used: # - GetOSVersion # - is_fedora # - is_suse # - safe_chown # Save trace setting INC_PY_TRACE=$(set +o | grep xtrace) set +o xtrace # Global Config Variables # PROJECT_VENV contains the name of the virtual environment for each # project. A null value installs to the system Python directories. declare -A -g PROJECT_VENV # Python Functions # ================ # Get the path to the pip command. # get_pip_command function get_pip_command { local version="$1" if [ -z "$version" ]; then die $LINENO "pip python version is not set." fi # NOTE(dhellmann): I don't know if we actually get a pip3.4-python # under any circumstances. which pip${version} || which pip${version}-python if [ $? -ne 0 ]; then die $LINENO "Unable to find pip${version}; cannot continue" fi } # Get the path to the directory where python executables are installed. # get_python_exec_prefix function get_python_exec_prefix { local xtrace xtrace=$(set +o | grep xtrace) set +o xtrace if [[ -z "$os_PACKAGE" ]]; then GetOSVersion fi $xtrace local PYTHON_PATH=/usr/local/bin ( is_fedora && ! python3_enabled ) || is_suse && PYTHON_PATH=/usr/bin echo $PYTHON_PATH } # Wrapper for ``pip install`` that only installs versions of libraries # from the global-requirements specification. # # Uses globals ``REQUIREMENTS_DIR`` # # pip_install_gr packagename function pip_install_gr { local name=$1 local clean_name clean_name=$(get_from_global_requirements $name) pip_install $clean_name } # Wrapper for ``pip install`` that only installs versions of libraries # from the global-requirements specification with extras. # # Uses globals ``REQUIREMENTS_DIR`` # # pip_install_gr_extras packagename extra1,extra2,... function pip_install_gr_extras { local name=$1 local extras=$2 local clean_name clean_name=$(get_from_global_requirements $name) pip_install $clean_name[$extras] } # python3_enabled_for() assumes the service(s) specified as arguments are # enabled for python 3 unless explicitly disabled. See python3_disabled_for(). # # Multiple services specified as arguments are ``OR``'ed together; the test # is a short-circuit boolean, i.e it returns on the first match. # # python3_enabled_for dir [dir ...] function python3_enabled_for { local xtrace xtrace=$(set +o | grep xtrace) set +o xtrace local enabled=1 local dirs=$@ local dir for dir in ${dirs}; do if ! python3_disabled_for "${dir}"; then enabled=0 fi done $xtrace return $enabled } # python3_disabled_for() checks if the service(s) specified as arguments are # disabled by the user in ``DISABLED_PYTHON3_PACKAGES``. # # Multiple services specified as arguments are ``OR``'ed together; the test # is a short-circuit boolean, i.e it returns on the first match. # # Uses global ``DISABLED_PYTHON3_PACKAGES`` # python3_disabled_for dir [dir ...] function python3_disabled_for { local xtrace xtrace=$(set +o | grep xtrace) set +o xtrace local enabled=1 local dirs=$@ local dir for dir in ${dirs}; do [[ ,${DISABLED_PYTHON3_PACKAGES}, =~ ,${dir}, ]] && enabled=0 done $xtrace return $enabled } # enable_python3_package() -- no-op for backwards compatibility # # For example: # enable_python3_package nova # # enable_python3_package dir [dir ...] function enable_python3_package { local xtrace xtrace=$(set +o | grep xtrace) set +o xtrace echo "It is no longer necessary to call enable_python3_package()." $xtrace } # disable_python3_package() adds the services passed as argument to # the ``DISABLED_PYTHON3_PACKAGES`` list. # # For example: # disable_python3_package swift # # Uses global ``DISABLED_PYTHON3_PACKAGES`` # disable_python3_package dir [dir ...] function disable_python3_package { local xtrace xtrace=$(set +o | grep xtrace) set +o xtrace local disabled_svcs="${DISABLED_PYTHON3_PACKAGES}" local dir for dir in $@; do disabled_svcs+=",$dir" done DISABLED_PYTHON3_PACKAGES=$(_cleanup_service_list "$disabled_svcs") $xtrace } # Wrapper for ``pip install`` to set cache and proxy environment variables # Uses globals ``OFFLINE``, ``PIP_VIRTUAL_ENV``, # ``PIP_UPGRADE``, ``TRACK_DEPENDS``, ``*_proxy``, # Usage: # pip_install pip_arguments function pip_install { local xtrace result xtrace=$(set +o | grep xtrace) set +o xtrace local upgrade="" local offline=${OFFLINE:-False} if [[ "$offline" == "True" || -z "$@" ]]; then $xtrace return fi time_start "pip_install" PIP_UPGRADE=$(trueorfalse False PIP_UPGRADE) if [[ "$PIP_UPGRADE" = "True" ]] ; then upgrade="--upgrade" fi if [[ -z "$os_PACKAGE" ]]; then GetOSVersion fi # Try to extract the path of the package we are installing into # package_dir. We need this to check for test-requirements.txt, # at least. # # ${!#} expands to the last positional argument to this function. # With "extras" syntax included, our arguments might be something # like: # -e /path/to/fooproject[extra] # Thus this magic line grabs just the path without extras # # Note that this makes no sense if this is a pypi (rather than # local path) install; ergo you must check this path exists before # use. Also, if we had multiple or mixed installs, we would also # likely break. But for historical reasons, it's basically only # the other wrapper functions in here calling this to install # local packages, and they do so with single call per install. So # this works (for now...) local package_dir=${!#%\[*\]} if [[ $TRACK_DEPENDS = True && ! "$@" =~ virtualenv ]]; then # TRACK_DEPENDS=True installation creates a circular dependency when # we attempt to install virtualenv into a virtualenv, so we must global # that installation. source $DEST/.venv/bin/activate local cmd_pip=$DEST/.venv/bin/pip local sudo_pip="env" else if [[ -n ${PIP_VIRTUAL_ENV:=} && -d ${PIP_VIRTUAL_ENV} ]]; then local cmd_pip=$PIP_VIRTUAL_ENV/bin/pip local sudo_pip="env" else local cmd_pip cmd_pip=$(get_pip_command $PYTHON2_VERSION) local sudo_pip="sudo -H" if python3_enabled; then # Special case some services that have experimental # support for python3 in progress, but don't claim support # in their classifier echo "Check python version for : $package_dir" if python3_disabled_for ${package_dir##*/}; then echo "Explicitly using $PYTHON2_VERSION version to install $package_dir based on DISABLED_PYTHON3_PACKAGES" else # For everything that is not explicitly blacklisted with # DISABLED_PYTHON3_PACKAGES, assume it supports python3 # and we will let pip sort out the install, regardless of # the package being local or remote. echo "Using $PYTHON3_VERSION version to install $package_dir based on default behavior" sudo_pip="$sudo_pip LC_ALL=en_US.UTF-8" cmd_pip=$(get_pip_command $PYTHON3_VERSION) fi fi fi fi cmd_pip="$cmd_pip install" # Always apply constraints cmd_pip="$cmd_pip -c $REQUIREMENTS_DIR/upper-constraints.txt" # FIXME(dhellmann): Need to force multiple versions of pip for # packages like setuptools? local pip_version pip_version=$(python -c "import pip; \ print(pip.__version__.split('.')[0])") if (( pip_version<6 )); then die $LINENO "Currently installed pip version ${pip_version} does not" \ "meet minimum requirements (>=6)." fi $xtrace # Also install test requirements local install_test_reqs="" local test_req="${package_dir}/test-requirements.txt" if [[ -e "$test_req" ]]; then install_test_reqs="-r $test_req" fi # adding SETUPTOOLS_SYS_PATH_TECHNIQUE is a workaround to keep # the same behaviour of setuptools before version 25.0.0. # related issue: https://github.com/pypa/pip/issues/3874 $sudo_pip \ http_proxy="${http_proxy:-}" \ https_proxy="${https_proxy:-}" \ no_proxy="${no_proxy:-}" \ PIP_FIND_LINKS=$PIP_FIND_LINKS \ SETUPTOOLS_SYS_PATH_TECHNIQUE=rewrite \ $cmd_pip $upgrade $install_test_reqs \ $@ result=$? time_stop "pip_install" return $result } function pip_uninstall { # Skip uninstall if offline [[ "${OFFLINE}" = "True" ]] && return local name=$1 if [[ -n ${PIP_VIRTUAL_ENV:=} && -d ${PIP_VIRTUAL_ENV} ]]; then local cmd_pip=$PIP_VIRTUAL_ENV/bin/pip local sudo_pip="env" else local cmd_pip cmd_pip=$(get_pip_command $PYTHON2_VERSION) local sudo_pip="sudo -H" fi # don't error if we can't uninstall, it might not be there $sudo_pip $cmd_pip uninstall -y $name || /bin/true } # get version of a package from global requirements file # get_from_global_requirements function get_from_global_requirements { local package=$1 local required_pkg required_pkg=$(grep -i -h ^${package} $REQUIREMENTS_DIR/global-requirements.txt | cut -d\# -f1) if [[ $required_pkg == "" ]]; then die $LINENO "Can't find package $package in requirements" fi echo $required_pkg } # should we use this library from their git repo, or should we let it # get pulled in via pip dependencies. function use_library_from_git { local name=$1 local enabled=1 [[ ${LIBS_FROM_GIT} = 'ALL' ]] || [[ ,${LIBS_FROM_GIT}, =~ ,${name}, ]] && enabled=0 return $enabled } # determine if a package was installed from git function lib_installed_from_git { local name=$1 local safe_name safe_name=$(python -c "from pkg_resources import safe_name; \ print(safe_name('${name}'))") # Note "pip freeze" doesn't always work here, because it tries to # be smart about finding the remote of the git repo the package # was installed from. This doesn't work with zuul which clones # repos with no remote. # # The best option seems to be to use "pip list" which will tell # you the path an editable install was installed from; for example # in response to something like # pip install -e 'git+http://git.openstack.org/openstack-dev/bashate#egg=bashate' # pip list --format columns shows # bashate 0.5.2.dev19 /tmp/env/src/bashate # Thus we check the third column to see if we're installed from # some local place. [[ -n $(pip list --format=columns 2>/dev/null | awk "/^$safe_name/ {print \$3}") ]] } # setup a library by name. If we are trying to use the library from # git, we'll do a git based install, otherwise we'll punt and the # library should be installed by a requirements pull from another # project. function setup_lib { local name=$1 local dir=${GITDIR[$name]} setup_install $dir } # setup a library by name in editable mode. If we are trying to use # the library from git, we'll do a git based install, otherwise we'll # punt and the library should be installed by a requirements pull from # another project. # # use this for non namespaced libraries # # setup_dev_lib [-bindep] function setup_dev_lib { local bindep if [[ $1 == -bindep* ]]; then bindep="${1}" shift fi local name=$1 local dir=${GITDIR[$name]} if python3_enabled; then # Turn off Python 3 mode and install the package again, # forcing a Python 2 installation. This ensures that all libs # being used for development are installed under both versions # of Python. echo "Installing $name again without Python 3 enabled" USE_PYTHON3=False setup_develop $bindep $dir USE_PYTHON3=True fi setup_develop $bindep $dir } # this should be used if you want to install globally, all libraries should # use this, especially *oslo* ones # # setup_install project_dir [extras] # project_dir: directory of project repo (e.g., /opt/stack/keystone) # extras: comma-separated list of optional dependencies to install # (e.g., ldap,memcache). # See https://docs.openstack.org/pbr/latest/user/using.html#extra-requirements # bindep: Set "-bindep" as first argument to install bindep.txt packages # The command is like "pip install []" function setup_install { local bindep if [[ $1 == -bindep* ]]; then bindep="${1}" shift fi local project_dir=$1 local extras=$2 _setup_package_with_constraints_edit $bindep $project_dir "" $extras } # this should be used for projects which run services, like all services # # setup_develop project_dir [extras] # project_dir: directory of project repo (e.g., /opt/stack/keystone) # extras: comma-separated list of optional dependencies to install # (e.g., ldap,memcache). # See https://docs.openstack.org/pbr/latest/user/using.html#extra-requirements # The command is like "pip install -e []" function setup_develop { local bindep if [[ $1 == -bindep* ]]; then bindep="${1}" shift fi local project_dir=$1 local extras=$2 _setup_package_with_constraints_edit $bindep $project_dir -e $extras } # ``pip install -e`` the package, which processes the dependencies # using pip before running `setup.py develop` # # Updates the constraints from REQUIREMENTS_DIR to reflect the # future installed state of this package. This ensures when we # install this package we get the from source version. # # Uses globals ``REQUIREMENTS_DIR`` # _setup_package_with_constraints_edit project_dir flags [extras] # project_dir: directory of project repo (e.g., /opt/stack/keystone) # flags: pip CLI options/flags # extras: comma-separated list of optional dependencies to install # (e.g., ldap,memcache). # See https://docs.openstack.org/pbr/latest/user/using.html#extra-requirements # The command is like "pip install []" function _setup_package_with_constraints_edit { local bindep if [[ $1 == -bindep* ]]; then bindep="${1}" shift fi local project_dir=$1 local flags=$2 local extras=$3 # Normalize the directory name to avoid # "installation from path or url cannot be constrained to a version" # error. # REVISIT(yamamoto): Remove this when fixed in pip. # https://github.com/pypa/pip/pull/3582 project_dir=$(cd $project_dir && pwd) if [ -n "$REQUIREMENTS_DIR" ]; then # Constrain this package to this project directory from here on out. local name name=$(awk '/^name.*=/ {print $3}' $project_dir/setup.cfg) $REQUIREMENTS_DIR/.venv/bin/edit-constraints \ $REQUIREMENTS_DIR/upper-constraints.txt -- $name \ "$flags file://$project_dir#egg=$name" fi setup_package $bindep $project_dir "$flags" $extras # If this project is in LIBS_FROM_GIT, verify it was actually installed # correctly. This helps catch errors caused by constraints mismatches. if use_library_from_git "$project_dir"; then if ! lib_installed_from_git "$project_dir"; then die $LINENO "The following LIBS_FROM_GIT was not installed correctly: $project_dir" fi fi } # ``pip install -e`` the package, which processes the dependencies # using pip before running `setup.py develop`. The command is like # "pip install []" # # Uses globals ``STACK_USER`` # # Usage: # setup_package [-bindep[=profile,profile]] [extras] # # -bindep : Use bindep to install dependencies; select extra profiles # as comma separated arguments after "=" # project_dir : directory of project repo (e.g., /opt/stack/keystone) # flags : pip CLI options/flags # extras : comma-separated list of optional dependencies to install # (e.g., ldap,memcache). # See https://docs.openstack.org/pbr/latest/user/using.html#extra-requirements function setup_package { local bindep=0 local bindep_flag="" local bindep_profiles="" if [[ $1 == -bindep* ]]; then bindep=1 IFS="=" read bindep_flag bindep_profiles <<< ${1} shift fi local project_dir=$1 local flags=$2 local extras=$3 # if the flags variable exists, and it doesn't look like a flag, # assume it's actually the extras list. if [[ -n "$flags" && -z "$extras" && ! "$flags" =~ ^-.* ]]; then extras=$flags flags="" fi if [[ ! -z "$extras" ]]; then extras="[$extras]" fi # install any bindep packages if [[ $bindep == 1 ]]; then install_bindep $project_dir/bindep.txt $bindep_profiles fi pip_install $flags "$project_dir$extras" # ensure that further actions can do things like setup.py sdist if [[ "$flags" == "-e" ]]; then safe_chown -R $STACK_USER $1/*.egg-info fi } # Report whether python 3 should be used function python3_enabled { if [[ $USE_PYTHON3 == "True" ]]; then return 0 else return 1 fi } # Install python3 packages function install_python3 { if is_ubuntu; then apt_get install python${PYTHON3_VERSION} python${PYTHON3_VERSION}-dev elif is_suse; then install_package python3-devel python3-dbm fi } function install_devstack_tools { # intentionally old to ensure devstack-gate has control local dstools_version=${DSTOOLS_VERSION:-0.1.2} install_python3 sudo pip3 install -U devstack-tools==${dstools_version} } # Restore xtrace $INC_PY_TRACE # Local variables: # mode: shell-script # End: