#!/usr/bin/env python # -*- coding: utf-8 -*- """ The setup script for salt """ # pylint: disable=file-perms,ungrouped-imports,wrong-import-order,wrong-import-position,repr-flag-used-in-string # pylint: disable=3rd-party-local-module-not-gated,resource-leakage,blacklisted-module # pylint: disable=C0111,E1101,E1103,F0401,W0611,W0201,W0232,R0201,R0902,R0903 # For Python 2.5. A no-op on 2.6 and above. from __future__ import absolute_import, print_function, with_statement import distutils.dist import glob import inspect import operator import os import platform import sys from ctypes.util import find_library from datetime import datetime from distutils import log from distutils.cmd import Command from distutils.command.build import build from distutils.command.clean import clean from distutils.command.install_lib import install_lib from distutils.errors import DistutilsArgError from distutils.version import LooseVersion # pylint: disable=blacklisted-module # pylint: disable=E0611 import setuptools from setuptools import setup from setuptools.command.develop import develop from setuptools.command.egg_info import egg_info from setuptools.command.install import install from setuptools.command.sdist import sdist try: from urllib2 import urlopen except ImportError: from urllib.request import urlopen # pylint: disable=no-name-in-module try: from wheel.bdist_wheel import bdist_wheel HAS_BDIST_WHEEL = True except ImportError: HAS_BDIST_WHEEL = False # pylint: enable=E0611 try: import zmq HAS_ZMQ = True except ImportError: HAS_ZMQ = False try: DATE = datetime.utcfromtimestamp(int(os.environ["SOURCE_DATE_EPOCH"])) except (KeyError, ValueError): DATE = datetime.utcnow() # Change to salt source's directory prior to running any command try: SETUP_DIRNAME = os.path.dirname(__file__) except NameError: # We're most likely being frozen and __file__ triggered this NameError # Let's work around that SETUP_DIRNAME = os.path.dirname(sys.argv[0]) if SETUP_DIRNAME != "": os.chdir(SETUP_DIRNAME) SETUP_DIRNAME = os.path.abspath(SETUP_DIRNAME) BOOTSTRAP_SCRIPT_DISTRIBUTED_VERSION = os.environ.get( # The user can provide a different bootstrap-script version. # ATTENTION: A tag for that version MUST exist "BOOTSTRAP_SCRIPT_VERSION", # If no bootstrap-script version was provided from the environment, let's # provide the one we define. "v2014.06.21", ) # Store a reference to the executing platform IS_OSX_PLATFORM = sys.platform.startswith("darwin") IS_WINDOWS_PLATFORM = sys.platform.startswith("win") if IS_WINDOWS_PLATFORM or IS_OSX_PLATFORM: IS_SMARTOS_PLATFORM = False else: # os.uname() not available on Windows. IS_SMARTOS_PLATFORM = os.uname()[0] == "SunOS" and os.uname()[3].startswith( "joyent_" ) # Store a reference whether if we're running under Python 3 and above IS_PY3 = sys.version_info > (3,) try: # Add the esky bdist target if the module is available # may require additional modules depending on platform from esky import bdist_esky # bbfreeze chosen for its tight integration with distutils import bbfreeze HAS_ESKY = True except ImportError: HAS_ESKY = False SALT_VERSION = os.path.join(os.path.abspath(SETUP_DIRNAME), "salt", "version.py") SALT_VERSION_HARDCODED = os.path.join( os.path.abspath(SETUP_DIRNAME), "salt", "_version.py" ) SALT_SYSPATHS_HARDCODED = os.path.join( os.path.abspath(SETUP_DIRNAME), "salt", "_syspaths.py" ) SALT_REQS = os.path.join(os.path.abspath(SETUP_DIRNAME), "requirements", "base.txt") SALT_CRYPTO_REQS = os.path.join( os.path.abspath(SETUP_DIRNAME), "requirements", "crypto.txt" ) SALT_ZEROMQ_REQS = os.path.join( os.path.abspath(SETUP_DIRNAME), "requirements", "zeromq.txt" ) SALT_LONG_DESCRIPTION_FILE = os.path.join(os.path.abspath(SETUP_DIRNAME), "README.rst") SALT_OSX_REQS = [ os.path.join(os.path.abspath(SETUP_DIRNAME), "pkg", "osx", "req.txt"), os.path.join(os.path.abspath(SETUP_DIRNAME), "pkg", "osx", "req_ext.txt"), os.path.join(os.path.abspath(SETUP_DIRNAME), "pkg", "osx", "req_pyobjc.txt"), ] SALT_WINDOWS_REQS = [ os.path.join(os.path.abspath(SETUP_DIRNAME), "pkg", "windows", "req.txt"), os.path.join(os.path.abspath(SETUP_DIRNAME), "pkg", "windows", "req_win.txt"), ] # Salt SSH Packaging Detection PACKAGED_FOR_SALT_SSH_FILE = os.path.join( os.path.abspath(SETUP_DIRNAME), ".salt-ssh-package" ) PACKAGED_FOR_SALT_SSH = os.path.isfile(PACKAGED_FOR_SALT_SSH_FILE) # pylint: disable=W0122 exec(compile(open(SALT_VERSION).read(), SALT_VERSION, "exec")) # pylint: enable=W0122 # ----- Helper Functions --------------------------------------------------------------------------------------------> def _parse_op(op): """ >>> _parse_op('>') 'gt' >>> _parse_op('>=') 'ge' >>> _parse_op('=>') 'ge' >>> _parse_op('=> ') 'ge' >>> _parse_op('<') 'lt' >>> _parse_op('<=') 'le' >>> _parse_op('==') 'eq' >>> _parse_op(' <= ') 'le' """ op = op.strip() if ">" in op: if "=" in op: return "ge" else: return "gt" elif "<" in op: if "=" in op: return "le" else: return "lt" elif "!" in op: return "ne" else: return "eq" def _parse_ver(ver): """ >>> _parse_ver("'3.4' # pyzmq 17.1.0 stopped building wheels for python3.4") '3.4' >>> _parse_ver('"3.4"') '3.4' >>> _parse_ver('"2.6.17"') '2.6.17' """ if "#" in ver: ver, _ = ver.split("#", 1) ver = ver.strip() return ver.strip("'").strip('"') def _check_ver(pyver, op, wanted): """ >>> _check_ver('2.7.15', 'gt', '2.7') True >>> _check_ver('2.7.15', 'gt', '2.7.15') False >>> _check_ver('2.7.15', 'ge', '2.7.15') True >>> _check_ver('2.7.15', 'eq', '2.7.15') True """ pyver = distutils.version.LooseVersion(pyver) wanted = distutils.version.LooseVersion(wanted) if IS_PY3: if not isinstance(pyver, str): pyver = str(pyver) if not isinstance(wanted, str): wanted = str(wanted) return getattr(operator, "__{}__".format(op))(pyver, wanted) def _parse_requirements_file(requirements_file): parsed_requirements = [] with open(requirements_file) as rfh: for line in rfh.readlines(): line = line.strip() if not line or line.startswith(("#", "-r")): continue if IS_WINDOWS_PLATFORM: if "libcloud" in line: continue if IS_PY3 and "futures" in line.lower(): # Python 3 already has futures, installing it will only break # the current python installation whenever futures is imported continue try: pkg, pyverspec = line.rsplit(";", 1) except ValueError: pkg, pyverspec = line, "" pyverspec = pyverspec.strip() if pyverspec and ( not pkg.startswith("pycrypto") or pkg.startswith("pycryptodome") ): _, op, ver = pyverspec.split(" ", 2) if not _check_ver( platform.python_version(), _parse_op(op), _parse_ver(ver) ): continue parsed_requirements.append(pkg) return parsed_requirements # <---- Helper Functions --------------------------------------------------------------------------------------------- # ----- Custom Distutils/Setuptools Commands ------------------------------------------------------------------------> class WriteSaltVersion(Command): description = "Write salt's hardcoded version file" user_options = [] def initialize_options(self): """ Abstract method that is required to be overwritten """ def finalize_options(self): """ Abstract method that is required to be overwritten """ def run(self): if ( not os.path.exists(SALT_VERSION_HARDCODED) or self.distribution.with_salt_version ): # Write the version file if getattr(self.distribution, "salt_version_hardcoded_path", None) is None: print("This command is not meant to be called on it's own") exit(1) if not self.distribution.with_salt_version: salt_version = ( __saltstack_version__ # pylint: disable=undefined-variable ) else: from salt.version import SaltStackVersion salt_version = SaltStackVersion.parse( self.distribution.with_salt_version ) # pylint: disable=E0602 open(self.distribution.salt_version_hardcoded_path, "w").write( INSTALL_VERSION_TEMPLATE.format( date=DATE, full_version_info=salt_version.full_info_all_versions ) ) # pylint: enable=E0602 class GenerateSaltSyspaths(Command): description = "Generate salt's hardcoded syspaths file" def initialize_options(self): pass def finalize_options(self): pass def run(self): # Write the syspaths file if getattr(self.distribution, "salt_syspaths_hardcoded_path", None) is None: print("This command is not meant to be called on it's own") exit(1) # Write the system paths file open(self.distribution.salt_syspaths_hardcoded_path, "w").write( INSTALL_SYSPATHS_TEMPLATE.format( date=DATE, root_dir=self.distribution.salt_root_dir, share_dir=self.distribution.salt_share_dir, config_dir=self.distribution.salt_config_dir, cache_dir=self.distribution.salt_cache_dir, sock_dir=self.distribution.salt_sock_dir, srv_root_dir=self.distribution.salt_srv_root_dir, base_file_roots_dir=self.distribution.salt_base_file_roots_dir, base_pillar_roots_dir=self.distribution.salt_base_pillar_roots_dir, base_master_roots_dir=self.distribution.salt_base_master_roots_dir, base_thorium_roots_dir=self.distribution.salt_base_thorium_roots_dir, logs_dir=self.distribution.salt_logs_dir, pidfile_dir=self.distribution.salt_pidfile_dir, spm_parent_path=self.distribution.salt_spm_parent_dir, spm_formula_path=self.distribution.salt_spm_formula_dir, spm_pillar_path=self.distribution.salt_spm_pillar_dir, spm_reactor_path=self.distribution.salt_spm_reactor_dir, home_dir=self.distribution.salt_home_dir, ) ) class WriteSaltSshPackagingFile(Command): description = "Write salt's ssh packaging file" user_options = [] def initialize_options(self): """ Abstract method that is required to be overwritten """ def finalize_options(self): """ Abstract method that is required to be overwritten """ def run(self): if not os.path.exists(PACKAGED_FOR_SALT_SSH_FILE): # Write the salt-ssh packaging file if getattr(self.distribution, "salt_ssh_packaging_file", None) is None: print("This command is not meant to be called on it's own") exit(1) # pylint: disable=E0602 open(self.distribution.salt_ssh_packaging_file, "w").write( "Packaged for Salt-SSH\n" ) # pylint: enable=E0602 class Develop(develop): user_options = develop.user_options + [ ( "write-salt-version", None, "Generate Salt's _version.py file which allows proper version " "reporting. This defaults to False on develop/editable setups. " "If WRITE_SALT_VERSION is found in the environment this flag is " "switched to True.", ), ( "generate-salt-syspaths", None, "Generate Salt's _syspaths.py file which allows tweaking some " "common paths that salt uses. This defaults to False on " "develop/editable setups. If GENERATE_SALT_SYSPATHS is found in " "the environment this flag is switched to True.", ), ( "mimic-salt-install", None, "Mimmic the install command when running the develop command. " "This will generate salt's _version.py and _syspaths.py files. " "Generate Salt's _syspaths.py file which allows tweaking some " "This defaults to False on develop/editable setups. " "If MIMIC_INSTALL is found in the environment this flag is " "switched to True.", ), ] boolean_options = develop.boolean_options + [ "write-salt-version", "generate-salt-syspaths", "mimic-salt-install", ] def initialize_options(self): develop.initialize_options(self) self.write_salt_version = False self.generate_salt_syspaths = False self.mimic_salt_install = False def finalize_options(self): develop.finalize_options(self) if "WRITE_SALT_VERSION" in os.environ: self.write_salt_version = True if "GENERATE_SALT_SYSPATHS" in os.environ: self.generate_salt_syspaths = True if "MIMIC_SALT_INSTALL" in os.environ: self.mimic_salt_install = True if self.mimic_salt_install: self.write_salt_version = True self.generate_salt_syspaths = True def run(self): if IS_WINDOWS_PLATFORM: # Download the required DLLs self.distribution.salt_download_windows_dlls = True self.run_command("download-windows-dlls") self.distribution.salt_download_windows_dlls = None if self.write_salt_version is True: self.distribution.running_salt_install = True self.distribution.salt_version_hardcoded_path = SALT_VERSION_HARDCODED self.run_command("write_salt_version") if self.generate_salt_syspaths: self.distribution.salt_syspaths_hardcoded_path = SALT_SYSPATHS_HARDCODED self.run_command("generate_salt_syspaths") # Resume normal execution develop.run(self) class DownloadWindowsDlls(Command): description = "Download required DLL's for windows" def initialize_options(self): pass def finalize_options(self): pass def run(self): if getattr(self.distribution, "salt_download_windows_dlls", None) is None: print("This command is not meant to be called on it's own") exit(1) import pip # pip has moved many things to `_internal` starting with pip 10 if LooseVersion(pip.__version__) < LooseVersion("10.0"): # pylint: disable=no-name-in-module from pip.utils.logging import indent_log # pylint: enable=no-name-in-module else: from pip._internal.utils.logging import ( indent_log, ) # pylint: disable=no-name-in-module platform_bits, _ = platform.architecture() url = "https://repo.saltstack.com/windows/dependencies/{bits}/{fname}.dll" dest = os.path.join(os.path.dirname(sys.executable), "{fname}.dll") with indent_log(): for fname in ("libeay32", "ssleay32", "msvcr120"): # See if the library is already on the system if find_library(fname): continue furl = url.format(bits=platform_bits[:2], fname=fname) fdest = dest.format(fname=fname) if not os.path.exists(fdest): log.info( "Downloading {0}.dll to {1} from {2}".format(fname, fdest, furl) ) try: import requests from contextlib import closing with closing(requests.get(furl, stream=True)) as req: if req.status_code == 200: with open(fdest, "wb") as wfh: for chunk in req.iter_content(chunk_size=4096): if chunk: # filter out keep-alive new chunks wfh.write(chunk) wfh.flush() else: log.error( "Failed to download {0}.dll to {1} from {2}".format( fname, fdest, furl ) ) except ImportError: req = urlopen(furl) if req.getcode() == 200: with open(fdest, "wb") as wfh: if IS_PY3: while True: chunk = req.read(4096) if len(chunk) == 0: break wfh.write(chunk) wfh.flush() else: while True: for chunk in req.read(4096): if not chunk: break wfh.write(chunk) wfh.flush() else: log.error( "Failed to download {0}.dll to {1} from {2}".format( fname, fdest, furl ) ) class Sdist(sdist): def make_release_tree(self, base_dir, files): if self.distribution.ssh_packaging: self.distribution.salt_ssh_packaging_file = PACKAGED_FOR_SALT_SSH_FILE self.run_command("write_salt_ssh_packaging_file") self.filelist.files.append(os.path.basename(PACKAGED_FOR_SALT_SSH_FILE)) if not IS_PY3 and not isinstance(base_dir, str): # Work around some bad code in distutils which logs unicode paths # against a str format string. base_dir = base_dir.encode("utf-8") sdist.make_release_tree(self, base_dir, files) # Let's generate salt/_version.py to include in the sdist tarball self.distribution.running_salt_sdist = True self.distribution.salt_version_hardcoded_path = os.path.join( base_dir, "salt", "_version.py" ) self.run_command("write_salt_version") def make_distribution(self): sdist.make_distribution(self) if self.distribution.ssh_packaging: os.unlink(PACKAGED_FOR_SALT_SSH_FILE) class CloudSdist(Sdist): # pylint: disable=too-many-ancestors user_options = Sdist.user_options + [ ( "download-bootstrap-script", None, "Download the latest stable bootstrap-salt.sh script. This " "can also be triggered by having `DOWNLOAD_BOOTSTRAP_SCRIPT=1` as an " "environment variable.", ) ] boolean_options = Sdist.boolean_options + ["download-bootstrap-script"] def initialize_options(self): Sdist.initialize_options(self) self.skip_bootstrap_download = True self.download_bootstrap_script = False def finalize_options(self): Sdist.finalize_options(self) if "SKIP_BOOTSTRAP_DOWNLOAD" in os.environ: # pylint: disable=not-callable log( "Please stop using 'SKIP_BOOTSTRAP_DOWNLOAD' and use " "'DOWNLOAD_BOOTSTRAP_SCRIPT' instead" ) # pylint: enable=not-callable if "DOWNLOAD_BOOTSTRAP_SCRIPT" in os.environ: download_bootstrap_script = os.environ.get("DOWNLOAD_BOOTSTRAP_SCRIPT", "0") self.download_bootstrap_script = download_bootstrap_script == "1" def run(self): if self.download_bootstrap_script is True: # Let's update the bootstrap-script to the version defined to be # distributed. See BOOTSTRAP_SCRIPT_DISTRIBUTED_VERSION above. url = ( "https://github.com/saltstack/salt-bootstrap/raw/{0}" "/bootstrap-salt.sh".format(BOOTSTRAP_SCRIPT_DISTRIBUTED_VERSION) ) deploy_path = os.path.join( SETUP_DIRNAME, "salt", "cloud", "deploy", "bootstrap-salt.sh" ) log.info( "Updating bootstrap-salt.sh." "\n\tSource: {0}" "\n\tDestination: {1}".format(url, deploy_path) ) try: import requests req = requests.get(url) if req.status_code == 200: script_contents = req.text.encode(req.encoding) else: log.error( "Failed to update the bootstrap-salt.sh script. HTTP " "Error code: {0}".format(req.status_code) ) except ImportError: req = urlopen(url) if req.getcode() == 200: script_contents = req.read() else: log.error( "Failed to update the bootstrap-salt.sh script. HTTP " "Error code: {0}".format(req.getcode()) ) try: with open(deploy_path, "w") as fp_: fp_.write(script_contents) except (OSError, IOError) as err: log.error("Failed to write the updated script: {0}".format(err)) # Let's the rest of the build command Sdist.run(self) def write_manifest(self): # We only need to ship the scripts which are supposed to be installed dist_scripts = self.distribution.scripts for script in self.filelist.files[:]: if not script.startswith("scripts/"): continue if script not in dist_scripts: self.filelist.files.remove(script) return Sdist.write_manifest(self) class TestCommand(Command): description = "Run tests" user_options = [ ("runtests-opts=", "R", "Command line options to pass to runtests.py") ] def initialize_options(self): self.runtests_opts = None def finalize_options(self): """ Abstract method that is required to be overwritten """ def run(self): from subprocess import Popen self.run_command("build") build_cmd = self.get_finalized_command("build_ext") runner = os.path.abspath("tests/runtests.py") test_cmd = sys.executable + " {0}".format(runner) if self.runtests_opts: test_cmd += " {0}".format(self.runtests_opts) print("running test") test_process = Popen( test_cmd, shell=True, stdout=sys.stdout, stderr=sys.stderr, cwd=build_cmd.build_lib, ) test_process.communicate() sys.exit(test_process.returncode) class Clean(clean): def run(self): clean.run(self) # Let's clean compiled *.py[c,o] for subdir in ("salt", "tests", "doc"): root = os.path.join(os.path.dirname(__file__), subdir) for dirname, _, _ in os.walk(root): for to_remove_filename in glob.glob("{0}/*.py[oc]".format(dirname)): os.remove(to_remove_filename) if HAS_BDIST_WHEEL: class BDistWheel(bdist_wheel): def finalize_options(self): bdist_wheel.finalize_options(self) self.distribution.build_wheel = True INSTALL_VERSION_TEMPLATE = """\ # This file was auto-generated by salt's setup from salt.version import SaltStackVersion __saltstack_version__ = SaltStackVersion{full_version_info!r} """ INSTALL_SYSPATHS_TEMPLATE = """\ # This file was auto-generated by salt's setup on \ {date:%A, %d %B %Y @ %H:%m:%S UTC}. ROOT_DIR = {root_dir!r} SHARE_DIR = {share_dir!r} CONFIG_DIR = {config_dir!r} CACHE_DIR = {cache_dir!r} SOCK_DIR = {sock_dir!r} SRV_ROOT_DIR= {srv_root_dir!r} BASE_FILE_ROOTS_DIR = {base_file_roots_dir!r} BASE_PILLAR_ROOTS_DIR = {base_pillar_roots_dir!r} BASE_MASTER_ROOTS_DIR = {base_master_roots_dir!r} BASE_THORIUM_ROOTS_DIR = {base_thorium_roots_dir!r} LOGS_DIR = {logs_dir!r} PIDFILE_DIR = {pidfile_dir!r} SPM_PARENT_PATH = {spm_parent_path!r} SPM_FORMULA_PATH = {spm_formula_path!r} SPM_PILLAR_PATH = {spm_pillar_path!r} SPM_REACTOR_PATH = {spm_reactor_path!r} HOME_DIR = {home_dir!r} """ class Build(build): def run(self): # Run build.run function build.run(self) salt_build_ver_file = os.path.join(self.build_lib, "salt", "_version.py") if getattr(self.distribution, "with_salt_version", False): # Write the hardcoded salt version module salt/_version.py self.distribution.salt_version_hardcoded_path = salt_build_ver_file self.run_command("write_salt_version") if getattr(self.distribution, "build_wheel", False): # we are building a wheel package. need to include _version.py self.distribution.salt_version_hardcoded_path = salt_build_ver_file self.run_command("write_salt_version") if getattr(self.distribution, "running_salt_install", False): # If our install attribute is present and set to True, we'll go # ahead and write our install time python modules. # Write the hardcoded salt version module salt/_version.py self.run_command("write_salt_version") # Write the system paths file self.distribution.salt_syspaths_hardcoded_path = os.path.join( self.build_lib, "salt", "_syspaths.py" ) self.run_command("generate_salt_syspaths") class Install(install): def initialize_options(self): install.initialize_options(self) def finalize_options(self): install.finalize_options(self) def run(self): if LooseVersion(setuptools.__version__) < LooseVersion("9.1"): sys.stderr.write( "\n\nInstalling Salt requires setuptools >= 9.1\n" "Available setuptools version is {}\n\n".format(setuptools.__version__) ) sys.stderr.flush() sys.exit(1) # Let's set the running_salt_install attribute so we can add # _version.py in the build command self.distribution.running_salt_install = True self.distribution.salt_version_hardcoded_path = os.path.join( self.build_lib, "salt", "_version.py" ) if IS_WINDOWS_PLATFORM: # Download the required DLLs self.distribution.salt_download_windows_dlls = True self.run_command("download-windows-dlls") self.distribution.salt_download_windows_dlls = None # need to ensure _version.py is created in build dir before install if not os.path.exists(os.path.join(self.build_lib)): if not self.skip_build: self.run_command("build") else: self.run_command("write_salt_version") # Run install.run install.run(self) @staticmethod def _called_from_setup(run_frame): """ Attempt to detect whether run() was called from setup() or by another command. If called by setup(), the parent caller will be the 'run_command' method in 'distutils.dist', and *its* caller will be the 'run_commands' method. If called any other way, the immediate caller *might* be 'run_command', but it won't have been called by 'run_commands'. Return True in that case or if a call stack is unavailable. Return False otherwise. """ if run_frame is None: # If run_frame is None, just call the parent class logic return install._called_from_setup(run_frame) # Because Salt subclasses the setuptools install command, it needs to # override this static method to provide the right frame for the logic # so apply. # We first try the current run_frame in case the issue # https://github.com/pypa/setuptools/issues/456 is fixed. first_call = install._called_from_setup(run_frame) if first_call: return True # Fallback to providing the parent frame to have the right logic kick in second_call = install._called_from_setup(run_frame.f_back) if second_call is None: # There was no parent frame?! return first_call return second_call class InstallLib(install_lib): def run(self): executables = [ "salt/templates/git/ssh-id-wrapper", "salt/templates/lxc/salt_tarball", ] install_lib.run(self) # input and outputs match 1-1 inp = self.get_inputs() out = self.get_outputs() chmod = [] for idx, inputfile in enumerate(inp): for executable in executables: if inputfile.endswith(executable): chmod.append(idx) for idx in chmod: filename = out[idx] os.chmod(filename, 0o755) # <---- Custom Distutils/Setuptools Commands ------------------------------------------------------------------------- # ----- Custom Distribution Class -----------------------------------------------------------------------------------> # We use this to override the package name in case --ssh-packaging is passed to # setup.py or the special .salt-ssh-package is found class SaltDistribution(distutils.dist.Distribution): """ Just so it's completely clear Under windows, the following scripts should be installed: * salt-call * salt-cp * salt-minion * salt-syndic * salt-unity * spm When packaged for salt-ssh, the following scripts should be installed: * salt-call * salt-run * salt-ssh * salt-cloud Under windows, the following scripts should be omitted from the salt-ssh package: * salt-cloud * salt-run Under *nix, all scripts should be installed """ global_options = ( distutils.dist.Distribution.global_options + [ ("ssh-packaging", None, "Run in SSH packaging mode"), ( "salt-transport=", None, "The transport to prepare salt for. Currently, the only choice " "is 'zeromq'. This may be expanded in the future. Defaults to " "'zeromq'", "zeromq", ), ] + [ ( "with-salt-version=", None, "Set a fixed version for Salt instead calculating it", ), # Salt's Paths Configuration Settings ("salt-root-dir=", None, "Salt's pre-configured root directory"), ("salt-share-dir=", None, "Salt's pre-configured share directory"), ("salt-config-dir=", None, "Salt's pre-configured configuration directory"), ("salt-cache-dir=", None, "Salt's pre-configured cache directory"), ("salt-sock-dir=", None, "Salt's pre-configured socket directory"), ("salt-srv-root-dir=", None, "Salt's pre-configured service directory"), ( "salt-base-file-roots-dir=", None, "Salt's pre-configured file roots directory", ), ( "salt-base-pillar-roots-dir=", None, "Salt's pre-configured pillar roots directory", ), ( "salt-base-master-roots-dir=", None, "Salt's pre-configured master roots directory", ), ("salt-logs-dir=", None, "Salt's pre-configured logs directory"), ("salt-pidfile-dir=", None, "Salt's pre-configured pidfiles directory"), ( "salt-spm-formula-dir=", None, "Salt's pre-configured SPM formulas directory", ), ( "salt-spm-pillar-dir=", None, "Salt's pre-configured SPM pillar directory", ), ( "salt-spm-reactor-dir=", None, "Salt's pre-configured SPM reactor directory", ), ("salt-home-dir=", None, "Salt's pre-configured user home directory"), ] ) def __init__(self, attrs=None): distutils.dist.Distribution.__init__(self, attrs) self.ssh_packaging = PACKAGED_FOR_SALT_SSH self.salt_transport = None # Salt Paths Configuration Settings self.salt_root_dir = None self.salt_share_dir = None self.salt_config_dir = None self.salt_cache_dir = None self.salt_sock_dir = None self.salt_srv_root_dir = None self.salt_base_file_roots_dir = None self.salt_base_thorium_roots_dir = None self.salt_base_pillar_roots_dir = None self.salt_base_master_roots_dir = None self.salt_logs_dir = None self.salt_pidfile_dir = None self.salt_spm_parent_dir = None self.salt_spm_formula_dir = None self.salt_spm_pillar_dir = None self.salt_spm_reactor_dir = None self.salt_home_dir = None # Salt version self.with_salt_version = None self.name = "salt-ssh" if PACKAGED_FOR_SALT_SSH else "salt" self.salt_version = __version__ # pylint: disable=undefined-variable self.description = "Portable, distributed, remote execution and configuration management system" kwargs = {} if IS_PY3: kwargs["encoding"] = "utf-8" with open(SALT_LONG_DESCRIPTION_FILE, **kwargs) as f: self.long_description = f.read() self.long_description_content_type = "text/x-rst" self.author = "Thomas S Hatch" self.author_email = "thatch45@gmail.com" self.url = "http://saltstack.org" self.cmdclass.update( { "test": TestCommand, "clean": Clean, "build": Build, "sdist": Sdist, "install": Install, "develop": Develop, "write_salt_version": WriteSaltVersion, "generate_salt_syspaths": GenerateSaltSyspaths, "write_salt_ssh_packaging_file": WriteSaltSshPackagingFile, } ) if not IS_WINDOWS_PLATFORM: self.cmdclass.update({"sdist": CloudSdist, "install_lib": InstallLib}) if IS_WINDOWS_PLATFORM: self.cmdclass.update({"download-windows-dlls": DownloadWindowsDlls}) if HAS_BDIST_WHEEL: self.cmdclass["bdist_wheel"] = BDistWheel self.license = "Apache Software License 2.0" self.packages = self.discover_packages() self.zip_safe = False if HAS_ESKY: self.setup_esky() self.update_metadata() def update_metadata(self): for attrname in dir(self): if attrname.startswith("__"): continue attrvalue = getattr(self, attrname, None) if attrvalue == 0: continue if attrname == "salt_version": attrname = "version" if hasattr(self.metadata, "set_{0}".format(attrname)): getattr(self.metadata, "set_{0}".format(attrname))(attrvalue) elif hasattr(self.metadata, attrname): try: setattr(self.metadata, attrname, attrvalue) except AttributeError: pass def discover_packages(self): modules = [] for root, _, files in os.walk(os.path.join(SETUP_DIRNAME, "salt")): if "__init__.py" not in files: continue modules.append(os.path.relpath(root, SETUP_DIRNAME).replace(os.sep, ".")) return modules # ----- Static Data --------------------------------------------------------------------------------------------> @property def _property_classifiers(self): return [ "Programming Language :: Python", "Programming Language :: Cython", "Programming Language :: Python :: 2.6", "Programming Language :: Python :: 2.7", "Development Status :: 5 - Production/Stable", "Environment :: Console", "Intended Audience :: Developers", "Intended Audience :: Information Technology", "Intended Audience :: System Administrators", "License :: OSI Approved :: Apache Software License", "Operating System :: POSIX :: Linux", "Topic :: System :: Clustering", "Topic :: System :: Distributed Computing", ] @property def _property_dependency_links(self): return [ "https://github.com/saltstack/salt-testing/tarball/develop#egg=SaltTesting" ] @property def _property_tests_require(self): return ["SaltTesting"] # <---- Static Data ---------------------------------------------------------------------------------------------- # ----- Dynamic Data --------------------------------------------------------------------------------------------> @property def _property_package_data(self): package_data = { "salt.templates": [ "rh_ip/*.jinja", "debian_ip/*.jinja", "virt/*.jinja", "git/*", "lxc/*", ] } if not IS_WINDOWS_PLATFORM: package_data["salt.cloud"] = ["deploy/*.sh"] if not self.ssh_packaging and not PACKAGED_FOR_SALT_SSH: package_data["salt.daemons.flo"] = ["*.flo"] return package_data @property def _property_data_files(self): # Data files common to all scenarios data_files = [ ("share/man/man1", ["doc/man/salt-call.1", "doc/man/salt-run.1"]), ("share/man/man7", ["doc/man/salt.7"]), ] if self.ssh_packaging or PACKAGED_FOR_SALT_SSH: data_files[0][1].append("doc/man/salt-ssh.1") if IS_WINDOWS_PLATFORM: return data_files data_files[0][1].append("doc/man/salt-cloud.1") return data_files if IS_WINDOWS_PLATFORM: data_files[0][1].extend( [ "doc/man/salt-cp.1", "doc/man/salt-key.1", "doc/man/salt-minion.1", "doc/man/salt-syndic.1", "doc/man/salt-unity.1", "doc/man/spm.1", ] ) return data_files # *nix, so, we need all man pages data_files[0][1].extend( [ "doc/man/salt-api.1", "doc/man/salt-cloud.1", "doc/man/salt-cp.1", "doc/man/salt-key.1", "doc/man/salt-master.1", "doc/man/salt-minion.1", "doc/man/salt-proxy.1", "doc/man/spm.1", "doc/man/salt.1", "doc/man/salt-ssh.1", "doc/man/salt-syndic.1", "doc/man/salt-unity.1", ] ) return data_files @property def _property_install_requires(self): if IS_OSX_PLATFORM: install_requires = [] for reqfile in SALT_OSX_REQS: install_requires += _parse_requirements_file(reqfile) return install_requires if IS_WINDOWS_PLATFORM: install_requires = [] for reqfile in SALT_WINDOWS_REQS: install_requires += _parse_requirements_file(reqfile) return install_requires install_requires = _parse_requirements_file(SALT_REQS) if self.salt_transport == "zeromq": install_requires += _parse_requirements_file(SALT_CRYPTO_REQS) install_requires += _parse_requirements_file(SALT_ZEROMQ_REQS) return install_requires @property def _property_scripts(self): # Scripts common to all scenarios scripts = ["scripts/salt-call", "scripts/salt-run"] if self.ssh_packaging or PACKAGED_FOR_SALT_SSH: scripts.append("scripts/salt-ssh") if IS_WINDOWS_PLATFORM: return scripts scripts.extend(["scripts/salt-cloud", "scripts/spm"]) return scripts if IS_WINDOWS_PLATFORM: scripts.extend( [ "scripts/salt-cp", "scripts/salt-key", "scripts/salt-minion", "scripts/salt-syndic", "scripts/salt-unity", "scripts/spm", ] ) return scripts # *nix, so, we need all scripts scripts.extend( [ "scripts/salt", "scripts/salt-api", "scripts/salt-cloud", "scripts/salt-cp", "scripts/salt-key", "scripts/salt-master", "scripts/salt-minion", "scripts/salt-proxy", "scripts/salt-ssh", "scripts/salt-syndic", "scripts/salt-unity", "scripts/spm", ] ) return scripts @property def _property_entry_points(self): # console scripts common to all scenarios scripts = [ "salt-call = salt.scripts:salt_call", "salt-run = salt.scripts:salt_run", ] if self.ssh_packaging or PACKAGED_FOR_SALT_SSH: scripts.append("salt-ssh = salt.scripts:salt_ssh") if IS_WINDOWS_PLATFORM: return {"console_scripts": scripts} scripts.append("salt-cloud = salt.scripts:salt_cloud") return {"console_scripts": scripts} if IS_WINDOWS_PLATFORM: scripts.extend( [ "salt-cp = salt.scripts:salt_cp", "salt-key = salt.scripts:salt_key", "salt-minion = salt.scripts:salt_minion", "salt-syndic = salt.scripts:salt_syndic", "salt-unity = salt.scripts:salt_unity", "spm = salt.scripts:salt_spm", ] ) return {"console_scripts": scripts} # *nix, so, we need all scripts scripts.extend( [ "salt = salt.scripts:salt_main", "salt-api = salt.scripts:salt_api", "salt-cloud = salt.scripts:salt_cloud", "salt-cp = salt.scripts:salt_cp", "salt-key = salt.scripts:salt_key", "salt-master = salt.scripts:salt_master", "salt-minion = salt.scripts:salt_minion", "salt-ssh = salt.scripts:salt_ssh", "salt-syndic = salt.scripts:salt_syndic", "salt-unity = salt.scripts:salt_unity", "spm = salt.scripts:salt_spm", ] ) return {"console_scripts": scripts} # <---- Dynamic Data --------------------------------------------------------------------------------------------- # ----- Esky Setup ----------------------------------------------------------------------------------------------> def setup_esky(self): opt_dict = self.get_option_dict("bdist_esky") opt_dict["freezer_module"] = ("setup script", "bbfreeze") opt_dict["freezer_options"] = ( "setup script", {"includes": self.get_esky_freezer_includes()}, ) @property def _property_freezer_options(self): return {"includes": self.get_esky_freezer_includes()} def get_esky_freezer_includes(self): # Sometimes the auto module traversal doesn't find everything, so we # explicitly add it. The auto dependency tracking especially does not work for # imports occurring in salt.modules, as they are loaded at salt runtime. # Specifying includes that don't exist doesn't appear to cause a freezing # error. freezer_includes = [ "zmq.core.*", "zmq.utils.*", "ast", "csv", "difflib", "distutils", "distutils.version", "numbers", "json", "M2Crypto", "Cookie", "asyncore", "fileinput", "sqlite3", "email", "email.mime.*", "requests", "sqlite3", ] if HAS_ZMQ and hasattr(zmq, "pyzmq_version_info"): if HAS_ZMQ and zmq.pyzmq_version_info() >= (0, 14): # We're freezing, and when freezing ZMQ needs to be installed, so this # works fine if "zmq.core.*" in freezer_includes: # For PyZMQ >= 0.14, freezing does not need 'zmq.core.*' freezer_includes.remove("zmq.core.*") if IS_WINDOWS_PLATFORM: freezer_includes.extend( [ "imp", "win32api", "win32file", "win32con", "win32com", "win32net", "win32netcon", "win32gui", "win32security", "ntsecuritycon", "pywintypes", "pythoncom", "_winreg", "wmi", "site", "psutil", "pytz", ] ) elif IS_SMARTOS_PLATFORM: # we have them as requirements in pkg/smartos/esky/requirements.txt # all these should be safe to force include freezer_includes.extend( ["cherrypy", "python-dateutil", "pyghmi", "croniter", "mako", "gnupg"] ) elif sys.platform.startswith("linux"): freezer_includes.append("spwd") try: import yum # pylint: disable=unused-variable freezer_includes.append("yum") except ImportError: pass elif sys.platform.startswith("sunos"): # (The sledgehammer approach) # Just try to include everything # (This may be a better way to generate freezer_includes generally) try: from bbfreeze.modulegraph.modulegraph import ModuleGraph mgraph = ModuleGraph(sys.path[:]) for arg in glob.glob("salt/modules/*.py"): mgraph.run_script(arg) for mod in mgraph.flatten(): if type(mod).__name__ != "Script" and mod.filename: freezer_includes.append(str(os.path.basename(mod.identifier))) except ImportError: pass return freezer_includes # <---- Esky Setup ----------------------------------------------------------------------------------------------- # ----- Overridden Methods --------------------------------------------------------------------------------------> def parse_command_line(self): args = distutils.dist.Distribution.parse_command_line(self) if not self.ssh_packaging and PACKAGED_FOR_SALT_SSH: self.ssh_packaging = 1 if self.ssh_packaging: self.metadata.name = "salt-ssh" self.salt_transport = "ssh" elif self.salt_transport is None: self.salt_transport = "zeromq" if self.salt_transport not in ("zeromq", "both", "ssh", "none"): raise DistutilsArgError( "The value of --salt-transport needs be 'zeromq', " "'both', 'ssh', or 'none' not '{0}'".format(self.salt_transport) ) # Setup our property functions after class initialization and # after parsing the command line since most are set to None # ATTENTION: This should be the last step before returning the args or # some of the requirements won't be correctly set for funcname in dir(self): if not funcname.startswith("_property_"): continue property_name = funcname.split("_property_", 1)[-1] setattr(self, property_name, getattr(self, funcname)) return args # <---- Overridden Methods --------------------------------------------------------------------------------------- # <---- Custom Distribution Class ------------------------------------------------------------------------------------ if __name__ == "__main__": setup(distclass=SaltDistribution)