cdist-backup/lib/cdist/config_install.py
Nico Schottelius 03226dc5aa more fixes for relative path address
Signed-off-by: Nico Schottelius <nico@kr.ethz.ch>
2011-10-07 16:36:05 +02:00

317 lines
12 KiB
Python

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# 2010-2011 Nico Schottelius (nico-cdist at schottelius.org)
#
# This file is part of cdist.
#
# cdist is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# cdist is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with cdist. If not, see <http://www.gnu.org/licenses/>.
#
#
import logging
import os
import stat
import sys
import cdist.context
import cdist.core
import cdist.emulator
log = logging.getLogger(__name__)
CODE_HEADER = "#!/bin/sh -e\n"
class ConfigInstall:
"""Cdist main class to hold arbitrary data"""
def __init__(self, target_host, initial_manifest=False,
base_path=False,
exec_path=sys.argv[0],
debug=False):
self.target_host = target_host
os.environ['target_host'] = target_host
self.debug = debug
self.exec_path = exec_path
self.context = cdist.context.Context(self.target_host,
initial_manifest=initial_manifest,
base_path=base_path,
debug=debug)
def cleanup(self):
self.path.cleanup()
def run_initial_manifest(self):
"""Run the initial manifest"""
log.info("Running initial manifest %s", self.context.initial_manifest)
env = { "__manifest" : self.context.manifest_path }
self.run_manifest(self.context.initial_manifest, extra_env=env)
def run_type_manifest(self, cdist_object):
"""Run manifest for a specific object"""
type = cdist_object.type
manifest_path = os.path.join(self.context.type_base_path,
type.manifest_path)
log.debug("%s: Running %s", cdist_object.name, manifest)
if os.path.exists(manifest_path):
env = { "__object" : os.path.join(self.context.object_base_path,
cdist_object.path),
"__object_id": cdist_object.object_id,
"__object_fq": cdist_object.name,
"__type": os.path.join(self.context.type_base_path,
type.path)
}
self.run_manifest(manifest_path, extra_env=env)
def run_manifest(self, manifest_path, extra_env=None):
"""Run a manifest"""
log.debug("Running manifest %s, env=%s", manifest_path, extra_env)
env = os.environ.copy()
env['PATH'] = self.context.bin_path + ":" + env['PATH']
# Information required in every manifest
env['__target_host'] = self.target_host
env['__global'] = self.context.out_path
# Submit debug flag to manifest, can be used by emulator and types
if self.debug:
env['__debug'] = "yes"
# Required for recording source in emulator
env['__cdist_manifest'] = manifest_path
# Required to find types in emulator
env['__cdist_type_base_path'] = self.context.type_base_path
# Other environment stuff
if extra_env:
env.update(extra_env)
cdist.exec.shell_run_or_debug_fail(manifest_path, [manifest_path], env=env)
def object_run(self, cdist_object):
"""Run gencode or code for an object"""
log.debug("Running object %s", cdist_object)
# Catch requirements, which re-call us
if cdist_object.ran:
return
type = cdist_object.type
for requirement in cdist_object.requirements:
log.debug("Object %s requires %s", cdist_object, requirement)
self.object_run(requirement)
#
# Setup env Variable:
#
env = os.environ.copy()
env['__target_host'] = self.target_host
env['__global'] = self.context.out_path
env["__object"] = os.path.join(self.context.object_base_path, cdist_object.path)
env["__object_id"] = cdist_object.object_id
env["__object_fq"] = cdist_object.name
env["__type"] = type.name
# gencode
for cmd in ["local", "remote"]:
bin = os.path.join(self.context.type_base_path,
getattr(type, "gencode_" + cmd))
if os.path.isfile(bin):
outfile = os.path.join(self.context.object_base_path,
getattr(cdist_object, "code_" + cmd))
outfile_fd = open(outfile, "w")
# Need to flush to ensure our write is done before stdout write
outfile_fd.write(CODE_HEADER)
outfile_fd.flush()
cdist.exec.shell_run_or_debug_fail(bin, [bin], env=env, stdout=outfile_fd)
outfile_fd.close()
status = os.stat(outfile)
# Remove output if empty, else make it executable
if status.st_size == len(CODE_HEADER):
os.unlink(outfile)
else:
# Add header and make executable - identically to 0o700
os.chmod(outfile, stat.S_IXUSR | stat.S_IRUSR | stat.S_IWUSR)
cdist_object.changed=True
# code local
code_local = cdist_object.code_local_path
if os.path.isfile(code_local):
cdist.exec.run_or_fail([code_local])
# code remote
local_remote_code = cdist_object.code_remote_path
remote_remote_code = cdist_object.remote_code_remote_path
if os.path.isfile(local_remote_code):
self.context.transfer_file(local_remote_code, remote_remote_code)
cdist.exec.run_or_fail([remote_remote_code], remote_prefix=True)
cdist_object.ran = True
def run_type_explorer(self, cdist_object):
"""Run type specific explorers for objects"""
cdist_type = cdist_object.type
self.transfer_type_explorers(cdist_type)
cmd = []
cmd.append("__explorer=" + self.context.remote_global_explorer_path)
cmd.append("__type_explorer=" + os.path.join(
self.context.remote_type_path,
cdist_type.explorer_path))
cmd.append("__object=" + os.path.join(
self.context.remote_object_path,
cdist_object.path))
cmd.append("__object_id=" + cdist_object.object_id)
cmd.append("__object_fq=" + cdist_object.name)
# Need to transfer at least the parameters for objects to be useful
self.transfer_object_parameter(cdist_object)
explorers = self.path.list_type_explorers(type)
for explorer in explorers:
remote_cmd = cmd + [os.path.join(type.explorer_remote_path, explorer)]
output = os.path.join(cdist_object.explorer_output_path(), explorer)
output_fd = open(output, mode='w')
log.debug("%s exploring %s using %s storing to %s",
cdist_object, explorer, remote_cmd, output)
cdist.exec.run_or_fail(remote_cmd, stdout=output_fd, remote_prefix=True)
output_fd.close()
def link_emulator(self):
"""Link emulator to types"""
src = os.path.abspath(self.exec_path)
for type in cdist.core.Type.list_types(self.context.type_base_path):
dst = os.path.join(self.context.bin_path, type.name)
log.debug("Linking emulator: %s to %s", src, dst)
# FIXME: handle exception / make it more beautiful
os.symlink(src, dst)
def run_global_explorers(self):
"""Run global explorers"""
log.info("Running global explorers")
src_path = self.context.global_explorer_path
dst_path = self.context.global_explorer_out_path
remote_dst_path = self.context.remote_global_explorer_path
self.context.transfer_path(src_path, remote_dst_path)
for explorer in os.listdir(src_path):
output_fd = open(os.path.join(dst_path, explorer), mode='w')
cmd = []
cmd.append("__explorer=" + remote_dst_path)
cmd.append(os.path.join(src_path, explorer))
cdist.exec.run_or_fail(cmd, stdout=output_fd, remote_prefix=True)
output_fd.close()
def stage_run(self):
"""The final (and real) step of deployment"""
log.info("Generating and executing code")
for cdist_object in cdist.core.Object.list_objects(self.context.object_base_path,
self.context.type_base_path):
log.debug("Run object: %s", cdist_object)
self.object_run(cdist_object)
def deploy_to(self):
"""Mimic the old deploy to: Deploy to one host"""
log.info("Deploying to " + self.target_host)
self.stage_prepare()
self.stage_run()
def deploy_and_cleanup(self):
"""Do what is most often done: deploy & cleanup"""
self.deploy_to()
self.cleanup()
def stage_prepare(self):
"""Do everything for a deploy, minus the actual code stage"""
self.link_emulator()
self.run_global_explorers()
self.run_initial_manifest()
log.info("Running object manifests and type explorers")
# Continue process until no new objects are created anymore
new_objects_created = True
while new_objects_created:
new_objects_created = False
for cdist_object in cdist.core.Object.list_objects(self.context.object_base_path,
self.context.type_base_path):
if cdist_object.prepared:
log.debug("Skipping rerun of object %s", cdist_object)
continue
else:
log.debug("Preparing object: " + cdist_object.name)
self.run_type_explorer(cdist_object)
self.run_type_manifest(cdist_object)
cdist_object.prepared = True
new_objects_created = True
def transfer_object_parameter(self, cdist_object):
"""Transfer the object parameter to the remote destination"""
src = os.path.join(self.context.object_base_path,
cdist_object.parameter_path)
dst = os.path.join(self.context.remote_object_path,
cdist_object.parameter_path)
# Synchronise parameter dir afterwards
self.context.transfer_path(src, dst)
def transfer_global_explorers(self):
"""Transfer the global explorers"""
self.remote_mkdir(self.context.remote_global_explorer_path)
self.transfer_path(self.context.global_explorer_path,
self.remote_global_explorer_path)
def transfer_type_explorers(self, cdist_type):
"""Transfer explorers of a type, but only once"""
if cdist_type.transferred_explorers:
log.debug("Skipping retransfer for explorers of %s", cdist_type)
return
else:
# Do not retransfer
cdist_type.transferred_explorers = True
explorers = cdist_type.explorers
if len(explorers) > 0:
rel_path = cdist_type.explorer_path
src = os.path.join(self.context.type_base_path, rel_path)
dst = os.path.join(self.context.remote_type_path, rel_path)
# Ensure full path until type exists:
# /var/lib/cdist/conf/type/__directory/explorer
# /var/lib/cdist/conf/type/__directory may not exist,
# but remote_mkdir uses -p to fix this
self.context.remote_mkdir(dst)
self.context.transfer_path(src, dst)