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CloudBender
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CloudBender/cloudbender/stack.py

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Python
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import os
import re
import hashlib
import json
import yaml
import time
import pathlib
import pprint
import pulumi
import importlib.resources as pkg_resources
from datetime import datetime, timedelta
from dateutil.tz import tzutc
from botocore.exceptions import ClientError
from .utils import dict_merge, search_refs, ensure_dir, get_s3_url
from .connection import BotoConnection
from .jinja import JinjaEnv, read_config_file
from . import __version__
from .exceptions import ParameterNotFound, ParameterIllegalValue, ChecksumError
from .hooks import exec_hooks
from .pulumi import pulumi_ws
import cfnlint.core
import cfnlint.template
import cfnlint.graph
from . import templates
import logging
logger = logging.getLogger(__name__)
# Ignore any !<Constructors> during re-loading of CFN templates
class SafeLoaderIgnoreUnknown(yaml.SafeLoader):
def ignore_unknown(self, node):
return node.tag
SafeLoaderIgnoreUnknown.add_constructor(None, SafeLoaderIgnoreUnknown.ignore_unknown)
class Stack(object):
def __init__(self, name, template, path, rel_path, ctx):
self.stackname = name
self.template = template
self.path = pathlib.Path(path)
self.rel_path = rel_path
self.ctx = ctx
self.tags = {}
self.parameters = {}
self.outputs = {}
self.options = {}
self.region = "global"
self.profile = "default"
self.onfailure = "DELETE"
self.notfication_sns = []
self.id = (self.profile, self.region, self.stackname)
self.aws_stackid = None
self.md5 = None
self.mode = "CloudBender"
self.provides = template
self.cfn_template = None
self.cfn_parameters = []
self.cfn_data = None
self.connection_manager = BotoConnection(self.profile, self.region)
self.status = None
self.store_outputs = False
self.dependencies = set()
self.hooks = {
"post_create": [],
"post_update": [],
"pre_create": [],
"pre_update": [],
}
self.default_lock = None
self.multi_delete = True
self.template_bucket_url = None
self.work_dir = None
self.pulumi = {}
self._pulumi_stack = None
self.pulumi_stackname = ""
self.pulumi_config = {}
self.pulumi_ws_opts = None
def dump_config(self):
logger.debug("<Stack {}: {}>".format(self.id, pprint.pformat(vars(self))))
def read_config(self, sg_config={}):
"""reads stack config"""
# First set various attributes based on parent stackgroup config
self.tags.update(sg_config.get("tags", {}))
self.parameters.update(sg_config.get("parameters", {}))
self.options.update(sg_config.get("options", {}))
self.pulumi.update(sg_config.get("pulumi", {}))
# by default inherit parent group settings
for p in ["region", "profile", "notfication_sns", "template_bucket_url"]:
if p in sg_config:
setattr(self, p, sg_config[p])
# now override stack specific settings
_config = read_config_file(self.path, sg_config.get("variables", {}))
for p in [
"region",
"stackname",
"template",
"default_lock",
"multi_delete",
"provides",
"onfailure",
"notification_sns",
"template_bucket_url",
]:
if p in _config:
setattr(self, p, _config[p])
for p in ["parameters", "tags", "pulumi"]:
if p in _config:
setattr(self, p, dict_merge(getattr(self, p), _config[p]))
# Inject Artifact if not explicitly set
if "Artifact" not in self.tags:
self.tags["Artifact"] = self.provides
if "options" in _config:
self.options = dict_merge(self.options, _config["options"])
if "Mode" in self.options:
self.mode = self.options["Mode"]
if "StoreOutputs" in self.options and self.options["StoreOutputs"]:
self.store_outputs = True
if "dependencies" in _config:
for dep in _config["dependencies"]:
self.dependencies.add(dep)
# Some sanity checks
if self.onfailure not in ["DO_NOTHING", "ROLLBACK", "DELETE"]:
raise ParameterIllegalValue(
"onfailure must be one of DO_NOTHING | ROLLBACK | DELETE"
)
logger.debug("Stack {} added.".format(self.id))
def render(self):
"""Renders the cfn jinja template for this stack"""
template_metadata = {
"Template.Name": self.template,
"Template.Hash": "__HASH__",
"CloudBender.Version": __version__,
}
_config = {
"mode": self.mode,
"options": self.options,
"metadata": template_metadata,
}
jenv = JinjaEnv(self.ctx["artifact_paths"])
jenv.globals["_config"] = _config
template = jenv.get_template("{0}{1}".format(self.template, ".yaml.jinja"))
logger.info("Rendering %s", template.filename)
try:
self.cfn_template = template.render(_config)
self.cfn_data = yaml.load(self.cfn_template, Loader=SafeLoaderIgnoreUnknown)
except Exception as e:
# In case we rendered invalid yaml this helps to debug
if self.cfn_template:
_output = ""
for i, line in enumerate(self.cfn_template.splitlines(), start=1):
_output = _output + "{}: {}\n".format(i, line)
logger.error(_output)
raise e
if not re.search("CloudBender::", self.cfn_template) and not re.search(
"Iterate:", self.cfn_template
):
logger.info(
"CloudBender not required -> removing Transform and Conglomerate parameter"
)
self.cfn_template = self.cfn_template.replace(
"Transform: [CloudBender]", ""
)
_res = """
Conglomerate:
Type: String
Description: Project / Namespace this stack is part of
"""
self.cfn_template = re.sub(_res, "", self.cfn_template)
else:
self.dependencies.add("CloudBender")
include = []
search_refs(self.cfn_data, include, self.mode)
if self.mode == "Piped" and len(include):
_res = ""
for attr in include:
_res = (
_res
+ """
{0}:
Type: String
Description: Parameter to provide remote stack attribute {0}""".format(
attr
)
)
self.cfn_template = re.sub(
r"Parameters:", r"Parameters:" + _res + "\n", self.cfn_template
)
logger.info("Piped mode: Added parameters for remote stack references")
# Re-read updated template
self.cfn_data = yaml.load(self.cfn_template, Loader=SafeLoaderIgnoreUnknown)
# Check for empty top level Parameters, Outputs and Conditions and remove
for key in ["Parameters", "Outputs", "Conditions"]:
if key in self.cfn_data and not self.cfn_data[key]:
del self.cfn_data[key]
self.cfn_template = self.cfn_template.replace("\n" + key + ":", "")
# Remove and condense multiple empty lines
self.cfn_template = re.sub(r"\n\s*\n", "\n\n", self.cfn_template)
self.cfn_template = re.sub(r"^\s*", "", self.cfn_template)
self.cfn_template = re.sub(r"\s*$", "", self.cfn_template)
# set md5 last
self.md5 = hashlib.md5(self.cfn_template.encode("utf-8")).hexdigest()
self.cfn_template = self.cfn_template.replace("__HASH__", self.md5)
# Update internal data structures
self._parse_metadata()
def _parse_metadata(self):
# Extract dependencies
try:
for dep in self.cfn_data["Metadata"]["CloudBender"]["Dependencies"]:
self.dependencies.add(dep)
except KeyError:
pass
# Get checksum
if not self.md5:
try:
self.md5 = self.cfn_data["Metadata"]["Template"]["Hash"]
# Verify embedded md5 hash
source_cfn = re.sub(
"Hash: [0-9a-f]{32}", "Hash: __HASH__", self.cfn_template
)
our_md5 = hashlib.md5(source_cfn.encode("utf-8")).hexdigest()
if our_md5 != self.md5:
raise ChecksumError(
"Template hash checksum mismatch! Expected: {} Got: {}".format(
self.md5, our_md5
)
) from None
except KeyError:
raise ChecksumError("Template missing Hash checksum!") from None
# Add CloudBender dependencies
include = []
search_refs(self.cfn_data, include, self.mode)
for ref in include:
if self.mode != "Piped":
self.dependencies.add(ref.split(".")[0])
else:
self.dependencies.add(ref.split("DoT")[0])
# Extract hooks
try:
for hook, func in self.cfn_data["Metadata"]["Hooks"].items():
if hook in ["post_update", "post_create", "pre_create", "pre_update"]:
if isinstance(func, list):
self.hooks[hook].extend(func)
else:
self.hooks[hook].append(func)
except KeyError:
pass
def write_template_file(self):
if self.cfn_template:
yaml_file = os.path.join(
self.ctx["template_path"], self.rel_path, self.stackname + ".yaml"
)
ensure_dir(os.path.join(self.ctx["template_path"], self.rel_path))
with open(yaml_file, "w") as yaml_contents:
yaml_contents.write(self.cfn_template)
logger.info("Wrote %s to %s", self.template, yaml_file)
# upload template to s3 if set
if self.template_bucket_url:
try:
(bucket, path) = get_s3_url(
self.template_bucket_url,
self.rel_path,
self.stackname + ".yaml",
)
self.connection_manager.call(
"s3",
"put_object",
{
"Bucket": bucket,
"Key": path,
"Body": self.cfn_template,
"ServerSideEncryption": "AES256",
},
profile=self.profile,
region=self.region,
)
logger.info("Uploaded template to s3://{}/{}".format(bucket, path))
except ClientError as e:
logger.error(
"Error trying to upload template so S3: {}, {}".format(
self.template_bucket_url, e
)
)
else:
if len(self.cfn_template) > 51200:
logger.warning(
"template_bucket_url not set and rendered template exceeds maximum allowed size of 51200, actual size: {} !".format(
len(self.cfn_template)
)
)
else:
logger.error(
"No cfn template rendered yet for stack {}.".format(self.stackname)
)
def delete_template_file(self):
yaml_file = os.path.join(
self.ctx["template_path"], self.rel_path, self.stackname + ".yaml"
)
try:
os.remove(yaml_file)
logger.debug("Deleted cfn template %s.", yaml_file)
except OSError:
pass
if self.template_bucket_url:
try:
(bucket, path) = get_s3_url(
self.template_bucket_url, self.rel_path, self.stackname + ".yaml"
)
self.connection_manager.call(
"s3",
"delete_object",
{"Bucket": bucket, "Key": path},
profile=self.profile,
region=self.region,
)
logger.info("Deleted template from s3://{}/{}".format(bucket, path))
except ClientError as e:
logger.error(
"Error trying to delete template from S3: {}, {}".format(
self.template_bucket_url, e
)
)
def read_template_file(self):
"""Reads rendered yaml template from disk or s3 and extracts metadata"""
if not self.cfn_template:
if self.template_bucket_url:
try:
(bucket, path) = get_s3_url(
self.template_bucket_url,
self.rel_path,
self.stackname + ".yaml",
)
template = self.connection_manager.call(
"s3",
"get_object",
{"Bucket": bucket, "Key": path},
profile=self.profile,
region=self.region,
)
logger.debug("Got template from s3://{}/{}".format(bucket, path))
self.cfn_template = template["Body"].read().decode("utf-8")
# Overwrite local copy
yaml_file = os.path.join(
self.ctx["template_path"],
self.rel_path,
self.stackname + ".yaml",
)
ensure_dir(os.path.join(self.ctx["template_path"], self.rel_path))
with open(yaml_file, "w") as yaml_contents:
yaml_contents.write(self.cfn_template)
except ClientError as e:
logger.error(
"Could not find template file on S3: {}/{}, {}".format(
bucket, path, e
)
)
else:
yaml_file = os.path.join(
self.ctx["template_path"], self.rel_path, self.stackname + ".yaml"
)
try:
with open(yaml_file, "r") as yaml_contents:
self.cfn_template = yaml_contents.read()
logger.debug("Read cfn template %s.", yaml_file)
except FileNotFoundError as e:
logger.warn("Could not find template file: {}".format(yaml_file))
raise e
self.cfn_data = yaml.load(self.cfn_template, Loader=SafeLoaderIgnoreUnknown)
self._parse_metadata()
else:
logger.debug("Using cached cfn template %s.", self.stackname)
def validate(self):
"""Validates the rendered template via cfn-lint"""
self.read_template_file()
try:
ignore_checks = self.cfn_data["Metadata"]["cfnlint_ignore"]
except KeyError:
ignore_checks = []
# Ignore some more checks around injected parameters as we generate these
if self.mode == "Piped":
ignore_checks = ignore_checks + ["W2505", "W2509", "W2507"]
# Ignore checks regarding overloaded properties
if self.mode == "CloudBender":
ignore_checks = ignore_checks + [
"E3035",
"E3002",
"E3012",
"W2001",
"E3001",
"E0002",
"E1012",
]
filename = os.path.join(
self.ctx["template_path"], self.rel_path, self.stackname + ".yaml"
)
logger.info("Validating {0}".format(filename))
lint_args = ["--template", filename]
if ignore_checks:
lint_args.append("--ignore-checks")
lint_args = lint_args + ignore_checks
logger.info("Ignoring checks: {}".format(",".join(ignore_checks)))
(args, filenames, formatter) = cfnlint.core.get_args_filenames(lint_args)
(template, rules, matches) = cfnlint.core.get_template_rules(filename, args)
region = self.region
if region == "global":
region = "us-east-1"
if not matches:
matches.extend(cfnlint.core.run_checks(filename, template, rules, [region]))
if len(matches):
for match in matches:
logger.error(formatter._format(match))
return 1
else:
logger.info("Passed.")
return 0
def get_outputs(self, include=".*", values=False):
"""gets outputs of the stack"""
if self.mode == "pulumi":
self.outputs = self._get_pulumi_stack().outputs()
else:
self.read_template_file()
try:
stacks = self.connection_manager.call(
"cloudformation",
"describe_stacks",
{"StackName": self.stackname},
profile=self.profile,
region=self.region,
)["Stacks"]
try:
for output in stacks[0]["Outputs"]:
self.outputs[output["OutputKey"]] = output["OutputValue"]
logger.debug(
"Stack outputs for {} in {}: {}".format(
self.stackname, self.region, self.outputs
)
)
except KeyError:
pass
except ClientError:
logger.warn("Could not get outputs of {}".format(self.stackname))
pass
if self.outputs:
if self.store_outputs:
filename = self.stackname + ".yaml"
my_template = pkg_resources.read_text(templates, "outputs.yaml")
output_file = os.path.join(
self.ctx["outputs_path"], self.rel_path, filename
)
ensure_dir(os.path.join(self.ctx["outputs_path"], self.rel_path))
# Blacklist at least AWS SecretKeys from leaking into git
# Pulumi to the rescue soon
blacklist = [".*SecretAccessKey.*"]
sanitized_outputs = {}
for k in self.outputs.keys():
sanitized_outputs[k] = self.outputs[k]
for val in blacklist:
if re.match(val, k, re.IGNORECASE):
sanitized_outputs[k] = "<Redacted>"
jenv = JinjaEnv()
template = jenv.from_string(my_template)
data = {
"stackname": "/".join([self.rel_path, self.stackname]),
"timestamp": datetime.strftime(
datetime.now(tzutc()), "%d/%m/%y %H:%M"
),
"outputs": sanitized_outputs,
"parameters": self.parameters,
}
with open(output_file, "w") as output_contents:
output_contents.write(template.render(**data))
logger.info(
"Wrote outputs for %s to %s", self.stackname, output_file
)
# If secrets replace with clear values for now, display ONLY
for k in self.outputs.keys():
if hasattr(self.outputs[k], "secret") and self.outputs[k].secret:
self.outputs[k] = self.outputs[k].value
logger.info(
"{} {} Outputs:\n{}".format(
self.region, self.stackname, pprint.pformat(self.outputs, indent=2)
)
)
def create_docs(self, template=False, graph=False):
"""Read rendered template, parse documentation fragments, eg. parameter description
and create a mardown doc file for the stack
same idea as eg. helm-docs for values.yaml
"""
try:
self.read_template_file()
except FileNotFoundError:
return
if not template:
doc_template = pkg_resources.read_text(templates, "stack-doc.md")
jenv = JinjaEnv()
template = jenv.from_string(doc_template)
data = {}
else:
doc_template = template
data["name"] = self.stackname
data["description"] = self.cfn_data["Description"]
data["dependencies"] = self.dependencies
if "Parameters" in self.cfn_data:
data["parameters"] = self.cfn_data["Parameters"]
set_parameters = self.resolve_parameters()
for p in set_parameters:
data["parameters"][p]["value"] = set_parameters[p]
if "Outputs" in self.cfn_data:
data["outputs"] = self.cfn_data["Outputs"]
# Check for existing outputs yaml, if found add current value column and set header to timestamp from outputs file
output_file = os.path.join(
self.ctx["outputs_path"], self.rel_path, self.stackname + ".yaml"
)
try:
with open(output_file, "r") as yaml_contents:
outputs = yaml.safe_load(yaml_contents.read())
for p in outputs["Outputs"]:
data["outputs"][p]["last_value"] = outputs["Outputs"][p]
data["timestamp"] = outputs["TimeStamp"]
except (FileNotFoundError, KeyError, TypeError):
pass
doc_file = os.path.join(
self.ctx["docs_path"], self.rel_path, self.stackname + ".md"
)
ensure_dir(os.path.join(self.ctx["docs_path"], self.rel_path))
with open(doc_file, "w") as doc_contents:
doc_contents.write(template.render(**data))
logger.info("Wrote documentation for %s to %s", self.stackname, doc_file)
# Write Graph in Dot format
if graph:
filename = os.path.join(
self.ctx["template_path"], self.rel_path, self.stackname + ".yaml"
)
lint_args = ["--template", filename]
(args, filenames, formatter) = cfnlint.core.get_args_filenames(lint_args)
(template, rules, matches) = cfnlint.core.get_template_rules(filename, args)
template_obj = cfnlint.template.Template(filename, template, [self.region])
path = os.path.join(
self.ctx["docs_path"], self.rel_path, self.stackname + ".dot"
)
g = cfnlint.graph.Graph(template_obj)
try:
g.to_dot(path)
logger.info("DOT representation of the graph written to %s", path)
except ImportError:
logger.error(
"Could not write the graph in DOT format. Please install either `pygraphviz` or `pydot` modules."
)
def resolve_parameters(self):
"""Renders parameters for the stack based on the source template and the environment configuration"""
self.read_template_file()
# if we run in Piped Mode, inspect all outputs of the running Conglomerate members
if self.mode == "Piped":
stack_outputs = {}
try:
stack_outputs = self._inspect_stacks(self.tags["Conglomerate"])
except KeyError:
pass
_found = {}
if "Parameters" in self.cfn_data:
_errors = []
self.cfn_parameters = []
for p in self.cfn_data["Parameters"]:
# In Piped mode we try to resolve all Paramters first via stack_outputs
if self.mode == "Piped":
try:
# first reverse the rename due to AWS alphanumeric restriction for parameter names
_p = p.replace("DoT", ".")
value = str(stack_outputs[_p])
self.cfn_parameters.append(
{"ParameterKey": p, "ParameterValue": value}
)
logger.info("Got {} = {} from running stack".format(p, value))
continue
except KeyError:
pass
# Key name in config tree is: stacks.<self.stackname>.parameters.<parameter>
if p in self.parameters:
value = str(self.parameters[p])
self.cfn_parameters.append(
{"ParameterKey": p, "ParameterValue": value}
)
# Hide NoEcho parameters in shell output
if (
"NoEcho" in self.cfn_data["Parameters"][p]
and self.cfn_data["Parameters"][p]["NoEcho"]
):
value = "****"
_found[p] = value
else:
# If we have a Default defined in the CFN skip, as AWS will use it
if "Default" not in self.cfn_data["Parameters"][p]:
_errors.append(p)
if _errors:
raise ParameterNotFound(
"Cannot find value for parameters: {0}".format(_errors)
)
# Warning of excessive parameters, might be useful to spot typos early
_warnings = []
for p in self.parameters.keys():
if p not in self.cfn_data["Parameters"]:
_warnings.append(p)
logger.info(
"{} {} set parameters:\n{}".format(
self.region, self.stackname, pprint.pformat(_found, indent=2)
)
)
if _warnings:
logger.warning("Ignored additional parameters: {}.".format(_warnings))
# Return dict of explicitly set parameters
return _found
@pulumi_ws
@exec_hooks
def create(self):
"""Creates a stack"""
if self.mode == "pulumi":
kwargs = self._set_pulumi_args()
self._get_pulumi_stack(create=True).up(**kwargs)
else:
# Prepare parameters
self.resolve_parameters()
logger.info("Creating {0} {1}".format(self.region, self.stackname))
kwargs = {
"StackName": self.stackname,
"Parameters": self.cfn_parameters,
"OnFailure": self.onfailure,
"NotificationARNs": self.notfication_sns,
"Tags": [
{"Key": str(k), "Value": str(v)} for k, v in self.tags.items()
],
"Capabilities": [
"CAPABILITY_IAM",
"CAPABILITY_NAMED_IAM",
"CAPABILITY_AUTO_EXPAND",
],
}
kwargs = self._add_template_arg(kwargs)
self.aws_stackid = self.connection_manager.call(
"cloudformation",
"create_stack",
kwargs,
profile=self.profile,
region=self.region,
)
status = self._wait_for_completion()
self.get_outputs()
return status
@pulumi_ws
@exec_hooks
def update(self):
"""Updates an existing stack"""
# We cannot migrate directly so bail out if CFN stack still exists
if self.mode == "pulumi":
logger.error(
"Cloudformation stack {} still exists, cannot use Pulumi!".format(
self.stackname
)
)
return
# Prepare parameters
self.resolve_parameters()
logger.info("Updating {0} {1}".format(self.region, self.stackname))
try:
kwargs = {
"StackName": self.stackname,
"Parameters": self.cfn_parameters,
"NotificationARNs": self.notfication_sns,
"Tags": [
{"Key": str(k), "Value": str(v)} for k, v in self.tags.items()
],
"Capabilities": [
"CAPABILITY_IAM",
"CAPABILITY_NAMED_IAM",
"CAPABILITY_AUTO_EXPAND",
],
}
kwargs = self._add_template_arg(kwargs)
self.aws_stackid = self.connection_manager.call(
"cloudformation",
"update_stack",
kwargs,
profile=self.profile,
region=self.region,
)
except ClientError as e:
if "No updates are to be performed" in e.response["Error"]["Message"]:
logger.info("No updates for {0}".format(self.stackname))
return "COMPLETE"
else:
raise e
status = self._wait_for_completion()
self.get_outputs()
return status
@pulumi_ws
@exec_hooks
def delete(self):
"""Deletes a stack"""
logger.info("Deleting {0} {1}".format(self.region, self.stackname))
if self.mode == "pulumi":
pulumi_stack = self._get_pulumi_stack()
pulumi_stack.destroy(on_output=self._log_pulumi)
pulumi_stack.workspace.remove_stack(pulumi_stack.name)
return
self.aws_stackid = self.connection_manager.call(
"cloudformation",
"delete_stack",
{"StackName": self.stackname},
profile=self.profile,
region=self.region,
)
status = self._wait_for_completion()
return status
@pulumi_ws
def refresh(self):
"""Refreshes a Pulumi stack"""
self._get_pulumi_stack().refresh(on_output=self._log_pulumi)
return
@pulumi_ws
def preview(self):
"""Preview a Pulumi stack up operation"""
kwargs = self._set_pulumi_args()
self._get_pulumi_stack(create=True).preview(**kwargs)
return
@pulumi_ws
def execute(self, function, args, listall=False):
"""Executes custom Python function within a Pulumi stack"""
# call all available functions and output built in help
if listall:
for k in vars(self._pulumi_code).keys():
if k.startswith("_execute_"):
docstring = vars(self._pulumi_code)[k](docstring=True)
print("{}: {}".format(k.lstrip("_execute_"), docstring))
return
else:
if not function:
logger.error("No function specified !")
return
exec_function = f"_execute_{function}"
if exec_function in vars(self._pulumi_code):
pulumi_stack = self._get_pulumi_stack()
vars(self._pulumi_code)[exec_function](
config=pulumi_stack.get_all_config(), outputs=pulumi_stack.outputs(), args=args
)
else:
logger.error(
"{} is not defined in {}".format(function, self._pulumi_code)
)
@pulumi_ws
def assimilate(self):
"""Import resources into Pulumi stack"""
pulumi_stack = self._get_pulumi_stack(create=True)
# now lets import each defined resource
for r in self._pulumi_code.RESOURCES:
r_id = r["id"]
if not r_id:
r_id = input(
"Please enter ID for {} ({}):".format(r["name"], r["type"])
)
logger.info("Importing {} ({}) as {}".format(r_id, r["type"], r["name"]))
args = ["import", r["type"], r["name"], r_id, "--yes"]
pulumi_stack._run_pulumi_cmd_sync(args)
return
@pulumi_ws
def export(self, remove_pending_operations):
"""Exports a Pulumi stack"""
pulumi_stack = self._get_pulumi_stack()
deployment = pulumi_stack.export_stack()
if remove_pending_operations:
deployment.deployment.pop("pending_operations", None)
pulumi_stack.import_stack(deployment)
logger.info("Removed all pending_operations from %s" % self.stackname)
else:
print(json.dumps(deployment.deployment))
return
@pulumi_ws
def set_config(self, key, value, secret):
"""Set a config or secret"""
pulumi_stack = self._get_pulumi_stack(create=True)
pulumi_stack.set_config(key, pulumi.automation.ConfigValue(value, secret))
# Store salt or key and encrypted value in CloudBender stack config
settings = None
pulumi_settings = pulumi_stack.workspace.stack_settings(
pulumi_stack.name
)._serialize()
with open(self.path, "r") as file:
settings = yaml.safe_load(file)
if "pulumi" not in settings:
settings["pulumi"] = {}
if "encryptionsalt" in pulumi_settings:
settings["pulumi"]["encryptionsalt"] = pulumi_settings["encryptionsalt"]
if "encryptedkey" in pulumi_settings:
settings["pulumi"]["encryptedkey"] = pulumi_settings["encryptedkey"]
if "parameters" not in settings:
settings["parameters"] = {}
settings["parameters"][key] = pulumi_settings["config"][
"{}:{}".format(self.parameters["Conglomerate"], key)
]
with open(self.path, "w") as file:
yaml.dump(settings, stream=file)
return
@pulumi_ws
def get_config(self, key):
"""Get a config or secret"""
print(self._get_pulumi_stack().get_config(key).value)
def create_change_set(self, change_set_name):
"""Creates a Change Set with the name ``change_set_name``."""
# Prepare parameters
self.resolve_parameters()
self.read_template_file()
logger.info(
"Creating change set {0} for stack {1}".format(
change_set_name, self.stackname
)
)
kwargs = {
"StackName": self.stackname,
"ChangeSetName": change_set_name,
"Parameters": self.cfn_parameters,
"Tags": [{"Key": str(k), "Value": str(v)} for k, v in self.tags.items()],
"Capabilities": ["CAPABILITY_IAM", "CAPABILITY_NAMED_IAM"],
}
kwargs = self._add_template_arg(kwargs)
self.connection_manager.call(
"cloudformation",
"create_change_set",
kwargs,
profile=self.profile,
region=self.region,
)
return self._wait_for_completion()
def get_status(self):
"""
Returns the stack's status.
:returns: The stack's status.
"""
try:
status = self.connection_manager.call(
"cloudformation",
"describe_stacks",
{"StackName": self.stackname},
profile=self.profile,
region=self.region,
)["Stacks"][0]["StackStatus"]
except ClientError as e:
if e.response["Error"]["Message"].endswith("does not exist"):
return None
else:
raise e
return status
def describe_events(self):
"""
Returns a dictionary contianing the stack events.
:returns: The CloudFormation events for a stack.
"""
try:
status = self.connection_manager.call(
"cloudformation",
"describe_stack_events",
{"StackName": self.stackname},
profile=self.profile,
region=self.region,
)
except ClientError as e:
if e.response["Error"]["Message"].endswith("does not exist"):
return None
else:
raise e
return status
def _wait_for_completion(self, timeout=0):
"""
Waits for a stack operation to finish. Prints CloudFormation events while it waits.
:param timeout: Timeout before returning
:returns: The final stack status.
"""
def timed_out(elapsed):
return elapsed >= timeout if timeout else False
status = "IN_PROGRESS"
self.most_recent_event_datetime = datetime.now(tzutc()) - timedelta(seconds=3)
elapsed = 0
while status == "IN_PROGRESS" and not timed_out(elapsed):
status = self._get_simplified_status(self.get_status())
if not status:
return None
self._log_new_events()
time.sleep(4)
elapsed += 4
return status
@staticmethod
def _get_simplified_status(status):
"""Returns the simplified Stack Status."""
if status:
if status.endswith("ROLLBACK_COMPLETE"):
return "FAILED"
elif status.endswith("_COMPLETE"):
return "COMPLETE"
elif status.endswith("_IN_PROGRESS"):
return "IN_PROGRESS"
elif status.endswith("_FAILED"):
return "FAILED"
else:
return "Unknown"
def _log_new_events(self):
"""
Log the latest stack events while the stack is being built.
"""
events = self.describe_events()
if events:
events = events["StackEvents"]
events.reverse()
new_events = [
event
for event in events
if event["Timestamp"] > self.most_recent_event_datetime
]
for event in new_events:
logger.info(
" ".join(
[
self.region,
self.stackname,
event["LogicalResourceId"],
event["ResourceType"],
event["ResourceStatus"],
event.get("ResourceStatusReason", ""),
]
)
)
self.most_recent_event_datetime = event["Timestamp"]
# stackoutput inspection
def _inspect_stacks(self, conglomerate):
# Get all stacks of the conglomertate
running_stacks = self.connection_manager.call(
"cloudformation",
"describe_stacks",
profile=self.profile,
region=self.region,
)
stacks = []
for stack in running_stacks["Stacks"]:
for tag in stack["Tags"]:
if tag["Key"] == "Conglomerate" and tag["Value"] == conglomerate:
stacks.append(stack)
break
# Gather stack outputs, use Tag['Artifact'] as name space: Artifact.OutputName
stack_outputs = {}
for stack in stacks:
# If stack has an Artifact Tag put resources into the namespace Artifact.Resource
artifact = None
for tag in stack["Tags"]:
if tag["Key"] == "Artifact":
artifact = tag["Value"]
if artifact:
key_prefix = "{}.".format(artifact)
else:
key_prefix = ""
try:
for output in stack["Outputs"]:
# Gather all outputs of the stack into one dimensional key=value structure
stack_outputs[key_prefix + output["OutputKey"]] = output[
"OutputValue"
]
except KeyError:
pass
# Add outputs from stacks into the data for jinja under StackOutput
return stack_outputs
def _add_template_arg(self, kwargs):
if self.template_bucket_url:
# https://bucket-name.s3.Region.amazonaws.com/key name
# so we need the region, AWS as usual
(bucket, path) = get_s3_url(
self.template_bucket_url, self.rel_path, self.stackname + ".yaml"
)
bucket_region = self.connection_manager.call(
"s3",
"get_bucket_location",
{"Bucket": bucket},
profile=self.profile,
region=self.region,
)["LocationConstraint"]
# If bucket is in us-east-1 AWS returns 'none' cause reasons grrr
if not bucket_region:
bucket_region = "us-east-1"
kwargs["TemplateURL"] = "https://{}.s3.{}.amazonaws.com/{}".format(
bucket, bucket_region, path
)
else:
kwargs["TemplateBody"] = self.cfn_template
return kwargs
def _log_pulumi(self, text):
text = re.sub(
r"pulumi:pulumi:Stack\s*{}-{}\s*".format(
self.parameters["Conglomerate"], self.stackname
),
"",
text,
)
if text and not text.isspace():
logger.info(" ".join([self.region, self.stackname, text]))
def _get_pulumi_stack(self, create=False):
if create:
pulumi_stack = pulumi.automation.create_or_select_stack(
stack_name=self.pulumi_stackname,
project_name=self.parameters["Conglomerate"],
program=self._pulumi_code.pulumi_program,
opts=self.pulumi_ws_opts,
)
pulumi_stack.workspace.install_plugin(
"aws", pkg_resources.get_distribution("pulumi_aws").version
)
else:
pulumi_stack = pulumi.automation.select_stack(
stack_name=self.pulumi_stackname,
project_name=self.parameters["Conglomerate"],
program=self._pulumi_code.pulumi_program,
opts=self.pulumi_ws_opts,
)
return pulumi_stack
def _set_pulumi_args(self, kwargs={}):
kwargs["on_output"] = self._log_pulumi
kwargs["policy_packs"] = []
kwargs["policy_pack_configs"] = []
# Try to find policies in each artifact location
if "policies" in self.pulumi:
for policy in self.pulumi["policies"]:
found = False
for artifacts_path in self.ctx["artifact_paths"]:
path = "{}/pulumi/policies/{}".format(
artifacts_path.resolve(), policy
)
if os.path.exists(path):
kwargs["policy_packs"].append(path)
found = True
if not found:
logger.error(f"Could not find policy implementation for {policy}!")
raise FileNotFoundError
try:
kwargs["policy_pack_configs"] = self.pulumi["policy_configs"]
except KeyError:
pass
return kwargs
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