PK!==tulips/__init__.pyfrom tulips.resource.deployment import Deployment # noqa: F401 from tulips.resource.ingress import Ingress # noqa: F401 from tulips.resource.issuer import Issuer # noqa: F401 from tulips.resource.persistentvolumeclaim import ( # noqa: F401 PersistentVolumeClaim ) from tulips.resource.secret import Secret # noqa: F401 from tulips.resource.service import Service # noqa: F401 from tulips.resource.statefullset import StatefulSet # noqa: F401 from tulips.resource.configmap import ConfigMap # noqa: F401 from tulips.resource.cronjob import CronJob # noqa: F401 PK!(tulips/__main__.pyimport click import structlog import yaml from kubernetes import client as k8s from kubernetes.client.rest import ApiException from .tulip import Tulip log = structlog.get_logger("tulip") __version__ = "0.0.3" @click.group() def cli(): pass @click.command( context_settings=dict(ignore_unknown_options=True, allow_extra_args=True), help=( "You can pass chart variables via foo=bar, " "for example '$ tulip push app.yaml foo=bar'" ), ) @click.argument("chart", type=click.Path(exists=True)) @click.option("--namespace", default="default", help="Kubernetes namespace") @click.option("--release", help="Name of the release") @click.option( "--kubeconfig", help="Path to kubernetes config", default="/home/dz0ny/.kube/config", type=click.Path(exists=True), ) @click.pass_context def push(ctx, chart, namespace, release, kubeconfig): options = { ".Release.Name": release, "namespace": namespace, "chart": chart, } for item in ctx.args: options.update([item.split("=")]) click.echo(options) client = Tulip(kubeconfig, namespace, options, chart) for resource in client.resources(): try: resource.create() log.info( "Created", name=resource.name, Resource=resource.__class__.__name__, ) except ApiException as e: log.error( "Failed creating", name=resource.name, Resource=chart.__class__.__name__, reason=e.reason, ) @click.command( context_settings=dict(ignore_unknown_options=True, allow_extra_args=True), help=( "You can pass chart variables via foo=bar, " "for example '$ tulip push app.yaml foo=bar'" ), ) @click.argument("chart", type=click.Path(exists=True)) @click.option("--namespace", default="default", help="Kubernetes namespace") @click.option("--release", help="Name of the release") @click.option( "--kubeconfig", help="Path to kubernetes config", default="/home/dz0ny/.kube/config", type=click.Path(exists=True), ) @click.pass_context def status(ctx, chart, namespace, release, kubeconfig): options = { ".Release.Name": release, "namespace": namespace, "chart": chart, } for item in ctx.args: options.update([item.split("=")]) client = Tulip(kubeconfig, namespace, options, chart) for resource in client.resources(): try: click.echo(resource.status().status) except ApiException as e: log.error( "Failed getting info", name=resource.name, Resource=chart.__class__.__name__, reason=e.reason, ) @click.command( context_settings=dict(ignore_unknown_options=True, allow_extra_args=True), help=( "You can pass chart variables via foo=bar, " "for example '$ tulip push app.yaml foo=bar'" ), ) @click.argument("chart", type=click.Path(exists=True)) @click.option("--namespace", default="default", help="Kubernetes namespace") @click.option("--release", help="Name of the release") @click.option( "--kubeconfig", help="Path to kubernetes config", default="/home/dz0ny/.kube/config", type=click.Path(exists=True), ) @click.pass_context def echo(ctx, chart, namespace, release, kubeconfig): options = { ".Release.Name": release, "namespace": namespace, "chart": chart, } for item in ctx.args: options.update([item.split("=")]) click.echo(options) client = Tulip(kubeconfig, namespace, options, chart) for resource in client.resources(): click.echo(yaml.dump(resource.resource)) @click.command( context_settings=dict(ignore_unknown_options=True, allow_extra_args=True), help=( "You can pass chart variables via foo=bar, " "for example '$ tulip rm app.yaml foo=bar'" ), ) @click.argument("chart", type=click.Path(exists=True)) @click.option("--namespace", default="default", help="Kubernetes namespace") @click.option("--release", help="Name of the release") @click.option( "--kubeconfig", help="Path to kubernetes config", type=click.Path(exists=True), ) @click.pass_context def rm(ctx, chart, namespace, release, kubeconfig): options = {"release": release, "namespace": namespace, "chart": chart} for item in ctx.args: options.update([item.split("=")]) click.echo(options) client = Tulip(kubeconfig, namespace, options, chart) delete = k8s.V1DeleteOptions( propagation_policy="Foreground", grace_period_seconds=5 ) for chart in client.resources(): try: chart.delete(body=delete) log.info( "Deleted", name=chart.name, Resource=chart.__class__.__name__ ) except ApiException as e: log.error( "Failed deleting", name=chart.name, Resource=chart.__class__.__name__, reason=e.reason, ) if __name__ == "__main__": cli.add_command(rm) cli.add_command(push) cli.add_command(echo) cli.add_command(status) cli() PK!9tulips/resource/__init__.pyimport abc from kubernetes import client as k8s import typing as t class UndefinedResource(Exception): """Resource was not defined error.""" def __init__(self, kind: str) -> None: self.str = kind Exception.__init__( self, f"{kind} is not yet defined[{ResourceRegistry.REGISTRY}]" ) class ResourceRegistry(type): REGISTRY: dict = {} def __new__(cls, name, bases, attrs): new_cls = type.__new__(cls, name, bases, attrs) cls.REGISTRY[new_cls.__name__] = new_cls return new_cls @classmethod def get_cls(cls, kind: str) -> t.Callable: """Get Class for provided kind. Args: kind (str): Name of the kind that implements Resource. Raises: UndefinedResource: Resource class for provided kind is not defined. Returns: t.Callable: [Resource] class that implements resource. """ kind_cls = cls.REGISTRY.get(kind) if not kind_cls: raise UndefinedResource(kind) return kind_cls class Resource(metaclass=ResourceRegistry): """Resource is interface that describes Kubernetes Resource defintion.""" resource: dict client: k8s.ApiClient namespace: str def __init__( self, client: k8s.ApiClient, namespace: str, resource: dict ) -> None: """Initializes resource or CRD. Args: client (k8s.ApiClient): Instance of the Kubernetes client. namespace (str): Namespace where Workload should be deployed. resource (dict): Kubernetes resource or CRD. """ self.client = client self.namespace = namespace self.resource = resource @abc.abstractmethod def create(self): """Create Resource.""" pass @abc.abstractmethod def delete(self, body: k8s.V1DeleteOptions): """Delete Resource.""" pass @abc.abstractmethod def status(self): """Info about Resource.""" pass @property def name(self): """Returns the class kind. Returns: [str]: Base name of the class and kind """ return self.resource["metadata"]["name"] PK![[tulips/resource/configmap.pyfrom kubernetes import client as k8s from . import Resource class ConfigMap(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.CoreV1Api(self.client).delete_namespaced_config_map( body=body, namespace=self.namespace, name=self.name ) def create(self): return k8s.CoreV1Api(self.client).create_namespaced_config_map( body=self.resource, namespace=self.namespace ) def status(self): return k8s.CoreV1Api(self.client).read_namespaced_config_map( name=self.name, namespace=self.namespace ) PK!jtulips/resource/cronjob.pyfrom kubernetes import client as k8s from kubernetes.client.models.v1beta1_cron_job import V1beta1CronJob from . import Resource class CronJob(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.BatchV1beta1Api(self.client).delete_namespaced_cron_job( body=body, namespace=self.namespace, name=self.name ) def create(self) -> V1beta1CronJob: return k8s.BatchV1beta1Api(self.client).create_namespaced_cron_job( body=self.resource, namespace=self.namespace ) def status(self) -> V1beta1CronJob: return k8s.BatchV1beta1Api( self.client ).read_namespaced_cron_job_status( name=self.name, namespace=self.namespace ) PK!ujeetulips/resource/deployment.pyfrom kubernetes import client as k8s from . import Resource class Deployment(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.AppsV1Api(self.client).delete_namespaced_deployment( body=body, namespace=self.namespace, name=self.name ) def create(self): return k8s.AppsV1Api(self.client).create_namespaced_deployment( body=self.resource, namespace=self.namespace ) def status(self): return k8s.AppsV1Api(self.client).read_namespaced_stateful_set_status( name=self.name, namespace=self.namespace ) PK!tulips/resource/ingress.pyfrom kubernetes import client as k8s from . import Resource class Ingress(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.ExtensionsV1beta1Api(self.client).delete_namespaced_ingress( body=body, namespace=self.namespace, name=self.name ) def create(self): return k8s.ExtensionsV1beta1Api(self.client).create_namespaced_ingress( body=self.resource, namespace=self.namespace ) def status(self): return k8s.ExtensionsV1beta1Api( self.client ).read_namespaced_ingress_status( name=self.name, namespace=self.namespace ) PK!#.sstulips/resource/issuer.pyfrom kubernetes import client as k8s from . import Resource class Issuer(Resource): """A `cert-manager` Issuer resource.""" version = "v1alpha1" group = "certmanager.k8s.io" plural = "issuers" def delete(self, body: k8s.V1DeleteOptions): return k8s.CustomObjectsApi( self.client ).delete_namespaced_custom_object( body=body, namespace=self.namespace, version=self.version, group=self.group, plural=self.plural, name=self.name, ) def create(self): return k8s.CustomObjectsApi( self.client ).create_namespaced_custom_object( body=self.resource, namespace=self.namespace, version=self.version, group=self.group, plural=self.plural, ) def status(self): return k8s.CustomObjectsApi(self.client).get_namespaced_custom_object( name=self.name, namespace=self.namespace, version=self.version, group=self.group, plural=self.plural, ) PK!x(tulips/resource/persistentvolumeclaim.pyfrom kubernetes import client as k8s from . import Resource class PersistentVolumeClaim(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.CoreV1Api( self.client ).delete_namespaced_persistent_volume_claim( body=body, namespace=self.namespace, name=self.name ) def create(self): return k8s.CoreV1Api( self.client ).create_namespaced_persistent_volume_claim( body=self.resource, namespace=self.namespace ) def status(self): return k8s.CoreV1Api( self.client ).read_namespaced_persistent_volume_claim_status( name=self.name, namespace=self.namespace ) PK!N*LLtulips/resource/secret.pyfrom kubernetes import client as k8s from . import Resource class Secret(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.CoreV1Api(self.client).delete_namespaced_secret( body=body, namespace=self.namespace, name=self.name ) def create(self): return k8s.CoreV1Api(self.client).create_namespaced_secret( body=self.resource, namespace=self.namespace ) def status(self): return k8s.CoreV1Api(self.client).read_namespaced_secret( name=self.name, namespace=self.namespace ) PK!6WWtulips/resource/service.pyfrom kubernetes import client as k8s from . import Resource class Service(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.CoreV1Api(self.client).delete_namespaced_service( body=body, namespace=self.namespace, name=self.name ) def create(self): return k8s.CoreV1Api(self.client).create_namespaced_service( body=self.resource, namespace=self.namespace ) def status(self): return k8s.CoreV1Api(self.client).read_namespaced_service_status( name=self.name, namespace=self.namespace ) PK!فtulips/resource/statefullset.pyfrom kubernetes import client as k8s from kubernetes.client.models.v1_stateful_set import V1StatefulSet from . import Resource class StatefulSet(Resource): def delete(self, body: k8s.V1DeleteOptions): return k8s.AppsV1Api(self.client).delete_namespaced_stateful_set( body=body, namespace=self.namespace, name=self.name ) def create(self) -> V1StatefulSet: return k8s.AppsV1Api(self.client).create_namespaced_stateful_set( body=self.resource, namespace=self.namespace ) def status(self) -> V1StatefulSet: return k8s.AppsV1Api(self.client).read_namespaced_stateful_set_status( name=self.name, namespace=self.namespace ) PK!uɉe tulips/tulip.py import base64 import re import typing as t from pathlib import Path import yaml from kubernetes import client as k8s from kubernetes import config from passlib import pwd from tulips.resource import Resource, ResourceRegistry class Tulip: def __init__( self, conf: str, namespace: str, meta: t.Dict, spec_path: str ) -> None: """Manages deployment. Args: conf (str): Path to Kubernetes config. namespace (str): Kubernetes namespace. meta (t.Dict): Spec variables. spec_path (str): Location of chart to deploy. """ self.meta = meta self.namespace = namespace self.spec_path = spec_path self.client: k8s.ApiClient = config.new_client_from_config(conf) def create_namespace(self) -> k8s.V1NamespaceStatus: """Create namespace. Returns: k8s.V1NamespaceStatus """ body = k8s.V1Namespace( metadata=k8s.V1ObjectMeta( name=self.namespace, labels={"store_id": self.namespace} ) ) return k8s.CoreV1Api(self.client).create_namespace(body) def delete_namespace(self) -> k8s.V1NamespaceStatus: """Delete namespace. Returns: k8s.V1NamespaceStatus """ body = k8s.V1DeleteOptions( propagation_policy="Foreground", grace_period_seconds=5 ) return k8s.CoreV1Api(self.client).delete_namespace( self.namespace, body ) def resources(self) -> t.Iterator[Resource]: """Deployment specification. Returns: t.Iterator[Resource]: Iterator over specifications """ pattern = re.compile(r"^(.*)<%=(?:\s+)?(\S*)(?:\s+)?=%>(.*)$") yaml.add_implicit_resolver("!meta", pattern) maps = {"@pwd": lambda: base64.b64encode(pwd.genword(length=24))} maps.update(self.meta) def meta_constructor(loader, node): value = loader.construct_scalar(node) start, name, end = pattern.match(value).groups() val = maps[name] if name.startswith("@"): val = val() return start + val + end yaml.add_constructor("!meta", meta_constructor) path = Path(self.spec_path).joinpath("templates") for f in path.glob("*.yaml"): # yaml parser trips at {{}} so we replace it with custom # constructor text = f.read_text().replace("{{", "<%=").replace("}}", "=%>") for spec in yaml.load_all(text): yield ResourceRegistry.get_cls(spec["kind"])( self.client, self.namespace, spec ) PK!H"6+-(tulips-1.1.17.dist-info/entry_points.txtN+I/N.,()*),V񹉙yz9\\PK!H_zTTtulips-1.1.17.dist-info/WHEEL A н#Z;/"d&F[xzw@Zpy3Fv]n0H*J>mlcAPK!Hc;Qq tulips-1.1.17.dist-info/METADATAWmo7bA]In8B|W"Kb-RZ-ɕ!zC g^y慯e9,~˵Y2ް6R& ,5ev?iV\ӪrX5)ę_om*y\%,ͨ_ [4i6`xezz#7opUZK&MTIn<\|<=}m2&#`F#Ma\ZyNp}$rR^jy-ѷo)GTJtdxbpdZOTe!&ZjSEѻW#d3lcw[X%&1?Sͪ(\XlMTDORɲ^R$BS/y?CN"v}ȉge;Hي^ngLZ@A$&xwO'3zaT٬[|l2AXqELJG}P=`S2dYϞY5 |?(Byl؂RɈl,lTҜ21x V#3!N.J9 ]s}׸ʡwW׷ӫ70y9%Fa?>ip0BJ]LrC|:!xZt'BoxG [&Rc3 …1l:H\cKk Ն ]PTCtU>(=QێXo}amJ (NY;:7]Z^aD]wN4ex҅U8'ĸٯ Z(q|d1yzփϹi6"$K4.aG8  9J˧e1C}hܖ6UX ߐakuY ؑ E8*WʮS/[A ~x[JP<~YAq DtS0dӶUe;}c]<2ܛt[Nh&NeG,]B"H6x0FK}]k^*Z6M<<7-(PK!H)Wtulips-1.1.17.dist-info/RECORDuǒH< $@@s!*|S}%6Btԡ埙 jg >atZd/q :X kZQTVr1~TC>rAD]ISfm39Mc,w!yEu l.JsIS-_(u!Vx}SiMT]Fԧ5u *hИXm<Ą+Szo"`w0]+uΩ-;G[ũOk Dyͩƾ|*䧁!& `$o51NڲFo(hL^ݥea66,;3`aKh]wnDXc1AokfWgS3mk*H!ϑ9sU=FeO>Qi56˨`A bt@6>4e_%Q'v3z&~[W½' Js b9}Y?6^a+iT5j1ft]`]oze'׽r30ˋG栈x"|Iwȗ!}r6N늺oP#&*-,-37Qu<޾2NPZ1]f~mY/S;H ![DwOVG&ݶ}-{u.ESr_DAy7|tu6ZV[% Kİ_PK!==tulips/__init__.pyPK!(mtulips/__main__.pyPK!9Ctulips/resource/__init__.pyPK![[8 tulips/resource/configmap.pyPK!j"tulips/resource/cronjob.pyPK!ujee%tulips/resource/deployment.pyPK!(tulips/resource/ingress.pyPK!#.ssV+tulips/resource/issuer.pyPK!x(0tulips/resource/persistentvolumeclaim.pyPK!N*LL3tulips/resource/secret.pyPK!6WW5tulips/resource/service.pyPK!ف/8tulips/resource/statefullset.pyPK!uɉe ;;tulips/tulip.pyPK!H"6+-(Ftulips-1.1.17.dist-info/entry_points.txtPK!H_zTTFtulips-1.1.17.dist-info/WHEELPK!Hc;Qq Gtulips-1.1.17.dist-info/METADATAPK!H)WNtulips-1.1.17.dist-info/RECORDPK%R