TrueCloudLab/frostfs-testlib
23
0
Fork 18
Code Issues Pull requests 2 Releases 1 Activity Actions 1

Compare commits

base: TrueCloudLab:master
Branches Tags
TrueCloudLab:master
TrueCloudLab:support/v0.39
TrueCloudLab:support/v0.40
TrueCloudLab:support/v0.38
TrueCloudLab:support/v0.37
TrueCloudLab:support/v0.36
mmalygina:hostconfig-add-hostname
mmalygina:OBJECT-4824-feauture
mmalygina:port-fill-percent-fix
mmalygina:stop-cm-before-wipe
mmalygina:stop-service-by-type
mmalygina:support-stop-cm-before-wipe-data1
mmalygina:stop-cm-before-wipe-data
mmalygina:master
mmalygina:OBJECT-5378-support-prepare-locally
mmalygina:support/v0.36
TrueCloudLab:v0.37
TrueCloudLab:v1.3.1
TrueCloudLab:v0.36
TrueCloudLab:v1.3.0
TrueCloudLab:v1.2.0
mmalygina:v1.3.1
mmalygina:v0.36
mmalygina:v1.3.0
mmalygina:v1.2.0
..
compare: mmalygina:OBJECT-4824-feauture
Branches Tags
mmalygina:hostconfig-add-hostname
mmalygina:OBJECT-4824-feauture
mmalygina:port-fill-percent-fix
mmalygina:stop-cm-before-wipe
mmalygina:stop-service-by-type
mmalygina:support-stop-cm-before-wipe-data1
mmalygina:stop-cm-before-wipe-data
mmalygina:master
mmalygina:OBJECT-5378-support-prepare-locally
mmalygina:support/v0.36
TrueCloudLab:master
TrueCloudLab:support/v0.39
TrueCloudLab:support/v0.40
TrueCloudLab:support/v0.38
TrueCloudLab:support/v0.37
TrueCloudLab:support/v0.36
mmalygina:v1.3.1
mmalygina:v0.36
mmalygina:v1.3.0
mmalygina:v1.2.0
TrueCloudLab:v0.37
TrueCloudLab:v1.3.1
TrueCloudLab:v0.36
TrueCloudLab:v1.3.0
TrueCloudLab:v1.2.0

1 commit
master ... OBJECT-482

Author SHA1 Message Date
m.malygina
226ea76223 add hostname 
Signed-off-by: m.malygina <m.malygina@yadro.com>
 2024-08-12 14:24:31 +03:00
28 changed files with 80 additions and 1810 deletions
Show stats Expand all files Collapse all files

1
.devenv.hosting.yaml
View file

@ -1,6 +1,5 @@
hosts:
- address: localhost
hostname: localhost
attributes:
sudo_shell: false
plugin_name: docker

2
src/frostfs_testlib/__init__.py
View file

@ -1,3 +1,3 @@
__version__ = "2.0.1"
from .fixtures import configure_testlib, hosting, temp_directory
from .fixtures import configure_testlib, hosting

126
src/frostfs_testlib/cli/frostfs_adm/morph.py
View file

@ -350,129 +350,3 @@ class FrostfsAdmMorph(CliCommand):
if param not in ["self", "node_netmap_keys"]
},
)
def add_rule(
self,
endpoint: str,
chain_id: str,
target_name: str,
target_type: str,
rule: Optional[list[str]] = None,
path: Optional[str] = None,
chain_id_hex: Optional[bool] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
timeout: Optional[str] = None,
) -> CommandResult:
"""Drop objects from the node's local storage
Args:
address: Address of wallet account
chain-id: Assign ID to the parsed chain
chain-id-hex: Flag to parse chain ID as hex
endpoint: Remote node control address (as 'multiaddr' or '<host>:<port>')
path: Path to encoded chain in JSON or binary format
rule: Rule statement
target-name: Resource name in APE resource name format
target-type: Resource type(container/namespace)
timeout: Timeout for an operation (default 15s)
wallet: Path to the wallet or binary key
Returns:
Command`s result.
"""
return self._execute(
"control add-rule",
**{param: value for param, value in locals().items() if param not in ["self"]},
)
def get_rule(
self,
endpoint: str,
chain_id: str,
target_name: str,
target_type: str,
chain_id_hex: Optional[bool] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
timeout: Optional[str] = None,
) -> CommandResult:
"""Drop objects from the node's local storage
Args:
address string Address of wallet account
chain-id string Chain id
chain-id-hex Flag to parse chain ID as hex
endpoint string Remote node control address (as 'multiaddr' or '<host>:<port>')
target-name string Resource name in APE resource name format
target-type string Resource type(container/namespace)
timeout duration Timeout for an operation (default 15s)
wallet string Path to the wallet or binary key
Returns:
Command`s result.
"""
return self._execute(
"control get-rule",
**{param: value for param, value in locals().items() if param not in ["self"]},
)
def list_rules(
self,
target_type: str,
target_name: Optional[str] = None,
rpc_endpoint: Optional[str] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
timeout: Optional[str] = None,
) -> CommandResult:
"""Drop objects from the node's local storage
Args:
address: Address of wallet account
endpoint: Remote node control address (as 'multiaddr' or '<host>:<port>')
target-name: Resource name in APE resource name format
target-type: Resource type(container/namespace)
timeout: Timeout for an operation (default 15s)
wallet: Path to the wallet or binary key
Returns:
Command`s result.
"""
return self._execute(
"morph ape list-rule-chains",
**{param: value for param, value in locals().items() if param not in ["self"]},
)
def remove_rule(
self,
endpoint: str,
chain_id: str,
target_name: str,
target_type: str,
all: Optional[bool] = None,
chain_id_hex: Optional[bool] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
timeout: Optional[str] = None,
) -> CommandResult:
"""Drop objects from the node's local storage
Args:
address: Address of wallet account
all: Remove all chains
chain-id: Assign ID to the parsed chain
chain-id-hex: Flag to parse chain ID as hex
endpoint: Remote node control address (as 'multiaddr' or '<host>:<port>')
target-name: Resource name in APE resource name format
target-type: Resource type(container/namespace)
timeout: Timeout for an operation (default 15s)
wallet: Path to the wallet or binary key
Returns:
Command`s result.
"""
return self._execute(
"control remove-rule",
**{param: value for param, value in locals().items() if param not in ["self"]},
)

20
src/frostfs_testlib/cli/frostfs_cli/container.py
View file

@ -16,8 +16,6 @@ class FrostfsCliContainer(CliCommand):
basic_acl: Optional[str] = None,
await_mode: bool = False,
disable_timestamp: bool = False,
force: bool = False,
trace: bool = False,
name: Optional[str] = None,
nonce: Optional[str] = None,
policy: Optional[str] = None,
@ -39,8 +37,6 @@ class FrostfsCliContainer(CliCommand):
basic_acl: Hex encoded basic ACL value or keywords like 'public-read-write',
'private', 'eacl-public-read' (default "private").
disable_timestamp: Disable timestamp container attribute.
force: Skip placement validity check.
trace: Generate trace ID and print it.
name: Container name attribute.
nonce: UUIDv4 nonce value for container.
policy: QL-encoded or JSON-encoded placement policy or path to file with it.
@ -73,7 +69,6 @@ class FrostfsCliContainer(CliCommand):
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
force: bool = False,
trace: bool = False,
) -> CommandResult:
"""
Delete an existing container.
@ -83,7 +78,6 @@ class FrostfsCliContainer(CliCommand):
address: Address of wallet account.
await_mode: Block execution until container is removed.
cid: Container ID.
trace: Generate trace ID and print it.
force: Do not check whether container contains locks and remove immediately.
rpc_endpoint: Remote node address (as 'multiaddr' or '<host>:<port>').
session: Path to a JSON-encoded container session token.
@ -110,7 +104,6 @@ class FrostfsCliContainer(CliCommand):
await_mode: bool = False,
to: Optional[str] = None,
json_mode: bool = False,
trace: bool = False,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
@ -123,7 +116,6 @@ class FrostfsCliContainer(CliCommand):
await_mode: Block execution until container is removed.
cid: Container ID.
json_mode: Print or dump container in JSON format.
trace: Generate trace ID and print it.
rpc_endpoint: Remote node address (as 'multiaddr' or '<host>:<port>').
to: Path to dump encoded container.
ttl: TTL value in request meta header (default 2).
@ -163,8 +155,6 @@ class FrostfsCliContainer(CliCommand):
cid: Container ID.
rpc_endpoint: Remote node address (as 'multiaddr' or '<host>:<port>').
to: Path to dump encoded container.
json_mode: Print or dump container in JSON format.
trace: Generate trace ID and print it.
session: Path to a JSON-encoded container session token.
ttl: TTL value in request meta header (default 2).
wallet: WIF (NEP-2) string or path to the wallet or binary key.
@ -184,7 +174,6 @@ class FrostfsCliContainer(CliCommand):
def list(
self,
rpc_endpoint: str,
name: Optional[str] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
@ -199,13 +188,11 @@ class FrostfsCliContainer(CliCommand):
Args:
address: Address of wallet account.
name: List containers by the attribute name.
owner: Owner of containers (omit to use owner from private key).
rpc_endpoint: Remote node address (as 'multiaddr' or '<host>:<port>').
ttl: TTL value in request meta header (default 2).
wallet: WIF (NEP-2) string or path to the wallet or binary key.
xhdr: Dict with request X-Headers.
trace: Generate trace ID and print it.
timeout: Timeout for the operation (default 15s).
generate_key: Generate a new private key.
@ -221,11 +208,9 @@ class FrostfsCliContainer(CliCommand):
self,
rpc_endpoint: str,
cid: str,
bearer: Optional[str] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
trace: bool = False,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
@ -236,12 +221,10 @@ class FrostfsCliContainer(CliCommand):
Args:
address: Address of wallet account.
cid: Container ID.
bearer: File with signed JSON or binary encoded bearer token.
rpc_endpoint: Remote node address (as 'multiaddr' or '<host>:<port>').
ttl: TTL value in request meta header (default 2).
wallet: WIF (NEP-2) string or path to the wallet or binary key.
xhdr: Dict with request X-Headers.
trace: Generate trace ID and print it.
timeout: Timeout for the operation (default 15s).
generate_key: Generate a new private key.
@ -253,7 +236,6 @@ class FrostfsCliContainer(CliCommand):
**{param: value for param, value in locals().items() if param not in ["self"]},
)
# TODO Deprecated method with 0.42
def set_eacl(
self,
rpc_endpoint: str,
@ -299,7 +281,6 @@ class FrostfsCliContainer(CliCommand):
address: Optional[str] = None,
ttl: Optional[int] = None,
from_file: Optional[str] = None,
trace: bool = False,
short: Optional[bool] = True,
xhdr: Optional[dict] = None,
generate_key: Optional[bool] = None,
@ -317,7 +298,6 @@ class FrostfsCliContainer(CliCommand):
from_file: string File path with encoded container
timeout: duration Timeout for the operation (default 15 s)
short: shorten the output of node information.
trace: Generate trace ID and print it.
xhdr: Dict with request X-Headers.
generate_key: Generate a new private key.

2
src/frostfs_testlib/cli/frostfs_cli/object.py
View file

@ -370,11 +370,11 @@ class FrostfsCliObject(CliCommand):
self,
rpc_endpoint: str,
cid: str,
oid: Optional[str] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
oid: Optional[str] = None,
trace: bool = False,
root: bool = False,
verify_presence_all: bool = False,

2
src/frostfs_testlib/cli/frostfs_cli/shards.py
View file

@ -40,7 +40,7 @@ class FrostfsCliShards(CliCommand):
self,
endpoint: str,
mode: str,
id: Optional[list[str]] = None,
id: Optional[list[str]],
wallet: Optional[str] = None,
wallet_password: Optional[str] = None,
address: Optional[str] = None,

12
src/frostfs_testlib/fixtures.py
View file

@ -7,7 +7,7 @@ import yaml
from frostfs_testlib import reporter
from frostfs_testlib.hosting.hosting import Hosting
from frostfs_testlib.resources.common import ASSETS_DIR, HOSTING_CONFIG_FILE
from frostfs_testlib.resources.common import HOSTING_CONFIG_FILE
from frostfs_testlib.storage import get_service_registry
@ -24,16 +24,6 @@ def configure_testlib():
registry.register_service(svc.name, svc.load())
@pytest.fixture(scope="session")
def temp_directory(configure_testlib):
with reporter.step("Prepare tmp directory"):
full_path = ASSETS_DIR
if not os.path.exists(full_path):
os.mkdir(full_path)
return full_path
@pytest.fixture(scope="session")
def hosting(configure_testlib) -> Hosting:
with open(HOSTING_CONFIG_FILE, "r") as file:

8
src/frostfs_testlib/hosting/docker_host.py
View file

@ -185,12 +185,6 @@ class DockerHost(Host):
def is_file_exist(self, file_path: str) -> None:
raise NotImplementedError("Not implemented for docker")
def wipefs_storage_node_data(self, service_name: str) -> None:
raise NotImplementedError("Not implemented for docker")
def finish_wipefs(self, service_name: str) -> None:
raise NotImplementedError("Not implemented for docker")
def delete_storage_node_data(self, service_name: str, cache_only: bool = False) -> None:
volume_path = self.get_data_directory(service_name)
@ -246,7 +240,7 @@ class DockerHost(Host):
until: Optional[datetime] = None,
unit: Optional[str] = None,
exclude_filter: Optional[str] = None,
priority: Optional[str] = None,
priority: Optional[str] = None
) -> str:
client = self._get_docker_client()
filtered_logs = ""

17
src/frostfs_testlib/hosting/interfaces.py
View file

@ -178,21 +178,6 @@ class Host(ABC):
cache_only: To delete cache only.
"""
@abstractmethod
def wipefs_storage_node_data(self, service_name: str) -> None:
"""Erases all data of the storage node with specified name.
Args:
service_name: Name of storage node service.
"""
def finish_wipefs(self, service_name: str) -> None:
"""Erases all data of the storage node with specified name.
Args:
service_name: Name of storage node service.
"""
@abstractmethod
def delete_fstree(self, service_name: str) -> None:
"""
@ -312,7 +297,7 @@ class Host(ABC):
until: Optional[datetime] = None,
unit: Optional[str] = None,
exclude_filter: Optional[str] = None,
priority: Optional[str] = None,
priority: Optional[str] = None
) -> str:
"""Get logs from host filtered by regex.

2
src/frostfs_testlib/resources/common.py
View file

@ -51,5 +51,3 @@ CREDENTIALS_CREATE_TIMEOUT = "1m"
HOSTING_CONFIG_FILE = os.getenv(
"HOSTING_CONFIG_FILE", os.path.abspath(os.path.join(os.path.dirname(__file__), "..", "..", "..", ".devenv.hosting.yaml"))
)
MORE_LOG = os.getenv("MORE_LOG", "1")

1
src/frostfs_testlib/resources/error_patterns.py
View file

@ -29,4 +29,3 @@ S3_MALFORMED_XML_REQUEST = "The XML you provided was not well-formed or did not
RULE_ACCESS_DENIED_CONTAINER = "access to container operation {operation} is denied by access policy engine: Access denied"
RULE_ACCESS_DENIED_OBJECT = "access to object operation denied: ape denied request: method {operation}: Access denied"
NO_RULE_FOUND_CONTAINER = "access to container operation {operation} is denied by access policy engine: NoRuleFound"
NO_RULE_FOUND_OBJECT = "access to object operation denied: ape denied request: method {operation}: NoRuleFound"

5
src/frostfs_testlib/shell/local_shell.py
View file

@ -1,18 +1,15 @@
import logging
import subprocess
import tempfile
from contextlib import nullcontext
from datetime import datetime
from typing import IO, Optional
import pexpect
from frostfs_testlib import reporter
from frostfs_testlib.resources.common import MORE_LOG
from frostfs_testlib.shell.interfaces import CommandInspector, CommandOptions, CommandResult, Shell
logger = logging.getLogger("frostfs.testlib.shell")
step_context = reporter.step if MORE_LOG == "1" else nullcontext
class LocalShell(Shell):
@ -31,7 +28,7 @@ class LocalShell(Shell):
for inspector in [*self.command_inspectors, *extra_inspectors]:
command = inspector.inspect(original_command, command)
with step_context(f"Executing command: {command}"):
with reporter.step(f"Executing command: {command}"):
if options.interactive_inputs:
return self._exec_interactive(command, options)
return self._exec_non_interactive(command, options)

7
src/frostfs_testlib/steps/cli/container.py
View file

@ -327,6 +327,13 @@ def _parse_cid(output: str) -> str:
return splitted[1]
@reporter.step("Search container by name")
def search_container_by_name(name: str, node: ClusterNode):
resolver_cls = load_plugin("frostfs.testlib.bucket_cid_resolver", node.host.config.product)
resolver: BucketContainerResolver = resolver_cls()
return resolver.resolve(node, name)
@reporter.step("Search for nodes with a container")
def search_nodes_with_container(
wallet: WalletInfo,

9
src/frostfs_testlib/steps/cli/object.py
View file

@ -15,7 +15,7 @@ from frostfs_testlib.storage.cluster import Cluster, ClusterNode
from frostfs_testlib.storage.dataclasses.wallet import WalletInfo
from frostfs_testlib.testing import wait_for_success
from frostfs_testlib.utils import json_utils
from frostfs_testlib.utils.cli_utils import parse_netmap_output
from frostfs_testlib.utils.cli_utils import parse_cmd_table, parse_netmap_output
from frostfs_testlib.utils.file_utils import TestFile
logger = logging.getLogger("NeoLogger")
@ -623,20 +623,25 @@ def head_object(
# If response is Complex Object header, it has `splitId` key
if "splitId" in decoded.keys():
logger.info("decoding split header")
return json_utils.decode_split_header(decoded)
# If response is Last or Linking Object header,
# it has `header` dictionary and non-null `split` dictionary
if "split" in decoded["header"].keys():
if decoded["header"]["split"]:
logger.info("decoding linking object")
return json_utils.decode_linking_object(decoded)
if decoded["header"]["objectType"] == "STORAGE_GROUP":
logger.info("decoding storage group")
return json_utils.decode_storage_group(decoded)
if decoded["header"]["objectType"] == "TOMBSTONE":
logger.info("decoding tombstone")
return json_utils.decode_tombstone(decoded)
logger.info("decoding simple header")
return json_utils.decode_simple_header(decoded)
@ -690,13 +695,11 @@ def neo_go_query_height(shell: Shell, endpoint: str) -> dict:
latest_block = first_line.split(":")
# taking second line from command's output contain wallet key
second_line = output.split("\n")[1]
if second_line != "":
validated_state = second_line.split(":")
return {
latest_block[0].replace(":", ""): int(latest_block[1]),
validated_state[0].replace(":", ""): int(validated_state[1]),
}
return {latest_block[0].replace(":", ""): int(latest_block[1])}
@wait_for_success()

40
src/frostfs_testlib/steps/node_management.py
View file

@ -13,7 +13,6 @@ from frostfs_testlib.resources.common import MORPH_BLOCK_TIME
from frostfs_testlib.shell import Shell
from frostfs_testlib.steps.epoch import tick_epoch, wait_for_epochs_align
from frostfs_testlib.storage.cluster import Cluster, StorageNode
from frostfs_testlib.testing.test_control import wait_for_success
from frostfs_testlib.utils import datetime_utils
logger = logging.getLogger("NeoLogger")
@ -112,7 +111,10 @@ def get_netmap_snapshot(node: StorageNode, shell: Shell) -> str:
storage_wallet_path = node.get_wallet_path()
cli = FrostfsCli(shell, FROSTFS_CLI_EXEC, config_file=storage_wallet_config)
return cli.netmap.snapshot(rpc_endpoint=node.get_rpc_endpoint(), wallet=storage_wallet_path).stdout
return cli.netmap.snapshot(
rpc_endpoint=node.get_rpc_endpoint(),
wallet=storage_wallet_path,
).stdout
@reporter.step("Get shard list for {node}")
@ -200,7 +202,12 @@ def delete_node_data(node: StorageNode) -> None:
@reporter.step("Exclude node {node_to_exclude} from network map")
def exclude_node_from_network_map(node_to_exclude: StorageNode, alive_node: StorageNode, shell: Shell, cluster: Cluster) -> None:
def exclude_node_from_network_map(
node_to_exclude: StorageNode,
alive_node: StorageNode,
shell: Shell,
cluster: Cluster,
) -> None:
node_netmap_key = node_to_exclude.get_wallet_public_key()
storage_node_set_status(node_to_exclude, status="offline")
@ -214,7 +221,12 @@ def exclude_node_from_network_map(node_to_exclude: StorageNode, alive_node: Stor
@reporter.step("Include node {node_to_include} into network map")
def include_node_to_network_map(node_to_include: StorageNode, alive_node: StorageNode, shell: Shell, cluster: Cluster) -> None:
def include_node_to_network_map(
node_to_include: StorageNode,
alive_node: StorageNode,
shell: Shell,
cluster: Cluster,
) -> None:
storage_node_set_status(node_to_include, status="online")
# Per suggestion of @fyrchik we need to wait for 2 blocks after we set status and after tick epoch.
@ -224,7 +236,7 @@ def include_node_to_network_map(node_to_include: StorageNode, alive_node: Storag
tick_epoch(shell, cluster)
time.sleep(datetime_utils.parse_time(MORPH_BLOCK_TIME) * 2)
await_node_in_map(node_to_include, shell, alive_node)
check_node_in_map(node_to_include, shell, alive_node)
@reporter.step("Check node {node} in network map")
@ -238,11 +250,6 @@ def check_node_in_map(node: StorageNode, shell: Shell, alive_node: Optional[Stor
assert node_netmap_key in snapshot, f"Expected node with key {node_netmap_key} to be in network map"
@wait_for_success(300, 15, title="Await node {node} in network map")
def await_node_in_map(node: StorageNode, shell: Shell, alive_node: Optional[StorageNode] = None) -> None:
check_node_in_map(node, shell, alive_node)
@reporter.step("Check node {node} NOT in network map")
def check_node_not_in_map(node: StorageNode, shell: Shell, alive_node: Optional[StorageNode] = None) -> None:
alive_node = alive_node or node
@ -269,7 +276,12 @@ def wait_for_node_to_be_ready(node: StorageNode) -> None:
@reporter.step("Remove nodes from network map trough cli-adm morph command")
def remove_nodes_from_map_morph(shell: Shell, cluster: Cluster, remove_nodes: list[StorageNode], alive_node: Optional[StorageNode] = None):
def remove_nodes_from_map_morph(
shell: Shell,
cluster: Cluster,
remove_nodes: list[StorageNode],
alive_node: Optional[StorageNode] = None,
):
"""
Move node to the Offline state in the candidates list and tick an epoch to update the netmap
using frostfs-adm
@ -288,5 +300,9 @@ def remove_nodes_from_map_morph(shell: Shell, cluster: Cluster, remove_nodes: li
if FROSTFS_ADM_EXEC and FROSTFS_ADM_CONFIG_PATH:
# If frostfs-adm is available, then we tick epoch with it (to be consistent with UAT tests)
frostfsadm = FrostfsAdm(shell=remote_shell, frostfs_adm_exec_path=FROSTFS_ADM_EXEC, config_file=FROSTFS_ADM_CONFIG_PATH)
frostfsadm = FrostfsAdm(
shell=remote_shell,
frostfs_adm_exec_path=FROSTFS_ADM_EXEC,
config_file=FROSTFS_ADM_CONFIG_PATH,
)
frostfsadm.morph.remove_nodes(node_netmap_keys)

6
src/frostfs_testlib/steps/s3/s3_helper.py
View file

@ -7,9 +7,8 @@ from dateutil.parser import parse
from frostfs_testlib import reporter
from frostfs_testlib.s3 import S3ClientWrapper, VersioningStatus
from frostfs_testlib.s3.interfaces import BucketContainerResolver
from frostfs_testlib.shell import Shell
from frostfs_testlib.steps.cli.container import search_nodes_with_container
from frostfs_testlib.steps.cli.container import search_container_by_name, search_nodes_with_container
from frostfs_testlib.storage.cluster import Cluster, ClusterNode
from frostfs_testlib.storage.dataclasses.wallet import WalletInfo
@ -176,11 +175,10 @@ def search_nodes_with_bucket(
wallet: WalletInfo,
shell: Shell,
endpoint: str,
bucket_container_resolver: BucketContainerResolver,
) -> list[ClusterNode]:
cid = None
for cluster_node in cluster.cluster_nodes:
cid = bucket_container_resolver.resolve(cluster_node, bucket_name)
cid = search_container_by_name(name=bucket_name, node=cluster_node)
if cid:
break
nodes_list = search_nodes_with_container(wallet=wallet, cid=cid, shell=shell, endpoint=endpoint, cluster=cluster)

8
src/frostfs_testlib/storage/constants.py
View file

@ -12,15 +12,7 @@ class ConfigAttributes:
REMOTE_WALLET_CONFIG = "remote_wallet_config_path"
ENDPOINT_DATA_0 = "endpoint_data0"
ENDPOINT_DATA_1 = "endpoint_data1"
ENDPOINT_DATA_0_NS = "endpoint_data0_namespace"
ENDPOINT_INTERNAL = "endpoint_internal0"
ENDPOINT_PROMETHEUS = "endpoint_prometheus"
CONTROL_ENDPOINT = "control_endpoint"
UN_LOCODE = "un_locode"
class PlacementRule:
DEFAULT_PLACEMENT_RULE = "REP 2 IN X CBF 1 SELECT 4 FROM * AS X"
SINGLE_PLACEMENT_RULE = "REP 1 IN X CBF 1 SELECT 4 FROM * AS X"
REP_2_FOR_3_NODES_PLACEMENT_RULE = "REP 2 IN X CBF 1 SELECT 3 FROM * AS X"
DEFAULT_EC_PLACEMENT_RULE = "EC 3.1"

51
src/frostfs_testlib/storage/controllers/cluster_state_controller.py
View file

@ -14,7 +14,6 @@ from frostfs_testlib.resources.cli import FROSTFS_ADM_CONFIG_PATH, FROSTFS_ADM_E
from frostfs_testlib.resources.common import MORPH_BLOCK_TIME
from frostfs_testlib.shell import CommandOptions, Shell, SshConnectionProvider
from frostfs_testlib.steps.network import IpHelper
from frostfs_testlib.steps.node_management import include_node_to_network_map, remove_nodes_from_map_morph
from frostfs_testlib.storage.cluster import Cluster, ClusterNode, S3Gate, StorageNode
from frostfs_testlib.storage.controllers.disk_controller import DiskController
from frostfs_testlib.storage.dataclasses.node_base import NodeBase, ServiceClass
@ -40,7 +39,6 @@ class ClusterStateController:
self.stopped_nodes: list[ClusterNode] = []
self.detached_disks: dict[str, DiskController] = {}
self.dropped_traffic: list[ClusterNode] = []
self.excluded_from_netmap: list[StorageNode] = []
self.stopped_services: set[NodeBase] = set()
self.cluster = cluster
self.healthcheck = healthcheck
@ -309,17 +307,24 @@ class ClusterStateController:
self.suspended_services = {}
@reporter.step("Drop traffic to {node}, nodes - {block_nodes}")
def drop_traffic(self, node: ClusterNode, wakeup_timeout: int, name_interface: str, block_nodes: list[ClusterNode] = None) -> None:
def drop_traffic(
self,
node: ClusterNode,
wakeup_timeout: int,
name_interface: str,
block_nodes: list[ClusterNode] = None,
) -> None:
list_ip = self._parse_interfaces(block_nodes, name_interface)
IpHelper.drop_input_traffic_to_node(node, list_ip)
time.sleep(wakeup_timeout)
self.dropped_traffic.append(node)
@reporter.step("Start traffic to {node}")
def restore_traffic(self, node: ClusterNode) -> None:
def restore_traffic(
self,
node: ClusterNode,
) -> None:
IpHelper.restore_input_traffic_to_node(node=node)
index = self.dropped_traffic.index(node)
self.dropped_traffic.pop(index)
@reporter.step("Restore blocked nodes")
def restore_all_traffic(self):
@ -403,7 +408,9 @@ class ClusterStateController:
@reporter.step("Set MaintenanceModeAllowed - {status}")
def set_maintenance_mode_allowed(self, status: str, cluster_node: ClusterNode) -> None:
frostfs_adm = FrostfsAdm(
shell=cluster_node.host.get_shell(), frostfs_adm_exec_path=FROSTFS_ADM_EXEC, config_file=FROSTFS_ADM_CONFIG_PATH
shell=cluster_node.host.get_shell(),
frostfs_adm_exec_path=FROSTFS_ADM_EXEC,
config_file=FROSTFS_ADM_CONFIG_PATH,
)
frostfs_adm.morph.set_config(set_key_value=f"MaintenanceModeAllowed={status}")
@ -444,25 +451,6 @@ class ClusterStateController:
else:
assert netmap[0].node_status == status, f"Node status should be '{status}', but was '{netmap[0].node_status}'"
def remove_node_from_netmap(self, removes_nodes: list[StorageNode]) -> None:
alive_storage = list(set(self.cluster.storage_nodes) - set(removes_nodes))[0]
remove_nodes_from_map_morph(self.shell, self.cluster, removes_nodes, alive_storage)
self.excluded_from_netmap.extend(removes_nodes)
def include_node_to_netmap(self, include_node: StorageNode, alive_node: StorageNode):
include_node_to_network_map(include_node, alive_node, self.shell, self.cluster)
self.excluded_from_netmap.pop(self.excluded_from_netmap.index(include_node))
def include_all_excluded_nodes(self):
if not self.excluded_from_netmap:
return
alive_node = list(set(self.cluster.storage_nodes) - set(self.excluded_from_netmap))[0]
if not alive_node:
return
for exclude_node in self.excluded_from_netmap.copy():
self.include_node_to_netmap(exclude_node, alive_node)
def _get_cli(
self, local_shell: Shell, local_wallet: WalletInfo, cluster_node: ClusterNode
) -> tuple[FrostfsAdm, FrostfsCli, FrostfsCli]:
@ -479,7 +467,11 @@ class ClusterStateController:
frostfs_adm = FrostfsAdm(shell=shell, frostfs_adm_exec_path=FROSTFS_ADM_EXEC, config_file=FROSTFS_ADM_CONFIG_PATH)
frostfs_cli = FrostfsCli(local_shell, FROSTFS_CLI_EXEC, local_wallet.config_path)
frostfs_cli_remote = FrostfsCli(shell=shell, frostfs_cli_exec_path=FROSTFS_CLI_EXEC, config_file=wallet_config_path)
frostfs_cli_remote = FrostfsCli(
shell=shell,
frostfs_cli_exec_path=FROSTFS_CLI_EXEC,
config_file=wallet_config_path,
)
return frostfs_adm, frostfs_cli, frostfs_cli_remote
def _enable_date_synchronizer(self, cluster_node: ClusterNode):
@ -542,5 +534,8 @@ class ClusterStateController:
@reporter.step("Get contract by domain - {domain_name}")
def get_domain_contracts(self, cluster_node: ClusterNode, domain_name: str):
frostfs_adm = FrostfsAdm(shell=cluster_node.host.get_shell(), frostfs_adm_exec_path=FROSTFS_ADM_EXEC)
frostfs_adm = FrostfsAdm(
shell=cluster_node.host.get_shell(),
frostfs_adm_exec_path=FROSTFS_ADM_EXEC,
)
return frostfs_adm.morph.dump_hashes(cluster_node.morph_chain.get_http_endpoint(), domain_name).stdout

10
src/frostfs_testlib/storage/dataclasses/ape.py
View file

@ -47,8 +47,6 @@ class ConditionType(HumanReadableEnum):
class ConditionKey(HumanReadableEnum):
ROLE = '"\\$Actor:role"'
PUBLIC_KEY = '"\\$Actor:publicKey"'
OBJECT_TYPE = '"\\$Object:objectType"'
OBJECT_ID = '"\\$Object:objectID"'
class MatchType(HumanReadableEnum):
@ -77,14 +75,6 @@ class Condition:
def by_key(*args, **kwargs) -> "Condition":
return Condition(ConditionKey.PUBLIC_KEY, *args, **kwargs)
@staticmethod
def by_object_type(*args, **kwargs) -> "Condition":
return Condition(ConditionKey.OBJECT_TYPE, *args, **kwargs)
@staticmethod
def by_object_id(*args, **kwargs) -> "Condition":
return Condition(ConditionKey.OBJECT_ID, *args, **kwargs)
class Rule:
def __init__(

6
src/frostfs_testlib/storage/dataclasses/frostfs_services.py
View file

@ -39,18 +39,12 @@ class S3Gate(NodeBase):
def get_endpoint(self) -> str:
return self._get_attribute(ConfigAttributes.ENDPOINT_DATA_0)
def get_ns_endpoint(self, ns_name: str) -> str:
return self._get_attribute(f"{ConfigAttributes.ENDPOINT_DATA_0}_namespace").format(namespace=ns_name)
def get_all_endpoints(self) -> list[str]:
return [
self._get_attribute(ConfigAttributes.ENDPOINT_DATA_0),
self._get_attribute(ConfigAttributes.ENDPOINT_DATA_1),
]
def get_ns_endpoint(self, ns_name: str) -> str:
return self._get_attribute(ConfigAttributes.ENDPOINT_DATA_0_NS).format(namespace=ns_name)
def service_healthcheck(self) -> bool:
health_metric = "frostfs_s3_gw_state_health"
output = self.host.get_shell().exec(f"curl -s localhost:8086 | grep {health_metric} | sed 1,2d").stdout

16
src/frostfs_testlib/storage/dataclasses/storage_object_info.py
View file

@ -77,19 +77,3 @@ class NodeNetInfo:
maintenance_mode_allowed: str = None
eigen_trust_alpha: str = None
eigen_trust_iterations: str = None
@dataclass
class Chunk:
def __init__(self, object_id: str, required_nodes: list, confirmed_nodes: list, ec_parent_object_id: str, ec_index: int) -> None:
self.object_id = object_id
self.required_nodes = required_nodes
self.confirmed_nodes = confirmed_nodes
self.ec_parent_object_id = ec_parent_object_id
self.ec_index = ec_index
def __str__(self) -> str:
return self.object_id
def __repr__(self) -> str:
return self.object_id

0
src/frostfs_testlib/storage/grpc_operations/__init__.py
View file

14
src/frostfs_testlib/storage/grpc_operations/client_wrappers.py
View file

@ -1,14 +0,0 @@
from frostfs_testlib.cli.frostfs_cli.cli import FrostfsCli
from frostfs_testlib.storage.grpc_operations import interfaces
from frostfs_testlib.storage.grpc_operations.implementations import container, object
class CliClientWrapper(interfaces.GrpcClientWrapper):
def __init__(self, cli: FrostfsCli) -> None:
self.cli = cli
self.object: interfaces.ObjectInterface = object.ObjectOperations(self.cli)
self.container: interfaces.ContainerInterface = container.ContainerOperations(self.cli)
class RpcClientWrapper(interfaces.GrpcClientWrapper):
pass # The next series

0
src/frostfs_testlib/storage/grpc_operations/implementations/__init__.py
View file

165
src/frostfs_testlib/storage/grpc_operations/implementations/chunks.py
View file

@ -1,165 +0,0 @@
import json
from typing import Optional
from frostfs_testlib import reporter
from frostfs_testlib.cli.frostfs_cli.cli import FrostfsCli
from frostfs_testlib.resources.cli import CLI_DEFAULT_TIMEOUT
from frostfs_testlib.storage.cluster import Cluster, ClusterNode
from frostfs_testlib.storage.controllers.shards_watcher import ShardsWatcher
from frostfs_testlib.storage.dataclasses.storage_object_info import Chunk, NodeNetmapInfo
from frostfs_testlib.storage.grpc_operations import interfaces
from frostfs_testlib.testing.test_control import wait_for_success
from frostfs_testlib.utils.cli_utils import parse_netmap_output
class ChunksOperations(interfaces.ChunksInterface):
def __init__(self, cli: FrostfsCli) -> None:
self.cli = cli
@reporter.step("Search node without chunks")
def search_node_without_chunks(self, chunks: list[Chunk], cluster: Cluster, endpoint: str = None) -> list[ClusterNode]:
if not endpoint:
endpoint = cluster.default_rpc_endpoint
netmap = parse_netmap_output(self.cli.netmap.snapshot(endpoint, timeout=CLI_DEFAULT_TIMEOUT).stdout)
chunks_node_key = []
for chunk in chunks:
chunks_node_key.extend(chunk.confirmed_nodes)
for node_info in netmap.copy():
if node_info.node_id in chunks_node_key and node_info in netmap:
netmap.remove(node_info)
result = []
for node_info in netmap:
for cluster_node in cluster.cluster_nodes:
if node_info.node == cluster_node.host_ip:
result.append(cluster_node)
return result
@reporter.step("Search node with chunk {chunk}")
def get_chunk_node(self, cluster: Cluster, chunk: Chunk) -> tuple[ClusterNode, NodeNetmapInfo]:
netmap = parse_netmap_output(self.cli.netmap.snapshot(cluster.default_rpc_endpoint, timeout=CLI_DEFAULT_TIMEOUT).stdout)
for node_info in netmap:
if node_info.node_id in chunk.confirmed_nodes:
for cluster_node in cluster.cluster_nodes:
if cluster_node.host_ip == node_info.node:
return (cluster_node, node_info)
@wait_for_success(300, 5, fail_testcase=None)
@reporter.step("Search shard with chunk {chunk}")
def get_shard_chunk(self, node: ClusterNode, chunk: Chunk) -> str:
oid_path = f"{chunk.object_id[0]}/{chunk.object_id[1]}/{chunk.object_id[2]}/{chunk.object_id[3]}"
node_shell = node.storage_node.host.get_shell()
shards_watcher = ShardsWatcher(node)
with reporter.step("Search object file"):
for shard_id, shard_info in shards_watcher.shards_snapshots[-1].items():
check_dir = node_shell.exec(f" [ -d {shard_info['blobstor'][1]['path']}/{oid_path} ] && echo 1 || echo 0").stdout
if "1" in check_dir.strip():
return shard_id
@reporter.step("Get all chunks")
def get_all(
self,
rpc_endpoint: str,
cid: str,
oid: str,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
trace: bool = True,
root: bool = False,
verify_presence_all: bool = False,
json: bool = True,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> list[Chunk]:
object_nodes = self.cli.object.nodes(
rpc_endpoint=rpc_endpoint,
cid=cid,
address=address,
bearer=bearer,
generate_key=generate_key,
oid=oid,
trace=trace,
root=root,
verify_presence_all=verify_presence_all,
json=json,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
)
return self._parse_object_nodes(object_nodes.stdout.split("\n")[0])
@reporter.step("Get last parity chunk")
def get_parity(
self,
rpc_endpoint: str,
cid: str,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
oid: Optional[str] = None,
trace: bool = True,
root: bool = False,
verify_presence_all: bool = False,
json: bool = True,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> Chunk:
object_nodes = self.cli.object.nodes(
rpc_endpoint=rpc_endpoint,
cid=cid,
address=address,
bearer=bearer,
generate_key=generate_key,
oid=oid,
trace=trace,
root=root,
verify_presence_all=verify_presence_all,
json=json,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
)
return self._parse_object_nodes(object_nodes.stdout.split("\n")[0])[-1]
@reporter.step("Get first data chunk")
def get_first_data(
self,
rpc_endpoint: str,
cid: str,
oid: Optional[str] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
trace: bool = True,
root: bool = False,
verify_presence_all: bool = False,
json: bool = True,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> Chunk:
object_nodes = self.cli.object.nodes(
rpc_endpoint=rpc_endpoint,
cid=cid,
address=address,
bearer=bearer,
generate_key=generate_key,
oid=oid,
trace=trace,
root=root,
verify_presence_all=verify_presence_all,
json=json,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
)
return self._parse_object_nodes(object_nodes.stdout.split("\n")[0])[0]
def _parse_object_nodes(self, object_nodes: str) -> list[Chunk]:
parse_result = json.loads(object_nodes)
if parse_result.get("errors"):
raise parse_result["errors"]
return [Chunk(**chunk) for chunk in parse_result["data_objects"]]

330
src/frostfs_testlib/storage/grpc_operations/implementations/container.py
View file

@ -1,330 +0,0 @@
import json
import logging
import re
from typing import List, Optional, Union
from frostfs_testlib import reporter
from frostfs_testlib.cli.frostfs_cli.cli import FrostfsCli
from frostfs_testlib.plugins import load_plugin
from frostfs_testlib.resources.cli import CLI_DEFAULT_TIMEOUT
from frostfs_testlib.s3.interfaces import BucketContainerResolver
from frostfs_testlib.storage.cluster import Cluster, ClusterNode
from frostfs_testlib.storage.grpc_operations import interfaces
from frostfs_testlib.utils import json_utils
logger = logging.getLogger("NeoLogger")
class ContainerOperations(interfaces.ContainerInterface):
def __init__(self, cli: FrostfsCli) -> None:
self.cli = cli
@reporter.step("Create Container")
def create(
self,
endpoint: str,
nns_zone: Optional[str] = None,
nns_name: Optional[str] = None,
address: Optional[str] = None,
attributes: Optional[dict] = None,
basic_acl: Optional[str] = None,
await_mode: bool = False,
disable_timestamp: bool = False,
force: bool = False,
trace: bool = False,
name: Optional[str] = None,
nonce: Optional[str] = None,
policy: Optional[str] = None,
session: Optional[str] = None,
subnet: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
A wrapper for `frostfs-cli container create` call.
Args:
wallet (WalletInfo): a wallet on whose behalf a container is created
rule (optional, str): placement rule for container
basic_acl (optional, str): an ACL for container, will be
appended to `--basic-acl` key
attributes (optional, dict): container attributes , will be
appended to `--attributes` key
session_token (optional, str): a path to session token file
session_wallet(optional, str): a path to the wallet which signed
the session token; this parameter makes sense
when paired with `session_token`
shell: executor for cli command
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
options (optional, dict): any other options to pass to the call
name (optional, str): container name attribute
await_mode (bool): block execution until container is persisted
wait_for_creation (): Wait for container shows in container list
timeout: Timeout for the operation.
Returns:
(str): CID of the created container
"""
result = self.cli.container.create(
rpc_endpoint=endpoint,
policy=policy,
nns_zone=nns_zone,
nns_name=nns_name,
address=address,
attributes=attributes,
basic_acl=basic_acl,
await_mode=await_mode,
disable_timestamp=disable_timestamp,
force=force,
trace=trace,
name=name,
nonce=nonce,
session=session,
subnet=subnet,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
)
cid = self._parse_cid(result.stdout)
logger.info("Container created; waiting until it is persisted in the sidechain")
return cid
@reporter.step("List Containers")
def list(
self,
endpoint: str,
name: Optional[str] = None,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
owner: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
**params,
) -> List[str]:
"""
A wrapper for `frostfs-cli container list` call. It returns all the
available containers for the given wallet.
Args:
shell: executor for cli command
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
timeout: Timeout for the operation.
Returns:
(list): list of containers
"""
result = self.cli.container.list(
rpc_endpoint=endpoint,
name=name,
address=address,
generate_key=generate_key,
owner=owner,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
**params,
)
return result.stdout.split()
@reporter.step("List Objects in container")
def list_objects(
self,
endpoint: str,
cid: str,
bearer: Optional[str] = None,
wallet: Optional[str] = None,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
trace: bool = False,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> List[str]:
"""
A wrapper for `frostfs-cli container list-objects` call. It returns all the
available objects in container.
Args:
container_id: cid of container
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
timeout: Timeout for the operation.
Returns:
(list): list of containers
"""
result = self.cli.container.list_objects(
rpc_endpoint=endpoint,
cid=cid,
bearer=bearer,
wallet=wallet,
address=address,
generate_key=generate_key,
trace=trace,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
)
logger.info(f"Container objects: \n{result}")
return result.stdout.split()
@reporter.step("Delete container")
def delete(
self,
endpoint: str,
cid: str,
address: Optional[str] = None,
await_mode: bool = False,
session: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
force: bool = False,
trace: bool = False,
):
try:
return self.cli.container.delete(
rpc_endpoint=endpoint,
cid=cid,
address=address,
await_mode=await_mode,
session=session,
ttl=ttl,
xhdr=xhdr,
force=force,
trace=trace,
).stdout
except RuntimeError as e:
print(f"Error request:\n{e}")
@reporter.step("Get container")
def get(
self,
endpoint: str,
cid: str,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
await_mode: bool = False,
to: Optional[str] = None,
json_mode: bool = True,
trace: bool = False,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> Union[dict, str]:
result = self.cli.container.get(
rpc_endpoint=endpoint,
cid=cid,
address=address,
generate_key=generate_key,
await_mode=await_mode,
to=to,
json_mode=json_mode,
trace=trace,
ttl=ttl,
xhdr=xhdr,
timeout=timeout,
)
container_info = json.loads(result.stdout)
attributes = dict()
for attr in container_info["attributes"]:
attributes[attr["key"]] = attr["value"]
container_info["attributes"] = attributes
container_info["ownerID"] = json_utils.json_reencode(container_info["ownerID"]["value"])
return container_info
@reporter.step("Get eacl container")
def get_eacl(
self,
endpoint: str,
cid: str,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
await_mode: bool = False,
json_mode: bool = True,
trace: bool = False,
to: Optional[str] = None,
session: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
):
return self.cli.container.get_eacl(
rpc_endpoint=endpoint,
cid=cid,
address=address,
generate_key=generate_key,
await_mode=await_mode,
to=to,
session=session,
ttl=ttl,
xhdr=xhdr,
timeout=CLI_DEFAULT_TIMEOUT,
).stdout
@reporter.step("Get nodes container")
def nodes(
self,
endpoint: str,
cid: str,
cluster: Cluster,
address: Optional[str] = None,
ttl: Optional[int] = None,
from_file: Optional[str] = None,
trace: bool = False,
short: Optional[bool] = True,
xhdr: Optional[dict] = None,
generate_key: Optional[bool] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> List[ClusterNode]:
result = self.cli.container.search_node(
rpc_endpoint=endpoint,
cid=cid,
address=address,
ttl=ttl,
from_file=from_file,
trace=trace,
short=short,
xhdr=xhdr,
generate_key=generate_key,
timeout=timeout,
).stdout
pattern = r"[0-9]+(?:\.[0-9]+){3}"
nodes_ip = list(set(re.findall(pattern, result)))
with reporter.step(f"nodes ips = {nodes_ip}"):
nodes_list = cluster.get_nodes_by_ip(nodes_ip)
with reporter.step(f"Return nodes - {nodes_list}"):
return nodes_list
@reporter.step("Resolve container by name")
def resolve_container_by_name(name: str, node: ClusterNode):
resolver_cls = load_plugin("frostfs.testlib.bucket_cid_resolver", node.host.config.product)
resolver: BucketContainerResolver = resolver_cls()
return resolver.resolve(node, name)
def _parse_cid(self, output: str) -> str:
"""
Parses container ID from a given CLI output. The input string we expect:
container ID: 2tz86kVTDpJxWHrhw3h6PbKMwkLtBEwoqhHQCKTre1FN
awaiting...
container has been persisted on sidechain
We want to take 'container ID' value from the string.
Args:
output (str): CLI output to parse
Returns:
(str): extracted CID
"""
try:
# taking first line from command's output
first_line = output.split("\n")[0]
except Exception:
first_line = ""
logger.error(f"Got empty output: {output}")
splitted = first_line.split(": ")
if len(splitted) != 2:
raise ValueError(f"no CID was parsed from command output: \t{first_line}")
return splitted[1]

624
src/frostfs_testlib/storage/grpc_operations/implementations/object.py
View file

@ -1,624 +0,0 @@
import json
import logging
import os
import re
import uuid
from typing import Any, Optional
from frostfs_testlib import reporter, utils
from frostfs_testlib.cli.frostfs_cli.cli import FrostfsCli
from frostfs_testlib.resources.cli import CLI_DEFAULT_TIMEOUT
from frostfs_testlib.resources.common import ASSETS_DIR
from frostfs_testlib.shell.interfaces import CommandResult
from frostfs_testlib.storage.cluster import Cluster, ClusterNode
from frostfs_testlib.storage.grpc_operations import interfaces
from frostfs_testlib.storage.grpc_operations.implementations.chunks import ChunksOperations
from frostfs_testlib.testing.test_control import wait_for_success
from frostfs_testlib.utils import cli_utils, file_utils
logger = logging.getLogger("NeoLogger")
class ObjectOperations(interfaces.ObjectInterface):
def __init__(self, cli: FrostfsCli) -> None:
self.cli = cli
self.chunks: interfaces.ChunksInterface = ChunksOperations(self.cli)
@reporter.step("Delete object")
def delete(
self,
cid: str,
oid: str,
endpoint: str,
bearer: str = "",
xhdr: Optional[dict] = None,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
DELETE an Object.
Args:
cid: ID of Container where we get the Object from
oid: ID of Object we are going to delete
bearer: path to Bearer Token file, appends to `--bearer` key
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
xhdr: Request X-Headers in form of Key=Value
session: path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
(str): Tombstone ID
"""
result = self.cli.object.delete(
rpc_endpoint=endpoint,
cid=cid,
oid=oid,
bearer=bearer,
xhdr=xhdr,
session=session,
timeout=timeout,
)
id_str = result.stdout.split("\n")[1]
tombstone = id_str.split(":")[1]
return tombstone.strip()
@reporter.step("Get object")
def get(
self,
cid: str,
oid: str,
endpoint: str,
bearer: Optional[str] = None,
write_object: Optional[str] = None,
xhdr: Optional[dict] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> file_utils.TestFile:
"""
GET from FrostFS.
Args:
cid (str): ID of Container where we get the Object from
oid (str): Object ID
bearer: path to Bearer Token file, appends to `--bearer` key
write_object: path to downloaded file, appends to `--file` key
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
no_progress(optional, bool): do not show progress bar
xhdr (optional, dict): Request X-Headers in form of Key=Value
session (optional, dict): path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
(str): path to downloaded file
"""
if not write_object:
write_object = str(uuid.uuid4())
test_file = file_utils.TestFile(os.path.join(ASSETS_DIR, write_object))
self.cli.object.get(
rpc_endpoint=endpoint,
cid=cid,
oid=oid,
file=test_file,
bearer=bearer,
no_progress=no_progress,
xhdr=xhdr,
session=session,
timeout=timeout,
)
return test_file
@reporter.step("Get object from random node")
def get_from_random_node(
self,
cid: str,
oid: str,
cluster: Cluster,
bearer: Optional[str] = None,
write_object: Optional[str] = None,
xhdr: Optional[dict] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
GET from FrostFS random storage node
Args:
cid: ID of Container where we get the Object from
oid: Object ID
cluster: cluster object
bearer (optional, str): path to Bearer Token file, appends to `--bearer` key
write_object (optional, str): path to downloaded file, appends to `--file` key
no_progress(optional, bool): do not show progress bar
xhdr (optional, dict): Request X-Headers in form of Key=Value
session (optional, dict): path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
(str): path to downloaded file
"""
endpoint = cluster.get_random_storage_rpc_endpoint()
return self.get(
cid,
oid,
endpoint,
bearer,
write_object,
xhdr,
no_progress,
session,
timeout,
)
@reporter.step("Get hash object")
def hash(
self,
rpc_endpoint: str,
cid: str,
oid: str,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
range: Optional[str] = None,
salt: Optional[str] = None,
ttl: Optional[int] = None,
session: Optional[str] = None,
hash_type: Optional[str] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
Get object hash.
Args:
address: Address of wallet account.
bearer: File with signed JSON or binary encoded bearer token.
cid: Container ID.
generate_key: Generate new private key.
oid: Object ID.
range: Range to take hash from in the form offset1:length1,...
rpc_endpoint: Remote node address (as 'multiaddr' or '<host>:<port>').
salt: Salt in hex format.
ttl: TTL value in request meta header (default 2).
session: Filepath to a JSON- or binary-encoded token of the object RANGEHASH session.
hash_type: Hash type. Either 'sha256' or 'tz' (default "sha256").
wallet: WIF (NEP-2) string or path to the wallet or binary key.
xhdr: Dict with request X-Headers.
timeout: Timeout for the operation (default 15s).
Returns:
Command's result.
"""
result = self.cli.object.hash(
rpc_endpoint=rpc_endpoint,
cid=cid,
oid=oid,
address=address,
bearer=bearer,
generate_key=generate_key,
range=range,
salt=salt,
ttl=ttl,
xhdr=xhdr,
session=session,
hash_type=hash_type,
timeout=timeout,
)
return result.stdout
@reporter.step("Head object")
def head(
self,
cid: str,
oid: str,
endpoint: str,
bearer: str = "",
xhdr: Optional[dict] = None,
json_output: bool = True,
is_raw: bool = False,
is_direct: bool = False,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> CommandResult | Any:
"""
HEAD an Object.
Args:
cid (str): ID of Container where we get the Object from
oid (str): ObjectID to HEAD
bearer (optional, str): path to Bearer Token file, appends to `--bearer` key
endpoint(optional, str): FrostFS endpoint to send request to
json_output(optional, bool): return response in JSON format or not; this flag
turns into `--json` key
is_raw(optional, bool): send "raw" request or not; this flag
turns into `--raw` key
is_direct(optional, bool): send request directly to the node or not; this flag
turns into `--ttl 1` key
xhdr (optional, dict): Request X-Headers in form of Key=Value
session (optional, dict): path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
depending on the `json_output` parameter value, the function returns
(dict): HEAD response in JSON format
or
(str): HEAD response as a plain text
"""
result = self.cli.object.head(
rpc_endpoint=endpoint,
cid=cid,
oid=oid,
bearer=bearer,
json_mode=json_output,
raw=is_raw,
ttl=1 if is_direct else None,
xhdr=xhdr,
session=session,
timeout=timeout,
)
if not json_output:
return result
try:
decoded = json.loads(result.stdout)
except Exception as exc:
# If we failed to parse output as JSON, the cause might be
# the plain text string in the beginning of the output.
# Here we cut off first string and try to parse again.
logger.info(f"failed to parse output: {exc}")
logger.info("parsing output in another way")
fst_line_idx = result.stdout.find("\n")
decoded = json.loads(result.stdout[fst_line_idx:])
# if response
if "chunks" in decoded.keys():
logger.info("decoding ec chunks")
return decoded["chunks"]
# If response is Complex Object header, it has `splitId` key
if "splitId" in decoded.keys():
logger.info("decoding split header")
return utils.json_utils.decode_split_header(decoded)
# If response is Last or Linking Object header,
# it has `header` dictionary and non-null `split` dictionary
if "split" in decoded["header"].keys():
if decoded["header"]["split"]:
logger.info("decoding linking object")
return utils.json_utils.decode_linking_object(decoded)
if decoded["header"]["objectType"] == "STORAGE_GROUP":
logger.info("decoding storage group")
return utils.json_utils.decode_storage_group(decoded)
if decoded["header"]["objectType"] == "TOMBSTONE":
logger.info("decoding tombstone")
return utils.json_utils.decode_tombstone(decoded)
logger.info("decoding simple header")
return utils.json_utils.decode_simple_header(decoded)
@reporter.step("Lock Object")
def lock(
self,
cid: str,
oid: str,
endpoint: str,
lifetime: Optional[int] = None,
expire_at: Optional[int] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
session: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
Locks object in container.
Args:
address: Address of wallet account.
bearer: File with signed JSON or binary encoded bearer token.
cid: Container ID.
oid: Object ID.
lifetime: Lock lifetime.
expire_at: Lock expiration epoch.
shell: executor for cli command
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
session: Path to a JSON-encoded container session token.
ttl: TTL value in request meta header (default 2).
wallet: WIF (NEP-2) string or path to the wallet or binary key.
xhdr: Dict with request X-Headers.
timeout: Timeout for the operation.
Returns:
Lock object ID
"""
result = self.cli.object.lock(
rpc_endpoint=endpoint,
lifetime=lifetime,
expire_at=expire_at,
address=address,
cid=cid,
oid=oid,
bearer=bearer,
xhdr=xhdr,
session=session,
ttl=ttl,
timeout=timeout,
)
# Splitting CLI output to separate lines and taking the penultimate line
id_str = result.stdout.strip().split("\n")[0]
oid = id_str.split(":")[1]
return oid.strip()
@reporter.step("Put object")
def put(
self,
path: str,
cid: str,
endpoint: str,
bearer: Optional[str] = None,
copies_number: Optional[int] = None,
attributes: Optional[dict] = None,
xhdr: Optional[dict] = None,
expire_at: Optional[int] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
PUT of given file.
Args:
path: path to file to be PUT
cid: ID of Container where we get the Object from
bearer: path to Bearer Token file, appends to `--bearer` key
copies_number: Number of copies of the object to store within the RPC call
attributes: User attributes in form of Key1=Value1,Key2=Value2
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
no_progress: do not show progress bar
expire_at: Last epoch in the life of the object
xhdr: Request X-Headers in form of Key=Value
session: path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
(str): ID of uploaded Object
"""
result = self.cli.object.put(
rpc_endpoint=endpoint,
file=path,
cid=cid,
attributes=attributes,
bearer=bearer,
copies_number=copies_number,
expire_at=expire_at,
no_progress=no_progress,
xhdr=xhdr,
session=session,
timeout=timeout,
)
# Splitting CLI output to separate lines and taking the penultimate line
id_str = result.stdout.strip().split("\n")[-2]
oid = id_str.split(":")[1]
return oid.strip()
@reporter.step("Put object to random node")
def put_to_random_node(
self,
path: str,
cid: str,
cluster: Cluster,
bearer: Optional[str] = None,
copies_number: Optional[int] = None,
attributes: Optional[dict] = None,
xhdr: Optional[dict] = None,
expire_at: Optional[int] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> str:
"""
PUT of given file to a random storage node.
Args:
path: path to file to be PUT
cid: ID of Container where we get the Object from
cluster: cluster under test
bearer: path to Bearer Token file, appends to `--bearer` key
copies_number: Number of copies of the object to store within the RPC call
attributes: User attributes in form of Key1=Value1,Key2=Value2
cluster: cluster under test
no_progress: do not show progress bar
expire_at: Last epoch in the life of the object
xhdr: Request X-Headers in form of Key=Value
session: path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
ID of uploaded Object
"""
endpoint = cluster.get_random_storage_rpc_endpoint()
return self.put(
path,
cid,
endpoint,
bearer,
copies_number,
attributes,
xhdr,
expire_at,
no_progress,
session,
timeout=timeout,
)
@reporter.step("Get Range")
def range(
self,
cid: str,
oid: str,
range_cut: str,
endpoint: str,
bearer: str = "",
xhdr: Optional[dict] = None,
session: Optional[str] = None,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> tuple[file_utils.TestFile, bytes]:
"""
GETRANGE an Object.
Args:
wallet: wallet on whose behalf GETRANGE is done
cid: ID of Container where we get the Object from
oid: ID of Object we are going to request
range_cut: range to take data from in the form offset:length
shell: executor for cli command
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
bearer: path to Bearer Token file, appends to `--bearer` key
xhdr: Request X-Headers in form of Key=Value
session: path to a JSON-encoded container session token
timeout: Timeout for the operation.
Returns:
(str, bytes) - path to the file with range content and content of this file as bytes
"""
test_file = file_utils.TestFile(os.path.join(ASSETS_DIR, str(uuid.uuid4())))
self.cli.object.range(
rpc_endpoint=endpoint,
cid=cid,
oid=oid,
range=range_cut,
file=test_file,
bearer=bearer,
xhdr=xhdr,
session=session,
timeout=timeout,
)
with open(test_file, "rb") as file:
content = file.read()
return test_file, content
@reporter.step("Search object")
def search(
self,
cid: str,
endpoint: str,
bearer: str = "",
oid: Optional[str] = None,
filters: Optional[dict] = None,
expected_objects_list: Optional[list] = None,
xhdr: Optional[dict] = None,
session: Optional[str] = None,
phy: bool = False,
root: bool = False,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
ttl: Optional[int] = None,
) -> list:
"""
SEARCH an Object.
Args:
wallet: wallet on whose behalf SEARCH is done
cid: ID of Container where we get the Object from
shell: executor for cli command
bearer: path to Bearer Token file, appends to `--bearer` key
endpoint: FrostFS endpoint to send request to, appends to `--rpc-endpoint` key
filters: key=value pairs to filter Objects
expected_objects_list: a list of ObjectIDs to compare found Objects with
xhdr: Request X-Headers in form of Key=Value
session: path to a JSON-encoded container session token
phy: Search physically stored objects.
root: Search for user objects.
timeout: Timeout for the operation.
Returns:
list of found ObjectIDs
"""
result = self.cli.object.search(
rpc_endpoint=endpoint,
cid=cid,
bearer=bearer,
oid=oid,
xhdr=xhdr,
filters=[f"{filter_key} EQ {filter_val}" for filter_key, filter_val in filters.items()] if filters else None,
session=session,
phy=phy,
root=root,
address=address,
generate_key=generate_key,
ttl=ttl,
timeout=timeout,
)
found_objects = re.findall(r"(\w{43,44})", result.stdout)
if expected_objects_list:
if sorted(found_objects) == sorted(expected_objects_list):
logger.info(f"Found objects list '{found_objects}' " f"is equal for expected list '{expected_objects_list}'")
else:
logger.warning(f"Found object list {found_objects} " f"is not equal to expected list '{expected_objects_list}'")
return found_objects
@wait_for_success()
@reporter.step("Search object nodes")
def nodes(
self,
cluster: Cluster,
cid: str,
oid: str,
alive_node: ClusterNode,
bearer: str = "",
xhdr: Optional[dict] = None,
is_direct: bool = False,
verify_presence_all: bool = False,
timeout: Optional[str] = CLI_DEFAULT_TIMEOUT,
) -> list[ClusterNode]:
endpoint = alive_node.storage_node.get_rpc_endpoint()
response = self.cli.object.nodes(
rpc_endpoint=endpoint,
cid=cid,
oid=oid,
bearer=bearer,
ttl=1 if is_direct else None,
json=True,
xhdr=xhdr,
timeout=timeout,
verify_presence_all=verify_presence_all,
)
response_json = json.loads(response.stdout)
# Currently, the command will show expected and confirmed nodes.
# And we (currently) count only nodes which are both expected and confirmed
object_nodes_id = {
required_node
for data_object in response_json["data_objects"]
for required_node in data_object["required_nodes"]
if required_node in data_object["confirmed_nodes"]
}
netmap_nodes_list = cli_utils.parse_netmap_output(
self.cli.netmap.snapshot(
rpc_endpoint=endpoint,
).stdout
)
netmap_nodes = [
netmap_node for object_node in object_nodes_id for netmap_node in netmap_nodes_list if object_node == netmap_node.node_id
]
object_nodes = [
cluster_node
for netmap_node in netmap_nodes
for cluster_node in cluster.cluster_nodes
if netmap_node.node == cluster_node.host_ip
]
return object_nodes

392
src/frostfs_testlib/storage/grpc_operations/interfaces.py
View file

@ -1,392 +0,0 @@
from abc import ABC, abstractmethod
from typing import Any, List, Optional
from frostfs_testlib.shell.interfaces import CommandResult
from frostfs_testlib.storage.cluster import Cluster, ClusterNode
from frostfs_testlib.storage.constants import PlacementRule
from frostfs_testlib.storage.dataclasses.storage_object_info import Chunk, NodeNetmapInfo
from frostfs_testlib.utils import file_utils
class ChunksInterface(ABC):
@abstractmethod
def search_node_without_chunks(self, chunks: list[Chunk], cluster: Cluster, endpoint: str = None) -> list[ClusterNode]:
pass
@abstractmethod
def get_chunk_node(self, cluster: Cluster, chunk: Chunk) -> tuple[ClusterNode, NodeNetmapInfo]:
pass
@abstractmethod
def get_shard_chunk(self, node: ClusterNode, chunk: Chunk) -> str:
pass
@abstractmethod
def get_all(
self,
rpc_endpoint: str,
cid: str,
oid: str,
wallet: Optional[str] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
trace: bool = False,
root: bool = False,
verify_presence_all: bool = False,
json: bool = True,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> list[Chunk]:
pass
@abstractmethod
def get_parity(
self,
rpc_endpoint: str,
cid: str,
wallet: Optional[str] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
oid: Optional[str] = None,
trace: bool = False,
root: bool = False,
verify_presence_all: bool = False,
json: bool = True,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> Chunk:
pass
@abstractmethod
def get_first_data(
self,
rpc_endpoint: str,
cid: str,
wallet: Optional[str] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
oid: Optional[str] = None,
trace: bool = False,
root: bool = False,
verify_presence_all: bool = False,
json: bool = True,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> Chunk:
pass
class ObjectInterface(ABC):
def __init__(self) -> None:
self.chunks: ChunksInterface
@abstractmethod
def delete(
self,
cid: str,
oid: str,
endpoint: str,
bearer: str = "",
xhdr: Optional[dict] = None,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> str:
pass
@abstractmethod
def get(
self,
cid: str,
oid: str,
endpoint: str,
bearer: Optional[str] = None,
write_object: Optional[str] = None,
xhdr: Optional[dict] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> file_utils.TestFile:
pass
@abstractmethod
def get_from_random_node(
self,
cid: str,
oid: str,
cluster: Cluster,
bearer: Optional[str] = None,
write_object: Optional[str] = None,
xhdr: Optional[dict] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> str:
pass
@abstractmethod
def hash(
self,
endpoint: str,
cid: str,
oid: str,
address: Optional[str] = None,
bearer: Optional[str] = None,
generate_key: Optional[bool] = None,
range: Optional[str] = None,
salt: Optional[str] = None,
ttl: Optional[int] = None,
session: Optional[str] = None,
hash_type: Optional[str] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> str:
pass
@abstractmethod
def head(
self,
cid: str,
oid: str,
endpoint: str,
bearer: str = "",
xhdr: Optional[dict] = None,
json_output: bool = True,
is_raw: bool = False,
is_direct: bool = False,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> CommandResult | Any:
pass
@abstractmethod
def lock(
self,
cid: str,
oid: str,
endpoint: str,
lifetime: Optional[int] = None,
expire_at: Optional[int] = None,
address: Optional[str] = None,
bearer: Optional[str] = None,
session: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> str:
pass
@abstractmethod
def put(
self,
path: str,
cid: str,
endpoint: str,
bearer: Optional[str] = None,
copies_number: Optional[int] = None,
attributes: Optional[dict] = None,
xhdr: Optional[dict] = None,
expire_at: Optional[int] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> str:
pass
@abstractmethod
def put_to_random_node(
self,
path: str,
cid: str,
cluster: Cluster,
bearer: Optional[str] = None,
copies_number: Optional[int] = None,
attributes: Optional[dict] = None,
xhdr: Optional[dict] = None,
expire_at: Optional[int] = None,
no_progress: bool = True,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> str:
pass
@abstractmethod
def range(
self,
cid: str,
oid: str,
range_cut: str,
endpoint: str,
bearer: str = "",
xhdr: Optional[dict] = None,
session: Optional[str] = None,
timeout: Optional[str] = None,
) -> tuple[file_utils.TestFile, bytes]:
pass
@abstractmethod
def search(
self,
cid: str,
endpoint: str,
bearer: str = "",
oid: Optional[str] = None,
filters: Optional[dict] = None,
expected_objects_list: Optional[list] = None,
xhdr: Optional[dict] = None,
session: Optional[str] = None,
phy: bool = False,
root: bool = False,
timeout: Optional[str] = None,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
ttl: Optional[int] = None,
) -> List:
pass
@abstractmethod
def nodes(
self,
cluster: Cluster,
cid: str,
oid: str,
alive_node: ClusterNode,
bearer: str = "",
xhdr: Optional[dict] = None,
is_direct: bool = False,
verify_presence_all: bool = False,
timeout: Optional[str] = None,
) -> List[ClusterNode]:
pass
class ContainerInterface(ABC):
@abstractmethod
def create(
self,
endpoint: str,
nns_zone: Optional[str] = None,
nns_name: Optional[str] = None,
address: Optional[str] = None,
attributes: Optional[dict] = None,
basic_acl: Optional[str] = None,
await_mode: bool = False,
disable_timestamp: bool = False,
force: bool = False,
trace: bool = False,
name: Optional[str] = None,
nonce: Optional[str] = None,
policy: Optional[str] = None,
session: Optional[str] = None,
subnet: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> str:
"""
Create a new container and register it in the FrostFS.
It will be stored in the sidechain when the Inner Ring accepts it.
"""
raise NotImplementedError("No implemethed method create")
@abstractmethod
def delete(
self,
endpoint: str,
cid: str,
address: Optional[str] = None,
await_mode: bool = False,
session: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
force: bool = False,
trace: bool = False,
) -> List[str]:
"""
Delete an existing container.
Only the owner of the container has permission to remove the container.
"""
raise NotImplementedError("No implemethed method delete")
@abstractmethod
def get(
self,
endpoint: str,
cid: str,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
await_mode: bool = False,
to: Optional[str] = None,
json_mode: bool = True,
trace: bool = False,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> List[str]:
"""Get container field info."""
raise NotImplementedError("No implemethed method get")
@abstractmethod
def get_eacl(
self,
endpoint: str,
cid: str,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
await_mode: bool = False,
json_mode: bool = True,
trace: bool = False,
to: Optional[str] = None,
session: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
) -> List[str]:
"""Get extended ACL table of container."""
raise NotImplementedError("No implemethed method get-eacl")
@abstractmethod
def list(
self,
endpoint: str,
name: Optional[str] = None,
address: Optional[str] = None,
generate_key: Optional[bool] = None,
trace: bool = False,
owner: Optional[str] = None,
ttl: Optional[int] = None,
xhdr: Optional[dict] = None,
timeout: Optional[str] = None,
**params,
) -> List[str]:
"""List all created containers."""
raise NotImplementedError("No implemethed method list")
@abstractmethod
def nodes(
self,
endpoint: str,
cid: str,
cluster: Cluster,
address: Optional[str] = None,
ttl: Optional[int] = None,
from_file: Optional[str] = None,
trace: bool = False,
short: Optional[bool] = True,
xhdr: Optional[dict] = None,
generate_key: Optional[bool] = None,
timeout: Optional[str] = None,
) -> List[ClusterNode]:
"""Show the nodes participating in the container in the current epoch."""
raise NotImplementedError("No implemethed method nodes")
class GrpcClientWrapper(ABC):
def __init__(self) -> None:
self.object: ObjectInterface
self.container: ContainerInterface