parallelvirtualcluster/pvc
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Reformat code with Black code formatter

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Unify the code style along PEP and Black principles using the tool.
This commit is contained in:
Joshua Boniface
2021-11-06 03:02:43 -04:00
parent 3aa74a3940
commit 2083fd824a
47 changed files with 15547 additions and 10151 deletions
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52
client-cli/pvc/cli_lib/ansiprint.py
View File

@ -24,74 +24,74 @@ import datetime
# ANSII colours for output
def red():
return '\033[91m'
return "\033[91m"
def blue():
return '\033[94m'
return "\033[94m"
def cyan():
return '\033[96m'
return "\033[96m"
def green():
return '\033[92m'
return "\033[92m"
def yellow():
return '\033[93m'
return "\033[93m"
def purple():
return '\033[95m'
return "\033[95m"
def bold():
return '\033[1m'
return "\033[1m"
def end():
return '\033[0m'
return "\033[0m"
# Print function
def echo(message, prefix, state):
# Get the date
date = '{} - '.format(datetime.datetime.now().strftime('%Y/%m/%d %H:%M:%S.%f'))
date = "{} - ".format(datetime.datetime.now().strftime("%Y/%m/%d %H:%M:%S.%f"))
endc = end()
# Continuation
if state == 'c':
date = ''
colour = ''
prompt = ' '
if state == "c":
date = ""
colour = ""
prompt = " "
# OK
elif state == 'o':
elif state == "o":
colour = green()
prompt = '>>> '
prompt = ">>> "
# Error
elif state == 'e':
elif state == "e":
colour = red()
prompt = '>>> '
prompt = ">>> "
# Warning
elif state == 'w':
elif state == "w":
colour = yellow()
prompt = '>>> '
prompt = ">>> "
# Tick
elif state == 't':
elif state == "t":
colour = purple()
prompt = '>>> '
prompt = ">>> "
# Information
elif state == 'i':
elif state == "i":
colour = blue()
prompt = '>>> '
prompt = ">>> "
else:
colour = bold()
prompt = '>>> '
prompt = ">>> "
# Append space to prefix
if prefix != '':
prefix = prefix + ' '
if prefix != "":
prefix = prefix + " "
print(colour + prompt + endc + date + prefix + message)

1975
client-cli/pvc/cli_lib/ceph.py
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File diff suppressed because it is too large Load Diff

258
client-cli/pvc/cli_lib/cluster.py
View File

@ -33,18 +33,15 @@ def initialize(config, overwrite=False):
API arguments: overwrite, yes-i-really-mean-it
API schema: {json_data_object}
"""
params = {
'yes-i-really-mean-it': 'yes',
'overwrite': overwrite
}
response = call_api(config, 'post', '/initialize', params=params)
params = {"yes-i-really-mean-it": "yes", "overwrite": overwrite}
response = call_api(config, "post", "/initialize", params=params)
if response.status_code == 200:
retstatus = True
else:
retstatus = False
return retstatus, response.json().get('message', '')
return retstatus, response.json().get("message", "")
def backup(config):
@ -55,12 +52,12 @@ def backup(config):
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/backup')
response = call_api(config, "get", "/backup")
if response.status_code == 200:
return True, response.json()
else:
return False, response.json().get('message', '')
return False, response.json().get("message", "")
def restore(config, cluster_data):
@ -73,20 +70,16 @@ def restore(config, cluster_data):
"""
cluster_data_json = json.dumps(cluster_data)
params = {
'yes-i-really-mean-it': 'yes'
}
data = {
'cluster_data': cluster_data_json
}
response = call_api(config, 'post', '/restore', params=params, data=data)
params = {"yes-i-really-mean-it": "yes"}
data = {"cluster_data": cluster_data_json}
response = call_api(config, "post", "/restore", params=params, data=data)
if response.status_code == 200:
retstatus = True
else:
retstatus = False
return retstatus, response.json().get('message', '')
return retstatus, response.json().get("message", "")
def maintenance_mode(config, state):
@ -97,17 +90,15 @@ def maintenance_mode(config, state):
API arguments: {state}={state}
API schema: {json_data_object}
"""
params = {
'state': state
}
response = call_api(config, 'post', '/status', params=params)
params = {"state": state}
response = call_api(config, "post", "/status", params=params)
if response.status_code == 200:
retstatus = True
else:
retstatus = False
return retstatus, response.json().get('message', '')
return retstatus, response.json().get("message", "")
def get_info(config):
@ -118,109 +109,216 @@ def get_info(config):
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/status')
response = call_api(config, "get", "/status")
if response.status_code == 200:
return True, response.json()
else:
return False, response.json().get('message', '')
return False, response.json().get("message", "")
def format_info(cluster_information, oformat):
if oformat == 'json':
if oformat == "json":
return json.dumps(cluster_information)
if oformat == 'json-pretty':
if oformat == "json-pretty":
return json.dumps(cluster_information, indent=4)
# Plain formatting, i.e. human-readable
if cluster_information['health'] == 'Optimal':
if cluster_information["health"] == "Optimal":
health_colour = ansiprint.green()
elif cluster_information['health'] == 'Maintenance':
elif cluster_information["health"] == "Maintenance":
health_colour = ansiprint.blue()
else:
health_colour = ansiprint.yellow()
if cluster_information['storage_health'] == 'Optimal':
if cluster_information["storage_health"] == "Optimal":
storage_health_colour = ansiprint.green()
elif cluster_information['storage_health'] == 'Maintenance':
elif cluster_information["storage_health"] == "Maintenance":
storage_health_colour = ansiprint.blue()
else:
storage_health_colour = ansiprint.yellow()
ainformation = []
if oformat == 'short':
ainformation.append('{}PVC cluster status:{}'.format(ansiprint.bold(), ansiprint.end()))
ainformation.append('{}Cluster health:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), health_colour, cluster_information['health'], ansiprint.end()))
if cluster_information['health_msg']:
for line in cluster_information['health_msg']:
ainformation.append(' > {}'.format(line))
ainformation.append('{}Storage health:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), storage_health_colour, cluster_information['storage_health'], ansiprint.end()))
if cluster_information['storage_health_msg']:
for line in cluster_information['storage_health_msg']:
ainformation.append(' > {}'.format(line))
if oformat == "short":
ainformation.append(
"{}PVC cluster status:{}".format(ansiprint.bold(), ansiprint.end())
)
ainformation.append(
"{}Cluster health:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
health_colour,
cluster_information["health"],
ansiprint.end(),
)
)
if cluster_information["health_msg"]:
for line in cluster_information["health_msg"]:
ainformation.append(" > {}".format(line))
ainformation.append(
"{}Storage health:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
storage_health_colour,
cluster_information["storage_health"],
ansiprint.end(),
)
)
if cluster_information["storage_health_msg"]:
for line in cluster_information["storage_health_msg"]:
ainformation.append(" > {}".format(line))
return '\n'.join(ainformation)
return "\n".join(ainformation)
ainformation.append('{}PVC cluster status:{}'.format(ansiprint.bold(), ansiprint.end()))
ainformation.append('')
ainformation.append('{}Cluster health:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), health_colour, cluster_information['health'], ansiprint.end()))
if cluster_information['health_msg']:
for line in cluster_information['health_msg']:
ainformation.append(' > {}'.format(line))
ainformation.append('{}Storage health:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), storage_health_colour, cluster_information['storage_health'], ansiprint.end()))
if cluster_information['storage_health_msg']:
for line in cluster_information['storage_health_msg']:
ainformation.append(' > {}'.format(line))
ainformation.append(
"{}PVC cluster status:{}".format(ansiprint.bold(), ansiprint.end())
)
ainformation.append("")
ainformation.append(
"{}Cluster health:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
health_colour,
cluster_information["health"],
ansiprint.end(),
)
)
if cluster_information["health_msg"]:
for line in cluster_information["health_msg"]:
ainformation.append(" > {}".format(line))
ainformation.append(
"{}Storage health:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
storage_health_colour,
cluster_information["storage_health"],
ansiprint.end(),
)
)
if cluster_information["storage_health_msg"]:
for line in cluster_information["storage_health_msg"]:
ainformation.append(" > {}".format(line))
ainformation.append('')
ainformation.append('{}Primary node:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['primary_node']))
ainformation.append('{}Cluster upstream IP:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['upstream_ip']))
ainformation.append('')
ainformation.append('{}Total nodes:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['nodes']['total']))
ainformation.append('{}Total VMs:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['vms']['total']))
ainformation.append('{}Total networks:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['networks']))
ainformation.append('{}Total OSDs:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['osds']['total']))
ainformation.append('{}Total pools:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['pools']))
ainformation.append('{}Total volumes:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['volumes']))
ainformation.append('{}Total snapshots:{} {}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['snapshots']))
ainformation.append("")
ainformation.append(
"{}Primary node:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["primary_node"]
)
)
ainformation.append(
"{}Cluster upstream IP:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["upstream_ip"]
)
)
ainformation.append("")
ainformation.append(
"{}Total nodes:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["nodes"]["total"]
)
)
ainformation.append(
"{}Total VMs:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["vms"]["total"]
)
)
ainformation.append(
"{}Total networks:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["networks"]
)
)
ainformation.append(
"{}Total OSDs:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["osds"]["total"]
)
)
ainformation.append(
"{}Total pools:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["pools"]
)
)
ainformation.append(
"{}Total volumes:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["volumes"]
)
)
ainformation.append(
"{}Total snapshots:{} {}".format(
ansiprint.purple(), ansiprint.end(), cluster_information["snapshots"]
)
)
nodes_string = '{}Nodes:{} {}/{} {}ready,run{}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['nodes'].get('run,ready', 0), cluster_information['nodes'].get('total', 0), ansiprint.green(), ansiprint.end())
for state, count in cluster_information['nodes'].items():
if state == 'total' or state == 'run,ready':
nodes_string = "{}Nodes:{} {}/{} {}ready,run{}".format(
ansiprint.purple(),
ansiprint.end(),
cluster_information["nodes"].get("run,ready", 0),
cluster_information["nodes"].get("total", 0),
ansiprint.green(),
ansiprint.end(),
)
for state, count in cluster_information["nodes"].items():
if state == "total" or state == "run,ready":
continue
nodes_string += ' {}/{} {}{}{}'.format(count, cluster_information['nodes']['total'], ansiprint.yellow(), state, ansiprint.end())
nodes_string += " {}/{} {}{}{}".format(
count,
cluster_information["nodes"]["total"],
ansiprint.yellow(),
state,
ansiprint.end(),
)
ainformation.append('')
ainformation.append("")
ainformation.append(nodes_string)
vms_string = '{}VMs:{} {}/{} {}start{}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['vms'].get('start', 0), cluster_information['vms'].get('total', 0), ansiprint.green(), ansiprint.end())
for state, count in cluster_information['vms'].items():
if state == 'total' or state == 'start':
vms_string = "{}VMs:{} {}/{} {}start{}".format(
ansiprint.purple(),
ansiprint.end(),
cluster_information["vms"].get("start", 0),
cluster_information["vms"].get("total", 0),
ansiprint.green(),
ansiprint.end(),
)
for state, count in cluster_information["vms"].items():
if state == "total" or state == "start":
continue
if state in ['disable', 'migrate', 'unmigrate', 'provision']:
if state in ["disable", "migrate", "unmigrate", "provision"]:
colour = ansiprint.blue()
else:
colour = ansiprint.yellow()
vms_string += ' {}/{} {}{}{}'.format(count, cluster_information['vms']['total'], colour, state, ansiprint.end())
vms_string += " {}/{} {}{}{}".format(
count, cluster_information["vms"]["total"], colour, state, ansiprint.end()
)
ainformation.append('')
ainformation.append("")
ainformation.append(vms_string)
if cluster_information['osds']['total'] > 0:
osds_string = '{}Ceph OSDs:{} {}/{} {}up,in{}'.format(ansiprint.purple(), ansiprint.end(), cluster_information['osds'].get('up,in', 0), cluster_information['osds'].get('total', 0), ansiprint.green(), ansiprint.end())
for state, count in cluster_information['osds'].items():
if state == 'total' or state == 'up,in':
if cluster_information["osds"]["total"] > 0:
osds_string = "{}Ceph OSDs:{} {}/{} {}up,in{}".format(
ansiprint.purple(),
ansiprint.end(),
cluster_information["osds"].get("up,in", 0),
cluster_information["osds"].get("total", 0),
ansiprint.green(),
ansiprint.end(),
)
for state, count in cluster_information["osds"].items():
if state == "total" or state == "up,in":
continue
osds_string += ' {}/{} {}{}{}'.format(count, cluster_information['osds']['total'], ansiprint.yellow(), state, ansiprint.end())
osds_string += " {}/{} {}{}{}".format(
count,
cluster_information["osds"]["total"],
ansiprint.yellow(),
state,
ansiprint.end(),
)
ainformation.append('')
ainformation.append("")
ainformation.append(osds_string)
ainformation.append('')
return '\n'.join(ainformation)
ainformation.append("")
return "\n".join(ainformation)

85
client-cli/pvc/cli_lib/common.py
View File

@ -29,42 +29,42 @@ from urllib3 import disable_warnings
def format_bytes(size_bytes):
byte_unit_matrix = {
'B': 1,
'K': 1024,
'M': 1024 * 1024,
'G': 1024 * 1024 * 1024,
'T': 1024 * 1024 * 1024 * 1024,
'P': 1024 * 1024 * 1024 * 1024 * 1024
"B": 1,
"K": 1024,
"M": 1024 * 1024,
"G": 1024 * 1024 * 1024,
"T": 1024 * 1024 * 1024 * 1024,
"P": 1024 * 1024 * 1024 * 1024 * 1024,
}
human_bytes = '0B'
human_bytes = "0B"
for unit in sorted(byte_unit_matrix, key=byte_unit_matrix.get):
formatted_bytes = int(math.ceil(size_bytes / byte_unit_matrix[unit]))
if formatted_bytes < 10000:
human_bytes = '{}{}'.format(formatted_bytes, unit)
human_bytes = "{}{}".format(formatted_bytes, unit)
break
return human_bytes
def format_metric(integer):
integer_unit_matrix = {
'': 1,
'K': 1000,
'M': 1000 * 1000,
'B': 1000 * 1000 * 1000,
'T': 1000 * 1000 * 1000 * 1000,
'Q': 1000 * 1000 * 1000 * 1000 * 1000
"": 1,
"K": 1000,
"M": 1000 * 1000,
"B": 1000 * 1000 * 1000,
"T": 1000 * 1000 * 1000 * 1000,
"Q": 1000 * 1000 * 1000 * 1000 * 1000,
}
human_integer = '0'
human_integer = "0"
for unit in sorted(integer_unit_matrix, key=integer_unit_matrix.get):
formatted_integer = int(math.ceil(integer / integer_unit_matrix[unit]))
if formatted_integer < 10000:
human_integer = '{}{}'.format(formatted_integer, unit)
human_integer = "{}{}".format(formatted_integer, unit)
break
return human_integer
class UploadProgressBar(object):
def __init__(self, filename, end_message='', end_nl=True):
def __init__(self, filename, end_message="", end_nl=True):
file_size = os.path.getsize(filename)
file_size_human = format_bytes(file_size)
click.echo("Uploading file (total size {})...".format(file_size_human))
@ -78,9 +78,9 @@ class UploadProgressBar(object):
self.end_message = end_message
self.end_nl = end_nl
if not self.end_nl:
self.end_suffix = ' '
self.end_suffix = " "
else:
self.end_suffix = ''
self.end_suffix = ""
self.bar = click.progressbar(length=self.length, show_eta=True)
@ -115,35 +115,34 @@ class ErrorResponse(requests.Response):
return self.json_data
def call_api(config, operation, request_uri, headers={}, params=None, data=None, files=None):
def call_api(
config, operation, request_uri, headers={}, params=None, data=None, files=None
):
# Craft the URI
uri = '{}://{}{}{}'.format(
config['api_scheme'],
config['api_host'],
config['api_prefix'],
request_uri
uri = "{}://{}{}{}".format(
config["api_scheme"], config["api_host"], config["api_prefix"], request_uri
)
# Default timeout is 3 seconds
timeout = 3
# Craft the authentication header if required
if config['api_key']:
headers['X-Api-Key'] = config['api_key']
if config["api_key"]:
headers["X-Api-Key"] = config["api_key"]
# Determine the request type and hit the API
disable_warnings()
try:
if operation == 'get':
if operation == "get":
response = requests.get(
uri,
timeout=timeout,
headers=headers,
params=params,
data=data,
verify=config['verify_ssl']
verify=config["verify_ssl"],
)
if operation == 'post':
if operation == "post":
response = requests.post(
uri,
timeout=timeout,
@ -151,9 +150,9 @@ def call_api(config, operation, request_uri, headers={}, params=None, data=None,
params=params,
data=data,
files=files,
verify=config['verify_ssl']
verify=config["verify_ssl"],
)
if operation == 'put':
if operation == "put":
response = requests.put(
uri,
timeout=timeout,
@ -161,35 +160,35 @@ def call_api(config, operation, request_uri, headers={}, params=None, data=None,
params=params,
data=data,
files=files,
verify=config['verify_ssl']
verify=config["verify_ssl"],
)
if operation == 'patch':
if operation == "patch":
response = requests.patch(
uri,
timeout=timeout,
headers=headers,
params=params,
data=data,
verify=config['verify_ssl']
verify=config["verify_ssl"],
)
if operation == 'delete':
if operation == "delete":
response = requests.delete(
uri,
timeout=timeout,
headers=headers,
params=params,
data=data,
verify=config['verify_ssl']
verify=config["verify_ssl"],
)
except Exception as e:
message = 'Failed to connect to the API: {}'.format(e)
response = ErrorResponse({'message': message}, 500)
message = "Failed to connect to the API: {}".format(e)
response = ErrorResponse({"message": message}, 500)
# Display debug output
if config['debug']:
click.echo('API endpoint: {}'.format(uri), err=True)
click.echo('Response code: {}'.format(response.status_code), err=True)
click.echo('Response headers: {}'.format(response.headers), err=True)
if config["debug"]:
click.echo("API endpoint: {}".format(uri), err=True)
click.echo("Response code: {}".format(response.status_code), err=True)
click.echo("Response headers: {}".format(response.headers), err=True)
click.echo(err=True)
# Return the response object

1163
client-cli/pvc/cli_lib/network.py
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File diff suppressed because it is too large Load Diff

450
client-cli/pvc/cli_lib/node.py
View File

@ -36,17 +36,20 @@ def node_coordinator_state(config, node, action):
API arguments: action={action}
API schema: {"message": "{data}"}
"""
params = {
'state': action
}
response = call_api(config, 'post', '/node/{node}/coordinator-state'.format(node=node), params=params)
params = {"state": action}
response = call_api(
config,
"post",
"/node/{node}/coordinator-state".format(node=node),
params=params,
)
if response.status_code == 200:
retstatus = True
else:
retstatus = False
return retstatus, response.json().get('message', '')
return retstatus, response.json().get("message", "")
def node_domain_state(config, node, action, wait):
@ -57,18 +60,17 @@ def node_domain_state(config, node, action, wait):
API arguments: action={action}, wait={wait}
API schema: {"message": "{data}"}
"""
params = {
'state': action,
'wait': str(wait).lower()
}
response = call_api(config, 'post', '/node/{node}/domain-state'.format(node=node), params=params)
params = {"state": action, "wait": str(wait).lower()}
response = call_api(
config, "post", "/node/{node}/domain-state".format(node=node), params=params
)
if response.status_code == 200:
retstatus = True
else:
retstatus = False
return retstatus, response.json().get('message', '')
return retstatus, response.json().get("message", "")
def view_node_log(config, node, lines=100):
@ -79,19 +81,19 @@ def view_node_log(config, node, lines=100):
API arguments: lines={lines}
API schema: {"name":"{node}","data":"{node_log}"}
"""
params = {
'lines': lines
}
response = call_api(config, 'get', '/node/{node}/log'.format(node=node), params=params)
params = {"lines": lines}
response = call_api(
config, "get", "/node/{node}/log".format(node=node), params=params
)
if response.status_code != 200:
return False, response.json().get('message', '')
return False, response.json().get("message", "")
node_log = response.json()['data']
node_log = response.json()["data"]
# Shrink the log buffer to length lines
shrunk_log = node_log.split('\n')[-lines:]
loglines = '\n'.join(shrunk_log)
shrunk_log = node_log.split("\n")[-lines:]
loglines = "\n".join(shrunk_log)
return True, loglines
@ -105,53 +107,55 @@ def follow_node_log(config, node, lines=10):
API schema: {"name":"{nodename}","data":"{node_log}"}
"""
# We always grab 200 to match the follow call, but only _show_ `lines` number
params = {
'lines': 200
}
response = call_api(config, 'get', '/node/{node}/log'.format(node=node), params=params)
params = {"lines": 200}
response = call_api(
config, "get", "/node/{node}/log".format(node=node), params=params
)
if response.status_code != 200:
return False, response.json().get('message', '')
return False, response.json().get("message", "")
# Shrink the log buffer to length lines
node_log = response.json()['data']
shrunk_log = node_log.split('\n')[-int(lines):]
loglines = '\n'.join(shrunk_log)
node_log = response.json()["data"]
shrunk_log = node_log.split("\n")[-int(lines) :]
loglines = "\n".join(shrunk_log)
# Print the initial data and begin following
print(loglines, end='')
print('\n', end='')
print(loglines, end="")
print("\n", end="")
while True:
# Grab the next line set (200 is a reasonable number of lines per half-second; any more are skipped)
try:
params = {
'lines': 200
}
response = call_api(config, 'get', '/node/{node}/log'.format(node=node), params=params)
new_node_log = response.json()['data']
params = {"lines": 200}
response = call_api(
config, "get", "/node/{node}/log".format(node=node), params=params
)
new_node_log = response.json()["data"]
except Exception:
break
# Split the new and old log strings into constitutent lines
old_node_loglines = node_log.split('\n')
new_node_loglines = new_node_log.split('\n')
old_node_loglines = node_log.split("\n")
new_node_loglines = new_node_log.split("\n")
# Set the node log to the new log value for the next iteration
node_log = new_node_log
# Get the difference between the two sets of lines
old_node_loglines_set = set(old_node_loglines)
diff_node_loglines = [x for x in new_node_loglines if x not in old_node_loglines_set]
diff_node_loglines = [
x for x in new_node_loglines if x not in old_node_loglines_set
]
# If there's a difference, print it out
if len(diff_node_loglines) > 0:
print('\n'.join(diff_node_loglines), end='')
print('\n', end='')
print("\n".join(diff_node_loglines), end="")
print("\n", end="")
# Wait half a second
time.sleep(0.5)
return True, ''
return True, ""
def node_info(config, node):
@ -162,7 +166,7 @@ def node_info(config, node):
API arguments:
API schema: {json_data_object}
"""
response = call_api(config, 'get', '/node/{node}'.format(node=node))
response = call_api(config, "get", "/node/{node}".format(node=node))
if response.status_code == 200:
if isinstance(response.json(), list) and len(response.json()) != 1:
@ -176,10 +180,12 @@ def node_info(config, node):
else:
return True, response.json()
else:
return False, response.json().get('message', '')
return False, response.json().get("message", "")
def node_list(config, limit, target_daemon_state, target_coordinator_state, target_domain_state):
def node_list(
config, limit, target_daemon_state, target_coordinator_state, target_domain_state
):
"""
Get list information about nodes (limited by {limit})
@ -189,102 +195,202 @@ def node_list(config, limit, target_daemon_state, target_coordinator_state, targ
"""
params = dict()
if limit:
params['limit'] = limit
params["limit"] = limit
if target_daemon_state:
params['daemon_state'] = target_daemon_state
params["daemon_state"] = target_daemon_state
if target_coordinator_state:
params['coordinator_state'] = target_coordinator_state
params["coordinator_state"] = target_coordinator_state
if target_domain_state:
params['domain_state'] = target_domain_state
params["domain_state"] = target_domain_state
response = call_api(config, 'get', '/node', params=params)
response = call_api(config, "get", "/node", params=params)
if response.status_code == 200:
return True, response.json()
else:
return False, response.json().get('message', '')
return False, response.json().get("message", "")
#
# Output display functions
#
def getOutputColours(node_information):
if node_information['daemon_state'] == 'run':
if node_information["daemon_state"] == "run":
daemon_state_colour = ansiprint.green()
elif node_information['daemon_state'] == 'stop':
elif node_information["daemon_state"] == "stop":
daemon_state_colour = ansiprint.red()
elif node_information['daemon_state'] == 'shutdown':
elif node_information["daemon_state"] == "shutdown":
daemon_state_colour = ansiprint.yellow()
elif node_information['daemon_state'] == 'init':
elif node_information["daemon_state"] == "init":
daemon_state_colour = ansiprint.yellow()
elif node_information['daemon_state'] == 'dead':
elif node_information["daemon_state"] == "dead":
daemon_state_colour = ansiprint.red() + ansiprint.bold()
else:
daemon_state_colour = ansiprint.blue()
if node_information['coordinator_state'] == 'primary':
if node_information["coordinator_state"] == "primary":
coordinator_state_colour = ansiprint.green()
elif node_information['coordinator_state'] == 'secondary':
elif node_information["coordinator_state"] == "secondary":
coordinator_state_colour = ansiprint.blue()
else:
coordinator_state_colour = ansiprint.cyan()
if node_information['domain_state'] == 'ready':
if node_information["domain_state"] == "ready":
domain_state_colour = ansiprint.green()
else:
domain_state_colour = ansiprint.blue()
if node_information['memory']['allocated'] > node_information['memory']['total']:
if node_information["memory"]["allocated"] > node_information["memory"]["total"]:
mem_allocated_colour = ansiprint.yellow()
else:
mem_allocated_colour = ''
mem_allocated_colour = ""
if node_information['memory']['provisioned'] > node_information['memory']['total']:
if node_information["memory"]["provisioned"] > node_information["memory"]["total"]:
mem_provisioned_colour = ansiprint.yellow()
else:
mem_provisioned_colour = ''
mem_provisioned_colour = ""
return daemon_state_colour, coordinator_state_colour, domain_state_colour, mem_allocated_colour, mem_provisioned_colour
return (
daemon_state_colour,
coordinator_state_colour,
domain_state_colour,
mem_allocated_colour,
mem_provisioned_colour,
)
def format_info(node_information, long_output):
daemon_state_colour, coordinator_state_colour, domain_state_colour, mem_allocated_colour, mem_provisioned_colour = getOutputColours(node_information)
(
daemon_state_colour,
coordinator_state_colour,
domain_state_colour,
mem_allocated_colour,
mem_provisioned_colour,
) = getOutputColours(node_information)
# Format a nice output; do this line-by-line then concat the elements at the end
ainformation = []
# Basic information
ainformation.append('{}Name:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['name']))
ainformation.append('{}PVC Version:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['pvc_version']))
ainformation.append('{}Daemon State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), daemon_state_colour, node_information['daemon_state'], ansiprint.end()))
ainformation.append('{}Coordinator State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), coordinator_state_colour, node_information['coordinator_state'], ansiprint.end()))
ainformation.append('{}Domain State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), domain_state_colour, node_information['domain_state'], ansiprint.end()))
ainformation.append('{}Active VM Count:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['domains_count']))
ainformation.append(
"{}Name:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["name"]
)
)
ainformation.append(
"{}PVC Version:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["pvc_version"]
)
)
ainformation.append(
"{}Daemon State:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
daemon_state_colour,
node_information["daemon_state"],
ansiprint.end(),
)
)
ainformation.append(
"{}Coordinator State:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
coordinator_state_colour,
node_information["coordinator_state"],
ansiprint.end(),
)
)
ainformation.append(
"{}Domain State:{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
domain_state_colour,
node_information["domain_state"],
ansiprint.end(),
)
)
ainformation.append(
"{}Active VM Count:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["domains_count"]
)
)
if long_output:
ainformation.append('')
ainformation.append('{}Architecture:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['arch']))
ainformation.append('{}Operating System:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['os']))
ainformation.append('{}Kernel Version:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['kernel']))
ainformation.append('')
ainformation.append('{}Host CPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['vcpu']['total']))
ainformation.append('{}vCPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['vcpu']['allocated']))
ainformation.append('{}Load:{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['load']))
ainformation.append('{}Total RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['total']))
ainformation.append('{}Used RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['used']))
ainformation.append('{}Free RAM (MiB):{} {}'.format(ansiprint.purple(), ansiprint.end(), node_information['memory']['free']))
ainformation.append('{}Allocated RAM (MiB):{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), mem_allocated_colour, node_information['memory']['allocated'], ansiprint.end()))
ainformation.append('{}Provisioned RAM (MiB):{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), mem_provisioned_colour, node_information['memory']['provisioned'], ansiprint.end()))
ainformation.append("")
ainformation.append(
"{}Architecture:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["arch"]
)
)
ainformation.append(
"{}Operating System:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["os"]
)
)
ainformation.append(
"{}Kernel Version:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["kernel"]
)
)
ainformation.append("")
ainformation.append(
"{}Host CPUs:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["vcpu"]["total"]
)
)
ainformation.append(
"{}vCPUs:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["vcpu"]["allocated"]
)
)
ainformation.append(
"{}Load:{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["load"]
)
)
ainformation.append(
"{}Total RAM (MiB):{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["memory"]["total"]
)
)
ainformation.append(
"{}Used RAM (MiB):{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["memory"]["used"]
)
)
ainformation.append(
"{}Free RAM (MiB):{} {}".format(
ansiprint.purple(), ansiprint.end(), node_information["memory"]["free"]
)
)
ainformation.append(
"{}Allocated RAM (MiB):{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
mem_allocated_colour,
node_information["memory"]["allocated"],
ansiprint.end(),
)
)
ainformation.append(
"{}Provisioned RAM (MiB):{} {}{}{}".format(
ansiprint.purple(),
ansiprint.end(),
mem_provisioned_colour,
node_information["memory"]["provisioned"],
ansiprint.end(),
)
)
# Join it all together
ainformation.append('')
return '\n'.join(ainformation)
ainformation.append("")
return "\n".join(ainformation)
def format_list(node_list, raw):
if raw:
ainformation = list()
for node in sorted(item['name'] for item in node_list):
for node in sorted(item["name"] for item in node_list):
ainformation.append(node)
return '\n'.join(ainformation)
return "\n".join(ainformation)
node_list_output = []
@ -304,80 +410,126 @@ def format_list(node_list, raw):
mem_prov_length = 5
for node_information in node_list:
# node_name column
_node_name_length = len(node_information['name']) + 1
_node_name_length = len(node_information["name"]) + 1
if _node_name_length > node_name_length:
node_name_length = _node_name_length
# node_pvc_version column
_pvc_version_length = len(node_information.get('pvc_version', 'N/A')) + 1
_pvc_version_length = len(node_information.get("pvc_version", "N/A")) + 1
if _pvc_version_length > pvc_version_length:
pvc_version_length = _pvc_version_length
# daemon_state column
_daemon_state_length = len(node_information['daemon_state']) + 1
_daemon_state_length = len(node_information["daemon_state"]) + 1
if _daemon_state_length > daemon_state_length:
daemon_state_length = _daemon_state_length
# coordinator_state column
_coordinator_state_length = len(node_information['coordinator_state']) + 1
_coordinator_state_length = len(node_information["coordinator_state"]) + 1
if _coordinator_state_length > coordinator_state_length:
coordinator_state_length = _coordinator_state_length
# domain_state column
_domain_state_length = len(node_information['domain_state']) + 1
_domain_state_length = len(node_information["domain_state"]) + 1
if _domain_state_length > domain_state_length:
domain_state_length = _domain_state_length
# domains_count column
_domains_count_length = len(str(node_information['domains_count'])) + 1
_domains_count_length = len(str(node_information["domains_count"])) + 1
if _domains_count_length > domains_count_length:
domains_count_length = _domains_count_length
# cpu_count column
_cpu_count_length = len(str(node_information['cpu_count'])) + 1
_cpu_count_length = len(str(node_information["cpu_count"])) + 1
if _cpu_count_length > cpu_count_length:
cpu_count_length = _cpu_count_length
# load column
_load_length = len(str(node_information['load'])) + 1
_load_length = len(str(node_information["load"])) + 1
if _load_length > load_length:
load_length = _load_length
# mem_total column
_mem_total_length = len(str(node_information['memory']['total'])) + 1
_mem_total_length = len(str(node_information["memory"]["total"])) + 1
if _mem_total_length > mem_total_length:
mem_total_length = _mem_total_length
# mem_used column
_mem_used_length = len(str(node_information['memory']['used'])) + 1
_mem_used_length = len(str(node_information["memory"]["used"])) + 1
if _mem_used_length > mem_used_length:
mem_used_length = _mem_used_length
# mem_free column
_mem_free_length = len(str(node_information['memory']['free'])) + 1
_mem_free_length = len(str(node_information["memory"]["free"])) + 1
if _mem_free_length > mem_free_length:
mem_free_length = _mem_free_length
# mem_alloc column
_mem_alloc_length = len(str(node_information['memory']['allocated'])) + 1
_mem_alloc_length = len(str(node_information["memory"]["allocated"])) + 1
if _mem_alloc_length > mem_alloc_length:
mem_alloc_length = _mem_alloc_length
# mem_prov column
_mem_prov_length = len(str(node_information['memory']['provisioned'])) + 1
_mem_prov_length = len(str(node_information["memory"]["provisioned"])) + 1
if _mem_prov_length > mem_prov_length:
mem_prov_length = _mem_prov_length
# Format the string (header)
node_list_output.append(
'{bold}{node_header: <{node_header_length}} {state_header: <{state_header_length}} {resource_header: <{resource_header_length}} {memory_header: <{memory_header_length}}{end_bold}'.format(
"{bold}{node_header: <{node_header_length}} {state_header: <{state_header_length}} {resource_header: <{resource_header_length}} {memory_header: <{memory_header_length}}{end_bold}".format(
node_header_length=node_name_length + pvc_version_length + 1,
state_header_length=daemon_state_length + coordinator_state_length + domain_state_length + 2,
resource_header_length=domains_count_length + cpu_count_length + load_length + 2,
memory_header_length=mem_total_length + mem_used_length + mem_free_length + mem_alloc_length + mem_prov_length + 4,
state_header_length=daemon_state_length
+ coordinator_state_length
+ domain_state_length
+ 2,
resource_header_length=domains_count_length
+ cpu_count_length
+ load_length
+ 2,
memory_header_length=mem_total_length
+ mem_used_length
+ mem_free_length
+ mem_alloc_length
+ mem_prov_length
+ 4,
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
node_header='Nodes ' + ''.join(['-' for _ in range(6, node_name_length + pvc_version_length)]),
state_header='States ' + ''.join(['-' for _ in range(7, daemon_state_length + coordinator_state_length + domain_state_length + 1)]),
resource_header='Resources ' + ''.join(['-' for _ in range(10, domains_count_length + cpu_count_length + load_length + 1)]),
memory_header='Memory (M) ' + ''.join(['-' for _ in range(11, mem_total_length + mem_used_length + mem_free_length + mem_alloc_length + mem_prov_length + 3)])
node_header="Nodes "
+ "".join(["-" for _ in range(6, node_name_length + pvc_version_length)]),
state_header="States "
+ "".join(
[
"-"
for _ in range(
7,
daemon_state_length
+ coordinator_state_length
+ domain_state_length
+ 1,
)
]
),
resource_header="Resources "
+ "".join(
[
"-"
for _ in range(
10, domains_count_length + cpu_count_length + load_length + 1
)
]
),
memory_header="Memory (M) "
+ "".join(
[
"-"
for _ in range(
11,
mem_total_length
+ mem_used_length
+ mem_free_length
+ mem_alloc_length
+ mem_prov_length
+ 3,
)
]
),
)
)
node_list_output.append(
'{bold}{node_name: <{node_name_length}} {node_pvc_version: <{pvc_version_length}} \
"{bold}{node_name: <{node_name_length}} {node_pvc_version: <{pvc_version_length}} \
{daemon_state_colour}{node_daemon_state: <{daemon_state_length}}{end_colour} {coordinator_state_colour}{node_coordinator_state: <{coordinator_state_length}}{end_colour} {domain_state_colour}{node_domain_state: <{domain_state_length}}{end_colour} \
{node_domains_count: <{domains_count_length}} {node_cpu_count: <{cpu_count_length}} {node_load: <{load_length}} \
{node_mem_total: <{mem_total_length}} {node_mem_used: <{mem_used_length}} {node_mem_free: <{mem_free_length}} {node_mem_allocated: <{mem_alloc_length}} {node_mem_provisioned: <{mem_prov_length}}{end_bold}'.format(
{node_mem_total: <{mem_total_length}} {node_mem_used: <{mem_used_length}} {node_mem_free: <{mem_free_length}} {node_mem_allocated: <{mem_alloc_length}} {node_mem_provisioned: <{mem_prov_length}}{end_bold}".format(
node_name_length=node_name_length,
pvc_version_length=pvc_version_length,
daemon_state_length=daemon_state_length,
@ -393,34 +545,40 @@ def format_list(node_list, raw):
mem_prov_length=mem_prov_length,
bold=ansiprint.bold(),
end_bold=ansiprint.end(),
daemon_state_colour='',
coordinator_state_colour='',
domain_state_colour='',
end_colour='',
node_name='Name',
node_pvc_version='Version',
node_daemon_state='Daemon',
node_coordinator_state='Coordinator',
node_domain_state='Domain',
node_domains_count='VMs',
node_cpu_count='vCPUs',
node_load='Load',
node_mem_total='Total',
node_mem_used='Used',
node_mem_free='Free',
node_mem_allocated='Alloc',
node_mem_provisioned='Prov'
daemon_state_colour="",
coordinator_state_colour="",
domain_state_colour="",
end_colour="",
node_name="Name",
node_pvc_version="Version",
node_daemon_state="Daemon",
node_coordinator_state="Coordinator",
node_domain_state="Domain",
node_domains_count="VMs",
node_cpu_count="vCPUs",
node_load="Load",
node_mem_total="Total",
node_mem_used="Used",
node_mem_free="Free",
node_mem_allocated="Alloc",
node_mem_provisioned="Prov",
)
)
# Format the string (elements)
for node_information in sorted(node_list, key=lambda n: n['name']):
daemon_state_colour, coordinator_state_colour, domain_state_colour, mem_allocated_colour, mem_provisioned_colour = getOutputColours(node_information)
for node_information in sorted(node_list, key=lambda n: n["name"]):
(
daemon_state_colour,
coordinator_state_colour,
domain_state_colour,
mem_allocated_colour,
mem_provisioned_colour,
) = getOutputColours(node_information)
node_list_output.append(
'{bold}{node_name: <{node_name_length}} {node_pvc_version: <{pvc_version_length}} \
"{bold}{node_name: <{node_name_length}} {node_pvc_version: <{pvc_version_length}} \
{daemon_state_colour}{node_daemon_state: <{daemon_state_length}}{end_colour} {coordinator_state_colour}{node_coordinator_state: <{coordinator_state_length}}{end_colour} {domain_state_colour}{node_domain_state: <{domain_state_length}}{end_colour} \
{node_domains_count: <{domains_count_length}} {node_cpu_count: <{cpu_count_length}} {node_load: <{load_length}} \
{node_mem_total: <{mem_total_length}} {node_mem_used: <{mem_used_length}} {node_mem_free: <{mem_free_length}} {mem_allocated_colour}{node_mem_allocated: <{mem_alloc_length}}{end_colour} {mem_provisioned_colour}{node_mem_provisioned: <{mem_prov_length}}{end_colour}{end_bold}'.format(
{node_mem_total: <{mem_total_length}} {node_mem_used: <{mem_used_length}} {node_mem_free: <{mem_free_length}} {mem_allocated_colour}{node_mem_allocated: <{mem_alloc_length}}{end_colour} {mem_provisioned_colour}{node_mem_provisioned: <{mem_prov_length}}{end_colour}{end_bold}".format(
node_name_length=node_name_length,
pvc_version_length=pvc_version_length,
daemon_state_length=daemon_state_length,
@ -434,28 +592,28 @@ def format_list(node_list, raw):
mem_free_length=mem_free_length,
mem_alloc_length=mem_alloc_length,
mem_prov_length=mem_prov_length,
bold='',
end_bold='',
bold="",
end_bold="",
daemon_state_colour=daemon_state_colour,
coordinator_state_colour=coordinator_state_colour,
domain_state_colour=domain_state_colour,
mem_allocated_colour=mem_allocated_colour,
mem_provisioned_colour=mem_allocated_colour,
end_colour=ansiprint.end(),
node_name=node_information['name'],
node_pvc_version=node_information.get('pvc_version', 'N/A'),
node_daemon_state=node_information['daemon_state'],
node_coordinator_state=node_information['coordinator_state'],
node_domain_state=node_information['domain_state'],
node_domains_count=node_information['domains_count'],
node_cpu_count=node_information['vcpu']['allocated'],
node_load=node_information['load'],
node_mem_total=node_information['memory']['total'],
node_mem_used=node_information['memory']['used'],
node_mem_free=node_information['memory']['free'],
node_mem_allocated=node_information['memory']['allocated'],
node_mem_provisioned=node_information['memory']['provisioned']
node_name=node_information["name"],
node_pvc_version=node_information.get("pvc_version", "N/A"),
node_daemon_state=node_information["daemon_state"],
node_coordinator_state=node_information["coordinator_state"],
node_domain_state=node_information["domain_state"],
node_domains_count=node_information["domains_count"],
node_cpu_count=node_information["vcpu"]["allocated"],
node_load=node_information["load"],
node_mem_total=node_information["memory"]["total"],
node_mem_used=node_information["memory"]["used"],
node_mem_free=node_information["memory"]["free"],
node_mem_allocated=node_information["memory"]["allocated"],
node_mem_provisioned=node_information["memory"]["provisioned"],
)
)
return '\n'.join(node_list_output)
return "\n".join(node_list_output)

1380
client-cli/pvc/cli_lib/provisioner.py
View File

File diff suppressed because it is too large Load Diff

1302
client-cli/pvc/cli_lib/vm.py
View File

File diff suppressed because it is too large Load Diff

10
client-cli/pvc/cli_lib/zkhandler.py
View File

@ -45,7 +45,7 @@ def deletekey(zk_conn, key, recursive=True):
# Data read function
def readdata(zk_conn, key):
data_raw = zk_conn.get(key)
data = data_raw[0].decode('utf8')
data = data_raw[0].decode("utf8")
return data
@ -61,7 +61,7 @@ def writedata(zk_conn, kv):
# Check if this key already exists or not
if not zk_conn.exists(key):
# We're creating a new key
zk_transaction.create(key, str(data).encode('utf8'))
zk_transaction.create(key, str(data).encode("utf8"))
else:
# We're updating a key with version validation
orig_data = zk_conn.get(key)
@ -71,7 +71,7 @@ def writedata(zk_conn, kv):
new_version = version + 1
# Update the data
zk_transaction.set_data(key, str(data).encode('utf8'))
zk_transaction.set_data(key, str(data).encode("utf8"))
# Set up the check
try:
@ -91,12 +91,12 @@ def writedata(zk_conn, kv):
# Write lock function
def writelock(zk_conn, key):
lock_id = str(uuid.uuid1())
lock = zk_conn.WriteLock('{}'.format(key), lock_id)
lock = zk_conn.WriteLock("{}".format(key), lock_id)
return lock
# Read lock function
def readlock(zk_conn, key):
lock_id = str(uuid.uuid1())
lock = zk_conn.ReadLock('{}'.format(key), lock_id)
lock = zk_conn.ReadLock("{}".format(key), lock_id)
return lock

4035
client-cli/pvc/pvc.py
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