#!/usr/bin/env python3 # vm.py - PVC CLI client function library, VM functions # Part of the Parallel Virtual Cluster (PVC) system # # Copyright (C) 2018-2020 Joshua M. Boniface # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # ############################################################################### import time import re import cli_lib.ansiprint as ansiprint from cli_lib.common import call_api, format_bytes, format_metric # # Primary functions # def vm_info(config, vm): """ Get information about (single) VM API endpoint: GET /api/v1/vm/{vm} API arguments: API schema: {json_data_object} """ response = call_api(config, 'get', '/vm/{vm}'.format(vm=vm)) if response.status_code == 200: if isinstance(response.json(), list) and len(response.json()) > 1: # No exact match; return not found return False, "VM not found." else: if isinstance(response.json(), list): response = response.json()[0] else: response = response.json() return True, response return True, response.json() else: return False, response.json().get('message', '') def vm_list(config, limit, target_node, target_state): """ Get list information about VMs (limited by {limit}, {target_node}, or {target_state}) API endpoint: GET /api/v1/vm API arguments: limit={limit}, node={target_node}, state={target_state} API schema: [{json_data_object},{json_data_object},etc.] """ params = dict() if limit: params['limit'] = limit if target_node: params['node'] = target_node if target_state: params['state'] = target_state response = call_api(config, 'get', '/vm', params=params) if response.status_code == 200: return True, response.json() else: return False, response.json().get('message', '') def vm_define(config, xml, node, node_limit, node_selector, node_autostart, migration_method): """ Define a new VM on the cluster API endpoint: POST /vm API arguments: xml={xml}, node={node}, limit={node_limit}, selector={node_selector}, autostart={node_autostart}, migration_method={migration_method} API schema: {"message":"{data}"} """ params = { 'node': node, 'limit': node_limit, 'selector': node_selector, 'autostart': node_autostart, 'migration_method': migration_method } data = { 'xml': xml } response = call_api(config, 'post', '/vm', params=params, data=data) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def vm_modify(config, vm, xml, restart): """ Modify the configuration of VM API endpoint: PUT /vm/{vm} API arguments: xml={xml}, restart={restart} API schema: {"message":"{data}"} """ params = { 'restart': restart } data = { 'xml': xml } response = call_api(config, 'put', '/vm/{vm}'.format(vm=vm), params=params, data=data) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def vm_metadata(config, vm, node_limit, node_selector, node_autostart, migration_method, provisioner_profile): """ Modify PVC metadata of a VM API endpoint: GET /vm/{vm}/meta, POST /vm/{vm}/meta API arguments: limit={node_limit}, selector={node_selector}, autostart={node_autostart}, migration_method={migration_method} profile={provisioner_profile} API schema: {"message":"{data}"} """ params = dict() # Update any params that we've sent if node_limit is not None: params['limit'] = node_limit if node_selector is not None: params['selector'] = node_selector if node_autostart is not None: params['autostart'] = node_autostart if migration_method is not None: params['migration_method'] = migration_method if provisioner_profile is not None: params['profile'] = provisioner_profile # Write the new metadata response = call_api(config, 'post', '/vm/{vm}/meta'.format(vm=vm), params=params) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def vm_remove(config, vm, delete_disks=False): """ Remove a VM API endpoint: DELETE /vm/{vm} API arguments: delete_disks={delete_disks} API schema: {"message":"{data}"} """ params={ 'delete_disks': delete_disks } response = call_api(config, 'delete', '/vm/{vm}'.format(vm=vm), params=params) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def vm_state(config, vm, target_state, wait=False): """ Modify the current state of VM API endpoint: POST /vm/{vm}/state API arguments: state={state}, wait={wait} API schema: {"message":"{data}"} """ params={ 'state': target_state, 'wait': str(wait).lower() } response = call_api(config, 'post', '/vm/{vm}/state'.format(vm=vm), params=params) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def vm_node(config, vm, target_node, action, force=False, wait=False, force_live=False): """ Modify the current node of VM via {action} API endpoint: POST /vm/{vm}/node API arguments: node={target_node}, action={action}, force={force}, wait={wait}, force_live={force_live} API schema: {"message":"{data}"} """ params={ 'node': target_node, 'action': action, 'force': str(force).lower(), 'wait': str(wait).lower(), 'force_live': str(force_live).lower() } response = call_api(config, 'post', '/vm/{vm}/node'.format(vm=vm), params=params) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def vm_locks(config, vm): """ Flush RBD locks of (stopped) VM API endpoint: POST /vm/{vm}/locks API arguments: API schema: {"message":"{data}"} """ response = call_api(config, 'post', '/vm/{vm}/locks'.format(vm=vm)) if response.status_code == 200: retstatus = True else: retstatus = False return retstatus, response.json().get('message', '') def view_console_log(config, vm, lines=100): """ Return console log lines from the API (and display them in a pager in the main CLI) API endpoint: GET /vm/{vm}/console API arguments: lines={lines} API schema: {"name":"{vmname}","data":"{console_log}"} """ params = { 'lines': lines } response = call_api(config, 'get', '/vm/{vm}/console'.format(vm=vm), params=params) if response.status_code != 200: return False, response.json().get('message', '') console_log = response.json()['data'] # Shrink the log buffer to length lines shrunk_log = console_log.split('\n')[-lines:] loglines = '\n'.join(shrunk_log) return True, loglines def follow_console_log(config, vm, lines=10): """ Return and follow console log lines from the API API endpoint: GET /vm/{vm}/console API arguments: lines={lines} API schema: {"name":"{vmname}","data":"{console_log}"} """ params = { 'lines': lines } response = call_api(config, 'get', '/vm/{vm}/console'.format(vm=vm), params=params) if response.status_code != 200: return False, response.json().get('message', '') # Shrink the log buffer to length lines console_log = response.json()['data'] shrunk_log = console_log.split('\n')[-lines:] loglines = '\n'.join(shrunk_log) # Print the initial data and begin following print(loglines, end='') while True: # Grab the next line set try: response = call_api(config, 'get', '/vm/{vm}/console'.format(vm=vm), params=params) new_console_log = response.json()['data'] except Exception: break # Split the new and old log strings into constitutent lines old_console_loglines = console_log.split('\n') new_console_loglines = new_console_log.split('\n') # Set the console log to the new log value for the next iteration console_log = new_console_log # Remove the lines from the old log until we hit the first line of the new log; this # ensures that the old log is a string that we can remove from the new log entirely for index, line in enumerate(old_console_loglines, start=0): if line == new_console_loglines[0]: del old_console_loglines[0:index] break # Rejoin the log lines into strings old_console_log = '\n'.join(old_console_loglines) new_console_log = '\n'.join(new_console_loglines) # Remove the old lines from the new log diff_console_log = new_console_log.replace(old_console_log, "") # If there's a difference, print it out if diff_console_log: print(diff_console_log, end='') # Wait a second time.sleep(1) return True, '' # # Output display functions # def format_info(config, domain_information, long_output): # Format a nice output; do this line-by-line then concat the elements at the end ainformation = [] ainformation.append('{}Virtual machine information:{}'.format(ansiprint.bold(), ansiprint.end())) ainformation.append('') # Basic information ainformation.append('{}UUID:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['uuid'])) ainformation.append('{}Name:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['name'])) ainformation.append('{}Description:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['description'])) ainformation.append('{}Profile:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['profile'])) ainformation.append('{}Memory (M):{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['memory'])) ainformation.append('{}vCPUs:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['vcpu'])) ainformation.append('{}Topology (S/C/T):{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['vcpu_topology'])) if long_output == True: # Virtualization information ainformation.append('') ainformation.append('{}Emulator:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['emulator'])) ainformation.append('{}Type:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['type'])) ainformation.append('{}Arch:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['arch'])) ainformation.append('{}Machine:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['machine'])) ainformation.append('{}Features:{} {}'.format(ansiprint.purple(), ansiprint.end(), ' '.join(domain_information['features']))) ainformation.append('') ainformation.append('{0}Memory stats:{1} {2}Swap In Swap Out Faults (maj/min) Available Usable Unused RSS{3}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), ansiprint.end())) ainformation.append(' {0: <7} {1: <8} {2: <16} {3: <10} {4: <7} {5: <7} {6: <10}'.format( format_metric(domain_information['memory_stats'].get('swap_in')), format_metric(domain_information['memory_stats'].get('swap_out')), '/'.join([format_metric(domain_information['memory_stats'].get('major_fault')), format_metric(domain_information['memory_stats'].get('minor_fault'))]), format_bytes(domain_information['memory_stats'].get('available')*1024), format_bytes(domain_information['memory_stats'].get('usable')*1024), format_bytes(domain_information['memory_stats'].get('unused')*1024), format_bytes(domain_information['memory_stats'].get('rss')*1024) )) ainformation.append('') ainformation.append('{0}vCPU stats:{1} {2}CPU time (ns) User time (ns) System time (ns){3}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), ansiprint.end())) ainformation.append(' {0: <16} {1: <16} {2: <15}'.format( str(domain_information['vcpu_stats'].get('cpu_time')), str(domain_information['vcpu_stats'].get('user_time')), str(domain_information['vcpu_stats'].get('system_time')) )) # PVC cluster information ainformation.append('') dstate_colour = { 'start': ansiprint.green(), 'restart': ansiprint.yellow(), 'shutdown': ansiprint.yellow(), 'stop': ansiprint.red(), 'disable': ansiprint.blue(), 'fail': ansiprint.red(), 'migrate': ansiprint.blue(), 'unmigrate': ansiprint.blue(), 'provision': ansiprint.blue() } ainformation.append('{}State:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), dstate_colour[domain_information['state']], domain_information['state'], ansiprint.end())) ainformation.append('{}Current Node:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['node'])) if not domain_information['last_node']: domain_information['last_node'] = "N/A" ainformation.append('{}Previous Node:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['last_node'])) # Get a failure reason if applicable if domain_information['failed_reason']: ainformation.append('') ainformation.append('{}Failure reason:{} {}'.format(ansiprint.purple(), ansiprint.end(), domain_information['failed_reason'])) if not domain_information.get('node_selector'): formatted_node_selector = "False" else: formatted_node_selector = domain_information['node_selector'] if not domain_information.get('node_limit'): formatted_node_limit = "False" else: formatted_node_limit = ', '.join(domain_information['node_limit']) if not domain_information.get('node_autostart'): formatted_node_autostart = "False" else: formatted_node_autostart = domain_information['node_autostart'] if not domain_information.get('migration_method'): formatted_migration_method = "none" else: formatted_migration_method = domain_information['migration_method'] ainformation.append('{}Migration selector:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_node_selector)) ainformation.append('{}Node limit:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_node_limit)) ainformation.append('{}Autostart:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_node_autostart)) ainformation.append('{}Migration Method:{} {}'.format(ansiprint.purple(), ansiprint.end(), formatted_migration_method)) # Network list net_list = [] for net in domain_information['networks']: # Split out just the numerical (VNI) part of the brXXXX name net_vnis = re.findall(r'\d+', net['source']) if net_vnis: net_vni = net_vnis[0] else: net_vni = re.sub('br', '', net['source']) response = call_api(config, 'get', '/network/{net}'.format(net=net_vni)) if response.status_code != 200 and net_vni not in ['cluster', 'storage', 'upstream']: net_list.append(ansiprint.red() + net_vni + ansiprint.end() + ' [invalid]') else: net_list.append(net_vni) ainformation.append('') ainformation.append('{}Networks:{} {}'.format(ansiprint.purple(), ansiprint.end(), ', '.join(net_list))) if long_output == True: # Disk list ainformation.append('') name_length = 0 for disk in domain_information['disks']: _name_length = len(disk['name']) + 1 if _name_length > name_length: name_length = _name_length ainformation.append('{0}Disks:{1} {2}ID Type {3: <{width}} Dev Bus Requests (r/w) Data (r/w){4}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), 'Name', ansiprint.end(), width=name_length)) for disk in domain_information['disks']: ainformation.append(' {0: <3} {1: <5} {2: <{width}} {3: <4} {4: <5} {5: <15} {6}'.format( domain_information['disks'].index(disk), disk['type'], disk['name'], disk['dev'], disk['bus'], '/'.join([str(format_metric(disk['rd_req'])), str(format_metric(disk['wr_req']))]), '/'.join([str(format_bytes(disk['rd_bytes'])), str(format_bytes(disk['wr_bytes']))]), width=name_length )) ainformation.append('') ainformation.append('{}Interfaces:{} {}ID Type Source Model MAC Data (r/w) Packets (r/w) Errors (r/w){}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), ansiprint.end())) for net in domain_information['networks']: ainformation.append(' {0: <3} {1: <7} {2: <10} {3: <8} {4: <18} {5: <12} {6: <15} {7: <12}'.format( domain_information['networks'].index(net), net['type'], net['source'], net['model'], net['mac'], '/'.join([str(format_bytes(net['rd_bytes'])), str(format_bytes(net['wr_bytes']))]), '/'.join([str(format_metric(net['rd_packets'])), str(format_metric(net['wr_packets']))]), '/'.join([str(format_metric(net['rd_errors'])), str(format_metric(net['wr_errors']))]), )) # Controller list ainformation.append('') ainformation.append('{}Controllers:{} {}ID Type Model{}'.format(ansiprint.purple(), ansiprint.end(), ansiprint.bold(), ansiprint.end())) for controller in domain_information['controllers']: ainformation.append(' {0: <3} {1: <14} {2: <8}'.format(domain_information['controllers'].index(controller), controller['type'], controller['model'])) # Join it all together ainformation.append('') return '\n'.join(ainformation) def format_list(config, vm_list, raw): # Handle single-element lists if not isinstance(vm_list, list): vm_list = [ vm_list ] # Function to strip the "br" off of nets and return a nicer list def getNiceNetID(domain_information): # Network list net_list = [] for net in domain_information['networks']: # Split out just the numerical (VNI) part of the brXXXX name net_vnis = re.findall(r'\d+', net['source']) if net_vnis: net_vni = net_vnis[0] else: net_vni = re.sub('br', '', net['source']) net_list.append(net_vni) return net_list # Handle raw mode since it just lists the names if raw: ainformation = list() for vm in sorted(item['name'] for item in vm_list): ainformation.append(vm) return '\n'.join(ainformation) vm_list_output = [] # Determine optimal column widths # Dynamic columns: node_name, node, migrated vm_name_length = 5 vm_uuid_length = 37 vm_state_length = 6 vm_nets_length = 9 vm_ram_length = 8 vm_vcpu_length = 6 vm_node_length = 8 vm_migrated_length = 10 for domain_information in vm_list: net_list = getNiceNetID(domain_information) # vm_name column _vm_name_length = len(domain_information['name']) + 1 if _vm_name_length > vm_name_length: vm_name_length = _vm_name_length # vm_state column _vm_state_length = len(domain_information['state']) + 1 if _vm_state_length > vm_state_length: vm_state_length = _vm_state_length # vm_nets column _vm_nets_length = len(','.join(net_list)) + 1 if _vm_nets_length > vm_nets_length: vm_nets_length = _vm_nets_length # vm_node column _vm_node_length = len(domain_information['node']) + 1 if _vm_node_length > vm_node_length: vm_node_length = _vm_node_length # vm_migrated column _vm_migrated_length = len(domain_information['migrated']) + 1 if _vm_migrated_length > vm_migrated_length: vm_migrated_length = _vm_migrated_length # Format the string (header) vm_list_output.append( '{bold}{vm_name: <{vm_name_length}} {vm_uuid: <{vm_uuid_length}} \ {vm_state_colour}{vm_state: <{vm_state_length}}{end_colour} \ {vm_networks: <{vm_nets_length}} \ {vm_memory: <{vm_ram_length}} {vm_vcpu: <{vm_vcpu_length}} \ {vm_node: <{vm_node_length}} \ {vm_migrated: <{vm_migrated_length}}{end_bold}'.format( vm_name_length=vm_name_length, vm_uuid_length=vm_uuid_length, vm_state_length=vm_state_length, vm_nets_length=vm_nets_length, vm_ram_length=vm_ram_length, vm_vcpu_length=vm_vcpu_length, vm_node_length=vm_node_length, vm_migrated_length=vm_migrated_length, bold=ansiprint.bold(), end_bold=ansiprint.end(), vm_state_colour='', end_colour='', vm_name='Name', vm_uuid='UUID', vm_state='State', vm_networks='Networks', vm_memory='RAM (M)', vm_vcpu='vCPUs', vm_node='Node', vm_migrated='Migrated' ) ) # Keep track of nets we found to be valid to cut down on duplicate API hits valid_net_list = [] # Format the string (elements) for domain_information in vm_list: if domain_information['state'] == 'start': vm_state_colour = ansiprint.green() elif domain_information['state'] == 'restart': vm_state_colour = ansiprint.yellow() elif domain_information['state'] == 'shutdown': vm_state_colour = ansiprint.yellow() elif domain_information['state'] == 'stop': vm_state_colour = ansiprint.red() elif domain_information['state'] == 'fail': vm_state_colour = ansiprint.red() else: vm_state_colour = ansiprint.blue() # Handle colouring for an invalid network config raw_net_list = getNiceNetID(domain_information) net_list = [] vm_net_colour = '' for net_vni in raw_net_list: if not net_vni in valid_net_list: response = call_api(config, 'get', '/network/{net}'.format(net=net_vni)) if response.status_code != 200 and net_vni not in ['cluster', 'storage', 'upstream']: vm_net_colour = ansiprint.red() else: valid_net_list.append(net_vni) net_list.append(net_vni) vm_list_output.append( '{bold}{vm_name: <{vm_name_length}} {vm_uuid: <{vm_uuid_length}} \ {vm_state_colour}{vm_state: <{vm_state_length}}{end_colour} \ {vm_net_colour}{vm_networks: <{vm_nets_length}}{end_colour} \ {vm_memory: <{vm_ram_length}} {vm_vcpu: <{vm_vcpu_length}} \ {vm_node: <{vm_node_length}} \ {vm_migrated: <{vm_migrated_length}}{end_bold}'.format( vm_name_length=vm_name_length, vm_uuid_length=vm_uuid_length, vm_state_length=vm_state_length, vm_nets_length=vm_nets_length, vm_ram_length=vm_ram_length, vm_vcpu_length=vm_vcpu_length, vm_node_length=vm_node_length, vm_migrated_length=vm_migrated_length, bold='', end_bold='', vm_state_colour=vm_state_colour, end_colour=ansiprint.end(), vm_name=domain_information['name'], vm_uuid=domain_information['uuid'], vm_state=domain_information['state'], vm_net_colour=vm_net_colour, vm_networks=','.join(net_list), vm_memory=domain_information['memory'], vm_vcpu=domain_information['vcpu'], vm_node=domain_information['node'], vm_migrated=domain_information['migrated'] ) ) return '\n'.join(sorted(vm_list_output))