X-Git-Url: http://git.onelab.eu/?a=blobdiff_plain;f=tests%2FTest.py;fp=tests%2FTest.py;h=0000000000000000000000000000000000000000;hb=f94ac5dd09a52407b0be0a700def13263d73fc98;hp=8ff3ad2e643d1f94e275922600787c8ba59a8b57;hpb=69e72e78ebbbbe135267d2ff0b0f10a0cf4937ac;p=plcapi.git diff --git a/tests/Test.py b/tests/Test.py deleted file mode 100755 index 8ff3ad2..0000000 --- a/tests/Test.py +++ /dev/null @@ -1,281 +0,0 @@ -#!/usr/bin/python -# -# Test script for peer caching -# -# Mark Huang -# Copyright (C) 2006 The Trustees of Princeton University -# -# $Id$ -# - -""" -Test script for peer caching. Intended for testing multiple PLCs -running on the same machine in different chroots. Here is how I set -things up after installing and configuring MyPLC: - -# Shut down MyPLC -service plc stop - -# Copy to /plc2 -cp -ra /plc /plc2 -ln -sf plc /etc/init.d/plc2 -echo 'PLC_ROOT=/plc2/root' > /etc/sysconfig/plc2 -echo 'PLC_DATA=/plc2/data' >> /etc/sysconfig/plc2 - -# Edit /plc2/data/etc/planetlab/plc_config.xml and change at least the -# following so that they do not conflict with the defaults: -# -# PLC_NAME (e.g., PlanetLab Two) -# PLC_SLICE_PREFIX (e.g., two) -# PLC_ROOT_USER (e.g., root@planetlab.two) -# PLC_API_MAINTENANCE_USER (e.g., maint@planetlab.two) -# PLC_DB_PORT (e.g., 5433) -# PLC_WWW_PORT (e.g., 81) -# PLC_WWW_SSL_PORT (e.g., 444) -# PLC_API_PORT (must be the same as PLC_WWW_SSL_PORT, e.g., 444) -# PLC_BOOT_SSL_PORT (must be the same as PLC_WWW_SSL_PORT, e.g., 444) -# PLC_BOOT_PORT (may be the same as PLC_WWW_PORT, e.g., 81) - -# Start up both MyPLC instances -service plc start -service plc2 start - -# Run test -./Test.py -f /etc/planetlab/plc_config -f /plc2/data/etc/planetlab/plc_config - -# If the test fails and your databases are corrupt and/or you want to -# start over, you can always just blow the databases away. -service plc stop -rm -rf /plc/data/var/lib/pgsql/data -service plc start - -service plc2 stop -rm -rf /plc2/data/var/lib/pgsql/data -service plc2 start -""" - -import re -from optparse import OptionParser - -from PLC.Config import Config -from PLC.GPG import gpg_export -from PLC.Shell import Shell -from PLC.Test import Test - -def todict(list_of_dicts, key): - """ - Turn a list of dicts into a dict keyed on key. - """ - - return dict([(d[key], d) for d in list_of_dicts]) - -def RefreshPeers(plcs): - """ - Refresh each peer with each other. - """ - - for plc in plcs: - for peer in plcs: - if peer == plc: - continue - - print plc.config.PLC_NAME, "refreshing", peer.config.PLC_NAME - plc.RefreshPeer(peer.config.PLC_NAME) - - peer_id = plc.GetPeers([peer.config.PLC_NAME])[0]['peer_id'] - - peer_sites = todict(plc.GetSites({'peer_id': peer_id}), 'site_id') - sites_at_peer = todict(peer.GetSites(), 'site_id') - - peer_keys = todict(plc.GetKeys({'peer_id': peer_id}), 'key_id') - keys_at_peer = todict(peer.GetKeys(), 'key_id') - - peer_persons = todict(plc.GetPersons({'peer_id': peer_id}), 'person_id') - persons_at_peer = todict(peer.GetPersons(), 'person_id') - - peer_nodes = todict(plc.GetNodes({'peer_id': peer_id}), 'node_id') - nodes_at_peer = todict(peer.GetNodes(), 'node_id') - - our_nodes = todict(plc.GetNodes({'peer_id': None}), 'node_id') - our_peer_id_at_peer = peer.GetPeers([plc.config.PLC_NAME])[0]['peer_id'] - our_nodes_at_peer = todict(peer.GetNodes({'peer_id': our_peer_id_at_peer, - 'peer_node_id': our_nodes.keys()}), 'peer_node_id') - - peer_slices = todict(plc.GetSlices({'peer_id': peer_id}), 'peer_slice_id') - slices_at_peer = todict(peer.GetSlices(), 'slice_id') - - for site_id, site in peer_sites.iteritems(): - # Verify that this site exists at the peer - peer_site_id = site['peer_site_id'] - assert peer_site_id in sites_at_peer - peer_site = sites_at_peer[peer_site_id] - - # And is the same - for field in ['name', 'abbreviated_name', 'login_base', 'is_public', - 'latitude', 'longitude', 'url', - 'max_slices', 'max_slivers',]: - assert site[field] == peer_site[field] - - for key_id, key in peer_keys.iteritems(): - # Verify that this key exists at the peer - peer_key_id = key['peer_key_id'] - assert peer_key_id in keys_at_peer - peer_key = keys_at_peer[peer_key_id] - - # And is the same - for field in ['key_type', 'key']: - assert key[field] == peer_key[field] - - for person_id, person in peer_persons.iteritems(): - # Verify that this user exists at the peer - peer_person_id = person['peer_person_id'] - assert peer_person_id in persons_at_peer - peer_person = persons_at_peer[peer_person_id] - - # And is the same - for field in ['first_name', 'last_name', 'title', 'email', 'phone', - 'url', 'bio', 'enabled']: - assert person[field] == peer_person[field] - - for key_id in person['key_ids']: - # Verify that the user is not associated with any local keys - assert key_id in peer_keys - key = peer_keys[key_id] - peer_key_id = key['peer_key_id'] - - # Verify that this key exists at the peer - assert peer_key_id in keys_at_peer - peer_key = keys_at_peer[peer_key_id] - - # And is related to the same user at the peer - assert peer_key['key_id'] in peer_person['key_ids'] - - for node_id, node in peer_nodes.iteritems(): - # Verify that this node exists at the peer - peer_node_id = node['peer_node_id'] - assert peer_node_id in nodes_at_peer - peer_node = nodes_at_peer[peer_node_id] - - # And is the same - for field in ['boot_state', 'ssh_rsa_key', 'hostname', - 'version', 'model']: - assert node[field] == peer_node[field] - - # Verify that the node is not associated with any local sites - assert node['site_id'] in peer_sites - site = peer_sites[node['site_id']] - - # Verify that this site exists at the peer - peer_site_id = site['peer_site_id'] - assert peer_site_id in sites_at_peer - peer_site = sites_at_peer[peer_site_id] - - # And is related to the same node at the peer - assert peer_site['site_id'] == peer_node['site_id'] - - for slice_id, slice in peer_slices.iteritems(): - # Verify that this slice exists at the peer - peer_slice_id = slice['peer_slice_id'] - assert peer_slice_id in slices_at_peer - peer_slice = slices_at_peer[peer_slice_id] - - # And is the same - for field in ['name', 'instantiation', 'url', 'description', - 'max_nodes', 'expires']: - assert slice[field] == peer_slice[field] - - for node_id in slice['node_ids']: - # Verify that the slice is associated only with - # the peer's own nodes, or with our nodes as - # last cached by the peer. - assert node_id in peer_nodes or node_id in our_nodes_at_peer - if node_id in peer_nodes: - node = peer_nodes[node_id] - peer_node_id = node['peer_node_id'] - elif node_id in our_nodes_at_peer: - peer_node = our_nodes_at_peer[node_id] - peer_node_id = peer_node['node_id'] - - # Verify that this node exists at the peer - assert peer_node_id in nodes_at_peer - - # And is related to the same slice at the peer - assert peer_node_id in peer_slice['node_ids'] - -def TestPeers(plcs, check = True, verbose = True, tiny = False): - # Register each peer with each other - for plc in plcs: - for peer in plcs: - if peer == plc: - continue - - key = gpg_export(peer.chroot + peer.config.PLC_ROOT_GPG_KEY_PUB) - cacert = file(peer.chroot + peer.config.PLC_API_CA_SSL_CRT).read() - - if plc.GetPeers([peer.config.PLC_NAME]): - print plc.config.PLC_NAME, "updating peer", peer.config.PLC_NAME - plc.UpdatePeer(peer.config.PLC_NAME, - {'peer_url': peer.url, 'key': key, 'cacert': cacert}) - else: - print plc.config.PLC_NAME, "adding peer", peer.config.PLC_NAME - plc.AddPeer({'peername': peer.config.PLC_NAME, - 'peer_url': peer.url, 'key': key, 'cacert': cacert}) - - # Populate the DB - plc.test = Test(api = plc, check = check, verbose = verbose) - - if tiny: - params = Test.tiny - else: - params = Test.default - - print "Populating", plc.config.PLC_NAME - plc.test.Add(**params) - - # Refresh each other - RefreshPeers(plcs) - - # Change some things - for plc in plcs: - print "Updating", plc.config.PLC_NAME - plc.test.Update() - - # Refresh each other again - RefreshPeers(plcs) - -def main(): - parser = OptionParser() - parser.add_option("-f", "--config", dest = "configs", action = "append", default = [], help = "Configuration file (default: %default)") - parser.add_option("-c", "--check", action = "store_true", default = False, help = "Verify actions (default: %default)") - parser.add_option("-q", "--quiet", action = "store_true", default = False, help = "Be quiet (default: %default)") - parser.add_option("-t", "--tiny", action = "store_true", default = False, help = "Run a tiny test (default: %default)") - (options, args) = parser.parse_args() - - # Test single peer by default - if not options.configs: - options.configs = ["/etc/planetlab/plc_config"] - - plcs = [] - for path in options.configs: - # Load configuration file - config = Config(path) - - # Determine path to chroot - m = re.match(r'(.*)/etc/planetlab', path) - if m is not None: - chroot = m.group(1) - else: - chroot = "" - - # Fix up path to SSL certificate - cacert = chroot + config.PLC_API_CA_SSL_CRT - - # Always connect with XML-RPC - plc = Shell(config = path, cacert = cacert, xmlrpc = True) - plc.chroot = chroot - plcs.append(plc) - - TestPeers(plcs, check = options.check, verbose = not options.quiet, tiny = options.tiny) - -if __name__ == "__main__": - main()