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#!/usr/bin/python -S
# Copyright 2011 Canonical Ltd. This software is licensed under the
# GNU Affero General Public License version 3 (see the file LICENSE).
"""Generate slonik scripts for Slony 1.2 to 2.0 migration.
Remove this script after migration is complete.
"""
__metaclass__ = type
__all__ = []
import _pythonpath
from optparse import OptionParser
import os.path
from textwrap import dedent
from canonical.config import config
from canonical.database.sqlbase import connect
from canonical.launchpad import scripts
import replication.helpers
from replication.helpers import (
LPMAIN_SET_ID,
LPMIRROR_SET_ID,
SSO_SET_ID,
get_all_cluster_nodes,
get_master_node,
)
con = None
options = None
sets = {
LPMAIN_SET_ID: 'lpmain_set',
SSO_SET_ID: 'sso_set',
LPMIRROR_SET_ID: 'lpmirror_set',
}
def outpath(filename):
return os.path.join(options.outdir, filename)
def message(outf, msg):
assert "'" not in msg
print >> outf, "echo '%s';" % msg
def generate_preamble():
outf = open(outpath('mig_preamble.sk'), 'w')
print >> outf, replication.helpers.preamble(con)
cur = con.cursor()
for set_id, set_name in list(sets.items()):
cur.execute(
"SELECT set_origin FROM _sl.sl_set WHERE set_id=%s", [set_id])
result = cur.fetchone()
if result:
origin = result[0]
print >> outf, "define %s_origin %d;" % (set_name, origin)
else:
del sets[set_id] # For testing. Production will have 3 sets.
outf.close()
def generate_uninstall():
outf = open(outpath('mig_uninstall.sk'), 'w')
print >> outf, "# Uninstall Slony-I 1.2 from all nodes"
print >> outf, "include <mig_preamble.sk>;"
nodes = get_all_cluster_nodes(con)
# Ensure everything is really, really synced since we will be
# resubscribing with 'omit copy'
for node in nodes:
print >> outf, dedent("""\
sync (id=%d);
wait for event (origin=%d, confirmed=all, wait on=%d);
""").strip() % (node.node_id, node.node_id, node.node_id)
for node in nodes:
message(outf, "Uninstall node %d" % node.node_id)
print >> outf, "uninstall node (id=%d);" % node.node_id
outf.close()
def generate_sync():
outf = open(outpath('mig_sync.sk'), 'w')
message(outf, "Waiting for sync")
print >> outf, "sync (id=@master_node);"
print >> outf, dedent("""\
wait for event (
origin=@master_node, confirmed=all, wait on=@master_node);
""").strip()
outf.close()
def generate_rebuild():
outf = open(outpath('mig_rebuild.sk'), 'w')
print >> outf, "# Rebuild the replication cluster with Slony-I 2.0"
print >> outf, "include <mig_preamble.sk>;"
nodes = get_all_cluster_nodes(con)
first_node = nodes[0]
remaining_nodes = nodes[1:]
# Initialize the cluster
message(outf, "Initializing cluster (node %d)" % first_node.node_id)
print >> outf, "init cluster (id=%d);" % first_node.node_id
# Create all the other nodes
for node in remaining_nodes:
message(outf, "Initializing node %d" % node.node_id)
print >> outf, "store node (id=%d, event node=%d);" % (
node.node_id, first_node.node_id)
# Create paths so they can communicate.
message(outf, "Storing %d paths" % pow(len(nodes),2))
for client_node in nodes:
for server_node in nodes:
print >> outf, (
"store path (server=%d, client=%d, "
"conninfo=@node%d_node_conninfo);" % (
server_node.node_id, client_node.node_id,
server_node.node_id))
# sync to ensure replication is happening.
print >> outf, "include <mig_sync.sk>;"
# Create replication sets.
for set_id, set_name in sets.items():
generate_initialize_set(set_id, set_name, outf)
print >> outf, "include <mig_sync.sk>;"
# Subscribe slave nodes to replication sets.
for set_id, set_name in sets.items():
generate_subscribe_set(set_id, set_name, outf)
outf.close()
def generate_initialize_set(set_id, set_name, outf):
origin_node = get_master_node(con, set_id)
message(outf, "Creating %s origin %d" % (set_name, origin_node.node_id))
print >> outf, "create set (id=%d, origin=@%s_origin, comment='%s');" % (
set_id, set_name, set_name)
cur = con.cursor()
cur.execute("""
SELECT tab_id, tab_nspname, tab_relname, tab_comment
FROM _sl.sl_table WHERE tab_set=%s
""", (set_id,))
results = cur.fetchall()
message(outf, "Adding %d tables to %s" % (len(results), set_name))
for tab_id, tab_nspname, tab_relname, tab_comment in results:
if not tab_comment:
tab_comment=''
print >> outf, dedent("""\
set add table (
set id=@%s, origin=@%s_origin, id=%d,
fully qualified name='%s.%s',
comment='%s');
""").strip() % (
set_name, set_name, tab_id,
tab_nspname, tab_relname, tab_comment)
cur.execute("""
SELECT seq_id, seq_nspname, seq_relname, seq_comment
FROM _sl.sl_sequence WHERE seq_set=%s
""", (set_id,))
results = cur.fetchall()
message(outf, "Adding %d sequences to %s" % (len(results), set_name))
for seq_id, seq_nspname, seq_relname, seq_comment in results:
if not seq_comment:
seq_comment=''
print >> outf, dedent("""\
set add sequence (
set id=@%s, origin=@%s_origin, id=%d,
fully qualified name='%s.%s',
comment='%s');
""").strip() % (
set_name, set_name, seq_id,
seq_nspname, seq_relname, seq_comment)
def generate_subscribe_set(set_id, set_name, outf):
origin_node = get_master_node(con, set_id)
cur = con.cursor()
cur.execute("""
SELECT sub_receiver FROM _sl.sl_subscribe
WHERE sub_set=%s and sub_active is true
""", (set_id,))
for receiver_id, in cur.fetchall():
message(outf, "Subscribing node %d to %s" % (receiver_id, set_name))
print >> outf, dedent("""\
subscribe set (
id=%d, provider=@%s_origin, receiver=%d,
forward=true, omit copy=true);
wait for event (
origin=@%s_origin, confirmed=all, wait on=@%s_origin);
""").strip() % (
set_id, set_name, receiver_id,
set_name, set_name)
print >> outf, "include <mig_sync.sk>;"
def main():
parser = OptionParser()
scripts.db_options(parser)
parser.add_option(
"-o", "--output-dir", dest='outdir', default=".",
help="Write slonik scripts to DIR", metavar="DIR")
global options
options, args = parser.parse_args()
if args:
parser.error("Too many arguments")
scripts.execute_zcml_for_scripts(use_web_security=False)
global con
con = connect()
generate_preamble()
generate_sync()
generate_uninstall()
generate_rebuild()
return 0
if __name__ == '__main__':
raise SystemExit(main())
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