Mercurial > hg
view hgext/infinitepush/sqlindexapi.py @ 46154:ecbb2fc9418c
copies-rust: rename Oracle.is_ancestor to Oracle.is_overwrite
The core information that we want here is about "does information from revision
X overwrite information in Y". To do so, we check is X is an ancestors of Y, but
this is an implementation details, they could be other ways. We update the
naming to clarify this (and align more with wording used in upcoming changesets.
For people curious about other ways: for example we could record the overwrite
graph as it happens and reuse that to check if X overwrite Y, without having to
do potential expensive `is_ancestor` call on the revision graph.
Differential Revision: https://phab.mercurial-scm.org/D9496
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
---|---|
date | Wed, 02 Dec 2020 16:11:35 +0100 |
parents | 89a2afe31e82 |
children | 6000f5b25c9b |
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# Infinite push # # Copyright 2016 Facebook, Inc. # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import logging import os import time import warnings import mysql.connector from mercurial import pycompat from . import indexapi def _convertbookmarkpattern(pattern): pattern = pattern.replace(b'_', b'\\_') pattern = pattern.replace(b'%', b'\\%') if pattern.endswith(b'*'): pattern = pattern[:-1] + b'%' return pattern class sqlindexapi(indexapi.indexapi): """ Sql backend for infinitepush index. See schema.sql """ def __init__( self, reponame, host, port, database, user, password, logfile, loglevel, waittimeout=300, locktimeout=120, ): super(sqlindexapi, self).__init__() self.reponame = reponame self.sqlargs = { b'host': host, b'port': port, b'database': database, b'user': user, b'password': password, } self.sqlconn = None self.sqlcursor = None if not logfile: logfile = os.devnull logging.basicConfig(filename=logfile) self.log = logging.getLogger() self.log.setLevel(loglevel) self._connected = False self._waittimeout = waittimeout self._locktimeout = locktimeout def sqlconnect(self): if self.sqlconn: raise indexapi.indexexception(b"SQL connection already open") if self.sqlcursor: raise indexapi.indexexception( b"SQL cursor already open without connection" ) retry = 3 while True: try: self.sqlconn = mysql.connector.connect(**self.sqlargs) # Code is copy-pasted from hgsql. Bug fixes need to be # back-ported! # The default behavior is to return byte arrays, when we # need strings. This custom convert returns strings. self.sqlconn.set_converter_class(CustomConverter) self.sqlconn.autocommit = False break except mysql.connector.errors.Error: # mysql can be flakey occasionally, so do some minimal # retrying. retry -= 1 if retry == 0: raise time.sleep(0.2) waittimeout = self.sqlconn.converter.escape(b'%s' % self._waittimeout) self.sqlcursor = self.sqlconn.cursor() self.sqlcursor.execute(b"SET wait_timeout=%s" % waittimeout) self.sqlcursor.execute( b"SET innodb_lock_wait_timeout=%s" % self._locktimeout ) self._connected = True def close(self): """Cleans up the metadata store connection.""" with warnings.catch_warnings(): warnings.simplefilter(b"ignore") self.sqlcursor.close() self.sqlconn.close() self.sqlcursor = None self.sqlconn = None def __enter__(self): if not self._connected: self.sqlconnect() return self def __exit__(self, exc_type, exc_val, exc_tb): if exc_type is None: self.sqlconn.commit() else: self.sqlconn.rollback() def addbundle(self, bundleid, nodesctx): if not self._connected: self.sqlconnect() self.log.info(b"ADD BUNDLE %r %r" % (self.reponame, bundleid)) self.sqlcursor.execute( b"INSERT INTO bundles(bundle, reponame) VALUES (%s, %s)", params=(bundleid, self.reponame), ) for ctx in nodesctx: self.sqlcursor.execute( b"INSERT INTO nodestobundle(node, bundle, reponame) " b"VALUES (%s, %s, %s) ON DUPLICATE KEY UPDATE " b"bundle=VALUES(bundle)", params=(ctx.hex(), bundleid, self.reponame), ) extra = ctx.extra() author_name = ctx.user() committer_name = extra.get(b'committer', ctx.user()) author_date = int(ctx.date()[0]) committer_date = int(extra.get(b'committer_date', author_date)) self.sqlcursor.execute( b"INSERT IGNORE INTO nodesmetadata(node, message, p1, p2, " b"author, committer, author_date, committer_date, " b"reponame) VALUES " b"(%s, %s, %s, %s, %s, %s, %s, %s, %s)", params=( ctx.hex(), ctx.description(), ctx.p1().hex(), ctx.p2().hex(), author_name, committer_name, author_date, committer_date, self.reponame, ), ) def addbookmark(self, bookmark, node): """Takes a bookmark name and hash, and records mapping in the metadata store.""" if not self._connected: self.sqlconnect() self.log.info( b"ADD BOOKMARKS %r bookmark: %r node: %r" % (self.reponame, bookmark, node) ) self.sqlcursor.execute( b"INSERT INTO bookmarkstonode(bookmark, node, reponame) " b"VALUES (%s, %s, %s) ON DUPLICATE KEY UPDATE node=VALUES(node)", params=(bookmark, node, self.reponame), ) def addmanybookmarks(self, bookmarks): if not self._connected: self.sqlconnect() args = [] values = [] for bookmark, node in pycompat.iteritems(bookmarks): args.append(b'(%s, %s, %s)') values.extend((bookmark, node, self.reponame)) args = b','.join(args) self.sqlcursor.execute( b"INSERT INTO bookmarkstonode(bookmark, node, reponame) " b"VALUES %s ON DUPLICATE KEY UPDATE node=VALUES(node)" % args, params=values, ) def deletebookmarks(self, patterns): """Accepts list of bookmark patterns and deletes them. If `commit` is set then bookmark will actually be deleted. Otherwise deletion will be delayed until the end of transaction. """ if not self._connected: self.sqlconnect() self.log.info(b"DELETE BOOKMARKS: %s" % patterns) for pattern in patterns: pattern = _convertbookmarkpattern(pattern) self.sqlcursor.execute( b"DELETE from bookmarkstonode WHERE bookmark LIKE (%s) " b"and reponame = %s", params=(pattern, self.reponame), ) def getbundle(self, node): """Returns the bundleid for the bundle that contains the given node.""" if not self._connected: self.sqlconnect() self.log.info(b"GET BUNDLE %r %r" % (self.reponame, node)) self.sqlcursor.execute( b"SELECT bundle from nodestobundle " b"WHERE node = %s AND reponame = %s", params=(node, self.reponame), ) result = self.sqlcursor.fetchall() if len(result) != 1 or len(result[0]) != 1: self.log.info(b"No matching node") return None bundle = result[0][0] self.log.info(b"Found bundle %r" % bundle) return bundle def getnode(self, bookmark): """Returns the node for the given bookmark. None if it doesn't exist.""" if not self._connected: self.sqlconnect() self.log.info( b"GET NODE reponame: %r bookmark: %r" % (self.reponame, bookmark) ) self.sqlcursor.execute( b"SELECT node from bookmarkstonode WHERE " b"bookmark = %s AND reponame = %s", params=(bookmark, self.reponame), ) result = self.sqlcursor.fetchall() if len(result) != 1 or len(result[0]) != 1: self.log.info(b"No matching bookmark") return None node = result[0][0] self.log.info(b"Found node %r" % node) return node def getbookmarks(self, query): if not self._connected: self.sqlconnect() self.log.info( b"QUERY BOOKMARKS reponame: %r query: %r" % (self.reponame, query) ) query = _convertbookmarkpattern(query) self.sqlcursor.execute( b"SELECT bookmark, node from bookmarkstonode WHERE " b"reponame = %s AND bookmark LIKE %s", params=(self.reponame, query), ) result = self.sqlcursor.fetchall() bookmarks = {} for row in result: if len(row) != 2: self.log.info(b"Bad row returned: %s" % row) continue bookmarks[row[0]] = row[1] return bookmarks def saveoptionaljsonmetadata(self, node, jsonmetadata): if not self._connected: self.sqlconnect() self.log.info( ( b"INSERT METADATA, QUERY BOOKMARKS reponame: %r " + b"node: %r, jsonmetadata: %s" ) % (self.reponame, node, jsonmetadata) ) self.sqlcursor.execute( b"UPDATE nodesmetadata SET optional_json_metadata=%s WHERE " b"reponame=%s AND node=%s", params=(jsonmetadata, self.reponame, node), ) class CustomConverter(mysql.connector.conversion.MySQLConverter): """Ensure that all values being returned are returned as python string (versus the default byte arrays).""" def _STRING_to_python(self, value, dsc=None): return str(value) def _VAR_STRING_to_python(self, value, dsc=None): return str(value) def _BLOB_to_python(self, value, dsc=None): return str(value)