view hgext/infinitepush/sqlindexapi.py @ 38794:1d01cf0416a5

changegroup: move file matcher from narrow extension Sparse changegroup generation requires the use of a matcher to filter which files are relevant. This commit moves the file matcher from the narrow extension to core and updates the narrow extension to use it. I'm not sure why the narrow extension was storing the matcher as a callable that resolved to a matcher. So I changed it to be a simple matcher instance. In addition, code from narrow to intersect the matcher with the local narrow spec is now performed automatically when the changegroup packer is created. If a matcher is not passed into getbundler() an alwaysmatcher() is assumed. This ensures that a matcher is always defined for all operations. Differential Revision: https://phab.mercurial-scm.org/D4011
author Gregory Szorc <gregory.szorc@gmail.com>
date Sat, 28 Jul 2018 11:40:31 -0700
parents c1fac3878196
children 2372284d9457
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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 . import indexapi

def _convertbookmarkpattern(pattern):
    pattern = pattern.replace('_', '\\_')
    pattern = pattern.replace('%', '\\%')
    if pattern.endswith('*'):
        pattern = pattern[:-1] + '%'
    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 = {
            'host': host,
            'port': port,
            'database': database,
            'user': user,
            '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("SQL connection already open")
        if self.sqlcursor:
            raise indexapi.indexexception("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('%s' % self._waittimeout)

        self.sqlcursor = self.sqlconn.cursor()
        self.sqlcursor.execute("SET wait_timeout=%s" % waittimeout)
        self.sqlcursor.execute("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("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("ADD BUNDLE %r %r" % (self.reponame, bundleid))
        self.sqlcursor.execute(
            "INSERT INTO bundles(bundle, reponame) VALUES "
            "(%s, %s)", params=(bundleid, self.reponame))
        for ctx in nodesctx:
            self.sqlcursor.execute(
                "INSERT INTO nodestobundle(node, bundle, reponame) "
                "VALUES (%s, %s, %s) ON DUPLICATE KEY UPDATE "
                "bundle=VALUES(bundle)",
                params=(ctx.hex(), bundleid, self.reponame))

            extra = ctx.extra()
            author_name = ctx.user()
            committer_name = extra.get('committer', ctx.user())
            author_date = int(ctx.date()[0])
            committer_date = int(extra.get('committer_date', author_date))
            self.sqlcursor.execute(
                "INSERT IGNORE INTO nodesmetadata(node, message, p1, p2, "
                "author, committer, author_date, committer_date, "
                "reponame) VALUES "
                "(%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(
            "ADD BOOKMARKS %r bookmark: %r node: %r" %
            (self.reponame, bookmark, node))
        self.sqlcursor.execute(
            "INSERT INTO bookmarkstonode(bookmark, node, reponame) "
            "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 bookmarks.iteritems():
            args.append('(%s, %s, %s)')
            values.extend((bookmark, node, self.reponame))
        args = ','.join(args)

        self.sqlcursor.execute(
            "INSERT INTO bookmarkstonode(bookmark, node, reponame) "
            "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("DELETE BOOKMARKS: %s" % patterns)
        for pattern in patterns:
            pattern = _convertbookmarkpattern(pattern)
            self.sqlcursor.execute(
                "DELETE from bookmarkstonode WHERE bookmark LIKE (%s) "
                "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("GET BUNDLE %r %r" % (self.reponame, node))
        self.sqlcursor.execute(
            "SELECT bundle from nodestobundle "
            "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("No matching node")
            return None
        bundle = result[0][0]
        self.log.info("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(
            "GET NODE reponame: %r bookmark: %r" % (self.reponame, bookmark))
        self.sqlcursor.execute(
            "SELECT node from bookmarkstonode WHERE "
            "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("No matching bookmark")
            return None
        node = result[0][0]
        self.log.info("Found node %r" % node)
        return node

    def getbookmarks(self, query):
        if not self._connected:
            self.sqlconnect()
        self.log.info(
            "QUERY BOOKMARKS reponame: %r query: %r" % (self.reponame, query))
        query = _convertbookmarkpattern(query)
        self.sqlcursor.execute(
            "SELECT bookmark, node from bookmarkstonode WHERE "
            "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("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(
            ("INSERT METADATA, QUERY BOOKMARKS reponame: %r " +
             "node: %r, jsonmetadata: %s") %
            (self.reponame, node, jsonmetadata))

        self.sqlcursor.execute(
            "UPDATE nodesmetadata SET optional_json_metadata=%s WHERE "
            "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)