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testing: add interface unit tests for file storage Our strategy for supporting alternate storage backends is to define interfaces for everything then "code to the interface." We already have interfaces for various primitives, including file and manifest storage. What we don't have is generic unit tests for those interfaces. Up to this point we've been relying on high-level integration tests (mainly in the form of existing .t tests) to test alternate storage backends. And my experience with developing the "simple store" test extension is that such testing is very tedious: it takes several minutes to run all tests and when you find a failure, it is often non-trivial to debug. This commit starts to change that. This commit introduces the mercurial.testing.storage module. It contains testing code for storage. Currently, it defines some unittest.TestCase classes for testing the file storage interfaces. It also defines some factory functions that allow a caller to easily spawn a custom TestCase "bound" to a specific file storage backend implementation. A new .py test has been added. It simply defines a callable to produce filelog and transaction instances on demand and then "registers" the various test classes so the filelog class can be tested with the storage interface unit tests. As part of writing the tests, I identified a couple of apparent bugs in revlog.py and filelog.py! These are tracked with inline TODO comments. Writing the tests makes it more obvious where the storage interface is lacking. For example, we raise either IndexError or error.LookupError for missing revisions depending on whether we use an integer revision or a node. Also, we raise error.RevlogError in various places when we should be raising a storage-agnostic error type. The storage interfaces are currently far from perfect and there is much work to be done to improve them. But at least with this commit we finally have the start of unit tests that can be used to "qualify" the behavior of a storage backend. And when implementing and debugging new storage backends, we now have an obvious place to define new tests and have obvious places to insert breakpoints to facilitate debugging. This should be invaluable when implementing new storage backends. I added the mercurial.testing package because these interface conformance tests are generic and need to be usable by all storage backends. Having the code live in tests/ would make it difficult for storage backends implemented in extensions to test their interface conformance. First, it would require obtaining a copy of Mercurial's storage test code in order to test. Second, it would make testing against multiple Mercurial versions difficult, as you would need to import N copies of the storage testing code in order to achieve test coverage. By making the test code part of the Mercurial distribution itself, extensions can `import mercurial.testing.*` to access and run the test code. The test will run against whatever Mercurial version is active. FWIW I've always wanted to move parts of run-tests.py into the mercurial.* package to make the testing story simpler (e.g. imagine an `hg debugruntests` command that could invoke the test harness). While I have no plans to do that in the near future, establishing the mercurial.testing package does provide a natural home for that code should someone do this in the future. Differential Revision: https://phab.mercurial-scm.org/D4650
author Gregory Szorc <gregory.szorc@gmail.com>
date Tue, 18 Sep 2018 16:52:11 -0700
parents 88c1d13b637b
children 97e2442a4595
line wrap: on
line source

#!/usr/bin/env python

from __future__ import absolute_import, print_function

__doc__ = """Tiny HTTP Proxy.

This module implements GET, HEAD, POST, PUT and DELETE methods
on BaseHTTPServer, and behaves as an HTTP proxy.  The CONNECT
method is also implemented experimentally, but has not been
tested yet.

Any help will be greatly appreciated.           SUZUKI Hisao
"""

__version__ = "0.2.1"

import optparse
import os
import select
import socket
import sys

from mercurial import util

httpserver = util.httpserver
socketserver = util.socketserver
urlreq = util.urlreq

if os.environ.get('HGIPV6', '0') == '1':
    family = socket.AF_INET6
else:
    family = socket.AF_INET

class ProxyHandler (httpserver.basehttprequesthandler):
    __base = httpserver.basehttprequesthandler
    __base_handle = __base.handle

    server_version = "TinyHTTPProxy/" + __version__
    rbufsize = 0                        # self.rfile Be unbuffered

    def handle(self):
        (ip, port) = self.client_address
        allowed = getattr(self, 'allowed_clients', None)
        if allowed is not None and ip not in allowed:
            self.raw_requestline = self.rfile.readline()
            if self.parse_request():
                self.send_error(403)
        else:
            self.__base_handle()

    def log_request(self, code='-', size='-'):
        xheaders = [h for h in self.headers.items() if h[0].startswith('x-')]
        self.log_message('"%s" %s %s%s',
                         self.requestline, str(code), str(size),
                         ''.join([' %s:%s' % h for h in sorted(xheaders)]))
        # Flush for Windows, so output isn't lost on TerminateProcess()
        sys.stdout.flush()
        sys.stderr.flush()

    def _connect_to(self, netloc, soc):
        i = netloc.find(':')
        if i >= 0:
            host_port = netloc[:i], int(netloc[i + 1:])
        else:
            host_port = netloc, 80
        print("\t" "connect to %s:%d" % host_port)
        try: soc.connect(host_port)
        except socket.error as arg:
            try: msg = arg[1]
            except (IndexError, TypeError): msg = arg
            self.send_error(404, msg)
            return 0
        return 1

    def do_CONNECT(self):
        soc = socket.socket(family, socket.SOCK_STREAM)
        try:
            if self._connect_to(self.path, soc):
                self.log_request(200)
                self.wfile.write(self.protocol_version +
                                 " 200 Connection established\r\n")
                self.wfile.write("Proxy-agent: %s\r\n" % self.version_string())
                self.wfile.write("\r\n")
                self._read_write(soc, 300)
        finally:
            print("\t" "bye")
            soc.close()
            self.connection.close()

    def do_GET(self):
        (scm, netloc, path, params, query, fragment) = urlreq.urlparse(
            self.path, 'http')
        if scm != 'http' or fragment or not netloc:
            self.send_error(400, "bad url %s" % self.path)
            return
        soc = socket.socket(family, socket.SOCK_STREAM)
        try:
            if self._connect_to(netloc, soc):
                self.log_request()
                soc.send("%s %s %s\r\n" % (
                    self.command,
                    urlreq.urlunparse(('', '', path, params, query, '')),
                    self.request_version))
                self.headers['Connection'] = 'close'
                del self.headers['Proxy-Connection']
                for key_val in self.headers.items():
                    soc.send("%s: %s\r\n" % key_val)
                soc.send("\r\n")
                self._read_write(soc)
        finally:
            print("\t" "bye")
            soc.close()
            self.connection.close()

    def _read_write(self, soc, max_idling=20):
        iw = [self.connection, soc]
        ow = []
        count = 0
        while True:
            count += 1
            (ins, _, exs) = select.select(iw, ow, iw, 3)
            if exs:
                break
            if ins:
                for i in ins:
                    if i is soc:
                        out = self.connection
                    else:
                        out = soc
                    try:
                        data = i.recv(8192)
                    except socket.error:
                        break
                    if data:
                        out.send(data)
                        count = 0
            else:
                print("\t" "idle", count)
            if count == max_idling:
                break

    do_HEAD = do_GET
    do_POST = do_GET
    do_PUT  = do_GET
    do_DELETE = do_GET

class ThreadingHTTPServer (socketserver.ThreadingMixIn,
                           httpserver.httpserver):
    def __init__(self, *args, **kwargs):
        httpserver.httpserver.__init__(self, *args, **kwargs)
        a = open("proxy.pid", "w")
        a.write(str(os.getpid()) + "\n")
        a.close()

def runserver(port=8000, bind=""):
    server_address = (bind, port)
    ProxyHandler.protocol_version = "HTTP/1.0"
    httpd = ThreadingHTTPServer(server_address, ProxyHandler)
    sa = httpd.socket.getsockname()
    print("Serving HTTP on", sa[0], "port", sa[1], "...")
    try:
        httpd.serve_forever()
    except KeyboardInterrupt:
        print("\nKeyboard interrupt received, exiting.")
        httpd.server_close()
        sys.exit(0)

if __name__ == '__main__':
    argv = sys.argv
    if argv[1:] and argv[1] in ('-h', '--help'):
        print(argv[0], "[port [allowed_client_name ...]]")
    else:
        if argv[2:]:
            allowed = []
            for name in argv[2:]:
                client = socket.gethostbyname(name)
                allowed.append(client)
                print("Accept: %s (%s)" % (client, name))
            ProxyHandler.allowed_clients = allowed
            del argv[2:]
        else:
            print("Any clients will be served...")

        parser = optparse.OptionParser()
        parser.add_option('-b', '--bind', metavar='ADDRESS',
                          help='Specify alternate bind address '
                               '[default: all interfaces]', default='')
        (options, args) = parser.parse_args()
        port = 8000
        if len(args) == 1:
            port = int(args[0])
        runserver(port, options.bind)