clonebundles: support for seeding clones from pre-generated bundles Cloning can be an expensive operation for servers because the server generates a bundle from existing repository data at request time. For a large repository like mozilla-central, this consumes 4+ minutes of CPU time on the server. It also results in significant network utilization. Multiplied by hundreds or even thousands of clients and the ensuing load can result in difficulties scaling the Mercurial server. Despite generation of bundles being deterministic until the next changeset is added, the generation of bundles to service a clone request is not cached. Each clone thus performs redundant work. This is wasteful. This patch introduces the "clonebundles" extension and related client-side functionality to help alleviate this deficiency. The client-side feature is behind an experimental flag and is not enabled by default. It works as follows: 1) Server operator generates a bundle and makes it available on a server (likely HTTP). 2) Server operator defines the URL of a bundle file in a .hg/clonebundles.manifest file. 3) Client `hg clone`ing sees the server is advertising bundle URLs. 4) Client fetches and applies the advertised bundle. 5) Client performs equivalent of `hg pull` to fetch changes made since the bundle was created. Essentially, the server performs the expensive work of generating a bundle once and all subsequent clones fetch a static file from somewhere. Scaling static file serving is a much more manageable problem than scaling a Python application like Mercurial. Assuming your repository grows less than 1% per day, the end result is 99+% of CPU and network load from clones is eliminated, allowing Mercurial servers to scale more easily. Serving static files also means data can be transferred to clients as fast as they can consume it, rather than as fast as servers can generate it. This makes clones faster. Mozilla has implemented similar functionality of this patch on hg.mozilla.org using a custom extension. We are hosting bundle files in Amazon S3 and CloudFront (a CDN) and have successfully offloaded >1 TB/day in data transfer from hg.mozilla.org, freeing up significant bandwidth and CPU resources. The positive impact has been stellar and I believe it has proved its value to be included in Mercurial core. I feel it is important for the client-side support to be enabled in core by default because it means that clients will get faster, more reliable clones and will enable server operators to reduce load without requiring any client-side configuration changes (assuming clients are up to date, of course). The scope of this feature is narrowly and specifically tailored to cloning, despite "serve pulls from pre-generated bundles" being a valid and useful feature. I would eventually like for Mercurial servers to support transferring *all* repository data via statically hosted files. You could imagine a server that siphons all pushed data to bundle files and instructs clients to apply a stream of bundles to reconstruct all repository data. This feature, while useful and powerful, is significantly more work to implement because it requires the server component have awareness of discovery and a mapping of which changesets are in which files. Full, clone bundles, by contrast, are much simpler. The wire protocol command is named "clonebundles" instead of something more generic like "staticbundles" to leave the door open for a new, more powerful and more generic server-side component with minimal backwards compatibility implications. The name "bundleclone" is used by Mozilla's extension and would cause problems since there are subtle differences in Mozilla's extension. Mozilla's experience with this idea has taught us that some form of "content negotiation" is required. Not all clients will support all bundle formats or even URLs (advanced TLS requirements, etc). To ensure the highest uptake possible, a server needs to advertise multiple versions of bundles and clients need to be able to choose the most appropriate from that list one. The "attributes" in each server-advertised entry facilitate this filtering and sorting. Their use will become apparent in subsequent patches. Initial inspiration and credit for the idea of cloning from static files belongs to Augie Fackler and his "lookaside clone" extension proof of concept.

"""test line matching with some failing examples and some which warn

run-test.t only checks positive matches and can not see warnings
(both by design)
"""
from __future__ import print_function

import os, re
# this is hack to make sure no escape characters are inserted into the output
if 'TERM' in os.environ:
    del os.environ['TERM']
import doctest
run_tests = __import__('run-tests')

def prn(ex):
    m = ex.args[0]
    if isinstance(m, str):
        print(m)
    else:
        print(m.decode('utf-8'))

def lm(expected, output):
    r"""check if output matches expected

    does it generally work?
        >>> lm(b'H*e (glob)\n', b'Here\n')
        True

    fail on bad test data
        >>> try: lm(b'a\n',b'a')
        ... except AssertionError as ex: print(ex)
        missing newline
        >>> try: lm(b'single backslash\n', b'single \backslash\n')
        ... except AssertionError as ex: prn(ex)
        single backslash or unknown char
    """
    assert (expected.endswith(b'\n')
            and output.endswith(b'\n')), 'missing newline'
    assert not re.search(br'[^ \w\\/\r\n()*?]', expected + output), \
           b'single backslash or unknown char'
    match = run_tests.TTest.linematch(expected, output)
    if isinstance(match, str):
        return 'special: ' + match
    elif isinstance(match, bytes):
        return 'special: ' + match.decode('utf-8')
    else:
        return bool(match) # do not return match object

def wintests():
    r"""test matching like running on windows

    enable windows matching on any os
        >>> _osaltsep = os.altsep
        >>> os.altsep = True

    valid match on windows
        >>> lm(b'g/a*/d (glob)\n', b'g\\abc/d\n')
        True

    direct matching, glob unnecessary
        >>> lm(b'g/b (glob)\n', b'g/b\n')
        'special: -glob'

    missing glob
        >>> lm(b'/g/c/d/fg\n', b'\\g\\c\\d/fg\n')
        'special: +glob'

    restore os.altsep
        >>> os.altsep = _osaltsep
    """
    pass

def otherostests():
    r"""test matching like running on non-windows os

    disable windows matching on any os
        >>> _osaltsep = os.altsep
        >>> os.altsep = False

    backslash does not match slash
        >>> lm(b'h/a* (glob)\n', b'h\\ab\n')
        False

    direct matching glob can not be recognized
        >>> lm(b'h/b (glob)\n', b'h/b\n')
        True

    missing glob can not not be recognized
        >>> lm(b'/h/c/df/g/\n', b'\\h/c\\df/g\\\n')
        False

    restore os.altsep
        >>> os.altsep = _osaltsep
    """
    pass

if __name__ == '__main__':
    doctest.testmod()