Mercurial > public > mercurial-scm > hg-stable
view mercurial/mdiff.py @ 37060:2ec1fb9de638
wireproto: add request IDs to frames
One of my primary goals with the new wire protocol is to make
operations faster and enable both client and server-side
operations to scale to multiple CPU cores.
One of the ways we make server interactions faster is by reducing
the number of round trips to that server.
With the existing wire protocol, the "batch" command facilitates
executing multiple commands from a single request payload. The way
it works is the requests for multiple commands are serialized. The
server executes those commands sequentially then serializes all
their results. As an optimization for reducing round trips, this
is very effective. The technical implementation, however, is pretty
bad and suffers from a number of deficiencies. For example, it
creates a new place where authorization to run a command must be
checked. (The lack of this checking in older Mercurial releases
was CVE-2018-1000132.)
The principles behind the "batch" command are sound. However, the
execution is not. Therefore, I want to ditch "batch" in the
new wire protocol and have protocol level support for issuing
multiple requests in a single round trip.
This commit introduces support in the frame-based wire protocol to
facilitate this. We do this by adding a "request ID" to each frame.
If a server sees frames associated with different "request IDs," it
handles them as separate requests. All of this happening possibly
as part of the same message from client to server (the same request
body in the case of HTTP).
We /could/ model the exchange the way pipelined HTTP requests do,
where the server processes requests in order they are issued and
received. But this artifically constrains scalability. A better
model is to allow multi-requests to be executed concurrently and
for responses to be sent and handled concurrently. So the
specification explicitly allows this. There is some work to be done
around specifying dependencies between multi-requests. We take
the easy road for now and punt on this problem, declaring that
if order is important, clients must not issue the request until
responses to dependent requests have been received.
This commit focuses on the boilerplate of implementing the request
ID. The server reactor still can't manage multiple, in-flight
request IDs. This will be addressed in a subsequent commit.
Because the wire semantics have changed, we bump the version of the
media type.
Differential Revision: https://phab.mercurial-scm.org/D2869
| author | Gregory Szorc <gregory.szorc@gmail.com> |
|---|---|
| date | Wed, 14 Mar 2018 16:51:34 -0700 |
| parents | c6a61298ac32 |
| children | b6de372b4309 |
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# mdiff.py - diff and patch routines for mercurial # # Copyright 2005, 2006 Matt Mackall <mpm@selenic.com> # # 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 re import struct import zlib from .i18n import _ from . import ( encoding, error, policy, pycompat, util, ) from .utils import dateutil _missing_newline_marker = "\\ No newline at end of file\n" bdiff = policy.importmod(r'bdiff') mpatch = policy.importmod(r'mpatch') blocks = bdiff.blocks fixws = bdiff.fixws patches = mpatch.patches patchedsize = mpatch.patchedsize textdiff = bdiff.bdiff splitnewlines = bdiff.splitnewlines class diffopts(object): '''context is the number of context lines text treats all files as text showfunc enables diff -p output git enables the git extended patch format nodates removes dates from diff headers nobinary ignores binary files noprefix disables the 'a/' and 'b/' prefixes (ignored in plain mode) ignorews ignores all whitespace changes in the diff ignorewsamount ignores changes in the amount of whitespace ignoreblanklines ignores changes whose lines are all blank upgrade generates git diffs to avoid data loss ''' defaults = { 'context': 3, 'text': False, 'showfunc': False, 'git': False, 'nodates': False, 'nobinary': False, 'noprefix': False, 'index': 0, 'ignorews': False, 'ignorewsamount': False, 'ignorewseol': False, 'ignoreblanklines': False, 'upgrade': False, 'showsimilarity': False, 'worddiff': False, 'xdiff': False, } def __init__(self, **opts): opts = pycompat.byteskwargs(opts) for k in self.defaults.keys(): v = opts.get(k) if v is None: v = self.defaults[k] setattr(self, k, v) try: self.context = int(self.context) except ValueError: raise error.Abort(_('diff context lines count must be ' 'an integer, not %r') % self.context) def copy(self, **kwargs): opts = dict((k, getattr(self, k)) for k in self.defaults) opts = pycompat.strkwargs(opts) opts.update(kwargs) return diffopts(**opts) defaultopts = diffopts() def wsclean(opts, text, blank=True): if opts.ignorews: text = bdiff.fixws(text, 1) elif opts.ignorewsamount: text = bdiff.fixws(text, 0) if blank and opts.ignoreblanklines: text = re.sub('\n+', '\n', text).strip('\n') if opts.ignorewseol: text = re.sub(br'[ \t\r\f]+\n', r'\n', text) return text def splitblock(base1, lines1, base2, lines2, opts): # The input lines matches except for interwoven blank lines. We # transform it into a sequence of matching blocks and blank blocks. lines1 = [(wsclean(opts, l) and 1 or 0) for l in lines1] lines2 = [(wsclean(opts, l) and 1 or 0) for l in lines2] s1, e1 = 0, len(lines1) s2, e2 = 0, len(lines2) while s1 < e1 or s2 < e2: i1, i2, btype = s1, s2, '=' if (i1 >= e1 or lines1[i1] == 0 or i2 >= e2 or lines2[i2] == 0): # Consume the block of blank lines btype = '~' while i1 < e1 and lines1[i1] == 0: i1 += 1 while i2 < e2 and lines2[i2] == 0: i2 += 1 else: # Consume the matching lines while i1 < e1 and lines1[i1] == 1 and lines2[i2] == 1: i1 += 1 i2 += 1 yield [base1 + s1, base1 + i1, base2 + s2, base2 + i2], btype s1 = i1 s2 = i2 def hunkinrange(hunk, linerange): """Return True if `hunk` defined as (start, length) is in `linerange` defined as (lowerbound, upperbound). >>> hunkinrange((5, 10), (2, 7)) True >>> hunkinrange((5, 10), (6, 12)) True >>> hunkinrange((5, 10), (13, 17)) True >>> hunkinrange((5, 10), (3, 17)) True >>> hunkinrange((5, 10), (1, 3)) False >>> hunkinrange((5, 10), (18, 20)) False >>> hunkinrange((5, 10), (1, 5)) False >>> hunkinrange((5, 10), (15, 27)) False """ start, length = hunk lowerbound, upperbound = linerange return lowerbound < start + length and start < upperbound def blocksinrange(blocks, rangeb): """filter `blocks` like (a1, a2, b1, b2) from items outside line range `rangeb` from ``(b1, b2)`` point of view. Return `filteredblocks, rangea` where: * `filteredblocks` is list of ``block = (a1, a2, b1, b2), stype`` items of `blocks` that are inside `rangeb` from ``(b1, b2)`` point of view; a block ``(b1, b2)`` being inside `rangeb` if ``rangeb[0] < b2 and b1 < rangeb[1]``; * `rangea` is the line range w.r.t. to ``(a1, a2)`` parts of `blocks`. """ lbb, ubb = rangeb lba, uba = None, None filteredblocks = [] for block in blocks: (a1, a2, b1, b2), stype = block if lbb >= b1 and ubb <= b2 and stype == '=': # rangeb is within a single "=" hunk, restrict back linerange1 # by offsetting rangeb lba = lbb - b1 + a1 uba = ubb - b1 + a1 else: if b1 <= lbb < b2: if stype == '=': lba = a2 - (b2 - lbb) else: lba = a1 if b1 < ubb <= b2: if stype == '=': uba = a1 + (ubb - b1) else: uba = a2 if hunkinrange((b1, (b2 - b1)), rangeb): filteredblocks.append(block) if lba is None or uba is None or uba < lba: raise error.Abort(_('line range exceeds file size')) return filteredblocks, (lba, uba) def chooseblocksfunc(opts=None): if (opts is None or not opts.xdiff or not util.safehasattr(bdiff, 'xdiffblocks')): return bdiff.blocks else: return bdiff.xdiffblocks def allblocks(text1, text2, opts=None, lines1=None, lines2=None): """Return (block, type) tuples, where block is an mdiff.blocks line entry. type is '=' for blocks matching exactly one another (bdiff blocks), '!' for non-matching blocks and '~' for blocks matching only after having filtered blank lines. line1 and line2 are text1 and text2 split with splitnewlines() if they are already available. """ if opts is None: opts = defaultopts if opts.ignorews or opts.ignorewsamount or opts.ignorewseol: text1 = wsclean(opts, text1, False) text2 = wsclean(opts, text2, False) diff = chooseblocksfunc(opts)(text1, text2) for i, s1 in enumerate(diff): # The first match is special. # we've either found a match starting at line 0 or a match later # in the file. If it starts later, old and new below will both be # empty and we'll continue to the next match. if i > 0: s = diff[i - 1] else: s = [0, 0, 0, 0] s = [s[1], s1[0], s[3], s1[2]] # bdiff sometimes gives huge matches past eof, this check eats them, # and deals with the special first match case described above if s[0] != s[1] or s[2] != s[3]: type = '!' if opts.ignoreblanklines: if lines1 is None: lines1 = splitnewlines(text1) if lines2 is None: lines2 = splitnewlines(text2) old = wsclean(opts, "".join(lines1[s[0]:s[1]])) new = wsclean(opts, "".join(lines2[s[2]:s[3]])) if old == new: type = '~' yield s, type yield s1, '=' def unidiff(a, ad, b, bd, fn1, fn2, binary, opts=defaultopts): """Return a unified diff as a (headers, hunks) tuple. If the diff is not null, `headers` is a list with unified diff header lines "--- <original>" and "+++ <new>" and `hunks` is a generator yielding (hunkrange, hunklines) coming from _unidiff(). Otherwise, `headers` and `hunks` are empty. Set binary=True if either a or b should be taken as a binary file. """ def datetag(date, fn=None): if not opts.git and not opts.nodates: return '\t%s' % date if fn and ' ' in fn: return '\t' return '' sentinel = [], () if not a and not b: return sentinel if opts.noprefix: aprefix = bprefix = '' else: aprefix = 'a/' bprefix = 'b/' epoch = dateutil.datestr((0, 0)) fn1 = util.pconvert(fn1) fn2 = util.pconvert(fn2) if binary: if a and b and len(a) == len(b) and a == b: return sentinel headerlines = [] hunks = (None, ['Binary file %s has changed\n' % fn1]), elif not a: without_newline = not b.endswith('\n') b = splitnewlines(b) if a is None: l1 = '--- /dev/null%s' % datetag(epoch) else: l1 = "--- %s%s%s" % (aprefix, fn1, datetag(ad, fn1)) l2 = "+++ %s%s" % (bprefix + fn2, datetag(bd, fn2)) headerlines = [l1, l2] size = len(b) hunkrange = (0, 0, 1, size) hunklines = ["@@ -0,0 +1,%d @@\n" % size] + ["+" + e for e in b] if without_newline: hunklines[-1] += '\n' hunklines.append(_missing_newline_marker) hunks = (hunkrange, hunklines), elif not b: without_newline = not a.endswith('\n') a = splitnewlines(a) l1 = "--- %s%s%s" % (aprefix, fn1, datetag(ad, fn1)) if b is None: l2 = '+++ /dev/null%s' % datetag(epoch) else: l2 = "+++ %s%s%s" % (bprefix, fn2, datetag(bd, fn2)) headerlines = [l1, l2] size = len(a) hunkrange = (1, size, 0, 0) hunklines = ["@@ -1,%d +0,0 @@\n" % size] + ["-" + e for e in a] if without_newline: hunklines[-1] += '\n' hunklines.append(_missing_newline_marker) hunks = (hunkrange, hunklines), else: hunks = _unidiff(a, b, opts=opts) if not next(hunks): return sentinel headerlines = [ "--- %s%s%s" % (aprefix, fn1, datetag(ad, fn1)), "+++ %s%s%s" % (bprefix, fn2, datetag(bd, fn2)), ] return headerlines, hunks def _unidiff(t1, t2, opts=defaultopts): """Yield hunks of a headerless unified diff from t1 and t2 texts. Each hunk consists of a (hunkrange, hunklines) tuple where `hunkrange` is a tuple (s1, l1, s2, l2) representing the range information of the hunk to form the '@@ -s1,l1 +s2,l2 @@' header and `hunklines` is a list of lines of the hunk combining said header followed by line additions and deletions. The hunks are prefixed with a bool. """ l1 = splitnewlines(t1) l2 = splitnewlines(t2) def contextend(l, len): ret = l + opts.context if ret > len: ret = len return ret def contextstart(l): ret = l - opts.context if ret < 0: return 0 return ret lastfunc = [0, ''] def yieldhunk(hunk): (astart, a2, bstart, b2, delta) = hunk aend = contextend(a2, len(l1)) alen = aend - astart blen = b2 - bstart + aend - a2 func = "" if opts.showfunc: lastpos, func = lastfunc # walk backwards from the start of the context up to the start of # the previous hunk context until we find a line starting with an # alphanumeric char. for i in xrange(astart - 1, lastpos - 1, -1): if l1[i][0:1].isalnum(): func = b' ' + l1[i].rstrip() # split long function name if ASCII. otherwise we have no # idea where the multi-byte boundary is, so just leave it. if encoding.isasciistr(func): func = func[:41] lastfunc[1] = func break # by recording this hunk's starting point as the next place to # start looking for function lines, we avoid reading any line in # the file more than once. lastfunc[0] = astart # zero-length hunk ranges report their start line as one less if alen: astart += 1 if blen: bstart += 1 hunkrange = astart, alen, bstart, blen hunklines = ( ["@@ -%d,%d +%d,%d @@%s\n" % (hunkrange + (func,))] + delta + [' ' + l1[x] for x in xrange(a2, aend)] ) # If either file ends without a newline and the last line of # that file is part of a hunk, a marker is printed. If the # last line of both files is identical and neither ends in # a newline, print only one marker. That's the only case in # which the hunk can end in a shared line without a newline. skip = False if not t1.endswith('\n') and astart + alen == len(l1) + 1: for i in xrange(len(hunklines) - 1, -1, -1): if hunklines[i].startswith(('-', ' ')): if hunklines[i].startswith(' '): skip = True hunklines[i] += '\n' hunklines.insert(i + 1, _missing_newline_marker) break if not skip and not t2.endswith('\n') and bstart + blen == len(l2) + 1: for i in xrange(len(hunklines) - 1, -1, -1): if hunklines[i].startswith('+'): hunklines[i] += '\n' hunklines.insert(i + 1, _missing_newline_marker) break yield hunkrange, hunklines # bdiff.blocks gives us the matching sequences in the files. The loop # below finds the spaces between those matching sequences and translates # them into diff output. # hunk = None ignoredlines = 0 has_hunks = False for s, stype in allblocks(t1, t2, opts, l1, l2): a1, a2, b1, b2 = s if stype != '!': if stype == '~': # The diff context lines are based on t1 content. When # blank lines are ignored, the new lines offsets must # be adjusted as if equivalent blocks ('~') had the # same sizes on both sides. ignoredlines += (b2 - b1) - (a2 - a1) continue delta = [] old = l1[a1:a2] new = l2[b1:b2] b1 -= ignoredlines b2 -= ignoredlines astart = contextstart(a1) bstart = contextstart(b1) prev = None if hunk: # join with the previous hunk if it falls inside the context if astart < hunk[1] + opts.context + 1: prev = hunk astart = hunk[1] bstart = hunk[3] else: if not has_hunks: has_hunks = True yield True for x in yieldhunk(hunk): yield x if prev: # we've joined the previous hunk, record the new ending points. hunk[1] = a2 hunk[3] = b2 delta = hunk[4] else: # create a new hunk hunk = [astart, a2, bstart, b2, delta] delta[len(delta):] = [' ' + x for x in l1[astart:a1]] delta[len(delta):] = ['-' + x for x in old] delta[len(delta):] = ['+' + x for x in new] if hunk: if not has_hunks: has_hunks = True yield True for x in yieldhunk(hunk): yield x elif not has_hunks: yield False def b85diff(to, tn): '''print base85-encoded binary diff''' def fmtline(line): l = len(line) if l <= 26: l = pycompat.bytechr(ord('A') + l - 1) else: l = pycompat.bytechr(l - 26 + ord('a') - 1) return '%c%s\n' % (l, util.b85encode(line, True)) def chunk(text, csize=52): l = len(text) i = 0 while i < l: yield text[i:i + csize] i += csize if to is None: to = '' if tn is None: tn = '' if to == tn: return '' # TODO: deltas ret = [] ret.append('GIT binary patch\n') ret.append('literal %d\n' % len(tn)) for l in chunk(zlib.compress(tn)): ret.append(fmtline(l)) ret.append('\n') return ''.join(ret) def patchtext(bin): pos = 0 t = [] while pos < len(bin): p1, p2, l = struct.unpack(">lll", bin[pos:pos + 12]) pos += 12 t.append(bin[pos:pos + l]) pos += l return "".join(t) def patch(a, bin): if len(a) == 0: # skip over trivial delta header return util.buffer(bin, 12) return mpatch.patches(a, [bin]) # similar to difflib.SequenceMatcher.get_matching_blocks def get_matching_blocks(a, b): return [(d[0], d[2], d[1] - d[0]) for d in bdiff.blocks(a, b)] def trivialdiffheader(length): return struct.pack(">lll", 0, 0, length) if length else '' def replacediffheader(oldlen, newlen): return struct.pack(">lll", 0, oldlen, newlen)