Mercurial > hg
view contrib/fuzz/mpatch.cc @ 46472:98e39f04d60e
upgrade: implement partial upgrade for upgrading persistent-nodemap
Upgrading repositories to use persistent nodemap should be fast and easy as it
requires only two things:
1) Updating the requirements
2) Writing a persistent-nodemap on disk
For both of the steps above, we don't need to edit existing revlogs.
This patch makes upgrade only do the above mentioned two steps if we are
only upgarding to use persistent-nodemap feature.
Since `nodemap.persist_nodemap()` assumes that there exists a nodemap file for
the given revlog if we are trying to call it, this patch adds `force` argument
to create a file if does not exist which is true in our upgrade case.
The test changes demonstrate that we no longer write nodemap files for manifest
after upgrade which I think is desirable.
Differential Revision: https://phab.mercurial-scm.org/D9936
| author | Pulkit Goyal <7895pulkit@gmail.com> |
|---|---|
| date | Mon, 01 Feb 2021 00:02:00 +0530 |
| parents | d37658efbec2 |
| children |
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/* * mpatch.cc - fuzzer harness for mpatch.c * * Copyright 2018, Google Inc. * * This software may be used and distributed according to the terms of * the GNU General Public License, incorporated herein by reference. */ #include <iostream> #include <memory> #include <stdint.h> #include <stdlib.h> #include <vector> #include "fuzzutil.h" extern "C" int LLVMFuzzerInitialize(int *argc, char ***argv) { return 0; } // To avoid having too many OOMs from the fuzzer infrastructure, we'll // skip patch application if the resulting fulltext would be bigger // than 10MiB. #define MAX_OUTPUT_SIZE 10485760 extern "C" { #include "bitmanipulation.h" #include "mpatch.h" struct mpatchbin { std::unique_ptr<char[]> data; size_t len; }; static mpatch_flist *getitem(void *vbins, ssize_t pos) { std::vector<mpatchbin> *bins = (std::vector<mpatchbin> *)vbins; const mpatchbin &bin = bins->at(pos + 1); struct mpatch_flist *res; LOG(2) << "mpatch_decode " << bin.len << std::endl; if (mpatch_decode(bin.data.get(), bin.len, &res) < 0) return NULL; return res; } // input format: // u8 number of inputs // one u16 for each input, its length // the inputs int LLVMFuzzerTestOneInput(const uint8_t *Data, size_t Size) { if (!Size) { return 0; } // First byte of data is how many texts we expect, first text // being the base the rest being the deltas. ssize_t numtexts = Data[0]; if (numtexts < 2) { // No point if we don't have at least a base text and a delta... return 0; } // Each text will be described by a byte for how long it // should be, so give up if we don't have enough. if ((Size - 1) < (numtexts * 2)) { return 0; } size_t consumed = 1 + (numtexts * 2); LOG(2) << "input contains " << Size << std::endl; LOG(2) << numtexts << " texts, consuming " << consumed << std::endl; std::vector<mpatchbin> bins; bins.reserve(numtexts); for (int i = 0; i < numtexts; ++i) { mpatchbin bin; size_t nthsize = getbeuint16((char *)Data + 1 + (2 * i)); LOG(2) << "text " << i << " is " << nthsize << std::endl; char *start = (char *)Data + consumed; consumed += nthsize; if (consumed > Size) { LOG(2) << "ran out of data, consumed " << consumed << " of " << Size << std::endl; return 0; } bin.len = nthsize; bin.data.reset(new char[nthsize]); memcpy(bin.data.get(), start, nthsize); bins.push_back(std::move(bin)); } LOG(2) << "mpatch_flist" << std::endl; struct mpatch_flist *patch = mpatch_fold(&bins, getitem, 0, numtexts - 1); if (!patch) { return 0; } LOG(2) << "mpatch_calcsize" << std::endl; ssize_t outlen = mpatch_calcsize(bins[0].len, patch); LOG(2) << "outlen " << outlen << std::endl; if (outlen < 0 || outlen > MAX_OUTPUT_SIZE) { goto cleanup; } { char *dest = (char *)malloc(outlen); LOG(2) << "expecting " << outlen << " total bytes at " << (void *)dest << std::endl; mpatch_apply(dest, bins[0].data.get(), bins[0].len, patch); free(dest); LOG(1) << "applied a complete patch" << std::endl; } cleanup: mpatch_lfree(patch); return 0; } } // extern "C"