diff --git a/lld/MachO/ICF.cpp b/lld/MachO/ICF.cpp --- a/lld/MachO/ICF.cpp +++ b/lld/MachO/ICF.cpp @@ -457,7 +457,7 @@ assert(isec->icfEqClass[0] == 0); // don't overwrite a unique ID! // Turn-on the top bit to guarantee that valid hashes have no collisions // with the small-integer unique IDs for ICF-ineligible sections - isec->icfEqClass[0] = xxHash64(isec->data) | (1ull << 31); + isec->icfEqClass[0] = xxh3_64bits(isec->data) | (1ull << 31); }); // Now that every input section is either hashed or marked as unique, run the // segregation algorithm to detect foldable subsections. diff --git a/lld/MachO/InputSection.cpp b/lld/MachO/InputSection.cpp --- a/lld/MachO/InputSection.cpp +++ b/lld/MachO/InputSection.cpp @@ -246,7 +246,7 @@ size_t end = s.find(0); if (end == StringRef::npos) fatal(getLocation(off) + ": string is not null terminated"); - uint32_t hash = deduplicateLiterals ? xxHash64(s.take_front(end)) : 0; + uint32_t hash = deduplicateLiterals ? xxh3_64bits(s.take_front(end)) : 0; pieces.emplace_back(off, hash); size_t size = end + 1; // include null terminator s = s.substr(size); diff --git a/lld/MachO/SyntheticSections.cpp b/lld/MachO/SyntheticSections.cpp --- a/lld/MachO/SyntheticSections.cpp +++ b/lld/MachO/SyntheticSections.cpp @@ -1677,7 +1677,7 @@ DeduplicatedCStringSection::StringOffset DeduplicatedCStringSection::getStringOffset(StringRef str) const { // StringPiece uses 31 bits to store the hashes, so we replicate that - uint32_t hash = xxHash64(str) & 0x7fffffff; + uint32_t hash = xxh3_64bits(str) & 0x7fffffff; auto offset = stringOffsetMap.find(CachedHashStringRef(str, hash)); assert(offset != stringOffsetMap.end() && "Looked-up strings should always exist in section"); diff --git a/lld/MachO/Writer.cpp b/lld/MachO/Writer.cpp --- a/lld/MachO/Writer.cpp +++ b/lld/MachO/Writer.cpp @@ -1190,14 +1190,14 @@ threadFutures.reserve(chunks.size()); for (size_t i = 0; i < chunks.size(); ++i) threadFutures.emplace_back(threadPool.async( - [&](size_t j) { hashes[j] = xxHash64(chunks[j]); }, i)); + [&](size_t j) { hashes[j] = xxh3_64bits(chunks[j]); }, i)); for (std::shared_future &future : threadFutures) future.wait(); // Append the output filename so that identical binaries with different names // don't get the same UUID. - hashes[chunks.size()] = xxHash64(sys::path::filename(config->finalOutput)); - uint64_t digest = xxHash64({reinterpret_cast(hashes.data()), - hashes.size() * sizeof(uint64_t)}); + hashes[chunks.size()] = xxh3_64bits(sys::path::filename(config->finalOutput)); + uint64_t digest = xxh3_64bits({reinterpret_cast(hashes.data()), + hashes.size() * sizeof(uint64_t)}); uuidCommand->writeUuid(digest); }