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#include "registry.h"
#include <library/cpp/containers/absl_flat_hash/flat_hash_map.h>
#include <library/cpp/blockcodecs/core/codecs.h>
#include <util/system/yassert.h>
#include <util/generic/hash.h>
#include <util/generic/deque.h>
#include <util/generic/singleton.h>
#include <util/system/env.h>
using namespace NResource;
using namespace NBlockCodecs;
namespace {
inline const ICodec* GetCodec() noexcept {
static const ICodec* ret = Codec("zstd08_5");
return ret;
}
typedef std::pair<TStringBuf, TStringBuf> TDescriptor;
[[noreturn]]
void ReportRedefinitionError(const TStringBuf key, const TStringBuf data, const ui64 kk, const TDescriptor& prev) noexcept {
const auto& [prevKey, value] = prev;
Y_ABORT_UNLESS(key == prevKey, "Internal hash collision:"
" old key: %s,"
" new key: %s,"
" hash: %" PRIx64 ".",
TString{prevKey}.Quote().c_str(),
TString{key}.Quote().c_str(),
kk);
size_t vsize = GetCodec()->DecompressedLength(value);
size_t dsize = GetCodec()->DecompressedLength(data);
if (vsize + dsize < 1000) {
Y_ABORT_UNLESS(false, "Redefinition of key %s:\n"
" old value: %s,\n"
" new value: %s.",
TString{key}.Quote().c_str(),
Decompress(value).Quote().c_str(),
Decompress(data).Quote().c_str());
} else {
Y_ABORT_UNLESS(false, "Redefinition of key %s,"
" old size: %zu,"
" new size: %zu.",
TString{key}.Quote().c_str(), vsize, dsize);
}
}
struct TStore final: public IStore, public absl::flat_hash_map<ui64, TDescriptor*> {
static inline ui64 ToK(TStringBuf k) {
return NHashPrivate::ComputeStringHash(k.data(), k.size());
}
void Store(const TStringBuf key, const TStringBuf data) override {
auto kk = ToK(key);
const auto [it, unique] = try_emplace(kk, nullptr);
if (!unique) {
const auto& [_, value] = *it->second;
if (value != data) {
ReportRedefinitionError(key, data, kk, *it->second);
Y_UNREACHABLE();
}
} else {
D_.push_back(TDescriptor(key, data));
it->second = &D_.back();
}
Y_ABORT_UNLESS(size() == Count(), "size mismatch");
}
bool Has(const TStringBuf key) const override {
return contains(ToK(key));
}
bool FindExact(const TStringBuf key, TString* out) const override {
if (auto res = find(ToK(key)); res != end()) {
// temporary
// https://st.yandex-team.ru/DEVTOOLS-3985
try {
*out = Decompress(res->second->second);
} catch (const yexception& e) {
if (GetEnv("RESOURCE_DECOMPRESS_DIAG")) {
Cerr << "Can't decompress resource " << key << Endl << e.what() << Endl;
}
throw e;
}
return true;
}
return false;
}
void FindMatch(const TStringBuf subkey, IMatch& cb) const override {
for (const auto& it : D_) {
if (it.first.StartsWith(subkey)) {
// temporary
// https://st.yandex-team.ru/DEVTOOLS-3985
try {
const TResource res = {
it.first, Decompress(it.second)};
cb.OnMatch(res);
} catch (const yexception& e) {
if (GetEnv("RESOURCE_DECOMPRESS_DIAG")) {
Cerr << "Can't decompress resource " << it.first << Endl << e.what() << Endl;
}
throw e;
}
}
}
}
size_t Count() const noexcept override {
return D_.size();
}
TStringBuf KeyByIndex(size_t idx) const override {
return D_.at(idx).first;
}
typedef TDeque<TDescriptor> TDescriptors;
TDescriptors D_;
};
}
TString NResource::Compress(const TStringBuf data) {
return GetCodec()->Encode(data);
}
TString NResource::Decompress(const TStringBuf data) {
return GetCodec()->Decode(data);
}
IStore* NResource::CommonStore() {
return SingletonWithPriority<TStore, 0>();
}
NResource::TRegHelper::TRegHelper(const TStringBuf key, const TStringBuf data) {
CommonStore()->Store(key, data);
}
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