foundationdb/fdbclient/FDBTypes.cpp

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/*
* FDBTypes.cpp
*
* This source file is part of the FoundationDB open source project
*
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* Copyright 2013-2022 Apple Inc. and the FoundationDB project authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "fdbclient/FDBTypes.h"
#include "fdbclient/Knobs.h"
#include "fdbclient/NativeAPI.actor.h"
KeyRangeRef toPrefixRelativeRange(KeyRangeRef range, Optional<KeyRef> prefix) {
if (!prefix.present() || prefix.get().empty()) {
return range;
} else {
KeyRef begin = range.begin.startsWith(prefix.get()) ? range.begin.removePrefix(prefix.get()) : allKeys.begin;
KeyRef end = range.end.startsWith(prefix.get()) ? range.end.removePrefix(prefix.get()) : allKeys.end;
return KeyRangeRef(begin, end);
}
}
KeyRef keyBetween(const KeyRangeRef& keys) {
int pos = 0; // will be the position of the first difference between keys.begin and keys.end
int minSize = std::min(keys.begin.size(), keys.end.size());
for (; pos < minSize && pos < CLIENT_KNOBS->SPLIT_KEY_SIZE_LIMIT; pos++) {
if (keys.begin[pos] != keys.end[pos]) {
return keys.end.substr(0, pos + 1);
}
}
// If one more character keeps us in the limit, and the latter key is simply
// longer, then we only need one more byte of the end string.
if (pos < CLIENT_KNOBS->SPLIT_KEY_SIZE_LIMIT && keys.begin.size() < keys.end.size()) {
return keys.end.substr(0, pos + 1);
}
return keys.end;
}
Key randomKeyBetween(const KeyRangeRef& keys) {
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if (keys.empty() || keys.singleKeyRange()) {
return keys.end;
}
KeyRef begin = keys.begin;
KeyRef end = keys.end;
ASSERT(begin < end);
if (begin.size() < end.size()) {
// randomly append a char
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uint8_t maxChar = end[begin.size()] > 0 ? end[begin.size()] : end[begin.size()] + 1;
uint8_t newChar = deterministicRandom()->randomInt(0, maxChar);
return begin.withSuffix(StringRef(&newChar, 1));
}
int pos = 0; // will be the position of the first difference between keys.begin and keys.end
for (; pos < end.size() && pos < CLIENT_KNOBS->KEY_SIZE_LIMIT; pos++) {
if (keys.begin[pos] != keys.end[pos]) {
break;
}
}
ASSERT_LT(pos, end.size()); // otherwise, begin >= end
// find the lowest char in range begin[pos+1, begin.size()) that is not \xff (255)
int lowest = begin.size() - 1;
for (; lowest > pos; lowest--) {
if (begin[lowest] < 255) {
Key res = begin;
uint8_t* ptr = mutateString(res);
*(ptr + lowest) = (uint8_t)deterministicRandom()->randomInt(begin[lowest] + 1, 256);
return res;
}
}
if (begin[pos] + 1 < end[pos]) {
Key res = begin;
uint8_t* ptr = mutateString(res);
*(ptr + pos) = (uint8_t)deterministicRandom()->randomInt(begin[pos] + 1, end[pos]);
return res;
}
if (begin.size() + 1 < CLIENT_KNOBS->KEY_SIZE_LIMIT) {
// randomly append a char
uint8_t newChar = deterministicRandom()->randomInt(1, 255);
return begin.withSuffix(StringRef(&newChar, 1));
}
// no possible result
return end;
}
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TEST_CASE("/KeyRangeUtil/randomKeyBetween") {
Key begin = "qwert"_sr;
Key end = "qwertyu"_sr;
Key res;
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for (int i = 0; i < 10; ++i) {
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res = randomKeyBetween(KeyRangeRef(begin, end));
ASSERT(res > begin);
ASSERT(res < end);
}
begin = "q"_sr;
end = "q\x00"_sr;
res = randomKeyBetween(KeyRangeRef(begin, end));
ASSERT(res == end);
begin = "aaaaaaa"_sr;
end = "b"_sr;
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for (int i = 0; i < 10; ++i) {
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res = randomKeyBetween(KeyRangeRef(begin, end));
ASSERT(res > begin);
ASSERT(res < end);
}
return Void();
}
void KeySelectorRef::setKey(KeyRef const& key) {
// There are no keys in the database with size greater than the max key size, so if this key selector has a key
// which is large, then we can translate it to an equivalent key selector with a smaller key
int64_t maxKeySize = getMaxKeySize(key);
if (key.size() > maxKeySize) {
this->key = key.substr(0, maxKeySize + 1);
} else {
this->key = key;
}
}
void KeySelectorRef::setKeyUnlimited(KeyRef const& key) {
this->key = key;
}
std::string KeySelectorRef::toString() const {
if (offset > 0) {
if (orEqual)
return format("%d+firstGreaterThan(%s)", offset - 1, printable(key).c_str());
else
return format("%d+firstGreaterOrEqual(%s)", offset - 1, printable(key).c_str());
} else {
if (orEqual)
return format("%d+lastLessOrEqual(%s)", offset, printable(key).c_str());
else
return format("%d+lastLessThan(%s)", offset, printable(key).c_str());
}
}
std::string describe(const std::string& s) {
return s;
}
std::string describe(UID const& item) {
return item.shortString();
}
TEST_CASE("/KeyRangeUtil/KeyRangeComplement") {
Key begin = "b"_sr;
Key end = "y"_sr;
KeyRangeRef range(begin, end);
{
Key b = "c"_sr;
Key e = "f"_sr;
std::vector<KeyRangeRef> result = range - KeyRangeRef(b, e);
ASSERT(result.size() == 2);
ASSERT(result[0] == KeyRangeRef("b"_sr, "c"_sr));
ASSERT(result[1] == KeyRangeRef("f"_sr, "y"_sr));
}
{
Key b = "1"_sr;
Key e = "9"_sr;
std::vector<KeyRangeRef> result = range - KeyRangeRef(b, e);
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ASSERT(result.size() == 1);
ASSERT(result[0] == KeyRangeRef("b"_sr, "y"_sr));
}
{
Key b = "a"_sr;
Key e = "f"_sr;
std::vector<KeyRangeRef> result = range - KeyRangeRef(b, e);
ASSERT(result.size() == 1);
ASSERT(result[0] == KeyRangeRef("f"_sr, "y"_sr));
}
{
Key b = "f"_sr;
Key e = "z"_sr;
std::vector<KeyRangeRef> result = range - KeyRangeRef(b, e);
ASSERT(result.size() == 1);
ASSERT(result[0] == KeyRangeRef("b"_sr, "f"_sr));
}
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{
Key b = "a"_sr;
Key e = "z"_sr;
std::vector<KeyRangeRef> result = range - KeyRangeRef(b, e);
ASSERT(result.size() == 0);
}
return Void();
}