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chromium / chromium / src / f8c5dd0d94c9196dd5e40c5c3d858ba92c337a86 / . / components / variations / variations_seed_store.cc
blob: 152a47cf02328d4a4065848f1558125944cf5441 [file] [log] [blame]
// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/variations/variations_seed_store.h"
#include <stdint.h>
#include <utility>
#include "base/base64.h"
#include "base/bind_helpers.h"
#include "base/macros.h"
#include "base/metrics/histogram_macros.h"
#include "base/numerics/safe_math.h"
#include "base/strings/string_number_conversions.h"
#include "build/build_config.h"
#include "components/prefs/pref_registry_simple.h"
#include "components/prefs/pref_service.h"
#include "components/variations/client_filterable_state.h"
#include "components/variations/pref_names.h"
#include "components/variations/proto/variations_seed.pb.h"
#include "crypto/signature_verifier.h"
#include "third_party/protobuf/src/google/protobuf/io/coded_stream.h"
#include "third_party/zlib/google/compression_utils.h"
#if defined(OS_ANDROID)
#include "components/variations/android/variations_seed_bridge.h"
#include "components/variations/metrics.h"
#endif // OS_ANDROID
namespace variations {
namespace {
// The ECDSA public key of the variations server for verifying variations seed
// signatures.
const uint8_t kPublicKey[] = {
0x30, 0x59, 0x30, 0x13, 0x06, 0x07, 0x2a, 0x86, 0x48, 0xce, 0x3d, 0x02, 0x01,
0x06, 0x08, 0x2a, 0x86, 0x48, 0xce, 0x3d, 0x03, 0x01, 0x07, 0x03, 0x42, 0x00,
0x04, 0x51, 0x7c, 0x31, 0x4b, 0x50, 0x42, 0xdd, 0x59, 0xda, 0x0b, 0xfa, 0x43,
0x44, 0x33, 0x7c, 0x5f, 0xa1, 0x0b, 0xd5, 0x82, 0xf6, 0xac, 0x04, 0x19, 0x72,
0x6c, 0x40, 0xd4, 0x3e, 0x56, 0xe2, 0xa0, 0x80, 0xa0, 0x41, 0xb3, 0x23, 0x7b,
0x71, 0xc9, 0x80, 0x87, 0xde, 0x35, 0x0d, 0x25, 0x71, 0x09, 0x7f, 0xb4, 0x15,
0x2b, 0xff, 0x82, 0x4d, 0xd3, 0xfe, 0xc5, 0xef, 0x20, 0xc6, 0xa3, 0x10, 0xbf,
};
// A sentinel value that may be stored as the latest variations seed value in
// prefs to indicate that the latest seed is identical to the safe seed. Used to
// avoid duplicating storage space.
constexpr char kIdenticalToSafeSeedSentinel[] = "safe_seed_content";
// Verifies a variations seed (the serialized proto bytes) with the specified
// base-64 encoded signature that was received from the server and returns the
// result. The signature is assumed to be an "ECDSA with SHA-256" signature
// (see kECDSAWithSHA256AlgorithmID in the .cc file). Returns the result of
// signature verification.
VerifySignatureResult VerifySeedSignature(
const std::string& seed_bytes,
const std::string& base64_seed_signature) {
if (base64_seed_signature.empty())
return VerifySignatureResult::MISSING_SIGNATURE;
std::string signature;
if (!base::Base64Decode(base64_seed_signature, &signature))
return VerifySignatureResult::DECODE_FAILED;
crypto::SignatureVerifier verifier;
if (!verifier.VerifyInit(crypto::SignatureVerifier::ECDSA_SHA256,
base::as_bytes(base::make_span(signature)),
kPublicKey)) {
return VerifySignatureResult::INVALID_SIGNATURE;
}
verifier.VerifyUpdate(base::as_bytes(base::make_span(seed_bytes)));
if (!verifier.VerifyFinal())
return VerifySignatureResult::INVALID_SEED;
return VerifySignatureResult::VALID_SIGNATURE;
}
// Truncates a time to the start of the day in UTC. If given a time representing
// 2014-03-11 10:18:03.1 UTC, it will return a time representing
// 2014-03-11 00:00:00.0 UTC.
base::Time TruncateToUTCDay(const base::Time& time) {
base::Time::Exploded exploded;
time.UTCExplode(&exploded);
exploded.hour = 0;
exploded.minute = 0;
exploded.second = 0;
exploded.millisecond = 0;
base::Time out_time;
bool conversion_success = base::Time::FromUTCExploded(exploded, &out_time);
DCHECK(conversion_success);
return out_time;
}
UpdateSeedDateResult GetSeedDateChangeState(
const base::Time& server_seed_date,
const base::Time& stored_seed_date) {
if (server_seed_date < stored_seed_date)
return UpdateSeedDateResult::NEW_DATE_IS_OLDER;
if (TruncateToUTCDay(server_seed_date) !=
TruncateToUTCDay(stored_seed_date)) {
// The server date is later than the stored date, and they are from
// different UTC days, so |server_seed_date| is a valid new day.
return UpdateSeedDateResult::NEW_DAY;
}
return UpdateSeedDateResult::SAME_DAY;
}
} // namespace
VariationsSeedStore::VariationsSeedStore(PrefService* local_state)
: VariationsSeedStore(local_state, nullptr, base::DoNothing()) {}
VariationsSeedStore::VariationsSeedStore(
PrefService* local_state,
std::unique_ptr<SeedResponse> initial_seed,
base::OnceCallback<void()> on_initial_seed_stored)
: local_state_(local_state),
on_initial_seed_stored_(std::move(on_initial_seed_stored)) {
#if defined(OS_ANDROID)
if (initial_seed)
ImportInitialSeed(std::move(initial_seed));
#endif // OS_ANDROID
}
VariationsSeedStore::~VariationsSeedStore() {
}
bool VariationsSeedStore::LoadSeed(VariationsSeed* seed,
std::string* seed_data,
std::string* base64_seed_signature) {
LoadSeedResult result =
LoadSeedImpl(SeedType::LATEST, seed, seed_data, base64_seed_signature);
RecordLoadSeedResult(result);
if (result != LoadSeedResult::SUCCESS)
return false;
latest_serial_number_ = seed->serial_number();
return true;
}
bool VariationsSeedStore::StoreSeedData(
const std::string& data,
const std::string& base64_seed_signature,
const std::string& country_code,
const base::Time& date_fetched,
bool is_delta_compressed,
bool is_gzip_compressed,
bool fetched_insecurely,
VariationsSeed* parsed_seed) {
UMA_HISTOGRAM_BOOLEAN("Variations.StoreSeed.HasCountry",
!country_code.empty());
// If the data is gzip compressed, first uncompress it.
std::string ungzipped_data;
if (is_gzip_compressed) {
if (compression::GzipUncompress(data, &ungzipped_data)) {
if (ungzipped_data.empty()) {
RecordStoreSeedResult(StoreSeedResult::FAILED_EMPTY_GZIP_CONTENTS);
return false;
}
int size_reduction = ungzipped_data.length() - data.length();
UMA_HISTOGRAM_PERCENTAGE("Variations.StoreSeed.GzipSize.ReductionPercent",
100 * size_reduction / ungzipped_data.length());
UMA_HISTOGRAM_COUNTS_1000("Variations.StoreSeed.GzipSize",
data.length() / 1024);
} else {
RecordStoreSeedResult(StoreSeedResult::FAILED_UNGZIP);
return false;
}
} else {
ungzipped_data = data;
}
if (!is_delta_compressed) {
const bool result = StoreSeedDataNoDelta(
ungzipped_data, base64_seed_signature, country_code, date_fetched,
fetched_insecurely, parsed_seed);
if (result) {
UMA_HISTOGRAM_COUNTS_1000("Variations.StoreSeed.Size",
ungzipped_data.length() / 1024);
}
return result;
}
// If the data is delta compressed, first decode it.
RecordStoreSeedResult(StoreSeedResult::DELTA_COUNT);
std::string existing_seed_data;
std::string updated_seed_data;
LoadSeedResult read_result =
ReadSeedData(SeedType::LATEST, &existing_seed_data);
if (read_result != LoadSeedResult::SUCCESS) {
RecordStoreSeedResult(StoreSeedResult::FAILED_DELTA_READ_SEED);
return false;
}
if (!ApplyDeltaPatch(existing_seed_data, ungzipped_data,
&updated_seed_data)) {
RecordStoreSeedResult(StoreSeedResult::FAILED_DELTA_APPLY);
return false;
}
const bool result = StoreSeedDataNoDelta(
updated_seed_data, base64_seed_signature, country_code, date_fetched,
fetched_insecurely, parsed_seed);
if (result) {
// Note: |updated_seed_data.length()| is guaranteed to be non-zero, else
// result would be false.
int size_reduction = updated_seed_data.length() - ungzipped_data.length();
UMA_HISTOGRAM_PERCENTAGE("Variations.StoreSeed.DeltaSize.ReductionPercent",
100 * size_reduction / updated_seed_data.length());
UMA_HISTOGRAM_COUNTS_1000("Variations.StoreSeed.DeltaSize",
ungzipped_data.length() / 1024);
} else {
RecordStoreSeedResult(StoreSeedResult::FAILED_DELTA_STORE);
}
return result;
}
bool VariationsSeedStore::LoadSafeSeed(VariationsSeed* seed,
ClientFilterableState* client_state,
base::Time* seed_fetch_time) {
std::string unused_seed_data;
std::string unused_base64_seed_signature;
LoadSeedResult result = LoadSeedImpl(SeedType::SAFE, seed, &unused_seed_data,
&unused_base64_seed_signature);
RecordLoadSafeSeedResult(result);
if (result != LoadSeedResult::SUCCESS)
return false;
client_state->reference_date =
local_state_->GetTime(prefs::kVariationsSafeSeedDate);
client_state->locale =
local_state_->GetString(prefs::kVariationsSafeSeedLocale);
client_state->permanent_consistency_country = local_state_->GetString(
prefs::kVariationsSafeSeedPermanentConsistencyCountry);
client_state->session_consistency_country = local_state_->GetString(
prefs::kVariationsSafeSeedSessionConsistencyCountry);
*seed_fetch_time = local_state_->GetTime(prefs::kVariationsSafeSeedFetchTime);
return true;
}
bool VariationsSeedStore::StoreSafeSeed(
const std::string& seed_data,
const std::string& base64_seed_signature,
const ClientFilterableState& client_state,
base::Time seed_fetch_time) {
std::string base64_seed_data;
StoreSeedResult result = VerifyAndCompressSeedData(
seed_data, base64_seed_signature, false /* fetched_insecurely */,
SeedType::SAFE, &base64_seed_data, nullptr);
UMA_HISTOGRAM_ENUMERATION("Variations.SafeMode.StoreSafeSeed.Result", result,
StoreSeedResult::ENUM_SIZE);
if (result != StoreSeedResult::SUCCESS)
return false;
// The sentinel value should only ever be saved in place of the latest seed --
// it should never be saved in place of the safe seed.
DCHECK_NE(base64_seed_data, kIdenticalToSafeSeedSentinel);
// As a performance optimization, avoid an expensive no-op of overwriting the
// previous safe seed with an identical copy.
std::string previous_safe_seed =
local_state_->GetString(prefs::kVariationsSafeCompressedSeed);
if (base64_seed_data != previous_safe_seed) {
// It's theoretically possible to overwrite an existing safe seed value,
// which was identical to the latest seed, with a new value. This could
// happen, for example, if:
// (1) Seed A is received from the server and saved as both the safe and
// latest seed value.
// (2) Seed B is received from the server and saved as the latest seed
// value.
// (3) The user restarts Chrome, which is now running with the
// configuration from seed B.
// (4) Seed A is received again from the server, perhaps due to a
// rollback.
// In this situation, seed A should be saved as the latest seed, while seed
// B should be saved as the safe seed, i.e. the previously saved values
// should be swapped. Indeed, it is guaranteed that the latest seed value
// should be overwritten in this case, as a seed should not be considered
// safe unless a new seed can be both received *and saved* from the server.
std::string latest_seed =
local_state_->GetString(prefs::kVariationsCompressedSeed);
if (latest_seed == kIdenticalToSafeSeedSentinel) {
local_state_->SetString(prefs::kVariationsCompressedSeed,
previous_safe_seed);
}
local_state_->SetString(prefs::kVariationsSafeCompressedSeed,
base64_seed_data);
}
local_state_->SetString(prefs::kVariationsSafeSeedSignature,
base64_seed_signature);
local_state_->SetTime(prefs::kVariationsSafeSeedDate,
client_state.reference_date);
local_state_->SetString(prefs::kVariationsSafeSeedLocale,
client_state.locale);
local_state_->SetString(prefs::kVariationsSafeSeedPermanentConsistencyCountry,
client_state.permanent_consistency_country);
local_state_->SetString(prefs::kVariationsSafeSeedSessionConsistencyCountry,
client_state.session_consistency_country);
// As a space optimization, overwrite the stored latest seed data with an
// alias to the safe seed, if they are identical.
if (base64_seed_data ==
local_state_->GetString(prefs::kVariationsCompressedSeed)) {
local_state_->SetString(prefs::kVariationsCompressedSeed,
kIdenticalToSafeSeedSentinel);
// Moreover, in this case, the last fetch time for the safe seed should
// match the latest seed's.
seed_fetch_time = GetLastFetchTime();
}
local_state_->SetTime(prefs::kVariationsSafeSeedFetchTime, seed_fetch_time);
return true;
}
base::Time VariationsSeedStore::GetLastFetchTime() const {
return local_state_->GetTime(prefs::kVariationsLastFetchTime);
}
void VariationsSeedStore::RecordLastFetchTime() {
base::Time now = base::Time::Now();
local_state_->SetTime(prefs::kVariationsLastFetchTime, now);
// If the latest and safe seeds are identical, update the fetch time for the
// safe seed as well.
if (local_state_->GetString(prefs::kVariationsCompressedSeed) ==
kIdenticalToSafeSeedSentinel) {
local_state_->SetTime(prefs::kVariationsSafeSeedFetchTime, now);
}
}
void VariationsSeedStore::UpdateSeedDateAndLogDayChange(
const base::Time& server_date_fetched) {
UpdateSeedDateResult result = UpdateSeedDateResult::NO_OLD_DATE;
if (local_state_->HasPrefPath(prefs::kVariationsSeedDate)) {
const base::Time stored_date =
local_state_->GetTime(prefs::kVariationsSeedDate);
result = GetSeedDateChangeState(server_date_fetched, stored_date);
}
UMA_HISTOGRAM_ENUMERATION("Variations.SeedDateChange", result,
UpdateSeedDateResult::ENUM_SIZE);
local_state_->SetTime(prefs::kVariationsSeedDate, server_date_fetched);
}
const std::string& VariationsSeedStore::GetLatestSerialNumber() {
if (latest_serial_number_.empty()) {
// Efficiency note: This code should rarely be reached; typically, the
// latest serial number should be cached via the call to LoadSeed(). The
// call to ParseFromString() can be expensive, so it's best to only perform
// it once, if possible: [ https://crbug.com/761684#c2 ]. At the time of
// this writing, the only expected code path that should reach this code is
// when running in safe mode.
std::string seed_data;
VariationsSeed seed;
if (ReadSeedData(SeedType::LATEST, &seed_data) == LoadSeedResult::SUCCESS &&
seed.ParseFromString(seed_data)) {
latest_serial_number_ = seed.serial_number();
}
}
return latest_serial_number_;
}
// static
void VariationsSeedStore::RegisterPrefs(PrefRegistrySimple* registry) {
registry->RegisterStringPref(prefs::kVariationsCompressedSeed, std::string());
registry->RegisterStringPref(prefs::kVariationsCountry, std::string());
registry->RegisterTimePref(prefs::kVariationsLastFetchTime, base::Time());
registry->RegisterTimePref(prefs::kVariationsSeedDate, base::Time());
registry->RegisterStringPref(prefs::kVariationsSeedSignature, std::string());
// Safe seed prefs:
registry->RegisterStringPref(prefs::kVariationsSafeCompressedSeed,
std::string());
registry->RegisterTimePref(prefs::kVariationsSafeSeedDate, base::Time());
registry->RegisterTimePref(prefs::kVariationsSafeSeedFetchTime, base::Time());
registry->RegisterStringPref(prefs::kVariationsSafeSeedLocale, std::string());
registry->RegisterStringPref(
prefs::kVariationsSafeSeedPermanentConsistencyCountry, std::string());
registry->RegisterStringPref(
prefs::kVariationsSafeSeedSessionConsistencyCountry, std::string());
registry->RegisterStringPref(prefs::kVariationsSafeSeedSignature,
std::string());
}
bool VariationsSeedStore::SignatureVerificationEnabled() {
#if defined(OS_IOS) || defined(OS_ANDROID)
// Signature verification is disabled on mobile platforms for now, since it
// adds about ~15ms to the startup time on mobile (vs. a couple ms on
// desktop).
return false;
#else
return true;
#endif
}
void VariationsSeedStore::ClearPrefs(SeedType seed_type) {
if (seed_type == SeedType::LATEST) {
local_state_->ClearPref(prefs::kVariationsCompressedSeed);
local_state_->ClearPref(prefs::kVariationsLastFetchTime);
local_state_->ClearPref(prefs::kVariationsSeedDate);
local_state_->ClearPref(prefs::kVariationsSeedSignature);
return;
}
DCHECK_EQ(seed_type, SeedType::SAFE);
local_state_->ClearPref(prefs::kVariationsSafeCompressedSeed);
local_state_->ClearPref(prefs::kVariationsSafeSeedDate);
local_state_->ClearPref(prefs::kVariationsSafeSeedFetchTime);
local_state_->ClearPref(prefs::kVariationsSafeSeedLocale);
local_state_->ClearPref(
prefs::kVariationsSafeSeedPermanentConsistencyCountry);
local_state_->ClearPref(prefs::kVariationsSafeSeedSessionConsistencyCountry);
local_state_->ClearPref(prefs::kVariationsSafeSeedSignature);
}
#if defined(OS_ANDROID)
void VariationsSeedStore::ImportInitialSeed(
std::unique_ptr<SeedResponse> initial_seed) {
if (initial_seed->data.empty()) {
RecordFirstRunSeedImportResult(
FirstRunSeedImportResult::FAIL_NO_FIRST_RUN_SEED);
return;
}
base::Time date;
if (!base::Time::FromUTCString(initial_seed->date.c_str(), &date)) {
RecordFirstRunSeedImportResult(
FirstRunSeedImportResult::FAIL_INVALID_RESPONSE_DATE);
LOG(WARNING) << "Invalid response date: " << date;
return;
}
if (!StoreSeedData(initial_seed->data, initial_seed->signature,
initial_seed->country, date, false,
initial_seed->is_gzip_compressed, false, nullptr)) {
RecordFirstRunSeedImportResult(FirstRunSeedImportResult::FAIL_STORE_FAILED);
LOG(WARNING) << "First run variations seed is invalid.";
return;
}
RecordFirstRunSeedImportResult(FirstRunSeedImportResult::SUCCESS);
}
#endif // OS_ANDROID
LoadSeedResult VariationsSeedStore::LoadSeedImpl(
SeedType seed_type,
VariationsSeed* seed,
std::string* seed_data,
std::string* base64_seed_signature) {
LoadSeedResult read_result = ReadSeedData(seed_type, seed_data);
if (read_result != LoadSeedResult::SUCCESS)
return read_result;
*base64_seed_signature = local_state_->GetString(
seed_type == SeedType::LATEST ? prefs::kVariationsSeedSignature
: prefs::kVariationsSafeSeedSignature);
if (SignatureVerificationEnabled()) {
const VerifySignatureResult result =
VerifySeedSignature(*seed_data, *base64_seed_signature);
if (seed_type == SeedType::LATEST) {
UMA_HISTOGRAM_ENUMERATION("Variations.LoadSeedSignature", result,
VerifySignatureResult::ENUM_SIZE);
} else {
UMA_HISTOGRAM_ENUMERATION(
"Variations.SafeMode.LoadSafeSeed.SignatureValidity", result,
VerifySignatureResult::ENUM_SIZE);
}
if (result != VerifySignatureResult::VALID_SIGNATURE) {
ClearPrefs(seed_type);
return LoadSeedResult::INVALID_SIGNATURE;
}
}
if (!seed->ParseFromString(*seed_data)) {
ClearPrefs(seed_type);
return LoadSeedResult::CORRUPT_PROTOBUF;
}
return LoadSeedResult::SUCCESS;
}
LoadSeedResult VariationsSeedStore::ReadSeedData(SeedType seed_type,
std::string* seed_data) {
std::string base64_seed_data = local_state_->GetString(
seed_type == SeedType::LATEST ? prefs::kVariationsCompressedSeed
: prefs::kVariationsSafeCompressedSeed);
if (base64_seed_data.empty())
return LoadSeedResult::EMPTY;
// As a space optimization, the latest seed might not be stored directly, but
// rather aliased to the safe seed.
if (seed_type == SeedType::LATEST &&
base64_seed_data == kIdenticalToSafeSeedSentinel) {
return ReadSeedData(SeedType::SAFE, seed_data);
}
// If the decode process fails, assume the pref value is corrupt and clear it.
std::string decoded_data;
if (!base::Base64Decode(base64_seed_data, &decoded_data)) {
ClearPrefs(seed_type);
return LoadSeedResult::CORRUPT_BASE64;
}
if (!compression::GzipUncompress(decoded_data, seed_data)) {
ClearPrefs(seed_type);
return LoadSeedResult::CORRUPT_GZIP;
}
return LoadSeedResult::SUCCESS;
}
bool VariationsSeedStore::StoreSeedDataNoDelta(
const std::string& seed_data,
const std::string& base64_seed_signature,
const std::string& country_code,
const base::Time& date_fetched,
bool fetched_insecurely,
VariationsSeed* parsed_seed) {
std::string base64_seed_data;
VariationsSeed seed;
StoreSeedResult result = VerifyAndCompressSeedData(
seed_data, base64_seed_signature, fetched_insecurely, SeedType::LATEST,
&base64_seed_data, &seed);
if (result != StoreSeedResult::SUCCESS) {
RecordStoreSeedResult(result);
return false;
}
// This callback is only useful on Chrome for Android.
if (!on_initial_seed_stored_.is_null()) {
// If currently we do not have any stored pref then we mark seed storing as
// successful on the Java side to avoid repeated seed fetches and clear
// preferences on the Java side.
if (local_state_->GetString(prefs::kVariationsCompressedSeed).empty())
std::move(on_initial_seed_stored_).Run();
}
// Update the saved country code only if one was returned from the server.
if (!country_code.empty())
local_state_->SetString(prefs::kVariationsCountry, country_code);
// As a space optimization, store an alias to the safe seed if the contents
// are identical.
if (base64_seed_data ==
local_state_->GetString(prefs::kVariationsSafeCompressedSeed)) {
base64_seed_data = kIdenticalToSafeSeedSentinel;
}
local_state_->SetString(prefs::kVariationsCompressedSeed, base64_seed_data);
UpdateSeedDateAndLogDayChange(date_fetched);
local_state_->SetString(prefs::kVariationsSeedSignature,
base64_seed_signature);
latest_serial_number_ = seed.serial_number();
if (parsed_seed)
seed.Swap(parsed_seed);
RecordStoreSeedResult(StoreSeedResult::SUCCESS);
return true;
}
StoreSeedResult VariationsSeedStore::VerifyAndCompressSeedData(
const std::string& seed_data,
const std::string& base64_seed_signature,
bool fetched_insecurely,
SeedType seed_type,
std::string* base64_seed_data,
VariationsSeed* parsed_seed) {
if (seed_data.empty())
return StoreSeedResult::FAILED_EMPTY_GZIP_CONTENTS;
// Only store the seed data if it parses correctly.
VariationsSeed seed;
if (!seed.ParseFromString(seed_data))
return StoreSeedResult::FAILED_PARSE;
if (SignatureVerificationEnabled() || fetched_insecurely) {
const VerifySignatureResult result =
VerifySeedSignature(seed_data, base64_seed_signature);
switch (seed_type) {
case SeedType::LATEST:
UMA_HISTOGRAM_ENUMERATION("Variations.StoreSeedSignature", result,
VerifySignatureResult::ENUM_SIZE);
break;
case SeedType::SAFE:
UMA_HISTOGRAM_ENUMERATION(
"Variations.SafeMode.StoreSafeSeed.SignatureValidity", result,
VerifySignatureResult::ENUM_SIZE);
break;
}
if (result != VerifySignatureResult::VALID_SIGNATURE)
return StoreSeedResult::FAILED_SIGNATURE;
}
// Compress the seed before base64-encoding and storing.
std::string compressed_seed_data;
if (!compression::GzipCompress(seed_data, &compressed_seed_data))
return StoreSeedResult::FAILED_GZIP;
base::Base64Encode(compressed_seed_data, base64_seed_data);
if (parsed_seed)
seed.Swap(parsed_seed);
return StoreSeedResult::SUCCESS;
}
// static
bool VariationsSeedStore::ApplyDeltaPatch(const std::string& existing_data,
const std::string& patch,
std::string* output) {
output->clear();
google::protobuf::io::CodedInputStream in(
reinterpret_cast<const uint8_t*>(patch.data()), patch.length());
// Temporary string declared outside the loop so it can be re-used between
// different iterations (rather than allocating new ones).
std::string temp;
const uint32_t existing_data_size =
static_cast<uint32_t>(existing_data.size());
while (in.CurrentPosition() != static_cast<int>(patch.length())) {
uint32_t value;
if (!in.ReadVarint32(&value))
return false;
if (value != 0) {
// A non-zero value indicates the number of bytes to copy from the patch
// stream to the output.
// No need to guard against bad data (i.e. very large |value|) because the
// call below will fail if |value| is greater than the size of the patch.
if (!in.ReadString(&temp, value))
return false;
output->append(temp);
} else {
// Otherwise, when it's zero, it indicates that it's followed by a pair of
// numbers - |offset| and |length| that specify a range of data to copy
// from |existing_data|.
uint32_t offset;
uint32_t length;
if (!in.ReadVarint32(&offset) || !in.ReadVarint32(&length))
return false;
// Check for |offset + length| being out of range and for overflow.
base::CheckedNumeric<uint32_t> end_offset(offset);
end_offset += length;
if (!end_offset.IsValid() || end_offset.ValueOrDie() > existing_data_size)
return false;
output->append(existing_data, offset, length);
}
}
return true;
}
void VariationsSeedStore::ReportUnsupportedSeedFormatError() {
RecordStoreSeedResult(StoreSeedResult::FAILED_UNSUPPORTED_SEED_FORMAT);
}
} // namespace variations