// Copyright (c) 2006-2009 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 "net/http/http_cache.h" #include "base/hash_tables.h" #include "base/message_loop.h" #include "base/scoped_vector.h" #include "base/string_util.h" #include "net/base/cache_type.h" #include "net/base/net_errors.h" #include "net/base/load_flags.h" #include "net/base/load_log_unittest.h" #include "net/base/ssl_cert_request_info.h" #include "net/disk_cache/disk_cache.h" #include "net/http/http_byte_range.h" #include "net/http/http_request_info.h" #include "net/http/http_response_headers.h" #include "net/http/http_response_info.h" #include "net/http/http_transaction.h" #include "net/http/http_transaction_unittest.h" #include "net/http/http_util.h" #include "testing/gtest/include/gtest/gtest.h" using base::Time; namespace { int GetTestModeForEntry(const std::string& key) { // 'key' is prefixed with an identifier if it corresponds to a cached POST. // Skip past that to locate the actual URL. // // TODO(darin): It breaks the abstraction a bit that we assume 'key' is an // URL corresponding to a registered MockTransaction. It would be good to // have another way to access the test_mode. GURL url; if (isdigit(key[0])) { size_t slash = key.find('/'); DCHECK(slash != std::string::npos); url = GURL(key.substr(slash + 1)); } else { url = GURL(key); } const MockTransaction* t = FindMockTransaction(url); DCHECK(t); return t->test_mode; } //----------------------------------------------------------------------------- // mock disk cache (a very basic memory cache implementation) class MockDiskEntry : public disk_cache::Entry, public base::RefCounted<MockDiskEntry> { public: MockDiskEntry() : test_mode_(0), doomed_(false), sparse_(false), fail_requests_(false), busy_(false), delayed_(false) { } explicit MockDiskEntry(const std::string& key) : key_(key), doomed_(false), sparse_(false), fail_requests_(false), busy_(false), delayed_(false) { test_mode_ = GetTestModeForEntry(key); } bool is_doomed() const { return doomed_; } virtual void Doom() { doomed_ = true; } virtual void Close() { Release(); } virtual std::string GetKey() const { if (fail_requests_) return std::string(); return key_; } virtual Time GetLastUsed() const { return Time::FromInternalValue(0); } virtual Time GetLastModified() const { return Time::FromInternalValue(0); } virtual int32 GetDataSize(int index) const { DCHECK(index >= 0 && index < 2); return static_cast<int32>(data_[index].size()); } virtual int ReadData(int index, int offset, net::IOBuffer* buf, int buf_len, net::CompletionCallback* callback) { DCHECK(index >= 0 && index < 2); if (fail_requests_) return net::ERR_CACHE_READ_FAILURE; if (offset < 0 || offset > static_cast<int>(data_[index].size())) return net::ERR_FAILED; if (static_cast<size_t>(offset) == data_[index].size()) return 0; int num = std::min(buf_len, static_cast<int>(data_[index].size()) - offset); memcpy(buf->data(), &data_[index][offset], num); if (!callback || (test_mode_ & TEST_MODE_SYNC_CACHE_READ)) return num; CallbackLater(callback, num); return net::ERR_IO_PENDING; } virtual int WriteData(int index, int offset, net::IOBuffer* buf, int buf_len, net::CompletionCallback* callback, bool truncate) { DCHECK(index >= 0 && index < 2); DCHECK(truncate); if (fail_requests_) return net::ERR_CACHE_READ_FAILURE; if (offset < 0 || offset > static_cast<int>(data_[index].size())) return net::ERR_FAILED; data_[index].resize(offset + buf_len); if (buf_len) memcpy(&data_[index][offset], buf->data(), buf_len); if (!callback || (test_mode_ & TEST_MODE_SYNC_CACHE_WRITE)) return buf_len; CallbackLater(callback, buf_len); return net::ERR_IO_PENDING; } virtual int ReadSparseData(int64 offset, net::IOBuffer* buf, int buf_len, net::CompletionCallback* completion_callback) { if (!sparse_ || busy_) return net::ERR_CACHE_OPERATION_NOT_SUPPORTED; if (offset < 0) return net::ERR_FAILED; if (fail_requests_) return net::ERR_CACHE_READ_FAILURE; DCHECK(offset < kint32max); int real_offset = static_cast<int>(offset); if (!buf_len) return 0; int num = std::min(static_cast<int>(data_[1].size()) - real_offset, buf_len); memcpy(buf->data(), &data_[1][real_offset], num); if (!completion_callback || (test_mode_ & TEST_MODE_SYNC_CACHE_READ)) return num; CallbackLater(completion_callback, num); busy_ = true; delayed_ = false; return net::ERR_IO_PENDING; } virtual int WriteSparseData(int64 offset, net::IOBuffer* buf, int buf_len, net::CompletionCallback* completion_callback) { if (busy_) return net::ERR_CACHE_OPERATION_NOT_SUPPORTED; if (!sparse_) { if (data_[1].size()) return net::ERR_CACHE_OPERATION_NOT_SUPPORTED; sparse_ = true; } if (offset < 0) return net::ERR_FAILED; if (!buf_len) return 0; if (fail_requests_) return net::ERR_CACHE_READ_FAILURE; DCHECK(offset < kint32max); int real_offset = static_cast<int>(offset); if (static_cast<int>(data_[1].size()) < real_offset + buf_len) data_[1].resize(real_offset + buf_len); memcpy(&data_[1][real_offset], buf->data(), buf_len); if (!completion_callback || (test_mode_ & TEST_MODE_SYNC_CACHE_WRITE)) return buf_len; CallbackLater(completion_callback, buf_len); return net::ERR_IO_PENDING; } virtual int GetAvailableRange(int64 offset, int len, int64* start) { if (!sparse_ || busy_) return net::ERR_CACHE_OPERATION_NOT_SUPPORTED; if (offset < 0) return net::ERR_FAILED; if (fail_requests_) return net::ERR_CACHE_READ_FAILURE; *start = offset; DCHECK(offset < kint32max); int real_offset = static_cast<int>(offset); if (static_cast<int>(data_[1].size()) < real_offset) return 0; int num = std::min(static_cast<int>(data_[1].size()) - real_offset, len); int count = 0; for (; num > 0; num--, real_offset++) { if (!count) { if (data_[1][real_offset]) { count++; *start = real_offset; } } else { if (!data_[1][real_offset]) break; count++; } } return count; } virtual int GetAvailableRange(int64 offset, int len, int64* start, net::CompletionCallback* callback) { return net::ERR_NOT_IMPLEMENTED; } virtual void CancelSparseIO() { cancel_ = true; } virtual int ReadyForSparseIO(net::CompletionCallback* completion_callback) { if (!cancel_) return net::OK; cancel_ = false; DCHECK(completion_callback); if (test_mode_ & TEST_MODE_SYNC_CACHE_READ) return net::OK; // The pending operation is already in the message loop (and hopefuly // already in the second pass). Just notify the caller that it finished. CallbackLater(completion_callback, 0); return net::ERR_IO_PENDING; } // Fail most subsequent requests. void set_fail_requests() { fail_requests_ = true; } // If |value| is true, don't deliver any completion callbacks until called // again with |value| set to false. Caution: remember to enable callbacks // again or all subsequent tests will fail. static void IgnoreCallbacks(bool value) { if (ignore_callbacks_ == value) return; ignore_callbacks_ = value; if (!value) StoreAndDeliverCallbacks(false, NULL, NULL, 0); } private: friend class base::RefCounted<MockDiskEntry>; struct CallbackInfo { scoped_refptr<MockDiskEntry> entry; net::CompletionCallback* callback; int result; }; ~MockDiskEntry() {} // Unlike the callbacks for MockHttpTransaction, we want this one to run even // if the consumer called Close on the MockDiskEntry. We achieve that by // leveraging the fact that this class is reference counted. void CallbackLater(net::CompletionCallback* callback, int result) { if (ignore_callbacks_) return StoreAndDeliverCallbacks(true, this, callback, result); MessageLoop::current()->PostTask(FROM_HERE, NewRunnableMethod(this, &MockDiskEntry::RunCallback, callback, result)); } void RunCallback(net::CompletionCallback* callback, int result) { if (busy_) { // This is kind of hacky, but controlling the behavior of just this entry // from a test is sort of complicated. What we really want to do is // delay the delivery of a sparse IO operation a little more so that the // request start operation (async) will finish without seeing the end of // this operation (already posted to the message loop)... and without // just delaying for n mS (which may cause trouble with slow bots). So // we re-post this operation (all async sparse IO operations will take two // trips trhough the message loop instead of one). if (!delayed_) { delayed_ = true; return CallbackLater(callback, result); } } busy_ = false; callback->Run(result); } // When |store| is true, stores the callback to be delivered later; otherwise // delivers any callback previously stored. static void StoreAndDeliverCallbacks(bool store, MockDiskEntry* entry, net::CompletionCallback* callback, int result) { static std::vector<CallbackInfo> callback_list; if (store) { CallbackInfo c = {entry, callback, result}; callback_list.push_back(c); } else { for (size_t i = 0; i < callback_list.size(); i++) { CallbackInfo& c = callback_list[i]; c.entry->CallbackLater(c.callback, c.result); } callback_list.clear(); } } std::string key_; std::vector<char> data_[2]; int test_mode_; bool doomed_; bool sparse_; bool fail_requests_; bool busy_; bool delayed_; static bool cancel_; static bool ignore_callbacks_; }; // Statics. bool MockDiskEntry::cancel_ = false; bool MockDiskEntry::ignore_callbacks_ = false; class MockDiskCache : public disk_cache::Backend { public: MockDiskCache() : open_count_(0), create_count_(0), fail_requests_(false), soft_failures_(false) { } ~MockDiskCache() { EntryMap::iterator it = entries_.begin(); for (; it != entries_.end(); ++it) it->second->Release(); } virtual int32 GetEntryCount() const { return static_cast<int32>(entries_.size()); } virtual bool OpenEntry(const std::string& key, disk_cache::Entry** entry) { NOTREACHED(); return false; } virtual int OpenEntry(const std::string& key, disk_cache::Entry** entry, net::CompletionCallback* callback) { if (fail_requests_) return net::ERR_CACHE_OPEN_FAILURE; EntryMap::iterator it = entries_.find(key); if (it == entries_.end()) return net::ERR_CACHE_OPEN_FAILURE; if (it->second->is_doomed()) { it->second->Release(); entries_.erase(it); return net::ERR_CACHE_OPEN_FAILURE; } open_count_++; it->second->AddRef(); *entry = it->second; if (soft_failures_) it->second->set_fail_requests(); if (!callback || (GetTestModeForEntry(key) & TEST_MODE_SYNC_CACHE_START)) return net::OK; CallbackLater(callback, net::OK); return net::ERR_IO_PENDING; } virtual bool CreateEntry(const std::string& key, disk_cache::Entry** entry) { NOTREACHED(); return false; } virtual int CreateEntry(const std::string& key, disk_cache::Entry** entry, net::CompletionCallback* callback) { if (fail_requests_) return net::ERR_CACHE_CREATE_FAILURE; EntryMap::iterator it = entries_.find(key); if (it != entries_.end()) { DCHECK(it->second->is_doomed()); it->second->Release(); entries_.erase(it); } create_count_++; MockDiskEntry* new_entry = new MockDiskEntry(key); new_entry->AddRef(); entries_[key] = new_entry; new_entry->AddRef(); *entry = new_entry; if (soft_failures_) new_entry->set_fail_requests(); if (!callback || (GetTestModeForEntry(key) & TEST_MODE_SYNC_CACHE_START)) return net::OK; CallbackLater(callback, net::OK); return net::ERR_IO_PENDING; } virtual bool DoomEntry(const std::string& key) { return false; } virtual int DoomEntry(const std::string& key, net::CompletionCallback* callback) { EntryMap::iterator it = entries_.find(key); if (it != entries_.end()) { it->second->Release(); entries_.erase(it); } if (GetTestModeForEntry(key) & TEST_MODE_SYNC_CACHE_START) return net::OK; CallbackLater(callback, net::OK); return net::ERR_IO_PENDING; } virtual bool DoomAllEntries() { return false; } virtual int DoomAllEntries(net::CompletionCallback* callback) { return net::ERR_NOT_IMPLEMENTED; } virtual bool DoomEntriesBetween(const Time initial_time, const Time end_time) { return false; } virtual int DoomEntriesBetween(const base::Time initial_time, const base::Time end_time, net::CompletionCallback* callback) { return net::ERR_NOT_IMPLEMENTED; } virtual bool DoomEntriesSince(const Time initial_time) { return false; } virtual int DoomEntriesSince(const base::Time initial_time, net::CompletionCallback* callback) { return net::ERR_NOT_IMPLEMENTED; } virtual bool OpenNextEntry(void** iter, disk_cache::Entry** next_entry) { return false; } virtual int OpenNextEntry(void** iter, disk_cache::Entry** next_entry, net::CompletionCallback* callback) { return net::ERR_NOT_IMPLEMENTED; } virtual void EndEnumeration(void** iter) {} virtual void GetStats( std::vector<std::pair<std::string, std::string> >* stats) { } // returns number of times a cache entry was successfully opened int open_count() const { return open_count_; } // returns number of times a cache entry was successfully created int create_count() const { return create_count_; } // Fail any subsequent CreateEntry and OpenEntry. void set_fail_requests() { fail_requests_ = true; } // Return entries that fail some of their requests. void set_soft_failures(bool value) { soft_failures_ = value; } private: typedef base::hash_map<std::string, MockDiskEntry*> EntryMap; class CallbackRunner : public Task { public: CallbackRunner(net::CompletionCallback* callback, int result) : callback_(callback), result_(result) {} virtual void Run() { callback_->Run(result_); } private: net::CompletionCallback* callback_; int result_; DISALLOW_COPY_AND_ASSIGN(CallbackRunner); }; void CallbackLater(net::CompletionCallback* callback, int result) { MessageLoop::current()->PostTask(FROM_HERE, new CallbackRunner(callback, result)); } EntryMap entries_; int open_count_; int create_count_; bool fail_requests_; bool soft_failures_; }; class MockHttpCache { public: MockHttpCache() : http_cache_(new MockNetworkLayer(), new MockDiskCache()) { } explicit MockHttpCache(disk_cache::Backend* disk_cache) : http_cache_(new MockNetworkLayer(), disk_cache) { } net::HttpCache* http_cache() { return &http_cache_; } MockNetworkLayer* network_layer() { return static_cast<MockNetworkLayer*>(http_cache_.network_layer()); } MockDiskCache* disk_cache() { return static_cast<MockDiskCache*>(http_cache_.GetBackend()); } private: net::HttpCache http_cache_; }; //----------------------------------------------------------------------------- // helpers void ReadAndVerifyTransaction(net::HttpTransaction* trans, const MockTransaction& trans_info) { std::string content; int rv = ReadTransaction(trans, &content); EXPECT_EQ(net::OK, rv); std::string expected(trans_info.data); EXPECT_EQ(expected, content); } void RunTransactionTestWithRequestAndLog(net::HttpCache* cache, const MockTransaction& trans_info, const MockHttpRequest& request, net::HttpResponseInfo* response_info, net::LoadLog* load_log) { TestCompletionCallback callback; // write to the cache scoped_ptr<net::HttpTransaction> trans; int rv = cache->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, load_log); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::OK, rv); const net::HttpResponseInfo* response = trans->GetResponseInfo(); ASSERT_TRUE(response); if (response_info) *response_info = *response; ReadAndVerifyTransaction(trans.get(), trans_info); } void RunTransactionTestWithRequest(net::HttpCache* cache, const MockTransaction& trans_info, const MockHttpRequest& request, net::HttpResponseInfo* response_info) { RunTransactionTestWithRequestAndLog(cache, trans_info, request, response_info, NULL); } void RunTransactionTestWithLog(net::HttpCache* cache, const MockTransaction& trans_info, net::LoadLog* log) { RunTransactionTestWithRequestAndLog( cache, trans_info, MockHttpRequest(trans_info), NULL, log); } void RunTransactionTest(net::HttpCache* cache, const MockTransaction& trans_info) { RunTransactionTestWithLog(cache, trans_info, NULL); } void RunTransactionTestWithResponseInfo(net::HttpCache* cache, const MockTransaction& trans_info, net::HttpResponseInfo* response) { RunTransactionTestWithRequest( cache, trans_info, MockHttpRequest(trans_info), response); } void RunTransactionTestWithResponse(net::HttpCache* cache, const MockTransaction& trans_info, std::string* response_headers) { net::HttpResponseInfo response; RunTransactionTestWithResponseInfo(cache, trans_info, &response); response.headers->GetNormalizedHeaders(response_headers); } // This class provides a handler for kFastNoStoreGET_Transaction so that the // no-store header can be included on demand. class FastTransactionServer { public: FastTransactionServer() { no_store = false; } ~FastTransactionServer() {} void set_no_store(bool value) { no_store = value; } static void FastNoStoreHandler(const net::HttpRequestInfo* request, std::string* response_status, std::string* response_headers, std::string* response_data) { if (no_store) *response_headers = "Cache-Control: no-store\n"; } private: static bool no_store; DISALLOW_COPY_AND_ASSIGN(FastTransactionServer); }; bool FastTransactionServer::no_store; const MockTransaction kFastNoStoreGET_Transaction = { "http://www.google.com/nostore", "GET", base::Time(), "", net::LOAD_VALIDATE_CACHE, "HTTP/1.1 200 OK", "Cache-Control: max-age=10000\n", base::Time(), "<html><body>Google Blah Blah</body></html>", TEST_MODE_SYNC_NET_START, &FastTransactionServer::FastNoStoreHandler, 0 }; // This class provides a handler for kRangeGET_TransactionOK so that the range // request can be served on demand. class RangeTransactionServer { public: RangeTransactionServer() { not_modified_ = false; modified_ = false; bad_200_ = false; } ~RangeTransactionServer() { not_modified_ = false; modified_ = false; bad_200_ = false; } // Returns only 416 or 304 when set. void set_not_modified(bool value) { not_modified_ = value; } // Returns 206 when revalidating a range (instead of 304). void set_modified(bool value) { modified_ = value; } // Returns 200 instead of 206 (a malformed response overall). void set_bad_200(bool value) { bad_200_ = value; } static void RangeHandler(const net::HttpRequestInfo* request, std::string* response_status, std::string* response_headers, std::string* response_data); private: static bool not_modified_; static bool modified_; static bool bad_200_; DISALLOW_COPY_AND_ASSIGN(RangeTransactionServer); }; bool RangeTransactionServer::not_modified_ = false; bool RangeTransactionServer::modified_ = false; bool RangeTransactionServer::bad_200_ = false; // A dummy extra header that must be preserved on a given request. #define EXTRA_HEADER "Extra: header\r\n" // Static. void RangeTransactionServer::RangeHandler(const net::HttpRequestInfo* request, std::string* response_status, std::string* response_headers, std::string* response_data) { if (request->extra_headers.empty()) { response_status->assign("HTTP/1.1 416 Requested Range Not Satisfiable"); return; } // We want to make sure we don't delete extra headers. EXPECT_TRUE(request->extra_headers.find(EXTRA_HEADER) != std::string::npos); if (not_modified_) { response_status->assign("HTTP/1.1 304 Not Modified"); return; } std::vector<net::HttpByteRange> ranges; if (!net::HttpUtil::ParseRanges(request->extra_headers, &ranges) || ranges.size() != 1) return; // We can handle this range request. net::HttpByteRange byte_range = ranges[0]; if (byte_range.first_byte_position() > 79) { response_status->assign("HTTP/1.1 416 Requested Range Not Satisfiable"); return; } EXPECT_TRUE(byte_range.ComputeBounds(80)); int start = static_cast<int>(byte_range.first_byte_position()); int end = static_cast<int>(byte_range.last_byte_position()); EXPECT_LT(end, 80); size_t if_range_header = request->extra_headers.find("If-Range"); if (std::string::npos != if_range_header) { // Check that If-Range isn't specified twice. EXPECT_EQ(std::string::npos, request->extra_headers.find("If-Range", if_range_header + 1)); } std::string content_range = StringPrintf("Content-Range: bytes %d-%d/80\n", start, end); response_headers->append(content_range); if (request->extra_headers.find("If-None-Match") == std::string::npos || modified_) { EXPECT_EQ(9, (end - start) % 10); std::string data; for (int block_start = start; block_start < end; block_start += 10) StringAppendF(&data, "rg: %02d-%02d ", block_start, block_start + 9); *response_data = data; if (end - start != 9) { // We also have to fix content-length. int len = end - start + 1; EXPECT_EQ(0, len % 10); std::string content_length = StringPrintf("Content-Length: %d\n", len); response_headers->replace(response_headers->find("Content-Length:"), content_length.size(), content_length); } if (bad_200_) { // We return a range, but with a response code of 200. response_status->assign("HTTP/1.1 200 Success"); } } else { response_status->assign("HTTP/1.1 304 Not Modified"); response_data->clear(); } } const MockTransaction kRangeGET_TransactionOK = { "http://www.google.com/range", "GET", base::Time(), "Range: bytes = 40-49\r\n" EXTRA_HEADER, net::LOAD_NORMAL, "HTTP/1.1 206 Partial Content", "Last-Modified: Sat, 18 Apr 2009 01:10:43 GMT\n" "ETag: \"foo\"\n" "Accept-Ranges: bytes\n" "Content-Length: 10\n", base::Time(), "rg: 40-49 ", TEST_MODE_NORMAL, &RangeTransactionServer::RangeHandler, 0 }; // Returns true if the response headers (|response|) match a partial content // response for the range starting at |start| and ending at |end|. bool Verify206Response(std::string response, int start, int end) { std::string raw_headers(net::HttpUtil::AssembleRawHeaders(response.data(), response.size())); scoped_refptr<net::HttpResponseHeaders> headers = new net::HttpResponseHeaders(raw_headers); if (206 != headers->response_code()) return false; int64 range_start, range_end, object_size; if (!headers->GetContentRange(&range_start, &range_end, &object_size)) return false; int64 content_length = headers->GetContentLength(); int length = end - start + 1; if (content_length != length) return false; if (range_start != start) return false; if (range_end != end) return false; return true; } // Helper to represent a network HTTP response. struct Response { // Set this response into |trans|. void AssignTo(MockTransaction* trans) const { trans->status = status; trans->response_headers = headers; trans->data = body; } std::string status_and_headers() const { return std::string(status) + "\n" + std::string(headers); } const char* status; const char* headers; const char* body; }; struct Context { Context() : result(net::ERR_IO_PENDING) {} int result; TestCompletionCallback callback; scoped_ptr<net::HttpTransaction> trans; }; } // namespace //----------------------------------------------------------------------------- // tests TEST(HttpCache, CreateThenDestroy) { MockHttpCache cache; scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); } TEST(HttpCache, GetBackend) { // This will initialize a cache object with NULL backend. MockHttpCache cache(NULL); // This will lazily initialize the backend. cache.http_cache()->set_type(net::MEMORY_CACHE); EXPECT_TRUE(cache.http_cache()->GetBackend()); } TEST(HttpCache, SimpleGET) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGETNoDiskCache) { MockHttpCache cache; cache.disk_cache()->set_fail_requests(); scoped_refptr<net::LoadLog> log(new net::LoadLog(net::LoadLog::kUnbounded)); // Read from the network, and don't use the cache. RunTransactionTestWithLog(cache.http_cache(), kSimpleGET_Transaction, log); // Check that the LoadLog was filled as expected. // (We attempted to both Open and Create entries, but both failed). EXPECT_EQ(4u, log->entries().size()); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 0, net::LoadLog::TYPE_HTTP_CACHE_OPEN_ENTRY)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 1, net::LoadLog::TYPE_HTTP_CACHE_OPEN_ENTRY)); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 2, net::LoadLog::TYPE_HTTP_CACHE_CREATE_ENTRY)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 3, net::LoadLog::TYPE_HTTP_CACHE_CREATE_ENTRY)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGETWithDiskFailures) { MockHttpCache cache; cache.disk_cache()->set_soft_failures(true); // Read from the network, and fail to write to the cache. RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // This one should see an empty cache again. RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } // Tests that disk failures after the transaction has started don't cause the // request to fail. TEST(HttpCache, SimpleGETWithDiskFailures2) { MockHttpCache cache; MockHttpRequest request(kSimpleGET_Transaction); scoped_ptr<Context> c(new Context()); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); EXPECT_EQ(net::ERR_IO_PENDING, rv); rv = c->callback.WaitForResult(); // Start failing request now. cache.disk_cache()->set_soft_failures(true); // We have to open the entry again to propagate the failure flag. disk_cache::Entry* en; ASSERT_EQ(net::OK, cache.disk_cache()->OpenEntry(kSimpleGET_Transaction.url, &en, NULL)); en->Close(); ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); c.reset(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // This one should see an empty cache again. RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadOnlyFromCache_Hit) { MockHttpCache cache; scoped_refptr<net::LoadLog> log(new net::LoadLog(net::LoadLog::kUnbounded)); // write to the cache RunTransactionTestWithLog(cache.http_cache(), kSimpleGET_Transaction, log); // Check that the LoadLog was filled as expected. EXPECT_EQ(6u, log->entries().size()); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 0, net::LoadLog::TYPE_HTTP_CACHE_OPEN_ENTRY)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 1, net::LoadLog::TYPE_HTTP_CACHE_OPEN_ENTRY)); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 2, net::LoadLog::TYPE_HTTP_CACHE_CREATE_ENTRY)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 3, net::LoadLog::TYPE_HTTP_CACHE_CREATE_ENTRY)); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 4, net::LoadLog::TYPE_HTTP_CACHE_WAITING)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 5, net::LoadLog::TYPE_HTTP_CACHE_WAITING)); // force this transaction to read from the cache MockTransaction transaction(kSimpleGET_Transaction); transaction.load_flags |= net::LOAD_ONLY_FROM_CACHE; log = new net::LoadLog(net::LoadLog::kUnbounded); RunTransactionTestWithLog(cache.http_cache(), transaction, log); // Check that the LoadLog was filled as expected. EXPECT_EQ(6u, log->entries().size()); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 0, net::LoadLog::TYPE_HTTP_CACHE_OPEN_ENTRY)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 1, net::LoadLog::TYPE_HTTP_CACHE_OPEN_ENTRY)); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 2, net::LoadLog::TYPE_HTTP_CACHE_WAITING)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 3, net::LoadLog::TYPE_HTTP_CACHE_WAITING)); EXPECT_TRUE(net::LogContainsBeginEvent( *log, 4, net::LoadLog::TYPE_HTTP_CACHE_READ_INFO)); EXPECT_TRUE(net::LogContainsEndEvent( *log, 5, net::LoadLog::TYPE_HTTP_CACHE_READ_INFO)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadOnlyFromCache_Miss) { MockHttpCache cache; // force this transaction to read from the cache MockTransaction transaction(kSimpleGET_Transaction); transaction.load_flags |= net::LOAD_ONLY_FROM_CACHE; MockHttpRequest request(transaction); TestCompletionCallback callback; scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::ERR_CACHE_MISS, rv); trans.reset(); EXPECT_EQ(0, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadPreferringCache_Hit) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // force this transaction to read from the cache if valid MockTransaction transaction(kSimpleGET_Transaction); transaction.load_flags |= net::LOAD_PREFERRING_CACHE; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadPreferringCache_Miss) { MockHttpCache cache; // force this transaction to read from the cache if valid MockTransaction transaction(kSimpleGET_Transaction); transaction.load_flags |= net::LOAD_PREFERRING_CACHE; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadBypassCache) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // force this transaction to write to the cache again MockTransaction transaction(kSimpleGET_Transaction); transaction.load_flags |= net::LOAD_BYPASS_CACHE; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadBypassCache_Implicit) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // force this transaction to write to the cache again MockTransaction transaction(kSimpleGET_Transaction); transaction.request_headers = "pragma: no-cache"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadBypassCache_Implicit2) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // force this transaction to write to the cache again MockTransaction transaction(kSimpleGET_Transaction); transaction.request_headers = "cache-control: no-cache"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadValidateCache) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // read from the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // force this transaction to validate the cache MockTransaction transaction(kSimpleGET_Transaction); transaction.load_flags |= net::LOAD_VALIDATE_CACHE; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, SimpleGET_LoadValidateCache_Implicit) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // read from the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // force this transaction to validate the cache MockTransaction transaction(kSimpleGET_Transaction); transaction.request_headers = "cache-control: max-age=0"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } static void PreserveRequestHeaders_Handler( const net::HttpRequestInfo* request, std::string* response_status, std::string* response_headers, std::string* response_data) { EXPECT_TRUE(request->extra_headers.find(EXTRA_HEADER) != std::string::npos); } // Tests that we don't remove extra headers for simple requests. TEST(HttpCache, SimpleGET_PreserveRequestHeaders) { MockHttpCache cache; MockTransaction transaction(kSimpleGET_Transaction); transaction.handler = PreserveRequestHeaders_Handler; transaction.request_headers = EXTRA_HEADER; transaction.response_headers = "Cache-Control: max-age=0\n"; AddMockTransaction(&transaction); // Write, then revalidate the entry. RunTransactionTest(cache.http_cache(), transaction); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we don't remove extra headers for conditionalized requests. TEST(HttpCache, ConditionalizedGET_PreserveRequestHeaders) { MockHttpCache cache; // Write to the cache. RunTransactionTest(cache.http_cache(), kETagGET_Transaction); MockTransaction transaction(kETagGET_Transaction); transaction.handler = PreserveRequestHeaders_Handler; transaction.request_headers = "If-None-Match: \"foopy\"\n" EXTRA_HEADER; AddMockTransaction(&transaction); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } TEST(HttpCache, SimpleGET_ManyReaders) { MockHttpCache cache; MockHttpRequest request(kSimpleGET_Transaction); std::vector<Context*> context_list; const int kNumTransactions = 5; for (int i = 0; i < kNumTransactions; ++i) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); c->result = c->trans->Start(&request, &c->callback, NULL); } // Allow all requests to move from the Create queue to the active entry. MessageLoop::current()->RunAllPending(); // The first request should be a writer at this point, and the subsequent // requests should be pending. EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); for (int i = 0; i < kNumTransactions; ++i) { Context* c = context_list[i]; if (c->result == net::ERR_IO_PENDING) c->result = c->callback.WaitForResult(); ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); } // We should not have had to re-open the disk entry EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); for (int i = 0; i < kNumTransactions; ++i) { Context* c = context_list[i]; delete c; } } // This is a test for http://code.google.com/p/chromium/issues/detail?id=4769. // If cancelling a request is racing with another request for the same resource // finishing, we have to make sure that we remove both transactions from the // entry. TEST(HttpCache, SimpleGET_RacingReaders) { MockHttpCache cache; MockHttpRequest request(kSimpleGET_Transaction); MockHttpRequest reader_request(kSimpleGET_Transaction); reader_request.load_flags = net::LOAD_ONLY_FROM_CACHE; std::vector<Context*> context_list; const int kNumTransactions = 5; for (int i = 0; i < kNumTransactions; ++i) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); MockHttpRequest* this_request = &request; if (i == 1 || i == 2) this_request = &reader_request; c->result = c->trans->Start(this_request, &c->callback, NULL); } // Allow all requests to move from the Create queue to the active entry. MessageLoop::current()->RunAllPending(); // The first request should be a writer at this point, and the subsequent // requests should be pending. EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); Context* c = context_list[0]; ASSERT_EQ(net::ERR_IO_PENDING, c->result); c->result = c->callback.WaitForResult(); ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); // Now we have 2 active readers and two queued transactions. c = context_list[1]; ASSERT_EQ(net::ERR_IO_PENDING, c->result); c->result = c->callback.WaitForResult(); if (c->result == net::OK) ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); // At this point we have one reader, two pending transactions and a task on // the queue to move to the next transaction. Now we cancel the request that // is the current reader, and expect the queued task to be able to start the // next request. c = context_list[2]; c->trans.reset(); for (int i = 3; i < kNumTransactions; ++i) { Context* c = context_list[i]; if (c->result == net::ERR_IO_PENDING) c->result = c->callback.WaitForResult(); if (c->result == net::OK) ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); } // We should not have had to re-open the disk entry. EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); for (int i = 0; i < kNumTransactions; ++i) { Context* c = context_list[i]; delete c; } } // Tests that we can doom an entry with pending transactions and delete one of // the pending transactions before the first one completes. // See http://code.google.com/p/chromium/issues/detail?id=25588 TEST(HttpCache, SimpleGET_DoomWithPending) { // We need simultaneous doomed / not_doomed entries so let's use a real cache. disk_cache::Backend* disk_cache = disk_cache::CreateInMemoryCacheBackend(1024 * 1024); MockHttpCache cache(disk_cache); MockHttpRequest request(kSimpleGET_Transaction); MockHttpRequest writer_request(kSimpleGET_Transaction); writer_request.load_flags = net::LOAD_BYPASS_CACHE; ScopedVector<Context> context_list; const int kNumTransactions = 4; for (int i = 0; i < kNumTransactions; ++i) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); MockHttpRequest* this_request = &request; if (i == 3) this_request = &writer_request; c->result = c->trans->Start(this_request, &c->callback, NULL); } // The first request should be a writer at this point, and the two subsequent // requests should be pending. The last request doomed the first entry. EXPECT_EQ(2, cache.network_layer()->transaction_count()); // Cancel the first queued transaction. delete context_list[1]; context_list.get()[1] = NULL; for (int i = 0; i < kNumTransactions; ++i) { if (i == 1) continue; Context* c = context_list[i]; ASSERT_EQ(net::ERR_IO_PENDING, c->result); c->result = c->callback.WaitForResult(); ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); } } // This is a test for http://code.google.com/p/chromium/issues/detail?id=4731. // We may attempt to delete an entry synchronously with the act of adding a new // transaction to said entry. TEST(HttpCache, FastNoStoreGET_DoneWithPending) { MockHttpCache cache; // The headers will be served right from the call to Start() the request. MockHttpRequest request(kFastNoStoreGET_Transaction); FastTransactionServer request_handler; AddMockTransaction(&kFastNoStoreGET_Transaction); std::vector<Context*> context_list; const int kNumTransactions = 3; for (int i = 0; i < kNumTransactions; ++i) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); c->result = c->trans->Start(&request, &c->callback, NULL); } // Allow all requests to move from the Create queue to the active entry. MessageLoop::current()->RunAllPending(); // The first request should be a writer at this point, and the subsequent // requests should be pending. EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Now, make sure that the second request asks for the entry not to be stored. request_handler.set_no_store(true); for (int i = 0; i < kNumTransactions; ++i) { Context* c = context_list[i]; if (c->result == net::ERR_IO_PENDING) c->result = c->callback.WaitForResult(); ReadAndVerifyTransaction(c->trans.get(), kFastNoStoreGET_Transaction); delete c; } EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&kFastNoStoreGET_Transaction); } TEST(HttpCache, SimpleGET_ManyWriters_CancelFirst) { MockHttpCache cache; MockHttpRequest request(kSimpleGET_Transaction); std::vector<Context*> context_list; const int kNumTransactions = 2; for (int i = 0; i < kNumTransactions; ++i) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); c->result = c->trans->Start(&request, &c->callback, NULL); } // Allow all requests to move from the Create queue to the active entry. MessageLoop::current()->RunAllPending(); // The first request should be a writer at this point, and the subsequent // requests should be pending. EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); for (int i = 0; i < kNumTransactions; ++i) { Context* c = context_list[i]; if (c->result == net::ERR_IO_PENDING) c->result = c->callback.WaitForResult(); // Destroy only the first transaction. if (i == 0) { delete c; context_list[i] = NULL; } } // Complete the rest of the transactions. for (int i = 1; i < kNumTransactions; ++i) { Context* c = context_list[i]; ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); } // We should have had to re-open the disk entry. EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); for (int i = 1; i < kNumTransactions; ++i) { Context* c = context_list[i]; delete c; } } // Tests that we can cancel requests that are queued waiting to open the disk // cache entry. TEST(HttpCache, SimpleGET_ManyWriters_CancelCreate) { MockHttpCache cache; MockHttpRequest request(kSimpleGET_Transaction); std::vector<Context*> context_list; const int kNumTransactions = 5; for (int i = 0; i < kNumTransactions; i++) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); c->result = c->trans->Start(&request, &c->callback, NULL); } // The first request should be creating the disk cache entry and the others // should be pending. EXPECT_EQ(0, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Cancel a request from the pending queue. delete context_list[3]; context_list[3] = NULL; // Cancel the request that is creating the entry. This will force the pending // operations to restart. delete context_list[0]; context_list[0] = NULL; // Complete the rest of the transactions. for (int i = 1; i < kNumTransactions; i++) { Context* c = context_list[i]; if (c) { c->result = c->callback.GetResult(c->result); ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); } } // We should have had to re-create the disk entry. EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); for (int i = 1; i < kNumTransactions; ++i) { delete context_list[i]; } } // Tests that we delete/create entries even if multiple requests are queued. TEST(HttpCache, SimpleGET_ManyWriters_BypassCache) { MockHttpCache cache; MockHttpRequest request(kSimpleGET_Transaction); request.load_flags = net::LOAD_BYPASS_CACHE; std::vector<Context*> context_list; const int kNumTransactions = 5; for (int i = 0; i < kNumTransactions; i++) { context_list.push_back(new Context()); Context* c = context_list[i]; c->result = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, c->result); c->result = c->trans->Start(&request, &c->callback, NULL); } // The first request should be deleting the disk cache entry and the others // should be pending. EXPECT_EQ(0, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); // Complete the transactions. for (int i = 0; i < kNumTransactions; i++) { Context* c = context_list[i]; c->result = c->callback.GetResult(c->result); ReadAndVerifyTransaction(c->trans.get(), kSimpleGET_Transaction); } // We should have had to re-create the disk entry multiple times. EXPECT_EQ(5, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(5, cache.disk_cache()->create_count()); for (int i = 0; i < kNumTransactions; ++i) { delete context_list[i]; } } TEST(HttpCache, SimpleGET_AbandonedCacheRead) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); MockHttpRequest request(kSimpleGET_Transaction); TestCompletionCallback callback; scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::OK, rv); scoped_refptr<net::IOBuffer> buf = new net::IOBuffer(256); rv = trans->Read(buf, 256, &callback); EXPECT_EQ(net::ERR_IO_PENDING, rv); // Test that destroying the transaction while it is reading from the cache // works properly. trans.reset(); // Make sure we pump any pending events, which should include a call to // HttpCache::Transaction::OnCacheReadCompleted. MessageLoop::current()->RunAllPending(); } TEST(HttpCache, TypicalGET_ConditionalRequest) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kTypicalGET_Transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // get the same URL again, but this time we expect it to result // in a conditional request. RunTransactionTest(cache.http_cache(), kTypicalGET_Transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } static void ETagGet_ConditionalRequest_Handler( const net::HttpRequestInfo* request, std::string* response_status, std::string* response_headers, std::string* response_data) { EXPECT_TRUE(request->extra_headers.find("If-None-Match") != std::string::npos); response_status->assign("HTTP/1.1 304 Not Modified"); response_headers->assign(kETagGET_Transaction.response_headers); response_data->clear(); } TEST(HttpCache, ETagGET_ConditionalRequest_304) { MockHttpCache cache; ScopedMockTransaction transaction(kETagGET_Transaction); // write to the cache RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // get the same URL again, but this time we expect it to result // in a conditional request. transaction.load_flags = net::LOAD_VALIDATE_CACHE; transaction.handler = ETagGet_ConditionalRequest_Handler; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } static void ETagGet_ConditionalRequest_NoStore_Handler( const net::HttpRequestInfo* request, std::string* response_status, std::string* response_headers, std::string* response_data) { EXPECT_TRUE(request->extra_headers.find("If-None-Match") != std::string::npos); response_status->assign("HTTP/1.1 304 Not Modified"); response_headers->assign("Cache-Control: no-store\n"); response_data->clear(); } TEST(HttpCache, ETagGET_ConditionalRequest_304_NoStore) { MockHttpCache cache; ScopedMockTransaction transaction(kETagGET_Transaction); // Write to the cache. RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Get the same URL again, but this time we expect it to result // in a conditional request. transaction.load_flags = net::LOAD_VALIDATE_CACHE; transaction.handler = ETagGet_ConditionalRequest_NoStore_Handler; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); ScopedMockTransaction transaction2(kETagGET_Transaction); // Write to the cache again. This should create a new entry. RunTransactionTest(cache.http_cache(), transaction2); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } TEST(HttpCache, SimplePOST_SkipsCache) { MockHttpCache cache; // Test that we skip the cache for POST requests that do not have an upload // identifier. RunTransactionTest(cache.http_cache(), kSimplePOST_Transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); } // Helper that does 4 requests using HttpCache: // // (1) loads |kUrl| -- expects |net_response_1| to be returned. // (2) loads |kUrl| from cache only -- expects |net_response_1| to be returned. // (3) loads |kUrl| using |extra_request_headers| -- expects |net_response_2| to // be returned. // (4) loads |kUrl| from cache only -- expects |cached_response_2| to be // returned. static void ConditionalizedRequestUpdatesCacheHelper( const Response& net_response_1, const Response& net_response_2, const Response& cached_response_2, const char* extra_request_headers) { MockHttpCache cache; // The URL we will be requesting. const char* kUrl = "http://foobar.com/main.css"; // Junk network response. static const Response kUnexpectedResponse = { "HTTP/1.1 500 Unexpected", "Server: unexpected_header", "unexpected body" }; // We will control the network layer's responses for |kUrl| using // |mock_network_response|. MockTransaction mock_network_response = { 0 }; mock_network_response.url = kUrl; AddMockTransaction(&mock_network_response); // Request |kUrl| for the first time. It should hit the network and // receive |kNetResponse1|, which it saves into the HTTP cache. MockTransaction request = { 0 }; request.url = kUrl; request.method = "GET"; request.request_headers = ""; net_response_1.AssignTo(&mock_network_response); // Network mock. net_response_1.AssignTo(&request); // Expected result. std::string response_headers; RunTransactionTestWithResponse( cache.http_cache(), request, &response_headers); EXPECT_EQ(net_response_1.status_and_headers(), response_headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Request |kUrl| a second time. Now |kNetResponse1| it is in the HTTP // cache, so we don't hit the network. request.load_flags = net::LOAD_ONLY_FROM_CACHE; kUnexpectedResponse.AssignTo(&mock_network_response); // Network mock. net_response_1.AssignTo(&request); // Expected result. RunTransactionTestWithResponse( cache.http_cache(), request, &response_headers); EXPECT_EQ(net_response_1.status_and_headers(), response_headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Request |kUrl| yet again, but this time give the request an // "If-Modified-Since" header. This will cause the request to re-hit the // network. However now the network response is going to be // different -- this simulates a change made to the CSS file. request.request_headers = extra_request_headers; request.load_flags = net::LOAD_NORMAL; net_response_2.AssignTo(&mock_network_response); // Network mock. net_response_2.AssignTo(&request); // Expected result. RunTransactionTestWithResponse( cache.http_cache(), request, &response_headers); EXPECT_EQ(net_response_2.status_and_headers(), response_headers); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Finally, request |kUrl| again. This request should be serviced from // the cache. Moreover, the value in the cache should be |kNetResponse2| // and NOT |kNetResponse1|. The previous step should have replaced the // value in the cache with the modified response. request.request_headers = ""; request.load_flags = net::LOAD_ONLY_FROM_CACHE; kUnexpectedResponse.AssignTo(&mock_network_response); // Network mock. cached_response_2.AssignTo(&request); // Expected result. RunTransactionTestWithResponse( cache.http_cache(), request, &response_headers); EXPECT_EQ(cached_response_2.status_and_headers(), response_headers); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(2, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&mock_network_response); } // Check that when an "if-modified-since" header is attached // to the request, the result still updates the cached entry. TEST(HttpCache, ConditionalizedRequestUpdatesCache1) { // First network response for |kUrl|. static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Last-Modified: Fri, 03 Jul 2009 02:14:27 GMT\n", "body2" }; const char* extra_headers = "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse2, extra_headers); } // Check that when an "if-none-match" header is attached // to the request, the result updates the cached entry. TEST(HttpCache, ConditionalizedRequestUpdatesCache2) { // First network response for |kUrl|. static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Etag: \"ETAG1\"\n" "Expires: Wed, 7 Sep 2033 21:46:42 GMT\n", // Should never expire. "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Etag: \"ETAG2\"\n" "Expires: Wed, 7 Sep 2033 21:46:42 GMT\n", // Should never expire. "body2" }; const char* extra_headers = "If-None-Match: \"ETAG1\"\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse2, extra_headers); } // Check that when an "if-modified-since" header is attached // to a request, the 304 (not modified result) result updates the cached // headers, and the 304 response is returned rather than the cached response. TEST(HttpCache, ConditionalizedRequestUpdatesCache3) { // First network response for |kUrl|. static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Server: server1\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 304 Not Modified", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Server: server2\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "" }; static const Response kCachedResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Server: server2\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; const char* extra_headers = "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kCachedResponse2, extra_headers); } // Test that when doing an externally conditionalized if-modified-since // and there is no corresponding cache entry, a new cache entry is NOT // created (304 response). TEST(HttpCache, ConditionalizedRequestUpdatesCache4) { MockHttpCache cache; const char* kUrl = "http://foobar.com/main.css"; static const Response kNetResponse = { "HTTP/1.1 304 Not Modified", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "" }; const char* kExtraRequestHeaders = "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n"; // We will control the network layer's responses for |kUrl| using // |mock_network_response|. MockTransaction mock_network_response = { 0 }; mock_network_response.url = kUrl; AddMockTransaction(&mock_network_response); MockTransaction request = { 0 }; request.url = kUrl; request.method = "GET"; request.request_headers = kExtraRequestHeaders; kNetResponse.AssignTo(&mock_network_response); // Network mock. kNetResponse.AssignTo(&request); // Expected result. std::string response_headers; RunTransactionTestWithResponse( cache.http_cache(), request, &response_headers); EXPECT_EQ(kNetResponse.status_and_headers(), response_headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); RemoveMockTransaction(&mock_network_response); } // Test that when doing an externally conditionalized if-modified-since // and there is no corresponding cache entry, a new cache entry is NOT // created (200 response). TEST(HttpCache, ConditionalizedRequestUpdatesCache5) { MockHttpCache cache; const char* kUrl = "http://foobar.com/main.css"; static const Response kNetResponse = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "foobar!!!" }; const char* kExtraRequestHeaders = "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n"; // We will control the network layer's responses for |kUrl| using // |mock_network_response|. MockTransaction mock_network_response = { 0 }; mock_network_response.url = kUrl; AddMockTransaction(&mock_network_response); MockTransaction request = { 0 }; request.url = kUrl; request.method = "GET"; request.request_headers = kExtraRequestHeaders; kNetResponse.AssignTo(&mock_network_response); // Network mock. kNetResponse.AssignTo(&request); // Expected result. std::string response_headers; RunTransactionTestWithResponse( cache.http_cache(), request, &response_headers); EXPECT_EQ(kNetResponse.status_and_headers(), response_headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); RemoveMockTransaction(&mock_network_response); } // Test that when doing an externally conditionalized if-modified-since // if the date does not match the cache entry's last-modified date, // then we do NOT use the response (304) to update the cache. // (the if-modified-since date is 2 days AFTER the cache's modification date). TEST(HttpCache, ConditionalizedRequestUpdatesCache6) { static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Server: server1\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 304 Not Modified", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Server: server2\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "" }; // This is two days in the future from the original response's last-modified // date! const char* kExtraRequestHeaders = "If-Modified-Since: Fri, 08 Feb 2008 22:38:21 GMT\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse1, kExtraRequestHeaders); } // Test that when doing an externally conditionalized if-none-match // if the etag does not match the cache entry's etag, then we do not use the // response (304) to update the cache. TEST(HttpCache, ConditionalizedRequestUpdatesCache7) { static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Etag: \"Foo1\"\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 304 Not Modified", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Etag: \"Foo2\"\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "" }; // Different etag from original response. const char* kExtraRequestHeaders = "If-None-Match: \"Foo2\"\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse1, kExtraRequestHeaders); } // Test that doing an externally conditionalized request with both if-none-match // and if-modified-since updates the cache. TEST(HttpCache, ConditionalizedRequestUpdatesCache8) { static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Etag: \"Foo1\"\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Etag: \"Foo2\"\n" "Last-Modified: Fri, 03 Jul 2009 02:14:27 GMT\n", "body2" }; const char* kExtraRequestHeaders = "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n" "If-None-Match: \"Foo1\"\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse2, kExtraRequestHeaders); } // Test that doing an externally conditionalized request with both if-none-match // and if-modified-since does not update the cache with only one match. TEST(HttpCache, ConditionalizedRequestUpdatesCache9) { static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Etag: \"Foo1\"\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Etag: \"Foo2\"\n" "Last-Modified: Fri, 03 Jul 2009 02:14:27 GMT\n", "body2" }; // The etag doesn't match what we have stored. const char* kExtraRequestHeaders = "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n" "If-None-Match: \"Foo2\"\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse1, kExtraRequestHeaders); } // Test that doing an externally conditionalized request with both if-none-match // and if-modified-since does not update the cache with only one match. TEST(HttpCache, ConditionalizedRequestUpdatesCache10) { static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Etag: \"Foo1\"\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Etag: \"Foo2\"\n" "Last-Modified: Fri, 03 Jul 2009 02:14:27 GMT\n", "body2" }; // The modification date doesn't match what we have stored. const char* kExtraRequestHeaders = "If-Modified-Since: Fri, 08 Feb 2008 22:38:21 GMT\n" "If-None-Match: \"Foo1\"\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse1, kExtraRequestHeaders); } // Test that doing an externally conditionalized request with two conflicting // headers does not update the cache. TEST(HttpCache, ConditionalizedRequestUpdatesCache11) { static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Etag: \"Foo1\"\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", "body1" }; // Second network response for |kUrl|. static const Response kNetResponse2 = { "HTTP/1.1 200 OK", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Etag: \"Foo2\"\n" "Last-Modified: Fri, 03 Jul 2009 02:14:27 GMT\n", "body2" }; // Two dates, the second matches what we have stored. const char* kExtraRequestHeaders = "If-Modified-Since: Mon, 04 Feb 2008 22:38:21 GMT\n" "If-Modified-Since: Wed, 06 Feb 2008 22:38:21 GMT\n"; ConditionalizedRequestUpdatesCacheHelper( kNetResponse1, kNetResponse2, kNetResponse1, kExtraRequestHeaders); } TEST(HttpCache, UrlContainingHash) { MockHttpCache cache; // Do a typical GET request -- should write an entry into our cache. MockTransaction trans(kTypicalGET_Transaction); RunTransactionTest(cache.http_cache(), trans); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Request the same URL, but this time with a reference section (hash). // Since the cache key strips the hash sections, this should be a cache hit. std::string url_with_hash = std::string(trans.url) + "#multiple#hashes"; trans.url = url_with_hash.c_str(); trans.load_flags = net::LOAD_ONLY_FROM_CACHE; RunTransactionTest(cache.http_cache(), trans); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, SimplePOST_LoadOnlyFromCache_Miss) { MockHttpCache cache; // Test that we skip the cache for POST requests. Eventually, we will want // to cache these, but we'll still have cases where skipping the cache makes // sense, so we want to make sure that it works properly. MockTransaction transaction(kSimplePOST_Transaction); transaction.load_flags |= net::LOAD_ONLY_FROM_CACHE; MockHttpRequest request(transaction); TestCompletionCallback callback; scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::ERR_CACHE_MISS, rv); trans.reset(); EXPECT_EQ(0, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); } TEST(HttpCache, SimplePOST_LoadOnlyFromCache_Hit) { MockHttpCache cache; // Test that we hit the cache for POST requests. MockTransaction transaction(kSimplePOST_Transaction); const int64 kUploadId = 1; // Just a dummy value. MockHttpRequest request(transaction); request.upload_data = new net::UploadData(); request.upload_data->set_identifier(kUploadId); request.upload_data->AppendBytes("hello", 5); // Populate the cache. RunTransactionTestWithRequest(cache.http_cache(), transaction, request, NULL); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Load from cache. request.load_flags |= net::LOAD_ONLY_FROM_CACHE; RunTransactionTestWithRequest(cache.http_cache(), transaction, request, NULL); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, RangeGET_SkipsCache) { MockHttpCache cache; // Test that we skip the cache for range GET requests. Eventually, we will // want to cache these, but we'll still have cases where skipping the cache // makes sense, so we want to make sure that it works properly. RunTransactionTest(cache.http_cache(), kRangeGET_Transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); MockTransaction transaction(kSimpleGET_Transaction); transaction.request_headers = "If-None-Match: foo"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); transaction.request_headers = "If-Modified-Since: Wed, 28 Nov 2007 00:45:20 GMT"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); } // Test that we skip the cache for range requests that include a validation // header. TEST(HttpCache, RangeGET_SkipsCache2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockTransaction transaction(kRangeGET_Transaction); transaction.request_headers = "If-None-Match: foo\n" EXTRA_HEADER "Range: bytes = 40-49\n"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); transaction.request_headers = "If-Modified-Since: Wed, 28 Nov 2007 00:45:20 GMT\n" EXTRA_HEADER "Range: bytes = 40-49\n"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); transaction.request_headers = "If-Range: bla\n" EXTRA_HEADER "Range: bytes = 40-49\n"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); } // Tests that receiving 206 for a regular request is handled correctly. TEST(HttpCache, GET_Crazy206) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); // Write to the cache. MockTransaction transaction(kRangeGET_TransactionOK); AddMockTransaction(&transaction); transaction.request_headers = EXTRA_HEADER; transaction.handler = NULL; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // This should read again from the net. RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we can cache range requests and fetch random blocks from the // cache and the network. TEST(HttpCache, RangeGET_OK) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Read from the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure we are done with the previous transaction. MessageLoop::current()->RunAllPending(); // Write to the cache (30-39). MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = 30-39\r\n" EXTRA_HEADER; transaction.data = "rg: 30-39 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 30, 39)); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(2, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure we are done with the previous transaction. MessageLoop::current()->RunAllPending(); // Write and read from the cache (20-59). transaction.request_headers = "Range: bytes = 20-59\r\n" EXTRA_HEADER; transaction.data = "rg: 20-29 rg: 30-39 rg: 40-49 rg: 50-59 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 20, 59)); EXPECT_EQ(5, cache.network_layer()->transaction_count()); EXPECT_EQ(3, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we can cache range requests and fetch random blocks from the // cache and the network, with synchronous responses. TEST(HttpCache, RangeGET_SyncOK) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockTransaction transaction(kRangeGET_TransactionOK); transaction.test_mode = TEST_MODE_SYNC_ALL; AddMockTransaction(&transaction); // Write to the cache (40-49). std::string headers; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Read from the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure we are done with the previous transaction. MessageLoop::current()->RunAllPending(); // Write to the cache (30-39). transaction.request_headers = "Range: bytes = 30-39\r\n" EXTRA_HEADER; transaction.data = "rg: 30-39 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 30, 39)); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure we are done with the previous transaction. MessageLoop::current()->RunAllPending(); // Write and read from the cache (20-59). transaction.request_headers = "Range: bytes = 20-59\r\n" EXTRA_HEADER; transaction.data = "rg: 20-29 rg: 30-39 rg: 40-49 rg: 50-59 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 20, 59)); EXPECT_EQ(5, cache.network_layer()->transaction_count()); EXPECT_EQ(2, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we deal with 304s for range requests. TEST(HttpCache, RangeGET_304) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Read from the cache (40-49). RangeTransactionServer handler; handler.set_not_modified(true); RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we deal with 206s when revalidating range requests. TEST(HttpCache, RangeGET_ModifiedResult) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Attempt to read from the cache (40-49). RangeTransactionServer handler; handler.set_modified(true); RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // And the entry should be gone. RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we can cache range requests when the start or end is unknown. // We start with one suffix request, followed by a request from a given point. TEST(HttpCache, UnknownRangeGET_1) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (70-79). MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = -10\r\n" EXTRA_HEADER; transaction.data = "rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 70, 79)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure we are done with the previous transaction. MessageLoop::current()->RunAllPending(); // Write and read from the cache (60-79). transaction.request_headers = "Range: bytes = 60-\r\n" EXTRA_HEADER; transaction.data = "rg: 60-69 rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 60, 79)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we can cache range requests when the start or end is unknown. // We start with one request from a given point, followed by a suffix request. // We'll also verify that synchronous cache responses work as intended. TEST(HttpCache, UnknownRangeGET_2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.test_mode = TEST_MODE_SYNC_CACHE_START | TEST_MODE_SYNC_CACHE_READ | TEST_MODE_SYNC_CACHE_WRITE; AddMockTransaction(&transaction); // Write to the cache (70-79). transaction.request_headers = "Range: bytes = 70-\r\n" EXTRA_HEADER; transaction.data = "rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 70, 79)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure we are done with the previous transaction. MessageLoop::current()->RunAllPending(); // Write and read from the cache (60-79). transaction.request_headers = "Range: bytes = -20\r\n" EXTRA_HEADER; transaction.data = "rg: 60-69 rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 60, 79)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that receiving Not Modified when asking for an open range doesn't mess // up things. TEST(HttpCache, UnknownRangeGET_304) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); AddMockTransaction(&transaction); RangeTransactionServer handler; handler.set_not_modified(true); // Ask for the end of the file, without knowing the length. transaction.request_headers = "Range: bytes = 70-\r\n" EXTRA_HEADER; transaction.data = "rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); // We just bypass the cache. EXPECT_EQ(0U, headers.find("HTTP/1.1 304 Not Modified\n")); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we can handle non-range requests when we have cached a range. TEST(HttpCache, GET_Previous206) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Write and read from the cache (0-79), when not asked for a range. MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = EXTRA_HEADER; transaction.data = "rg: 00-09 rg: 10-19 rg: 20-29 rg: 30-39 rg: 40-49 " "rg: 50-59 rg: 60-69 rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_EQ(0U, headers.find("HTTP/1.1 200 OK\n")); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we can handle non-range requests when we have cached the first // part of the object and server replies with 304 (Not Modified). TEST(HttpCache, GET_Previous206_NotModified) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = 0-9\r\n" EXTRA_HEADER; transaction.data = "rg: 00-09 "; AddMockTransaction(&transaction); std::string headers; // Write to the cache (0-9). RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 0, 9)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Read from the cache (0-9), write and read from cache (10 - 79), MockTransaction transaction2(kRangeGET_TransactionOK); transaction2.request_headers = "Foo: bar\r\n" EXTRA_HEADER; transaction2.data = "rg: 00-09 rg: 10-19 rg: 20-29 rg: 30-39 rg: 40-49 " "rg: 50-59 rg: 60-69 rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction2, &headers); EXPECT_EQ(0U, headers.find("HTTP/1.1 200 OK\n")); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we can handle a regular request to a sparse entry, that results in // new content provided by the server (206). TEST(HttpCache, GET_Previous206_NewContent) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (0-9). MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = 0-9\r\n" EXTRA_HEADER; transaction.data = "rg: 00-09 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 0, 9)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Now we'll issue a request without any range that should result first in a // 206 (when revalidating), and then in a weird standard answer: the test // server will not modify the response so we'll get the default range... a // real server will answer with 200. MockTransaction transaction2(kRangeGET_TransactionOK); transaction2.request_headers = EXTRA_HEADER; transaction2.data = "rg: 40-49 "; RangeTransactionServer handler; handler.set_modified(true); RunTransactionTestWithResponse(cache.http_cache(), transaction2, &headers); EXPECT_EQ(0U, headers.find("HTTP/1.1 206 Partial Content\n")); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Verify that the previous request deleted the entry. RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we can handle cached 206 responses that are not sparse. TEST(HttpCache, GET_Previous206_NotSparse) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); // Create a disk cache entry that stores 206 headers while not being sparse. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry(kSimpleGET_Transaction.url, &entry, NULL)); std::string raw_headers(kRangeGET_TransactionOK.status); raw_headers.append("\n"); raw_headers.append(kRangeGET_TransactionOK.response_headers); raw_headers = net::HttpUtil::AssembleRawHeaders(raw_headers.data(), raw_headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(raw_headers); EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, false)); scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(500)); int len = static_cast<int>(base::strlcpy(buf->data(), kRangeGET_TransactionOK.data, 500)); EXPECT_EQ(len, entry->WriteData(1, 0, buf, len, NULL, true)); entry->Close(); // Now see that we don't use the stored entry. std::string headers; RunTransactionTestWithResponse(cache.http_cache(), kSimpleGET_Transaction, &headers); // We are expecting a 200. std::string expected_headers(kSimpleGET_Transaction.status); expected_headers.append("\n"); expected_headers.append(kSimpleGET_Transaction.response_headers); EXPECT_EQ(expected_headers, headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } // Tests that we can handle cached 206 responses that are not sparse. This time // we issue a range request and expect to receive a range. TEST(HttpCache, RangeGET_Previous206_NotSparse_2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); // Create a disk cache entry that stores 206 headers while not being sparse. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry(kRangeGET_TransactionOK.url, &entry, NULL)); std::string raw_headers(kRangeGET_TransactionOK.status); raw_headers.append("\n"); raw_headers.append(kRangeGET_TransactionOK.response_headers); raw_headers = net::HttpUtil::AssembleRawHeaders(raw_headers.data(), raw_headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(raw_headers); EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, false)); scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(500)); int len = static_cast<int>(base::strlcpy(buf->data(), kRangeGET_TransactionOK.data, 500)); EXPECT_EQ(len, entry->WriteData(1, 0, buf, len, NULL, true)); entry->Close(); // Now see that we don't use the stored entry. std::string headers; RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); // We are expecting a 206. EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we can handle range requests with cached 200 responses. TEST(HttpCache, RangeGET_Previous200) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); // Store the whole thing with status 200. MockTransaction transaction(kTypicalGET_Transaction); transaction.url = kRangeGET_TransactionOK.url; transaction.data = "rg: 00-09 rg: 10-19 rg: 20-29 rg: 30-39 rg: 40-49 " "rg: 50-59 rg: 60-69 rg: 70-79 "; AddMockTransaction(&transaction); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); AddMockTransaction(&kRangeGET_TransactionOK); // Now see that we use the stored entry. std::string headers; MockTransaction transaction2(kRangeGET_TransactionOK); RangeTransactionServer handler; handler.set_not_modified(true); RunTransactionTestWithResponse(cache.http_cache(), transaction2, &headers); // We are expecting a 206. EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // The last transaction has finished so make sure the entry is deactivated. MessageLoop::current()->RunAllPending(); // Now we should receive a range from the server and drop the stored entry. handler.set_not_modified(false); transaction2.request_headers = kRangeGET_TransactionOK.request_headers; RunTransactionTestWithResponse(cache.http_cache(), transaction2, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(2, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RunTransactionTest(cache.http_cache(), transaction2); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we can handle a 200 response when dealing with sparse entries. TEST(HttpCache, RangeRequestResultsIn200) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (70-79). MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = -10\r\n" EXTRA_HEADER; transaction.data = "rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 70, 79)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Now we'll issue a request that results in a plain 200 response, but to // the to the same URL that we used to store sparse data, and making sure // that we ask for a range. RemoveMockTransaction(&kRangeGET_TransactionOK); MockTransaction transaction2(kSimpleGET_Transaction); transaction2.url = kRangeGET_TransactionOK.url; transaction2.request_headers = kRangeGET_TransactionOK.request_headers; AddMockTransaction(&transaction2); RunTransactionTestWithResponse(cache.http_cache(), transaction2, &headers); std::string expected_headers(kSimpleGET_Transaction.status); expected_headers.append("\n"); expected_headers.append(kSimpleGET_Transaction.response_headers); EXPECT_EQ(expected_headers, headers); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction2); } // Tests that a range request that falls outside of the size that we know about // only deletes the entry if the resource has indeed changed. TEST(HttpCache, RangeGET_MoreThanCurrentSize) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); std::string headers; // Write to the cache (40-49). RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // A weird request should not delete this entry. Ask for bytes 120-. MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = 120-\r\n" EXTRA_HEADER; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_EQ(0U, headers.find("HTTP/1.1 416 ")); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); EXPECT_EQ(2, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we don't delete a sparse entry when we cancel a request. TEST(HttpCache, RangeGET_Cancel) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); MockHttpRequest request(kRangeGET_TransactionOK); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure that the entry has some data stored. scoped_refptr<net::IOBufferWithSize> buf = new net::IOBufferWithSize(10); rv = c->trans->Read(buf, buf->size(), &c->callback); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(buf->size(), rv); // Destroy the transaction. delete c; // Verify that the entry has not been deleted. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->OpenEntry(kRangeGET_TransactionOK.url, &entry, NULL)); entry->Close(); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we don't delete a sparse entry when we start a new request after // cancelling the previous one. TEST(HttpCache, RangeGET_Cancel2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); MockHttpRequest request(kRangeGET_TransactionOK); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure that we revalidate the entry and read from the cache (a single // read will return while waiting for the network). scoped_refptr<net::IOBufferWithSize> buf = new net::IOBufferWithSize(5); rv = c->trans->Read(buf, buf->size(), &c->callback); EXPECT_EQ(5, c->callback.GetResult(rv)); rv = c->trans->Read(buf, buf->size(), &c->callback); EXPECT_EQ(net::ERR_IO_PENDING, rv); // Destroy the transaction before completing the read. delete c; // We have the read and the delete (OnProcessPendingQueue) waiting on the // message loop. This means that a new transaction will just reuse the same // active entry (no open or create). RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // A slight variation of the previous test, this time we cancel two requests in // a row, making sure that the second is waiting for the entry to be ready. TEST(HttpCache, RangeGET_Cancel3) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); MockHttpRequest request(kRangeGET_TransactionOK); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); EXPECT_EQ(net::ERR_IO_PENDING, rv); rv = c->callback.WaitForResult(); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure that we revalidate the entry and read from the cache (a single // read will return while waiting for the network). scoped_refptr<net::IOBufferWithSize> buf = new net::IOBufferWithSize(5); rv = c->trans->Read(buf, buf->size(), &c->callback); EXPECT_EQ(5, c->callback.GetResult(rv)); rv = c->trans->Read(buf, buf->size(), &c->callback); EXPECT_EQ(net::ERR_IO_PENDING, rv); // Destroy the transaction before completing the read. delete c; // We have the read and the delete (OnProcessPendingQueue) waiting on the // message loop. This means that a new transaction will just reuse the same // active entry (no open or create). c = new Context(); rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); EXPECT_EQ(net::ERR_IO_PENDING, rv); MockDiskEntry::IgnoreCallbacks(true); MessageLoop::current()->RunAllPending(); MockDiskEntry::IgnoreCallbacks(false); // The new transaction is waiting for the query range callback. delete c; // And we should not crash when the callback is delivered. MessageLoop::current()->RunAllPending(); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that an invalid range response results in no cached entry. TEST(HttpCache, RangeGET_InvalidResponse1) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.handler = NULL; transaction.response_headers = "Content-Range: bytes 40-49/45\n" "Content-Length: 10\n"; AddMockTransaction(&transaction); RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); std::string expected(transaction.status); expected.append("\n"); expected.append(transaction.response_headers); EXPECT_EQ(expected, headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Verify that we don't have a cached entry. disk_cache::Entry* entry; EXPECT_NE(net::OK, cache.disk_cache()->OpenEntry(kRangeGET_TransactionOK.url, &entry, NULL)); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we reject a range that doesn't match the content-length. TEST(HttpCache, RangeGET_InvalidResponse2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.handler = NULL; transaction.response_headers = "Content-Range: bytes 40-49/80\n" "Content-Length: 20\n"; AddMockTransaction(&transaction); RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); std::string expected(transaction.status); expected.append("\n"); expected.append(transaction.response_headers); EXPECT_EQ(expected, headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Verify that we don't have a cached entry. disk_cache::Entry* entry; EXPECT_NE(net::OK, cache.disk_cache()->OpenEntry(kRangeGET_TransactionOK.url, &entry, NULL)); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that if a server tells us conflicting information about a resource we // ignore the response. TEST(HttpCache, RangeGET_InvalidResponse3) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.handler = NULL; transaction.request_headers = "Range: bytes = 50-59\r\n" EXTRA_HEADER; std::string response_headers(transaction.response_headers); response_headers.append("Content-Range: bytes 50-59/160\n"); transaction.response_headers = response_headers.c_str(); AddMockTransaction(&transaction); RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 50, 59)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); AddMockTransaction(&kRangeGET_TransactionOK); // This transaction will report a resource size of 80 bytes, and we think it's // 160 so we should ignore the response. RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Verify that we cached the first response but not the second one. disk_cache::Entry* en; ASSERT_EQ(net::OK, cache.disk_cache()->OpenEntry(kRangeGET_TransactionOK.url, &en, NULL)); int64 cached_start = 0; EXPECT_EQ(10, en->GetAvailableRange(40, 20, &cached_start)); EXPECT_EQ(50, cached_start); en->Close(); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we handle large range values properly. TEST(HttpCache, RangeGET_LargeValues) { // We need a real sparse cache for this test. disk_cache::Backend* disk_cache = disk_cache::CreateInMemoryCacheBackend(1024 * 1024); MockHttpCache cache(disk_cache); cache.http_cache()->set_enable_range_support(true); std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.handler = NULL; transaction.request_headers = "Range: bytes = 4294967288-4294967297\r\n" EXTRA_HEADER; transaction.response_headers = "Content-Range: bytes 4294967288-4294967297/4294967299\n" "Content-Length: 10\n"; AddMockTransaction(&transaction); RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); std::string expected(transaction.status); expected.append("\n"); expected.append(transaction.response_headers); EXPECT_EQ(expected, headers); EXPECT_EQ(1, cache.network_layer()->transaction_count()); // Verify that we have a cached entry. disk_cache::Entry* en; ASSERT_TRUE(cache.disk_cache()->OpenEntry(kRangeGET_TransactionOK.url, &en)); en->Close(); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we don't crash with a range request if the disk cache was not // initialized properly. TEST(HttpCache, RangeGET_NoDiskCache) { MockHttpCache cache(NULL); cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); EXPECT_EQ(1, cache.network_layer()->transaction_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we handle byte range requests that skip the cache. TEST(HttpCache, RangeHEAD) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = -10\r\n" EXTRA_HEADER; transaction.method = "HEAD"; transaction.data = "rg: 70-79 "; std::string headers; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); EXPECT_TRUE(Verify206Response(headers, 70, 79)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(0, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } // Tests that we don't crash when after reading from the cache we issue a // request for the next range and the server gives us a 200 synchronously. TEST(HttpCache, RangeGET_FastFlakyServer) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = 40-\r\n" EXTRA_HEADER; transaction.test_mode = TEST_MODE_SYNC_NET_START; AddMockTransaction(&transaction); // Write to the cache. RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); // And now read from the cache and the network. RangeTransactionServer handler; handler.set_bad_200(true); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(3, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that when the server gives us less data than expected, we don't keep // asking for more data. TEST(HttpCache, RangeGET_FastFlakyServer2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); // First, check with an empty cache (WRITE mode). MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = "Range: bytes = 40-49\r\n" EXTRA_HEADER; transaction.data = "rg: 40-"; // Less than expected. transaction.handler = NULL; std::string headers(transaction.response_headers); headers.append("Content-Range: bytes 40-49/80\n"); transaction.response_headers = headers.c_str(); AddMockTransaction(&transaction); // Write to the cache. RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Now verify that even in READ_WRITE mode, we forward the bad response to // the caller. transaction.request_headers = "Range: bytes = 60-69\r\n" EXTRA_HEADER; transaction.data = "rg: 60-"; // Less than expected. headers = kRangeGET_TransactionOK.response_headers; headers.append("Content-Range: bytes 60-69/80\n"); transaction.response_headers = headers.c_str(); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } #ifdef NDEBUG // This test hits a NOTREACHED so it is a release mode only test. TEST(HttpCache, RangeGET_OK_LoadOnlyFromCache) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); // Write to the cache (40-49). RunTransactionTest(cache.http_cache(), kRangeGET_TransactionOK); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Force this transaction to read from the cache. MockTransaction transaction(kRangeGET_TransactionOK); transaction.load_flags |= net::LOAD_ONLY_FROM_CACHE; MockHttpRequest request(transaction); TestCompletionCallback callback; scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::ERR_CACHE_MISS, rv); trans.reset(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } #endif // Tests the handling of the "truncation" flag. TEST(HttpCache, WriteResponseInfo_Truncated) { MockHttpCache cache; disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry("http://www.google.com", &entry, NULL)); std::string headers("HTTP/1.1 200 OK"); headers = net::HttpUtil::AssembleRawHeaders(headers.data(), headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(headers); // Set the last argument for this to be an incomplete request. EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, true)); bool truncated = false; EXPECT_TRUE(net::HttpCache::ReadResponseInfo(entry, &response, &truncated)); EXPECT_TRUE(truncated); // And now test the opposite case. EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, false)); truncated = true; EXPECT_TRUE(net::HttpCache::ReadResponseInfo(entry, &response, &truncated)); EXPECT_FALSE(truncated); entry->Close(); } // Tests that we delete an entry when the request is cancelled before starting // to read from the network. TEST(HttpCache, DoomOnDestruction) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockHttpRequest request(kSimpleGET_Transaction); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); if (rv == net::ERR_IO_PENDING) c->result = c->callback.WaitForResult(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Destroy the transaction. We only have the headers so we should delete this // entry. delete c; RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } // Tests that we delete an entry when the request is cancelled if the response // does not have content-length and strong validators. TEST(HttpCache, DoomOnDestruction2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockHttpRequest request(kSimpleGET_Transaction); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure that the entry has some data stored. scoped_refptr<net::IOBufferWithSize> buf = new net::IOBufferWithSize(10); rv = c->trans->Read(buf, buf->size(), &c->callback); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(buf->size(), rv); // Destroy the transaction. delete c; RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); } // Tests that we delete an entry when the request is cancelled if the response // has an "Accept-Ranges: none" header. TEST(HttpCache, DoomOnDestruction3) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockTransaction transaction(kSimpleGET_Transaction); transaction.response_headers = "Last-Modified: Wed, 28 Nov 2007 00:40:09 GMT\n" "Content-Length: 22\n" "Accept-Ranges: none\n" "Etag: foopy\n"; AddMockTransaction(&transaction); MockHttpRequest request(transaction); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure that the entry has some data stored. scoped_refptr<net::IOBufferWithSize> buf = new net::IOBufferWithSize(10); rv = c->trans->Read(buf, buf->size(), &c->callback); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(buf->size(), rv); // Destroy the transaction. delete c; RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&transaction); } // Tests that we mark an entry as incomplete when the request is cancelled. TEST(HttpCache, Set_Truncated_Flag) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); MockTransaction transaction(kSimpleGET_Transaction); transaction.response_headers = "Last-Modified: Wed, 28 Nov 2007 00:40:09 GMT\n" "Content-Length: 22\n" "Etag: foopy\n"; AddMockTransaction(&transaction); MockHttpRequest request(transaction); Context* c = new Context(); int rv = cache.http_cache()->CreateTransaction(&c->trans); EXPECT_EQ(net::OK, rv); rv = c->trans->Start(&request, &c->callback, NULL); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Make sure that the entry has some data stored. scoped_refptr<net::IOBufferWithSize> buf = new net::IOBufferWithSize(10); rv = c->trans->Read(buf, buf->size(), &c->callback); if (rv == net::ERR_IO_PENDING) rv = c->callback.WaitForResult(); EXPECT_EQ(buf->size(), rv); // Destroy the transaction. delete c; // Verify that the entry is marked as incomplete. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->OpenEntry(kSimpleGET_Transaction.url, &entry, NULL)); net::HttpResponseInfo response; bool truncated = false; EXPECT_TRUE(net::HttpCache::ReadResponseInfo(entry, &response, &truncated)); EXPECT_TRUE(truncated); entry->Close(); RemoveMockTransaction(&transaction); } // Tests that we can continue with a request that was interrupted. TEST(HttpCache, GET_IncompleteResource) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); // Create a disk cache entry that stores an incomplete resource. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry(kRangeGET_TransactionOK.url, &entry, NULL)); std::string raw_headers("HTTP/1.1 200 OK\n" "Last-Modified: Sat, 18 Apr 2009 01:10:43 GMT\n" "ETag: \"foo\"\n" "Accept-Ranges: bytes\n" "Content-Length: 80\n"); raw_headers = net::HttpUtil::AssembleRawHeaders(raw_headers.data(), raw_headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(raw_headers); // Set the last argument for this to be an incomplete request. EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, true)); scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(100)); int len = static_cast<int>(base::strlcpy(buf->data(), "rg: 00-09 rg: 10-19 ", 100)); EXPECT_EQ(len, entry->WriteData(1, 0, buf, len, NULL, true)); // Now make a regular request. std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = EXTRA_HEADER; transaction.data = "rg: 00-09 rg: 10-19 rg: 20-29 rg: 30-39 rg: 40-49 " "rg: 50-59 rg: 60-69 rg: 70-79 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); // We update the headers with the ones received while revalidating. std::string expected_headers( "HTTP/1.1 200 OK\n" "Last-Modified: Sat, 18 Apr 2009 01:10:43 GMT\n" "Accept-Ranges: bytes\n" "ETag: \"foo\"\n" "Content-Length: 80\n"); EXPECT_EQ(expected_headers, headers); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); // Verify that the disk entry was updated. EXPECT_EQ(80, entry->GetDataSize(1)); bool truncated = true; EXPECT_TRUE(net::HttpCache::ReadResponseInfo(entry, &response, &truncated)); EXPECT_FALSE(truncated); entry->Close(); } // Tests that we delete truncated entries if the server changes its mind midway. TEST(HttpCache, GET_IncompleteResource2) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); // Create a disk cache entry that stores an incomplete resource. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry(kRangeGET_TransactionOK.url, &entry, NULL)); // Content-length will be intentionally bad. std::string raw_headers("HTTP/1.1 200 OK\n" "Last-Modified: Sat, 18 Apr 2009 01:10:43 GMT\n" "ETag: \"foo\"\n" "Accept-Ranges: bytes\n" "Content-Length: 50\n"); raw_headers = net::HttpUtil::AssembleRawHeaders(raw_headers.data(), raw_headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(raw_headers); // Set the last argument for this to be an incomplete request. EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, true)); scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(100)); int len = static_cast<int>(base::strlcpy(buf->data(), "rg: 00-09 rg: 10-19 ", 100)); EXPECT_EQ(len, entry->WriteData(1, 0, buf, len, NULL, true)); entry->Close(); // Now make a regular request. std::string headers; MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = EXTRA_HEADER; transaction.data = "rg: 00-09 rg: 10-19 "; RunTransactionTestWithResponse(cache.http_cache(), transaction, &headers); // We update the headers with the ones received while revalidating. std::string expected_headers( "HTTP/1.1 200 OK\n" "Last-Modified: Sat, 18 Apr 2009 01:10:43 GMT\n" "Accept-Ranges: bytes\n" "ETag: \"foo\"\n" "Content-Length: 50\n"); EXPECT_EQ(expected_headers, headers); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); // Verify that the disk entry was deleted. ASSERT_NE(net::OK, cache.disk_cache()->OpenEntry(kRangeGET_TransactionOK.url, &entry, NULL)); } // Tests that when we cancel a request that was interrupted, we mark it again // as truncated. TEST(HttpCache, GET_CancelIncompleteResource) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); // Create a disk cache entry that stores an incomplete resource. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry(kRangeGET_TransactionOK.url, &entry, NULL)); std::string raw_headers("HTTP/1.1 200 OK\n" "Last-Modified: Sat, 18 Apr 2009 01:10:43 GMT\n" "ETag: \"foo\"\n" "Accept-Ranges: bytes\n" "Content-Length: 80\n"); raw_headers = net::HttpUtil::AssembleRawHeaders(raw_headers.data(), raw_headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(raw_headers); // Set the last argument for this to be an incomplete request. EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, true)); scoped_refptr<net::IOBufferWithSize> buf(new net::IOBufferWithSize(100)); int len = static_cast<int>(base::strlcpy(buf->data(), "rg: 00-09 rg: 10-19 ", buf->size())); EXPECT_EQ(len, entry->WriteData(1, 0, buf, len, NULL, true)); // Now make a regular request. MockTransaction transaction(kRangeGET_TransactionOK); transaction.request_headers = EXTRA_HEADER; MockHttpRequest request(transaction); Context* c = new Context(); EXPECT_EQ(net::OK, cache.http_cache()->CreateTransaction(&c->trans)); int rv = c->trans->Start(&request, &c->callback, NULL); EXPECT_EQ(net::OK, c->callback.GetResult(rv)); // Read 20 bytes from the cache, and 10 from the net. rv = c->trans->Read(buf, len, &c->callback); EXPECT_EQ(len, c->callback.GetResult(rv)); rv = c->trans->Read(buf, 10, &c->callback); EXPECT_EQ(10, c->callback.GetResult(rv)); // At this point, we are already reading so canceling the request should leave // a truncated one. delete c; RemoveMockTransaction(&kRangeGET_TransactionOK); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // Verify that the disk entry was updated: now we have 30 bytes. EXPECT_EQ(30, entry->GetDataSize(1)); bool truncated = false; EXPECT_TRUE(net::HttpCache::ReadResponseInfo(entry, &response, &truncated)); EXPECT_TRUE(truncated); entry->Close(); } // Tests that we can handle range requests when we have a truncated entry. TEST(HttpCache, RangeGET_IncompleteResource) { MockHttpCache cache; cache.http_cache()->set_enable_range_support(true); AddMockTransaction(&kRangeGET_TransactionOK); // Create a disk cache entry that stores an incomplete resource. disk_cache::Entry* entry; ASSERT_EQ(net::OK, cache.disk_cache()->CreateEntry(kRangeGET_TransactionOK.url, &entry, NULL)); // Content-length will be intentionally bogus. std::string raw_headers("HTTP/1.1 200 OK\n" "Last-Modified: something\n" "ETag: \"foo\"\n" "Accept-Ranges: bytes\n" "Content-Length: 10\n"); raw_headers = net::HttpUtil::AssembleRawHeaders(raw_headers.data(), raw_headers.size()); net::HttpResponseInfo response; response.headers = new net::HttpResponseHeaders(raw_headers); // Set the last argument for this to be an incomplete request. EXPECT_TRUE(net::HttpCache::WriteResponseInfo(entry, &response, true, true)); scoped_refptr<net::IOBuffer> buf(new net::IOBuffer(100)); int len = static_cast<int>(base::strlcpy(buf->data(), "rg: 00-09 rg: 10-19 ", 100)); EXPECT_EQ(len, entry->WriteData(1, 0, buf, len, NULL, true)); entry->Close(); // Now make a range request. std::string headers; RunTransactionTestWithResponse(cache.http_cache(), kRangeGET_TransactionOK, &headers); EXPECT_TRUE(Verify206Response(headers, 40, 49)); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); RemoveMockTransaction(&kRangeGET_TransactionOK); } TEST(HttpCache, SyncRead) { MockHttpCache cache; // This test ensures that a read that completes synchronously does not cause // any problems. ScopedMockTransaction transaction(kSimpleGET_Transaction); transaction.test_mode |= (TEST_MODE_SYNC_CACHE_START | TEST_MODE_SYNC_CACHE_READ | TEST_MODE_SYNC_CACHE_WRITE); MockHttpRequest r1(transaction), r2(transaction), r3(transaction); TestTransactionConsumer c1(cache.http_cache()), c2(cache.http_cache()), c3(cache.http_cache()); c1.Start(&r1, NULL); r2.load_flags |= net::LOAD_ONLY_FROM_CACHE; c2.Start(&r2, NULL); r3.load_flags |= net::LOAD_ONLY_FROM_CACHE; c3.Start(&r3, NULL); MessageLoop::current()->Run(); EXPECT_TRUE(c1.is_done()); EXPECT_TRUE(c2.is_done()); EXPECT_TRUE(c3.is_done()); EXPECT_EQ(net::OK, c1.error()); EXPECT_EQ(net::OK, c2.error()); EXPECT_EQ(net::OK, c3.error()); } TEST(HttpCache, ValidationResultsIn200) { MockHttpCache cache; // This test ensures that a conditional request, which results in a 200 // instead of a 304, properly truncates the existing response data. // write to the cache RunTransactionTest(cache.http_cache(), kETagGET_Transaction); // force this transaction to validate the cache MockTransaction transaction(kETagGET_Transaction); transaction.load_flags |= net::LOAD_VALIDATE_CACHE; RunTransactionTest(cache.http_cache(), transaction); // read from the cache RunTransactionTest(cache.http_cache(), kETagGET_Transaction); } TEST(HttpCache, CachedRedirect) { MockHttpCache cache; ScopedMockTransaction kTestTransaction(kSimpleGET_Transaction); kTestTransaction.status = "HTTP/1.1 301 Moved Permanently"; kTestTransaction.response_headers = "Location: http://www.bar.com/\n"; MockHttpRequest request(kTestTransaction); TestCompletionCallback callback; // write to the cache { scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::OK, rv); const net::HttpResponseInfo* info = trans->GetResponseInfo(); ASSERT_TRUE(info); EXPECT_EQ(info->headers->response_code(), 301); std::string location; info->headers->EnumerateHeader(NULL, "Location", &location); EXPECT_EQ(location, "http://www.bar.com/"); // Destroy transaction when going out of scope. We have not actually // read the response body -- want to test that it is still getting cached. } EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // read from the cache { scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::OK, rv); const net::HttpResponseInfo* info = trans->GetResponseInfo(); ASSERT_TRUE(info); EXPECT_EQ(info->headers->response_code(), 301); std::string location; info->headers->EnumerateHeader(NULL, "Location", &location); EXPECT_EQ(location, "http://www.bar.com/"); // Destroy transaction when going out of scope. We have not actually // read the response body -- want to test that it is still getting cached. } EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } TEST(HttpCache, CacheControlNoStore) { MockHttpCache cache; ScopedMockTransaction transaction(kSimpleGET_Transaction); transaction.response_headers = "cache-control: no-store\n"; // initial load RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // try loading again; it should result in a network fetch RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(2, cache.disk_cache()->create_count()); disk_cache::Entry* entry; EXPECT_NE(net::OK, cache.disk_cache()->OpenEntry(transaction.url, &entry, NULL)); } TEST(HttpCache, CacheControlNoStore2) { // this test is similar to the above test, except that the initial response // is cachable, but when it is validated, no-store is received causing the // cached document to be deleted. MockHttpCache cache; ScopedMockTransaction transaction(kETagGET_Transaction); // initial load RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // try loading again; it should result in a network fetch transaction.load_flags = net::LOAD_VALIDATE_CACHE; transaction.response_headers = "cache-control: no-store\n"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); disk_cache::Entry* entry; EXPECT_NE(net::OK, cache.disk_cache()->OpenEntry(transaction.url, &entry, NULL)); } TEST(HttpCache, CacheControlNoStore3) { // this test is similar to the above test, except that the response is a 304 // instead of a 200. this should never happen in practice, but it seems like // a good thing to verify that we still destroy the cache entry. MockHttpCache cache; ScopedMockTransaction transaction(kETagGET_Transaction); // initial load RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(1, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); // try loading again; it should result in a network fetch transaction.load_flags = net::LOAD_VALIDATE_CACHE; transaction.response_headers = "cache-control: no-store\n"; transaction.status = "HTTP/1.1 304 Not Modified"; RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(1, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); disk_cache::Entry* entry; EXPECT_NE(net::OK, cache.disk_cache()->OpenEntry(transaction.url, &entry, NULL)); } // Ensure that we don't cache requests served over bad HTTPS. TEST(HttpCache, SimpleGET_SSLError) { MockHttpCache cache; MockTransaction transaction = kSimpleGET_Transaction; transaction.cert_status = net::CERT_STATUS_REVOKED; ScopedMockTransaction scoped_transaction(transaction); // write to the cache RunTransactionTest(cache.http_cache(), transaction); // Test that it was not cached. transaction.load_flags |= net::LOAD_ONLY_FROM_CACHE; MockHttpRequest request(transaction); TestCompletionCallback callback; scoped_ptr<net::HttpTransaction> trans; int rv = cache.http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); ASSERT_TRUE(trans.get()); rv = trans->Start(&request, &callback, NULL); if (rv == net::ERR_IO_PENDING) rv = callback.WaitForResult(); ASSERT_EQ(net::ERR_CACHE_MISS, rv); } // Ensure that we don't crash by if left-behind transactions. TEST(HttpCache, OutlivedTransactions) { MockHttpCache* cache = new MockHttpCache; scoped_ptr<net::HttpTransaction> trans; int rv = cache->http_cache()->CreateTransaction(&trans); EXPECT_EQ(net::OK, rv); delete cache; trans.reset(); } // Test that the disabled mode works. TEST(HttpCache, CacheDisabledMode) { MockHttpCache cache; // write to the cache RunTransactionTest(cache.http_cache(), kSimpleGET_Transaction); // go into disabled mode cache.http_cache()->set_mode(net::HttpCache::DISABLE); // force this transaction to write to the cache again MockTransaction transaction(kSimpleGET_Transaction); RunTransactionTest(cache.http_cache(), transaction); EXPECT_EQ(2, cache.network_layer()->transaction_count()); EXPECT_EQ(0, cache.disk_cache()->open_count()); EXPECT_EQ(1, cache.disk_cache()->create_count()); } // Other tests check that the response headers of the cached response // get updated on 304. Here we specifically check that the // HttpResponseHeaders::request_time and HttpResponseHeaders::response_time // fields also gets updated. // http://crbug.com/20594. TEST(HttpCache, UpdatesRequestResponseTimeOn304) { MockHttpCache cache; const char* kUrl = "http://foobar"; const char* kData = "body"; MockTransaction mock_network_response = { 0 }; mock_network_response.url = kUrl; AddMockTransaction(&mock_network_response); // Request |kUrl|, causing |kNetResponse1| to be written to the cache. MockTransaction request = { 0 }; request.url = kUrl; request.method = "GET"; request.request_headers = ""; request.data = kData; static const Response kNetResponse1 = { "HTTP/1.1 200 OK", "Date: Fri, 12 Jun 2009 21:46:42 GMT\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", kData }; kNetResponse1.AssignTo(&mock_network_response); RunTransactionTest(cache.http_cache(), request); // Request |kUrl| again, this time validating the cache and getting // a 304 back. request.load_flags = net::LOAD_VALIDATE_CACHE; static const Response kNetResponse2 = { "HTTP/1.1 304 Not Modified", "Date: Wed, 22 Jul 2009 03:15:26 GMT\n", "" }; kNetResponse2.AssignTo(&mock_network_response); base::Time request_time = base::Time() + base::TimeDelta::FromHours(1234); base::Time response_time = base::Time() + base::TimeDelta::FromHours(1235); mock_network_response.request_time = request_time; mock_network_response.response_time = response_time; net::HttpResponseInfo response; RunTransactionTestWithResponseInfo(cache.http_cache(), request, &response); // The request and response times should have been updated. EXPECT_EQ(request_time.ToInternalValue(), response.request_time.ToInternalValue()); EXPECT_EQ(response_time.ToInternalValue(), response.response_time.ToInternalValue()); std::string headers; response.headers->GetNormalizedHeaders(&headers); EXPECT_EQ("HTTP/1.1 200 OK\n" "Date: Wed, 22 Jul 2009 03:15:26 GMT\n" "Last-Modified: Wed, 06 Feb 2008 22:38:21 GMT\n", headers); RemoveMockTransaction(&mock_network_response); }