// Copyright (c) 2011 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. // This command-line program generates the set of files needed for the crash- // cache unit tests (DiskCacheTest,CacheBackend_Recover*). This program only // works properly on debug mode, because the crash functionality is not compiled // on release builds of the cache. #include #include "base/at_exit.h" #include "base/command_line.h" #include "base/files/file_util.h" #include "base/logging.h" #include "base/message_loop/message_loop.h" #include "base/path_service.h" #include "base/process/kill.h" #include "base/process/launch.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/strings/utf_string_conversions.h" #include "base/threading/thread.h" #include "net/base/net_errors.h" #include "net/base/net_export.h" #include "net/base/test_completion_callback.h" #include "net/disk_cache/backend_cleanup_tracker.h" #include "net/disk_cache/blockfile/backend_impl.h" #include "net/disk_cache/blockfile/rankings.h" #include "net/disk_cache/disk_cache.h" #include "net/disk_cache/disk_cache_test_util.h" using base::Time; enum Errors { GENERIC = -1, ALL_GOOD = 0, INVALID_ARGUMENT = 1, CRASH_OVERWRITE, NOT_REACHED }; using disk_cache::RankCrashes; // Starts a new process, to generate the files. int RunSlave(RankCrashes action) { base::FilePath exe; base::PathService::Get(base::FILE_EXE, &exe); base::CommandLine cmdline(exe); cmdline.AppendArg(base::IntToString(action)); base::Process process = base::LaunchProcess(cmdline, base::LaunchOptions()); if (!process.IsValid()) { printf("Unable to run test %d\n", action); return GENERIC; } int exit_code; if (!process.WaitForExit(&exit_code)) { printf("Unable to get return code, test %d\n", action); return GENERIC; } if (ALL_GOOD != exit_code) printf("Test %d failed, code %d\n", action, exit_code); return exit_code; } // Main loop for the master process. int MasterCode() { for (int i = disk_cache::NO_CRASH + 1; i < disk_cache::MAX_CRASH; i++) { int ret = RunSlave(static_cast(i)); if (ALL_GOOD != ret) return ret; } return ALL_GOOD; } // ----------------------------------------------------------------------- namespace disk_cache { NET_EXPORT_PRIVATE extern RankCrashes g_rankings_crash; } const char kCrashEntryName[] = "the first key"; // Creates the destinaton folder for this run, and returns it on full_path. bool CreateTargetFolder(const base::FilePath& path, RankCrashes action, base::FilePath* full_path) { const char* const folders[] = { "", "insert_empty1", "insert_empty2", "insert_empty3", "insert_one1", "insert_one2", "insert_one3", "insert_load1", "insert_load2", "remove_one1", "remove_one2", "remove_one3", "remove_one4", "remove_head1", "remove_head2", "remove_head3", "remove_head4", "remove_tail1", "remove_tail2", "remove_tail3", "remove_load1", "remove_load2", "remove_load3" }; static_assert(arraysize(folders) == disk_cache::MAX_CRASH, "sync folders"); DCHECK(action > disk_cache::NO_CRASH && action < disk_cache::MAX_CRASH); *full_path = path.AppendASCII(folders[action]); if (base::PathExists(*full_path)) return false; return base::CreateDirectory(*full_path); } // Makes sure that any pending task is processed. void FlushQueue(disk_cache::Backend* cache) { net::TestCompletionCallback cb; int rv = reinterpret_cast(cache)->FlushQueueForTest( cb.callback()); cb.GetResult(rv); // Ignore the result; } bool CreateCache(const base::FilePath& path, base::Thread* thread, disk_cache::Backend** cache, net::TestCompletionCallback* cb) { int size = 1024 * 1024; disk_cache::BackendImpl* backend = new disk_cache::BackendImpl( path, /* cleanup_tracker = */ nullptr, thread->task_runner().get(), /* net_log = */ nullptr); backend->SetMaxSize(size); backend->SetType(net::DISK_CACHE); backend->SetFlags(disk_cache::kNoRandom); int rv = backend->Init(cb->callback()); *cache = backend; return (cb->GetResult(rv) == net::OK && !(*cache)->GetEntryCount()); } // Generates the files for an empty and one item cache. int SimpleInsert(const base::FilePath& path, RankCrashes action, base::Thread* cache_thread) { net::TestCompletionCallback cb; disk_cache::Backend* cache; if (!CreateCache(path, cache_thread, &cache, &cb)) return GENERIC; const char* test_name = "some other key"; if (action <= disk_cache::INSERT_EMPTY_3) { test_name = kCrashEntryName; disk_cache::g_rankings_crash = action; } disk_cache::Entry* entry; int rv = cache->CreateEntry(test_name, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); DCHECK(action <= disk_cache::INSERT_ONE_3); disk_cache::g_rankings_crash = action; test_name = kCrashEntryName; rv = cache->CreateEntry(test_name, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; return NOT_REACHED; } // Generates the files for a one item cache, and removing the head. int SimpleRemove(const base::FilePath& path, RankCrashes action, base::Thread* cache_thread) { DCHECK(action >= disk_cache::REMOVE_ONE_1); DCHECK(action <= disk_cache::REMOVE_TAIL_3); net::TestCompletionCallback cb; disk_cache::Backend* cache; if (!CreateCache(path, cache_thread, &cache, &cb)) return GENERIC; disk_cache::Entry* entry; int rv = cache->CreateEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); if (action >= disk_cache::REMOVE_TAIL_1) { rv = cache->CreateEntry("some other key", &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); } rv = cache->OpenEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; disk_cache::g_rankings_crash = action; entry->Doom(); entry->Close(); FlushQueue(cache); return NOT_REACHED; } int HeadRemove(const base::FilePath& path, RankCrashes action, base::Thread* cache_thread) { DCHECK(action >= disk_cache::REMOVE_HEAD_1); DCHECK(action <= disk_cache::REMOVE_HEAD_4); net::TestCompletionCallback cb; disk_cache::Backend* cache; if (!CreateCache(path, cache_thread, &cache, &cb)) return GENERIC; disk_cache::Entry* entry; int rv = cache->CreateEntry("some other key", &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); rv = cache->CreateEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); rv = cache->OpenEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; disk_cache::g_rankings_crash = action; entry->Doom(); entry->Close(); FlushQueue(cache); return NOT_REACHED; } // Generates the files for insertion and removals on heavy loaded caches. int LoadOperations(const base::FilePath& path, RankCrashes action, base::Thread* cache_thread) { DCHECK(action >= disk_cache::INSERT_LOAD_1); // Work with a tiny index table (16 entries). disk_cache::BackendImpl* cache = new disk_cache::BackendImpl( path, 0xf, cache_thread->task_runner().get(), NULL); if (!cache->SetMaxSize(0x100000)) return GENERIC; // No experiments and use a simple LRU. cache->SetFlags(disk_cache::kNoRandom); net::TestCompletionCallback cb; int rv = cache->Init(cb.callback()); if (cb.GetResult(rv) != net::OK || cache->GetEntryCount()) return GENERIC; int seed = static_cast(Time::Now().ToInternalValue()); srand(seed); disk_cache::Entry* entry; for (int i = 0; i < 100; i++) { std::string key = GenerateKey(true); rv = cache->CreateEntry(key, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); if (50 == i && action >= disk_cache::REMOVE_LOAD_1) { rv = cache->CreateEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; entry->Close(); FlushQueue(cache); } } if (action <= disk_cache::INSERT_LOAD_2) { disk_cache::g_rankings_crash = action; rv = cache->CreateEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; } rv = cache->OpenEntry(kCrashEntryName, &entry, cb.callback()); if (cb.GetResult(rv) != net::OK) return GENERIC; disk_cache::g_rankings_crash = action; entry->Doom(); entry->Close(); FlushQueue(cache); return NOT_REACHED; } // Main function on the child process. int SlaveCode(const base::FilePath& path, RankCrashes action) { base::MessageLoopForIO message_loop; base::FilePath full_path; if (!CreateTargetFolder(path, action, &full_path)) { printf("Destination folder found, please remove it.\n"); return CRASH_OVERWRITE; } base::Thread cache_thread("CacheThread"); if (!cache_thread.StartWithOptions( base::Thread::Options(base::MessageLoop::TYPE_IO, 0))) return GENERIC; if (action <= disk_cache::INSERT_ONE_3) return SimpleInsert(full_path, action, &cache_thread); if (action <= disk_cache::INSERT_LOAD_2) return LoadOperations(full_path, action, &cache_thread); if (action <= disk_cache::REMOVE_ONE_4) return SimpleRemove(full_path, action, &cache_thread); if (action <= disk_cache::REMOVE_HEAD_4) return HeadRemove(full_path, action, &cache_thread); if (action <= disk_cache::REMOVE_TAIL_3) return SimpleRemove(full_path, action, &cache_thread); if (action <= disk_cache::REMOVE_LOAD_3) return LoadOperations(full_path, action, &cache_thread); return NOT_REACHED; } // ----------------------------------------------------------------------- int main(int argc, const char* argv[]) { // Setup an AtExitManager so Singleton objects will be destructed. base::AtExitManager at_exit_manager; if (argc < 2) return MasterCode(); char* end; RankCrashes action = static_cast(strtol(argv[1], &end, 0)); if (action <= disk_cache::NO_CRASH || action >= disk_cache::MAX_CRASH) { printf("Invalid action\n"); return INVALID_ARGUMENT; } base::FilePath path; base::PathService::Get(base::DIR_SOURCE_ROOT, &path); path = path.AppendASCII("net"); path = path.AppendASCII("data"); path = path.AppendASCII("cache_tests"); path = path.AppendASCII("new_crashes"); return SlaveCode(path, action); }