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chromium / chromium / src / e586cd5b219471f1133e0e58af02d05ce7677cc7 / . / net / tools / crash_cache / crash_cache.cc
blob: 57fa32cff6bf1e66fac803134239fe502f05b9bb [file] [log] [blame]
// 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 <string>
#include "base/at_exit.h"
#include "base/command_line.h"
#include "base/file_util.h"
#include "base/logging.h"
#include "base/message_loop.h"
#include "base/path_service.h"
#include "base/process_util.h"
#include "base/string_number_conversions.h"
#include "base/string_util.h"
#include "base/threading/thread.h"
#include "base/utf_string_conversions.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_impl.h"
#include "net/disk_cache/disk_cache.h"
#include "net/disk_cache/disk_cache_test_util.h"
#include "net/disk_cache/rankings.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) {
FilePath exe;
PathService::Get(base::FILE_EXE, &exe);
CommandLine cmdline(exe);
cmdline.AppendArg(base::IntToString(action));
base::ProcessHandle handle;
if (!base::LaunchProcess(cmdline, base::LaunchOptions(), &handle)) {
printf("Unable to run test %d\n", action);
return GENERIC;
}
int exit_code;
if (!base::WaitForExitCode(handle, &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<RankCrashes>(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 FilePath& path, RankCrashes action,
FilePath* full_path) {
const char* 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"
};
COMPILE_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 (file_util::PathExists(*full_path))
return false;
return file_util::CreateDirectory(*full_path);
}
// Makes sure that any pending task is processed.
void FlushQueue(disk_cache::Backend* cache) {
TestCompletionCallback cb;
int rv =
reinterpret_cast<disk_cache::BackendImpl*>(cache)->FlushQueueForTest(&cb);
cb.GetResult(rv); // Ignore the result;
}
// Generates the files for an empty and one item cache.
int SimpleInsert(const FilePath& path, RankCrashes action,
base::Thread* cache_thread) {
TestCompletionCallback cb;
disk_cache::Backend* cache;
int rv = disk_cache::CreateCacheBackend(net::DISK_CACHE, path, 0, false,
cache_thread->message_loop_proxy(),
NULL, &cache, &cb);
if (cb.GetResult(rv) != net::OK || cache->GetEntryCount())
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;
rv = cache->CreateEntry(test_name, &entry, &cb);
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);
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 FilePath& path, RankCrashes action,
base::Thread* cache_thread) {
DCHECK(action >= disk_cache::REMOVE_ONE_1);
DCHECK(action <= disk_cache::REMOVE_TAIL_3);
TestCompletionCallback cb;
disk_cache::Backend* cache;
// Use a simple LRU for eviction.
int rv = disk_cache::CreateCacheBackend(net::MEDIA_CACHE, path, 0, false,
cache_thread->message_loop_proxy(),
NULL, &cache, &cb);
if (cb.GetResult(rv) != net::OK || cache->GetEntryCount())
return GENERIC;
disk_cache::Entry* entry;
rv = cache->CreateEntry(kCrashEntryName, &entry, &cb);
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);
if (cb.GetResult(rv) != net::OK)
return GENERIC;
entry->Close();
FlushQueue(cache);
}
rv = cache->OpenEntry(kCrashEntryName, &entry, &cb);
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 FilePath& path, RankCrashes action,
base::Thread* cache_thread) {
DCHECK(action >= disk_cache::REMOVE_HEAD_1);
DCHECK(action <= disk_cache::REMOVE_HEAD_4);
TestCompletionCallback cb;
disk_cache::Backend* cache;
// Use a simple LRU for eviction.
int rv = disk_cache::CreateCacheBackend(net::MEDIA_CACHE, path, 0, false,
cache_thread->message_loop_proxy(),
NULL, &cache, &cb);
if (cb.GetResult(rv) != net::OK || cache->GetEntryCount())
return GENERIC;
disk_cache::Entry* entry;
rv = cache->CreateEntry("some other key", &entry, &cb);
if (cb.GetResult(rv) != net::OK)
return GENERIC;
entry->Close();
FlushQueue(cache);
rv = cache->CreateEntry(kCrashEntryName, &entry, &cb);
if (cb.GetResult(rv) != net::OK)
return GENERIC;
entry->Close();
FlushQueue(cache);
rv = cache->OpenEntry(kCrashEntryName, &entry, &cb);
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 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->message_loop_proxy(), NULL);
if (!cache || !cache->SetMaxSize(0x100000))
return GENERIC;
TestCompletionCallback cb;
int rv = cache->Init(&cb);
if (cb.GetResult(rv) != net::OK || cache->GetEntryCount())
return GENERIC;
int seed = static_cast<int>(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);
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);
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);
if (cb.GetResult(rv) != net::OK)
return GENERIC;
}
rv = cache->OpenEntry(kCrashEntryName, &entry, &cb);
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 FilePath& path, RankCrashes action) {
MessageLoopForIO message_loop;
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(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<RankCrashes>(strtol(argv[1], &end, 0));
if (action <= disk_cache::NO_CRASH || action >= disk_cache::MAX_CRASH) {
printf("Invalid action\n");
return INVALID_ARGUMENT;
}
FilePath path;
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);
}