blob: 1cc903b7c95277f0a5b743c796a00819cc327d15 [file] [log] [blame]
// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/nacl/browser/pnacl_translation_cache.h"
#include "base/files/file_path.h"
#include "base/files/scoped_temp_dir.h"
#include "base/message_loop/message_loop.h"
#include "base/run_loop.h"
#include "components/nacl/common/pnacl_types.h"
#include "content/public/browser/browser_thread.h"
#include "content/public/test/test_browser_thread_bundle.h"
#include "net/base/io_buffer.h"
#include "net/base/test_completion_callback.h"
#include "testing/gtest/include/gtest/gtest.h"
using content::BrowserThread;
using base::FilePath;
namespace pnacl {
const int kTestDiskCacheSize = 16 * 1024 * 1024;
class PnaclTranslationCacheTest : public testing::Test {
protected:
PnaclTranslationCacheTest()
: thread_bundle_(content::TestBrowserThreadBundle::IO_MAINLOOP) {}
virtual ~PnaclTranslationCacheTest() {}
virtual void SetUp() { cache_.reset(new PnaclTranslationCache()); }
virtual void TearDown() {
// The destructor of PnaclTranslationCacheWriteEntry posts a task to the IO
// thread to close the backend cache entry. We want to make sure the entries
// are closed before we delete the backend (and in particular the destructor
// for the memory backend has a DCHECK to verify this), so we run the loop
// here to ensure the task gets processed.
base::RunLoop().RunUntilIdle();
cache_.reset();
}
void InitBackend(bool in_mem);
void StoreNexe(const std::string& key, const std::string& nexe);
std::string GetNexe(const std::string& key);
scoped_ptr<PnaclTranslationCache> cache_;
content::TestBrowserThreadBundle thread_bundle_;
base::ScopedTempDir temp_dir_;
};
void PnaclTranslationCacheTest::InitBackend(bool in_mem) {
net::TestCompletionCallback init_cb;
if (!in_mem) {
ASSERT_TRUE(temp_dir_.CreateUniqueTempDir());
}
// Use the private init method so we can control the size
int rv = cache_->Init(in_mem ? net::MEMORY_CACHE : net::PNACL_CACHE,
temp_dir_.path(),
in_mem ? kMaxMemCacheSize : kTestDiskCacheSize,
init_cb.callback());
if (in_mem)
ASSERT_EQ(net::OK, rv);
ASSERT_EQ(net::OK, init_cb.GetResult(rv));
ASSERT_EQ(0, cache_->Size());
}
void PnaclTranslationCacheTest::StoreNexe(const std::string& key,
const std::string& nexe) {
net::TestCompletionCallback store_cb;
scoped_refptr<net::DrainableIOBuffer> nexe_buf(
new net::DrainableIOBuffer(new net::StringIOBuffer(nexe), nexe.size()));
cache_->StoreNexe(key, nexe_buf, store_cb.callback());
// Using ERR_IO_PENDING here causes the callback to wait for the result
// which should be harmless even if it returns OK immediately. This is because
// we don't plumb the intermediate writing stages all the way out.
EXPECT_EQ(net::OK, store_cb.GetResult(net::ERR_IO_PENDING));
}
// Inspired by net::TestCompletionCallback. Instantiate a TestNexeCallback and
// pass the GetNexeCallback returned by the callback() method to GetNexe.
// Then call GetResult, which will pump the message loop until it gets a result,
// return the resulting IOBuffer and fill in the return value
class TestNexeCallback {
public:
TestNexeCallback()
: have_result_(false),
result_(-1),
cb_(base::Bind(&TestNexeCallback::SetResult, base::Unretained(this))) {}
GetNexeCallback callback() { return cb_; }
net::DrainableIOBuffer* GetResult(int* result) {
while (!have_result_)
base::RunLoop().RunUntilIdle();
have_result_ = false;
*result = result_;
return buf_.get();
}
private:
void SetResult(int rv, scoped_refptr<net::DrainableIOBuffer> buf) {
have_result_ = true;
result_ = rv;
buf_ = buf;
}
bool have_result_;
int result_;
scoped_refptr<net::DrainableIOBuffer> buf_;
const GetNexeCallback cb_;
};
std::string PnaclTranslationCacheTest::GetNexe(const std::string& key) {
TestNexeCallback load_cb;
cache_->GetNexe(key, load_cb.callback());
int rv;
scoped_refptr<net::DrainableIOBuffer> buf(load_cb.GetResult(&rv));
EXPECT_EQ(net::OK, rv);
if (buf.get() == NULL) // for some reason ASSERT macros don't work here.
return std::string();
std::string nexe(buf->data(), buf->size());
return nexe;
}
static const std::string test_key("1");
static const std::string test_store_val("testnexe");
static const int kLargeNexeSize = 8 * 1024 * 1024;
TEST(PnaclTranslationCacheKeyTest, CacheKeyTest) {
nacl::PnaclCacheInfo info;
info.pexe_url = GURL("http://www.google.com");
info.abi_version = 0;
info.opt_level = 0;
info.sandbox_isa = "x86-32";
std::string test_time("Wed, 15 Nov 1995 06:25:24 GMT");
base::Time::FromString(test_time.c_str(), &info.last_modified);
// Basic check for URL and time components
EXPECT_EQ("ABI:0;opt:0;URL:http://www.google.com/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
// Check that query portion of URL is not stripped
info.pexe_url = GURL("http://www.google.com/?foo=bar");
EXPECT_EQ("ABI:0;opt:0;URL:http://www.google.com/?foo=bar;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
// Check that username, password, and normal port are stripped
info.pexe_url = GURL("https://user:host@www.google.com:443/");
EXPECT_EQ("ABI:0;opt:0;URL:https://www.google.com/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
// Check that unusual port is not stripped but ref is stripped
info.pexe_url = GURL("https://www.google.com:444/#foo");
EXPECT_EQ("ABI:0;opt:0;URL:https://www.google.com:444/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
// Check chrome-extesnsion scheme
info.pexe_url = GURL("chrome-extension://ljacajndfccfgnfohlgkdphmbnpkjflk/");
EXPECT_EQ("ABI:0;opt:0;"
"URL:chrome-extension://ljacajndfccfgnfohlgkdphmbnpkjflk/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
// Check that ABI version, opt level, and etag are in the key
info.pexe_url = GURL("http://www.google.com/");
info.abi_version = 2;
EXPECT_EQ("ABI:2;opt:0;URL:http://www.google.com/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
info.opt_level = 2;
EXPECT_EQ("ABI:2;opt:2;URL:http://www.google.com/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
info.etag = std::string("etag");
EXPECT_EQ("ABI:2;opt:2;URL:http://www.google.com/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:etag;"
"sandbox:x86-32;extra_flags:;",
PnaclTranslationCache::GetKey(info));
info.extra_flags = "-mavx-neon";
EXPECT_EQ("ABI:2;opt:2;URL:http://www.google.com/;"
"modified:1995:11:15:6:25:24:0:UTC;etag:etag;"
"sandbox:x86-32;extra_flags:-mavx-neon;",
PnaclTranslationCache::GetKey(info));
// Check for all the time components, and null time
info.last_modified = base::Time();
EXPECT_EQ("ABI:2;opt:2;URL:http://www.google.com/;"
"modified:0:0:0:0:0:0:0:UTC;etag:etag;"
"sandbox:x86-32;extra_flags:-mavx-neon;",
PnaclTranslationCache::GetKey(info));
test_time.assign("Fri, 29 Feb 2008 13:04:12 GMT");
base::Time::FromString(test_time.c_str(), &info.last_modified);
EXPECT_EQ("ABI:2;opt:2;URL:http://www.google.com/;"
"modified:2008:2:29:13:4:12:0:UTC;etag:etag;"
"sandbox:x86-32;extra_flags:-mavx-neon;",
PnaclTranslationCache::GetKey(info));
}
TEST_F(PnaclTranslationCacheTest, StoreSmallInMem) {
// Test that a single store puts something in the mem backend
InitBackend(true);
StoreNexe(test_key, test_store_val);
EXPECT_EQ(1, cache_->Size());
}
TEST_F(PnaclTranslationCacheTest, StoreSmallOnDisk) {
// Test that a single store puts something in the disk backend
InitBackend(false);
StoreNexe(test_key, test_store_val);
EXPECT_EQ(1, cache_->Size());
}
TEST_F(PnaclTranslationCacheTest, StoreLargeOnDisk) {
// Test a value too large(?) for a single I/O operation
InitBackend(false);
const std::string large_buffer(kLargeNexeSize, 'a');
StoreNexe(test_key, large_buffer);
EXPECT_EQ(1, cache_->Size());
}
TEST_F(PnaclTranslationCacheTest, InMemSizeLimit) {
InitBackend(true);
scoped_refptr<net::DrainableIOBuffer> large_buffer(new net::DrainableIOBuffer(
new net::StringIOBuffer(std::string(kMaxMemCacheSize + 1, 'a')),
kMaxMemCacheSize + 1));
net::TestCompletionCallback store_cb;
cache_->StoreNexe(test_key, large_buffer, store_cb.callback());
EXPECT_EQ(net::ERR_FAILED, store_cb.GetResult(net::ERR_IO_PENDING));
base::RunLoop().RunUntilIdle(); // Ensure the entry is closed.
EXPECT_EQ(0, cache_->Size());
}
TEST_F(PnaclTranslationCacheTest, GetOneInMem) {
InitBackend(true);
StoreNexe(test_key, test_store_val);
EXPECT_EQ(1, cache_->Size());
EXPECT_EQ(0, GetNexe(test_key).compare(test_store_val));
}
TEST_F(PnaclTranslationCacheTest, GetOneOnDisk) {
InitBackend(false);
StoreNexe(test_key, test_store_val);
EXPECT_EQ(1, cache_->Size());
EXPECT_EQ(0, GetNexe(test_key).compare(test_store_val));
}
TEST_F(PnaclTranslationCacheTest, GetLargeOnDisk) {
InitBackend(false);
const std::string large_buffer(kLargeNexeSize, 'a');
StoreNexe(test_key, large_buffer);
EXPECT_EQ(1, cache_->Size());
EXPECT_EQ(0, GetNexe(test_key).compare(large_buffer));
}
TEST_F(PnaclTranslationCacheTest, StoreTwice) {
// Test that storing twice with the same key overwrites
InitBackend(true);
StoreNexe(test_key, test_store_val);
StoreNexe(test_key, test_store_val + "aaa");
EXPECT_EQ(1, cache_->Size());
EXPECT_EQ(0, GetNexe(test_key).compare(test_store_val + "aaa"));
}
TEST_F(PnaclTranslationCacheTest, StoreTwo) {
InitBackend(true);
StoreNexe(test_key, test_store_val);
StoreNexe(test_key + "a", test_store_val + "aaa");
EXPECT_EQ(2, cache_->Size());
EXPECT_EQ(0, GetNexe(test_key).compare(test_store_val));
EXPECT_EQ(0, GetNexe(test_key + "a").compare(test_store_val + "aaa"));
}
TEST_F(PnaclTranslationCacheTest, GetMiss) {
InitBackend(true);
StoreNexe(test_key, test_store_val);
TestNexeCallback load_cb;
std::string nexe;
cache_->GetNexe(test_key + "a", load_cb.callback());
int rv;
scoped_refptr<net::DrainableIOBuffer> buf(load_cb.GetResult(&rv));
EXPECT_EQ(net::ERR_FAILED, rv);
}
} // namespace pnacl