mirror of
https://github.com/google/sandboxed-api.git
synced 2024-03-22 13:11:30 +08:00
86e356b7ee
Create a utility function to copy a hostcode local buffer into the sandboxee. This combines the following steps into one API call:
1) Create a SAPI variable backed with the hostcode local buffer
2) Allocate the SAPI variable in the sandboxee's memory space
3) Transfer the SAPI variable into the sandboxee's memory space
The function returns a `std::unique_ptr` wrapped `sapi:✌️:RemotePtr` which points to the address of the buffer in the sandboxee's memory space.
PiperOrigin-RevId: 611151615
Change-Id: Ie5012bf17826614395d2056d560689fd9e429d75
342 lines
12 KiB
C++
342 lines
12 KiB
C++
// Copyright 2019 Google LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include <fcntl.h>
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#include <sys/types.h>
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#include <cstdint>
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#include <memory>
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#include <string>
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#include <thread> // NOLINT(build/c++11)
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#include <vector>
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#include "benchmark/benchmark.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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#include "absl/log/log.h"
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#include "absl/status/status.h"
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#include "absl/status/statusor.h"
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#include "absl/strings/string_view.h"
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#include "absl/time/clock.h"
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#include "absl/time/time.h"
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#include "absl/types/span.h"
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#include "sandboxed_api/examples/stringop/stringop-sapi.sapi.h"
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#include "sandboxed_api/examples/stringop/stringop_params.pb.h"
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#include "sandboxed_api/examples/sum/sum-sapi.sapi.h"
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#include "sandboxed_api/sandbox.h"
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#include "sandboxed_api/testing.h"
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#include "sandboxed_api/transaction.h"
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#include "sandboxed_api/util/status_matchers.h"
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#include "sandboxed_api/var_array.h"
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namespace sapi {
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namespace {
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using ::sapi::IsOk;
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using ::sapi::StatusIs;
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using ::testing::ContainerEq;
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using ::testing::Eq;
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using ::testing::Gt;
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using ::testing::HasSubstr;
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using ::testing::NotNull;
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// Functions that will be used during the benchmarks:
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// Function causing no load in the sandboxee.
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absl::Status InvokeNop(Sandbox* sandbox) {
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StringopApi api(sandbox);
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return api.nop();
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}
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// Function that makes use of our special protobuf (de)-serialization code
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// inside SAPI (including the back-synchronization of the structure).
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absl::Status InvokeStringReversal(Sandbox* sandbox) {
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StringopApi api(sandbox);
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stringop::StringReverse proto;
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proto.set_input("Hello");
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absl::StatusOr<v::Proto<stringop::StringReverse>> pp(
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v::Proto<stringop::StringReverse>::FromMessage(proto));
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SAPI_RETURN_IF_ERROR(pp.status());
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SAPI_ASSIGN_OR_RETURN(int return_code, api.pb_reverse_string(pp->PtrBoth()));
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TRANSACTION_FAIL_IF_NOT(return_code != 0, "pb_reverse_string failed");
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SAPI_ASSIGN_OR_RETURN(auto pb_result, pp->GetMessage());
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TRANSACTION_FAIL_IF_NOT(pb_result.output() == "olleH", "Incorrect output");
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return absl::OkStatus();
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}
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// Benchmark functions:
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// Restart SAPI sandbox by letting the sandbox object go out of scope.
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// Minimal case for measuring the minimum overhead of restarting the sandbox.
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void BenchmarkSandboxRestartOverhead(benchmark::State& state) {
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for (auto _ : state) {
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BasicTransaction st(std::make_unique<StringopSandbox>());
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// Invoke nop() to make sure that our sandbox is running.
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EXPECT_THAT(st.Run(InvokeNop), IsOk());
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}
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}
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BENCHMARK(BenchmarkSandboxRestartOverhead);
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void BenchmarkSandboxRestartForkserverOverhead(benchmark::State& state) {
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sapi::BasicTransaction st(std::make_unique<StringopSandbox>());
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for (auto _ : state) {
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EXPECT_THAT(st.Run(InvokeNop), IsOk());
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EXPECT_THAT(st.sandbox()->Restart(true), IsOk());
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}
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}
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BENCHMARK(BenchmarkSandboxRestartForkserverOverhead);
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void BenchmarkSandboxRestartForkserverOverheadForced(benchmark::State& state) {
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sapi::BasicTransaction st{std::make_unique<StringopSandbox>()};
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for (auto _ : state) {
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EXPECT_THAT(st.Run(InvokeNop), IsOk());
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EXPECT_THAT(st.sandbox()->Restart(false), IsOk());
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}
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}
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BENCHMARK(BenchmarkSandboxRestartForkserverOverheadForced);
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// Reuse the sandbox. Used to measure the overhead of the call invocation.
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void BenchmarkCallOverhead(benchmark::State& state) {
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BasicTransaction st(std::make_unique<StringopSandbox>());
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for (auto _ : state) {
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EXPECT_THAT(st.Run(InvokeNop), IsOk());
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}
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}
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BENCHMARK(BenchmarkCallOverhead);
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// Make use of protobufs.
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void BenchmarkProtobufHandling(benchmark::State& state) {
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BasicTransaction st(std::make_unique<StringopSandbox>());
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for (auto _ : state) {
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EXPECT_THAT(st.Run(InvokeStringReversal), IsOk());
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}
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}
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BENCHMARK(BenchmarkProtobufHandling);
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// Measure overhead of synchronizing data.
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void BenchmarkIntDataSynchronization(benchmark::State& state) {
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auto sandbox = std::make_unique<StringopSandbox>();
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ASSERT_THAT(sandbox->Init(), IsOk());
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long current_val = 0; // NOLINT
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v::Long long_var;
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// Allocate remote memory.
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ASSERT_THAT(sandbox->Allocate(&long_var, false), IsOk());
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for (auto _ : state) {
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// Write current_val to the process.
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long_var.SetValue(current_val);
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EXPECT_THAT(sandbox->TransferToSandboxee(&long_var), IsOk());
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// Invalidate value to make sure that the next call
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// is not simply a noop.
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long_var.SetValue(-1);
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// Read value back.
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EXPECT_THAT(sandbox->TransferFromSandboxee(&long_var), IsOk());
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EXPECT_THAT(long_var.GetValue(), Eq(current_val));
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current_val++;
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}
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}
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BENCHMARK(BenchmarkIntDataSynchronization);
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// Test whether stack trace generation works.
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TEST(SapiTest, HasStackTraces) {
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SKIP_SANITIZERS_AND_COVERAGE;
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auto sandbox = std::make_unique<StringopSandbox>();
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ASSERT_THAT(sandbox->Init(), IsOk());
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StringopApi api(sandbox.get());
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EXPECT_THAT(api.violate(), StatusIs(absl::StatusCode::kUnavailable));
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const auto& result = sandbox->AwaitResult();
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EXPECT_THAT(
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result.GetStackTrace(),
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// Check that at least one expected function is present in the stack
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// trace.
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// Note: Typically, in optimized builds, on x86-64, only
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// "ViolateIndirect()" will be present in the stack trace. On POWER, all
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// stack frames are generated, but libunwind will be unable to track
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// "ViolateIndirect()" on the stack and instead show its IP as zero.
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AnyOf(HasSubstr("ViolateIndirect"), HasSubstr("violate")));
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EXPECT_THAT(result.final_status(), Eq(sandbox2::Result::VIOLATION));
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}
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// Various tests:
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// Leaks a file descriptor inside the sandboxee.
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int LeakFileDescriptor(sapi::Sandbox* sandbox, const char* path) {
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int raw_fd = open(path, O_RDONLY);
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sapi::v::Fd fd(raw_fd); // Takes ownership of the raw fd.
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EXPECT_THAT(sandbox->TransferToSandboxee(&fd), IsOk());
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// We want to leak the remote FD. The local FD will still be closed.
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fd.OwnRemoteFd(false);
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return fd.GetRemoteFd();
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}
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// Make sure that restarting the sandboxee works (= fresh set of FDs).
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TEST(SandboxTest, RestartSandboxFD) {
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sapi::BasicTransaction st{std::make_unique<SumSandbox>()};
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auto test_body = [](sapi::Sandbox* sandbox) -> absl::Status {
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// Open some FDs and check their value.
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int first_remote_fd = LeakFileDescriptor(sandbox, "/proc/self/exe");
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EXPECT_THAT(LeakFileDescriptor(sandbox, "/proc/self/exe"),
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Eq(first_remote_fd + 1));
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SAPI_RETURN_IF_ERROR(sandbox->Restart(false));
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// We should have a fresh sandbox now = FDs open previously should be
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// closed now.
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EXPECT_THAT(LeakFileDescriptor(sandbox, "/proc/self/exe"),
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Eq(first_remote_fd));
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return absl::OkStatus();
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};
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EXPECT_THAT(st.Run(test_body), IsOk());
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}
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TEST(SandboxTest, RestartTransactionSandboxFD) {
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sapi::BasicTransaction st{std::make_unique<SumSandbox>()};
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int fd_no = -1;
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ASSERT_THAT(st.Run([&fd_no](sapi::Sandbox* sandbox) -> absl::Status {
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fd_no = LeakFileDescriptor(sandbox, "/proc/self/exe");
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return absl::OkStatus();
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}),
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IsOk());
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EXPECT_THAT(st.Run([fd_no](sapi::Sandbox* sandbox) -> absl::Status {
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EXPECT_THAT(LeakFileDescriptor(sandbox, "/proc/self/exe"), Gt(fd_no));
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return absl::OkStatus();
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}),
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IsOk());
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EXPECT_THAT(st.Restart(), IsOk());
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EXPECT_THAT(st.Run([fd_no](sapi::Sandbox* sandbox) -> absl::Status {
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EXPECT_THAT(LeakFileDescriptor(sandbox, "/proc/self/exe"), Eq(fd_no));
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return absl::OkStatus();
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}),
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IsOk());
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}
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// Make sure we can recover from a dying sandbox.
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TEST(SandboxTest, RestartSandboxAfterCrash) {
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SumSandbox sandbox;
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ASSERT_THAT(sandbox.Init(), IsOk());
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SumApi api(&sandbox);
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// Crash the sandbox.
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EXPECT_THAT(api.crash(), StatusIs(absl::StatusCode::kUnavailable));
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EXPECT_THAT(api.sum(1, 2).status(), StatusIs(absl::StatusCode::kUnavailable));
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EXPECT_THAT(sandbox.AwaitResult().final_status(),
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Eq(sandbox2::Result::SIGNALED));
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// Restart the sandbox.
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ASSERT_THAT(sandbox.Restart(false), IsOk());
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// The sandbox should now be responsive again.
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SAPI_ASSERT_OK_AND_ASSIGN(int result, api.sum(1, 2));
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EXPECT_THAT(result, Eq(3));
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}
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TEST(SandboxTest, RestartSandboxAfterViolation) {
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SumSandbox sandbox;
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ASSERT_THAT(sandbox.Init(), IsOk());
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SumApi api(&sandbox);
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// Violate the sandbox policy.
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EXPECT_THAT(api.violate(), StatusIs(absl::StatusCode::kUnavailable));
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EXPECT_THAT(api.sum(1, 2).status(), StatusIs(absl::StatusCode::kUnavailable));
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EXPECT_THAT(sandbox.AwaitResult().final_status(),
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Eq(sandbox2::Result::VIOLATION));
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// Restart the sandbox.
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ASSERT_THAT(sandbox.Restart(false), IsOk());
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// The sandbox should now be responsive again.
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SAPI_ASSERT_OK_AND_ASSIGN(int result, api.sum(1, 2));
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EXPECT_THAT(result, Eq(3));
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}
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TEST(SandboxTest, NoRaceInAwaitResult) {
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StringopSandbox sandbox;
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ASSERT_THAT(sandbox.Init(), IsOk());
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StringopApi api(&sandbox);
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EXPECT_THAT(api.violate(), StatusIs(absl::StatusCode::kUnavailable));
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absl::SleepFor(absl::Milliseconds(200)); // Make sure we lose the race
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const auto& result = sandbox.AwaitResult();
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EXPECT_THAT(result.final_status(), Eq(sandbox2::Result::VIOLATION));
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}
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TEST(SandboxTest, NoRaceInConcurrentTerminate) {
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SumSandbox sandbox;
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ASSERT_THAT(sandbox.Init(), IsOk());
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SumApi api(&sandbox);
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std::thread th([&sandbox] {
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// Sleep so that the call already starts
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absl::SleepFor(absl::Seconds(1));
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sandbox.Terminate(/*attempt_graceful_exit=*/false);
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});
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EXPECT_THAT(api.sleep_for_sec(10), StatusIs(absl::StatusCode::kUnavailable));
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th.join();
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const auto& result = sandbox.AwaitResult();
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EXPECT_THAT(result.final_status(), Eq(sandbox2::Result::EXTERNAL_KILL));
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}
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TEST(SandboxTest, UseUnotifyMonitor) {
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SumSandbox sandbox;
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ASSERT_THAT(sandbox.Init(/*use_unotify_monitor=*/true), IsOk());
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SumApi api(&sandbox);
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// Violate the sandbox policy.
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EXPECT_THAT(api.violate(), StatusIs(absl::StatusCode::kUnavailable));
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EXPECT_THAT(api.sum(1, 2).status(), StatusIs(absl::StatusCode::kUnavailable));
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EXPECT_THAT(sandbox.AwaitResult().final_status(),
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Eq(sandbox2::Result::VIOLATION));
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// Restart the sandbox.
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ASSERT_THAT(sandbox.Restart(false), IsOk());
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// The sandbox should now be responsive again.
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SAPI_ASSERT_OK_AND_ASSIGN(int result, api.sum(1, 2));
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EXPECT_THAT(result, Eq(3));
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}
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TEST(SandboxTest, AllocateAndTransferTest) {
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std::string test_string("This is a test");
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std::vector<uint8_t> test_string_vector(test_string.begin(),
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test_string.end());
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absl::Span<uint8_t> buffer_input(
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reinterpret_cast<uint8_t*>(test_string_vector.data()),
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test_string_vector.size());
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std::vector<uint8_t> buffer_output(test_string_vector.size());
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SumSandbox sandbox;
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ASSERT_THAT(sandbox.Init(), IsOk());
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SumApi api(&sandbox);
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SAPI_ASSERT_OK_AND_ASSIGN(
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auto sapi_array, sandbox.AllocateAndTransferToSandboxee(buffer_input));
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ASSERT_THAT(sapi_array, NotNull());
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sapi::v::Array<const uint8_t> sapi_buffer_output(
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reinterpret_cast<const uint8_t*>(buffer_output.data()),
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buffer_output.size());
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sapi_buffer_output.SetRemote(sapi_array->GetRemote());
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ASSERT_THAT(sandbox.TransferFromSandboxee(&sapi_buffer_output), IsOk());
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EXPECT_THAT(test_string_vector, ContainerEq(buffer_output));
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}
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} // namespace
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} // namespace sapi
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