sandbox/linux/bpf_dsl/bpf_dsl_unittest.cc - chromium/src - Git at Google

 // Copyright 2014 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 "sandbox/linux/bpf_dsl/bpf_dsl.h"

 #include <errno.h>
 #include <fcntl.h>
 #include <netinet/in.h>
 #include <stdint.h>
 #include <sys/socket.h>
 #include <sys/syscall.h>
 #include <sys/utsname.h>
 #include <unistd.h>

 #include <map>
 #include <utility>

 #include "base/files/scoped_file.h"
 #include "base/macros.h"
 #include "build/build_config.h"
 #include "sandbox/linux/bpf_dsl/bpf_dsl_impl.h"
 #include "sandbox/linux/bpf_dsl/codegen.h"
 #include "sandbox/linux/bpf_dsl/dump_bpf.h"
 #include "sandbox/linux/bpf_dsl/golden/golden_files.h"
 #include "sandbox/linux/bpf_dsl/policy.h"
 #include "sandbox/linux/bpf_dsl/policy_compiler.h"
 #include "sandbox/linux/bpf_dsl/seccomp_macros.h"
 #include "sandbox/linux/bpf_dsl/test_trap_registry.h"
 #include "sandbox/linux/bpf_dsl/verifier.h"
 #include "sandbox/linux/system_headers/linux_filter.h"
 #include "testing/gtest/include/gtest/gtest.h"

 #define CASES SANDBOX_BPF_DSL_CASES

 namespace sandbox {
 namespace bpf_dsl {
 namespace {

 // Helper function to construct fake arch_seccomp_data objects.
 struct arch_seccomp_data FakeSyscall(int nr,
                                      uintptr_t p0 = 0,
                                      uintptr_t p1 = 0,
                                      uintptr_t p2 = 0,
                                      uintptr_t p3 = 0,
                                      uintptr_t p4 = 0,
                                      uintptr_t p5 = 0) {
   // Made up program counter for syscall address.
   const uint64_t kFakePC = 0x543210;

   struct arch_seccomp_data data = {
       nr,
       SECCOMP_ARCH,
       kFakePC,
       {
        p0, p1, p2, p3, p4, p5,
       },
   };

   return data;
 }

 class PolicyEmulator {
  public:
   PolicyEmulator(const golden::Golden& golden, const Policy& policy)
       : program_() {
     TestTrapRegistry traps;
     program_ = PolicyCompiler(&policy, &traps).Compile();

     // TODO(mdempsky): Generalize to more arches.
     const char* expected = nullptr;
 #if defined(ARCH_CPU_X86)
     expected = golden.i386_dump;
 #elif defined(ARCH_CPU_X86_64)
     expected = golden.x86_64_dump;
 #endif

     if (expected != nullptr) {
       const std::string actual = DumpBPF::StringPrintProgram(program_);
       EXPECT_EQ(expected, actual);
     } else {
       LOG(WARNING) << "Missing golden file data entry";
     }
   }

   ~PolicyEmulator() {}

   void ExpectAllow(const struct arch_seccomp_data& data) const {
     EXPECT_EQ(SECCOMP_RET_ALLOW, Emulate(data));
   }

   void ExpectErrno(uint16_t err, const struct arch_seccomp_data& data) const {
     EXPECT_EQ(SECCOMP_RET_ERRNO | err, Emulate(data));
   }

   void ExpectKill(const struct arch_seccomp_data& data) const {
     EXPECT_EQ(SECCOMP_RET_KILL, Emulate(data));
   }

  private:
   uint32_t Emulate(const struct arch_seccomp_data& data) const {
     const char* err = nullptr;
     uint32_t res = Verifier::EvaluateBPF(program_, data, &err);
     if (err) {
       ADD_FAILURE() << err;
       return 0;
     }
     return res;
   }

   CodeGen::Program program_;

   DISALLOW_COPY_AND_ASSIGN(PolicyEmulator);
 };

 class BasicPolicy : public Policy {
  public:
   BasicPolicy() {}
   ~BasicPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_getpgid) {
       const Arg<pid_t> pid(0);
       return If(pid == 0, Error(EPERM)).Else(Error(EINVAL));
     }
     if (sysno == __NR_setuid) {
       const Arg<uid_t> uid(0);
       return If(uid != 42, Kill()).Else(Allow());
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(BasicPolicy);
 };

 TEST(BPFDSL, Basic) {
   PolicyEmulator emulator(golden::kBasicPolicy, BasicPolicy());

   emulator.ExpectErrno(EPERM, FakeSyscall(__NR_getpgid, 0));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_getpgid, 1));

   emulator.ExpectAllow(FakeSyscall(__NR_setuid, 42));
   emulator.ExpectKill(FakeSyscall(__NR_setuid, 43));
 }

 /* On IA-32, socketpair() is implemented via socketcall(). :-( */
 #if !defined(ARCH_CPU_X86)
 class BooleanLogicPolicy : public Policy {
  public:
   BooleanLogicPolicy() {}
   ~BooleanLogicPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_socketpair) {
       const Arg<int> domain(0), type(1), protocol(2);
       return If(AllOf(domain == AF_UNIX,
                       AnyOf(type == SOCK_STREAM, type == SOCK_DGRAM),
                       protocol == 0),
                 Error(EPERM))
           .Else(Error(EINVAL));
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(BooleanLogicPolicy);
 };

 TEST(BPFDSL, BooleanLogic) {
   PolicyEmulator emulator(golden::kBooleanLogicPolicy, BooleanLogicPolicy());

   const intptr_t kFakeSV = 0x12345;

   // Acceptable combinations that should return EPERM.
   emulator.ExpectErrno(
       EPERM, FakeSyscall(__NR_socketpair, AF_UNIX, SOCK_STREAM, 0, kFakeSV));
   emulator.ExpectErrno(
       EPERM, FakeSyscall(__NR_socketpair, AF_UNIX, SOCK_DGRAM, 0, kFakeSV));

   // Combinations that are invalid for only one reason; should return EINVAL.
   emulator.ExpectErrno(
       EINVAL, FakeSyscall(__NR_socketpair, AF_INET, SOCK_STREAM, 0, kFakeSV));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_socketpair, AF_UNIX,
                                            SOCK_SEQPACKET, 0, kFakeSV));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_socketpair, AF_UNIX,
                                            SOCK_STREAM, IPPROTO_TCP, kFakeSV));

   // Completely unacceptable combination; should also return EINVAL.
   emulator.ExpectErrno(
       EINVAL, FakeSyscall(__NR_socketpair, AF_INET, SOCK_SEQPACKET, IPPROTO_UDP,
                           kFakeSV));
 }
 #endif  // !ARCH_CPU_X86

 class MoreBooleanLogicPolicy : public Policy {
  public:
   MoreBooleanLogicPolicy() {}
   ~MoreBooleanLogicPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_setresuid) {
       const Arg<uid_t> ruid(0), euid(1), suid(2);
       return If(AnyOf(ruid == 0, euid == 0, suid == 0), Error(EPERM))
           .ElseIf(AllOf(ruid == 1, euid == 1, suid == 1), Error(EAGAIN))
           .Else(Error(EINVAL));
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(MoreBooleanLogicPolicy);
 };

 TEST(BPFDSL, MoreBooleanLogic) {
   PolicyEmulator emulator(golden::kMoreBooleanLogicPolicy,
                           MoreBooleanLogicPolicy());

   // Expect EPERM if any set to 0.
   emulator.ExpectErrno(EPERM, FakeSyscall(__NR_setresuid, 0, 5, 5));
   emulator.ExpectErrno(EPERM, FakeSyscall(__NR_setresuid, 5, 0, 5));
   emulator.ExpectErrno(EPERM, FakeSyscall(__NR_setresuid, 5, 5, 0));

   // Expect EAGAIN if all set to 1.
   emulator.ExpectErrno(EAGAIN, FakeSyscall(__NR_setresuid, 1, 1, 1));

   // Expect EINVAL for anything else.
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 5, 1, 1));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 1, 5, 1));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 1, 1, 5));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 3, 4, 5));
 }

 static const uintptr_t kDeadBeefAddr =
     static_cast<uintptr_t>(0xdeadbeefdeadbeefULL);

 class ArgSizePolicy : public Policy {
  public:
   ArgSizePolicy() {}
   ~ArgSizePolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_uname) {
       const Arg<uintptr_t> addr(0);
       return If(addr == kDeadBeefAddr, Error(EPERM)).Else(Allow());
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(ArgSizePolicy);
 };

 TEST(BPFDSL, ArgSizeTest) {
   PolicyEmulator emulator(golden::kArgSizePolicy, ArgSizePolicy());

   emulator.ExpectAllow(FakeSyscall(__NR_uname, 0));
   emulator.ExpectErrno(EPERM, FakeSyscall(__NR_uname, kDeadBeefAddr));
 }

 class NegativeConstantsPolicy : public Policy {
  public:
   NegativeConstantsPolicy() {}
   ~NegativeConstantsPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_fcntl) {
       const Arg<int> fd(0);
       return If(fd == -314, Error(EPERM)).Else(Allow());
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(NegativeConstantsPolicy);
 };

 TEST(BPFDSL, NegativeConstantsTest) {
   PolicyEmulator emulator(golden::kNegativeConstantsPolicy,
                           NegativeConstantsPolicy());

   emulator.ExpectAllow(FakeSyscall(__NR_fcntl, -5, F_DUPFD));
   emulator.ExpectAllow(FakeSyscall(__NR_fcntl, 20, F_DUPFD));
   emulator.ExpectErrno(EPERM, FakeSyscall(__NR_fcntl, -314, F_DUPFD));
 }

 #if 0
 // TODO(mdempsky): This is really an integration test.

 class TrappingPolicy : public Policy {
  public:
   TrappingPolicy() {}
   ~TrappingPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_uname) {
       return Trap(UnameTrap, &count_);
     }
     return Allow();
   }

  private:
   static intptr_t count_;

   static intptr_t UnameTrap(const struct arch_seccomp_data& data, void* aux) {
     BPF_ASSERT_EQ(&count_, aux);
     return ++count_;
   }

   DISALLOW_COPY_AND_ASSIGN(TrappingPolicy);
 };

 intptr_t TrappingPolicy::count_;

 BPF_TEST_C(BPFDSL, TrapTest, TrappingPolicy) {
   ASSERT_SYSCALL_RESULT(1, uname, NULL);
   ASSERT_SYSCALL_RESULT(2, uname, NULL);
   ASSERT_SYSCALL_RESULT(3, uname, NULL);
 }
 #endif

 class MaskingPolicy : public Policy {
  public:
   MaskingPolicy() {}
   ~MaskingPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_setuid) {
       const Arg<uid_t> uid(0);
       return If((uid & 0xf) == 0, Error(EINVAL)).Else(Error(EACCES));
     }
     if (sysno == __NR_setgid) {
       const Arg<gid_t> gid(0);
       return If((gid & 0xf0) == 0xf0, Error(EINVAL)).Else(Error(EACCES));
     }
     if (sysno == __NR_setpgid) {
       const Arg<pid_t> pid(0);
       return If((pid & 0xa5) == 0xa0, Error(EINVAL)).Else(Error(EACCES));
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(MaskingPolicy);
 };

 TEST(BPFDSL, MaskTest) {
   PolicyEmulator emulator(golden::kMaskingPolicy, MaskingPolicy());

   for (uid_t uid = 0; uid < 0x100; ++uid) {
     const int expect_errno = (uid & 0xf) == 0 ? EINVAL : EACCES;
     emulator.ExpectErrno(expect_errno, FakeSyscall(__NR_setuid, uid));
   }

   for (gid_t gid = 0; gid < 0x100; ++gid) {
     const int expect_errno = (gid & 0xf0) == 0xf0 ? EINVAL : EACCES;
     emulator.ExpectErrno(expect_errno, FakeSyscall(__NR_setgid, gid));
   }

   for (pid_t pid = 0; pid < 0x100; ++pid) {
     const int expect_errno = (pid & 0xa5) == 0xa0 ? EINVAL : EACCES;
     emulator.ExpectErrno(expect_errno, FakeSyscall(__NR_setpgid, pid, 0));
   }
 }

 class ElseIfPolicy : public Policy {
  public:
   ElseIfPolicy() {}
   ~ElseIfPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_setuid) {
       const Arg<uid_t> uid(0);
       return If((uid & 0xfff) == 0, Error(0))
           .ElseIf((uid & 0xff0) == 0, Error(EINVAL))
           .ElseIf((uid & 0xf00) == 0, Error(EEXIST))
           .Else(Error(EACCES));
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(ElseIfPolicy);
 };

 TEST(BPFDSL, ElseIfTest) {
   PolicyEmulator emulator(golden::kElseIfPolicy, ElseIfPolicy());

   emulator.ExpectErrno(0, FakeSyscall(__NR_setuid, 0));

   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setuid, 0x0001));
   emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setuid, 0x0002));

   emulator.ExpectErrno(EEXIST, FakeSyscall(__NR_setuid, 0x0011));
   emulator.ExpectErrno(EEXIST, FakeSyscall(__NR_setuid, 0x0022));

   emulator.ExpectErrno(EACCES, FakeSyscall(__NR_setuid, 0x0111));
   emulator.ExpectErrno(EACCES, FakeSyscall(__NR_setuid, 0x0222));
 }

 class SwitchPolicy : public Policy {
  public:
   SwitchPolicy() {}
   ~SwitchPolicy() override {}
   ResultExpr EvaluateSyscall(int sysno) const override {
     if (sysno == __NR_fcntl) {
       const Arg<int> cmd(1);
       const Arg<unsigned long> long_arg(2);
       return Switch(cmd)
           .CASES((F_GETFL, F_GETFD), Error(ENOENT))
           .Case(F_SETFD, If(long_arg == O_CLOEXEC, Allow()).Else(Error(EINVAL)))
           .Case(F_SETFL, Error(EPERM))
           .Default(Error(EACCES));
     }
     return Allow();
   }

  private:
   DISALLOW_COPY_AND_ASSIGN(SwitchPolicy);
 };

 TEST(BPFDSL, SwitchTest) {
   PolicyEmulator emulator(golden::kSwitchPolicy, SwitchPolicy());

   const int kFakeSockFD = 42;

   emulator.ExpectErrno(ENOENT, FakeSyscall(__NR_fcntl, kFakeSockFD, F_GETFD));
   emulator.ExpectErrno(ENOENT, FakeSyscall(__NR_fcntl, kFakeSockFD, F_GETFL));

   emulator.ExpectAllow(
       FakeSyscall(__NR_fcntl, kFakeSockFD, F_SETFD, O_CLOEXEC));
   emulator.ExpectErrno(EINVAL,
                        FakeSyscall(__NR_fcntl, kFakeSockFD, F_SETFD, 0));

   emulator.ExpectErrno(EPERM,
                        FakeSyscall(__NR_fcntl, kFakeSockFD, F_SETFL, O_RDONLY));

   emulator.ExpectErrno(EACCES,
                        FakeSyscall(__NR_fcntl, kFakeSockFD, F_DUPFD, 0));
 }

 static intptr_t DummyTrap(const struct arch_seccomp_data& data, void* aux) {
   return 0;
 }

 TEST(BPFDSL, IsAllowDeny) {
   ResultExpr allow = Allow();
   EXPECT_TRUE(allow->IsAllow());
   EXPECT_FALSE(allow->IsDeny());

   ResultExpr error = Error(ENOENT);
   EXPECT_FALSE(error->IsAllow());
   EXPECT_TRUE(error->IsDeny());

   ResultExpr trace = Trace(42);
   EXPECT_FALSE(trace->IsAllow());
   EXPECT_FALSE(trace->IsDeny());

   ResultExpr trap = Trap(DummyTrap, nullptr);
   EXPECT_FALSE(trap->IsAllow());
   EXPECT_TRUE(trap->IsDeny());

   const Arg<int> arg(0);
   ResultExpr maybe = If(arg == 0, Allow()).Else(Error(EPERM));
   EXPECT_FALSE(maybe->IsAllow());
   EXPECT_FALSE(maybe->IsDeny());
 }

 TEST(BPFDSL, HasUnsafeTraps) {
   ResultExpr allow = Allow();
   EXPECT_FALSE(allow->HasUnsafeTraps());

   ResultExpr safe = Trap(DummyTrap, nullptr);
   EXPECT_FALSE(safe->HasUnsafeTraps());

   ResultExpr unsafe = UnsafeTrap(DummyTrap, nullptr);
   EXPECT_TRUE(unsafe->HasUnsafeTraps());

   const Arg<int> arg(0);
   ResultExpr maybe = If(arg == 0, allow).Else(unsafe);
   EXPECT_TRUE(maybe->HasUnsafeTraps());
 }

 }  // namespace
 }  // namespace bpf_dsl
 }  // namespace sandbox
	// Copyright 2014 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 "sandbox/linux/bpf_dsl/bpf_dsl.h"

	#include <errno.h>
	#include <fcntl.h>
	#include <netinet/in.h>
	#include <stdint.h>
	#include <sys/socket.h>
	#include <sys/syscall.h>
	#include <sys/utsname.h>
	#include <unistd.h>

	#include <map>
	#include <utility>

	#include "base/files/scoped_file.h"
	#include "base/macros.h"
	#include "build/build_config.h"
	#include "sandbox/linux/bpf_dsl/bpf_dsl_impl.h"
	#include "sandbox/linux/bpf_dsl/codegen.h"
	#include "sandbox/linux/bpf_dsl/dump_bpf.h"
	#include "sandbox/linux/bpf_dsl/golden/golden_files.h"
	#include "sandbox/linux/bpf_dsl/policy.h"
	#include "sandbox/linux/bpf_dsl/policy_compiler.h"
	#include "sandbox/linux/bpf_dsl/seccomp_macros.h"
	#include "sandbox/linux/bpf_dsl/test_trap_registry.h"
	#include "sandbox/linux/bpf_dsl/verifier.h"
	#include "sandbox/linux/system_headers/linux_filter.h"
	#include "testing/gtest/include/gtest/gtest.h"

	#define CASES SANDBOX_BPF_DSL_CASES

	namespace sandbox {
	namespace bpf_dsl {
	namespace {

	// Helper function to construct fake arch_seccomp_data objects.
	struct arch_seccomp_data FakeSyscall(int nr,
	uintptr_t p0 = 0,
	uintptr_t p1 = 0,
	uintptr_t p2 = 0,
	uintptr_t p3 = 0,
	uintptr_t p4 = 0,
	uintptr_t p5 = 0) {
	// Made up program counter for syscall address.
	const uint64_t kFakePC = 0x543210;

	struct arch_seccomp_data data = {
	nr,
	SECCOMP_ARCH,
	kFakePC,
	{
	p0, p1, p2, p3, p4, p5,
	},
	};

	return data;
	}

	class PolicyEmulator {
	public:
	PolicyEmulator(const golden::Golden& golden, const Policy& policy)
	: program_() {
	TestTrapRegistry traps;
	program_ = PolicyCompiler(&policy, &traps).Compile();

	// TODO(mdempsky): Generalize to more arches.
	const char* expected = nullptr;
	#if defined(ARCH_CPU_X86)
	expected = golden.i386_dump;
	#elif defined(ARCH_CPU_X86_64)
	expected = golden.x86_64_dump;
	#endif

	if (expected != nullptr) {
	const std::string actual = DumpBPF::StringPrintProgram(program_);
	EXPECT_EQ(expected, actual);
	} else {
	LOG(WARNING) << "Missing golden file data entry";
	}
	}

	~PolicyEmulator() {}

	void ExpectAllow(const struct arch_seccomp_data& data) const {
	EXPECT_EQ(SECCOMP_RET_ALLOW, Emulate(data));
	}

	void ExpectErrno(uint16_t err, const struct arch_seccomp_data& data) const {
	EXPECT_EQ(SECCOMP_RET_ERRNO \| err, Emulate(data));
	}

	void ExpectKill(const struct arch_seccomp_data& data) const {
	EXPECT_EQ(SECCOMP_RET_KILL, Emulate(data));
	}

	private:
	uint32_t Emulate(const struct arch_seccomp_data& data) const {
	const char* err = nullptr;
	uint32_t res = Verifier::EvaluateBPF(program_, data, &err);
	if (err) {
	ADD_FAILURE() << err;
	return 0;
	}
	return res;
	}

	CodeGen::Program program_;

	DISALLOW_COPY_AND_ASSIGN(PolicyEmulator);
	};

	class BasicPolicy : public Policy {
	public:
	BasicPolicy() {}
	~BasicPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_getpgid) {
	const Arg<pid_t> pid(0);
	return If(pid == 0, Error(EPERM)).Else(Error(EINVAL));
	}
	if (sysno == __NR_setuid) {
	const Arg<uid_t> uid(0);
	return If(uid != 42, Kill()).Else(Allow());
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(BasicPolicy);
	};

	TEST(BPFDSL, Basic) {
	PolicyEmulator emulator(golden::kBasicPolicy, BasicPolicy());

	emulator.ExpectErrno(EPERM, FakeSyscall(__NR_getpgid, 0));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_getpgid, 1));

	emulator.ExpectAllow(FakeSyscall(__NR_setuid, 42));
	emulator.ExpectKill(FakeSyscall(__NR_setuid, 43));
	}

	/* On IA-32, socketpair() is implemented via socketcall(). :-( */
	#if !defined(ARCH_CPU_X86)
	class BooleanLogicPolicy : public Policy {
	public:
	BooleanLogicPolicy() {}
	~BooleanLogicPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_socketpair) {
	const Arg<int> domain(0), type(1), protocol(2);
	return If(AllOf(domain == AF_UNIX,
	AnyOf(type == SOCK_STREAM, type == SOCK_DGRAM),
	protocol == 0),
	Error(EPERM))
	.Else(Error(EINVAL));
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(BooleanLogicPolicy);
	};

	TEST(BPFDSL, BooleanLogic) {
	PolicyEmulator emulator(golden::kBooleanLogicPolicy, BooleanLogicPolicy());

	const intptr_t kFakeSV = 0x12345;

	// Acceptable combinations that should return EPERM.
	emulator.ExpectErrno(
	EPERM, FakeSyscall(__NR_socketpair, AF_UNIX, SOCK_STREAM, 0, kFakeSV));
	emulator.ExpectErrno(
	EPERM, FakeSyscall(__NR_socketpair, AF_UNIX, SOCK_DGRAM, 0, kFakeSV));

	// Combinations that are invalid for only one reason; should return EINVAL.
	emulator.ExpectErrno(
	EINVAL, FakeSyscall(__NR_socketpair, AF_INET, SOCK_STREAM, 0, kFakeSV));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_socketpair, AF_UNIX,
	SOCK_SEQPACKET, 0, kFakeSV));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_socketpair, AF_UNIX,
	SOCK_STREAM, IPPROTO_TCP, kFakeSV));

	// Completely unacceptable combination; should also return EINVAL.
	emulator.ExpectErrno(
	EINVAL, FakeSyscall(__NR_socketpair, AF_INET, SOCK_SEQPACKET, IPPROTO_UDP,
	kFakeSV));
	}
	#endif // !ARCH_CPU_X86

	class MoreBooleanLogicPolicy : public Policy {
	public:
	MoreBooleanLogicPolicy() {}
	~MoreBooleanLogicPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_setresuid) {
	const Arg<uid_t> ruid(0), euid(1), suid(2);
	return If(AnyOf(ruid == 0, euid == 0, suid == 0), Error(EPERM))
	.ElseIf(AllOf(ruid == 1, euid == 1, suid == 1), Error(EAGAIN))
	.Else(Error(EINVAL));
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(MoreBooleanLogicPolicy);
	};

	TEST(BPFDSL, MoreBooleanLogic) {
	PolicyEmulator emulator(golden::kMoreBooleanLogicPolicy,
	MoreBooleanLogicPolicy());

	// Expect EPERM if any set to 0.
	emulator.ExpectErrno(EPERM, FakeSyscall(__NR_setresuid, 0, 5, 5));
	emulator.ExpectErrno(EPERM, FakeSyscall(__NR_setresuid, 5, 0, 5));
	emulator.ExpectErrno(EPERM, FakeSyscall(__NR_setresuid, 5, 5, 0));

	// Expect EAGAIN if all set to 1.
	emulator.ExpectErrno(EAGAIN, FakeSyscall(__NR_setresuid, 1, 1, 1));

	// Expect EINVAL for anything else.
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 5, 1, 1));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 1, 5, 1));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 1, 1, 5));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setresuid, 3, 4, 5));
	}

	static const uintptr_t kDeadBeefAddr =
	static_cast<uintptr_t>(0xdeadbeefdeadbeefULL);

	class ArgSizePolicy : public Policy {
	public:
	ArgSizePolicy() {}
	~ArgSizePolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_uname) {
	const Arg<uintptr_t> addr(0);
	return If(addr == kDeadBeefAddr, Error(EPERM)).Else(Allow());
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(ArgSizePolicy);
	};

	TEST(BPFDSL, ArgSizeTest) {
	PolicyEmulator emulator(golden::kArgSizePolicy, ArgSizePolicy());

	emulator.ExpectAllow(FakeSyscall(__NR_uname, 0));
	emulator.ExpectErrno(EPERM, FakeSyscall(__NR_uname, kDeadBeefAddr));
	}

	class NegativeConstantsPolicy : public Policy {
	public:
	NegativeConstantsPolicy() {}
	~NegativeConstantsPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_fcntl) {
	const Arg<int> fd(0);
	return If(fd == -314, Error(EPERM)).Else(Allow());
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(NegativeConstantsPolicy);
	};

	TEST(BPFDSL, NegativeConstantsTest) {
	PolicyEmulator emulator(golden::kNegativeConstantsPolicy,
	NegativeConstantsPolicy());

	emulator.ExpectAllow(FakeSyscall(__NR_fcntl, -5, F_DUPFD));
	emulator.ExpectAllow(FakeSyscall(__NR_fcntl, 20, F_DUPFD));
	emulator.ExpectErrno(EPERM, FakeSyscall(__NR_fcntl, -314, F_DUPFD));
	}

	#if 0
	// TODO(mdempsky): This is really an integration test.

	class TrappingPolicy : public Policy {
	public:
	TrappingPolicy() {}
	~TrappingPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_uname) {
	return Trap(UnameTrap, &count_);
	}
	return Allow();
	}

	private:
	static intptr_t count_;

	static intptr_t UnameTrap(const struct arch_seccomp_data& data, void* aux) {
	BPF_ASSERT_EQ(&count_, aux);
	return ++count_;
	}

	DISALLOW_COPY_AND_ASSIGN(TrappingPolicy);
	};

	intptr_t TrappingPolicy::count_;

	BPF_TEST_C(BPFDSL, TrapTest, TrappingPolicy) {
	ASSERT_SYSCALL_RESULT(1, uname, NULL);
	ASSERT_SYSCALL_RESULT(2, uname, NULL);
	ASSERT_SYSCALL_RESULT(3, uname, NULL);
	}
	#endif

	class MaskingPolicy : public Policy {
	public:
	MaskingPolicy() {}
	~MaskingPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_setuid) {
	const Arg<uid_t> uid(0);
	return If((uid & 0xf) == 0, Error(EINVAL)).Else(Error(EACCES));
	}
	if (sysno == __NR_setgid) {
	const Arg<gid_t> gid(0);
	return If((gid & 0xf0) == 0xf0, Error(EINVAL)).Else(Error(EACCES));
	}
	if (sysno == __NR_setpgid) {
	const Arg<pid_t> pid(0);
	return If((pid & 0xa5) == 0xa0, Error(EINVAL)).Else(Error(EACCES));
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(MaskingPolicy);
	};

	TEST(BPFDSL, MaskTest) {
	PolicyEmulator emulator(golden::kMaskingPolicy, MaskingPolicy());

	for (uid_t uid = 0; uid < 0x100; ++uid) {
	const int expect_errno = (uid & 0xf) == 0 ? EINVAL : EACCES;
	emulator.ExpectErrno(expect_errno, FakeSyscall(__NR_setuid, uid));
	}

	for (gid_t gid = 0; gid < 0x100; ++gid) {
	const int expect_errno = (gid & 0xf0) == 0xf0 ? EINVAL : EACCES;
	emulator.ExpectErrno(expect_errno, FakeSyscall(__NR_setgid, gid));
	}

	for (pid_t pid = 0; pid < 0x100; ++pid) {
	const int expect_errno = (pid & 0xa5) == 0xa0 ? EINVAL : EACCES;
	emulator.ExpectErrno(expect_errno, FakeSyscall(__NR_setpgid, pid, 0));
	}
	}

	class ElseIfPolicy : public Policy {
	public:
	ElseIfPolicy() {}
	~ElseIfPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_setuid) {
	const Arg<uid_t> uid(0);
	return If((uid & 0xfff) == 0, Error(0))
	.ElseIf((uid & 0xff0) == 0, Error(EINVAL))
	.ElseIf((uid & 0xf00) == 0, Error(EEXIST))
	.Else(Error(EACCES));
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(ElseIfPolicy);
	};

	TEST(BPFDSL, ElseIfTest) {
	PolicyEmulator emulator(golden::kElseIfPolicy, ElseIfPolicy());

	emulator.ExpectErrno(0, FakeSyscall(__NR_setuid, 0));

	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setuid, 0x0001));
	emulator.ExpectErrno(EINVAL, FakeSyscall(__NR_setuid, 0x0002));

	emulator.ExpectErrno(EEXIST, FakeSyscall(__NR_setuid, 0x0011));
	emulator.ExpectErrno(EEXIST, FakeSyscall(__NR_setuid, 0x0022));

	emulator.ExpectErrno(EACCES, FakeSyscall(__NR_setuid, 0x0111));
	emulator.ExpectErrno(EACCES, FakeSyscall(__NR_setuid, 0x0222));
	}

	class SwitchPolicy : public Policy {
	public:
	SwitchPolicy() {}
	~SwitchPolicy() override {}
	ResultExpr EvaluateSyscall(int sysno) const override {
	if (sysno == __NR_fcntl) {
	const Arg<int> cmd(1);
	const Arg<unsigned long> long_arg(2);
	return Switch(cmd)
	.CASES((F_GETFL, F_GETFD), Error(ENOENT))
	.Case(F_SETFD, If(long_arg == O_CLOEXEC, Allow()).Else(Error(EINVAL)))
	.Case(F_SETFL, Error(EPERM))
	.Default(Error(EACCES));
	}
	return Allow();
	}

	private:
	DISALLOW_COPY_AND_ASSIGN(SwitchPolicy);
	};

	TEST(BPFDSL, SwitchTest) {
	PolicyEmulator emulator(golden::kSwitchPolicy, SwitchPolicy());

	const int kFakeSockFD = 42;

	emulator.ExpectErrno(ENOENT, FakeSyscall(__NR_fcntl, kFakeSockFD, F_GETFD));
	emulator.ExpectErrno(ENOENT, FakeSyscall(__NR_fcntl, kFakeSockFD, F_GETFL));

	emulator.ExpectAllow(
	FakeSyscall(__NR_fcntl, kFakeSockFD, F_SETFD, O_CLOEXEC));
	emulator.ExpectErrno(EINVAL,
	FakeSyscall(__NR_fcntl, kFakeSockFD, F_SETFD, 0));

	emulator.ExpectErrno(EPERM,
	FakeSyscall(__NR_fcntl, kFakeSockFD, F_SETFL, O_RDONLY));

	emulator.ExpectErrno(EACCES,
	FakeSyscall(__NR_fcntl, kFakeSockFD, F_DUPFD, 0));
	}

	static intptr_t DummyTrap(const struct arch_seccomp_data& data, void* aux) {
	return 0;
	}

	TEST(BPFDSL, IsAllowDeny) {
	ResultExpr allow = Allow();
	EXPECT_TRUE(allow->IsAllow());
	EXPECT_FALSE(allow->IsDeny());

	ResultExpr error = Error(ENOENT);
	EXPECT_FALSE(error->IsAllow());
	EXPECT_TRUE(error->IsDeny());

	ResultExpr trace = Trace(42);
	EXPECT_FALSE(trace->IsAllow());
	EXPECT_FALSE(trace->IsDeny());

	ResultExpr trap = Trap(DummyTrap, nullptr);
	EXPECT_FALSE(trap->IsAllow());
	EXPECT_TRUE(trap->IsDeny());

	const Arg<int> arg(0);
	ResultExpr maybe = If(arg == 0, Allow()).Else(Error(EPERM));
	EXPECT_FALSE(maybe->IsAllow());
	EXPECT_FALSE(maybe->IsDeny());
	}

	TEST(BPFDSL, HasUnsafeTraps) {
	ResultExpr allow = Allow();
	EXPECT_FALSE(allow->HasUnsafeTraps());

	ResultExpr safe = Trap(DummyTrap, nullptr);
	EXPECT_FALSE(safe->HasUnsafeTraps());

	ResultExpr unsafe = UnsafeTrap(DummyTrap, nullptr);
	EXPECT_TRUE(unsafe->HasUnsafeTraps());

	const Arg<int> arg(0);
	ResultExpr maybe = If(arg == 0, allow).Else(unsafe);
	EXPECT_TRUE(maybe->HasUnsafeTraps());
	}

	} // namespace
	} // namespace bpf_dsl
	} // namespace sandbox