sandboxed-api/sandboxed_api/sandbox2/policybuilder.h

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// Copyright 2019 Google LLC. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef SANDBOXED_API_SANDBOX2_POLICYBUILDER_H_
#define SANDBOXED_API_SANDBOX2_POLICYBUILDER_H_
#include <linux/filter.h>
#include <cstddef>
#include <functional>
#include <initializer_list>
#include <memory>
#include <set>
#include <string>
#include <tuple>
#include <vector>
#include <glog/logging.h>
#include "absl/base/macros.h"
#include "absl/memory/memory.h"
#include "absl/strings/string_view.h"
#include "sandboxed_api/sandbox2/mounts.h"
#include "sandboxed_api/sandbox2/policy.h"
#include "sandboxed_api/util/statusor.h"
struct bpf_labels;
namespace sandbox2 {
constexpr char kDefaultHostname[] = "sandbox2";
// PolicyBuilder is a helper class to simplify creation of policies. The builder
// uses fluent interface for convenience and increased readability of policies.
//
// To build a policy you simply create a new builder object, call methods on it
// specifying what you want and finally call BuildOrDie() to generate you
// policy.
//
// For instance this would generate a simple policy suitable for binaries doing
// only computations:
//
// std::unique_ptr<Policy> policy =
// PolicyBuilder()
// .AllowRead()
// .AllowWrite()
// .AllowExit()
// .AllowSystemMalloc()
// .BuildOrDie();
//
// Note that operations are executed in the order they are dictated, though in
// most cases this has no influence since the operations themselves commute.
//
// For instance these two policies are equivalent:
//
// auto policy = PolicyBuilder.AllowRead().AllowWrite().BuildOrDie();
// auto policy = PolicyBuilder.AllowWrite().AllowRead().BuildOrDie();
//
// While these two are not:
//
// auto policy = PolicyBuilder.AllowRead().BlockSyscallWithErrno(__NR_read, EIO)
// .BuildOrDie();
// auto policy = PolicyBuilder.BlockSyscallWithErrno(__NR_read, EIO).AllowRead()
// .BuildOrDie();
//
// In fact the first one is equivalent to:
//
// auto policy = PolicyBuilder.AllowRead().BuildOrDie();
//
// If you dislike the chained style, is is also possible to write the first
// example as this:
//
// PolicyBuilder builder;
// builder.AllowRead();
// builder.AllowWrite();
// builder.AllowExit();
// builder.AllowSystemMalloc();
// auto policy = builder.BuildOrDie();
//
// For a more complicated example, see examples/persistent/persistent_sandbox.cc
class PolicyBuilder final {
public:
using BpfInitializer = std::initializer_list<sock_filter>;
using BpfFunc = const std::function<std::vector<sock_filter>(bpf_labels&)>&;
using SyscallInitializer = std::initializer_list<unsigned int>;
// Appends code to allow a specific syscall
PolicyBuilder& AllowSyscall(unsigned int num);
// Appends code to allow a number of syscalls
PolicyBuilder& AllowSyscalls(const std::vector<uint32_t>& nums);
PolicyBuilder& AllowSyscalls(SyscallInitializer nums);
// Appends code to block a specific syscall while setting errno to the error
// given
PolicyBuilder& BlockSyscallWithErrno(unsigned int num, int error);
// Appends code to allow exiting.
// Allows these syscalls:
// - exit
// - exit_group
PolicyBuilder& AllowExit();
// Appends code to allow the scudo version of malloc, free and
// friends. This should be used in conjunction with namespaces. If scudo
// options are passed to the sandboxee through an environment variable, access
// to "/proc/self/environ" will have to be allowed by the policy.
//
// Note: This function is tuned towards the secure scudo allocator. If you are
// using another implementation, this function might not be the most
// suitable.
PolicyBuilder& AllowScudoMalloc();
// Appends code to allow the system-allocator version of malloc, free and
// friends.
//
// Note: This function is tuned towards the malloc implementation in glibc. If
// you are using another implementation, this function might not be the
// most suitable.
PolicyBuilder& AllowSystemMalloc();
// Appends code to allow the tcmalloc version of malloc, free and
// friends.
PolicyBuilder& AllowTcMalloc();
// Allows system calls typically used by the LLVM sanitizers (address
// sanitizer, memory sanitizer, and thread sanitizer). This method is
// intended as a best effort for adding system calls that are common to many
// binaries. It may not be fully inclusive of all potential system calls for
// all binaries.
PolicyBuilder& AllowLlvmSanitizers();
// Appends code to allow mmap. Specifically this allows the mmap2 syscall on
// architectures where this syscalls exist and the mmap syscall on all other
// architectures.
//
// Note: while this function allows the calls, the default policy is run first
// and it has checks for dangerous flags which can create a violation. See
// sandbox2/policy.cc for more details.
PolicyBuilder& AllowMmap();
// Appends code to allow calling futex with the given operation.
PolicyBuilder& AllowFutexOp(int op);
// Appends code to allow opening files or directories. Specifically it allows
// these sycalls:
//
// - open
// - openat
PolicyBuilder& AllowOpen();
// Appends code to allow calling stat, fstat and lstat.
// Allows these sycalls:
// - fstat
// - fstat64
// - fstatat
// - fstatat64
// - fstatfs
// - fstatfs64
// - lstat
// - lstat64
// - newfstatat
// - oldfstat
// - oldlstat
// - oldstat
// - stat
// - stat64
// - statfs
// - statfs64
// - ustat
PolicyBuilder& AllowStat();
// Appends code to the policy to allow reading from file descriptors.
// Allows these sycalls:
// - read
// - readv
// - preadv
// - pread64
PolicyBuilder& AllowRead();
// Appends code to the policy to allow writing to file descriptors.
// Allows these sycalls:
// - write
// - writev
// - pwritev
// - pwrite64
PolicyBuilder& AllowWrite();
// Appends code to allow reading directories.
// Allows these sycalls:
// - getdents
// - getdents64
PolicyBuilder& AllowReaddir();
// Appends code to allow safe calls to fcntl.
// Allows these sycalls:
// - fcntl
// - fcntl64 (on architectures where it exists)
//
// The above are only allowed when the cmd is one of:
// F_GETFD, F_SETFD, F_GETFL, F_SETFL, F_GETLK, F_SETLKW, F_SETLK,
// F_DUPFD, F_DUPFD_CLOEXEC
PolicyBuilder& AllowSafeFcntl();
// Appends code to allow creating new processes.
// Allows these sycalls:
// - fork
// - vfork
// - clone
//
// Note: while this function allows the calls, the default policy is run first
// and it has checks for dangerous flags which can create a violation. See
// sandbox2/policy.cc for more details.
PolicyBuilder& AllowFork();
// Appends code to allow waiting for processes.
// Allows these sycalls:
// - waitpid (on architectures where it exists)
// - wait4
PolicyBuilder& AllowWait();
// Appends code to allow setting up signal handlers, returning from them, etc.
// Allows these sycalls:
// - rt_sigaction
// - rt_sigreturn
// - rt_procmask
// - signal (on architectures where it exists)
// - sigaction (on architectures where it exists)
// - sigreturn (on architectures where it exists)
// - sigprocmask (on architectures where it exists)
PolicyBuilder& AllowHandleSignals();
// Appends code to allow doing the TCGETS ioctl.
// Allows these sycalls:
// - ioctl (when the first argument is TCGETS)
PolicyBuilder& AllowTCGETS();
// Appends code to allow to getting the current time.
// Allows these sycalls:
// - time
// - gettimeofday
// - clock_gettime
PolicyBuilder& AllowTime();
// Appends code to allow sleeping in the current thread.
// Allow these syscalls:
// - clock_nanosleep
// - nanosleep
PolicyBuilder& AllowSleep();
// Appends code to allow getting the uid, euid, gid, etc.
// - getuid + geteuid + getresuid
// - getgid + getegid + getresgid
// - getuid32 + geteuid32 + getresuid32 (on architectures where they exist)
// - getgid32 + getegid32 + getresgid32 (on architectures where they exist)
// - getgroups
PolicyBuilder& AllowGetIDs();
// Appends code to allow getting the pid, ppid and tid.
// Allows these syscalls:
// - getpid
// - getppid
// - gettid
PolicyBuilder& AllowGetPIDs();
// Appends code to allow getting the rlimits.
// Allows these sycalls:
// - getrlimit
// - ugetrlimit (on architectures where it exist)
PolicyBuilder& AllowGetRlimit();
// Appends code to allow setting the rlimits.
// Allows these sycalls:
// - setrlimit
// - usetrlimit (on architectures where it exist)
PolicyBuilder& AllowSetRlimit();
// Appends code to allow reading random bytes.
// Allows these sycalls:
// - getrandom (with no flags or GRND_NONBLOCK)
PolicyBuilder& AllowGetRandom();
// Enables syscalls required to use the logging support enabled via
// Client::SendLogsToSupervisor()
// Allows the following:
// - Writes
// - kill(0, SIGABRT) (for LOG(FATAL))
// - clock_gettime
// - gettid
// - close
//
// If you don't use namespaces you should also add this to your policy:
// - policy->GetFs()->EnableSyscall(__NR_open);
// - policy->GetFs()->AddRegexpToGreyList("/usr/share/zoneinfo/.*");
PolicyBuilder& AllowLogForwarding();
// Enables the syscalls necessary to start a statically linked binary
//
// NOTE: This will call BlockSyscallWithErrno(__NR_readlink, ENOENT). If you
// do not want readlink blocked, put a different call before this call.
//
// The current list of allowed syscalls are below. However you should *not*
// depend on the specifics, as these will change whenever the startup code
// changes.
//
// - uname,
// - brk,
// - set_tid_address,
// - set_robust_list,
// - futex(FUTEX_WAIT_BITSET, ...)
// - rt_sigaction(0x20, ...)
// - rt_sigaction(0x21, ...)
// - rt_sigprocmask(SIG_UNBLOCK, ...)
// - arch_prctl(ARCH_SET_FS)
//
// Additionally it will block calls to readlink.
PolicyBuilder& AllowStaticStartup();
// In addition to syscalls allowed by AllowStaticStartup, also allow reading,
// seeking, mmapping and closing files. It does not allow opening them, as
// the mechanism for doing so depends on whether GetFs-checks are used or not.
PolicyBuilder& AllowDynamicStartup();
// Appends a policy, which will be run on the specified syscall.
// This policy must be written without labels. If you need labels, use the
// next function.
PolicyBuilder& AddPolicyOnSyscall(unsigned int num, BpfInitializer policy);
PolicyBuilder& AddPolicyOnSyscall(unsigned int num,
const std::vector<sock_filter>& policy);
// Appends a policy, which will be run on the specified syscall.
// This policy may use labels.
// Example of how to use it:
// builder.AddPolicyOnSyscall(
// __NR_socket, [](bpf_labels& labels) -> std::vector<sock_filter> {
// return {
// ARG(0), // domain is first argument of socket
// JEQ(AF_UNIX, JUMP(&labels, af_unix)),
// JEQ(AF_NETLINK, JUMP(&labels, af_netlink)),
// KILL,
//
// LABEL(&labels, af_unix),
// ARG(1),
// JEQ(SOCK_STREAM | SOCK_NONBLOCK, ALLOW),
// KILL,
//
// LABEL(&labels, af_netlink),
// ARG(2),
// JEQ(NETLINK_ROUTE, ALLOW),
// };
// });
PolicyBuilder& AddPolicyOnSyscall(unsigned int num, BpfFunc f);
// Appends a policy, which will be run on the specified syscalls.
// This policy must be written without labels.
PolicyBuilder& AddPolicyOnSyscalls(SyscallInitializer nums,
BpfInitializer policy);
PolicyBuilder& AddPolicyOnSyscalls(SyscallInitializer nums,
const std::vector<sock_filter>& policy);
// Appends a policy, which will be run on the specified syscalls.
// This policy may use labels.
PolicyBuilder& AddPolicyOnSyscalls(SyscallInitializer nums, BpfFunc f);
// Equivalent to AddPolicyOnSyscall(mmap_syscall_no, policy), where
// mmap_syscall_no is either __NR_mmap or __NR_mmap2.
PolicyBuilder& AddPolicyOnMmap(BpfInitializer policy);
PolicyBuilder& AddPolicyOnMmap(const std::vector<sock_filter>& policy);
// Equivalent to AddPolicyOnSyscall(mmap_syscall_no, f), where
// mmap_syscall_no is either __NR_mmap or __NR_mmap2.
PolicyBuilder& AddPolicyOnMmap(BpfFunc f);
// Builds the policy returning a unique_ptr to it. This should only be called
// once.
sapi::StatusOr<std::unique_ptr<Policy>> TryBuild();
// Builds the policy returning a unique_ptr to it. This should only be called
// once.
// This function will abort if an error happened in any off the PolicyBuilder
// methods.
std::unique_ptr<Policy> BuildOrDie() { return TryBuild().ValueOrDie(); }
// Adds a bind-mount for a file from outside the namespace to inside. This
// will also create parent directories inside the namespace if needed.
//
// Calling these function will enable use of namespaces.
PolicyBuilder& AddFile(absl::string_view path, bool is_ro = true);
PolicyBuilder& AddFileAt(absl::string_view outside, absl::string_view inside,
bool is_ro = true);
// Best-effort function that adds the libraries and linker required by a
// binary.
//
// This does not add the binary itself, only the libraries it depends on.
//
// This function should work correctly for most binaries, but you might need
// to tweak it in some cases.
//
// This function is safe even for untrusted/potentially malicious binaries.
// It adds libraries only from standard library dirs and ld_library_path.
//
// run `ldd` yourself and use AddFile or AddDirectory.
PolicyBuilder& AddLibrariesForBinary(absl::string_view path,
absl::string_view ld_library_path = {});
// Similar to AddLibrariesForBinary, but binary is specified with an open fd.
PolicyBuilder& AddLibrariesForBinary(int fd,
absl::string_view ld_library_path = {});
// Adds a bind-mount for a directory from outside the namespace to
// inside. This will also create parent directories inside the namespace if
// needed.
//
// Calling these function will enable use of namespaces.
PolicyBuilder& AddDirectory(absl::string_view path, bool is_ro = true);
PolicyBuilder& AddDirectoryAt(absl::string_view outside,
absl::string_view inside, bool is_ro = true);
// Adds a tmpfs inside the namespace. This will also create parent
// directories inside the namespace if needed.
//
// Calling this function will enable use of namespaces.
PolicyBuilder& AddTmpfs(absl::string_view inside,
size_t sz = 4 << 20 /* 4MiB */);
// Allows unrestricted access to the network by *not* creating a network
// namespace. Note that this only disables the network namespace. To actually
// allow networking, you would also need to allow networking syscalls.
// Calling this function will enable use of namespaces.
PolicyBuilder& AllowUnrestrictedNetworking();
// Enables the use of namespaces.
//
// Namespaces are enabled by default.
// This is a no-op.
ABSL_DEPRECATED("Namespaces are enabled by default; no need to call this")
PolicyBuilder& EnableNamespaces() {
CHECK(use_namespaces_) << "Namespaces cannot be both disabled and enabled";
requires_namespaces_ = true;
return *this;
}
// Disables the use of namespaces.
//
// Call in order to use Sandbox2 without namespaces.
// This is not recommended.
PolicyBuilder& DisableNamespaces() {
CHECK(!requires_namespaces_)
<< "Namespaces cannot be both disabled and enabled. You're probably "
"using features that implicitly enable namespaces (SetHostname, "
"AddFile, AddDirectory, AddDataDependency, AddLibrariesForBinary or "
"similar)";
use_namespaces_ = false;
return *this;
}
// Set hostname in the network namespace instead of default "sandbox2".
//
// Calling this function will enable use of namespaces.
// It is an error to also call AllowUnrestrictedNetworking.
PolicyBuilder& SetHostname(absl::string_view hostname);
// Enables/disables stack trace collection on violations.
PolicyBuilder& CollectStacktracesOnViolation(bool enable);
// Enables/disables stack trace collection on signals (e.g. crashes / killed
// from a signal).
PolicyBuilder& CollectStacktracesOnSignal(bool enable);
// Enables/disables stack trace collection on hitting a timeout.
PolicyBuilder& CollectStacktracesOnTimeout(bool enable);
// Enables/disables stack trace collection on getting killed by the sandbox
// monitor / the user.
PolicyBuilder& CollectStacktracesOnKill(bool enable);
// Appends an unconditional ALLOW action for all syscalls.
// Do not use in environment with untrusted code and/or data, ask
// sandbox-team@ first if unsure.
PolicyBuilder& DangerDefaultAllowAll();
// Allows syscalls that are necessary for the NetworkProxyClient
PolicyBuilder& AddNetworkProxyPolicy();
// Allows syscalls that are necessary for the NetworkProxyClient and
// the NetworkProxyHandler
PolicyBuilder& AddNetworkProxyHandlerPolicy();
private:
friend class PolicyBuilderPeer; // For testing
friend class StackTracePeer;
// Allows a limited version of madvise
PolicyBuilder& AllowLimitedMadvise();
PolicyBuilder& SetMounts(Mounts mounts) {
mounts_ = std::move(mounts);
return *this;
}
std::vector<sock_filter> ResolveBpfFunc(BpfFunc f);
static sapi::StatusOr<std::string> ValidateAbsolutePath(
absl::string_view path);
static sapi::StatusOr<std::string> ValidatePath(absl::string_view path);
void StoreDescription(PolicyBuilderDescription* pb_description);
Mounts mounts_;
bool use_namespaces_ = true;
bool requires_namespaces_ = false;
bool allow_unrestricted_networking_ = false;
std::string hostname_ = kDefaultHostname;
bool collect_stacktrace_on_violation_ = true;
bool collect_stacktrace_on_signal_ = true;
bool collect_stacktrace_on_timeout_ = true;
bool collect_stacktrace_on_kill_ = false;
// Seccomp fields
std::vector<sock_filter> user_policy_;
std::set<unsigned int> handled_syscalls_;
// Error handling
sapi::Status last_status_;
bool already_built_ = false;
// This function returns a PolicyBuilder so that we can use it in the status
// macros
PolicyBuilder& SetError(const sapi::Status& status);
};
} // namespace sandbox2
#endif // SANDBOXED_API_SANDBOX2_POLICYBUILDER_H_