content/common/sandbox_linux/sandbox_linux.h - chromium/src - Git at Google

 // Copyright (c) 2012 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.

 #ifndef CONTENT_COMMON_SANDBOX_LINUX_SANDBOX_LINUX_H_
 #define CONTENT_COMMON_SANDBOX_LINUX_SANDBOX_LINUX_H_

 #include <memory>
 #include <string>
 #include <vector>

 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/posix/global_descriptors.h"
 #include "content/common/sandbox_linux/sandbox_seccomp_bpf_linux.h"
 #include "content/public/common/sandbox_linux.h"
 #include "services/service_manager/sandbox/sandbox_type.h"

 #if defined(ADDRESS_SANITIZER) || defined(MEMORY_SANITIZER) || \
     defined(THREAD_SANITIZER) || defined(LEAK_SANITIZER) || \
     defined(UNDEFINED_SANITIZER) || defined(SANITIZER_COVERAGE)
 #include <sanitizer/common_interface_defs.h>
 #define ANY_OF_AMTLU_SANITIZER 1
 #endif

 namespace base {
 template <typename T>
 struct DefaultSingletonTraits;
 class Thread;
 }
 namespace sandbox { class SetuidSandboxClient; }

 namespace content {

 // A singleton class to represent and change our sandboxing state for the
 // three main Linux sandboxes.
 // The sandboxing model allows using two layers of sandboxing. The first layer
 // can be implemented either with unprivileged namespaces or with the setuid
 // sandbox. This class provides a way to engage the namespace sandbox, but does
 // not deal with the legacy setuid sandbox directly.
 // The second layer is mainly based on seccomp-bpf and is engaged with
 // InitializeSandbox(). InitializeSandbox() is also responsible for "sealing"
 // the first layer of sandboxing. That is, InitializeSandbox must always be
 // called to have any meaningful sandboxing at all.
 class LinuxSandbox {
  public:
   // This is a list of sandbox IPC methods which the renderer may send to the
   // sandbox host. See https://chromium.googlesource.com/chromium/src/+/master/docs/linux_sandbox_ipc.md
   // This isn't the full list, values < 32 are reserved for methods called from
   // Skia.
   enum LinuxSandboxIPCMethods {
     METHOD_GET_FALLBACK_FONT_FOR_CHAR = 32,
     METHOD_LOCALTIME = 33,
     DEPRECATED_METHOD_GET_CHILD_WITH_INODE = 34,
     METHOD_GET_STYLE_FOR_STRIKE = 35,
     METHOD_MAKE_SHARED_MEMORY_SEGMENT = 36,
     METHOD_MATCH_WITH_FALLBACK = 37,
   };

   // Get our singleton instance.
   static LinuxSandbox* GetInstance();

   // Do some initialization that can only be done before any of the sandboxes
   // are enabled. If using the setuid sandbox, this should be called manually
   // before the setuid sandbox is engaged.
   // Security: When this runs, it is imperative that either InitializeSandbox()
   // runs as well or that all file descriptors returned in
   // GetFileDescriptorsToClose() get closed.
   // Otherwise file descriptors that bypass the security of the setuid sandbox
   // would be kept open. One must be particularly careful if a process performs
   // a fork().
   void PreinitializeSandbox();

   // Check that the current process is the init process of a new PID
   // namespace and then proceed to drop access to the file system by using
   // a new unprivileged namespace. This is a layer-1 sandbox.
   // In order for this sandbox to be effective, it must be "sealed" by calling
   // InitializeSandbox().
   void EngageNamespaceSandbox();

   // Return a list of file descriptors to close if PreinitializeSandbox() ran
   // but InitializeSandbox() won't. Avoid using.
   // TODO(jln): get rid of this hack.
   std::vector<int> GetFileDescriptorsToClose();

   // Seal an eventual layer-1 sandbox and initialize the layer-2 sandbox with
   // an adequate policy depending on the process type and command line
   // arguments.
   // Currently the layer-2 sandbox is composed of seccomp-bpf and address space
   // limitations. This will instantiate the LinuxSandbox singleton if it
   // doesn't already exist.
   // This function should only be called without any thread running.
   static bool InitializeSandbox(SandboxSeccompBPF::PreSandboxHook hook,
                                 const SandboxSeccompBPF::Options& options);

   // Stop |thread| in a way that can be trusted by the sandbox.
   static void StopThread(base::Thread* thread);

   // Returns the status of the renderer, worker and ppapi sandbox. Can only
   // be queried after going through PreinitializeSandbox(). This is a bitmask
   // and uses the constants defined in "enum LinuxSandboxStatus". Since the
   // status needs to be provided before the sandboxes are actually started,
   // this returns what will actually happen once InitializeSandbox()
   // is called from inside these processes.
   int GetStatus();
   // Returns true if the current process is single-threaded or if the number
   // of threads cannot be determined.
   bool IsSingleThreaded() const;
   // Did we start Seccomp BPF?
   bool seccomp_bpf_started() const;

   // Simple accessor for our instance of the setuid sandbox. Will never return
   // NULL.
   // There is no StartSetuidSandbox(), the SetuidSandboxClient instance should
   // be used directly.
   sandbox::SetuidSandboxClient* setuid_sandbox_client() const;

   // Check the policy and eventually start the seccomp-bpf sandbox. This should
   // never be called with threads started. If we detect that threads have
   // started we will crash.
   bool StartSeccompBPF(service_manager::SandboxType sandbox_type,
                        SandboxSeccompBPF::PreSandboxHook hook,
                        const SandboxSeccompBPF::Options& options);

   // Limit the address space of the current process (and its children).
   // to make some vulnerabilities harder to exploit.
   bool LimitAddressSpace(const std::string& process_type,
                          const SandboxSeccompBPF::Options& options);

   // Returns a file descriptor to proc. The file descriptor is no longer valid
   // after the sandbox has been sealed.
   int proc_fd() const {
     DCHECK_NE(-1, proc_fd_);
     return proc_fd_;
   }

 #if defined(ANY_OF_AMTLU_SANITIZER)
   __sanitizer_sandbox_arguments* sanitizer_args() const {
     return sanitizer_args_.get();
   };
 #endif

  private:
   friend struct base::DefaultSingletonTraits<LinuxSandbox>;

   LinuxSandbox();
   ~LinuxSandbox();

   // Some methods are static and get an instance of the Singleton. These
   // are the non-static implementations.
   bool InitializeSandboxImpl(SandboxSeccompBPF::PreSandboxHook hook,
                              const SandboxSeccompBPF::Options& options);
   void StopThreadImpl(base::Thread* thread);
   // We must have been pre_initialized_ before using these.
   bool seccomp_bpf_supported() const;
   bool seccomp_bpf_with_tsync_supported() const;
   // Returns true if it can be determined that the current process has open
   // directories that are not managed by the LinuxSandbox class. This would
   // be a vulnerability as it would allow to bypass the setuid sandbox.
   bool HasOpenDirectories() const;
   // The last part of the initialization is to make sure any temporary "hole"
   // in the sandbox is closed. For now, this consists of closing proc_fd_.
   void SealSandbox();
   // GetStatus() makes promises as to how the sandbox will behave. This
   // checks that no promises have been broken.
   void CheckForBrokenPromises(service_manager::SandboxType sandbox_type);
   // Stop |thread| and make sure it does not appear in /proc/self/tasks/
   // anymore.
   void StopThreadAndEnsureNotCounted(base::Thread* thread) const;

   // A file descriptor to /proc. It's dangerous to have it around as it could
   // allow for sandbox bypasses. It needs to be closed before we consider
   // ourselves sandboxed.
   int proc_fd_;
   bool seccomp_bpf_started_;
   // The value returned by GetStatus(). Gets computed once and then cached.
   int sandbox_status_flags_;
   // Did PreinitializeSandbox() run?
   bool pre_initialized_;
   bool seccomp_bpf_supported_;  // Accurate if pre_initialized_.
   bool seccomp_bpf_with_tsync_supported_;  // Accurate if pre_initialized_.
   bool yama_is_enforcing_;  // Accurate if pre_initialized_.
   bool initialize_sandbox_ran_;  // InitializeSandbox() was called.
   std::unique_ptr<sandbox::SetuidSandboxClient> setuid_sandbox_client_;
 #if defined(ANY_OF_AMTLU_SANITIZER)
   std::unique_ptr<__sanitizer_sandbox_arguments> sanitizer_args_;
 #endif

   DISALLOW_COPY_AND_ASSIGN(LinuxSandbox);
 };

 }  // namespace content

 #endif  // CONTENT_COMMON_SANDBOX_LINUX_SANDBOX_LINUX_H_
	// Copyright (c) 2012 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.

	#ifndef CONTENT_COMMON_SANDBOX_LINUX_SANDBOX_LINUX_H_
	#define CONTENT_COMMON_SANDBOX_LINUX_SANDBOX_LINUX_H_

	#include <memory>
	#include <string>
	#include <vector>

	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/posix/global_descriptors.h"
	#include "content/common/sandbox_linux/sandbox_seccomp_bpf_linux.h"
	#include "content/public/common/sandbox_linux.h"
	#include "services/service_manager/sandbox/sandbox_type.h"

	#if defined(ADDRESS_SANITIZER) \|\| defined(MEMORY_SANITIZER) \|\| \
	defined(THREAD_SANITIZER) \|\| defined(LEAK_SANITIZER) \|\| \
	defined(UNDEFINED_SANITIZER) \|\| defined(SANITIZER_COVERAGE)
	#include <sanitizer/common_interface_defs.h>
	#define ANY_OF_AMTLU_SANITIZER 1
	#endif

	namespace base {
	template <typename T>
	struct DefaultSingletonTraits;
	class Thread;
	}
	namespace sandbox { class SetuidSandboxClient; }

	namespace content {

	// A singleton class to represent and change our sandboxing state for the
	// three main Linux sandboxes.
	// The sandboxing model allows using two layers of sandboxing. The first layer
	// can be implemented either with unprivileged namespaces or with the setuid
	// sandbox. This class provides a way to engage the namespace sandbox, but does
	// not deal with the legacy setuid sandbox directly.
	// The second layer is mainly based on seccomp-bpf and is engaged with
	// InitializeSandbox(). InitializeSandbox() is also responsible for "sealing"
	// the first layer of sandboxing. That is, InitializeSandbox must always be
	// called to have any meaningful sandboxing at all.
	class LinuxSandbox {
	public:
	// This is a list of sandbox IPC methods which the renderer may send to the
	// sandbox host. See https://chromium.googlesource.com/chromium/src/+/master/docs/linux_sandbox_ipc.md
	// This isn't the full list, values < 32 are reserved for methods called from
	// Skia.
	enum LinuxSandboxIPCMethods {
	METHOD_GET_FALLBACK_FONT_FOR_CHAR = 32,
	METHOD_LOCALTIME = 33,
	DEPRECATED_METHOD_GET_CHILD_WITH_INODE = 34,
	METHOD_GET_STYLE_FOR_STRIKE = 35,
	METHOD_MAKE_SHARED_MEMORY_SEGMENT = 36,
	METHOD_MATCH_WITH_FALLBACK = 37,
	};

	// Get our singleton instance.
	static LinuxSandbox* GetInstance();

	// Do some initialization that can only be done before any of the sandboxes
	// are enabled. If using the setuid sandbox, this should be called manually
	// before the setuid sandbox is engaged.
	// Security: When this runs, it is imperative that either InitializeSandbox()
	// runs as well or that all file descriptors returned in
	// GetFileDescriptorsToClose() get closed.
	// Otherwise file descriptors that bypass the security of the setuid sandbox
	// would be kept open. One must be particularly careful if a process performs
	// a fork().
	void PreinitializeSandbox();

	// Check that the current process is the init process of a new PID
	// namespace and then proceed to drop access to the file system by using
	// a new unprivileged namespace. This is a layer-1 sandbox.
	// In order for this sandbox to be effective, it must be "sealed" by calling
	// InitializeSandbox().
	void EngageNamespaceSandbox();

	// Return a list of file descriptors to close if PreinitializeSandbox() ran
	// but InitializeSandbox() won't. Avoid using.
	// TODO(jln): get rid of this hack.
	std::vector<int> GetFileDescriptorsToClose();

	// Seal an eventual layer-1 sandbox and initialize the layer-2 sandbox with
	// an adequate policy depending on the process type and command line
	// arguments.
	// Currently the layer-2 sandbox is composed of seccomp-bpf and address space
	// limitations. This will instantiate the LinuxSandbox singleton if it
	// doesn't already exist.
	// This function should only be called without any thread running.
	static bool InitializeSandbox(SandboxSeccompBPF::PreSandboxHook hook,
	const SandboxSeccompBPF::Options& options);

	// Stop \|thread\| in a way that can be trusted by the sandbox.
	static void StopThread(base::Thread* thread);

	// Returns the status of the renderer, worker and ppapi sandbox. Can only
	// be queried after going through PreinitializeSandbox(). This is a bitmask
	// and uses the constants defined in "enum LinuxSandboxStatus". Since the
	// status needs to be provided before the sandboxes are actually started,
	// this returns what will actually happen once InitializeSandbox()
	// is called from inside these processes.
	int GetStatus();
	// Returns true if the current process is single-threaded or if the number
	// of threads cannot be determined.
	bool IsSingleThreaded() const;
	// Did we start Seccomp BPF?
	bool seccomp_bpf_started() const;

	// Simple accessor for our instance of the setuid sandbox. Will never return
	// NULL.
	// There is no StartSetuidSandbox(), the SetuidSandboxClient instance should
	// be used directly.
	sandbox::SetuidSandboxClient* setuid_sandbox_client() const;

	// Check the policy and eventually start the seccomp-bpf sandbox. This should
	// never be called with threads started. If we detect that threads have
	// started we will crash.
	bool StartSeccompBPF(service_manager::SandboxType sandbox_type,
	SandboxSeccompBPF::PreSandboxHook hook,
	const SandboxSeccompBPF::Options& options);

	// Limit the address space of the current process (and its children).
	// to make some vulnerabilities harder to exploit.
	bool LimitAddressSpace(const std::string& process_type,
	const SandboxSeccompBPF::Options& options);

	// Returns a file descriptor to proc. The file descriptor is no longer valid
	// after the sandbox has been sealed.
	int proc_fd() const {
	DCHECK_NE(-1, proc_fd_);
	return proc_fd_;
	}

	#if defined(ANY_OF_AMTLU_SANITIZER)
	__sanitizer_sandbox_arguments* sanitizer_args() const {
	return sanitizer_args_.get();
	};
	#endif

	private:
	friend struct base::DefaultSingletonTraits<LinuxSandbox>;

	LinuxSandbox();
	~LinuxSandbox();

	// Some methods are static and get an instance of the Singleton. These
	// are the non-static implementations.
	bool InitializeSandboxImpl(SandboxSeccompBPF::PreSandboxHook hook,
	const SandboxSeccompBPF::Options& options);
	void StopThreadImpl(base::Thread* thread);
	// We must have been pre_initialized_ before using these.
	bool seccomp_bpf_supported() const;
	bool seccomp_bpf_with_tsync_supported() const;
	// Returns true if it can be determined that the current process has open
	// directories that are not managed by the LinuxSandbox class. This would
	// be a vulnerability as it would allow to bypass the setuid sandbox.
	bool HasOpenDirectories() const;
	// The last part of the initialization is to make sure any temporary "hole"
	// in the sandbox is closed. For now, this consists of closing proc_fd_.
	void SealSandbox();
	// GetStatus() makes promises as to how the sandbox will behave. This
	// checks that no promises have been broken.
	void CheckForBrokenPromises(service_manager::SandboxType sandbox_type);
	// Stop \|thread\| and make sure it does not appear in /proc/self/tasks/
	// anymore.
	void StopThreadAndEnsureNotCounted(base::Thread* thread) const;

	// A file descriptor to /proc. It's dangerous to have it around as it could
	// allow for sandbox bypasses. It needs to be closed before we consider
	// ourselves sandboxed.
	int proc_fd_;
	bool seccomp_bpf_started_;
	// The value returned by GetStatus(). Gets computed once and then cached.
	int sandbox_status_flags_;
	// Did PreinitializeSandbox() run?
	bool pre_initialized_;
	bool seccomp_bpf_supported_; // Accurate if pre_initialized_.
	bool seccomp_bpf_with_tsync_supported_; // Accurate if pre_initialized_.
	bool yama_is_enforcing_; // Accurate if pre_initialized_.
	bool initialize_sandbox_ran_; // InitializeSandbox() was called.
	std::unique_ptr<sandbox::SetuidSandboxClient> setuid_sandbox_client_;
	#if defined(ANY_OF_AMTLU_SANITIZER)
	std::unique_ptr<__sanitizer_sandbox_arguments> sanitizer_args_;
	#endif

	DISALLOW_COPY_AND_ASSIGN(LinuxSandbox);
	};

	} // namespace content

	#endif // CONTENT_COMMON_SANDBOX_LINUX_SANDBOX_LINUX_H_