sandbox/mac/launchd_interception_server.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/mac/launchd_interception_server.h"

 #include <servers/bootstrap.h>

 #include "base/logging.h"
 #include "base/mac/mach_logging.h"
 #include "sandbox/mac/bootstrap_sandbox.h"
 #include "sandbox/mac/mach_message_server.h"

 namespace sandbox {

 // The buffer size for all launchd messages. This comes from
 // sizeof(union __RequestUnion__vproc_mig_job_subsystem) in launchd, and it
 // is larger than the __ReplyUnion.
 const mach_msg_size_t kBufferSize = 2096;

 LaunchdInterceptionServer::LaunchdInterceptionServer(
     const BootstrapSandbox* sandbox)
     : sandbox_(sandbox),
       sandbox_port_(MACH_PORT_NULL),
       compat_shim_(GetLaunchdCompatibilityShim()) {
 }

 LaunchdInterceptionServer::~LaunchdInterceptionServer() {
 }

 bool LaunchdInterceptionServer::Initialize(mach_port_t server_receive_right) {
   mach_port_t task = mach_task_self();
   kern_return_t kr;

   // Allocate the dummy sandbox port.
   mach_port_t port;
   if ((kr = mach_port_allocate(task, MACH_PORT_RIGHT_RECEIVE, &port)) !=
           KERN_SUCCESS) {
     MACH_LOG(ERROR, kr) << "Failed to allocate dummy sandbox port.";
     return false;
   }
   sandbox_port_.reset(port);
   if ((kr = mach_port_insert_right(task, sandbox_port_, sandbox_port_,
           MACH_MSG_TYPE_MAKE_SEND) != KERN_SUCCESS)) {
     MACH_LOG(ERROR, kr) << "Failed to allocate dummy sandbox port send right.";
     return false;
   }
   sandbox_send_port_.reset(sandbox_port_);

   message_server_.reset(
       new MachMessageServer(this, server_receive_right, kBufferSize));
   return message_server_->Initialize();
 }

 void LaunchdInterceptionServer::DemuxMessage(IPCMessage request) {
   const uint64_t message_id = compat_shim_.ipc_message_get_id(request);
   VLOG(3) << "Incoming message #" << message_id;

   pid_t sender_pid = message_server_->GetMessageSenderPID(request);
   const BootstrapSandboxPolicy* policy =
       sandbox_->PolicyForProcess(sender_pid);
   if (policy == NULL) {
     // No sandbox policy is in place for the sender of this message, which
     // means it came from the unknown. Reject it.
     VLOG(3) << "Message from unknown pid " << sender_pid << " rejected.";
     message_server_->RejectMessage(request, MIG_REMOTE_ERROR);
     return;
   }

   if (message_id == compat_shim_.msg_id_look_up2) {
     // Filter messages sent via bootstrap_look_up to enforce the sandbox policy
     // over the bootstrap namespace.
     HandleLookUp(request, policy);
   } else if (message_id == compat_shim_.msg_id_swap_integer) {
     // Ensure that any vproc_swap_integer requests are safe.
     HandleSwapInteger(request);
   } else {
     // All other messages are not permitted.
     VLOG(1) << "Rejecting unhandled message #" << message_id;
     message_server_->RejectMessage(request, MIG_REMOTE_ERROR);
   }
 }

 void LaunchdInterceptionServer::HandleLookUp(
     IPCMessage request,
     const BootstrapSandboxPolicy* policy) {
   const std::string request_service_name(
       compat_shim_.look_up2_get_request_name(request));
   VLOG(2) << "Incoming look_up2 request for " << request_service_name;

   // Find the Rule for this service. If a named rule is not found, use the
   // default specified by the policy.
   const BootstrapSandboxPolicy::NamedRules::const_iterator it =
       policy->rules.find(request_service_name);
   Rule rule(policy->default_rule);
   if (it != policy->rules.end())
     rule = it->second;

   if (rule.result == POLICY_ALLOW) {
     // This service is explicitly allowed, so this message will not be
     // intercepted by the sandbox.
     VLOG(1) << "Permitting and forwarding look_up2: " << request_service_name;
     ForwardMessage(request);
   } else if (rule.result == POLICY_DENY_ERROR) {
     // The child is not permitted to look up this service. Send a MIG error
     // reply to the client. Returning a NULL or unserviced port for a look up
     // can cause clients to crash or hang.
     VLOG(1) << "Denying look_up2 with MIG error: " << request_service_name;
     message_server_->RejectMessage(request, BOOTSTRAP_UNKNOWN_SERVICE);
   } else if (rule.result == POLICY_DENY_DUMMY_PORT ||
              rule.result == POLICY_SUBSTITUTE_PORT) {
     // The policy result is to deny access to the real service port, replying
     // with a sandboxed port in its stead. Use either the dummy sandbox_port_
     // or the one specified in the policy.
     VLOG(1) << "Intercepting look_up2 with a sandboxed service port: "
             << request_service_name;

     mach_port_t result_port;
     if (rule.result == POLICY_DENY_DUMMY_PORT)
       result_port = sandbox_port_.get();
     else
       result_port = rule.substitute_port;

     IPCMessage reply = message_server_->CreateReply(request);
     compat_shim_.look_up2_fill_reply(reply, result_port);
     // If the message was sent successfully, clear the result_port out of the
     // message so that it is not destroyed at the end of ReceiveMessage. The
     // above-inserted right has been moved out of the process, and destroying
     // the message will unref yet another right.
     if (message_server_->SendReply(reply))
       compat_shim_.look_up2_fill_reply(reply, MACH_PORT_NULL);
   } else {
     NOTREACHED();
   }
 }

 void LaunchdInterceptionServer::HandleSwapInteger(IPCMessage request) {
   // Only allow getting information out of launchd. Do not allow setting
   // values. Two commonly observed values that are retrieved are
   // VPROC_GSK_MGR_PID and VPROC_GSK_TRANSACTIONS_ENABLED.
   if (compat_shim_.swap_integer_is_get_only(request)) {
     VLOG(2) << "Forwarding vproc swap_integer message.";
     ForwardMessage(request);
   } else {
     VLOG(2) << "Rejecting non-read-only swap_integer message.";
     message_server_->RejectMessage(request, BOOTSTRAP_NOT_PRIVILEGED);
   }
 }
 void LaunchdInterceptionServer::ForwardMessage(IPCMessage request) {
   message_server_->ForwardMessage(request, sandbox_->real_bootstrap_port());
 }

 }  // 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/mac/launchd_interception_server.h"

	#include <servers/bootstrap.h>

	#include "base/logging.h"
	#include "base/mac/mach_logging.h"
	#include "sandbox/mac/bootstrap_sandbox.h"
	#include "sandbox/mac/mach_message_server.h"

	namespace sandbox {

	// The buffer size for all launchd messages. This comes from
	// sizeof(union __RequestUnion__vproc_mig_job_subsystem) in launchd, and it
	// is larger than the __ReplyUnion.
	const mach_msg_size_t kBufferSize = 2096;

	LaunchdInterceptionServer::LaunchdInterceptionServer(
	const BootstrapSandbox* sandbox)
	: sandbox_(sandbox),
	sandbox_port_(MACH_PORT_NULL),
	compat_shim_(GetLaunchdCompatibilityShim()) {
	}

	LaunchdInterceptionServer::~LaunchdInterceptionServer() {
	}

	bool LaunchdInterceptionServer::Initialize(mach_port_t server_receive_right) {
	mach_port_t task = mach_task_self();
	kern_return_t kr;

	// Allocate the dummy sandbox port.
	mach_port_t port;
	if ((kr = mach_port_allocate(task, MACH_PORT_RIGHT_RECEIVE, &port)) !=
	KERN_SUCCESS) {
	MACH_LOG(ERROR, kr) << "Failed to allocate dummy sandbox port.";
	return false;
	}
	sandbox_port_.reset(port);
	if ((kr = mach_port_insert_right(task, sandbox_port_, sandbox_port_,
	MACH_MSG_TYPE_MAKE_SEND) != KERN_SUCCESS)) {
	MACH_LOG(ERROR, kr) << "Failed to allocate dummy sandbox port send right.";
	return false;
	}
	sandbox_send_port_.reset(sandbox_port_);

	message_server_.reset(
	new MachMessageServer(this, server_receive_right, kBufferSize));
	return message_server_->Initialize();
	}

	void LaunchdInterceptionServer::DemuxMessage(IPCMessage request) {
	const uint64_t message_id = compat_shim_.ipc_message_get_id(request);
	VLOG(3) << "Incoming message #" << message_id;

	pid_t sender_pid = message_server_->GetMessageSenderPID(request);
	const BootstrapSandboxPolicy* policy =
	sandbox_->PolicyForProcess(sender_pid);
	if (policy == NULL) {
	// No sandbox policy is in place for the sender of this message, which
	// means it came from the unknown. Reject it.
	VLOG(3) << "Message from unknown pid " << sender_pid << " rejected.";
	message_server_->RejectMessage(request, MIG_REMOTE_ERROR);
	return;
	}

	if (message_id == compat_shim_.msg_id_look_up2) {
	// Filter messages sent via bootstrap_look_up to enforce the sandbox policy
	// over the bootstrap namespace.
	HandleLookUp(request, policy);
	} else if (message_id == compat_shim_.msg_id_swap_integer) {
	// Ensure that any vproc_swap_integer requests are safe.
	HandleSwapInteger(request);
	} else {
	// All other messages are not permitted.
	VLOG(1) << "Rejecting unhandled message #" << message_id;
	message_server_->RejectMessage(request, MIG_REMOTE_ERROR);
	}
	}

	void LaunchdInterceptionServer::HandleLookUp(
	IPCMessage request,
	const BootstrapSandboxPolicy* policy) {
	const std::string request_service_name(
	compat_shim_.look_up2_get_request_name(request));
	VLOG(2) << "Incoming look_up2 request for " << request_service_name;

	// Find the Rule for this service. If a named rule is not found, use the
	// default specified by the policy.
	const BootstrapSandboxPolicy::NamedRules::const_iterator it =
	policy->rules.find(request_service_name);
	Rule rule(policy->default_rule);
	if (it != policy->rules.end())
	rule = it->second;

	if (rule.result == POLICY_ALLOW) {
	// This service is explicitly allowed, so this message will not be
	// intercepted by the sandbox.
	VLOG(1) << "Permitting and forwarding look_up2: " << request_service_name;
	ForwardMessage(request);
	} else if (rule.result == POLICY_DENY_ERROR) {
	// The child is not permitted to look up this service. Send a MIG error
	// reply to the client. Returning a NULL or unserviced port for a look up
	// can cause clients to crash or hang.
	VLOG(1) << "Denying look_up2 with MIG error: " << request_service_name;
	message_server_->RejectMessage(request, BOOTSTRAP_UNKNOWN_SERVICE);
	} else if (rule.result == POLICY_DENY_DUMMY_PORT \|\|
	rule.result == POLICY_SUBSTITUTE_PORT) {
	// The policy result is to deny access to the real service port, replying
	// with a sandboxed port in its stead. Use either the dummy sandbox_port_
	// or the one specified in the policy.
	VLOG(1) << "Intercepting look_up2 with a sandboxed service port: "
	<< request_service_name;

	mach_port_t result_port;
	if (rule.result == POLICY_DENY_DUMMY_PORT)
	result_port = sandbox_port_.get();
	else
	result_port = rule.substitute_port;

	IPCMessage reply = message_server_->CreateReply(request);
	compat_shim_.look_up2_fill_reply(reply, result_port);
	// If the message was sent successfully, clear the result_port out of the
	// message so that it is not destroyed at the end of ReceiveMessage. The
	// above-inserted right has been moved out of the process, and destroying
	// the message will unref yet another right.
	if (message_server_->SendReply(reply))
	compat_shim_.look_up2_fill_reply(reply, MACH_PORT_NULL);
	} else {
	NOTREACHED();
	}
	}

	void LaunchdInterceptionServer::HandleSwapInteger(IPCMessage request) {
	// Only allow getting information out of launchd. Do not allow setting
	// values. Two commonly observed values that are retrieved are
	// VPROC_GSK_MGR_PID and VPROC_GSK_TRANSACTIONS_ENABLED.
	if (compat_shim_.swap_integer_is_get_only(request)) {
	VLOG(2) << "Forwarding vproc swap_integer message.";
	ForwardMessage(request);
	} else {
	VLOG(2) << "Rejecting non-read-only swap_integer message.";
	message_server_->RejectMessage(request, BOOTSTRAP_NOT_PRIVILEGED);
	}
	}
	void LaunchdInterceptionServer::ForwardMessage(IPCMessage request) {
	message_server_->ForwardMessage(request, sandbox_->real_bootstrap_port());
	}

	} // namespace sandbox