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Difference between revisions of "intel/management engine"
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(Implementations: typo)
(Vulnerabilities)
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== Vulnerabilities ==
 
== Vulnerabilities ==
* {{cve|CVE-2017-5689}}
+
* CVE-2016-8224
 +
* CVE-2017-5689
 +
* CVE-2017-5698
 +
* CVE-2017-5705
 +
* CVE-2017-5706
 +
* CVE-2017-5707
 +
* CVE-2017-5708
 +
* CVE-2017-5709
 +
* CVE-2017-5710
 +
* CVE-2017-5711
 +
* CVE-2017-5712
 +
* CVE-2018-3627
 +
* CVE-2018-3628
 +
* CVE-2018-3629
 +
* CVE-2018-3632
  
 
== Secure Coprocessors ==
 
== Secure Coprocessors ==

Revision as of 05:32, 23 July 2018

Management Engine or Manageability Engine (ME or IME) is a tiny microcontroller coprocessor integrated within all Intel's own chipsets that provide the necessary functionality needed for remote corporate asset management, Boot Guard, SGX EPID provisioning and attestation services, platform trust technology (PTT), anti-theft (AT) technology, and protected audio visual path (PAVP) services. ME was originally introduced into the chipset in 2006 and has been present on all Intel mainstream mobile and desktop products ever since.

Overview

Intel's Management Engine (ME or IME) is a coprocessor implemented as a dedicated microcontroller embedded into the same die as the chipset. ME provides all the necessary functionality needed to provide many of Intel's advanced security and many of the root of trust services. ME was originally integrated into the MCH as bar of Intel's 965 Express chipset which were introduced back in June 2006. Since the 2009, with the introduction of the Core family, ME can be found in all PCHs, meaning it is present on all Intel embedded, mobile, and desktop parts.

Implementations

ME Chipset Series µarch Hardware
1.x 32-bit ARC ARCtangent-A4 MCU
2.x
3.x
4.x
5.x
SEC/TXE Bay Trail (SoC) Silvermont 32-bit SPARC V8 MCU
6.x Ibex Peak 5 Nehalem 32-bit ARC MCU
7.x Cougar Point 6 Sandy Bridge
8.x Panther Point 7 Ivy Bridge
9.x Lynx Point 8 Haswell
10.x Wildcat Point 9 Broadwell
11.x Sunrise Point 100 Skylake 32-bit Quark x86 MCU
11.x Union Point 200 Kaby Lake
11.x  ? 300 Coffee Lake

Mechanism

ME is an independent coprocessor, relying on just itself. ME shares the flash with the BIOS, but is otherwise independent. ME can remain active during power off, idle states, and reboots of the main processor. ME has a dedicated connection to the network interface, in theory allowing it to intercept, send, and receive data without the processor's knowledge (or any software/OS knowledge).

Current Mechanism

For modern systems, Intel has switched to using their own x86 Quark microcontroller.

Historical Mechanism

intel management engine.png

Originally, ME was a 32-bit ARCompact microcontroller running ThreadX, a read-time OS. The firmware that was running was developed internally by Intel and provided key management support, access control, and other administrative services. The MCU supported SRAM and DRAM that is isolated from the host processor. Persistent data was stored in flash memory which was accessible by the SPI bus which stored things such as Intel's AT-d metadata. Data is encrypted in AES-CTR mode using the platform container key (PCK).

ME was connected to both the host driver through an internal bus called the Host Embedded Controller Interface (HECI) . HECI is bidirectional bus that offers a direct line of communication between the Management Engine and the host OS. ME can also control various aspects of the Virtualization Engine directly over the ME Command Interface (MECI). ME also has access to the on-board network interface devices and Intel noted that ME has access to those interfaces even when the system is in low-power states and Sleep mode. Network resources are shared between the ME and the host OS without the host OS ever being aware of this (although Intel stated that some special monitoring tools can be used to detect it).

intel management engine services.png

Intel's Management Engine runs modular firmware designed to provide a large number of services. Modules that share a large number of common functions are called ME Common Services (CS) modules. Originally those consisted of three major modules:

  • Networking Services - Full support TCP/IP stack for both IPv4 and IPv6, TLS, and HTTP. Support for Simple Object Access Protocol (SOAP), Web Services for Management (WS-MAN), and a host-based TLS interface called aLocal Manageability Service (LMS)
  • Security Services - Support for secure time, auditing, HTTP digest and Kerberos user authentication, domain authorization (e.g., Microsoft Active Directory)
  • Provisioning Services - Support for two modes: "Zero Touch", and "One Touch". In zero touch, well-known certificate authority keys can be used to validate IT credentials automagically and take ownership. This is done through firmware-embedded certificate anchor keys for well-known certificate authority. In one touch, organization must configure their own certificates, symmetric keys, and trusted hosts that can then be used to complete deployment remotely.

Note that for the networking services, for IPv4, the host OS shares the same network address with the Intel ME. For IPv6, the Intel ME actually has its own address that is not shared with the host.

Vulnerabilities

  • CVE-2016-8224
  • CVE-2017-5689
  • CVE-2017-5698
  • CVE-2017-5705
  • CVE-2017-5706
  • CVE-2017-5707
  • CVE-2017-5708
  • CVE-2017-5709
  • CVE-2017-5710
  • CVE-2017-5711
  • CVE-2017-5712
  • CVE-2018-3627
  • CVE-2018-3628
  • CVE-2018-3629
  • CVE-2018-3632

Secure Coprocessors

See also

References