Message Signalled Interrupts (MSI) are an alternative

in-band In telecommunications, in-band signaling is the sending of control information within the same band or channel used for data such as voice or video. This is in contrast to out-of-band signaling which is sent over a different channel, or even o ...

method of signalling an

interrupt In digital computers, an interrupt (sometimes referred to as a trap) is a request for the processor to ''interrupt'' currently executing code (when permitted), so that the event can be processed in a timely manner. If the request is accepted, ...

, using special in-band messages to replace traditional out-of-band assertion of dedicated interrupt lines. While more complex to implement in a device, message signalled interrupts have some significant advantages over pin-based out-of-band interrupt signalling. Message signalled interrupts are supported in PCI bus since its version 2.2, and in later available PCI Express bus. Some non-PCI architectures also use message signalled interrupts.

Overview

Traditionally, a device has an interrupt line (pin) which it asserts when it wants to signal an interrupt to the host processing environment. This traditional form of interrupt signalling is an out-of-band form of control signalling since it uses a dedicated path to send such control information, separately from the main data path. MSI replaces those dedicated interrupt lines with in-band signalling, by exchanging special messages that indicate interrupts through the main data path. In particular, MSI allows the device to write a small amount of interrupt-describing data to a special

memory-mapped I/O Memory-mapped I/O (MMIO) and port-mapped I/O (PMIO) are two complementary methods of performing input/output (I/O) between the central processing unit (CPU) and peripheral devices in a computer. An alternative approach is using dedicated I/O pr ...

address, and the chipset then delivers the corresponding interrupt to a processor. A common misconception with MSI is that it allows the device to send data to a processor as part of the interrupt. The data that is sent as part of the memory write transaction is used by the chipset to determine which interrupt to trigger on which processor; that data is not available for the device to communicate additional information to the interrupt handler. As an example, PCI Express does not have separate interrupt pins at all; instead, it uses special in-band messages to allow pin assertion or deassertion to be emulated. Some non-PCI architectures also use MSI; as another example, HP GSC devices do not have interrupt pins and can generate interrupts only by writing directly to the processor's interrupt register in memory space. The

HyperTransport HyperTransport (HT), formerly known as Lightning Data Transport, is a technology for interconnection of computer processors. It is a bidirectional serial/ parallel high-bandwidth, low- latency point-to-point link that was introduced on Apri ...

protocol also supports MSI.

Advantages

While more complex to implement in a device, message signalled interrupts have some significant advantages over pin-based out-of-band interrupt signalling. On the mechanical side, fewer pins makes for a simpler, cheaper, and more reliable connector. While this is no advantage to the standard PCI connector, PCI Express takes advantage of these savings. MSI increases the number of interrupts that are possible. While conventional PCI was limited to four interrupts per card (and, because they were shared among all cards, most are using only one), message signalled interrupts allow dozens of interrupts per card, when that is useful. There is also a slight performance advantage. In software, a pin-based interrupt could

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with a posted write to memory. That is, the PCI device would write data to memory and then send an interrupt to indicate the DMA write was complete. However, a PCI bridge or memory controller might buffer the write in order to not interfere with some other memory use. The interrupt could arrive before the DMA write was complete, and the processor could read stale data from memory. To prevent this race, interrupt handlers were required to read from the device to ensure that the DMA write had finished. This read had a moderate performance penalty. An MSI write cannot pass a DMA write, so the race is eliminated.

MSI types

PCI defines two optional extensions to support Message Signalled Interrupts, MSI and MSI-X. PCI Express defines its own message-based mechanism to emulate legacy PCI interrupts.

MSI

MSI (first defined in PCI 2.2) permits a device to allocate 1, 2, 4, 8, 16 or 32 interrupts. The device is programmed with an address to write to (generally a control register in an interrupt controller), and a 16-bit data word to identify it. The interrupt number is added to the data word to identify the interrupt. Some platforms such as Windows do not use all 32 interrupts but only use up to 16 interrupts.

MSI-X

MSI-X (first defined in PCI 3.0) permits a device to allocate up to 2048 interrupts. The single address used by original MSI was found to be restrictive for some architectures. In particular, it made it difficult to target individual interrupts to different processors, which is helpful in some high-speed networking applications. MSI-X allows a larger number of interrupts and gives each one a separate target address and data word. Devices with MSI-X do not necessarily support 2048 interrupts. Optional features in MSI (64-bit addressing and interrupt masking) are also mandatory with MSI-X.

PCI Express legacy interrupt emulation

PCI Express does not have physical interrupt pins, but emulates the 4 physical interrupt pins of PCI via dedicated PCI Express Messages such as ''Assert_INTA'' and ''Deassert_INTC''. Being message-based (at the PCI Express layer), this mechanism provides some, but not all, of the advantages of the PCI layer MSI mechanism: the 4 virtual pins per device are no longer shared on the bus (although PCI Express controllers may still combine legacy interrupts internally), and interrupt changes no longer inherently suffer from race conditions. PCI Express permits devices to use these legacy interrupt messages, retaining software compatibility with PCI drivers, but they are required to also support MSI or MSI-X in the PCI layer.

x86 systems

On Intel systems, the LAPIC must be enabled for the PCI (and PCI Express) MSI/MSI-X to work, even on uniprocessor (single core) systems.APIC-Based Interrupt Subsystems on Uniprocessor PCs
/ref> In these systems, MSIs are handled by writing the interrupt vector directly into the LAPIC of the processor/core that needs to service the interrupt. The Intel LAPICs of 2009 supported up to 224 MSI-based interrupts. According to a 2009 Intel benchmark using

Linux Linux ( or ) is a family of open-source Unix-like operating systems based on the Linux kernel, an operating system kernel first released on September 17, 1991, by Linus Torvalds. Linux is typically packaged as a Linux distribution, w ...

, using MSI reduced the latency of interrupts by a factor of almost three when compared to I/O APIC delivery.

Operating system support

In the Microsoft family of operating systems,

Windows Vista Windows Vista is a major release of the Windows NT operating system developed by Microsoft. It was the direct successor to Windows XP, which was released five years before, at the time being the longest time span between successive releases of ...

and later versions have support for both MSI and MSI-X. Support was added in the Longhorn development cycle around 2004. MSI is not supported in earlier versions like

Windows XP Windows XP is a major release of Microsoft's Windows NT operating system. It was released to manufacturing on August 24, 2001, and later to retail on October 25, 2001. It is a direct upgrade to its predecessors, Windows 2000 for high-end and ...

Windows Server 2003 Windows Server 2003 is the sixth version of Windows Server operating system produced by Microsoft. It is part of the Windows NT family of operating systems and was released to manufacturing on March 28, 2003 and generally available on April 24, 2 ...

. Solaris Express 6/05 released in 2005 added support for MSI an MSI-X as part of their new

device driver interface In computing, a device driver is a computer program that operates or controls a particular type of Peripheral, device that is attached to a computer or automaton. A driver provides a software Interface (computing), interface to Computer hardware, ...

(DDI) interrupt framework. FreeBSD 6.3 and 7.0 released in 2008 added support for MSI and MSI-X. OpenBSD 5.0 released in 2011 added support for MSI. 6.0 added support for MSI-X.

gained support for MSI and MSI-X around 2003. Linux kernel versions before 2.6.20 are known to have serious bugs and limitations in their implementation of MSI/MSI-X.

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gained support for MSI around 2010. MSI-X support was added later, in 2013.
Haiku commit adding MSI-X support NetBSD 8.0 released in 2018 added support for MSI and MSI-X.

VxWorks VxWorks is a real-time operating system (or RTOS) developed as proprietary software by Wind River Systems, a wholly-owned subsidiary of Aptiv. First released in 1987, VxWorks is designed for use in embedded systems requiring real-time, determi ...

7 supports MSI and MSI-X

References

{{Reflist, 30em

External links

Introduction to Message-Signalled Interrupts - MSDN

Digital electronics Interrupts Peripheral Component Interconnect