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author | Randy Dunlap <rdunlap@xenotime.net> | 2005-11-07 12:01:03 +0300 |
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committer | Linus Torvalds <torvalds@g5.osdl.org> | 2005-11-07 18:53:55 +0300 |
commit | 2500e7abc8f606d87b2590f205dac080640b6b04 (patch) | |
tree | bb01a1f147360ef22b9a67e9ba8d552e40441a66 /Documentation/MSI-HOWTO.txt | |
parent | 62a07e6e9e93eda88a6eeb5009fc46d44ca60281 (diff) | |
download | linux-2500e7abc8f606d87b2590f205dac080640b6b04.tar.xz |
[PATCH] Doc/MSI-HOWTO: cleanups
Clean up typos, kernel function interfaces, acronyms, add whitespace,
improve readability.
Signed-off-by: Randy Dunlap <rdunlap@xenotime.net>
Signed-off-by: Andrew Morton <akpm@osdl.org>
Signed-off-by: Linus Torvalds <torvalds@osdl.org>
Diffstat (limited to 'Documentation/MSI-HOWTO.txt')
-rw-r--r-- | Documentation/MSI-HOWTO.txt | 174 |
1 files changed, 91 insertions, 83 deletions
diff --git a/Documentation/MSI-HOWTO.txt b/Documentation/MSI-HOWTO.txt index 63edc5f847c4..3ec6c720b016 100644 --- a/Documentation/MSI-HOWTO.txt +++ b/Documentation/MSI-HOWTO.txt @@ -10,14 +10,22 @@ This guide describes the basics of Message Signaled Interrupts (MSI), the advantages of using MSI over traditional interrupt mechanisms, and how to enable your driver to use MSI or MSI-X. Also included is -a Frequently Asked Questions. +a Frequently Asked Questions (FAQ) section. + +1.1 Terminology + +PCI devices can be single-function or multi-function. In either case, +when this text talks about enabling or disabling MSI on a "device +function," it is referring to one specific PCI device and function and +not to all functions on a PCI device (unless the PCI device has only +one function). 2. Copyright 2003 Intel Corporation 3. What is MSI/MSI-X? Message Signaled Interrupt (MSI), as described in the PCI Local Bus -Specification Revision 2.3 or latest, is an optional feature, and a +Specification Revision 2.3 or later, is an optional feature, and a required feature for PCI Express devices. MSI enables a device function to request service by sending an Inbound Memory Write on its PCI bus to the FSB as a Message Signal Interrupt transaction. Because MSI is @@ -27,7 +35,7 @@ supported. A PCI device that supports MSI must also support pin IRQ assertion interrupt mechanism to provide backward compatibility for systems that -do not support MSI. In Systems, which support MSI, the bus driver is +do not support MSI. In systems which support MSI, the bus driver is responsible for initializing the message address and message data of the device function's MSI/MSI-X capability structure during device initial configuration. @@ -61,17 +69,17 @@ over the MSI capability structure as described below. - MSI and MSI-X both support per-vector masking. Per-vector masking is an optional extension of MSI but a required - feature for MSI-X. Per-vector masking provides the kernel - the ability to mask/unmask MSI when servicing its software - interrupt service routing handler. If per-vector masking is + feature for MSI-X. Per-vector masking provides the kernel the + ability to mask/unmask a single MSI while running its + interrupt service routine. If per-vector masking is not supported, then the device driver should provide the hardware/software synchronization to ensure that the device generates MSI when the driver wants it to do so. 4. Why use MSI? -As a benefit the simplification of board design, MSI allows board -designers to remove out of band interrupt routing. MSI is another +As a benefit to the simplification of board design, MSI allows board +designers to remove out-of-band interrupt routing. MSI is another step towards a legacy-free environment. Due to increasing pressure on chipset and processor packages to @@ -87,7 +95,7 @@ support. As a result, the PCI Express technology requires MSI support for better interrupt performance. Using MSI enables the device functions to support two or more -vectors, which can be configured to target different CPU's to +vectors, which can be configured to target different CPUs to increase scalability. 5. Configuring a driver to use MSI/MSI-X @@ -119,13 +127,13 @@ pci_enable_msi() explicitly. int pci_enable_msi(struct pci_dev *dev) -With this new API, any existing device driver, which like to have -MSI enabled on its device function, must call this API to enable MSI +With this new API, a device driver that wants to have MSI +enabled on its device function must call this API to enable MSI. A successful call will initialize the MSI capability structure with ONE vector, regardless of whether a device function is capable of supporting multiple messages. This vector replaces the -pre-assigned dev->irq with a new MSI vector. To avoid the conflict -of new assigned vector with existing pre-assigned vector requires +pre-assigned dev->irq with a new MSI vector. To avoid a conflict +of the new assigned vector with existing pre-assigned vector requires a device driver to call this API before calling request_irq(). 5.2.2 API pci_disable_msi @@ -137,14 +145,14 @@ when a device driver is unloading. This API restores dev->irq with the pre-assigned IOAPIC vector and switches a device's interrupt mode to PCI pin-irq assertion/INTx emulation mode. -Note that a device driver should always call free_irq() on MSI vector -it has done request_irq() on before calling this API. Failure to do -so results a BUG_ON() and a device will be left with MSI enabled and +Note that a device driver should always call free_irq() on the MSI vector +that it has done request_irq() on before calling this API. Failure to do +so results in a BUG_ON() and a device will be left with MSI enabled and leaks its vector. 5.2.3 MSI mode vs. legacy mode diagram -The below diagram shows the events, which switches the interrupt +The below diagram shows the events which switch the interrupt mode on the MSI-capable device function between MSI mode and PIN-IRQ assertion mode. @@ -155,9 +163,9 @@ PIN-IRQ assertion mode. ------------ pci_disable_msi ------------------------ -Figure 1.0 MSI Mode vs. Legacy Mode +Figure 1. MSI Mode vs. Legacy Mode -In Figure 1.0, a device operates by default in legacy mode. Legacy +In Figure 1, a device operates by default in legacy mode. Legacy in this context means PCI pin-irq assertion or PCI-Express INTx emulation. A successful MSI request (using pci_enable_msi()) switches a device's interrupt mode to MSI mode. A pre-assigned IOAPIC vector @@ -166,11 +174,11 @@ assigned MSI vector will replace dev->irq. To return back to its default mode, a device driver should always call pci_disable_msi() to undo the effect of pci_enable_msi(). Note that a -device driver should always call free_irq() on MSI vector it has done -request_irq() on before calling pci_disable_msi(). Failure to do so -results a BUG_ON() and a device will be left with MSI enabled and +device driver should always call free_irq() on the MSI vector it has +done request_irq() on before calling pci_disable_msi(). Failure to do +so results in a BUG_ON() and a device will be left with MSI enabled and leaks its vector. Otherwise, the PCI subsystem restores a device's -dev->irq with a pre-assigned IOAPIC vector and marks released +dev->irq with a pre-assigned IOAPIC vector and marks the released MSI vector as unused. Once being marked as unused, there is no guarantee that the PCI @@ -178,8 +186,8 @@ subsystem will reserve this MSI vector for a device. Depending on the availability of current PCI vector resources and the number of MSI/MSI-X requests from other drivers, this MSI may be re-assigned. -For the case where the PCI subsystem re-assigned this MSI vector -another driver, a request to switching back to MSI mode may result +For the case where the PCI subsystem re-assigns this MSI vector to +another driver, a request to switch back to MSI mode may result in being assigned a different MSI vector or a failure if no more vectors are available. @@ -208,12 +216,12 @@ Unlike the function pci_enable_msi(), the function pci_enable_msix() does not replace the pre-assigned IOAPIC dev->irq with a new MSI vector because the PCI subsystem writes the 1:1 vector-to-entry mapping into the field vector of each element contained in a second argument. -Note that the pre-assigned IO-APIC dev->irq is valid only if the device -operates in PIN-IRQ assertion mode. In MSI-X mode, any attempt of +Note that the pre-assigned IOAPIC dev->irq is valid only if the device +operates in PIN-IRQ assertion mode. In MSI-X mode, any attempt at using dev->irq by the device driver to request for interrupt service may result unpredictabe behavior. -For each MSI-X vector granted, a device driver is responsible to call +For each MSI-X vector granted, a device driver is responsible for calling other functions like request_irq(), enable_irq(), etc. to enable this vector with its corresponding interrupt service handler. It is a device driver's choice to assign all vectors with the same @@ -224,13 +232,13 @@ service handler. The PCI 3.0 specification has implementation notes that MMIO address space for a device's MSI-X structure should be isolated so that the -software system can set different page for controlling accesses to -the MSI-X structure. The implementation of MSI patch requires the PCI +software system can set different pages for controlling accesses to the +MSI-X structure. The implementation of MSI support requires the PCI subsystem, not a device driver, to maintain full control of the MSI-X -table/MSI-X PBA and MMIO address space of the MSI-X table/MSI-X PBA. -A device driver is prohibited from requesting the MMIO address space -of the MSI-X table/MSI-X PBA. Otherwise, the PCI subsystem will fail -enabling MSI-X on its hardware device when it calls the function +table/MSI-X PBA (Pending Bit Array) and MMIO address space of the MSI-X +table/MSI-X PBA. A device driver is prohibited from requesting the MMIO +address space of the MSI-X table/MSI-X PBA. Otherwise, the PCI subsystem +will fail enabling MSI-X on its hardware device when it calls the function pci_enable_msix(). 5.3.2 Handling MSI-X allocation @@ -274,9 +282,9 @@ For the case where fewer MSI-X vectors are allocated to a function than requested, the function pci_enable_msix() will return the maximum number of MSI-X vectors available to the caller. A device driver may re-send its request with fewer or equal vectors indicated -in a return. For example, if a device driver requests 5 vectors, but -the number of available vectors is 3 vectors, a value of 3 will be a -return as a result of pci_enable_msix() call. A function could be +in the return. For example, if a device driver requests 5 vectors, but +the number of available vectors is 3 vectors, a value of 3 will be +returned as a result of pci_enable_msix() call. A function could be designed for its driver to use only 3 MSI-X table entries as different combinations as ABC--, A-B-C, A--CB, etc. Note that this patch does not support multiple entries with the same vector. Such @@ -285,49 +293,46 @@ as ABBCC, AABCC, BCCBA, etc will result as a failure by the function pci_enable_msix(). Below are the reasons why supporting multiple entries with the same vector is an undesirable solution. - - The PCI subsystem can not determine which entry, which - generated the message, to mask/unmask MSI while handling + - The PCI subsystem cannot determine the entry that + generated the message to mask/unmask MSI while handling software driver ISR. Attempting to walk through all MSI-X table entries (2048 max) to mask/unmask any match vector is an undesirable solution. - - Walk through all MSI-X table entries (2048 max) to handle + - Walking through all MSI-X table entries (2048 max) to handle SMP affinity of any match vector is an undesirable solution. 5.3.4 API pci_enable_msix -int pci_enable_msix(struct pci_dev *dev, u32 *entries, int nvec) +int pci_enable_msix(struct pci_dev *dev, struct msix_entry *entries, int nvec) This API enables a device driver to request the PCI subsystem -for enabling MSI-X messages on its hardware device. Depending on +to enable MSI-X messages on its hardware device. Depending on the availability of PCI vectors resources, the PCI subsystem enables -either all or nothing. +either all or none of the requested vectors. -Argument dev points to the device (pci_dev) structure. +Argument 'dev' points to the device (pci_dev) structure. -Argument entries is a pointer of unsigned integer type. The number of -elements is indicated in argument nvec. The content of each element -will be mapped to the following struct defined in /driver/pci/msi.h. +Argument 'entries' is a pointer to an array of msix_entry structs. +The number of entries is indicated in argument 'nvec'. +struct msix_entry is defined in /driver/pci/msi.h: struct msix_entry { u16 vector; /* kernel uses to write alloc vector */ u16 entry; /* driver uses to specify entry */ }; -A device driver is responsible for initializing the field entry of -each element with unique entry supported by MSI-X table. Otherwise, +A device driver is responsible for initializing the field 'entry' of +each element with a unique entry supported by MSI-X table. Otherwise, -EINVAL will be returned as a result. A successful return of zero -indicates the PCI subsystem completes initializing each of requested +indicates the PCI subsystem completed initializing each of the requested entries of the MSI-X table with message address and message data. Last but not least, the PCI subsystem will write the 1:1 -vector-to-entry mapping into the field vector of each element. A -device driver is responsible of keeping track of allocated MSI-X +vector-to-entry mapping into the field 'vector' of each element. A +device driver is responsible for keeping track of allocated MSI-X vectors in its internal data structure. -Argument nvec is an integer indicating the number of messages -requested. - -A return of zero indicates that the number of MSI-X vectors is +A return of zero indicates that the number of MSI-X vectors was successfully allocated. A return of greater than zero indicates MSI-X vector shortage. Or a return of less than zero indicates a failure. This failure may be a result of duplicate entries @@ -341,12 +346,12 @@ void pci_disable_msix(struct pci_dev *dev) This API should always be used to undo the effect of pci_enable_msix() when a device driver is unloading. Note that a device driver should always call free_irq() on all MSI-X vectors it has done request_irq() -on before calling this API. Failure to do so results a BUG_ON() and +on before calling this API. Failure to do so results in a BUG_ON() and a device will be left with MSI-X enabled and leaks its vectors. 5.3.6 MSI-X mode vs. legacy mode diagram -The below diagram shows the events, which switches the interrupt +The below diagram shows the events which switch the interrupt mode on the MSI-X capable device function between MSI-X mode and PIN-IRQ assertion mode (legacy). @@ -356,22 +361,22 @@ PIN-IRQ assertion mode (legacy). | | ===============> | | ------------ pci_disable_msix ------------------------ -Figure 2.0 MSI-X Mode vs. Legacy Mode +Figure 2. MSI-X Mode vs. Legacy Mode -In Figure 2.0, a device operates by default in legacy mode. A +In Figure 2, a device operates by default in legacy mode. A successful MSI-X request (using pci_enable_msix()) switches a device's interrupt mode to MSI-X mode. A pre-assigned IOAPIC vector stored in dev->irq will be saved by the PCI subsystem; however, unlike MSI mode, the PCI subsystem will not replace dev->irq with assigned MSI-X vector because the PCI subsystem already writes the 1:1 -vector-to-entry mapping into the field vector of each element +vector-to-entry mapping into the field 'vector' of each element specified in second argument. To return back to its default mode, a device driver should always call pci_disable_msix() to undo the effect of pci_enable_msix(). Note that a device driver should always call free_irq() on all MSI-X vectors it has done request_irq() on before calling pci_disable_msix(). Failure -to do so results a BUG_ON() and a device will be left with MSI-X +to do so results in a BUG_ON() and a device will be left with MSI-X enabled and leaks its vectors. Otherwise, the PCI subsystem switches a device function's interrupt mode from MSI-X mode to legacy mode and marks all allocated MSI-X vectors as unused. @@ -383,53 +388,56 @@ MSI/MSI-X requests from other drivers, these MSI-X vectors may be re-assigned. For the case where the PCI subsystem re-assigned these MSI-X vectors -to other driver, a request to switching back to MSI-X mode may result +to other drivers, a request to switch back to MSI-X mode may result being assigned with another set of MSI-X vectors or a failure if no more vectors are available. -5.4 Handling function implementng both MSI and MSI-X capabilities +5.4 Handling function implementing both MSI and MSI-X capabilities For the case where a function implements both MSI and MSI-X capabilities, the PCI subsystem enables a device to run either in MSI mode or MSI-X mode but not both. A device driver determines whether it wants MSI or MSI-X enabled on its hardware device. Once a device -driver requests for MSI, for example, it is prohibited to request for +driver requests for MSI, for example, it is prohibited from requesting MSI-X; in other words, a device driver is not permitted to ping-pong between MSI mod MSI-X mode during a run-time. 5.5 Hardware requirements for MSI/MSI-X support + MSI/MSI-X support requires support from both system hardware and individual hardware device functions. 5.5.1 System hardware support + Since the target of MSI address is the local APIC CPU, enabling -MSI/MSI-X support in Linux kernel is dependent on whether existing -system hardware supports local APIC. Users should verify their -system whether it runs when CONFIG_X86_LOCAL_APIC=y. +MSI/MSI-X support in the Linux kernel is dependent on whether existing +system hardware supports local APIC. Users should verify that their +system supports local APIC operation by testing that it runs when +CONFIG_X86_LOCAL_APIC=y. In SMP environment, CONFIG_X86_LOCAL_APIC is automatically set; however, in UP environment, users must manually set CONFIG_X86_LOCAL_APIC. Once CONFIG_X86_LOCAL_APIC=y, setting -CONFIG_PCI_MSI enables the VECTOR based scheme and -the option for MSI-capable device drivers to selectively enable -MSI/MSI-X. +CONFIG_PCI_MSI enables the VECTOR based scheme and the option for +MSI-capable device drivers to selectively enable MSI/MSI-X. Note that CONFIG_X86_IO_APIC setting is irrelevant because MSI/MSI-X vector is allocated new during runtime and MSI/MSI-X support does not depend on BIOS support. This key independency enables MSI/MSI-X -support on future IOxAPIC free platform. +support on future IOxAPIC free platforms. 5.5.2 Device hardware support + The hardware device function supports MSI by indicating the MSI/MSI-X capability structure on its PCI capability list. By default, this capability structure will not be initialized by the kernel to enable MSI during the system boot. In other words, the device function is running on its default pin assertion mode. Note that in many cases the hardware supporting MSI have bugs, -which may result in system hang. The software driver of specific -MSI-capable hardware is responsible for whether calling +which may result in system hangs. The software driver of specific +MSI-capable hardware is responsible for deciding whether to call pci_enable_msi or not. A return of zero indicates the kernel -successfully initializes the MSI/MSI-X capability structure of the +successfully initialized the MSI/MSI-X capability structure of the device function. The device function is now running on MSI/MSI-X mode. 5.6 How to tell whether MSI/MSI-X is enabled on device function @@ -439,10 +447,10 @@ pci_enable_msi()/pci_enable_msix() indicates to a device driver that its device function is initialized successfully and ready to run in MSI/MSI-X mode. -At the user level, users can use command 'cat /proc/interrupts' -to display the vector allocated for a device and its interrupt -MSI/MSI-X mode ("PCI MSI"/"PCI MSIX"). Below shows below MSI mode is -enabled on a SCSI Adaptec 39320D Ultra320. +At the user level, users can use the command 'cat /proc/interrupts' +to display the vectors allocated for devices and their interrupt +MSI/MSI-X modes ("PCI-MSI"/"PCI-MSI-X"). Below shows MSI mode is +enabled on a SCSI Adaptec 39320D Ultra320 controller. CPU0 CPU1 0: 324639 0 IO-APIC-edge timer @@ -453,8 +461,8 @@ enabled on a SCSI Adaptec 39320D Ultra320. 15: 1 0 IO-APIC-edge ide1 169: 0 0 IO-APIC-level uhci-hcd 185: 0 0 IO-APIC-level uhci-hcd -193: 138 10 PCI MSI aic79xx -201: 30 0 PCI MSI aic79xx +193: 138 10 PCI-MSI aic79xx +201: 30 0 PCI-MSI aic79xx 225: 30 0 IO-APIC-level aic7xxx 233: 30 0 IO-APIC-level aic7xxx NMI: 0 0 @@ -490,8 +498,8 @@ target address set as 0xfeexxxxx, as conformed to PCI specification 2.3 or latest, then it should work. Q4. From the driver point of view, if the MSI is lost because -of the errors occur during inbound memory write, then it may -wait for ever. Is there a mechanism for it to recover? +of errors occurring during inbound memory write, then it may +wait forever. Is there a mechanism for it to recover? A4. Since the target of the transaction is an inbound memory write, all transaction termination conditions (Retry, |