This patch simple does a git mv of the drivers/staging/unisys/Documentation directory to Documentation. Renames overview.txt to visorbus.txt and renames sysfs-platform-visorchipset to the correct name sysfs-bus-visorbus. Signed-off-by: David Kershner <david.kershner@xxxxxxxxxx> --- Documentation/ABI/stable/sysfs-bus-visorbus | 89 ++++++ Documentation/visorbus.txt | 337 +++++++++++++++++++++ .../Documentation/ABI/sysfs-platform-visorchipset | 89 ------ drivers/staging/unisys/Documentation/overview.txt | 337 --------------------- 4 files changed, 426 insertions(+), 426 deletions(-) create mode 100644 Documentation/ABI/stable/sysfs-bus-visorbus create mode 100644 Documentation/visorbus.txt delete mode 100644 drivers/staging/unisys/Documentation/ABI/sysfs-platform-visorchipset delete mode 100644 drivers/staging/unisys/Documentation/overview.txt diff --git a/Documentation/ABI/stable/sysfs-bus-visorbus b/Documentation/ABI/stable/sysfs-bus-visorbus new file mode 100644 index 0000000..c2359de --- /dev/null +++ b/Documentation/ABI/stable/sysfs-bus-visorbus @@ -0,0 +1,89 @@ +This file describes sysfs entries beneath /devices/platform/visorchipset. + +What: install/error +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: used to send the ID of a string that should be displayed on + s-Par's automatic installation progress screen when an error + is encountered during installation. This field has no effect + if not in installation mode. +Users: sparmaintainer@xxxxxxxxxx + +What: install/remainingsteps +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: used to set the value of the progress bar on the s-Par automatic + installation progress screen. This field has no effect if not in + installation mode. +Users: sparmaintainer@xxxxxxxxxx + +What: install/textid +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: used to send the ID of a string that should be displayed on + s-Par's automatic installation progress screen. Setting this + field when not in installation mode (boottotool was set on + the previous guest boot) has no effect. +Users: sparmaintainer@xxxxxxxxxx + +What: install/boottotool +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: The boottotool flag controls s-Par behavior on the next boot of + this guest. Setting the flag will cause the guest to boot from + the utility and installation image, which will use the value in + the toolaction field to determine what operation is being + requested. +Users: sparmaintainer@xxxxxxxxxx + +What: install/toolaction +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: This field is used to tell s-Par which type of recovery tool + action to perform on the next guest boot-up. The meaning of the + value is dependent on the type of installation software used to + commission the guest. +Users: sparmaintainer@xxxxxxxxxx + +What: parahotplug/deviceenabled +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: This entry is used by a Unisys support script installed on the + guest, and triggered by a udev event. The support script is + responsible for enabling and disabling SR-IOV devices when the + PF device is being recovered in another guest. + + Some SR-IOV devices have problems when the PF is reset without + first disabling all VFs attached to that PF. s-Par handles this + situation by sending a message to guests using these VFs, and + the script will disable the device. When the PF is recovered, + another message is sent to the guests to re-enable the VFs. + + The parahotplug/deviceenabled interface is used to acknowledge + the recovery message. +Users: sparmaintainer@xxxxxxxxxx + +What: parahotplug/devicedisabled +Date: 7/18/2014 +KernelVersion: TBD +Contact: sparmaintainer@xxxxxxxxxx +Description: This entry is used by a Unisys support script installed on the + guest, and triggered by a udev event. The support script is + responsible for enabling and disabling SR-IOV devices when the + PF device is being recovered in another guest. + + Some SR-IOV devices have problems when the PF is reset without + first disabling all VFs attached to that PF. s-Par handles this + situation by sending a message to guests using these VFs, and + the script will disable the device. When the PF is recovered, + another message is sent to the guests to re-enable the VFs. + + The parahotplug/devicedisaabled interface is used to acknowledge + the initial recovery message. +Users: sparmaintainer@xxxxxxxxxx diff --git a/Documentation/visorbus.txt b/Documentation/visorbus.txt new file mode 100644 index 0000000..1146c1c --- /dev/null +++ b/Documentation/visorbus.txt @@ -0,0 +1,337 @@ +1. Overview +----------- + +This document describes the driver set for Unisys Secure Partitioning +(s-Par(R)). + +s-Par is firmware that provides hardware partitioning capabilities for +splitting large-scale Intel x86 servers into multiple isolated +partitions. s-Par provides a set of para-virtualized device drivers to +allow guest partitions on the same server to share devices that would +normally be unsharable, specifically: + +* visornic - network interface +* visorhba - scsi disk adapter +* visorinput - keyboard and mouse + +These drivers conform to the standard Linux bus/device model described +within Documentation/driver-model/, and utilize a driver named visorbus to +present the virtual busses involved. Drivers in the 'visor*' driver set are +commonly referred to as "guest drivers" or "client drivers". All drivers +except visorbus expose a device of a specific usable class to the Linux guest +environment (e.g., block, network, or input), and are collectively referred +to as "function drivers". + +The back-end for each device is owned and managed by a small, +single-purpose service partition in the s-Par firmware, which communicates +with each guest partition sharing that device through an area of shared memory +called a "channel". In s-Par nomenclature, the back-end is often referred to +as the "service partition", "IO partition" (for virtual network and scsi disk +devices), or "console partition" (for virtual keyboard and mouse devices). + +Each virtual device requires exactly 1 dedicated channel, which the guest +driver and back-end use to communicate. The hypervisor need not intervene +(other than normal interrupt handling) in the interactions that occur across +this channel. + +NOT covered in this document: + +* s-Par also supports sharing physical PCI adapters via SR-IOV, but + because this requires no specific support in the guest partitions, it will + not be discussed in this document. Shared SR-IOV devices should be used + wherever possible for highest performance. + +* Because the s-Par back-end provides a standard EFI framebuffer to each + guest, the already-existing efifb Linux driver is used to provide guest + video access. Thus, the only s-Par-unique support that is necessary to + provide a guest graphics console are for keyboard and mouse (via visorinput). + + +2. Driver Descriptions +---------------------- + +2.1. visorbus +------------- + +2.1.1. Overview +--------------- + +The visorbus driver handles the virtual busses on which all of the virtual +devices reside. It provides a registration function named +visorbus_register_visor_driver() that is called by each of the function +drivers at initialization time, which the function driver uses to tell +visorbus about the device classes (via specifying a list of device type +GUIDs) it wants to handle. For use by function drivers, visorbus provides +implementation for struct visor_driver and struct visor_device, as well +as utility functions for communicating with the back-end. + +visorbus is associated with ACPI id "PNP0A07" in modules.alias, so if built +as a module it will typically be loaded automatically via standard udev or +systemd (God help us) configurations. + +visorbus can similarly force auto-loading of function drivers for virtual +devices it discovers, as it includes a MODALIAS environment variable of this +form in the hotplug uevent environment when each virtual device is +discovered: + + visorbus:<device type GUID> + +visorbus notifies each function driver when a device of its registered class +arrives and departs, by calling the function driver's probe() and remove() +methods. + +The actual struct device objects that correspond to each virtual bus and +each virtual device are created and owned by visorbus. These device objects +are created in response to messages from the s-Par back-end received on a +special control channel called the "controlvm channel" (each guest partition +has access to exactly 1 controlvm channel), and have a lifetime that is +independent of the function drivers that control them. + +2.1.2. "struct visor device" Function Driver Interfaces +------------------------------------------------------- + +The interface between visorbus and its function drivers is defined in +visorbus.h, and described below. + +When a visor function driver loads, it calls visorbus_register_visor_driver() +to register itself with visorbus. The significant information passed in this +exchange is as follows: + +* the GUID(s) of the channel type(s) that are handled by this driver, as + well as a "friendly name" identifying each (this will be published under + /sys/devices/visorbus<x>/dev<y>) + +* the addresses of callback functions to be called whenever a virtual + device/channel with the appropriate channel-type GUID(s) appears or + disappears + +* the address of a "channel_interrupt" function, which will be automatically + called at specific intervals to enable the driver to poll the device + channel for activity + +The following functions implemented within each function driver will be +called automatically by the visorbus driver at appropriate times: + +* The probe() function notifies about the creation of each new virtual + device/channel instance. + +* The remove() function notifies about the destruction of a virtual + device/channel instance. + +* The channel_interrupt() function is called at frequent intervals to + give the function driver an opportunity to poll the virtual device channel + for requests. Information is passed to this function to enable the + function driver to use the visorchannel_signalinsert() and + visorchannel_signalremove() functions to respond to and initiate activity + over the channel. (Note that since it is the visorbus driver that + determines when this is called, it is very easy to switch to + interrupt-driven mechanisms when available for particular virtual device + types.) + +* The pause() function is called should it ever be necessary to direct the + function driver to temporarily stop accessing the device channel. An + example of when this is needed is when the service partition implementing + the back-end of the virtual device needs to be recovered. After a + successful return of pause(), the function driver must not access the + device channel until a subsequent resume() occurs. + +* The resume() function is the "book-end" to pause(), and is described above. + +2.1.3. sysfs Advertised Information +----------------------------------- + +Because visorbus is a standard Linux bus driver in the model described in +Documentation/driver-model/, the hierarchy of s-Par virtual devices is +published in the sysfs tree beneath /bus/visorbus/, e.g., +/sys/bus/visorbus/devices/ might look like: + + vbus1:dev1 -> ../../../devices/visorbus1/vbus1:dev1 + vbus1:dev2 -> ../../../devices/visorbus1/vbus1:dev2 + vbus1:dev3 -> ../../../devices/visorbus1/vbus1:dev3 + vbus2:dev0 -> ../../../devices/visorbus2/vbus2:dev0 + vbus2:dev1 -> ../../../devices/visorbus2/vbus2:dev1 + vbus2:dev2 -> ../../../devices/visorbus2/vbus2:dev2 + visorbus1 -> ../../../devices/visorbus1 + visorbus2 -> ../../../devices/visorbus2 + +visor_device notes: + +* Each visorbus<n> entry denotes the existence of a struct visor_device + denoting virtual bus #<n>. A unique s-Par channel exists for each such + virtual bus. + +* Virtual bus numbers uniquely identify s-Par back-end service partitions. + In this example, bus 1 corresponds to the s-Par console partition + (controls keyboard, video, and mouse), whereas bus 2 corresponds to the + s-Par IO partition (controls network and disk). + +* Each vbus<x>:dev<y> entry denotes the existence of a struct visor_device + denoting virtual device #<y> outboard of virtual bus #<x>. A unique s-Par + channel exists for each such virtual device. + +* If a function driver has loaded and claimed a particular device, the + bus/visorbus/devices/vbus<x>:dev<y>/driver symlink will indicate that + function driver. + +Every active visorbus device will have a sysfs subtree under: + + /sys/devices/visorbus<x>/vbus<x>:dev<y>/ + +The following files exist under /sys/devices/visorbus<x>/vbus<x>:dev<y>: + + subsystem link to sysfs tree that describes the + visorbus bus type; e.g.: + ../../../bus/visorbus + + driver link to sysfs tree that describes the + function driver controlling this device; + e.g.: + ../../../bus/visorbus/drivers/visorhba + Note that this "driver" link will not exist + if the appropriate function driver has not + been loaded yet. + + channel properties of the device channel (all in + ascii text format) + + clientpartition handle identifying the guest (client) side + of this channel, e.g. 0x10000000. + + nbytes total size of this channel in bytes + + physaddr the guest physical address for the base of + the channel + + typeguid a GUID identifying the channel type, in + xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx notation + + typename a "friendly name" for this channel type, e.g., + "keyboard". Note that this name is provided by + a particular function driver, so "typename" + will return an empty string until AFTER the + appropriate function driver controlling this + channel type is loaded + + zoneguid a GUID identifying the channel zone, in + xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx notation + + +2.2. visorhba +------------- + +The visorhba driver registers with visorbus as the function driver to +handle virtual scsi disk devices, specified using the +SPAR_VHBA_CHANNEL_PROTOCOL_UUID type in the visorbus_register_visor_driver() +call. visorhba uses scsi_add_host() to expose a Linux block device +(e.g., /sys/block/) in the guest environment for each s-Par virtual device. + +visorhba provides access to a shared SCSI host bus adapter and one or more +disk devices, by proxying SCSI commands between the guest and the service +partition that owns the shared SCSI adapter, using a channel between the +guest and the service partition. The disks that appear on the shared bus +are defined by the s-Par configuration and enforced by the service partition, +while the guest driver handles sending commands and handling responses. Each +disk is shared as a whole to a guest. Sharing the bus adapter in this way +provides resiliency; should the device encounter an error, only the service +partition is rebooted, and the device is reinitialized. This allows +guests to continue running and to recover from the error. + +When compiled as a module, visorhba can be autoloaded by visorbus in +standard udev/systemd environments, as it includes the modules.alias +definition: + + "visorbus:"+SPAR_VHBA_CHANNEL_PROTOCOL_UUID_STR + +i.e.: + + alias visorbus:414815ed-c58c-11da-95a9-00e08161165f visorhba + + +2.3. visornic +------------- + +The visornic driver registers with visorbus as the function driver to +handle virtual network devices, specified using the +SPAR_VNIC_CHANNEL_PROTOCOL_UUID type in the visorbus_register_visor_driver() +call. visornic uses register_netdev() to expose a Linux device of class net +(e.g., /sys/class/net/) in the guest environment for each s-Par virtual +device. + +visornic provides a paravirtualized network interface to a +guest by proxying buffer information between the guest and the service +partition that owns the shared network interface, using a channel +between the guest and the service partition. The connectivity of this +interface with the shared interface and possibly other guest +partitions is defined by the s-Par configuration and enforced by the +service partition; the guest driver handles communication and link +status. + +When compiled as a module, visornic can be autoloaded by visorbus in +standard udev/systemd environments, as it includes the modules.alias +definition: + + "visorbus:"+SPAR_VNIC_CHANNEL_PROTOCOL_UUID_STR + +i.e.: + + alias visorbus:8cd5994d-c58e-11da-95a9-00e08161165f visornic + + +2.4. visorinput +--------------- + +The visorinput driver registers with visorbus as the function driver to +handle human input devices, specified using the +SPAR_KEYBOARD_CHANNEL_PROTOCOL_UUID and SPAR_MOUSE_CHANNEL_PROTOCOL_UUID +types in the visorbus_register_visor_driver() call. visorinput uses +input_register_device() to expose devices of class input +(e.g., /sys/class/input/) for virtual keyboard and virtual mouse devices. +A s-Par virtual keyboard device maps 1-to-1 with a Linux input device +named "visor Keyboard", while a s-Par virtual mouse device has 2 Linux input +devices created for it: 1 named "visor Wheel", and 1 named "visor Mouse". + +By registering as input class devices, modern versions of X will +automatically find and properly use s-Par virtual keyboard and mouse devices. +As the s-Par back-end reports keyboard and mouse activity via events on the +virtual device channel, the visorinput driver delivers the activity to the +Linux environment by calling input_report_key() and input_report_abs(). + +You can interact with the guest console using the usyscon Partition Desktop +(a.k.a., "pd") application, provided as part of s-Par. After installing the +usyscon Partition Desktop into a Linux environment via the +usyscon_partitiondesktop-*.rpm, or into a Windows environment via +PartitionDesktop.msi, you will be able to launch a console for your guest +Linux environment by clicking the console icon in the s-Par web UI. + +When compiled as a module, visorinput can be autoloaded by visorbus in +standard udev/systemd environments, as it includes the modules.alias +definition: + + "visorbus:"+SPAR_MOUSE_CHANNEL_PROTOCOL_UUID_STR + "visorbus:"+SPAR_KEYBOARD_CHANNEL_PROTOCOL_UUID_STR + +i.e.: + + alias visorbus:c73416d0-b0b8-44af-b304-9d2ae99f1b3d visorinput + alias visorbus:addf07d4-94a9-46e2-81c3-61abcdbdbd87 visorinput + + +3. Minimum Required Driver Set +------------------------------ + +visorbus is required for every Linux guest running under s-Par. + +visorhba is typically required for a Linux guest running under s-Par, as it +is required if your guest boot disk is a virtual device provided by the s-Par +back-end, which is the default configuration. However, for advanced +configurations where the Linux guest boots via an SR-IOV-provided HBA or +SAN disk for example, visorhba is not technically required. + +visornic is typically required for a Linux guest running under s-Par, as it +is required if your guest network interface is a virtual device provided by +the s-Par back-end, which is the default configuration. However, for +configurations where the Linux guest is provided with an SR-IOV NIC +for example, visornic is not technically required. + +visorinput is only required for a Linux guest running under s-Par if you +require graphics-mode access to your guest console. diff --git a/drivers/staging/unisys/Documentation/ABI/sysfs-platform-visorchipset b/drivers/staging/unisys/Documentation/ABI/sysfs-platform-visorchipset deleted file mode 100644 index c2359de..0000000 --- a/drivers/staging/unisys/Documentation/ABI/sysfs-platform-visorchipset +++ /dev/null @@ -1,89 +0,0 @@ -This file describes sysfs entries beneath /devices/platform/visorchipset. - -What: install/error -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: used to send the ID of a string that should be displayed on - s-Par's automatic installation progress screen when an error - is encountered during installation. This field has no effect - if not in installation mode. -Users: sparmaintainer@xxxxxxxxxx - -What: install/remainingsteps -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: used to set the value of the progress bar on the s-Par automatic - installation progress screen. This field has no effect if not in - installation mode. -Users: sparmaintainer@xxxxxxxxxx - -What: install/textid -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: used to send the ID of a string that should be displayed on - s-Par's automatic installation progress screen. Setting this - field when not in installation mode (boottotool was set on - the previous guest boot) has no effect. -Users: sparmaintainer@xxxxxxxxxx - -What: install/boottotool -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: The boottotool flag controls s-Par behavior on the next boot of - this guest. Setting the flag will cause the guest to boot from - the utility and installation image, which will use the value in - the toolaction field to determine what operation is being - requested. -Users: sparmaintainer@xxxxxxxxxx - -What: install/toolaction -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: This field is used to tell s-Par which type of recovery tool - action to perform on the next guest boot-up. The meaning of the - value is dependent on the type of installation software used to - commission the guest. -Users: sparmaintainer@xxxxxxxxxx - -What: parahotplug/deviceenabled -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: This entry is used by a Unisys support script installed on the - guest, and triggered by a udev event. The support script is - responsible for enabling and disabling SR-IOV devices when the - PF device is being recovered in another guest. - - Some SR-IOV devices have problems when the PF is reset without - first disabling all VFs attached to that PF. s-Par handles this - situation by sending a message to guests using these VFs, and - the script will disable the device. When the PF is recovered, - another message is sent to the guests to re-enable the VFs. - - The parahotplug/deviceenabled interface is used to acknowledge - the recovery message. -Users: sparmaintainer@xxxxxxxxxx - -What: parahotplug/devicedisabled -Date: 7/18/2014 -KernelVersion: TBD -Contact: sparmaintainer@xxxxxxxxxx -Description: This entry is used by a Unisys support script installed on the - guest, and triggered by a udev event. The support script is - responsible for enabling and disabling SR-IOV devices when the - PF device is being recovered in another guest. - - Some SR-IOV devices have problems when the PF is reset without - first disabling all VFs attached to that PF. s-Par handles this - situation by sending a message to guests using these VFs, and - the script will disable the device. When the PF is recovered, - another message is sent to the guests to re-enable the VFs. - - The parahotplug/devicedisaabled interface is used to acknowledge - the initial recovery message. -Users: sparmaintainer@xxxxxxxxxx diff --git a/drivers/staging/unisys/Documentation/overview.txt b/drivers/staging/unisys/Documentation/overview.txt deleted file mode 100644 index 1146c1c..0000000 --- a/drivers/staging/unisys/Documentation/overview.txt +++ /dev/null @@ -1,337 +0,0 @@ -1. Overview ------------ - -This document describes the driver set for Unisys Secure Partitioning -(s-Par(R)). - -s-Par is firmware that provides hardware partitioning capabilities for -splitting large-scale Intel x86 servers into multiple isolated -partitions. s-Par provides a set of para-virtualized device drivers to -allow guest partitions on the same server to share devices that would -normally be unsharable, specifically: - -* visornic - network interface -* visorhba - scsi disk adapter -* visorinput - keyboard and mouse - -These drivers conform to the standard Linux bus/device model described -within Documentation/driver-model/, and utilize a driver named visorbus to -present the virtual busses involved. Drivers in the 'visor*' driver set are -commonly referred to as "guest drivers" or "client drivers". All drivers -except visorbus expose a device of a specific usable class to the Linux guest -environment (e.g., block, network, or input), and are collectively referred -to as "function drivers". - -The back-end for each device is owned and managed by a small, -single-purpose service partition in the s-Par firmware, which communicates -with each guest partition sharing that device through an area of shared memory -called a "channel". In s-Par nomenclature, the back-end is often referred to -as the "service partition", "IO partition" (for virtual network and scsi disk -devices), or "console partition" (for virtual keyboard and mouse devices). - -Each virtual device requires exactly 1 dedicated channel, which the guest -driver and back-end use to communicate. The hypervisor need not intervene -(other than normal interrupt handling) in the interactions that occur across -this channel. - -NOT covered in this document: - -* s-Par also supports sharing physical PCI adapters via SR-IOV, but - because this requires no specific support in the guest partitions, it will - not be discussed in this document. Shared SR-IOV devices should be used - wherever possible for highest performance. - -* Because the s-Par back-end provides a standard EFI framebuffer to each - guest, the already-existing efifb Linux driver is used to provide guest - video access. Thus, the only s-Par-unique support that is necessary to - provide a guest graphics console are for keyboard and mouse (via visorinput). - - -2. Driver Descriptions ----------------------- - -2.1. visorbus -------------- - -2.1.1. Overview ---------------- - -The visorbus driver handles the virtual busses on which all of the virtual -devices reside. It provides a registration function named -visorbus_register_visor_driver() that is called by each of the function -drivers at initialization time, which the function driver uses to tell -visorbus about the device classes (via specifying a list of device type -GUIDs) it wants to handle. For use by function drivers, visorbus provides -implementation for struct visor_driver and struct visor_device, as well -as utility functions for communicating with the back-end. - -visorbus is associated with ACPI id "PNP0A07" in modules.alias, so if built -as a module it will typically be loaded automatically via standard udev or -systemd (God help us) configurations. - -visorbus can similarly force auto-loading of function drivers for virtual -devices it discovers, as it includes a MODALIAS environment variable of this -form in the hotplug uevent environment when each virtual device is -discovered: - - visorbus:<device type GUID> - -visorbus notifies each function driver when a device of its registered class -arrives and departs, by calling the function driver's probe() and remove() -methods. - -The actual struct device objects that correspond to each virtual bus and -each virtual device are created and owned by visorbus. These device objects -are created in response to messages from the s-Par back-end received on a -special control channel called the "controlvm channel" (each guest partition -has access to exactly 1 controlvm channel), and have a lifetime that is -independent of the function drivers that control them. - -2.1.2. "struct visor device" Function Driver Interfaces -------------------------------------------------------- - -The interface between visorbus and its function drivers is defined in -visorbus.h, and described below. - -When a visor function driver loads, it calls visorbus_register_visor_driver() -to register itself with visorbus. The significant information passed in this -exchange is as follows: - -* the GUID(s) of the channel type(s) that are handled by this driver, as - well as a "friendly name" identifying each (this will be published under - /sys/devices/visorbus<x>/dev<y>) - -* the addresses of callback functions to be called whenever a virtual - device/channel with the appropriate channel-type GUID(s) appears or - disappears - -* the address of a "channel_interrupt" function, which will be automatically - called at specific intervals to enable the driver to poll the device - channel for activity - -The following functions implemented within each function driver will be -called automatically by the visorbus driver at appropriate times: - -* The probe() function notifies about the creation of each new virtual - device/channel instance. - -* The remove() function notifies about the destruction of a virtual - device/channel instance. - -* The channel_interrupt() function is called at frequent intervals to - give the function driver an opportunity to poll the virtual device channel - for requests. Information is passed to this function to enable the - function driver to use the visorchannel_signalinsert() and - visorchannel_signalremove() functions to respond to and initiate activity - over the channel. (Note that since it is the visorbus driver that - determines when this is called, it is very easy to switch to - interrupt-driven mechanisms when available for particular virtual device - types.) - -* The pause() function is called should it ever be necessary to direct the - function driver to temporarily stop accessing the device channel. An - example of when this is needed is when the service partition implementing - the back-end of the virtual device needs to be recovered. After a - successful return of pause(), the function driver must not access the - device channel until a subsequent resume() occurs. - -* The resume() function is the "book-end" to pause(), and is described above. - -2.1.3. sysfs Advertised Information ------------------------------------ - -Because visorbus is a standard Linux bus driver in the model described in -Documentation/driver-model/, the hierarchy of s-Par virtual devices is -published in the sysfs tree beneath /bus/visorbus/, e.g., -/sys/bus/visorbus/devices/ might look like: - - vbus1:dev1 -> ../../../devices/visorbus1/vbus1:dev1 - vbus1:dev2 -> ../../../devices/visorbus1/vbus1:dev2 - vbus1:dev3 -> ../../../devices/visorbus1/vbus1:dev3 - vbus2:dev0 -> ../../../devices/visorbus2/vbus2:dev0 - vbus2:dev1 -> ../../../devices/visorbus2/vbus2:dev1 - vbus2:dev2 -> ../../../devices/visorbus2/vbus2:dev2 - visorbus1 -> ../../../devices/visorbus1 - visorbus2 -> ../../../devices/visorbus2 - -visor_device notes: - -* Each visorbus<n> entry denotes the existence of a struct visor_device - denoting virtual bus #<n>. A unique s-Par channel exists for each such - virtual bus. - -* Virtual bus numbers uniquely identify s-Par back-end service partitions. - In this example, bus 1 corresponds to the s-Par console partition - (controls keyboard, video, and mouse), whereas bus 2 corresponds to the - s-Par IO partition (controls network and disk). - -* Each vbus<x>:dev<y> entry denotes the existence of a struct visor_device - denoting virtual device #<y> outboard of virtual bus #<x>. A unique s-Par - channel exists for each such virtual device. - -* If a function driver has loaded and claimed a particular device, the - bus/visorbus/devices/vbus<x>:dev<y>/driver symlink will indicate that - function driver. - -Every active visorbus device will have a sysfs subtree under: - - /sys/devices/visorbus<x>/vbus<x>:dev<y>/ - -The following files exist under /sys/devices/visorbus<x>/vbus<x>:dev<y>: - - subsystem link to sysfs tree that describes the - visorbus bus type; e.g.: - ../../../bus/visorbus - - driver link to sysfs tree that describes the - function driver controlling this device; - e.g.: - ../../../bus/visorbus/drivers/visorhba - Note that this "driver" link will not exist - if the appropriate function driver has not - been loaded yet. - - channel properties of the device channel (all in - ascii text format) - - clientpartition handle identifying the guest (client) side - of this channel, e.g. 0x10000000. - - nbytes total size of this channel in bytes - - physaddr the guest physical address for the base of - the channel - - typeguid a GUID identifying the channel type, in - xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx notation - - typename a "friendly name" for this channel type, e.g., - "keyboard". Note that this name is provided by - a particular function driver, so "typename" - will return an empty string until AFTER the - appropriate function driver controlling this - channel type is loaded - - zoneguid a GUID identifying the channel zone, in - xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx notation - - -2.2. visorhba -------------- - -The visorhba driver registers with visorbus as the function driver to -handle virtual scsi disk devices, specified using the -SPAR_VHBA_CHANNEL_PROTOCOL_UUID type in the visorbus_register_visor_driver() -call. visorhba uses scsi_add_host() to expose a Linux block device -(e.g., /sys/block/) in the guest environment for each s-Par virtual device. - -visorhba provides access to a shared SCSI host bus adapter and one or more -disk devices, by proxying SCSI commands between the guest and the service -partition that owns the shared SCSI adapter, using a channel between the -guest and the service partition. The disks that appear on the shared bus -are defined by the s-Par configuration and enforced by the service partition, -while the guest driver handles sending commands and handling responses. Each -disk is shared as a whole to a guest. Sharing the bus adapter in this way -provides resiliency; should the device encounter an error, only the service -partition is rebooted, and the device is reinitialized. This allows -guests to continue running and to recover from the error. - -When compiled as a module, visorhba can be autoloaded by visorbus in -standard udev/systemd environments, as it includes the modules.alias -definition: - - "visorbus:"+SPAR_VHBA_CHANNEL_PROTOCOL_UUID_STR - -i.e.: - - alias visorbus:414815ed-c58c-11da-95a9-00e08161165f visorhba - - -2.3. visornic -------------- - -The visornic driver registers with visorbus as the function driver to -handle virtual network devices, specified using the -SPAR_VNIC_CHANNEL_PROTOCOL_UUID type in the visorbus_register_visor_driver() -call. visornic uses register_netdev() to expose a Linux device of class net -(e.g., /sys/class/net/) in the guest environment for each s-Par virtual -device. - -visornic provides a paravirtualized network interface to a -guest by proxying buffer information between the guest and the service -partition that owns the shared network interface, using a channel -between the guest and the service partition. The connectivity of this -interface with the shared interface and possibly other guest -partitions is defined by the s-Par configuration and enforced by the -service partition; the guest driver handles communication and link -status. - -When compiled as a module, visornic can be autoloaded by visorbus in -standard udev/systemd environments, as it includes the modules.alias -definition: - - "visorbus:"+SPAR_VNIC_CHANNEL_PROTOCOL_UUID_STR - -i.e.: - - alias visorbus:8cd5994d-c58e-11da-95a9-00e08161165f visornic - - -2.4. visorinput ---------------- - -The visorinput driver registers with visorbus as the function driver to -handle human input devices, specified using the -SPAR_KEYBOARD_CHANNEL_PROTOCOL_UUID and SPAR_MOUSE_CHANNEL_PROTOCOL_UUID -types in the visorbus_register_visor_driver() call. visorinput uses -input_register_device() to expose devices of class input -(e.g., /sys/class/input/) for virtual keyboard and virtual mouse devices. -A s-Par virtual keyboard device maps 1-to-1 with a Linux input device -named "visor Keyboard", while a s-Par virtual mouse device has 2 Linux input -devices created for it: 1 named "visor Wheel", and 1 named "visor Mouse". - -By registering as input class devices, modern versions of X will -automatically find and properly use s-Par virtual keyboard and mouse devices. -As the s-Par back-end reports keyboard and mouse activity via events on the -virtual device channel, the visorinput driver delivers the activity to the -Linux environment by calling input_report_key() and input_report_abs(). - -You can interact with the guest console using the usyscon Partition Desktop -(a.k.a., "pd") application, provided as part of s-Par. After installing the -usyscon Partition Desktop into a Linux environment via the -usyscon_partitiondesktop-*.rpm, or into a Windows environment via -PartitionDesktop.msi, you will be able to launch a console for your guest -Linux environment by clicking the console icon in the s-Par web UI. - -When compiled as a module, visorinput can be autoloaded by visorbus in -standard udev/systemd environments, as it includes the modules.alias -definition: - - "visorbus:"+SPAR_MOUSE_CHANNEL_PROTOCOL_UUID_STR - "visorbus:"+SPAR_KEYBOARD_CHANNEL_PROTOCOL_UUID_STR - -i.e.: - - alias visorbus:c73416d0-b0b8-44af-b304-9d2ae99f1b3d visorinput - alias visorbus:addf07d4-94a9-46e2-81c3-61abcdbdbd87 visorinput - - -3. Minimum Required Driver Set ------------------------------- - -visorbus is required for every Linux guest running under s-Par. - -visorhba is typically required for a Linux guest running under s-Par, as it -is required if your guest boot disk is a virtual device provided by the s-Par -back-end, which is the default configuration. However, for advanced -configurations where the Linux guest boots via an SR-IOV-provided HBA or -SAN disk for example, visorhba is not technically required. - -visornic is typically required for a Linux guest running under s-Par, as it -is required if your guest network interface is a virtual device provided by -the s-Par back-end, which is the default configuration. However, for -configurations where the Linux guest is provided with an SR-IOV NIC -for example, visornic is not technically required. - -visorinput is only required for a Linux guest running under s-Par if you -require graphics-mode access to your guest console. -- 1.9.1 _______________________________________________ devel mailing list devel@xxxxxxxxxxxxxxxxxxxxxx http://driverdev.linuxdriverproject.org/mailman/listinfo/driverdev-devel