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Parse ibm,architecture.vec table obtained from the guest and enable memory node configuration via ibm,dynamic-reconfiguration-memory if guest supports it. This is in preparation to support memory hotplug for sPAPR guests. This changes the way memory node configuration is done. Currently all memory nodes are built upfront. But after this patch, only memory@0 node for RMA is built upfront. Guest kernel boots with just that and rest of the memory nodes (via memory@XXX or ibm,dynamic-reconfiguration-memory) are built when guest does ibm,client-architecture-support call. Note: This patch needs a SLOF enhancement which is already part of SLOF binary in QEMU. Signed-off-by: Bharata B Rao <bharata@linux.vnet.ibm.com> Reviewed-by: David Gibson <david@gibson.dropbear.id.au> Signed-off-by: David Gibson <david@gibson.dropbear.id.au>
354 lines
16 KiB
Plaintext
354 lines
16 KiB
Plaintext
= sPAPR Dynamic Reconfiguration =
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sPAPR/"pseries" guests make use of a facility called dynamic-reconfiguration
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to handle hotplugging of dynamic "physical" resources like PCI cards, or
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"logical"/paravirtual resources like memory, CPUs, and "physical"
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host-bridges, which are generally managed by the host/hypervisor and provided
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to guests as virtualized resources. The specifics of dynamic-reconfiguration
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are documented extensively in PAPR+ v2.7, Section 13.1. This document
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provides a summary of that information as it applies to the implementation
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within QEMU.
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== Dynamic-reconfiguration Connectors ==
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To manage hotplug/unplug of these resources, a firmware abstraction known as
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a Dynamic Resource Connector (DRC) is used to assign a particular dynamic
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resource to the guest, and provide an interface for the guest to manage
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configuration/removal of the resource associated with it.
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== Device-tree description of DRCs ==
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A set of 4 Open Firmware device tree array properties are used to describe
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the name/index/power-domain/type of each DRC allocated to a guest at
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boot-time. There may be multiple sets of these arrays, rooted at different
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paths in the device tree depending on the type of resource the DRCs manage.
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In some cases, the DRCs themselves may be provided by a dynamic resource,
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such as the DRCs managing PCI slots on a hotplugged PHB. In this case the
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arrays would be fetched as part of the device tree retrieval interfaces
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for hotplugged resources described under "Guest->Host interface".
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The array properties are described below. Each entry/element in an array
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describes the DRC identified by the element in the corresponding position
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of ibm,drc-indexes:
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ibm,drc-names:
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first 4-bytes: BE-encoded integer denoting the number of entries
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each entry: a NULL-terminated <name> string encoded as a byte array
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<name> values for logical/virtual resources are defined in PAPR+ v2.7,
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Section 13.5.2.4, and basically consist of the type of the resource
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followed by a space and a numerical value that's unique across resources
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of that type.
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<name> values for "physical" resources such as PCI or VIO devices are
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defined as being "location codes", which are the "location labels" of
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each encapsulating device, starting from the chassis down to the
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individual slot for the device, concatenated by a hyphen. This provides
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a mapping of resources to a physical location in a chassis for debugging
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purposes. For QEMU, this mapping is less important, so we assign a
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location code that conforms to naming specifications, but is simply a
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location label for the slot by itself to simplify the implementation.
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The naming convention for location labels is documented in detail in
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PAPR+ v2.7, Section 12.3.1.5, and in our case amounts to using "C<n>"
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for PCI/VIO device slots, where <n> is unique across all PCI/VIO
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device slots.
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ibm,drc-indexes:
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first 4-bytes: BE-encoded integer denoting the number of entries
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each 4-byte entry: BE-encoded <index> integer that is unique across all DRCs
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in the machine
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<index> is arbitrary, but in the case of QEMU we try to maintain the
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convention used to assign them to pSeries guests on pHyp:
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bit[31:28]: integer encoding of <type>, where <type> is:
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1 for CPU resource
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2 for PHB resource
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3 for VIO resource
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4 for PCI resource
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8 for Memory resource
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bit[27:0]: integer encoding of <id>, where <id> is unique across
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all resources of specified type
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ibm,drc-power-domains:
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first 4-bytes: BE-encoded integer denoting the number of entries
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each 4-byte entry: 32-bit, BE-encoded <index> integer that specifies the
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power domain the resource will be assigned to. In the case of QEMU
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we associated all resources with a "live insertion" domain, where the
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power is assumed to be managed automatically. The integer value for
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this domain is a special value of -1.
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ibm,drc-types:
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first 4-bytes: BE-encoded integer denoting the number of entries
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each entry: a NULL-terminated <type> string encoded as a byte array
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<type> is assigned as follows:
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"CPU" for a CPU
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"PHB" for a physical host-bridge
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"SLOT" for a VIO slot
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"28" for a PCI slot
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"MEM" for memory resource
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== Guest->Host interface to manage dynamic resources ==
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Each DRC is given a globally unique DRC Index, and resources associated with
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a particular DRC are configured/managed by the guest via a number of RTAS
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calls which reference individual DRCs based on the DRC index. This can be
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considered the guest->host interface.
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rtas-set-power-level:
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arg[0]: integer identifying power domain
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arg[1]: new power level for the domain, 0-100
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output[0]: status, 0 on success
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output[1]: power level after command
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Set the power level for a specified power domain
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rtas-get-power-level:
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arg[0]: integer identifying power domain
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output[0]: status, 0 on success
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output[1]: current power level
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Get the power level for a specified power domain
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rtas-set-indicator:
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arg[0]: integer identifying sensor/indicator type
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arg[1]: index of sensor, for DR-related sensors this is generally the
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DRC index
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arg[2]: desired sensor value
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output[0]: status, 0 on success
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Set the state of an indicator or sensor. For the purpose of this document we
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focus on the indicator/sensor types associated with a DRC. The types are:
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9001: isolation-state, controls/indicates whether a device has been made
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accessible to a guest
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supported sensor values:
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0: isolate, device is made unaccessible by guest OS
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1: unisolate, device is made available to guest OS
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9002: dr-indicator, controls "visual" indicator associated with device
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supported sensor values:
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0: inactive, resource may be safely removed
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1: active, resource is in use and cannot be safely removed
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2: identify, used to visually identify slot for interactive hotplug
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3: action, in most cases, used in the same manner as identify
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9003: allocation-state, generally only used for "logical" DR resources to
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request the allocation/deallocation of a resource prior to acquiring
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it via isolation-state->unisolate, or after releasing it via
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isolation-state->isolate, respectively. for "physical" DR (like PCI
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hotplug/unplug) the pre-allocation of the resource is implied and
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this sensor is unused.
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supported sensor values:
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0: unusable, tell firmware/system the resource can be
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unallocated/reclaimed and added back to the system resource pool
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1: usable, request the resource be allocated/reserved for use by
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guest OS
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2: exchange, used to allocate a spare resource to use for fail-over
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in certain situations. unused in QEMU
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3: recover, used to reclaim a previously allocated resource that's
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not currently allocated to the guest OS. unused in QEMU
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rtas-get-sensor-state:
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arg[0]: integer identifying sensor/indicator type
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arg[1]: index of sensor, for DR-related sensors this is generally the
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DRC index
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output[0]: status, 0 on success
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Used to read an indicator or sensor value.
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For DR-related operations, the only noteworthy sensor is dr-entity-sense,
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which has a type value of 9003, as allocation-state does in the case of
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rtas-set-indicator. The semantics/encodings of the sensor values are distinct
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however:
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supported sensor values for dr-entity-sense (9003) sensor:
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0: empty,
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for physical resources: DRC/slot is empty
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for logical resources: unused
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1: present,
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for physical resources: DRC/slot is populated with a device/resource
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for logical resources: resource has been allocated to the DRC
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2: unusable,
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for physical resources: unused
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for logical resources: DRC has no resource allocated to it
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3: exchange,
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for physical resources: unused
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for logical resources: resource available for exchange (see
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allocation-state sensor semantics above)
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4: recovery,
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for physical resources: unused
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for logical resources: resource available for recovery (see
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allocation-state sensor semantics above)
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rtas-ibm-configure-connector:
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arg[0]: guest physical address of 4096-byte work area buffer
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arg[1]: 0, or address of additional 4096-byte work area buffer. only non-zero
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if a prior RTAS response indicated a need for additional memory
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output[0]: status:
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0: completed transmittal of device-tree node
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1: instruct guest to prepare for next DT sibling node
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2: instruct guest to prepare for next DT child node
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3: instruct guest to prepare for next DT property
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4: instruct guest to ascend to parent DT node
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5: instruct guest to provide additional work-area buffer
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via arg[1]
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990x: instruct guest that operation took too long and to try
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again later
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Used to fetch an OF device-tree description of the resource associated with
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a particular DRC. The DRC index is encoded in the first 4-bytes of the first
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work area buffer.
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Work area layout, using 4-byte offsets:
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wa[0]: DRC index of the DRC to fetch device-tree nodes from
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wa[1]: 0 (hard-coded)
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wa[2]: for next-sibling/next-child response:
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wa offset of null-terminated string denoting the new node's name
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for next-property response:
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wa offset of null-terminated string denoting new property's name
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wa[3]: for next-property response (unused otherwise):
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byte-length of new property's value
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wa[4]: for next-property response (unused otherwise):
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new property's value, encoded as an OFDT-compatible byte array
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== hotplug/unplug events ==
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For most DR operations, the hypervisor will issue host->guest add/remove events
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using the EPOW/check-exception notification framework, where the host issues a
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check-exception interrupt, then provides an RTAS event log via an
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rtas-check-exception call issued by the guest in response. This framework is
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documented by PAPR+ v2.7, and already use in by QEMU for generating powerdown
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requests via EPOW events.
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For DR, this framework has been extended to include hotplug events, which were
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previously unneeded due to direct manipulation of DR-related guest userspace
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tools by host-level management such as an HMC. This level of management is not
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applicable to PowerKVM, hence the reason for extending the notification
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framework to support hotplug events.
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Note that these events are not yet formally part of the PAPR+ specification,
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but support for this format has already been implemented in DR-related
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guest tools such as powerpc-utils/librtas, as well as kernel patches that have
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been submitted to handle in-kernel processing of memory/cpu-related hotplug
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events[1], and is planned for formal inclusion is PAPR+ specification. The
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hotplug-specific payload is QEMU implemented as follows (with all values
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encoded in big-endian format):
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struct rtas_event_log_v6_hp {
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#define SECTION_ID_HOTPLUG 0x4850 /* HP */
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struct section_header {
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uint16_t section_id; /* set to SECTION_ID_HOTPLUG */
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uint16_t section_length; /* sizeof(rtas_event_log_v6_hp),
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* plus the length of the DRC name
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* if a DRC name identifier is
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* specified for hotplug_identifier
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*/
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uint8_t section_version; /* version 1 */
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uint8_t section_subtype; /* unused */
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uint16_t creator_component_id; /* unused */
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} hdr;
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#define RTAS_LOG_V6_HP_TYPE_CPU 1
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#define RTAS_LOG_V6_HP_TYPE_MEMORY 2
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#define RTAS_LOG_V6_HP_TYPE_SLOT 3
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#define RTAS_LOG_V6_HP_TYPE_PHB 4
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#define RTAS_LOG_V6_HP_TYPE_PCI 5
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uint8_t hotplug_type; /* type of resource/device */
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#define RTAS_LOG_V6_HP_ACTION_ADD 1
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#define RTAS_LOG_V6_HP_ACTION_REMOVE 2
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uint8_t hotplug_action; /* action (add/remove) */
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#define RTAS_LOG_V6_HP_ID_DRC_NAME 1
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#define RTAS_LOG_V6_HP_ID_DRC_INDEX 2
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#define RTAS_LOG_V6_HP_ID_DRC_COUNT 3
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uint8_t hotplug_identifier; /* type of the resource identifier,
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* which serves as the discriminator
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* for the 'drc' union field below
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*/
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uint8_t reserved;
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union {
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uint32_t index; /* DRC index of resource to take action
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* on
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*/
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uint32_t count; /* number of DR resources to take
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* action on (guest chooses which)
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*/
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char name[1]; /* string representing the name of the
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* DRC to take action on
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*/
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} drc;
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} QEMU_PACKED;
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== ibm,lrdr-capacity ==
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ibm,lrdr-capacity is a property in the /rtas device tree node that identifies
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the dynamic reconfiguration capabilities of the guest. It consists of a triple
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consisting of <phys>, <size> and <maxcpus>.
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<phys>, encoded in BE format represents the maximum address in bytes and
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hence the maximum memory that can be allocated to the guest.
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<size>, encoded in BE format represents the size increments in which
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memory can be hot-plugged to the guest.
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<maxcpus>, a BE-encoded integer, represents the maximum number of
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processors that the guest can have.
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pseries guests use this property to note the maximum allowed CPUs for the
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guest.
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== ibm,dynamic-reconfiguration-memory ==
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ibm,dynamic-reconfiguration-memory is a device tree node that represents
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dynamically reconfigurable logical memory blocks (LMB). This node
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is generated only when the guest advertises the support for it via
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ibm,client-architecture-support call. Memory that is not dynamically
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reconfigurable is represented by /memory nodes. The properties of this
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node that are of interest to the sPAPR memory hotplug implementation
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in QEMU are described here.
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ibm,lmb-size
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This 64bit integer defines the size of each dynamically reconfigurable LMB.
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ibm,associativity-lookup-arrays
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This property defines a lookup array in which the NUMA associativity
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information for each LMB can be found. It is a property encoded array
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that begins with an integer M, the number of associativity lists followed
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by an integer N, the number of entries per associativity list and terminated
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by M associativity lists each of length N integers.
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This property provides the same information as given by ibm,associativity
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property in a /memory node. Each assigned LMB has an index value between
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0 and M-1 which is used as an index into this table to select which
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associativity list to use for the LMB. This index value for each LMB
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is defined in ibm,dynamic-memory property.
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ibm,dynamic-memory
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This property describes the dynamically reconfigurable memory. It is a
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property encoded array that has an integer N, the number of LMBs followed
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by N LMB list entires.
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Each LMB list entry consists of the following elements:
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- Logical address of the start of the LMB encoded as a 64bit integer. This
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corresponds to reg property in /memory node.
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- DRC index of the LMB that corresponds to ibm,my-drc-index property
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in a /memory node.
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- Four bytes reserved for expansion.
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- Associativity list index for the LMB that is used as an index into
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ibm,associativity-lookup-arrays property described earlier. This
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is used to retrieve the right associativity list to be used for this
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LMB.
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- A 32bit flags word. The bit at bit position 0x00000008 defines whether
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the LMB is assigned to the the partition as of boot time.
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[1] http://thread.gmane.org/gmane.linux.ports.ppc.embedded/75350/focus=106867
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