Remove "if(__get_user" checks and their related error paths
for all architecture's do_sigreturn. Remove the unlock_user_struct
when the only way to end up there is from failed lock_user_struct.
v3: remove unneccesary sigsegv label as suggested by Peter
A function never called from anywhere, obviously half-complete.
Remove function and if someone wants to complete this, please
check the old version out of git history.
signal/all: remove return value from restore_sigcontext
make most implementations of restore_sigcontext void and
remove checking it's return value from functions calling
restore_sigcontext.
The exception is the X86 version of the function that is
too different from others to deal in this way, and arm
version, to keep possibility of erroring out from failed
valid_user_regs.
v3: keep arm valid_user_regs for filling in near future.
signal/all: remove __get/__put_user return value reading
Remove all the simple cases of reading the return value
of __get_user and __put_user.
We set err = 0 in sparc versions of do_sigreturn and
sparc64_set_context to avoid compile error, but else this patch is
just general removal of err |= __get_user ... idiom.
v2: remove err variable from target_rt_restore_ucontext
Peter Maydell [Mon, 16 Jun 2014 17:26:21 +0000 (18:26 +0100)]
Merge remote-tracking branch 'remotes/agraf/tags/signed-ppc-for-upstream' into staging
Patch queue for ppc - 2014-06-16
This pull request brings a lot of fun things. Among others we have
- e500: u-boot firmware support
- sPAPR: magic page enablement
- sPAPR: add "compat" CPU option to support older guests
- sPAPR: refactorings in preparation for VFIO
- POWER8 live migration
- mac99: expose bus frequency
- little endian core dump, gdb and disas support
- new ppc64le-linux-user target
- DFP emulation
- bug fixes
# gpg: Signature made Mon 16 Jun 2014 12:28:32 BST using RSA key ID 03FEDC60
# gpg: Can't check signature: public key not found
* remotes/agraf/tags/signed-ppc-for-upstream: (156 commits)
spapr_pci: Advertise MSI quota
PPC: KVM: Make pv hcall endian agnostic
powerpc: use float64 for frsqrte
spapr: Add kvm-type property
spapr: Create SPAPRMachine struct
linux-user: Tell guest about big host page sizes
spapr_hcall: Add address-translation-mode-on-interrupt resource in H_SET_MODE
spapr_hcall: Split h_set_mode()
target-ppc: Enable DABRX SPR and limit it to <=POWER7
target-ppc: Enable PPR and VRSAVE SPRs migration
target-ppc: Add POWER8's Event Based Branch (EBB) control SPRs
KVM: target-ppc: Enable TM state migration
target-ppc: Add POWER8's TM SPRs
target-ppc: Add POWER8's MMCR2/MMCRS SPRs
target-ppc: Enable FSCR facility check for TAR
target-ppc: Add POWER8's FSCR SPR
target-ppc: Add POWER8's TIR SPR
target-ppc: Refactor class init for POWER7/8
target-ppc: Switch POWER7/8 classes to use correct PMU SPRs
target-ppc: Make use of gen_spr_power5p_lpar() for POWER7/8
...
Paolo Bonzini [Mon, 16 Jun 2014 14:43:25 +0000 (16:43 +0200)]
rules.mak: remove $(sort) from extract-libs
Duplicate removal was added to extract-libs in order to avoid including
the same library multiple times into the linking command line; this could
potentially happen when using "foo.mo-libs" (which adds the library to
all components, causing it to appear N times if the module is composed
of N objects). However, sorting and removing duplicates causes problems
with static linking, and also with space-separated linker options as
found in some Mac OS X packaging systems. Furthermore, the "optimization"
is really a non-problem since we do not expect .mo modules to be composed
of many files.
Badari Pulavarty [Wed, 11 Jun 2014 08:49:33 +0000 (18:49 +1000)]
spapr_pci: Advertise MSI quota
Hotplug of multiple disks fails due to MSI vector quota check.
Number of MSI vectors default to 8 allowing only 4 devices.
This happens on RHEL6.5 guest. RHEL7 and SLES11 guests fallback
to INTX.
One way to workaround the issue is to increase total MSIs,
so that MSI quota check allows us to hotplug multiple disks.
This sets the quota to the maximum number of interupts XICS has
which is 1024 now (XICS_IRQS). This moves XICS_IRQS from spapr.c
to xics.h for wider visibility.
Signed-off-by: Badari Pulavarty <[email protected]>
[aik: put XICS_IRQS=1024 instead of 64i, fixed endianness and size] Signed-off-by: Alexey Kardashevskiy <[email protected]> Signed-off-by: Alexander Graf <[email protected]>
Alexander Graf [Wed, 11 Jun 2014 10:19:03 +0000 (12:19 +0200)]
PPC: KVM: Make pv hcall endian agnostic
There were a few revisions of the Linux kernel that incorrectly swapped
the hcall instructions when they saw ePAPR compliant hypercalls.
We already have fixups for those in place when running with PR KVM, but
HV KVM and systems that don't implement hypercalls at all are still broken
because they fall back to the QEMU implementation of fallback hypercalls.
So let's make the fallback hypercall instruction path endian agnostic. This
only really works well for 64bit guests, but I don't think there are any 32bit
systems left that don't implement real pv hcall support, so we'll never get
into this code path.
Tristan Gingold [Tue, 3 Jun 2014 09:14:20 +0000 (11:14 +0200)]
powerpc: use float64 for frsqrte
Remove the code that reduce the result to float32 as the frsqrte
instruction is defined to return a double-precision estimate of
the reciprocal square root.
Although reducing the fractional part is harmless (as the estimation
must have at least 12 bits of precision according to the old PEM),
reducing the exponent range is not correct.
Eduardo Habkost [Fri, 30 May 2014 21:24:32 +0000 (18:24 -0300)]
spapr: Add kvm-type property
The kvm-type machine option was left out when MachineState was
introduced, preventing the kvm-type option from being used. Add the
missing property to the sPAPR machine class, so it can be used.
Alexander Graf [Thu, 5 Jun 2014 09:39:43 +0000 (11:39 +0200)]
linux-user: Tell guest about big host page sizes
We tell the guest its page size via AUX vectors. The guest process then uses
this page size as information on which boundaries it can mmap() things.
However, if the host has a bigger page size granularity than the guest, it can
not fulfill these mmap() requests - which falls apart when MAP_FIXED is passed
to mmap.
So in that case, let the guest know that we're running on a bigger page size
granularity than the target would require.
This fixes running qemu-ppc (TARGET_PAGE_SIZE=4k) on a 64k page size ppc64 host
for me.
target-ppc: Enable DABRX SPR and limit it to <=POWER7
This adds DABRX SPR.
As DABR(X) are present in POWER CPUs till POWER7 only and POWER8 does not
have them (as it implements more powerful facility instead), this limits
DABR/DABRX registration by POWER7 (inclusive).
target-ppc: Add POWER8's Event Based Branch (EBB) control SPRs
POWER8 supports Event-Based Branch Facility (EBB). It is controlled via
set of SPRs access to which should generate an "Facility Unavailable"
interrupt if the facilities are not enabled in FSCR for problem state.
This adds generic spr_read_prev_upper32()/spr_write_prev_upper32() to
handle upper half SPRs such as TEXASRU which is upper half of TEXASR.
Since this is not the only register like that and their numbers go
consequently, it makes sense to generalize the helpers.
This adds a gen_msr_facility_check() helper which purpose is to generate
the Facility Unavailable exception if the facility is disabled.
It is a copy of gen_fscr_facility_check() but it checks for enabled
facility in MSR rather than FSCR/HFSCR. It still sets the interrupt cause
in FSCR/HFSCR (whichever is passed to the helper).
This adds spr_read_tm/spr_write_tm/spr_read_tm_upper32/spr_write_tm_upper32
which are used for TM SPRs.
This adds TM-relates MSR bits definitions. This enables TM in POWER8 CPU class'
msr_mask.
This makes user-privileged read/write fail if TAR facility is not enabled
in FSCR.
Since this is the very first check for enabled in FSCR facility,
this also adds gen_fscr_facility_check() for using in spr_write_tar()/
spr_read_tar().
This enables TAR in FSCR for user mode unconditionally.
This adds an FSCR (Facility Status and Control Register) SPR. This defines
names for FSCR bits.
This defines new exception type - POWERPC_EXCP_FU - "facility unavailable" (FU).
This registers an interrupt vector for it at 0xF60 as PowerISA defines.
This adds a TCG helper_fscr_facility_check() helper to raise an exception
if the facility is not enabled. It updates the interrupt cause field
in FSCR. This adds a TCG translation block generation code. The helper
may be used for HFSCR too as it has the same format.
The helper raising FU exceptions is not used by this patch but will be
in the next ones.
This adds gen_update_current_nip() to update NIP in DisasContext.
This helper is not used now and will be called before checking for
a condition for throwing an FU exception.
target-ppc: Make use of gen_spr_book3s_altivec() for POWER7/8
This replaces VRSAVE registration and vscr_init() call with
gen_spr_book3s_altivec() which is generic and does the same thing if
insns_flags has PPC_ALTIVEC bit set (which POWER7/8 have set).
target-ppc: Move POWER7/8 CFAR/DSCR/CTRL/PPR/PCR SPR registration to helpers
This moves SCFAR/DSCR/CTRL/PPR/PCR PRs to helpers. Later these helpers
will be called from generalized init_proc_book3s_64().
This switches init_proc_POWER7() to use generalized gen_spr_book3s_common()
which registers CRTL SPR under slightly different names. No change in
behaviour or non-debug output is expected.
After merging 970s into one class, check_pow_970() is used for all of them.
Since POWER5+ is no different in the matter of supported power modes,
let's use the same check_pow() callback for POWER5+ too,
target-ppc: Introduce and reuse generalized init_proc_book3s_64()
At the moment every POWER CPU family has its own init_proc_POWERX function.
E500 already has common init function so we try to do the same thing.
This introduces BOOK3S_CPU_TYPE enum with 2 values - 970 and POWER5+.
This introduces generalized init_proc_book3s_64() which accepts a CPU type
as a parameter.
This uses new init function for 970 and POWER5+ CPU classes.
970 and POWER5+ use the same CPU class initialization except 3 things:
1. logical partitioning is controlled by LPCR (POWER5+) and HID4 (970)
SPRs;
2. 970 does not have EAR (External Access Register) SPR and PowerISA 2.03
defines one so keep it only for POWER5+;
3. POWER5+ does not have ALTIVEC so insns_flags does not have PPC_ALTIVEC
flag set and gen_spr_book3s_altivec() won't init ALTIVEC for POWER5+.
target-ppc: Add PMC5/6, SDAR and MMCRA to 970 family
MMCR0, MMCR1, MMCRA, PMC1..6, SIAR, SDAR are defined for 970 and PowerISA
CPUs. Since we are building common infrastructure for SPRs intialization
to share it between 970 and POWER5+/7/..., let's add missing SPRs to
the 970 family. Later rework of CPU class initialization will use those
for all PowerISA CPUs.
This adds new SPRs and enables writing to Uxxxx SPRs from supermode.
This stops using 7xx common SPRs init function and adds separate set
of helpers for 970.
This does not copy ICTC SPR as neither 970 manual nor PowerISA mention it.
This defines 970/book3s PMU SPRs constants as they differs from the ones
used for 7XX.
This creates 2 helpers for PMU SPRs, one for supermode privileged SPRs and
one for user privileged SPRs as "sup" versions can be shared across
the family while "user" versions will behave different starting POWER8
(which will be addressed later).
This allows writing to Uxxxx SPRs from supermode. spr_write_ureg() is
implemented for this as a copy of already existing spr_read_ureg().
This allows writing to supervisor's SIAR - it used to be disabled
when gen_spr_7xx() was used.
This splits one init_proc_970() into a set of small helpers. Later
init_proc_970() will be generalized and will call different set of helpers
depending on the current CPU class.
target-ppc: Merge 970FX and 970MP into a single 970 class
The differences between classes were:
1. SLB size, was 32 for 970 and 64 for others, should be 64 for all;
2. check_pow() callback, HID0 format is the same so should be the same
0x01C00000 which means "deep nap", "doze" and "nap" bits set;
3. LPCR - 970 does not have it but 970MP had one (by mistake).
This fixes wrong differences and makes one 970 class.
This fixes wrong registration of LPCR which is not present on 970.
This defines HID0 bits and uses them in check_pow_970().
This does not copy MSR_SHV (Hypervisor State, HV) bit from 970FX to
970 class as we do not emulate hypervisor in QEMU anyway.
This does not remove check_pow_970FX now as it is still used by POWER5+
class, this will be addressed later.
As defined in Linux kernel, PMC*, SIAR, MMCR0/1 have different numbers
for 32 and 64 bit POWERPC. We are going to support 64bit versions too so
let's rename 32bit ones to avoid confusion.
This is a mechanical patch so it does not fix obvious mistake with these
registers in POWER7 yet, this will be fixed later.
Alexander Graf [Wed, 4 Jun 2014 20:58:50 +0000 (22:58 +0200)]
PPC: e500: Merge 32 and 64 bit SPE emulation
Today we have a lot of conditional code in the SPE emulation depending on
whether we have 64bit GPRs or not.
Unfortunately the assumption that we can just recycle the 64bit GPR
implementation is wrong. Normal SPE implementations maintain the upper 32 bits
on all non-SPE instructions which then only modify the low 32 bits. However
all instructions we model that adhere to the normal SF based switching don't
care whether they operate on 32 or 64 bit registers and just always use the full
64 bits.
So let's remove that dubious SPE optimization and revert everything to the same
code path the 32bit target code was taking. That way we get rid of differences
between the two implementations, but will get a slight performance hit when
emulating SPE instructions.
This fixes SPE emulation with qemu-system-ppc64 for me.
Alexander Graf [Thu, 24 Apr 2014 12:57:04 +0000 (14:57 +0200)]
PPC: spapr: Expose /hypervisor node in device tree
PR KVM supports an ePAPR compliant hypercall interface in parallel to the
normal sPAPR one. Expose the ePAPR /hypervisor node and properties to the
guest so it can use it.
This enables magic page sharing on PR KVM with -M pseries.
However we had a few nasty bugs in the magic page implementation on vcpus
newer than 970 (p7, p8) that KVM now has workarounds for. It indicates that
it does have these workarounds through the PPC_FIXUP_HCALL capability.
To not expose broken guest kernels to issues on host kernels that don't
have the fixups in place, we don't expose working hypercall instructions
when the fixups are not available so that the guest can never active the
magic page.
Alexander Graf [Wed, 4 Jun 2014 00:01:10 +0000 (02:01 +0200)]
PPC: SPE: Fix high-bits bitmask
The SPE emulation code wants to access the highest 32bits of a 64bit register
and uses the andi TCG instruction for that. Unfortunately it masked with the
wrong mask. Fix the mask to actually cover the upper 32 bits.
This fixes simple multiplication tests with SPE guests for me.
Peter Maydell [Thu, 29 May 2014 11:05:34 +0000 (12:05 +0100)]
hw/pci-host/ppce500: Fix typo in vmstate definition
Fix a typo in the ppce500_pci vmstate definition which meant that
we were migrating the struct pci_inbound using the vmstate for
pci_outbound. Fortunately the two structures have exactly the same
format at the moment (four uint32_ts) so this was harmless, and
we can correcting the typo without a migration compatibility
break because the vmstate name doesn't go out on the wire.
Tom Musta [Thu, 29 May 2014 14:12:24 +0000 (09:12 -0500)]
target-ppc: Store Quadword Conditional Drops Size Bit
The size and register information are encoded into the reserve_info field
of CPU state in the store conditional translation code. Specifically, the
size is shifted left by 5 bits (see target-ppc/translate.c gen_conditional_store).
The user-mode store conditional code erroneously extracts the size by ANDing
with a 4 bit mask; this breaks if size >= 16.
Eliminate the mask to make the extraction of size mirror its encoding.
Tom Musta [Thu, 29 May 2014 14:12:23 +0000 (09:12 -0500)]
target-ppc: Confirm That .bss Pages Are Valid
The existing code does a check to ensure that a .bss region is properly
mmap'd. When additional mmap is required, the (guest) pages are also
validated. However, this code has a bug: when host page size is larger
than target page size, it is possible for the .bss pages to already be
(host) mapped but the guest .bss pages may not be valid.
The check to mmap additional space is separated from the flagging of the
target (guest) pages, thus ensuring that both aspects are done properly.
Doug Kwan [Thu, 29 May 2014 14:12:19 +0000 (09:12 -0500)]
target-ppc: Support little-endian PPC64 in user mode.
Look at ELF header to determine ABI version on PPC64. This is required
for executing the first instruction correctly. Also print correct machine
name in uname() system call.
Alex Zuepke [Wed, 28 May 2014 17:25:36 +0000 (19:25 +0200)]
PPC: e500: Fix MMUCSR0 emulation
A "mtspr SPRMMUCSR0, reg" always flushed TLB0,
because it passed the SPR number 0x3f4 to the flush routine.
But we want to flush either TLB0 or TBL1 depending on the GPR value.
Signed-off-by: Alex Zuepke <[email protected]>
[agraf: change subject line, fix TCGv size mismatch] Signed-off-by: Alexander Graf <[email protected]>
spapr_iommu: Introduce bus_offset in sPAPRTCETable
This adds @bus_offset into sPAPRTCETable to tell where TCE table starts
from. It is set to 0 for emulated devices. Dynamic DMA windows will use
other offset.
spapr_iommu: Introduce page_shift in sPAPRTCETable
At the moment only 4K pages are supported by sPAPRTCETable. Since sPAPR
spec allows other page sizes and we are going to implement them, we need
page size to be configrable.
This adds @page_shift into sPAPRTCETable and replaces SPAPR_TCE_PAGE_SHIFT
with it where it is possible.
spapr_iommu: Get rid of window_size in sPAPRTCETable
This removes window_size as it is basically a copy of nb_table
shifted by SPAPR_TCE_PAGE_SHIFT. As new dynamic DMA windows are
going to support windows as big as the entire RAM and this number
will be bigger that 32 capacity, we will have to do something
about @window_size anyway and removal seems to be the right way to go.
This removes dma_window_start/dma_window_size from sPAPRPHBState as
they are no longer used.
spapr_pci: spapr_iommu: Make DMA window a subregion
Currently the default DMA window is represented by a single MemoryRegion.
However there can be more than just one window so we need
a "root" memory region to be separated from the actual DMA window(s).
This introduces a "root" IOMMU memory region and adds a subregion for
the default DMA 32bit window. Following patches will add other
subregion(s).
This initializes a default DMA window subregion size to the guest RAM
size as this window can be switched into "bypass" mode which implements
direct DMA mapping.
The spapr-pci PHB initializes IOMMU for emulated devices only.
The upcoming VFIO support will do it different. However both emulated
and VFIO PHB types share most of the initialization code.
For the type specific things a new finish_realize() callback is
introduced.
This introduces sPAPRPHBClass derived from PCIHostBridgeClass and
adds the callback pointer.
This implements finish_realize() for emulated devices.
Currently only single TCE entry per request is supported (H_PUT_TCE).
However PAPR+ specification allows multiple entry requests such as
H_PUT_TCE_INDIRECT and H_STUFF_TCE. Having less transitions to the host
kernel via ioctls, support of these calls can accelerate IOMMU operations.
This implements H_STUFF_TCE and H_PUT_TCE_INDIRECT.
This advertises "multi-tce" capability to the guest if the host kernel
supports it (KVM_CAP_SPAPR_MULTITCE) or guest is running in TCG mode.
Alexander Graf [Mon, 26 May 2014 23:59:06 +0000 (01:59 +0200)]
macio: Fix timer endianness
The timer registers on our KeyLargo macio emulation are read as byte reversed
from the big endian guest, so we better expose them endian reversed as well.
This fixes initial hickups of booting Mac OS X with -M mac99 for me.
Alexander Graf [Mon, 26 May 2014 08:27:58 +0000 (10:27 +0200)]
macio ide: Do remainder access asynchronously
The macio IDE controller has some pretty nasty magic in its implementation to
allow for unaligned sector accesses. We used to handle these accesses
synchronously inside the IO callback handler.
However, the block infrastructure changed below our feet and now it's impossible
to call a synchronous block read/write from the aio callback handler of a
previous block access.
Work around that limitation by making the unaligned handling bits also go
through our asynchronous handler.
Tom Musta [Wed, 14 May 2014 17:14:42 +0000 (12:14 -0500)]
target-ppc: Fix popcntb Opcode Bug
The popcntb instruction is erroneously encoded with opcode extension (opc1,opc2) = (0x03,0x03).
Bits 21-30 of popcntb are 122 = 0b00011-0b11010 and therefore this should be encoded
as (opc1,opc2) = (0x1A, 0x03).
spapr_iommu: Replace @instance_id with LIOBN for migration
SPAPR IOMMU is a bus-less device and therefore its only ID in
migration stream is an instance id which is not reliable ID
as it depends on the command line parameters order. Since
libvirt may change the order, we need something better than that.
This removes VMSD descriptor from the class definitiion and
registers it with @liobn as an intance ID to let the destination
side find the right device to receive migration data.
spapr: Implement processor compatibility in ibm, client-architecture-support
Modern Linux kernels support last POWERPC CPUs so when a kernel boots,
in most cases it can find a matching cpu_spec in the kernel's cpu_specs
list. However if the kernel is quite old, it may be missing a definition
of the actual CPU. To provide an ability for old kernels to work on modern
hardware, a Processor Compatibility Mode has been introduced
by the PowerISA specification.
>From the hardware prospective, it is supported by the Processor
Compatibility Register (PCR) which is defined in PowerISA. The register
enables one of the compatibility modes (2.05/2.06/2.07).
Since PCR is a hypervisor privileged register and cannot be
directly accessed from the guest, the mode selection is done via
ibm,client-architecture-support (CAS) RTAS call using which the guest
specifies what "raw" and "architected" CPU versions it supports.
QEMU works out the best match, changes a "cpu-version" property of
every CPU and notifies the guest about the change by setting these
properties in the buffer passed as a response on a custom H_CAS hypercall.
This implements ibm,client-architecture-support parameters parsing
(now only for PVRs) and cooks the device tree diff with new values for
"cpu-version", "ibm,ppc-interrupt-server#s" and
"ibm,ppc-interrupt-server#s" properties.
spapr: Limit threads per core according to current compatibility mode
This puts a limit to the number of threads per core based on the current
compatibility mode. Although PowerISA specs do not specify the maximum
threads per core number, the linux guest still expects that
PowerISA2.05-compatible CPU supports only 2 threads per core as this
is what POWER6 (2.05 compliant CPU) implements, the same is for
POWER7 (2.06, 4 threads) and POWER8 (2.07, 8 threads).
This calls spapr_fixup_cpu_smt_dt() with the maximum allowed number of
threads which affects ibm,ppc-interrupt-server#s and
ibm,ppc-interrupt-gserver#s properties.
In PPC code we usually use the "cs" name for a CPUState* variables
and "cpu" for PowerPCCPU. So let's change spapr_fixup_cpu_dt() to
use same rules as spapr_create_fdt_skel() does.
This adds missing nodes creation if they do not already exist in
the current device tree, this is going to be used from
the client-architecture-support handler.
The PAPR+ specification defines a ibm,client-architecture-support (CAS)
RTAS call which purpose is to provide a negotiation mechanism for
the guest and the hypervisor to work out the best compatibility parameters.
During the negotiation process, the guest provides an array of various
options and capabilities which it supports, the hypervisor adjusts
the device tree and (optionally) reboots the guest.
At the moment the Linux guest calls CAS method at early boot so SLOF
gets called. SLOF allocates a memory buffer for the device tree changes
and calls a custom KVMPPC_H_CAS hypercall. QEMU parses the options,
composes a diff for the device tree, copies it to the buffer provided
by SLOF and returns to SLOF. SLOF updates the device tree and returns
control to the guest kernel. Only then the Linux guest parses the device
tree so it is possible to avoid unnecessary reboot in most cases.
The device tree diff is a header with an update format version
(defined as 1 in this patch) followed by a device tree with the properties
which require update.
If QEMU detects that it has to reboot the guest, it silently does so
as the guest expects reboot to happen because this is usual pHyp firmware
behavior.
This defines custom KVMPPC_H_CAS hypercall. The current SLOF already
has support for it.
This implements stub which returns very basic tree (root node,
no properties) to the guest.
As the return buffer does not contain any change, no change in behavior is
expected.
This adds basic support for the "compat" CPU option. By specifying
the compat property, the user can manually switch guest CPU mode from
"raw" to "architected".
This defines feature disable bits which are not used yet as, for example,
PowerISA 2.07 says if 2.06 mode is selected, the TM bit does not matter -
transactional memory (TM) will be disabled because 2.06 does not define
it at all. The same is true for VSX and 2.05 mode. So just setting a mode
must be ok.
This does not change the existing behavior as the actual compatibility
mode support is coming in next patches.
Signed-off-by: Alexey Kardashevskiy <[email protected]>
[agraf: fix compilation on 32bit hosts] Signed-off-by: Alexander Graf <[email protected]>
spapr: Move SMT-related properties out of skeleton fdt
The upcoming support of the "ibm,client-architecture-support"
reconfiguration call will be able to change dynamically the number
of threads per core (SMT mode). From the device tree prospective
this does not change the number of CPU nodes (as it is one node per
a CPU core) but affects content and size of the ibm,ppc-interrupt-server#s
and ibm,ppc-interrupt-gserver#s properties.
This moves ibm,ppc-interrupt-server#s and ibm,ppc-interrupt-gserver#s
out of the device tree skeleton.
PowerISA defines a compatibility mode for server POWERPC CPUs which
is supported by the PCR special register which is hypervisor privileged.
To support this mode for guests, SPAPR defines a set of virtual PVRs,
one per PowerISA spec version. When a hypervisor needs a guest to work in
a compatibility mode, it puts a virtual PVR value into @cpu-version
property of a CPU node.
This introduces a "compat" CPU option which defines maximal compatibility
mode enabled. The supported modes are power6/power7/power8.
This does not change the existing behaviour, new property will be used
by next patches.
Alexander Graf [Thu, 22 May 2014 15:12:23 +0000 (17:12 +0200)]
PPC: openpic_kvm: Implement reset
When we trigger a system reset, the in-kernel openpic controller should also
get reset. This happens through a write to the GCR.RESET register which is
the same mechanism a guest would use to manually reset the device.
Paul Janzen [Thu, 22 May 2014 06:09:45 +0000 (23:09 -0700)]
openpic: Reset IRQ source private members
The openpic emulation code maintains an allowable-CPU's bitmap
("destmask") for each IRQ source which is calculated from the IDR
register value whenever the guest OS writes to it. However, if the
guest OS relies on the system to set the IDR register to a default
value at reset, and does not write IDR, then destmask does not get
updated, and interrupts do not get propagated to the guest.
Additionally, if an IRQ source is marked as critical, the source's
internal "output" and "nomask" fields are not correctly reset when the
PIC is reset.
Fix both these issues by calling write_IRQreg_idr from within
openpic_reset, instead of simply setting the IDR register to the
specified idr_reset value.
Paul Janzen [Thu, 22 May 2014 04:46:52 +0000 (21:46 -0700)]
openpic: Move definition of openpic_reset
This patch moves the definition of openpic_reset after the various
register read/write functions. No functional change. It is in
preparation for using the register read/write functions in
openpic_reset.
Greg Kurz [Mon, 19 May 2014 17:59:05 +0000 (19:59 +0200)]
target-ppc: Introduce callback for interrupt endianness
POWER7, POWER7+ and POWER8 families use the ILE bit of the LPCR
special purpose register to decide the endianness to use when
entering interrupt handlers. When running a Linux guest, this
provides a hint on the endianness used by the kernel. And when
it comes to dumping a guest, the information is needed to write
ELF headers using the kernel endianness.
Bharata B Rao [Mon, 19 May 2014 17:58:35 +0000 (19:58 +0200)]
target-ppc: Support dump for little endian ppc64
Fix ppc64 arch specific dump code to support all combinations of little/big
endian hosts/guests. FWIW the current code is broken for altivec registers
when guest and host have a different endianness: these 128-bit registers
are written to guest memory as a two 64-bit entities and we should also swap
them.
Unit testing was done with the following program provided by Tom Musta:
We introduce a NoteFuncArg type to avoid adding extra arguments to all note
functions.
Signed-off-by: Bharata B Rao <[email protected]>
[ rebased on top of current master branch,
introduced NoteFuncArg,
use new cpu_to_dump{16,32,64} endian helpers,
fix altivec support,
Greg Kurz <[email protected]> ] Reviewed-by: Alexander Graf <[email protected]> Signed-off-by: Greg Kurz <[email protected]> Signed-off-by: Alexander Graf <[email protected]>
Bharata B Rao [Mon, 19 May 2014 17:57:44 +0000 (19:57 +0200)]
dump: Make DumpState and endian conversion routines available for arch-specific dump code
Make DumpState and endian conversion routines available for arch-specific dump
code by moving into dump.h. DumpState will be needed by arch-specific dump
code to access target endian information from DumpState->ArchDumpInfo. Also
break the dependency of dump.h from stubs/dump.c by creating a separate
dump-arch.h.
This patch doesn't change any functionality.
Signed-off-by: Bharata B Rao <[email protected]>
[ rebased on top of current master branch,
renamed endian helpers to cpu_to_dump{16,32,64},
pass a DumpState * argument to endian helpers,
Greg Kurz <[email protected]> ] Signed-off-by: Greg Kurz <[email protected]>
[agraf: fix to apply] Signed-off-by: Alexander Graf <[email protected]>
Mark Cave-Ayland [Sun, 18 May 2014 12:20:55 +0000 (13:20 +0100)]
macio: handle non-block ATAPI DMA transfers
Currently the macio DMA routines assume that all DMA requests are for read/write
block transfers. This is not always the case for ATAPI, for example when
requesting a TOC where the response is generated directly in the IDE buffer.
Detect these non-block ATAPI DMA transfers (where no lba is specified in the
command) and copy the results directly into RAM as indicated by the DBDMA
descriptor. This fixes CDROM access under MorphOS.
This adds a "ibm,chip-id" property for CPU nodes which should be the same
for all cores in the same CPU socket. The recent guest kernels use this
information to associate threads with sockets.
This allows guests to have a different timebase origin from the host.
This is needed for migration, where a guest can migrate from one host
to another and the two hosts might have a different timebase origin.
However, the timebase seen by the guest must not go backwards, and
should go forwards only by a small amount corresponding to the time
taken for the migration.
This is only supported for recent POWER hardware which has the TBU40
(timebase upper 40 bits) register. That includes POWER6, 7, 8 but not
970.
This adds kvm_access_one_reg() to access a special register which is not
in env->spr. This requires kvm_set_one_reg/kvm_get_one_reg patch.
The feature must be present in the host kernel.
This bumps vmstate_spapr::version_id and enables new vmstate_ppc_timebase
only for it. Since the vmstate_spapr::minimum_version_id remains
unchanged, migration from older QEMU is supported but without
vmstate_ppc_timebase.
Alexander Graf [Sun, 19 Jan 2014 23:27:25 +0000 (00:27 +0100)]
PPC: e500: Move to u-boot as firmware
Almost all platforms QEMU emulates have some sort of firmware they can load
to expose a guest environment that closely resembles the way it would look
like on real hardware.
This patch introduces such a firmware on our e500 platforms. U-boot is the
default firmware for most of these systems and as such our preferred choice.
For backwards compatibility reasons (and speed and simplicity) we skip u-boot
when you use -kernel and don't pass in -bios. For all other combinations like
-kernel and -bios or no -kernel you get u-boot as firmware.
This allows you to modify the boot environment, execute a networked boot through
the e1000 emulation and execute u-boot payloads.
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