Clean up includes so that osdep.h is included first and headers
which it implies are not included manually.
This commit was created with scripts/clean-includes.
Backports commit b6a0aa053711e27e1a7825c1fca662beb05bee6f from qemu
Clean up includes so that osdep.h is included first and headers
which it implies are not included manually.
This commit was created with scripts/clean-includes.
Backports commit db5ebe5f411833b0ce4b6fa86ee00366e32d3968 from qemu
Clean up includes so that osdep.h is included first and headers
which it implies are not included manually.
This commit was created with scripts/clean-includes.
Backports commit 7b31bbc2e68605ab2f10dc609dd54cf4c7b5f49a from qemu
Clean up includes so that osdep.h is included first and headers
which it implies are not included manually.
This commit was created with scripts/clean-includes.
Backports commit c684822ad29968af09735148f03a511bc514589d from qemu
If executing ALIGN with shift count bp=0 within mips64 emulation,
the result of the operation should be sign extended.
Taken from the official documentation (pseudo code) :
ALIGN:
tmp_rt_hi = unsigned_word(GPR[rt]) << (8*bp)
tmp_rs_lo = unsigned_word(GPR[rs]) >> (8*(4-bp))
tmp = tmp_rt_hi || tmp_rt_lo
GPR[rd] = sign_extend.32(tmp)
Backports commit 51243852af322f0a1103a90c936c43db84def82f from qemu
cvt.s.d and cvt.d.s are FP operations and thus need to convert input
sNaN into corresponding qNaN. Explicitely use the floatXX_maybe_silence_nan
functions for that as the floatXX_to_floatXX functions do not do that.
Backports commit 1aa56f6ee7d2375b0734e98ba69cc41416894bbc from qemu
The roundAndPackFloat16 function should return a float16 value, not a
float32 one. Fix that.
Backports commit 7ceac86f49b564954f5bde477c4281f407be1399 from qemu
Replace the uint8 softfloat-specific typedef with uint8_t.
This change was made with
find include hw fpu target-* -name '*.[ch]' | xargs sed -i -e 's/\buint8\b/uint8_t/g'
together with manual removal of the typedef definition and
manual fixing of more erroneous uses found via test compilation.
It turns out that the only code using this type is an accidental
use where uint8_t was intended anyway...
Backports commit d341d9f3062c74d74c94ebe6359f067bed8311ba from qemu
Replace the int8 softfloat-specific typedef with int8_t.
This change was made with
find include hw fpu target-* -name '*.[ch]' | xargs sed -i -e 's/\bint8\b/int8_t/g'
together with manual removal of the typedef definition, and
manual undoing of various mis-hits.
Backports commit 8f506c709adb7d3bed4ebefefe9487c156192a64 from qemu
Replace the uint32 softfloat-specific typedef with uint32_t.
This change was made with
find include hw fpu target-* -name '*.[ch]' | xargs sed -i -e 's/\buint32\b/uint32_t/g'
together with manual removal of the typedef definition,
manual undoing of various mis-hits, and another couple of
fixes found via test compilation.
All the uses in hw/ were using the wrong type by mistake.
Backports commit 3a87d00910ef64a2eece4aad25d96ea10683fc5c from qemu
Replace the int32 softfloat-specific typedef with int32_t.
This change was made with
find hw include fpu target-* -name '*.[ch]' | xargs sed -i -e 's/\bint32\b/int32_t/g'
together with manual removal of the typedef definition, and
manual undoing of some mis-hits where macro arguments were
being used for token pasting rather than as a type.
The uses in hw/ipmi/ should not have been using this type at all.
Backports commit f4014512cda682a9d0c75310d278d7ae96b0505c from qemu
Replace the uint64 softfloat-specific typedef with uint64_t.
This change was made with
find include fpu target-* -name '*.[ch]' | xargs sed -i -e 's/\buint64\b/uint64_t/g'
together with manual removal of the typedef definition, and
manual undoing of some mis-hits where macro arguments were
being used for token pasting rather than as a type.
Note that the target-mips/kvm.c and target-s390x/kvm.c changes are fixing
code that should not have been using the uint64 type in the first place.
Backports commit 182f42fdc219e6481654fcfb73b17e4b4e63b6ff from qemu
Replace the int64 softfloat-specific typedef with int64_t.
This change was made with
find include fpu target-* -name '*.[ch]' | xargs sed -i -e 's/\bint64\b/int64_t/g'
together with manual removal of the typedef definition, and
manual undoing of some mis-hits where macro arguments were
being used for token pasting rather than as a type.
Backports commit f42c222482b651400f0fa417eb174da1c9502c1c from qemu
This patch enables migrating vcpu's TSC rate. If KVM on the
destination machine supports TSC scaling, guest programs will
observe a consistent TSC rate across the migration.
If TSC scaling is not supported on the destination machine, the
migration will not be aborted and QEMU on the destination will
not set vcpu's TSC rate to the migrated value.
If vcpu's TSC rate specified by CPU option 'tsc-freq' on the
destination machine is inconsistent with the migrated TSC rate,
the migration will be aborted.
For backwards compatibility, the migration of vcpu's TSC rate is
disabled on pc-*-2.5 and older machine types.
Backports relevant parts of commit 36f96c4b6bd25f43000c317518ff3df10202bc75 from qemu
This will ensure we never use the MMX_* and ZMM_* macros with the
wrong struct type.
Backports commit f23a9db6bca5b9a228c77bbcaa06d01510e148b7 from qemu
Add a new field and reorder MMXReg fields, to make MMXReg and
ZMMReg field lists look the same (except for the array sizes).
Backports commit 9253e1a7923e94598419ac9a7df7b8bc6cba65a5 from qemu
They are helpers for the ZMMReg fields, so name them accordingly.
This is just a global search+replace, no other changes are being
introduced.
Backports commit 19cbd87c14ab208858ee1233b790f37cfefed4b9 from qemu
The struct represents a 512-bit register, so name it accordingly.
This is just a global search+replace, no other changes are being
introduced.
Backports commit fa4518741ed69aa7993f9c15bb52eacc375681fc from qemu
Make MMXReg use the same field names used on XMMReg, so we can
try to reuse macros and other code later.
Backports commit 9618f40f06e90c8fa8ae06b56c7404a7cc937e22 from qemu
Rename the function so that the reason for its existence is
clearer: it does x86-specific initialization of TCG structures.
Backports commit 63618b4ed48f0fc2a7a3fd1117e2f0b512248dab from qemu
The AArch64 FPEXC32_EL2 system register is visible at EL2 and EL3,
and allows those exception levels to read and write the FPEXC
register for a lower exception level that is using AArch32.
Backports commit 03fbf20f4da58f41998dc10ec7542f65d37ba759 from qemu
The architecture requires that for an exception return to AArch32 the
low bits of ELR_ELx are ignored when the PC is set from them:
* if returning to Thumb mode, ignore ELR_ELx[0]
* if returning to ARM mode, ignore ELR_ELx[1:0]
We were only squashing bit 0; also squash bit 1 if the SPSR T bit
indicates this is a return to ARM code.
Backports commit c1e0371442bf3a7e42ad53c2a3d816ed7099f81d from qemu
We already implement almost all the checks for the illegal
return events from AArch64 state described in the ARM ARM section
D1.11.2. Add the two missing ones:
* return to EL2 when EL3 is implemented and SCR_EL3.NS is 0
* return to Non-secure EL1 when EL2 is implemented and HCR_EL2.TGE is 1
(We don't implement external debug, so the case of "debug state exit
from EL0 using AArch64 state to EL0 using AArch32 state" doesn't apply
for QEMU.)
Backports commit e393f339af87da7210f6c86902b321df6a2e8bf5 from qemu
Remove the assumptions that the AArch64 exception return code was
making about a return to AArch32 always being a return to EL0.
This includes pulling out the illegal-SPSR checks so we can apply
them for return to 32 bit as well as return to 64-bit.
Backports commit 3809951bf61605974b91578c582de4da28f8ed07 from qemu
The entry offset when taking an exception to AArch64 from a lower
exception level may be 0x400 or 0x600. 0x400 is used if the
implemented exception level immediately lower than the target level
is using AArch64, and 0x600 if it is using AArch32. We were
incorrectly implementing this as checking the exception level
that the exception was taken from. (The two can be different if
for example we take an exception from EL0 to AArch64 EL3; we should
in this case be checking EL2 if EL2 is implemented, and EL1 if
EL2 is not implemented.)
Backports commit 3d6f761713745dfed7d2ccfe98077d213a6a6eba from qemu
Handling of semihosting calls should depend on the register width
of the calling code, not on that of any higher exception level,
so we need to identify and handle semihosting calls before we
decide whether to deliver the exception as an entry to AArch32
or AArch64. (EXCP_SEMIHOST is also an "internal exception" so
it has no target exception level in the first place.)
This will allow AArch32 EL1 code to use semihosting calls when
running under an AArch64 EL3.
Backports commit 904c04de2e1b425e7bc8c4ce2fae3d652eeed242 from qemu
If EL2 or EL3 is present on an AArch64 CPU, then exceptions can be
taken to an exception level which is running AArch32 (if only EL0
and EL1 are present then EL1 must be AArch64 and all exceptions are
taken to AArch64). To support this we need to have a single
implementation of the CPU do_interrupt() method which can handle both
32 and 64 bit exception entry.
Pull the common parts of aarch64_cpu_do_interrupt() and
arm_cpu_do_interrupt() out into a new function which calls
either the AArch32 or AArch64 specific entry code once it has
worked out which one is needed.
We temporarily special-case the handling of EXCP_SEMIHOST to
avoid an assertion in arm_el_is_aa64(); the next patch will
pull all the semihosting handling out to the arm_cpu_do_interrupt()
level (since semihosting semantics depend on the register width
of the calling code, not on that of any higher EL).
Backports commit 966f758c49ff478c4757efa5970ce649161bff92 from qemu
Move the aarch64_cpu_do_interrupt() function to helper.c. We want
to be able to call this from code that isn't AArch64-only, and
the move allows us to avoid awkward #ifdeffery at the callsite.
Backports commit f3a9b6945cbbb23f3a70da14e9ffdf1e60c580a8 from qemu
Support EL2 and EL3 in arm_el_is_aa64() by implementing the
logic for checking the SCR_EL3 and HCR_EL2 register-width bits
as appropriate to determine the register width of lower exception
levels.
Backports commit 446c81abf8e0572b8d5d23fe056516ac62af278d from qemu
If we have a secure address space, use it in page table walks:
when doing the physical accesses to read descriptors, make them
through the correct address space.
(The descriptor reads are the only direct physical accesses
made in target-arm/ for CPUs which might have TrustZone.)
Backports commit 5ce4ff6502fc6ae01a30c3917996c6c41be1d176 from qemu
Implement the asidx_from_attrs CPU method to return the
Secure or NonSecure address space as appropriate.
(The function is inline so we can use it directly in target-arm
code to be added in later patches.)
Backports commit 017518c1f6ed9939c7f390cb91078f0919b5494c from qemu
Add QOM property to the ARM CPU which boards can use to tell us what
memory region to use for secure accesses. Nonsecure accesses
go via the memory region specified with the base CPU class 'memory'
property.
By default, if no secure region is specified it is the same as the
nonsecure region, and if no nonsecure region is specified we will use
address_space_memory.
Backports commit 9e273ef2174d7cd5b14a16d8638812541d3eb6bb from qemu
address_space_translate_internal will clamp the *plen length argument
based on the size of the memory region being queried. The iommu walker
logic in addresss_space_translate was ignoring this by discarding the
post fn call value of *plen. Fix by just always using *plen as the
length argument throughout the fn, removing the len local variable.
This fixes a bootloader bug when a single elf section spans multiple
QEMU memory regions.
Backports commit 23820dbfc79d1c9dce090b4c555994f2bb6a69b3 from qemu
Add a MemoryRegion property, which if set is used to construct
the CPU's initial (default) AddressSpace.
Backports commit 6731d864f80938e404dc3e5eb7f6b76b891e3e43 from qemu
When accessing the dispatch pointer in an AddressSpace within an RCU
critical section we should always use atomic_rcu_read(). Fix an
access within memory_region_section_get_iotlb() which was incorrectly
doing a direct pointer access.
Backports commit 0b8e2c1002afddc8ef3d52fa6fc29e4768429f98 from qemu
check the return value of the function it calls and error if it's non-0
Fixup qemu_rdma_init_one_block that is the only current caller,
and rdma_add_block the only function it calls using it.
Pass the name of the ramblock to the function; helps in debugging.
Backports commit e3807054e20fb3b94d18cb751c437ee2f43b6fac from qemu
It is not necessary to munmap an area before remapping it with MAP_FIXED;
if the memory region specified by addr and len overlaps pages of any
existing mapping, then the overlapped part of the existing mapping will
be discarded.
On the other hand, if QEMU does munmap the pages, there is a small
probability that another mmap sneaks in and catches the just-freed
portion of the address space. In effect, munmap followed by
mmap(MAP_FIXED) is a use-after-free error, and Coverity flags it
as such. Fix it.
Backports commit f18c69cfc554cf9776eb3c35b7510e17541afacb from qemu
This reverts commit c3c1bb9.
It causes problems with boards that declare memory regions shorter
than the registers they contain.
Backports commit 4025446f0ac6213335c22ec43f3c3d8362ce7286 from qemu
Block size must fundamentally be a multiple of target page size.
Aligning automatically removes need to worry about the alignment
from callers.
Note: the only caller of qemu_ram_resize (acpi) already happens to have
size padded to a power of 2, but we would like to drop the padding in
ACPI core, and don't want to expose target page size knowledge to ACPI
Backports commit 129ddaf31be583fb7c97812e07e028661005ce42 from qemu