The registers MVBAR and SCR should have the behaviour of trapping to
EL3 if accessed from Secure EL1, but we were incorrectly implementing
them to UNDEF (which would trap to EL1). Fix this by using the new
access_trap_aa32s_el1() access function.
Backports commit efe4a274083f61484a8f1478d93f229d43aa8095 from qemu
Implement the MDCR_EL3 register (which is SDCR for AArch32).
For the moment we implement it as reads-as-written.
Backports commit 5513c3abed8e5fabe116830c63f0d3fe1f94bd21 from qemu
Implement the inputsize > pamax check for Stage 2 translations.
This is CONSTRAINED UNPREDICTABLE and we choose to fault.
Backports commit 3526423e867765568ad95b8094ae8b4042cac215 from qemu
Rename check_s2_startlevel to check_s2_mmu_setup in preparation
for additional checks.
Backports commit a0e966c93a0968d29ef51447d08a6b7be6f4d757 from qemu
The S2 starting level table size check applies to both AArch32
and AArch64. Move it to common code.
Backports commit 98d68ec289750139258d9cd9ab3f6d7dd10bb762 from qemu
The AArch64 system registers DACR32_EL2, IFSR32_EL2, SPSR_IRQ,
SPSR_ABT, SPSR_UND and SPSR_FIQ are visible and fully functional from
EL3 even if the CPU has no EL2 (unlike some others which are RES0
from EL3 in that configuration). Move them from el2_cp_reginfo[] to
v8_cp_reginfo[] so they are always present.
Backports commit 6a43e0b6e1f6bcd6b11656967422f4217258200a 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
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
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
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 74c21bd07491739c6e56bcb1f962e4df730e77f3 from qemu
arm_regime_using_lpae_format checks whether the LPAE extension is used
for stage 1 translation regimes. MMU indexes not exclusively of a stage 1
regime won't work with this method.
In case of ARMMMUIdx_S12NSE0 or ARMMMUIdx_S12NSE1, offset these values
by ARMMMUIdx_S1NSE0 to get the right index indicating a stage 1
translation regime.
Rename also the function to arm_s1_regime_using_lpae_format and update
the comments to reflect the change.
Backports commit deb2db996cbb9470b39ae1e383791ef34c4eb3c2 from qemu
Qemu does not generally perform alignment checks. However, the ARM ARM
requires implementation of alignment exceptions for a number of cases
including LDREX, and Windows-on-ARM relies on this.
This change adds plumbing to enable alignment checks on loads using
MO_ALIGN, a do_unaligned_access hook to raise the exception (data
abort), and uses the new aligned loads in LDREX (for all but
single-byte loads).
Backports commit 30901475b91ef1f46304404ab4bfe89097f61b96 from qemu
In an LPAE format descriptor in ARMv8 the address field extends
up to bit 47, not just bit 39. Correct the masking so we don't
give incorrect results if the output address size is greater
than 40 bits, as it can be for AArch64.
(Note that we don't yet support the new-in-v8 Address Size fault which
should be generated if any translation table entry or TTBR contains
an address with non-zero bits above the most significant bit of the
maximum output address size.)
Backports commit 6109769a8b42bd0c3d5b1601c9b35fe7ea6a603e from qemu
Introduce ARMMMUFaultInfo to propagate MMU Fault information
across the MMU translation code path. This is in preparation for
adding Stage-2 translation.
No functional changes.
Backports commit e14b5a23d8c83304559f31397f95d22ada60a19a from qemu
The starting level for S2 pagetable walks is computed
differently from the S1 starting level. Implement the S2
variant.
Backports commit 1853d5a9dcac910322c6cc5b2fddec45fd052d25 from qemu
Rename granule_sz to stride to better match the reference manuals.
No functional change.
Backports commit 973a5434825c076995218868b5b3047e5de400c6 from qemu
Remove the tsz variable and introduce inputsize.
This simplifies the code a little and makes it easier to
compare with the reference manuals.
No functional change.
Backports commit 4ca6a051758edf625a17dfc4ce4ab72edabac170 from qemu
Add support for AArch32 S2 negative t0sz. In preparation for
using 40bit IPAs on AArch32.
Backports commit 4ee38098010240e0b390061fdd0151ff62d80279 from qemu
Move declaration of t0sz and t1sz to the top of the function
avoiding a mix of code and variable declarations.
No functional change.
Backports commit 1f4c8c18a5b6f4fad13e13b7e3828124c6c8f34d from qemu
Make t0sz and t1sz signed integers to match tsz and to make
it easier to implement support for AArch32 negative t0sz.
t1sz is changed for consistensy.
No functional change.
Backports commit 5c31a10d16c595d6a59e3e7fc1808c3b1d03e02f from qemu
Add the MDCR_EL2 register. We don't implement any of
the debug-related traps this register controls yet, so
currently it simply reads back as written.
Backports commit 14cc7b54372995a6ba72c7719372e4f710fc9b5a from qemu
Added oslar_write function to OSLAR_EL1 sysreg, using a status variable
in ARMCPUState.cp15 struct (oslsr_el1). This variable is also linked
to the newly added read-only OSLSR_EL1 register.
Linux reads from this register during its suspend/resume procedure.
Backports commit 1424ca8d4320427c3e93722b65e19077969808a2 from qemu
It is incorrect to call arm_el_is_aa64() function for unimplemented EL.
This patch fixes several attempts to do so.
Backports commit 2cde031f5a34996bab32571a26b1a6bcf3e5b5d9 from qemu
If any store instruction writes the code inside the same TB
after this store insn, the execution of the TB must be stopped
to execute new code correctly.
As described in ARMv8 manual D3.4.6 self-modifying code must do an
IC invalidation to be valid, and an ISB after it. So it's enough to end
the TB after ISB instruction on the code translation.
Also this TB break is necessary to take any pending interrupts immediately
after an ISB (as required by ARMv8 ARM D1.14.4).
Backports commit 6df99dec9e81838423d723996e96236693fa31fe from qemu
Break out mpidr_read_val() to allow future sharing of the
code that conditionally sets the M and U bits of MPIDR.
No functional changes.
Backports commit 06a7e6477c129ceaa72bd400cf281d44c456be43 from qemu
Stage-2 MMU translations do not have configurable TBI as
the top byte is always 0 (48-bit IPAs).
Backports commit 1edee4708a0e3163cbf20fac325be456abd960bb from qemu
This is set to true when the index is for an instruction fetch
translation.
The core get_page_addr_code() sets it, as do the SOFTMMU_CODE_ACCESS
acessors.
All targets ignore it for now, and all other callers pass "false".
This will allow targets who wish to split the mmu index between
instruction and data accesses to do so. A subsequent patch will
do just that for PowerPC.
Backports commit 97ed5ccdee95f0b98bedc601ff979e368583472c from qemu
There is an error in functions aarch64_sync_32_to_64() and
aarch64_sync_64_to_32() with mapping of registers between AArch32 and
AArch64. This commit fixes the mapping to match the v8 ARM ARM
section D1.20.1 (table D1-77).
Backports commit 3a9148d0bdcee990fbe86759b9b1f5723c1d7fbc from qemu
All of these hw_errors are fatal and indicate something wrong with
QEMU implementation.
Convert to g_assert_not_reached.
Backports commit 8f6fd322f6e25995629a1a07b56bc5b91fb947ca from qemu