We can hit the assert for req_op = OP_STORE_HIT and reloading in the
case of dcbz, since it looks like a store. Therefore we need to
exclude that case from the assert.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This adds a test that tries to execute various privileged instructions
with MSR[PR] = 1. This also incidentally tests some of the MSR bit
manipulations.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This adds logic to dcache and loadstore1 to implement dcbz. For now
it zeroes a single cache line (by default 64 bytes), not 128 bytes
like IBM Power processors do.
The dcbz operation is performed much like a load miss, except that
we are writing zeroes to memory instead of reading. As each ack
comes back, we write zeroes to the BRAM instead of data from memory.
In this way we zero the line in memory and also zero the line of
cache memory, establishing the line in the cache if it wasn't already
resident. If it was already resident then we overwrite the existing
line in the cache.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
In preparation for adding a TLB to the dcache, this plumbs the
insn_type from execute1 through to loadstore1, so that we can have
other operations besides loads and stores (e.g. tlbie) going to
loadstore1 and thence to the dcache. This also plumbs the unit field
of the decode ROM from decode2 through to execute1 to simplify the
logic around which ops need to go to loadstore1.
The load and store data formatting are now not conditional on the
op being OP_LOAD or OP_STORE. This eliminates the inferred latches
clocked by each of the bits of r.op that we were getting previously.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This adds logic to execute1 to check, when MSR[PR] = 1, whether each
instruction arriving to be executed is a privileged instruction.
If it is, a privileged-instruction type program interrupt is generated.
For the mtspr and mfspr instructions, we need to look at bit 20 of the
instruction (bit 4 of the SPR number) to determine if the SPR is
privileged.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This makes our treatment of the MSR conform better with the ISA.
- On reset, initialize the MSR to have the SF and LE bits set and
all the others reset. For good measure initialize r properly too.
- Fix the bit numbering in msr_copy (the code was using big-endian
bit numbers, not little-endian).
- Use constants like MSR_EE to index MSR bits instead of expressions
like '63 - 48', for readability.
- Set MSR[SF, LE] and clear MSR[PR, IR, DR, RI] on interrupts.
- Copy the relevant fields for rfid instead of using msr_copy, because
the partial function fields of the MSR should be left unchanged,
not zeroed. Our implementation of rfid is like the architecture
description of hrfid, because we don't implement hypervisor mode.
- Return the whole MSR for mfmsr.
- Implement the L field for mtmsrd (L=1 copies just EE and RI).
- For mtmsrd with L=0, leave out the HV, ME and LE bits as per the arch.
- For mtmsrd and rfid, if PR ends up set, then also set EE, IR and DR
as per the arch.
- A few other minor tidyups (no semantic change).
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This fixes a bug in the logic where we would still send a load
or store instruction to loadstore1 even though we have decided
to take an asynchronous interrupt.
Reported-by: Michael Neuling <mikey@neuling.org>
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
Use a symlink to share the console code in hello_world. Not ideal,
but we can improve on it later.
Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
I'm hitting a build error:
error[E0050]: method `alloc` has 2 parameters but the declaration in trait `core::alloc::AllocRef::alloc` has 3
Updating the version of linked_list_allocator fixes it. I updated
heapless to while I was at it.
Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
This decodes attn using entry 0 of the major_decode_rom_array table
instead of a special case in the decode1_1 process. This means that
only the major opcode (the top 6 bits) is checked at decode time.
To make sure the instruction is attn not some random illegal pattern,
we now check bits 1-10 of the instruction at execute time and
generate an illegal instruction interrupt if those bits are not
0100000000.
This reduces LUT consumption by 42 LUTs on the Arty A7-100.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This decodes sc using entry 17 of the major_decode_rom_array table
instead of a special case in the decode1_1 process. This means that
only the major opcode (the top 6 bits) is checked at decode time.
To make sure that the instruction is sc not scv, we now check bit
1 of the instruction at execute time and generate an illegal
instruction interrupt if it is 0 (indicating scv). The level field
of the sc instruction is now ignored.
This reduces LUT consumption by 31 LUTs on the Arty A7-100.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This implements the trap instructions (tw, twi, td, tdi) using
much of the same code as is used for the cmp/cmpl instructions.
A 5-bit comparison value is generated, and for cmp/cmpl, the
appropriate 3 bits are used to update the destination CR, and for
trap instructions, the comparison value is ANDed with the TO
field, and an exception is generated if any bit of the result
is 1.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This replaces OP_TD, OP_TDI, OP_TW and OP_TWI with a single OP_TRAP,
distinguishing the cases by the input_reg_b and is_32bit fields of
the decode ROM. This adds the twi and td cases to the decode tables.
For now we make all of the trap instructions unconditionally generate
a trap-type program interrupt if the TO field of the instruction is
all ones, and do nothing otherwise.
This reduces the number of values in insn_type_t from 65 to 62,
meaning that an insn_type_t can now be encoded in 6 bits rather
than 7.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This makes some simplifications to the interrupt logic which will
help with later commits.
- When irq_valid is set, don't set exception to 1 until we have a
valid instruction. That means we can remove the if e_in.valid = '1'
test from the exception = '1' block.
- Don't assert stall_out on the first cycle of delivering an
interrupt. If we do get another instruction in the next cycle,
nothing will happen because we have ctrl.irq_state set and we
will just continue writing the interrupt registers.
- Make sure we deliver as many completions as we got instructions,
otherwise the outstanding instruction count in control.vhdl gets
out of sync.
- In writeback, make sure all of the other write enables are ignored
when e_in.exc_write_enable is set.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
OP_MCRF covers the CR logical ops as well as mcrf since commit
c05441bf47 ("Implement CRNOR and friends"), so this renames
OP_MCRF to OP_CROP. The OP_* values for the individual CR logical
ops (OP_CRAND, etc.) are not used, so remove them from insn_type_t.
No functional change.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This puts an attn instruction at offset 0x700 in each of the tests
so that the test will terminate if a program interrupt is taken.
This means that we can implement the tw instruction to cause a
program interrupt.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This adds separate fields in Execute1ToWritebackType for use in
writing SRR0/1 (and in future other SPRs) on an interrupt. With
this, we make timing once again on the Arty A7-100 -- previously
we were missing by 0.2ns, presumably due to the result mux being
wider than before.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This fixes the decrementer, illegal and sc tests to compile
successfully with cross-compilers that don't provide unistd.h
or string.h. Instead of those headers we include stddef.h.
This also fixes tests/Makefile.test to do what one expects
when CROSS_COMPILE is defined in the environment.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
Currently hello_world fails to build with distro cross compiler
packages such as Debian gcc-powerpc64-linux-gnu, because it doesn't
provide string.h or unistd.h. In fact we don't need them, we just
need stddef.h. This adds #include <stddef.h> to console.h to get
size_t defined. We also add #include "console.h" to console.c.
The hello_world Makefile currently hard-codes CROSS_COMPILE on
non-PPC machines. This means that a command like:
$ CROSS_COMPILE=powerpc64le-linux-gnu- make
doesn't do what you expect; it just tries to use powerpc64le-linux-gcc
regardless. Adding a '?' makes it do what one expects.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This adds test cases for:
- sc, illegals and decrementer exceptions
- decrementer overflow
- rfid
- mt/mf sprg0/1 srr0/1
- mtdec
- mtmsrd
- sc
It also adds these test cases to make check/check_light
Signed-off-by: Michael Neuling <mikey@neuling.org>
This adds the following exceptions:
- 0x700 program check (for illegal instructions)
- 0x900 decrementer
- 0xc00 system call
This also adds some supervisor state:
- decremeter
- msr
(SPRG0/1 and SRR0/1 already exist as fast SPRs)
It also adds some supporting instructions:
- rfid
- mtmsrd
- mfmsr
- sc
MSR state is added but only EE is used in this patch set. Other bits
are read/written but are not used at all.
This adds a 2 stage state machine to execute1.vhdl. This state machine
allows fast SPRS SRR0/1 to be written in different cycles. This state
machine can be extended later to add DAR and DSISR SPR writing for
more complex exceptions like page faults.
Signed-off-by: Michael Neuling <mikey@neuling.org>
Currently we decode attn but we just mark it as an illegal.
This adds a separate case statement in execute 1 for attn to terminate
the core. Illegals also do this currently but we are soon implementing
a 0x700 execption for them.
Signed-off-by: Michael Neuling <mikey@neuling.org>
This adds support for lbzcix, lhzcix, lwzcix, ldcix, stbcix, sthcix,
stwcix and stdcix. The temporary hack where accesses to addresses of
the form 0xc??????? are made non-cacheable is left in for now to avoid
making existing programs non-functional.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
This puts all the data formatting (byte rotation based on lowest three
bits of the address, byte reversal, sign extension, zero extension)
in loadstore1. Writeback now simply sends the data provided to the
register files.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
So that the dcache could in future be used by an MMU, this moves
logic to do with data formatting, rA updates for update-form
instructions, and handling of unaligned loads and stores out of
dcache and into loadstore1. For now, dcache connects only to
loadstore1, and loadstore1 now has the connection to writeback.
Dcache generates a stall signal to loadstore1 which indicates that
the request presented in the current cycle was not accepted and
should be presented again. However, loadstore1 doesn't currently
use it because we know that we can never hit the circumstances
where it might be set.
For unaligned transfers, loadstore1 generates two requests to
dcache back-to-back, and then waits to see two acks back from
dcache (cycles where d_in.valid is true).
Loadstore1 now has a FSM for tracking how many acks we are
expecting from dcache and for doing the rA update cycles when
necessary. Handling for reservations and conditional stores is
still in dcache.
Loadstore1 now generates its own stall signal back to decode2,
so we no longer need the logic in execute1 that generated the stall
for the first two cycles.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
Since we removed one cycle from the load hit case, we actually no
longer need the extra cycle provided by having the LOAD_UPDATE
state. Therefore this makes the load hit case in the IDLE and
NEXT_DWORD states go to LOAD_UPDATE2 rather than LOAD_UPDATE.
Then we remove LOAD_UPDATE and then rename LOAD_UPDATE2 to
LOAD_UPDATE.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
Currently we don't get the result from a load that hits in the dcache
until the fourth cycle after the instruction was presented to
loadstore1. This trims this back to 3 cycles by taking the low order
bits of the address generated in loadstore1 into dcache directly (not
via the output register of loadstore1) and using them to address the
read port of the dcache data RAM. We use the lower 12 address bits
here in the expectation that any reasonable data cache design will
have a set size of 4kB or less in order to avoid the aliasing problems
that can arise with a virtually-indexed physically-tagged cache if
the set size is greater than the smallest page size provided by the
MMU.
With this we can get rid of r2 and drive the signals going to
writeback from r1, since the load hit data is now available one
cycle earlier. We need a multiplexer on the read address of the
data cache RAM in order to handle the second doubleword of an
unaligned access.
One small complication is that we now need an extra cycle in the case
of an unaligned load which misses in the data cache and which reads
the 2nd-last and last doublewords of a cache line. This is the reason
for the PRE_NEXT_DWORD state; if we just go straight to NEXT_DWORD
then we end up having the write of the last doubleword of the cache
line and the read of that same doubleword occurring in the same
cycle, which means we read stale data rather than the just-fetched
data.
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>