Commit Graph

1324 Commits (7f781b835d12db4296325644e220e101560c3f9a)
 

Author SHA1 Message Date
Paul Mackerras 7f781b835d tests/fpu: Add tests for ftdiv and ftsqrt
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
8 months ago
Paul Mackerras f4d28d1521 FPU: Fix ftdiv and ftsqrt instructions
With ftdiv, we weren't setting result_exp to B.exponent before
testing result_exp in state FTDIV_1; the fix is to transfer B.exponent
to result_exp in state DO_FTDIV.

With ftsqrt, we were setting bit 1 of the destination CR field to 0
always, due to a typo.

Also move a couple of statements around to try to get slightly simpler
logic.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
8 months ago
Paul Mackerras 95595af08d FPU: Fix typo in expression for exp_huge
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
8 months ago
Paul Mackerras 18911455c6
FPU: Fix fsel instruction to not alter FPSCR (#426)
The fsel instruction is not supposed to alter FPSCR, but it was
clearing FR and FI.  Fix this.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
10 months ago
Paul Mackerras af2d6e268e
Merge pull request #425 from paulusmack/fixes
Fixes to the FPU and the run_test script
10 months ago
Paul Mackerras 7b86bf8863 tests/fpu: Add tests for fdiv and fre with denormalized operands
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
10 months ago
Paul Mackerras 51954671f3 FPU: Fix behaviour of fdiv with denormalized divisor
Renormalization of the divisor for fdiv[s] was adjusting the result
exponent in the wrong direction, making the result smaller in
magnitude than it should be by a power of 2.  Fix this by negating
r.shift in the RENORM_B2 state and then subtracting it in the LOOKUP
cycle.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
10 months ago
Paul Mackerras 59a7996f1c tests/fpu: Add checks for correct setting of FPRF
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
10 months ago
Paul Mackerras eecf1ca399 FPU: Fix setting of FPRF
The sign recorded in FPRF was sometimes wrong because we weren't doing
the modifications that were done in pack_dp when setting FPRF (FPSCR
field).  These modifications are: set sign for zero result of
subtraction based on rounding mode; negate result for fnmadd/sub;
but don't modify sign of NaNs.

Instead we now do these modifications in the main state machine code
and put the result in an 'rsign' variable that is used to set
v.res_sign, then r.res_sign is used in the next cycle both for setting
FPRF and in the pack_dp functions.  That simplifies pack_dp and lets
us get rid of r.res_negate, r.res_subtract and r.res_rmode.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
10 months ago
Paul Mackerras 9a4f0c18e1 scripts/run_test: Use grep -E instead of egrep
Grep in Fedora 39 has started warning when invoked as 'egrep',
so use grep -E instead to avoid the warnings.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
10 months ago
Paul Mackerras fdcb6ec449
Merge pull request #422 from paulusmack/real-icache
Icache improvements - use synchronous RAMs and remove 4kB per set limit
10 months ago
Michael Neuling 63d4553fae
Merge pull request #423 from nickg/fix-vunit
Fix compatibility with VUnit 5
1 year ago
Nick Gasson 3affa96e28 Fix compatibility with latest VUnit release
Signed-off-by: Nick Gasson <nick@nickg.me.uk>
1 year ago
Paul Mackerras 73a2fcbc7f icache_tb: Update for recent icache changes
- Provide next_nia before clock edge where req is asserted
- Set rpn and next_rpn to zero
- There is no longer an input to the icache from the MMU

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 73b6004ac6 icache: Use next real address to index icache
Now that we are translating the fetch effective address to real one
cycle earlier, we can use the real address to index the icache array.
This has the benefit that the set size can be larger than a page,
enabling us to configure the icache to be larger without having to
increase its associativity.  Previously the set size was limited to
the page size to avoid aliasing problems.  Thus for example a 32kB
icache would need to be 8-way associative, resulting in large numbers
of LUTs being used for tag comparisons in FPGA implementations, and
poor timing.  With this change, a 32kB icache can be 1 or 2-way
associative, which means deeper and narrower tag and data RAMs and
fewer tag comparators.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras f9e5622327 Move iTLB from icache to fetch1
This moves the address translation step for instruction fetches one
cycle earlier, so that it now happens in the fetch1 stage.  There is
now a 2-entry mini translation cache ("ERAT", or effective to real
address translation cache) which operates on the output of the
multiplexer that selects the instruction address for the next cycle.
The ERAT consists of two effective address registers and two
corresponding real address registers.  They store the page number part
of the addresses for a 4kB page size, which is the smallest page size
supported by the architecture.

If the effective address doesn't match either of the EA registers, and
address translation is enabled, then i_out.req goes low for two cycles
while the iTLB is looked up.  Experimentally, this delay results in a
0.1% drop in coremark performance; allowing two cycles for the lookup
results in better timing.  The result from the iTLB is placed into the
least recently used ERAT entry and then used to translate the address
as normal.  If address translation is not enabled then the EA is used
directly as the real address.

The iTLB structure is the same as it was before; direct mapped,
indexed using a hashed EA.

The "fetch failed" signal, which indicates a TLB miss or protection
violation, is now generated in fetch1 and passed through icache.
When it is asserted, fetch1 goes into a stalled state until a PTE
arrives from the MMU (which gets put into both the iTLB and the ERAT),
or an interrupt or redirect occurs.

Any TLB invalidations from the MMU invalidate the whole ERAT.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 27c50bc311 Makefile: Remove overriding of ICACHE_NUM_LINES on ECP5 platforms
Now that the icache tag RAM is accessed synchronously, the free tools
recognize it as block RAM on ECP5-based platforms; thus we no longer
need to force it to a very small value.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 963c225955 icache: Read icache tag RAM synchronously
This uses the next_nia provided to us by fetch1 to enable the icache
tag RAM to be read synchronously (using a clock edge), which should
enable block RAMs to be used on FPGAs rather than LUT RAM or
flip-flops.  We define a separate RAM per way to avoid any problems
with the tools trying to inference byte write enables for writing to a
single way.

Since next_nia can move on, we only get one shot at reading it the
cache tag RAM entry for the current access.  If it is a miss, then the
state machine will read the cache line from RAM, and we can consider
the access to be a hit once the state machine has brought in the
doubleword we need.  The TLB hit/miss check has been modified to check
r.store_tag rather than the tag read from the tag RAM for this case.

However, it is also possible that stall_in will be asserted for the
whole time until the cache line refill is completed.  To handle this
case, we remember (in r.stalled_hit) that we detected a hit while
stalled, and use that hit once stall_in is deasserted.  This avoids
doing an unnecesary second reload of the same cache line.  The
r.stalled_hit flag gets cleared in CLR_TAG state since that is when
cache tags can be overwritten, meaning that a previously detected hit
might no longer be valid.

There is also the case where the tag read from the tag RAM is the one
we are looking for, and is the same index as the line that is starting
to be reloaded by the state machine.  If the icache gets stalled for
long enough that the line reload finishes, it would then be possible
for the access to be detected as a hit even though the cache line has
been overwritten.  To counter this, we detect the case where the cache
tag RAM entry being read is the same as the entry being written and
set a 'tag_overwrite' flag bit to indicate that one of the tags in
cache_tags_set is no longer valid.

For snooping writes to memory, we have a second read port on the cache
tag RAM.  These tags are also read synchronously, so the logic for
clearing cache line valid bits on a snoop has been adjusted (the tag
comparisons and valid bit clearing now happen in the same cycle).

This also simplifies the expression for 'insn' by removing a
dependency on r.hit_valid, fixes the instruction value sent to the
log, and deasserts stall_out when flush_in is true.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 723008b8c2 icache: Read iTLB using early next NIA from fetch1
Using i_in.next_nia means that we can read the iTLB RAM arrays
synchronously rather than asynchronously, which gives more opportunity
for using block RAMs in FPGA implementations.

The reading is gated by the stall signals because the next_nia can
advance when stalled, but we need the iTLB entry for the instruction
that i_in.nia points to.  If we are stalled because of an iTLB miss,
that means we don't see the new iTLB entry when it is written.
Instead we save the new entry directly when it arrives and use it
instead of the values read from the iTLB RAM.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras f34a54d295 fetch1: Streamline next NIA generation further
This reduces the number of possible sources for the next NIA from 4
down to 3, by routing interrupt vector addresses through the
r_int.next_nia register, as is already done for reset.  This adds one
extra cycle of latency when taking interrupts.  During this extra cycle,
i_out.req is 0.

Writeback now no longer combines redirects (branches, rfid, isync)
with interrupts; they are presented separately to fetch1.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras e92d49375f fetch1: Reorganize fetch1 to provide an asynchronous early next NIA to icache
This adds a next_nia field to the Fetch1ToIcacheType record, which
provides an indication of what will be in the nia field on the next
non-stalled cycle.  This is intended to be as fast as possible, being
a selection from two redirect addresses (from writeback and decode1)
or an internal register (r_int.next_nia).  Reset addresses and
predicted branch targets come through this internal register.

The rearrangement here has the side effect that we can now use the BTC
on the first instruction after a taken branch, whereas previously the
BTC was only active starting with the second instruction after a taken
branch.  This provides a slight improvement in performance.

This also fixes a buglet in icache where it would assert its stall
output when i_in.req was false.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 2dceb28830 Improve timing of redirect_nia going from decode1 to fetch1
This moves the addition that computes the branch target address for
statically predicted taken branches before a clock edge, so the
redirect_nia signal going to fetch1 comes from a clean latch.  The
address generation logic is also simplified somewhat, and conditional
absolute branches to negative addresses are no longer predicted taken
(this should have no impact on performance as such branches are
basically never used).

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 1c4b5def36 Improve timing of redirect_nia going from writeback to fetch1
This gets rid of the adder in writeback that computes redirect_nia.
Instead, the main adder in the ALU is used to compute the branch
target for relative branches.  We now decode b and bc differently
depending on the AA field, generating INSN_brel, INSN_babs, INSN_bcrel
or INSN_bcabs as appropriate.  Each one has a separate entry in the
decode table in decode1; the *rel versions use CIA as the A input.
The bclr/bcctr/bctar and rfid instructions now select ramspr_result
for the main result mux to get the redirect address into
ex1.e.write_data.

For branches which are predicted taken but not actually taken, we need
to redirect to the following instruction.  We also need to do that for
isync.  We do this in the execute2 stage since whether or not to do it
depends on the branch result.  The next_nia computation is moved to
the execute2 stage and comes in via a new leg on the secondary result
multiplexer, making next_nia available ultimately in ex2.e.write_data.
This also means that the next_nia leg of the primary result
multiplexer is gone.  Incrementing last_nia by 4 for sc (so that SRR0
points to the following instruction) is also moved to execute2.

Writing CIA+4 to LR was previously done through the main result
multiplexer.  Now it comes in explicitly in the ramspr write logic.

Overall this removes the br_offset and abs_br fields and the logic to
add br_offset and next_nia, and one leg of the primary result
multiplexer, at the cost of a few extra control signals between
execute1 and execute2 and some multiplexing for the ramspr write side
and an extra input on the secondary result multiplexer.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 06ff486567 icache: Restore primary opcode to instruction word
The icache stores a predecoded insn_code value for each instruction,
and so as to fit in 36 bits, omits the primary opcode (the most
significant 6 bits) of each instruction.  Previously, for valid
instructions, the primary opcode field of the instruction delivered to
decode1 was a part-representation of the insn_code value rather than
the actual primary opcode.  This adds a lookup table to compute the
primary opcode from the insn_code and deliver it in the instruction
words supplied to decode1.

In order that each insn_code can be associated with a single primary
opcode value, the various no-operation instructions with primary
opcode 31 (the reserved no-ops and dss, dst and dstst) have been given
a new insn_code, INSN_rnop, leaving INSN_nop for the preferred no-op
(ori r0,r0,0).

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras f59485f157
Merge pull request #420 from paulusmack/master
Various minor improvements
1 year ago
Paul Mackerras 8dc24416aa
Merge pull request #421 from paulusmack/fixes
Fix instruction logging
1 year ago
Paul Mackerras b1b1367cd5 icache: Fix instruction sent to log
Log the instruction read from the icache, not the instruction (if any)
being written to the icache.

Fixes: 6db626d245 ("icache: Log 36 bits of instruction rather than 32")
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras af62b9f1eb scripts/fmt_log: Update for recent changes
This updates fmt_log.c to account for the recent changes to
insn_type_t and to unit_t.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras f668597f67
Merge pull request #419 from paulusmack/prefix
Add support for prefixed instructions
1 year ago
Paul Mackerras 4bef477e29 core_debug: Add support for detecting writes to a memory address
This adds a new type of stop trigger for the log buffer which triggers
when any byte(s) of a specified doubleword of memory are written.
The trigger logic snoops the wishbone for writes to the address
specified and stops the log 256 cycles later (same as for the
instruction fetch address trigger).  The trigger address is a real
address and sees DMA writes from devices as well as stores done by the
CPU.

The mw_debug command has a new 'mtrig' subcommand to set the trigger
and query its state.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras a2890745d5 Makefile: Remove long micropython test from check_light
It takes a very long time, so remove it from the "light" check.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 9c3d14dd5a dcache: Make reading of DTLB independent of d_in.valid
This improves timing.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 8c5dabd67f dcache: Make r1.acks_pending independent of r1.state
With this, the logic that maintains r1.acks_pending operates in every
state based on r1.wb and wishbone_in, rather than only operating in
STORE_WAIT_ACK state.  This makes things a bit clearer and improves
timing slightly.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 84008fbf41 arty: Change shield I/O pin bus into individual signals
Make the shield I/O pins be individual signals rather than a bus in
order to avoid warnings on pins which don't have both a driver and a
receiver.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras b7ccffe2a3 Merge pull request #404 from CodeConstruct:dev/gpio-interrupt
Interrupts for GPIO

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras b50170cd1d Implement byte reversal instructions
This implements the byte-reverse halfword, word and doubleword
instructions: brh, brw, and brd.  These instructions were added to the
ISA in version 3.1.  They use a new OP_BREV insn_type value.  The
logic for these instructions is implemented in logical.vhdl.

In order to avoid going over 64 insn_type values, OP_AND and OP_OR
were combined into OP_LOGIC, which is like OP_AND except that the RS
input can be inverted as well as the RB input.  The various forms of
OR instruction are then implemented using the identity

    a OR b = NOT (NOT a AND NOT b)

The 'is_signed' field of the instruction decode table is used to
indicate that RS should be inverted.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras fd8c0000c0 Implement set[n]bc[r] instructions
This implements the setbc, setnbc, setbcr and setnbcr instructions.
Because the insn_type_t type already has 64 elements, this uses the
existing OP_SETB for the new instructions, and has execute1 compute
different results depending on bits 6-9 of the instruction.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 7c5a2bcaf4 tests: Add a test for prefixed instructions
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras c4492c843a Implement interrupts for prefixed instructions
This arranges to generate an illegal instruction type program
interrupt for illegal prefixed instructions, that is, those where the
suffix is not a legal value given the prefix, or the prefix has a
reserved value in the subtype field.  This implementation doesn't
generate an interrupt for the invalid 8LS:D and MLS:D instruction
forms where R = 1 and RA != 0.  (In those cases it uses (RA) as the
addend, i.e. it ignores the R bit.)

This detects the case where the address of an instruction prefix is
equal mod 64 to 60, and generates an alignment interrupt in that case.

This also arranges to set bit 34 of SRR1 when an interrupt occurs due
to a prefixed instruction, for those interrupts where that is required
(i.e. trace, alignment, floating-point unavailable, data storage, data
segment, and most cases of program interrupt).

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 39ca675ce3 Decode prefixed instructions
This adds logic to do basic decoding of the prefixed instructions
defined in PowerISA v3.1B which are in the SFFS (Scalar Fixed plus
Floating-Point Subset) compliancy subset.  In PowerISA v3.1B SFFS,
there are 14 prefixed load/store instructions plus the prefixed no-op
instruction (pnop).  The prefixed load/store instructions all use an
extended version of D-form, which has an extra 18 bits of displacement
in the prefix, plus an 'R' bit which enables PC-relative addressing.

When decode1 sees an instruction word where the insn_code is
INSN_prefix (i.e. the primary opcode was 1), it stores the prefix word
and sends nothing down to decode2 in that cycle.  When the next valid
instruction word arrives, it is interpreted as a suffix, meaning that
its insn_code gets modified before being used to look up the decode
table.

The insn_code values are rearranged so that the values for
instructions which are the suffix of a valid prefixed instruction are
all at even indexes, and the corresponding prefixed instructions
follow immediately, so that an insn_code value can be converted to the
corresponding prefixed value by setting the LSB of the insn_code
value.  There are two prefixed instructions, pld and pstd, for which
the suffix is not a valid SFFS instruction by itself, so these have
been given dummy insn_code values which decode as illegal (INSN_op57
and INSN_op61).

For a prefixed instruction, decode1 examines the type and subtype
fields of the prefix and checks that the suffix is valid for the type
and subtype.  This check doesn't affect which entry of the decode
table is used; the result is passed down to decode2, and will in
future be acted upon in execute1.

The instruction address passed down to decode2 is the address of the
prefix.  To enable this, part of the instruction address is saved when
the prefix is seen, and then the instruction address received from
icache is partly overlaid by the saved prefix address.  Because
prefixed instructions are not permitted to cross 64-byte boundaries,
we only need to save bits 5:2 of the instruction to do this.  If the
alignment restriction ever gets relaxed, we will then need to save
more bits of the address.

Decode2 has been extended to handle the R bit of the prefix (in 8LS
and MLS forms) and to be able to generate the 34-bit immediate value
from the prefix and suffix.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 7af0e001ad Move insn_codes for mcrfs, mtfsb0/1 and mtfsfi
This moves the insn_code values for mcrfs, mtfsb0/1 and mtfsfi into
the region used for floating-point instructions.  This means that in
no-FPU implementations, they will get turned into illegal instructions
in predecode.  We then don't need the code in execute1 that makes FP
instructions illegal in no-FPU implementations.

We also remove the NONE value for unit_t, since it was only ever used
with insn_type = OP_ILLEGAL, and the check for unit = NONE was
redundant with the check for insn_type = OP_ILLEGAL.  Thus the check
for unit = NONE is no longer needed and is removed here.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Paul Mackerras 4416ebe92e fetch1: Change the way predictions from the BTC are sent downstream
Instead of sending down the predicted taken/not-taken bits with the
target of the branch, we now send them down with the branch itself.
Previously icache adjusted for this by sending the prediction bits to
decode1 without a 1-clock delay while everything else had a 1-clock
delay.  Now icache keeps the prediction bits with the rest of the
attributes for the request.

Also fix a buglet in fetch1 where the first address sent out after
reset didn't have .req set.  Currently this doesn't cause a problem
because icache doesn't really look at .req.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
1 year ago
Anton Blanchard 83dcfeabf8
Merge pull request #417 from kraigher/master
Add VHDL-LS language server configuration
2 years ago
Olof Kraigher 341a507486 Add vhdl_ls.toml dump to run.py
Signed-off-by: Olof Kraigher <olof.kraigher@gmail.com>
2 years ago
Michael Neuling da5d3ded3c
Merge pull request #409 from CodeConstruct/dev/soc-reset
Make syscon SOC reset work
2 years ago
Matt Johnston 56f1c41e9c arty: Add software reset from syscon
Signed-off-by: Matt Johnston <matt@codeconstruct.com.au>
2 years ago
Matt Johnston 1f5a2e8aaa soc: Expose sw_soc_reset for syscon reset
The soc itself will be reset when a syscon soc reset is triggered.

Separately, top- board files can use the sw_soc_rst signal
if they need to reset other peripherals

Signed-off-by: Matt Johnston <matt@codeconstruct.com.au>
2 years ago
Matt Johnston 89d8cf0788 Regenerate litedram with updated sdram init
Using

litedram c770dd62edc281c370f9e2c694fe4ac1525a0b4a
litex e570b612b2a9d8f8d2002d79497bda0dc35b936a

Signed-off-by: Matt Johnston <matt@codeconstruct.com.au>
2 years ago
Matt Johnston 1874cad5b7 litedram: only run sdram init at first boot
Subsequent boots can skip the dram configuration, it will already
be in a usable state.

Signed-off-by: Matt Johnston <matt@codeconstruct.com.au>
2 years ago
Matt Johnston 4bd45af739 Move alt_reset to syscon
Instead of connecting core_alt_reset to litedram init_done, it moves to
a syscon register bit. This simplifies top- files and future soc_reset
handling. sdram main.c can unset the alt_reset bit after sdram init.

Signed-off-by: Matt Johnston <matt@codeconstruct.com.au>
2 years ago