from soc.experiment.mmu import MMU
from soc.experiment.dcache import DCache
-from soc.decoder.power_fields import DecodeFields
-from soc.decoder.power_fieldsn import SignalBitRange
-from soc.decoder.power_decoder2 import decode_spr_num
-from soc.decoder.power_enums import MicrOp, SPR, XER_bits
+from openpower.consts import MSR
+from openpower.decoder.power_fields import DecodeFields
+from openpower.decoder.power_fieldsn import SignalBitRange
+from openpower.decoder.power_decoder2 import decode_spr_num
+from openpower.decoder.power_enums import MicrOp, XER_bits
from soc.experiment.pimem import PortInterface
from soc.experiment.pimem import PortInterfaceBase
from soc.experiment.mem_types import LoadStore1ToDCacheType, LoadStore1ToMMUType
from soc.experiment.mem_types import DCacheToLoadStore1Type, MMUToLoadStore1Type
-# for testing purposes
-from soc.experiment.testmem import TestMemory
# glue logic for microwatt mmu and dcache
class LoadStore1(PortInterfaceBase):
def __init__(self, regwid=64, addrwid=4):
super().__init__(regwid, addrwid)
- self.d_in = LoadStore1ToDCacheType()
- self.d_out = DCacheToLoadStore1Type()
+ self.dcache = DCache()
+ self.d_in = self.dcache.d_in
+ self.d_out = self.dcache.d_out
self.l_in = LoadStore1ToMMUType()
self.l_out = MMUToLoadStore1Type()
# for debugging with gtkwave only
self.debug1 = Signal()
self.debug2 = Signal()
+ # TODO microwatt
+ self.mmureq = Signal()
+ self.derror = Signal()
+
+ # TODO, convert dcache wb_in/wb_out to "standard" nmigen Wishbone bus
+ # self.bus = Interface(...)
def set_wr_addr(self, m, addr, mask):
#m.d.comb += self.d_in.valid.eq(1)
#m.d.comb += self.l_in.valid.eq(1)
#m.d.comb += self.d_in.load.eq(0)
#m.d.comb += self.l_in.load.eq(0)
+ # set phys addr on both units
m.d.comb += self.d_in.addr.eq(addr)
m.d.comb += self.l_in.addr.eq(addr)
# TODO set mask
m.d.comb += self.l_in.addr.eq(addr)
m.d.comb += self.debug1.eq(1)
# m.d.comb += self.debug2.eq(1)
- # connect testmem first
return None #FIXME return value
def set_wr_data(self, m, data, wen):
return st_ok
def get_rd_data(self, m):
- ld_ok = Const(1, 1)
- data = self.d_out.data
+ ld_ok = self.d_out.valid # indicates read data is valid
+ data = self.d_out.data # actual read data
return data, ld_ok
+ """
+ if d_in.error = '1' then
+ if d_in.cache_paradox = '1' then
+ -- signal an interrupt straight away
+ exception := '1';
+ dsisr(63 - 38) := not r2.req.load;
+ -- XXX there is no architected bit for this
+ -- (probably should be a machine check in fact)
+ dsisr(63 - 35) := d_in.cache_paradox;
+ else
+ -- Look up the translation for TLB miss
+ -- and also for permission error and RC error
+ -- in case the PTE has been updated.
+ mmureq := '1';
+ v.state := MMU_LOOKUP;
+ v.stage1_en := '0';
+ end if;
+ end if;
+ """
+
def elaborate(self, platform):
m = super().elaborate(platform)
d_out = self.d_out
l_out = self.l_out
+ # create dcache module
+ m.submodules.dcache = self.dcache
+
+ with m.If(d_out.error):
+ with m.If(d_out.cache_paradox):
+ m.d.comb += self.derror.eq(1)
+ # dsisr(63 - 38) := not r2.req.load;
+ # -- XXX there is no architected bit for this
+ # -- (probably should be a machine check in fact)
+ # dsisr(63 - 35) := d_in.cache_paradox;
+ with m.Else():
+ # Look up the translation for TLB miss
+ # and also for permission error and RC error
+ # in case the PTE has been updated.
+ m.d.comb += self.mmureq.eq(1)
+ # v.state := MMU_LOOKUP;
+ # v.stage1_en := '0';
+
exc = self.pi.exception_o
#happened, alignment, instr_fault, invalid,
yield from super().ports()
# TODO: memory ports
+
class FSMMMUStage(ControlBase):
def __init__(self, pspec):
super().__init__()
# incoming PortInterface
self.ldst = LoadStore1() # TODO make this depend on pspec
+ self.dcache = self.ldst.dcache
self.pi = self.ldst.pi
# this Function Unit is extremely unusual in that it actually stores a
# to be done back in Issuer (or Core)
self.mmu = MMU()
- self.dcache = DCache()
- regwid=64
- aw = 5
- # for verification of DCache
- # TODO: create connection to real memory, backend memory interface
- self.testmem = TestMemory(regwid, aw, granularity=regwid//8, init=False)
# make life a bit easier in Core
self.pspec.mmu = self.mmu
# debugging output for gtkw
self.debug0 = Signal(4)
- self.debug_wb_cyc = Signal()
- self.debug_wb_stb = Signal()
- self.debug_wb_we = Signal()
- #self.debug1 = Signal(64)
+ self.debug1 = Signal()
#self.debug2 = Signal(64)
#self.debug3 = Signal(64)
self.illegal = Signal()
def elaborate(self, platform):
m = super().elaborate(platform)
comb = m.d.comb
+ dcache = self.dcache
# link mmu and dcache together
- m.submodules.dcache = dcache = self.dcache
m.submodules.mmu = mmu = self.mmu
m.submodules.ldst = ldst = self.ldst
- m.submodules.testmem = testmem = self.testmem
m.d.comb += dcache.m_in.eq(mmu.d_out)
m.d.comb += mmu.d_in.eq(dcache.m_out)
+
l_in, l_out = mmu.l_in, mmu.l_out
d_in, d_out = dcache.d_in, dcache.d_out
wb_out, wb_in = dcache.wb_out, dcache.wb_in
- # link ldst and dcache together
- comb += l_in.eq(self.ldst.l_in)
- comb += self.ldst.l_out.eq(l_out)
- comb += d_in.eq(self.ldst.d_in)
- comb += self.ldst.d_out.eq(self.dcache.d_out)
-
- #connect read port
- rdport = self.testmem.rdport
- comb += rdport.addr.eq(wb_out.adr)
- comb += wb_in.dat.eq(rdport.data)
-
- #connect write port
- wrport = self.testmem.wrport
- comb += wrport.addr.eq(wb_out.adr)
- comb += wrport.data.eq(wb_out.dat) # write st to mem
- comb += wrport.en.eq(wb_out.cyc & wb_out.we) # enable writes
-
- # connect DCache wishbone master to debugger
- comb += self.debug_wb_cyc.eq(wb_out.cyc)
- comb += self.debug_wb_stb.eq(wb_out.stb)
- comb += self.debug_wb_we.eq(wb_out.we)
-
- comb += wb_in.stall.eq(0)
- # testmem only takes on cycle
- with m.If( wb_out.cyc ):
- m.d.sync += wb_in.ack.eq( wb_out.stb )
+ # link ldst and MMU together
+ comb += l_in.eq(ldst.l_in)
+ comb += ldst.l_out.eq(l_out)
data_i, data_o = self.p.data_i, self.n.data_o
- a_i, b_i, o = data_i.ra, data_i.rb, data_o.o
+ a_i, b_i, o, spr1_o = data_i.ra, data_i.rb, data_o.o, data_o.spr1
op = data_i.ctx.op
+ msr_i = op.msr
# TODO: link these SPRs somewhere
dsisr = Signal(64)
spr = Signal(len(x_fields.SPR))
comb += spr.eq(decode_spr_num(x_fields.SPR))
+ # based on MSR bits, set priv and virt mode. TODO: 32-bit mode
+ comb += d_in.priv_mode.eq(~msr_i[MSR.PR])
+ comb += d_in.virt_mode.eq(msr_i[MSR.DR])
+ #comb += d_in.mode_32bit.eq(msr_i[MSR.SF]) # ?? err
+
# ok so we have to "pulse" the MMU (or dcache) rather than
# hold the valid hi permanently. guess what this does...
valid = Signal()
with m.Switch(op.insn_type):
with m.Case(MicrOp.OP_MTSPR):
- comb += done.eq(1)
- comb += self.debug0.eq(3)
- """
+ # despite redirection this FU **MUST** behave exactly
+ # like the SPR FU. this **INCLUDES** updating the SPR
+ # regfile because the CSV file entry for OP_MTSPR
+ # categorically defines and requires the expectation
+ # that the CompUnit **WILL** write to the regfile.
+ comb += spr1_o.data.eq(spr)
+ comb += spr1_o.ok.eq(1)
# subset SPR: first check a few bits
with m.If(~spr[9] & ~spr[5]):
comb += self.debug0.eq(3)
comb += l_in.sprn.eq(spr) # which SPR
comb += l_in.rs.eq(a_i) # incoming operand (RS)
comb += done.eq(1) # FIXME l_out.done
- """
with m.Case(MicrOp.OP_MFSPR):
- comb += done.eq(1)
- comb += self.debug0.eq(4)
- """
# subset SPR: first check a few bits
with m.If(~spr[9] & ~spr[5]):
comb += self.debug0.eq(5)
comb += o.data.eq(l_out.sprval) # SPR from MMU
comb += o.ok.eq(l_out.done) # only when l_out valid
comb += done.eq(1) # FIXME l_out.done
- """
- with m.Case(MicrOp.OP_DCBZ):
- # activate dcbz mode (spec: v3.0B p850)
- comb += valid.eq(1) # start "pulse"
- comb += d_in.valid.eq(blip) # start
- comb += d_in.dcbz.eq(1) # dcbz mode
- comb += d_in.addr.eq(a_i + b_i) # addr is (RA|0) + RB
- comb += done.eq(d_out.store_done) # TODO
- comb += self.debug0.eq(1)
+ # XXX this one is going to have to go through LDSTCompUnit
+ # because it's LDST that has control over dcache
+ # (through PortInterface). or, another means is devised
+ # so as not to have double-drivers of d_in.valid and addr
+ #
+ #with m.Case(MicrOp.OP_DCBZ):
+ # # activate dcbz mode (spec: v3.0B p850)
+ # comb += valid.eq(1) # start "pulse"
+ # comb += d_in.valid.eq(blip) # start
+ # comb += d_in.dcbz.eq(1) # dcbz mode
+ # comb += d_in.addr.eq(a_i + b_i) # addr is (RA|0) + RB
+ # comb += done.eq(d_out.store_done) # TODO
+ # comb += self.debug0.eq(1)
with m.Case(MicrOp.OP_TLBIE):
# pass TLBIE request to MMU (spec: v3.0B p1034)