litex/migen/bus/wishbone2asmi.py

140 lines
4.1 KiB
Python
Raw Normal View History

from migen.fhdl.std import *
2013-02-22 11:56:35 -05:00
from migen.bus import wishbone
2013-02-22 17:19:37 -05:00
from migen.genlib.fsm import FSM
from migen.genlib.misc import split, displacer, chooser
from migen.genlib.record import Record, layout_len
# cachesize (in 32-bit words) is the size of the data store, must be a power of 2
class WB2ASMI:
def __init__(self, cachesize, asmiport):
self.wishbone = wishbone.Interface()
self.cachesize = cachesize
self.asmiport = asmiport
if len(self.asmiport.slots) != 1:
raise ValueError("ASMI port must have 1 slot")
if self.asmiport.hub.dw <= 32:
raise ValueError("ASMI data width must be strictly larger than 32")
if (self.asmiport.hub.dw % 32) != 0:
raise ValueError("ASMI data width must be a multiple of 32")
def get_fragment(self):
comb = []
sync = []
aaw = self.asmiport.hub.aw
adw = self.asmiport.hub.dw
# Split address:
# TAG | LINE NUMBER | LINE OFFSET
2012-03-14 07:19:42 -04:00
offsetbits = log2_int(adw//32)
addressbits = aaw + offsetbits
2012-03-14 07:19:42 -04:00
linebits = log2_int(self.cachesize) - offsetbits
2012-05-15 09:18:03 -04:00
tagbits = addressbits - linebits
adr_offset, adr_line, adr_tag = split(self.wishbone.adr, offsetbits, linebits, tagbits)
# Data memory
data_mem = Memory(adw, 2**linebits)
data_port = data_mem.get_port(write_capable=True, we_granularity=8)
write_from_asmi = Signal()
write_to_asmi = Signal()
adr_offset_r = Signal(offsetbits)
comb += [
data_port.adr.eq(adr_line),
If(write_from_asmi,
data_port.dat_w.eq(self.asmiport.dat_r),
data_port.we.eq(Replicate(1, adw//8))
).Else(
data_port.dat_w.eq(Replicate(self.wishbone.dat_w, adw//32)),
If(self.wishbone.cyc & self.wishbone.stb & self.wishbone.we & self.wishbone.ack,
displacer(self.wishbone.sel, adr_offset, data_port.we, 2**offsetbits, reverse=True)
)
),
If(write_to_asmi, self.asmiport.dat_w.eq(data_port.dat_r)),
self.asmiport.dat_wm.eq(0),
chooser(data_port.dat_r, adr_offset_r, self.wishbone.dat_r, reverse=True)
]
sync += [
adr_offset_r.eq(adr_offset)
]
# Tag memory
tag_layout = [("tag", tagbits), ("dirty", 1)]
tag_mem = Memory(layout_len(tag_layout), 2**linebits)
tag_port = tag_mem.get_port(write_capable=True)
tag_do = Record(tag_layout)
tag_di = Record(tag_layout)
comb += [
tag_do.raw_bits().eq(tag_port.dat_r),
tag_port.dat_w.eq(tag_di.raw_bits())
]
comb += [
tag_port.adr.eq(adr_line),
tag_di.tag.eq(adr_tag),
self.asmiport.adr.eq(Cat(adr_line, tag_do.tag))
]
# Control FSM
write_to_asmi_pre = Signal()
sync.append(write_to_asmi.eq(write_to_asmi_pre))
fsm = FSM("IDLE", "TEST_HIT",
"EVICT_ISSUE", "EVICT_WAIT",
"REFILL_WRTAG", "REFILL_ISSUE", "REFILL_WAIT", "REFILL_COMPLETE")
fsm.act(fsm.IDLE,
If(self.wishbone.cyc & self.wishbone.stb, fsm.next_state(fsm.TEST_HIT))
)
fsm.act(fsm.TEST_HIT,
If(tag_do.tag == adr_tag,
self.wishbone.ack.eq(1),
If(self.wishbone.we,
tag_di.dirty.eq(1),
tag_port.we.eq(1)
),
fsm.next_state(fsm.IDLE)
).Else(
If(tag_do.dirty,
fsm.next_state(fsm.EVICT_ISSUE)
).Else(
fsm.next_state(fsm.REFILL_WRTAG)
)
)
)
fsm.act(fsm.EVICT_ISSUE,
self.asmiport.stb.eq(1),
self.asmiport.we.eq(1),
If(self.asmiport.ack, fsm.next_state(fsm.EVICT_WAIT))
)
fsm.act(fsm.EVICT_WAIT,
# Data is actually sampled by the memory controller in the next state.
# But since the data memory has one cycle latency, it gets the data
# at the address given during this cycle.
If(self.asmiport.get_call_expression(),
write_to_asmi_pre.eq(1),
fsm.next_state(fsm.REFILL_WRTAG)
)
)
fsm.act(fsm.REFILL_WRTAG,
# Write the tag first to set the ASMI address
tag_port.we.eq(1),
fsm.next_state(fsm.REFILL_ISSUE)
)
fsm.act(fsm.REFILL_ISSUE,
self.asmiport.stb.eq(1),
If(self.asmiport.ack, fsm.next_state(fsm.REFILL_WAIT))
)
fsm.act(fsm.REFILL_WAIT,
If(self.asmiport.get_call_expression(), fsm.next_state(fsm.REFILL_COMPLETE))
)
fsm.act(fsm.REFILL_COMPLETE,
write_from_asmi.eq(1),
fsm.next_state(fsm.TEST_HIT)
)
return Fragment(comb, sync, specials={data_mem, tag_mem, data_port, tag_port}) \
+ fsm.get_fragment()