from riscvdefs import *
from cpudefs import *
+class MemoryInterface:
+ fetch_address = Signal(32, name="memory_interface_fetch_address") # XXX [2:]
+ fetch_data = Signal(32, name="memory_interface_fetch_data")
+ fetch_valid = Signal(name="memory_interface_fetch_valid")
+ rw_address= Signal(32, name="memory_interface_rw_address") # XXX [2:]
+ rw_byte_mask = Signal(4, name="memory_interface_rw_byte_mask")
+ rw_read_not_write = Signal(name="memory_interface_rw_read_not_write")
+ rw_active = Signal(name="memory_interface_rw_active")
+ rw_data_in = Signal(32, name="memory_interface_rw_data_in")
+ rw_data_out = Signal(32, name="memory_interface_rw_data_out")
+ rw_address_valid = Signal(name="memory_interface_rw_address_valid")
+ rw_wait = Signal(name="memory_interface_rw_wait")
+
+
class CPU(Module):
"""
"""
+ def get_ls_misaligned(self, ls, funct3, load_store_address_low_2):
+ return Case(funct3[:2],
+ { F3.sb: ls.eq(Constant(0)),
+ F3.sh: ls.eq(load_store_address_low_2[0] != 0),
+ F3.sw: ls.eq(load_store_address_low_2[0:2] != Constant(0, 2)),
+ "default": ls.eq(Constant(1))
+ })
+
def __init__(self):
#self.clk = ClockSignal()
#self.reset = ResetSignal()
#self.sync += self.registers[0].eq(0)
#self.sync += self.registers[1].eq(0)
- memory_interface_fetch_address = Signal(32) # XXX [2:]
- memory_interface_fetch_data = Signal(32)
- memory_interface_fetch_valid = Signal()
- memory_interface_rw_address= Signal(32) # XXX [2:]
- memory_interface_rw_byte_mask = Signal(4)
- memory_interface_rw_read_not_write = Signal()
- memory_interface_rw_active = Signal()
- memory_interface_rw_data_in = Signal(32)
- memory_interface_rw_data_out = Signal(32)
- memory_interface_rw_address_valid = Signal()
- memory_interface_rw_wait = Signal()
-
- mi = Instance("cpu_memory_interface", name="memory_instance",
+ mi = MemoryInterface()
+
+ mii = Instance("cpu_memory_interface", name="memory_instance",
p_ram_size = ram_size,
p_ram_start = ram_start,
i_clk=ClockSignal(),
i_rst=ResetSignal(),
- i_fetch_address = memory_interface_fetch_address,
- o_fetch_data = memory_interface_fetch_data,
- o_fetch_valid = memory_interface_fetch_valid,
- i_rw_address = memory_interface_rw_address,
- i_rw_byte_mask = memory_interface_rw_byte_mask,
- i_rw_read_not_write = memory_interface_rw_read_not_write,
- i_rw_active = memory_interface_rw_active,
- i_rw_data_in = memory_interface_rw_data_in,
- o_rw_data_out = memory_interface_rw_data_out,
- o_rw_address_valid = memory_interface_rw_address_valid,
- o_rw_wait = memory_interface_rw_wait,
+ i_fetch_address = mi.fetch_address,
+ o_fetch_data = mi.fetch_data,
+ o_fetch_valid = mi.fetch_valid,
+ i_rw_address = mi.rw_address,
+ i_rw_byte_mask = mi.rw_byte_mask,
+ i_rw_read_not_write = mi.rw_read_not_write,
+ i_rw_active = mi.rw_active,
+ i_rw_data_in = mi.rw_data_in,
+ o_rw_data_out = mi.rw_data_out,
+ o_rw_address_valid = mi.rw_address_valid,
+ o_rw_wait = mi.rw_wait,
o_tty_write = self.tty_write,
o_tty_write_data = self.tty_write_data,
i_tty_write_busy = self.tty_write_busy,
o_led_1 = self.led_1,
o_led_3 = self.led_3
)
- self.specials += mi
+ self.specials += mii
fetch_act = Signal(fetch_action)
fetch_target_pc = Signal(32)
fs = Instance("CPUFetchStage", name="fetch_stage",
i_clk=ClockSignal(),
i_rst=ResetSignal(),
- o_memory_interface_fetch_address = memory_interface_fetch_address,
- i_memory_interface_fetch_data = memory_interface_fetch_data,
- i_memory_interface_fetch_valid = memory_interface_fetch_valid,
+ o_memory_interface_fetch_address = mi.fetch_address,
+ i_memory_interface_fetch_data = mi.fetch_data,
+ i_memory_interface_fetch_valid = mi.fetch_valid,
i_fetch_action = fetch_act,
i_target_pc = fetch_target_pc,
o_output_pc = fetch_output_pc,
load_store_address_low_2)
self.comb += lsa
- def get_ls_misaligned(self, ls, funct3, load_store_address_low_2):
- return Case(funct3[:2],
- { F3.sb: ls.eq(Constant(0)),
- F3.sh: ls.eq(load_store_address_low_2[0] != 0),
- F3.sw: ls.eq(load_store_address_low_2[0:2] != Constant(0, 2)),
- "default": ls.eq(Constant(1))
- })
-
if __name__ == "__main__":
example = CPU()
"""
- function get_load_store_misaligned(
- input [2:0] funct3,
- input [1:0] load_store_address_low_2
- );
- begin
- case(funct3[1:0])
- `funct3_sb:
- get_load_store_misaligned = 0;
- `funct3_sh:
- get_load_store_misaligned = load_store_address_low_2[0] != 0;
- `funct3_sw:
- get_load_store_misaligned = load_store_address_low_2[1:0] != 0;
- default:
- get_load_store_misaligned = 1'bX;
- endcase
- end
- endfunction
-
- wire load_store_misaligned = get_load_store_misaligned(decoder_funct3, load_store_address_low_2);
-
assign memory_interface_rw_address = load_store_address[31:2];
wire [3:0] unshifted_load_store_byte_mask = {decoder_funct3[1] ? 2'b11 : 2'b00, (decoder_funct3[1] | decoder_funct3[0]) ? 1'b1 : 1'b0, 1'b1};