`include "cpu.vh"
"""
+import string
from migen import *
from migen.fhdl import verilog
from migen.fhdl.structure import _Operator
opcode = Signal(7, name="decoder_opcode")
act = Signal(decode_action, name="decoder_action")
+class MStatus:
+ def __init__(self, comb, sync):
+ self.comb = comb
+ self.sync = sync
+ self.mpie = Signal(name="mstatus_mpie")
+ self.mie = Signal(name="mstatus_mie")
+ self.mprv = Signal(name="mstatus_mprv")
+ self.tsr = Signal(name="mstatus_tsr")
+ self.tw = Signal(name="mstatus_tw")
+ self.tvm = Signal(name="mstatus_tvm")
+ self.mxr = Signal(name="mstatus_mxr")
+ self._sum = Signal(name="mstatus_sum")
+ self.xs = Signal(name="mstatus_xs")
+ self.fs = Signal(name="mstatus_fs")
+ self.mpp = Signal(2, name="mstatus_mpp")
+ self.spp = Signal(name="mstatus_spp")
+ self.spie = Signal(name="mstatus_spie")
+ self.upie = Signal(name="mstatus_upie")
+ self.sie = Signal(name="mstatus_sie")
+ self.uie = Signal(name="mstatus_uie")
+
+ for n in dir(self):
+ if n in ['make', 'mpp', 'comb', 'sync'] or n.startswith("_"):
+ continue
+ self.comb += getattr(self, n).eq(0x0)
+ self.comb += self.mpp.eq(0b11)
+
+ self.sync += self.mie.eq(0)
+ self.sync += self.mpie.eq(0)
+
+ def make(self):
+ return Cat(
+ self.uie, self.sie, Constant(0), self.mie,
+ self.upie, self.spie, Constant(0), self.mpie,
+ self.spp, Constant(0, 2), self.mpp,
+ self.fs, self.xs, self.mprv, self._sum,
+ self.mxr, self.tvm, self.tw, self.tsr,
+ Constant(0, 8),
+ (self.xs == Constant(0b11, 2)) | (self.fs == Constant(0b11, 2))
+ )
+
+
+class MIE:
+ def __init__(self, comb, sync):
+ self.comb = comb
+ self.sync = sync
+ self.meie = Signal(name="mie_meie")
+ self.mtie = Signal(name="mie_mtie")
+ self.msie = Signal(name="mie_msie")
+ self.ueie = Signal(name="mie_ueie")
+ self.stie = Signal(name="mie_stie")
+ self.utie = Signal(name="mie_utie")
+ self.ssie = Signal(name="mie_ssie")
+ self.usie = Signal(name="mie_usie")
+
+ for n in dir(self):
+ if n in ['make', 'comb', 'sync'] or n.startswith("_"):
+ continue
+ self.comb += getattr(self, n).eq(0x0)
+
+ self.sync += self.meie.eq(0)
+ self.sync += self.mtie.eq(0)
+ self.sync += self.msie.eq(0)
+
+class MIP:
+ def __init__(self, comb, sync):
+ self.comb = comb
+ self.sync = sync
+ self.meip = Signal(name="mip_meip") # TODO: implement ext interrupts
+ self.seip = Signal(name="mip_seip")
+ self.ueip = Signal(name="mip_uiep")
+ self.mtip = Signal(name="mip_mtip") # TODO: implement timer interrupts
+ self.stip = Signal(name="mip_stip")
+ self.msip = Signal(name="mip_stip")
+ self.utip = Signal(name="mip_utip")
+ self.ssip = Signal(name="mip_ssip")
+ self.usip = Signal(name="mip_usip")
+
+ for n in dir(self):
+ if n in ['comb', 'sync'] or n.startswith("_"):
+ continue
+ self.comb += getattr(self, n).eq(0x0)
+
+
+class M:
+ def __init__(self, comb, sync):
+ self.comb = comb
+ self.sync = sync
+ self.mcause = Signal(32)
+ self.mepc = Signal(32)
+ self.mscratch = Signal(32)
+ self.sync += self.mcause.eq(0)
+ self.sync += self.mepc.eq(0) # 32'hXXXXXXXX;
+ self.sync += self.mscratch.eq(0) # 32'hXXXXXXXX;
+
+
+class Misa:
+ def __init__(self, comb, sync):
+ self.comb = comb
+ self.sync = sync
+ self.misa = Signal(32)
+ cl = []
+ for l in list(string.ascii_lowercase):
+ value = 1 if l == 'i' else 0
+ cl.append(Constant(value))
+ cl.append(Constant(0, 4))
+ cl.append(Constant(0b01, 2))
+ self.comb += self.misa.eq(Cat(cl))
+
+
+class Fetch:
+ def __init__(self, comb, sync):
+ self.comb = comb
+ self.sync = sync
+ self.action = Signal(fetch_action, name="fetch_action")
+ self.target_pc = Signal(32, name="fetch_target_pc")
+ self.output_pc = Signal(32, name="fetch_output_pc")
+ self.output_instruction = Signal(32, name="fetch_ouutput_instruction")
+ self.output_state = Signal(fetch_output_state,name="fetch_output_state")
+
+ def get_fetch_action(self, dc, load_store_misaligned, mi,
+ branch_taken, misaligned_jump_target,
+ csr_op_is_valid):
+ c = {}
+ c["default"] = self.action.eq(FA.default) # XXX should be 32'XXXXXXXX?
+ c[FOS.empty] = self.action.eq(FA.default)
+ c[FOS.trap] = self.action.eq(FA.ack_trap)
+
+ # illegal instruction -> error trap
+ i= If((dc.act & DA.trap_illegal_instruction) != 0,
+ self.action.eq(FA.error_trap)
+ )
+
+ # ecall / ebreak -> noerror trap
+ i = i.Elif((dc.act & DA.trap_ecall_ebreak) != 0,
+ self.action.eq(FA.noerror_trap))
+
+ # load/store: check alignment, check wait
+ i = i.Elif((dc.act & (DA.load | DA.store)) != 0,
+ If((load_store_misaligned | ~mi.rw_address_valid),
+ self.action.eq(FA.error_trap) # misaligned or invalid addr
+ ).Elif(mi.rw_wait,
+ self.action.eq(FA.wait) # wait
+ ).Else(
+ self.action.eq(FA.default) # ok
+ )
+ )
+
+ # fence
+ i = i.Elif((dc.act & DA.fence) != 0,
+ self.action.eq(FA.fence))
+
+ # branch -> misaligned=error, otherwise jump
+ i = i.Elif((dc.act & DA.branch) != 0,
+ If(misaligned_jump_target,
+ self.action.eq(FA.error_trap)
+ ).Else(
+ self.action.eq(FA.jump)
+ )
+ )
+
+ # jal/jalr -> misaligned=error, otherwise jump
+ i = i.Elif((dc.act & (DA.jal | DA.jalr)) != 0,
+ If(misaligned_jump_target,
+ self.action.eq(FA.error_trap)
+ ).Else(
+ self.action.eq(FA.jump)
+ )
+ )
+
+ # csr -> opvalid=ok, else error trap
+ i = i.Elif((dc.act & DA.csr) != 0,
+ If(csr_op_is_valid,
+ self.action.eq(FA.default)
+ ).Else(
+ self.action.eq(FA.error_trap)
+ )
+ )
+
+ c[FOS.valid] = i
+
+ return Case(self.output_state, c)
+
+class CSR:
+ def __init__(self, comb, sync, dc, register_rs1):
+ self.comb = comb
+ self.sync = sync
+ self.number = Signal(12, name="csr_number")
+ self.input_value = Signal(32, name="csr_input_value")
+ self.reads = Signal(name="csr_reads")
+ self.writes = Signal(name="csr_writes")
+ self.op_is_valid = Signal(name="csr_op_is_valid")
+
+ self.comb += self.number.eq(dc.immediate)
+ self.comb += self.input_value.eq(Mux(dc.funct3[2],
+ dc.rs1,
+ register_rs1))
+ self.comb += self.reads.eq(dc.funct3[1] | (dc.rd != 0))
+ self.comb += self.writes.eq(~dc.funct3[1] | (dc.rs1 != 0))
+
+ self.comb += self.get_csr_op_is_valid()
+
+ def get_csr_op_is_valid(self):
+ """ determines if a CSR is valid
+ """
+ c = {}
+ # invalid csrs
+ for f in [csr_ustatus, csr_fflags, csr_frm, csr_fcsr,
+ csr_uie, csr_utvec, csr_uscratch, csr_uepc,
+ csr_ucause, csr_utval, csr_uip, csr_sstatus,
+ csr_sedeleg, csr_sideleg, csr_sie, csr_stvec,
+ csr_scounteren, csr_sscratch, csr_sepc, csr_scause,
+ csr_stval, csr_sip, csr_satp, csr_medeleg,
+ csr_mideleg, csr_dcsr, csr_dpc, csr_dscratch]:
+ c[f] = self.op_is_valid.eq(0)
+
+ # not-writeable -> ok
+ for f in [csr_cycle, csr_time, csr_instret, csr_cycleh,
+ csr_timeh, csr_instreth, csr_mvendorid, csr_marchid,
+ csr_mimpid, csr_mhartid]:
+ c[f] = self.op_is_valid.eq(~self.writes)
+
+ # valid csrs
+ for f in [csr_misa, csr_mstatus, csr_mie, csr_mtvec,
+ csr_mscratch, csr_mepc, csr_mcause, csr_mip]:
+ c[f] = self.op_is_valid.eq(1)
+
+ # not implemented / default
+ for f in [csr_mcounteren, csr_mtval, csr_mcycle, csr_minstret,
+ csr_mcycleh, csr_minstreth, "default"]:
+ c[f] = self.op_is_valid.eq(0)
+
+ return Case(self.number, c)
+
+ def evaluate_csr_funct3_op(self, funct3, previous, written):
+ c = { "default": written.eq(Constant(0, 32))}
+ for f in [F3.csrrw, F3.csrrwi]:
+ c[f] = written.eq(self.input_value)
+ for f in [F3.csrrs, F3.csrrsi]:
+ c[f] = written.eq(self.input_value | previous)
+ for f in [F3.csrrc, F3.csrrci]:
+ c[f] = written.eq(~self.input_value & previous)
+ return Case(funct3, c)
+
+
+class MInfo:
+ def __init__(self, comb):
+ self.comb = comb
+ # TODO
+ self.cycle_counter = Signal(64); # TODO: implement cycle_counter
+ self.time_counter = Signal(64); # TODO: implement time_counter
+ self.instret_counter = Signal(64); # TODO: implement instret_counter
+
+ self.mvendorid = Signal(32)
+ self.marchid = Signal(32)
+ self.mimpid = Signal(32)
+ self.mhartid = Signal(32)
+ self.comb += self.mvendorid.eq(Constant(0, 32))
+ self.comb += self.marchid.eq(Constant(0, 32))
+ self.comb += self.mimpid.eq(Constant(0, 32))
+ self.comb += self.mhartid.eq(Constant(0, 32))
+
class CPU(Module):
"""
"""
def get_ls_misaligned(self, ls, funct3, load_store_address_low_2):
+ """ returns whether a load/store is misaligned
+ """
return Case(funct3[:2],
{ F3.sb: ls.eq(Constant(0)),
F3.sh: ls.eq(load_store_address_low_2[0] != 0),
Mux((dc.funct3[1]),
Constant(0b11, 2), Constant(0, 2)))
+ # XXX this happens to get done by various self.sync actions
+ #def reset_to_initial(self, m, mstatus, mie, registers):
+ # return [m.mcause.eq(0),
+ # ]
+
+ def write_register(self, register_number, value):
+ return If(register_number != 0,
+ self.registers[register_number].eq(value)
+ )
+
+ def handle_trap(self, m, ms, ft, dc, load_store_misaligned):
+ s = [ms.mpie.eq(ms.mie),
+ ms.mie.eq(0),
+ m.mepc.eq(Mux(ft.action == FA.noerror_trap,
+ ft.output_pc + 4,
+ ft.output_pc))]
+
+ # fetch action ack trap
+ i = If(ft.action == FA.ack_trap,
+ m.mcause.eq(cause_instruction_access_fault)
+ )
+
+ # ecall/ebreak
+ i = i.Elif((dc.act & DA.trap_ecall_ebreak) != 0,
+ m.mcause.eq(Mux(dc.immediate[0],
+ cause_machine_environment_call,
+ cause_breakpoint))
+ )
+
+ # load
+ i = i.Elif((dc.act & DA.load) != 0,
+ If(load_store_misaligned,
+ m.mcause.eq(cause_load_address_misaligned)
+ ).Else(
+ m.mcause.eq(cause_load_access_fault)
+ )
+ )
+
+ # store
+ i = i.Elif((dc.act & DA.store) != 0,
+ If(load_store_misaligned,
+ m.mcause.eq(cause_store_amo_address_misaligned)
+ ).Else(
+ m.mcause.eq(cause_store_amo_access_fault)
+ )
+ )
+
+ # jal/jalr -> misaligned=error, otherwise jump
+ i = i.Elif((dc.act & (DA.jal | DA.jalr | DA.branch)) != 0,
+ m.mcause.eq(cause_instruction_address_misaligned)
+ )
+
+ # defaults to illegal instruction
+ i = i.Else(m.mcause.eq(cause_illegal_instruction))
+
+ s.append(i)
+ return s
+
+ def main_block(self, minfo, misa, csr, mi, m, mstatus, ft, dc,
+ load_store_misaligned,
+ loaded_value, alu_result,
+ lui_auipc_result):
+ c = {}
+ c[FOS.empty] = []
+ c[FOS.trap] = self.handle_trap(m, mstatus, ft, dc,
+ load_store_misaligned)
+ c[FOS.valid] = self.handle_valid(minfo, misa, csr, mi, m, mstatus, ft, dc,
+ load_store_misaligned,
+ loaded_value,
+ alu_result,
+ lui_auipc_result)
+ return Case(ft.output_state, c)
+
+ def handle_valid(self, minfo, misa, csr, mi, m, mstatus, ft, dc,
+ load_store_misaligned,
+ loaded_value, alu_result,
+ lui_auipc_result):
+ # fetch action ack trap
+ i = If((ft.action == FA.ack_trap) | (ft.action == FA.noerror_trap),
+ self.handle_trap(m, mstatus, ft, dc,
+ load_store_misaligned)
+ )
+
+ # load
+ i = i.Elif((dc.act & DA.load) != 0,
+ If(~mi.rw_wait,
+ self.write_register(dc.rd, loaded_value)
+ )
+ )
+
+ # op or op_immediate
+ i = i.Elif((dc.act & DA.op_op_imm) != 0,
+ self.write_register(dc.rd, alu_result)
+ )
+
+ # lui or auipc
+ i = i.Elif((dc.act & DA.lui_auipc) != 0,
+ self.write_register(dc.rd, lui_auipc_result)
+ )
+
+ # jal/jalr
+ i = i.Elif((dc.act & (DA.jal | DA.jalr)) != 0,
+ self.write_register(dc.rd, ft.output_pc + 4)
+ )
+
+ i = i.Elif((dc.act & DA.csr) != 0,
+ self.handle_csr(minfo, misa, mstatus, dc, csr)
+ )
+
+ # fence, store, branch
+ i = i.Elif((dc.act & (DA.fence | DA.fence_i |
+ DA.store | DA.branch)) != 0,
+ # do nothing
+ )
+
+ return i
+
+ def handle_csr(self, minfo, misa, mstatus, dc, csr):
+ csr_output_value = Signal(32)
+ csr_written_value = Signal(32)
+ c = {}
+
+ # cycle
+ c[csr_cycle] = csr_output_value.eq(minfo.cycle_counter[0:32])
+ c[csr_cycleh] = csr_output_value.eq(minfo.cycle_counter[32:64])
+ # time
+ c[csr_time] = csr_output_value.eq(minfo.time_counter[0:32])
+ c[csr_timeh] = csr_output_value.eq(minfo.time_counter[32:64])
+ # instret
+ c[csr_instret] = csr_output_value.eq(minfo.instret_counter[0:32])
+ c[csr_instreth] = csr_output_value.eq(minfo.instret_counter[32:64])
+ # mvendorid/march/mimpl/mhart
+ c[csr_mvendorid] = csr_output_value.eq(minfo.mvendorid)
+ c[csr_marchid ] = csr_output_value.eq(minfo.marchid )
+ c[csr_mimpid ] = csr_output_value.eq(minfo.mimpid )
+ c[csr_mhartid ] = csr_output_value.eq(minfo.mhartid )
+ # misa
+ c[csr_misa ] = csr_output_value.eq(misa.misa)
+ # mstatus
+ c[csr_mstatus ] = [
+ csr_output_value.eq(mstatus.make()),
+ csr.evaluate_csr_funct3_op(dc.funct3, csr_written_value,
+ csr_output_value),
+ mstatus.mpie.eq(csr_written_value[7]),
+ mstatus.mie.eq(csr_written_value[3])
+ ]
+
+ return [Case(csr.number, c),
+ If(csr.reads,
+ self.write_register(dc.rd, csr_output_value)
+ )]
+
+ """
+ `csr_mie: begin
+ csr_output_value = 0;
+ csr_output_value[11] = mie_meie;
+ csr_output_value[9] = mie_seie;
+ csr_output_value[8] = mie_ueie;
+ csr_output_value[7] = mie_mtie;
+ csr_output_value[5] = mie_stie;
+ csr_output_value[4] = mie_utie;
+ csr_output_value[3] = mie_msie;
+ csr_output_value[1] = mie_ssie;
+ csr_output_value[0] = mie_usie;
+ csr_written_value = evaluate_csr_funct3_operation(decoder_funct3, csr_output_value, csr_input_value);
+ if(csr_writes) begin
+ mie_meie = csr_written_value[11];
+ mie_mtie = csr_written_value[7];
+ mie_msie = csr_written_value[3];
+ end
+ end
+ `csr_mtvec: begin
+ csr_output_value = mtvec;
+ end
+ `csr_mscratch: begin
+ csr_output_value = mscratch;
+ csr_written_value = evaluate_csr_funct3_operation(decoder_funct3, csr_output_value, csr_input_value);
+ if(csr_writes)
+ mscratch = csr_written_value;
+ end
+ `csr_mepc: begin
+ csr_output_value = mepc;
+ csr_written_value = evaluate_csr_funct3_operation(decoder_funct3, csr_output_value, csr_input_value);
+ if(csr_writes)
+ mepc = csr_written_value;
+ end
+ `csr_mcause: begin
+ csr_output_value = mcause;
+ csr_written_value = evaluate_csr_funct3_operation(decoder_funct3, csr_output_value, csr_input_value);
+ if(csr_writes)
+ mcause = csr_written_value;
+ end
+ `csr_mip: begin
+ csr_output_value = 0;
+ csr_output_value[11] = mip_meip;
+ csr_output_value[9] = mip_seip;
+ csr_output_value[8] = mip_ueip;
+ csr_output_value[7] = mip_mtip;
+ csr_output_value[5] = mip_stip;
+ csr_output_value[4] = mip_utip;
+ csr_output_value[3] = mip_msip;
+ csr_output_value[1] = mip_ssip;
+ csr_output_value[0] = mip_usip;
+ end
+ endcase
+ if(csr_reads)
+ write_register(decoder_rd, csr_output_value);
+ end
+ end
+ endcase
+ end
+ """
def __init__(self):
self.clk = ClockSignal()
self.reset = ResetSignal()
l = []
for i in range(31):
- l.append(Signal(32, name="register%d" % i))
- registers = Array(l)
+ r = Signal(32, name="register%d" % i)
+ l.append(r)
+ self.sync += r.eq(Constant(0, 32))
+ self.registers = Array(l)
mi = MemoryInterface()
)
self.specials += mii
- fetch_act = Signal(fetch_action)
- fetch_target_pc = Signal(32)
- fetch_output_pc = Signal(32)
- fetch_output_instruction = Signal(32)
- fetch_output_st = Signal(fetch_output_state)
+ ft = Fetch(self.comb, self.sync)
fs = Instance("CPUFetchStage", name="fetch_stage",
i_clk=ClockSignal(),
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,
- o_output_instruction = fetch_output_instruction,
- o_output_state = fetch_output_st,
+ i_fetch_action = ft.action,
+ i_target_pc = ft.target_pc,
+ o_output_pc = ft.output_pc,
+ o_output_instruction = ft.output_instruction,
+ o_output_state = ft.output_state,
i_reset_vector = reset_vector,
i_mtvec = mtvec,
)
dc = Decoder()
cd = Instance("CPUDecoder", name="decoder",
- i_instruction = fetch_output_instruction,
+ i_instruction = ft.output_instruction,
o_funct7 = dc.funct7,
o_funct3 = dc.funct3,
o_rd = dc.rd,
self.comb += If(dc.rs1 == 0,
register_rs1.eq(0)
).Else(
- register_rs1.eq(registers[dc.rs1-1]))
+ register_rs1.eq(self.registers[dc.rs1-1]))
self.comb += If(dc.rs2 == 0,
register_rs2.eq(0)
).Else(
- register_rs2.eq(registers[dc.rs2-1]))
+ register_rs2.eq(self.registers[dc.rs2-1]))
load_store_address = Signal(32)
load_store_address_low_2 = Signal(2)
self.comb += loaded_value.eq(Cat(b0, b1, b2))
self.comb += mi.rw_active.eq(~self.reset
- & (fetch_output_st == fetch_output_state_valid)
+ & (ft.output_state == FOS.valid)
& ~load_store_misaligned
& ((dc.act & (DA.load | DA.store)) != 0))
register_rs2,
dc.immediate))
+ ali = Instance("cpu_alu", name="alu",
+ i_funct7 = dc.funct7,
+ i_funct3 = dc.funct3,
+ i_opcode = dc.opcode,
+ i_a = alu_a,
+ i_b = alu_b,
+ o_result = alu_result
+ )
+ self.specials += ali
+
+ lui_auipc_result = Signal(32)
+ self.comb += lui_auipc_result.eq(Mux(dc.opcode[5],
+ dc.immediate,
+ dc.immediate + ft.output_pc))
+
+ self.comb += ft.target_pc.eq(Cat(0,
+ Mux(dc.opcode != OP.jalr,
+ ft.output_pc[1:32],
+ register_rs1[1:32] + dc.immediate[1:32])))
+
+ misaligned_jump_target = Signal()
+ self.comb += misaligned_jump_target.eq(ft.target_pc[1])
+
+ branch_arg_a = Signal(32)
+ branch_arg_b = Signal(32)
+ self.comb += branch_arg_a.eq(Cat( register_rs1[0:31],
+ register_rs1[31] ^ ~dc.funct3[1]))
+ self.comb += branch_arg_b.eq(Cat( register_rs2[0:31],
+ register_rs2[31] ^ ~dc.funct3[1]))
+
+ branch_taken = Signal()
+ self.comb += branch_taken.eq(dc.funct3[0] ^
+ Mux(dc.funct3[2],
+ branch_arg_a < branch_arg_b,
+ branch_arg_a == branch_arg_b))
+
+ m = M(self.comb, self.sync)
+ mstatus = MStatus(self.comb, self.sync)
+ mie = MIE(self.comb, self.sync)
+ misa = Misa(self.comb, self.sync)
+ mip = MIP(self.comb, self.sync)
+
+ # CSR decoding
+ csr = CSR(self.comb, self.sync, dc, register_rs1)
+
+ self.comb += ft.get_fetch_action(dc, load_store_misaligned, mi,
+ branch_taken, misaligned_jump_target,
+ csr.op_is_valid)
+
+ minfo = MInfo(self.comb)
+
+ self.sync += If(~self.reset,
+ self.main_block(minfo, misa, csr, mi, m,
+ mstatus, ft, dc,
+ load_store_misaligned,
+ loaded_value,
+ alu_result,
+ lui_auipc_result)
+ )
+
if __name__ == "__main__":
example = CPU()
print(verilog.convert(example,
"""
- cpu_alu alu(
- .funct7(decoder_funct7),
- .funct3(decoder_funct3),
- .opcode(decoder_opcode),
- .a(alu_a),
- .b(alu_b),
- .result(alu_result)
- );
-
- wire [31:0] lui_auipc_result = decoder_opcode[5] ? decoder_immediate : decoder_immediate + fetch_output_pc;
-
- assign fetch_target_pc[31:1] = ((decoder_opcode != `opcode_jalr ? fetch_output_pc[31:1] : register_rs1[31:1]) + decoder_immediate[31:1]);
- assign fetch_target_pc[0] = 0;
-
- wire misaligned_jump_target = fetch_target_pc[1];
-
- wire [31:0] branch_arg_a = {register_rs1[31] ^ ~decoder_funct3[1], register_rs1[30:0]};
- wire [31:0] branch_arg_b = {register_rs2[31] ^ ~decoder_funct3[1], register_rs2[30:0]};
-
- wire branch_taken = decoder_funct3[0] ^ (decoder_funct3[2] ? branch_arg_a < branch_arg_b : branch_arg_a == branch_arg_b);
-
- reg [31:0] mcause = 0;
- reg [31:0] mepc = 32'hXXXXXXXX;
- reg [31:0] mscratch = 32'hXXXXXXXX;
-
- reg mstatus_mpie = 1'bX;
- reg mstatus_mie = 0;
- parameter mstatus_mprv = 0;
- parameter mstatus_tsr = 0;
- parameter mstatus_tw = 0;
- parameter mstatus_tvm = 0;
- parameter mstatus_mxr = 0;
- parameter mstatus_sum = 0;
- parameter mstatus_xs = 0;
- parameter mstatus_fs = 0;
- parameter mstatus_mpp = 2'b11;
- parameter mstatus_spp = 0;
- parameter mstatus_spie = 0;
- parameter mstatus_upie = 0;
- parameter mstatus_sie = 0;
- parameter mstatus_uie = 0;
-
- reg mie_meie = 1'bX;
- reg mie_mtie = 1'bX;
- reg mie_msie = 1'bX;
- parameter mie_seie = 0;
- parameter mie_ueie = 0;
- parameter mie_stie = 0;
- parameter mie_utie = 0;
- parameter mie_ssie = 0;
- parameter mie_usie = 0;
-
- task reset_to_initial;
- begin
- mcause = 0;
- mepc = 32'hXXXXXXXX;
- mscratch = 32'hXXXXXXXX;
- mstatus_mie = 0;
- mstatus_mpie = 1'bX;
- mie_meie = 1'bX;
- mie_mtie = 1'bX;
- mie_msie = 1'bX;
- registers['h01] <= 32'hXXXXXXXX;
- registers['h02] <= 32'hXXXXXXXX;
- registers['h03] <= 32'hXXXXXXXX;
- registers['h04] <= 32'hXXXXXXXX;
- registers['h05] <= 32'hXXXXXXXX;
- registers['h06] <= 32'hXXXXXXXX;
- registers['h07] <= 32'hXXXXXXXX;
- registers['h08] <= 32'hXXXXXXXX;
- registers['h09] <= 32'hXXXXXXXX;
- registers['h0A] <= 32'hXXXXXXXX;
- registers['h0B] <= 32'hXXXXXXXX;
- registers['h0C] <= 32'hXXXXXXXX;
- registers['h0D] <= 32'hXXXXXXXX;
- registers['h0E] <= 32'hXXXXXXXX;
- registers['h0F] <= 32'hXXXXXXXX;
- registers['h10] <= 32'hXXXXXXXX;
- registers['h11] <= 32'hXXXXXXXX;
- registers['h12] <= 32'hXXXXXXXX;
- registers['h13] <= 32'hXXXXXXXX;
- registers['h14] <= 32'hXXXXXXXX;
- registers['h15] <= 32'hXXXXXXXX;
- registers['h16] <= 32'hXXXXXXXX;
- registers['h17] <= 32'hXXXXXXXX;
- registers['h18] <= 32'hXXXXXXXX;
- registers['h19] <= 32'hXXXXXXXX;
- registers['h1A] <= 32'hXXXXXXXX;
- registers['h1B] <= 32'hXXXXXXXX;
- registers['h1C] <= 32'hXXXXXXXX;
- registers['h1D] <= 32'hXXXXXXXX;
- registers['h1E] <= 32'hXXXXXXXX;
- registers['h1F] <= 32'hXXXXXXXX;
- end
- endtask
-
- task write_register(input [4:0] register_number, input [31:0] value);
- begin
- if(register_number != 0)
- registers[register_number] <= value;
- end
- endtask
-
- function [31:0] evaluate_csr_funct3_operation(input [2:0] funct3, input [31:0] previous_value, input [31:0] written_value);
- begin
- case(funct3)
- `funct3_csrrw, `funct3_csrrwi:
- evaluate_csr_funct3_operation = written_value;
- `funct3_csrrs, `funct3_csrrsi:
- evaluate_csr_funct3_operation = written_value | previous_value;
- `funct3_csrrc, `funct3_csrrci:
- evaluate_csr_funct3_operation = ~written_value & previous_value;
- default:
- evaluate_csr_funct3_operation = 32'hXXXXXXXX;
- endcase
- end
- endfunction
-
- parameter misa_a = 1'b0;
- parameter misa_b = 1'b0;
- parameter misa_c = 1'b0;
- parameter misa_d = 1'b0;
- parameter misa_e = 1'b0;
- parameter misa_f = 1'b0;
- parameter misa_g = 1'b0;
- parameter misa_h = 1'b0;
- parameter misa_i = 1'b1;
- parameter misa_j = 1'b0;
- parameter misa_k = 1'b0;
- parameter misa_l = 1'b0;
- parameter misa_m = 1'b0;
- parameter misa_n = 1'b0;
- parameter misa_o = 1'b0;
- parameter misa_p = 1'b0;
- parameter misa_q = 1'b0;
- parameter misa_r = 1'b0;
- parameter misa_s = 1'b0;
- parameter misa_t = 1'b0;
- parameter misa_u = 1'b0;
- parameter misa_v = 1'b0;
- parameter misa_w = 1'b0;
- parameter misa_x = 1'b0;
- parameter misa_y = 1'b0;
- parameter misa_z = 1'b0;
- parameter misa = {
- 2'b01,
- 4'b0,
- misa_z,
- misa_y,
- misa_x,
- misa_w,
- misa_v,
- misa_u,
- misa_t,
- misa_s,
- misa_r,
- misa_q,
- misa_p,
- misa_o,
- misa_n,
- misa_m,
- misa_l,
- misa_k,
- misa_j,
- misa_i,
- misa_h,
- misa_g,
- misa_f,
- misa_e,
- misa_d,
- misa_c,
- misa_b,
- misa_a};
-
- parameter mvendorid = 32'b0;
- parameter marchid = 32'b0;
- parameter mimpid = 32'b0;
- parameter mhartid = 32'b0;
-
- function [31:0] make_mstatus(input mstatus_tsr,
- input mstatus_tw,
- input mstatus_tvm,
- input mstatus_mxr,
- input mstatus_sum,
- input mstatus_mprv,
- input [1:0] mstatus_xs,
- input [1:0] mstatus_fs,
- input [1:0] mstatus_mpp,
- input mstatus_spp,
- input mstatus_mpie,
- input mstatus_spie,
- input mstatus_upie,
- input mstatus_mie,
- input mstatus_sie,
- input mstatus_uie);
- begin
- make_mstatus = {(mstatus_xs == 2'b11) | (mstatus_fs == 2'b11),
- 8'b0,
- mstatus_tsr,
- mstatus_tw,
- mstatus_tvm,
- mstatus_mxr,
- mstatus_sum,
- mstatus_mprv,
- mstatus_xs,
- mstatus_fs,
- mstatus_mpp,
- 2'b0,
- mstatus_spp,
- mstatus_mpie,
- 1'b0,
- mstatus_spie,
- mstatus_upie,
- mstatus_mie,
- 1'b0,
- mstatus_sie,
- mstatus_uie};
- end
- endfunction
-
- wire mip_meip = 0; // TODO: implement external interrupts
- parameter mip_seip = 0;
- parameter mip_ueip = 0;
- wire mip_mtip = 0; // TODO: implement timer interrupts
- parameter mip_stip = 0;
- parameter mip_utip = 0;
- parameter mip_msip = 0;
- parameter mip_ssip = 0;
- parameter mip_usip = 0;
-
- wire csr_op_is_valid;
-
- function `fetch_action get_fetch_action(
- input `fetch_output_state fetch_output_state,
- input `decode_action decode_action,
- input load_store_misaligned,
- input memory_interface_rw_address_valid,
- input memory_interface_rw_wait,
- input branch_taken,
- input misaligned_jump_target,
- input csr_op_is_valid
- );
- begin
- case(fetch_output_state)
- `fetch_output_state_empty:
- get_fetch_action = `fetch_action_default;
- `fetch_output_state_trap:
- get_fetch_action = `fetch_action_ack_trap;
- `fetch_output_state_valid: begin
- if((decode_action & `decode_action_trap_illegal_instruction) != 0) begin
- get_fetch_action = `fetch_action_error_trap;
- end
- else if((decode_action & `decode_action_trap_ecall_ebreak) != 0) begin
- get_fetch_action = `fetch_action_noerror_trap;
- end
- else if((decode_action & (`decode_action_load | `decode_action_store)) != 0) begin
- if(load_store_misaligned | ~memory_interface_rw_address_valid) begin
- get_fetch_action = `fetch_action_error_trap;
- end
- else if(memory_interface_rw_wait) begin
- get_fetch_action = `fetch_action_wait;
- end
- else begin
- get_fetch_action = `fetch_action_default;
- end
- end
- else if((decode_action & `decode_action_fence_i) != 0) begin
- get_fetch_action = `fetch_action_fence;
- end
- else if((decode_action & `decode_action_branch) != 0) begin
- if(branch_taken) begin
- if(misaligned_jump_target) begin
- get_fetch_action = `fetch_action_error_trap;
- end
- else begin
- get_fetch_action = `fetch_action_jump;
- end
- end
- else
- begin
- get_fetch_action = `fetch_action_default;
- end
- end
- else if((decode_action & (`decode_action_jal | `decode_action_jalr)) != 0) begin
- if(misaligned_jump_target) begin
- get_fetch_action = `fetch_action_error_trap;
- end
- else begin
- get_fetch_action = `fetch_action_jump;
- end
- end
- else if((decode_action & `decode_action_csr) != 0) begin
- if(csr_op_is_valid)
- get_fetch_action = `fetch_action_default;
- else
- get_fetch_action = `fetch_action_error_trap;
- end
- else begin
- get_fetch_action = `fetch_action_default;
- end
- end
- default:
- get_fetch_action = 32'hXXXXXXXX;
- endcase
- end
- endfunction
-
- assign fetch_action = get_fetch_action(
- fetch_output_state,
- decode_action,
- load_store_misaligned,
- memory_interface_rw_address_valid,
- memory_interface_rw_wait,
- branch_taken,
- misaligned_jump_target,
- csr_op_is_valid
- );
-
- task handle_trap;
- begin
- mstatus_mpie = mstatus_mie;
- mstatus_mie = 0;
- mepc = (fetch_action == `fetch_action_noerror_trap) ? fetch_output_pc + 4 : fetch_output_pc;
- if(fetch_action == `fetch_action_ack_trap) begin
- mcause = `cause_instruction_access_fault;
- end
- else if((decode_action & `decode_action_trap_illegal_instruction) != 0) begin
- mcause = `cause_illegal_instruction;
- end
- else if((decode_action & `decode_action_trap_ecall_ebreak) != 0) begin
- mcause = decoder_immediate[0] ? `cause_machine_environment_call : `cause_breakpoint;
- end
- else if((decode_action & `decode_action_load) != 0) begin
- if(load_store_misaligned)
- mcause = `cause_load_address_misaligned;
- else
- mcause = `cause_load_access_fault;
- end
- else if((decode_action & `decode_action_store) != 0) begin
- if(load_store_misaligned)
- mcause = `cause_store_amo_address_misaligned;
- else
- mcause = `cause_store_amo_access_fault;
- end
- else if((decode_action & (`decode_action_branch | `decode_action_jal | `decode_action_jalr)) != 0) begin
- mcause = `cause_instruction_address_misaligned;
- end
- else begin
- mcause = `cause_illegal_instruction;
- end
- end
- endtask
-
- wire [11:0] csr_number = decoder_immediate;
- wire [31:0] csr_input_value = decoder_funct3[2] ? decoder_rs1 : register_rs1;
- wire csr_reads = decoder_funct3[1] | (decoder_rd != 0);
- wire csr_writes = ~decoder_funct3[1] | (decoder_rs1 != 0);
-
- function get_csr_op_is_valid(input [11:0] csr_number, input csr_reads, input csr_writes);
- begin
- case(csr_number)
- `csr_ustatus,
- `csr_fflags,
- `csr_frm,
- `csr_fcsr,
- `csr_uie,
- `csr_utvec,
- `csr_uscratch,
- `csr_uepc,
- `csr_ucause,
- `csr_utval,
- `csr_uip,
- `csr_sstatus,
- `csr_sedeleg,
- `csr_sideleg,
- `csr_sie,
- `csr_stvec,
- `csr_scounteren,
- `csr_sscratch,
- `csr_sepc,
- `csr_scause,
- `csr_stval,
- `csr_sip,
- `csr_satp,
- `csr_medeleg,
- `csr_mideleg,
- `csr_dcsr,
- `csr_dpc,
- `csr_dscratch:
- get_csr_op_is_valid = 0;
- `csr_cycle,
- `csr_time,
- `csr_instret,
- `csr_cycleh,
- `csr_timeh,
- `csr_instreth,
- `csr_mvendorid,
- `csr_marchid,
- `csr_mimpid,
- `csr_mhartid:
- get_csr_op_is_valid = ~csr_writes;
- `csr_misa,
- `csr_mstatus,
- `csr_mie,
- `csr_mtvec,
- `csr_mscratch,
- `csr_mepc,
- `csr_mcause,
- `csr_mip:
- get_csr_op_is_valid = 1;
- `csr_mcounteren,
- `csr_mtval,
- `csr_mcycle,
- `csr_minstret,
- `csr_mcycleh,
- `csr_minstreth:
- // TODO: CSRs not implemented yet
- get_csr_op_is_valid = 0;
- endcase
- end
- endfunction
-
- assign csr_op_is_valid = get_csr_op_is_valid(csr_number, csr_reads, csr_writes);
-
- wire [63:0] cycle_counter = 0; // TODO: implement cycle_counter
- wire [63:0] time_counter = 0; // TODO: implement time_counter
- wire [63:0] instret_counter = 0; // TODO: implement instret_counter
-
always @(posedge clk) begin:main_block
if(reset) begin
reset_to_initial();