output reg outbubble = 1,
output reg [31:0] outcpsr = 0,
output reg [31:0] outspsr = 0,
+ output reg outcpsrup = 0,
output reg write_reg = 1'bx,
output reg [3:0] write_num = 4'bxxxx,
output reg [31:0] write_data = 32'hxxxxxxxx,
output reg [31:0] jmppc,
output reg jmp,
output reg [31:0] outpc,
- output reg [31:0] outinsn
+ output reg [31:0] outinsn,
+ output reg [31:0] outop0, outop1, outop2
);
reg mult_start;
reg next_outbubble;
reg [31:0] next_outcpsr, next_outspsr;
+ reg next_outcpsrup;
reg next_write_reg;
reg [3:0] next_write_num;
.in0(alu_in0), .in1(alu_in1), .cpsr(cpsr), .op(alu_op),
.setflags(alu_setflags), .shifter_carry(carry),
.result(alu_result), .cpsr_out(alu_outcpsr), .setres(alu_setres));
-
+
always @(posedge clk)
begin
if (!stall)
outbubble <= next_outbubble;
outcpsr <= next_outcpsr;
outspsr <= next_outspsr;
+ outcpsrup <= next_outcpsrup;
write_reg <= next_write_reg;
write_num <= next_write_num;
write_data <= next_write_data;
outpc <= pc;
outinsn <= insn;
+ outop0 <= op0;
+ outop1 <= op1;
+ outop2 <= op2;
end
end
+
+ reg delayedflush = 0;
+ always @(posedge clk)
+ if (flush && outstall /* halp! I can't do it now, maybe later? */)
+ delayedflush <= 1;
+ else if (!outstall /* anything has been handled this time around */)
+ delayedflush <= 0;
reg prevstall = 0;
always @(posedge clk)
prevstall <= outstall;
-
+
always @(*)
begin
outstall = stall;
- next_outbubble = inbubble | flush;
+
+ casez (insn)
+ `DECODE_ALU_MULT: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
+ outstall = outstall | ((!prevstall | !mult_done) && !inbubble);
+ endcase
+ end
+
+ /* ALU inputs */
+ always @(*)
+ begin
+ alu_in0 = op0;
+ alu_in1 = op1;
+ alu_op = insn[24:21];
+ alu_setflags = insn[20] /* S */;
+ end
+
+ /* Register outputs */
+ always @(*)
+ begin
next_outcpsr = cpsr;
next_outspsr = spsr;
+ next_outcpsrup = 0;
next_write_reg = 0;
next_write_num = 4'hx;
next_write_data = 32'hxxxxxxxx;
-
- mult_start = 0;
- mult_acc0 = 32'hxxxxxxxx;
- mult_in0 = 32'hxxxxxxxx;
- mult_in1 = 32'hxxxxxxxx;
-
- alu_in0 = 32'hxxxxxxxx;
- alu_in1 = 32'hxxxxxxxx;
- alu_op = 4'hx; /* hax! */
- alu_setflags = 1'bx;
-
- jmp = 1'b0;
- jmppc = 32'hxxxxxxxx;
-
- casez (insn)
+
+ casez(insn)
`DECODE_ALU_MULT: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
begin
- if (!prevstall && !inbubble)
- begin
- mult_start = 1;
- mult_acc0 = insn[21] /* A */ ? op0 /* Rn */ : 32'h0;
- mult_in0 = op1 /* Rm */;
- mult_in1 = op2 /* Rs */;
- $display("New MUL instruction");
- end
- outstall = stall | ((!prevstall | !mult_done) && !inbubble);
- next_outbubble = inbubble | !mult_done | !prevstall;
next_outcpsr = insn[20] /* S */ ? {mult_result[31] /* N */, mult_result == 0 /* Z */, 1'b0 /* C */, cpsr[28] /* V */, cpsr[27:0]} : cpsr;
+ next_outcpsrup = insn[20] /* S */;
next_write_reg = 1;
next_write_num = insn[19:16] /* Rd -- why the fuck isn't this the same place as ALU */;
next_write_data = mult_result;
end
-// `DECODE_ALU_MUL_LONG, /* Multiply long */
`DECODE_ALU_MRS: /* MRS (Transfer PSR to register) */
begin
next_write_reg = 1;
end
`DECODE_ALU_MSR, /* MSR (Transfer register to PSR) */
`DECODE_ALU_MSR_FLAGS: /* MSR (Transfer register or immediate to PSR, flag bits only) */
+ begin
if ((cpsr[4:0] == `MODE_USR) || (insn[16] /* that random bit */ == 1'b0)) /* flags only */
begin
if (insn[22] /* Ps */)
else
next_outcpsr = op0;
end
+ next_outcpsrup = 1;
+ end
`DECODE_ALU_SWP, /* Atomic swap */
`DECODE_ALU_BX, /* Branch */
`DECODE_ALU_HDATA_REG, /* Halfword transfer - register offset */
begin end
`DECODE_ALU: /* ALU */
begin
- alu_in0 = op0;
- alu_in1 = op1;
- alu_op = insn[24:21];
- alu_setflags = insn[20] /* S */;
-
if (alu_setres) begin
next_write_reg = 1;
next_write_num = insn[15:12] /* Rd */;
next_write_data = alu_result;
end
- next_outcpsr = ((insn[15:12] == 4'b1111) && insn[20]) ? spsr : alu_outcpsr;
+ if (insn[20] /* S */) begin
+ next_outcpsrup = 1;
+ next_outcpsr = ((insn[15:12] == 4'b1111) && insn[20]) ? spsr : alu_outcpsr;
+ end
end
`DECODE_LDRSTR_UNDEFINED, /* Undefined. I hate ARM */
`DECODE_LDRSTR, /* Single data transfer */
`DECODE_LDMSTM: /* Block data transfer */
begin end
+ `DECODE_BRANCH: /* Branch */
+ begin
+ if(insn[24] /* L */) begin
+ next_write_reg = 1;
+ next_write_num = 4'hE; /* link register */
+ next_write_data = pc + 32'h4;
+ end
+ end
+ endcase
+ end
+
+ /* Multiplier inputs */
+ always @(*)
+ begin
+ mult_start = 0;
+ mult_acc0 = 32'hxxxxxxxx;
+ mult_in0 = 32'hxxxxxxxx;
+ mult_in1 = 32'hxxxxxxxx;
+
+ casez(insn)
+ `DECODE_ALU_MULT:
+ begin
+ if (!prevstall /* i.e., this is a new one */ && !inbubble /* i.e., this is a real one */)
+ begin
+ mult_start = 1;
+ mult_acc0 = insn[21] /* A */ ? op0 /* Rn */ : 32'h0;
+ mult_in0 = op1 /* Rm */;
+ mult_in1 = op2 /* Rs */;
+ $display("New MUL instruction");
+ end
+ end
+ endcase
+ end
+
+ /* Miscellaneous cleanup. */
+ always @(*)
+ begin
+ next_outbubble = inbubble | flush | delayedflush;
+
+ jmp = 1'b0;
+ jmppc = 32'h00000000;
+
+ casez (insn)
+ `DECODE_ALU_MULT: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
+ next_outbubble = next_outbubble | !mult_done | !prevstall;
+ `DECODE_ALU_MRS, /* MRS (Transfer PSR to register) */
+ `DECODE_ALU_MSR, /* MSR (Transfer register to PSR) */
+ `DECODE_ALU_MSR_FLAGS, /* MSR (Transfer register or immediate to PSR, flag bits only) */
+ `DECODE_ALU_SWP, /* Atomic swap */
+ `DECODE_ALU_BX, /* Branch */
+ `DECODE_ALU_HDATA_REG, /* Halfword transfer - register offset */
+ `DECODE_ALU_HDATA_IMM, /* Halfword transfer - immediate offset */
+ `DECODE_ALU, /* ALU */
+ `DECODE_LDRSTR_UNDEFINED, /* Undefined. I hate ARM */
+ `DECODE_LDRSTR, /* Single data transfer */
+ `DECODE_LDMSTM: /* Block data transfer */
+ begin end
`DECODE_BRANCH:
begin
- if(!inbubble) begin
+ if(!inbubble && !flush && !delayedflush && !outstall /* Let someone else take precedence. */) begin
jmppc = pc + op0 + 32'h8;
- if(insn[24]) begin
- next_write_reg = 1;
- next_write_num = 4'hE; /* link register */
- next_write_data = pc - 32'h4;
- end
jmp = 1'b1;
end
end /* Branch */
assign sum = {1'b0, in0} + {1'b0, in1};
assign diff = {1'b0, in0} - {1'b0, in1};
- assign rdiff = {1'b0, in1} + {1'b0, in0};
+ assign rdiff = {1'b0, in1} - {1'b0, in0};
assign sum_v = (in0[31] ^~ in1[31]) & (sum[31] ^ in0[31]);
assign diff_v = (in0[31] ^ in1[31]) & (diff[31] ^ in0[31]);
assign rdiff_v = (in0[31] ^ in1[31]) & (rdiff[31] ^ in1[31]);
end
`ALU_SUB: begin
{flag_c, result} = diff;
+ flag_c = !flag_c;
flag_v = diff_v;
setres = 1'b1;
end
`ALU_RSB: begin
{flag_c, result} = rdiff;
+ flag_c = !flag_c;
flag_v = rdiff_v;
setres = 1'b1;
end
end
`ALU_SBC: begin
{flag_c, result} = diff - {32'b0, (~cpsr[`CPSR_C])};
+ flag_c = !flag_c;
flag_v = diff_v | (diff[31] & ~result[31]);
setres = 1'b1;
end
`ALU_RSC: begin
{flag_c, result} = rdiff - {32'b0, (~cpsr[`CPSR_C])};
+ flag_c = !flag_c;
flag_v = rdiff_v | (rdiff[31] & ~result[31]);
setres = 1'b1;
end
end
`ALU_CMP: begin
{flag_c, result} = diff;
+ flag_c = !flag_c;
flag_v = diff_v;
setres = 1'b0;
end