]> Joshua Wise's Git repositories - firearm.git/blame_incremental - Decode.v
Return decode to a state of cleanliness.
[firearm.git] / Decode.v
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CommitLineData
1`include "ARM_Constants.v"
2
3module Decode(
4 input clk,
5 input [31:0] insn,
6 input [31:0] inpc,
7 input [31:0] incpsr,
8 output reg [31:0] op0,
9 output reg [31:0] op1,
10 output reg [31:0] op2,
11 output reg carry,
12
13 output [3:0] read_0,
14 output [3:0] read_1,
15 output [3:0] read_2,
16 input [31:0] rdata_0,
17 input [31:0] rdata_1,
18 input [31:0] rdata_2
19 );
20
21 wire [31:0] regs0, regs1, regs2, rpc;
22 wire [31:0] op0_out, op1_out, op2_out;
23 wire carry_out;
24
25 /* shifter stuff */
26 wire [31:0] shift_oper;
27 wire [31:0] shift_res;
28 wire shift_cflag_out;
29
30 assign regs0 = (read_0 == 4'b1111) ? rpc : rdata_0;
31 assign regs1 = (read_1 == 4'b1111) ? rpc : rdata_1;
32 assign regs2 = rdata_2; /* use regs2 for things that cannot be r15 */
33
34 IHATEARMSHIFT blowme(.insn(insn),
35 .operand(regs1),
36 .reg_amt(regs2),
37 .cflag_in(incpsr[`CPSR_C]),
38 .res(shift_res),
39 .cflag_out(shift_cflag_out));
40
41 always @(*)
42 casez (insn)
43 32'b????000000??????????????1001????, /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
44// 32'b????00001???????????????1001????, /* Multiply long */
45 32'b????00010?001111????000000000000, /* MRS (Transfer PSR to register) */
46 32'b????00010?101001111100000000????, /* MSR (Transfer register to PSR) */
47 32'b????00?10?1010001111????????????, /* MSR (Transfer register or immediate to PSR, flag bits only) */
48 32'b????00010?00????????00001001????, /* Atomic swap */
49 32'b????000100101111111111110001????, /* Branch and exchange */
50 32'b????000??0??????????00001??1????, /* Halfword transfer - register offset */
51 32'b????000??1??????????00001??1????, /* Halfword transfer - register offset */
52 32'b????011????????????????????1????, /* Undefined. I hate ARM */
53 32'b????01??????????????????????????, /* Single data transfer */
54 32'b????100?????????????????????????, /* Block data transfer */
55 32'b????101?????????????????????????, /* Branch */
56 32'b????110?????????????????????????, /* Coprocessor data transfer */
57 32'b????1110???????????????????0????, /* Coprocessor data op */
58 32'b????1110???????????????????1????, /* Coprocessor register transfer */
59 32'b????1111????????????????????????: /* SWI */
60 rpc = inpc - 8;
61 32'b????00??????????????????????????: /* ALU */
62 rpc = inpc - (insn[25] ? 8 : (insn[4] ? 12 : 8));
63 default: /* X everything else out */
64 rpc = 32'hxxxxxxxx;
65 endcase
66
67 always @(*) begin
68 read_0 = 4'hx;
69 read_1 = 4'hx;
70 read_2 = 4'hx;
71
72 casez (insn)
73 32'b????000000??????????????1001????: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
74 begin
75 read_0 = insn[15:12]; /* Rn */
76 read_1 = insn[3:0]; /* Rm */
77 read_2 = insn[11:8]; /* Rs */
78 end
79// 32'b????00001???????????????1001????, /* Multiply long */
80// read_0 = insn[11:8]; /* Rn */
81// read_1 = insn[3:0]; /* Rm */
82// read_2 = 4'b0; /* anyus */
83 32'b????00010?001111????000000000000: /* MRS (Transfer PSR to register) */
84 begin end
85 32'b????00010?101001111100000000????, /* MSR (Transfer register to PSR) */
86 32'b????00?10?1010001111????????????: /* MSR (Transfer register or immediate to PSR, flag bits only) */
87 read_0 = insn[3:0]; /* Rm */
88 32'b????00??????????????????????????: /* ALU */
89 begin
90 read_0 = insn[19:16]; /* Rn */
91 read_1 = insn[3:0]; /* Rm */
92 read_2 = insn[11:8]; /* Rs for shift */
93 end
94 32'b????00010?00????????00001001????: /* Atomic swap */
95 begin
96 read_0 = insn[19:16]; /* Rn */
97 read_1 = insn[3:0]; /* Rm */
98 end
99 32'b????000100101111111111110001????: /* Branch and exchange */
100 read_0 = insn[3:0]; /* Rn */
101 32'b????000??0??????????00001??1????: /* Halfword transfer - register offset */
102 begin
103 read_0 = insn[19:16];
104 read_1 = insn[3:0];
105 end
106 32'b????000??1??????????00001??1????: /* Halfword transfer - immediate offset */
107 begin
108 read_0 = insn[19:16];
109 end
110 32'b????011????????????????????1????: /* Undefined. I hate ARM */
111 begin end
112 32'b????01??????????????????????????: /* Single data transfer */
113 begin
114 read_0 = insn[19:16]; /* Rn */
115 read_1 = insn[3:0]; /* Rm */
116 end
117 32'b????100?????????????????????????: /* Block data transfer */
118 read_0 = insn[19:16];
119 32'b????101?????????????????????????: /* Branch */
120 begin end
121 32'b????110?????????????????????????: /* Coprocessor data transfer */
122 read_0 = insn[19:16];
123 32'b????1110???????????????????0????: /* Coprocessor data op */
124 begin end
125 32'b????1110???????????????????1????: /* Coprocessor register transfer */
126 read_0 = insn[15:12];
127 32'b????1111????????????????????????: /* SWI */
128 begin end
129 default:
130 $display("Undecoded instruction");
131 endcase
132 end
133
134 always @(*) begin
135 op0_out = 32'hxxxxxxxx;
136 op1_out = 32'hxxxxxxxx;
137 op2_out = 32'hxxxxxxxx;
138 carry_out = 1'bx;
139 casez (insn)
140 32'b????000000??????????????1001????: begin /* Multiply */
141 op0_out = regs0;
142 op1_out = regs1;
143 op2_out = regs2;
144 end
145// 32'b????00001???????????????1001????: begin /* Multiply long */
146// op1_res = regs1;
147// end
148 32'b????00010?001111????000000000000: begin /* MRS (Transfer PSR to register) */
149 end
150 32'b????00010?101001111100000000????: begin /* MSR (Transfer register to PSR) */
151 op0_out = regs0;
152 end
153 32'b????00?10?1010001111????????????: begin /* MSR (Transfer register or immediate to PSR, flag bits only) */
154 if(insn[25]) begin /* the constant case */
155 op0_out = ({24'b0, insn[7:0]} >> {insn[11:8], 1'b0}) | ({24'b0, insn[7:0]} << (5'b0 - {insn[11:8], 1'b0}));
156 end else begin
157 op0_out = regs0;
158 end
159 end
160 32'b????00??????????????????????????: begin /* ALU */
161 op0_out = regs0;
162 if(insn[25]) begin /* the constant case */
163 carry_out = incpsr[`CPSR_C];
164 op1_out = ({24'b0, insn[7:0]} >> {insn[11:8], 1'b0}) | ({24'b0, insn[7:0]} << (5'b0 - {insn[11:8], 1'b0}));
165 end else begin
166 carry_out = shift_cflag_out;
167 op1_out = shift_res;
168 end
169 end
170 32'b????00010?00????????00001001????: begin /* Atomic swap */
171 op0_out = regs0;
172 op1_out = regs1;
173 end
174 32'b????000100101111111111110001????: begin /* Branch and exchange */
175 op0_out = regs0;
176 end
177 32'b????000??0??????????00001??1????: begin /* Halfword transfer - register offset */
178 op0_out = regs0;
179 op1_out = regs1;
180 end
181 32'b????000??1??????????00001??1????: begin /* Halfword transfer - immediate offset */
182 op0_out = regs0;
183 op1_out = {24'b0, insn[11:8], insn[3:0]};
184 end
185 32'b????011????????????????????1????: begin /* Undefined. I hate ARM */
186 /* eat shit */
187 end
188 32'b????01??????????????????????????: begin /* Single data transfer */
189 op0_out = regs0;
190 if(insn[25]) begin
191 op1_out = {20'b0, insn[11:0]};
192 carry_out = incpsr[`CPSR_C];
193 end else begin
194 op1_out = shift_res;
195 carry_out = shift_cflag_out;
196 end
197 end
198 32'b????100?????????????????????????: begin /* Block data transfer */
199 op0_out = regs0;
200 op1_out = {16'b0, insn[15:0]};
201 end
202 32'b????101?????????????????????????: begin /* Branch */
203 op0_out = {{6{insn[23]}}, insn[23:0], 2'b0};
204 end
205 32'b????110?????????????????????????: begin /* Coprocessor data transfer */
206 op0_out = regs0;
207 op1_out = {24'b0, insn[7:0]};
208 end
209 32'b????1110???????????????????0????: begin /* Coprocessor data op */
210 end
211 32'b????1110???????????????????1????: begin /* Coprocessor register transfer */
212 op0_out = regs0;
213 end
214 32'b????1111????????????????????????: begin /* SWI */
215 end
216 default: begin end
217 endcase
218 end
219
220 always @ (posedge clk) begin
221 op0 <= op0_out; /* Rn - always */
222 op1 <= op1_out; /* 'operand 2' - Rm */
223 op2 <= op2_out; /* thirdedge - Rs */
224 carry <= carry_out;
225 end
226
227endmodule
228
229module IHATEARMSHIFT(
230 input [31:0] insn,
231 input [31:0] operand,
232 input [31:0] reg_amt,
233 input cflag_in,
234 output [31:0] res,
235 output cflag_out
236);
237 wire [5:0] shift_amt;
238 wire elanus;
239
240
241 /* might want to write our own damn shifter that does arithmetic/logical efficiently and stuff */
242 always @(*)
243 if(insn[4]) begin
244 shift_amt = {|reg_amt[7:5], reg_amt[4:0]};
245 elanus = 1'b1;
246 end else begin
247 shift_amt = {insn[11:7] == 5'b0, insn[11:7]};
248 elanus = 1'b0;
249 end
250
251 always @(*)
252 case (insn[6:5]) /* shift type */
253 `SHIFT_LSL: begin
254 {cflag_out, res} = {cflag_in, operand} << {elanus & shift_amt[5], shift_amt[4:0]};
255 end
256 `SHIFT_LSR: begin
257 {res, cflag_out} = {operand, cflag_in} >> shift_amt;
258 end
259 `SHIFT_ASR: begin
260 {res, cflag_out} = {operand, cflag_in} >> shift_amt | (operand[31] ? ~(33'h1FFFFFFFF >> shift_amt) : 33'b0);
261 end
262 `SHIFT_ROR: begin
263 if(!elanus && shift_amt[4:0] == 5'b0) begin /* RRX x.x */
264 res = {cflag_in, operand[31:1]};
265 cflag_out = operand[0];
266 end else if(shift_amt == 6'b0) begin
267 res = operand;
268 cflag_out = cflag_in;
269 end else begin
270 res = operand >> shift_amt[4:0] | operand << (5'b0 - shift_amt[4:0]);
271 cflag_out = operand[shift_amt[4:0] - 5'b1];
272 end
273 end
274 endcase
275endmodule
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