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5b3daee2
JW
1module Execute(
2 input clk,
3 input Nrst, /* XXX not used yet */
4
5 input stall,
6 input flush,
7
8 input inbubble,
9 input [31:0] pc,
10 input [31:0] insn,
11 input [31:0] cpsr,
cb0428b6 12 input [31:0] spsr,
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JW
13 input [31:0] op0,
14 input [31:0] op1,
15 input [31:0] op2,
16 input carry,
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JW
17
18 output reg outstall = 0,
bc572c5f 19 output reg outbubble = 1,
6e3dfd79 20 output reg [31:0] outcpsr = 0,
cb0428b6 21 output reg [31:0] outspsr = 0,
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JW
22 output reg write_reg = 1'bx,
23 output reg [3:0] write_num = 4'bxxxx,
314dac21 24 output reg [31:0] write_data = 32'hxxxxxxxx,
149bcd1a
CL
25 output reg [31:0] jmppc,
26 output reg jmp
5b3daee2 27 );
5b3daee2 28
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JW
29 reg mult_start;
30 reg [31:0] mult_acc0, mult_in0, mult_in1;
31 wire mult_done;
32 wire [31:0] mult_result;
33
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JW
34 reg [31:0] alu_in0, alu_in1;
35 reg [3:0] alu_op;
36 reg alu_setflags;
6e3dfd79 37 wire [31:0] alu_result, alu_outcpsr;
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JW
38 wire alu_setres;
39
40 reg next_outbubble;
cb0428b6 41 reg [31:0] next_outcpsr, next_outspsr;
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JW
42 reg next_write_reg;
43 reg [3:0] next_write_num;
149bcd1a 44
732b7730 45 reg [31:0] next_write_data;
149bcd1a 46
bc572c5f
JW
47 Multiplier multiplier(
48 .clk(clk), .Nrst(Nrst),
49 .start(mult_start), .acc0(mult_acc0), .in0(mult_in0),
50 .in1(mult_in1), .done(mult_done), .result(mult_result));
6e3dfd79
JW
51
52 ALU alu(
53 .clk(clk), .Nrst(Nrst),
54 .in0(alu_in0), .in1(alu_in1), .cpsr(cpsr), .op(alu_op),
55 .setflags(alu_setflags), .shifter_carry(carry),
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JW
56 .result(alu_result), .cpsr_out(alu_outcpsr), .setres(alu_setres));
57
58 always @(posedge clk)
59 begin
60 if (!stall)
61 begin
62 outbubble <= next_outbubble;
63 outcpsr <= next_outcpsr;
cb0428b6 64 outspsr <= next_outspsr;
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JW
65 write_reg <= next_write_reg;
66 write_num <= next_write_num;
67 write_data <= next_write_data;
68 end
69 end
2b091cd4 70
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JW
71 reg prevstall = 0;
72 always @(posedge clk)
73 prevstall <= outstall;
74
2b091cd4 75 always @(*)
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JW
76 begin
77 outstall = stall;
149bcd1a 78 next_outbubble = inbubble | flush;
732b7730 79 next_outcpsr = cpsr;
cb0428b6 80 next_outspsr = spsr;
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JW
81 next_write_reg = 0;
82 next_write_num = 4'hx;
83 next_write_data = 32'hxxxxxxxx;
149bcd1a 84
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JW
85 mult_start = 0;
86 mult_acc0 = 32'hxxxxxxxx;
87 mult_in0 = 32'hxxxxxxxx;
88 mult_in1 = 32'hxxxxxxxx;
149bcd1a 89
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JW
90 alu_in0 = 32'hxxxxxxxx;
91 alu_in1 = 32'hxxxxxxxx;
92 alu_op = 4'hx; /* hax! */
93 alu_setflags = 1'bx;
149bcd1a
CL
94
95 jmp = 1'b0;
96 jmppc = 32'hxxxxxxxx;
97
2b091cd4 98 casez (insn)
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JW
99 `DECODE_ALU_MULT: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
100 begin
101 if (!prevstall && !inbubble)
102 begin
103 mult_start = 1;
104 mult_acc0 = insn[21] /* A */ ? op0 /* Rn */ : 32'h0;
105 mult_in0 = op1 /* Rm */;
106 mult_in1 = op2 /* Rs */;
107 $display("New MUL instruction");
108 end
109 outstall = stall | ((!prevstall | !mult_done) && !inbubble);
110 next_outbubble = inbubble | !mult_done | !prevstall;
111 next_outcpsr = insn[20] /* S */ ? {mult_result[31] /* N */, mult_result == 0 /* Z */, 1'b0 /* C */, cpsr[28] /* V */, cpsr[27:0]} : cpsr;
112 next_write_reg = 1;
113 next_write_num = insn[19:16] /* Rd -- why the fuck isn't this the same place as ALU */;
114 next_write_data = mult_result;
115 end
2b091cd4 116// `DECODE_ALU_MUL_LONG, /* Multiply long */
cb0428b6
JW
117 `DECODE_ALU_MRS: /* MRS (Transfer PSR to register) */
118 begin
119 next_write_reg = 1;
120 next_write_num = insn[15:12];
121 if (insn[22] /* Ps */)
122 next_write_data = spsr;
123 else
124 next_write_data = cpsr;
125 end
2b091cd4 126 `DECODE_ALU_MSR, /* MSR (Transfer register to PSR) */
cb0428b6
JW
127 `DECODE_ALU_MSR_FLAGS: /* MSR (Transfer register or immediate to PSR, flag bits only) */
128 if ((cpsr[4:0] == `MODE_USR) || (insn[16] /* that random bit */ == 1'b0)) /* flags only */
129 begin
130 if (insn[22] /* Ps */)
131 next_outspsr = {op0[31:29], spsr[28:0]};
132 else
133 next_outcpsr = {op0[31:29], cpsr[28:0]};
134 end else begin
135 if (insn[22] /* Ps */)
136 next_outspsr = op0;
137 else
138 next_outcpsr = op0;
139 end
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JW
140 `DECODE_ALU_SWP, /* Atomic swap */
141 `DECODE_ALU_BX, /* Branch */
142 `DECODE_ALU_HDATA_REG, /* Halfword transfer - register offset */
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JW
143 `DECODE_ALU_HDATA_IMM: /* Halfword transfer - immediate offset */
144 begin end
145 `DECODE_ALU: /* ALU */
146 begin
147 alu_in0 = op0;
148 alu_in1 = op1;
149 alu_op = insn[24:21];
cb0428b6 150 alu_setflags = insn[20] /* S */;
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JW
151
152 if (alu_setres) begin
153 next_write_reg = 1;
154 next_write_num = insn[15:12] /* Rd */;
155 next_write_data = alu_result;
156 end
157
cb0428b6 158 next_outcpsr = ((insn[15:12] == 4'b1111) && insn[20]) ? spsr : alu_outcpsr;
732b7730 159 end
2b091cd4
JW
160 `DECODE_LDRSTR_UNDEFINED, /* Undefined. I hate ARM */
161 `DECODE_LDRSTR, /* Single data transfer */
314dac21
CL
162 `DECODE_LDMSTM: /* Block data transfer */
163 begin end
164 `DECODE_BRANCH:
165 begin
7947b9c7 166 if(!inbubble) begin
f8bf38ca
CL
167 jmppc = pc + op0 + 32'h8;
168 if(insn[24]) begin
169 next_write_reg = 1;
170 next_write_num = 4'hE; /* link register */
7947b9c7 171 next_write_data = pc - 32'h4;
f8bf38ca
CL
172 end
173 jmp = 1'b1;
314dac21
CL
174 end
175 end /* Branch */
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JW
176 `DECODE_LDCSTC, /* Coprocessor data transfer */
177 `DECODE_CDP, /* Coprocessor data op */
178 `DECODE_MRCMCR, /* Coprocessor register transfer */
179 `DECODE_SWI: /* SWI */
180 begin end
181 default: /* X everything else out */
182 begin end
183 endcase
732b7730 184 end
5b3daee2 185endmodule
07fbfa80
JW
186
187module Multiplier(
188 input clk,
189 input Nrst, /* XXX not used yet */
190
191 input start,
192 input [31:0] acc0,
193 input [31:0] in0,
194 input [31:0] in1,
195
196 output reg done = 0,
197 output reg [31:0] result);
198
199 reg [31:0] bitfield;
200 reg [31:0] multiplicand;
201 reg [31:0] acc;
202
203 always @(posedge clk)
204 begin
205 if (start) begin
206 bitfield <= in0;
207 multiplicand <= in1;
208 acc <= acc0;
209 done <= 0;
210 end else begin
211 bitfield <= {2'b00, bitfield[31:2]};
212 multiplicand <= {multiplicand[29:0], 2'b00};
213 acc <= acc +
214 (bitfield[0] ? multiplicand : 0) +
215 (bitfield[1] ? {multiplicand[30:0], 1'b0} : 0);
216 if (bitfield == 0) begin
217 result <= acc;
218 done <= 1;
219 end
220 end
221 end
222endmodule
879a3986 223
879a3986
CL
224module ALU(
225 input clk,
226 input Nrst, /* XXX not used yet */
227
228 input [31:0] in0,
229 input [31:0] in1,
230 input [31:0] cpsr,
231 input [3:0] op,
232 input setflags,
233 input shifter_carry,
234
235 output reg [31:0] result,
236 output reg [31:0] cpsr_out,
732b7730 237 output reg setres
879a3986 238);
7947b9c7
JW
239 reg [31:0] res;
240 reg flag_n, flag_z, flag_c, flag_v;
879a3986 241 wire [32:0] sum, diff, rdiff;
793482e9 242 wire sum_v, diff_v, rdiff_v;
879a3986
CL
243
244 assign sum = {1'b0, in0} + {1'b0, in1};
245 assign diff = {1'b0, in0} - {1'b0, in1};
246 assign rdiff = {1'b0, in1} + {1'b0, in0};
793482e9
CL
247 assign sum_v = (in0[31] ^~ in1[31]) & (sum[31] ^ in0[31]);
248 assign diff_v = (in0[31] ^ in1[31]) & (diff[31] ^ in0[31]);
249 assign rdiff_v = (in0[31] ^ in1[31]) & (rdiff[31] ^ in1[31]);
879a3986 250
879a3986
CL
251 always @(*) begin
252 res = 32'hxxxxxxxx;
253 setres = 1'bx;
254 flag_c = cpsr[`CPSR_C];
255 flag_v = cpsr[`CPSR_V];
256 case(op)
257 `ALU_AND: begin
732b7730 258 result = in0 & in1;
879a3986
CL
259 flag_c = shifter_carry;
260 setres = 1'b1;
261 end
262 `ALU_EOR: begin
732b7730 263 result = in0 ^ in1;
879a3986
CL
264 flag_c = shifter_carry;
265 setres = 1'b1;
266 end
267 `ALU_SUB: begin
732b7730 268 {flag_c, result} = diff;
793482e9 269 flag_v = diff_v;
879a3986
CL
270 setres = 1'b1;
271 end
272 `ALU_RSB: begin
732b7730 273 {flag_c, result} = rdiff;
793482e9 274 flag_v = rdiff_v;
879a3986
CL
275 setres = 1'b1;
276 end
277 `ALU_ADD: begin
732b7730 278 {flag_c, result} = sum;
793482e9 279 flag_v = sum_v;
879a3986
CL
280 setres = 1'b1;
281 end
282 `ALU_ADC: begin
732b7730 283 {flag_c, result} = sum + {32'b0, cpsr[`CPSR_C]};
793482e9 284 flag_v = sum_v | (~sum[31] & result[31]);
879a3986
CL
285 setres = 1'b1;
286 end
287 `ALU_SBC: begin
732b7730 288 {flag_c, result} = diff - {32'b0, (~cpsr[`CPSR_C])};
793482e9 289 flag_v = diff_v | (diff[31] & ~result[31]);
879a3986
CL
290 setres = 1'b1;
291 end
292 `ALU_RSC: begin
732b7730 293 {flag_c, result} = rdiff - {32'b0, (~cpsr[`CPSR_C])};
793482e9 294 flag_v = rdiff_v | (rdiff[31] & ~result[31]);
879a3986
CL
295 setres = 1'b1;
296 end
297 `ALU_TST: begin
732b7730 298 result = in0 & in1;
879a3986
CL
299 flag_c = shifter_carry;
300 setres = 1'b0;
301 end
302 `ALU_TEQ: begin
732b7730 303 result = in0 ^ in1;
879a3986
CL
304 flag_c = shifter_carry;
305 setres = 1'b0;
306 end
307 `ALU_CMP: begin
732b7730 308 {flag_c, result} = diff;
793482e9 309 flag_v = diff_v;
879a3986
CL
310 setres = 1'b0;
311 end
312 `ALU_CMN: begin
732b7730 313 {flag_c, result} = sum;
793482e9 314 flag_v = sum_v;
879a3986
CL
315 setres = 1'b0;
316 end
317 `ALU_ORR: begin
732b7730 318 result = in0 | in1;
879a3986
CL
319 flag_c = shifter_carry;
320 setres = 1'b1;
321 end
322 `ALU_MOV: begin
732b7730 323 result = in1;
879a3986
CL
324 flag_c = shifter_carry;
325 setres = 1'b1;
326 end
327 `ALU_BIC: begin
732b7730 328 result = in0 & (~in1);
879a3986
CL
329 flag_c = shifter_carry;
330 setres = 1'b1;
331 end
332 `ALU_MVN: begin
732b7730 333 result = ~in1;
879a3986
CL
334 flag_c = shifter_carry;
335 setres = 1'b1;
336 end
337 endcase
732b7730
JW
338
339 flag_z = (result == 0);
340 flag_n = result[31];
341
342 cpsr_out = setflags ? {flag_n, flag_z, flag_c, flag_v, cpsr[27:0]} : cpsr;
879a3986 343 end
879a3986 344endmodule
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