1 `include "ARM_Constants.v"
5 input Nrst, /* XXX not used yet */
7 input stall, /* pipeline control */
10 input inbubble, /* stage inputs */
15 output reg outstall, /* stage outputs */
17 output reg [31:0] outpc,
18 output reg [31:0] outinsn
24 `ifdef COPY_PASTA_FODDER
25 /* from page 2 of ARM7TDMIvE2.pdf */
27 32'b????000000??????????????1001????: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
28 // 32'b????00001???????????????1001????: /* Multiply long */
29 32'b????00010?001111????000000000000: /* MRS (Transfer PSR to register) */
30 32'b????00010?101001111100000000????: /* MSR (Transfer register to PSR) */
31 32'b????00?10?1010001111????????????: /* MSR (Transfer register or immediate to PSR, flag bits only) */
32 32'b????00??????????????????????????: /* ALU */
33 32'b????00010?00????????00001001????: /* Atomic swap */
34 32'b????000100101111111111110001????: /* Branch */
35 32'b????000??0??????????00001??1????: /* Halfword transfer - register offset */
36 32'b????000??1??????????00001??1????: /* Halfword transfer - register offset */
37 32'b????011????????????????????1????: /* Undefined. I hate ARM */
38 32'b????01??????????????????????????: /* Single data transfer */
39 32'b????100?????????????????????????: /* Block data transfer */
40 32'b????101?????????????????????????: /* Branch */
41 32'b????110?????????????????????????: /* Coprocessor data transfer */
42 32'b????1110???????????????????0????: /* Coprocessor data op */
43 32'b????1110???????????????????1????: /* Coprocessor register transfer */
44 32'b????1111????????????????????????: /* SWI */
45 default: /* X everything else out */
55 function [15:0] idxbit;
60 idxbit = (16'b1) << r;
63 wire [3:0] rn = insn[19:16];
64 wire [3:0] rd = insn[15:12];
65 wire [3:0] rs = insn[11:8];
66 wire [3:0] rm = insn[3:0];
67 wire [3:0] cond = insn[31:28];
69 wire [3:0] rd_mul = insn[19:16];
70 wire [3:0] rn_mul = insn[15:12];
71 wire [3:0] rs_mul = insn[11:8];
73 wire [3:0] alu_opc = insn[24:21];
75 function alu_is_logical;
79 `ALU_AND,`ALU_EOR,`ALU_TST,`ALU_TEQ,`ALU_ORR,`ALU_MOV,`ALU_BIC,`ALU_MVN: alu_is_logical = 1;
80 default: alu_is_logical = 0;
84 function alu_flags_only;
88 `ALU_TST,`ALU_TEQ,`ALU_CMP,`ALU_CMN: alu_flags_only = 1;
89 default: alu_flags_only = 0;
93 function shift_requires_carry;
97 `SHIFT_LSL: shift_requires_carry = (shift[7:2] == 0);
98 `SHIFT_LSR: shift_requires_carry = 0;
99 `SHIFT_ASR: shift_requires_carry = 0;
100 `SHIFT_ROR: shift_requires_carry = (shift[7:2] == 0);
106 32'b????000000??????????????1001????: /* Multiply -- must come before ALU, because it pattern matches a specific case of ALU */
108 use_cpsr = `COND_MATTERS(cond);
109 use_regs = (insn[21] /* accum */ ? idxbit(rn_mul) : 0) | idxbit(rs_mul) | idxbit(rm);
110 def_cpsr = insn[20] /* setcc */;
111 def_regs = idxbit(rd_mul);
113 // 32'b????00001???????????????1001????: /* Multiply long */
114 32'b????00010?001111????000000000000: /* MRS (Transfer PSR to register) */
116 use_cpsr = `COND_MATTERS(cond) || (insn[22] == 0) /* Source = CPSR */;
119 def_regs = idxbit(rd);
121 32'b????00010?101001111100000000????: /* MSR (Transfer register to PSR) */
123 use_cpsr = `COND_MATTERS(cond);
124 use_regs = idxbit(rm);
128 32'b????00?10?1010001111????????????: /* MSR (Transfer register or immediate to PSR, flag bits only) */
130 use_cpsr = `COND_MATTERS(cond);
131 use_regs = insn[25] ? 0 : idxbit(rm);
135 32'b????00??????????????????????????: /* ALU */
137 use_cpsr = `COND_MATTERS(cond) | (!insn[25] /* I */ && shift_requires_carry(insn[11:4]));
139 (insn[25] /* I */ ? 0 :
140 (insn[4] /* shift by reg */ ?
141 (idxbit(rs) | idxbit(rm)) :
143 (((alu_opc != `ALU_MOV) && (alu_opc != `ALU_MVN)) ? idxbit(rn) : 0);
144 def_cpsr = insn[20] /* S */ | alu_is_logical(alu_opc);
145 def_regs = alu_flags_only(alu_opc) ? 0 : idxbit(rd);
147 32'b????00010?00????????00001001????: /* Atomic swap */
149 use_cpsr = `COND_MATTERS(cond);
150 use_regs = idxbit(rn) | idxbit(rm);
152 def_regs = idxbit(rd);
154 32'b????000100101111111111110001????: /* Branch */
156 use_cpsr = `COND_MATTERS(cond);
157 use_regs = idxbit(rm);
158 def_cpsr = 0; // don't care, we'll never get there
161 32'b????000??0??????????00001??1????: /* Halfword transfer - register offset */
163 use_cpsr = `COND_MATTERS(cond);
164 use_regs = idxbit(rn) | idxbit(rm) | (insn[20] /* L */ ? 0 : idxbit(rd));
166 def_regs = insn[20] /* L */ ? idxbit(rd) : 0;
168 32'b????000??1??????????00001??1????: /* Halfword transfer - immediate offset */
170 use_cpsr = `COND_MATTERS(cond);
171 use_regs = idxbit(rn) | (insn[20] /* L */ ? 0 : idxbit(rd));
173 def_regs = insn[20] /* L */ ? idxbit(rd) : 0;
175 32'b????011????????????????????1????: /* Undefined. I hate ARM */
182 32'b????100?????????????????????????: /* Block data transfer */
184 use_cpsr = `COND_MATTERS(cond);
185 use_regs = idxbit(rn) | (insn[20] /* L */ ? 0 : insn[15:0]);
186 def_cpsr = insn[22]; /* This is a superset of all cases, anyway. */
187 def_regs = (insn[21] /* W */ ? idxbit(rn) : 0) | (insn[20] /* L */ ? insn[15:0] : 0);
189 32'b????101?????????????????????????: /* Branch */
191 use_cpsr = `COND_MATTERS(cond);
196 32'b????110?????????????????????????: /* Coprocessor data transfer */
198 use_cpsr = `COND_MATTERS(cond);
199 use_regs = idxbit(rn);
201 def_regs = insn[21] /* W */ ? idxbit(rn) : 0;
203 32'b????1110???????????????????0????: /* Coprocessor data op */
205 use_cpsr = `COND_MATTERS(cond);
210 32'b????1110???????????????????1????: /* Coprocessor register transfer */
212 use_cpsr = `COND_MATTERS(cond);
213 use_regs = insn[20] /* L */ ? 0 : idxbit(rd);
215 def_regs = insn[20] /* L */ ? idxbit(rd) : 0;
217 32'b????1111????????????????????????: /* SWI */
219 use_cpsr = `COND_MATTERS(cond);
224 default: /* X everything else out */
227 use_regs = 16'bxxxxxxxxxxxxxxxx;
229 def_regs = 16'bxxxxxxxxxxxxxxxx;
233 /* Condition checking logic */
237 `COND_EQ: condition_met = cpsr[`CPSR_Z];
238 `COND_NE: condition_met = !cpsr[`CPSR_Z];
239 `COND_CS: condition_met = cpsr[`CPSR_C];
240 `COND_CC: condition_met = !cpsr[`CPSR_C];
241 `COND_MI: condition_met = cpsr[`CPSR_N];
242 `COND_PL: condition_met = !cpsr[`CPSR_N];
243 `COND_VS: condition_met = cpsr[`CPSR_V];
244 `COND_VC: condition_met = !cpsr[`CPSR_V];
245 `COND_HI: condition_met = cpsr[`CPSR_C] && !cpsr[`CPSR_Z];
246 `COND_LS: condition_met = !cpsr[`CPSR_C] || cpsr[`CPSR_Z];
247 `COND_GE: condition_met = cpsr[`CPSR_N] == cpsr[`CPSR_V];
248 `COND_LT: condition_met = cpsr[`CPSR_N] != cpsr[`CPSR_V];
249 `COND_GT: condition_met = !cpsr[`CPSR_Z] && (cpsr[`CPSR_N] == cpsr[`CPSR_V]);
250 `COND_LE: condition_met = cpsr[`CPSR_Z] || (cpsr[`CPSR_N] != cpsr[`CPSR_V]);
251 `COND_AL: condition_met = 1;
252 `COND_NV: condition_met = 0;
253 default: condition_met = 1'bx;
257 `define STAGE_EXECUTE 0
258 `define STAGE_MEMORY 1
259 /* Once it's hit writeback, it's essentially hit the regfile so you're done. */
260 reg cpsr_inflight [1:0];
261 reg [15:0] regs_inflight [1:0];
265 wire waiting = waiting_cpsr | waiting_regs;
269 cpsr_inflight[0] = 0;
270 cpsr_inflight[1] = 0;
271 regs_inflight[0] = 0;
272 regs_inflight[1] = 0;
277 waiting_cpsr = use_cpsr & (cpsr_inflight[0] | cpsr_inflight[1]);
278 waiting_regs = |(use_regs & (regs_inflight[0] | regs_inflight[1]));
281 /* Actually do the issue. */
282 always @(posedge clk)
284 cpsr_inflight[0] <= cpsr_inflight[1]; /* I'm not sure how well selects work with arrays, and that seems like a dumb thing to get anusulated by. */
285 cpsr_inflight[1] <= ((waiting | inbubble) && condition_met) ? 0 : def_cpsr;
286 regs_inflight[0] <= regs_inflight[1];
287 regs_inflight[1] <= ((waiting | inbubble) && condition_met) ? 0 : def_regs;
289 outbubble <= inbubble | waiting | !condition_met;