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1 2 robfinch
// ============================================================================
2
//        __
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//   \\__/ o\    (C) 2022  Robert Finch, Waterloo
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//    \  __ /    All rights reserved.
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//     \/_//     robfinch@finitron.ca
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//       ||
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//
8
//      rf6809.sv
9
//
10
//
11
// BSD 3-Clause License
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are met:
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//
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// 1. Redistributions of source code must retain the above copyright notice, this
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//    list of conditions and the following disclaimer.
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//
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// 2. Redistributions in binary form must reproduce the above copyright notice,
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//    this list of conditions and the following disclaimer in the documentation
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//    and/or other materials provided with the distribution.
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//
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// 3. Neither the name of the copyright holder nor the names of its
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//    contributors may be used to endorse or promote products derived from
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//    this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
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// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
36
//
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// ============================================================================
38
 
39
import rf6809_pkg::*;
40
 
41
module rf6809(id, rst_i, clk_i, halt_i, nmi_i, irq_i, firq_i, vec_i, ba_o, bs_o, lic_o, tsc_i,
42
        rty_i, bte_o, cti_o, bl_o, lock_o, cyc_o, stb_o, we_o, ack_i, aack_i, atag_i,
43
        adr_o, dat_i, dat_o, state);
44
parameter RESET = 6'd0;
45
parameter IFETCH = 6'd1;
46
parameter DECODE = 6'd2;
47
parameter CALC = 6'd3;
48
parameter PULL1 = 6'd4;
49
parameter PUSH1 = 6'd5;
50
parameter PUSH2 = 6'd6;
51
parameter LOAD1 = 6'd7;
52
parameter LOAD2 = 6'd8;
53
parameter STORE1 = 6'd9;
54
parameter STORE2 = 6'd10;
55
parameter OUTER_INDEXING = 6'd11;
56
parameter OUTER_INDEXING2 = 6'd12;
57
parameter ICACHE1 = 6'd31;
58
parameter ICACHE2 = 6'd32;
59
parameter ICACHE3 = 6'd33;
60
parameter ICACHE4 = 6'd34;
61
parameter ICACHE5 = 6'd35;
62
parameter ICACHE6 = 6'd36;
63
parameter ICACHE7 = 6'd37;
64
parameter ICACHE8 = 6'd38;
65
parameter ICACHE9 = 6'd39;
66
parameter IBUF1 = 6'd40;
67
parameter IBUF2 = 6'd41;
68
parameter IBUF3 = 6'd42;
69
parameter IBUF4 = 6'd43;
70
parameter IBUF5 = 6'd44;
71
parameter IBUF6 = 6'd45;
72
input [5:0] id;
73
input rst_i;
74
input clk_i;
75
input halt_i;
76
input nmi_i;
77
input irq_i;
78
input firq_i;
79
input [`TRPBYTE] vec_i;
80
output reg ba_o;
81
output reg bs_o;
82
output lic_o;
83
input tsc_i;
84
input rty_i;
85
output reg [1:0] bte_o;
86
output reg [2:0] cti_o;
87
output reg [5:0] bl_o;
88
output reg cyc_o;
89
output reg stb_o;
90
output reg we_o;
91
output reg lock_o;
92
input ack_i;
93
input aack_i;
94
input [3:0] atag_i;
95
output reg [`TRPBYTE] adr_o;
96
input [`LOBYTE] dat_i;
97
output reg [`LOBYTE] dat_o;
98
output [5:0] state;
99
 
100
reg [5:0] state;
101
reg [5:0] load_what,store_what,load_what2;
102
reg [`TRPBYTE] pc;
103
wire [`TRPBYTE] pcp2 = pc + 4'd2;
104
wire [`TRPBYTE] pcp16 = pc + 5'd16;
105
wire [`HEXBYTE] insn;
106
wire icacheOn = 1'b1;
107
reg [`TRPBYTE] ibufadr, icwa;
108
reg [191:0] ibuf;
109
wire ibufhit = ibufadr==pc;
110
reg natMd,firqMd;
111
reg md32;
112
wire [`DBLBYTE] mask = 24'hFFFFFF;
113
reg [1:0] ipg;
114
reg isFar;
115
reg isOuterIndexed;
116
reg [`HEXBYTE] ir;
117
`ifdef EIGHTBIT
118
wire [9:0] ir12 = {ipg,ir[`LOBYTE]};
119
`endif
120
`ifdef TWELVEBIT
121
wire [`LOBYTE] ir12 = ir[`LOBYTE];
122
`endif
123
reg [`LOBYTE] dpr;              // direct page register
124
reg [`DBLBYTE] usppg;   // user stack pointer page
125
wire [`LOBYTE] ndxbyte;
126
reg cf,vf,zf,nf,hf,ef;
127
wire [`LOBYTE] cfx8 = cf;
128
wire [`DBLBYTE] cfx24 = {23'b0,cf};
129
reg im,firqim;
130
reg sync_state,wait_state;
131
wire [`LOBYTE] ccr = {ef,firqim,hf,im,nf,zf,vf,cf};
132
reg [`LOBYTE] acca,accb;
133
reg [`DBLBYTE] accd;
134
reg [`DBLBYTE] xr,yr,usp,ssp;
135
wire [`DBLBYTE] prod = acca * accb;
136
reg [`DBLBYTE] vect;
137
reg [`DBLBYTEP1] res;
138
reg [`LOBYTEP1] res12;
139
wire res12n = res12[BPBM1];
140
wire res12z = res12[`LOBYTE]==12'h000;
141
wire res12c = res12[bitsPerByte];
142
wire res24n = res[BPBX2M1];
143
wire res24z = res[`DBLBYTE]==24'h000000;
144
wire res24c = res[BPB*2];
145
reg [`TRPBYTE] ia;
146
reg ic_invalidate;
147
reg first_ifetch;
148
reg tsc_latched;
149
wire tsc = tsc_i|tsc_latched;
150
reg [`LOBYTE] chkpoint;
151
reg [15:0] icgot;
152
reg [23:0] btocnt;
153
reg bto;                                                        // bus timed out
154
 
155
reg [`DBLBYTE] a,b;
156
wire [`LOBYTE] b12 = b[`LOBYTE];
157
reg [`TRPBYTE] radr,wadr;
158
reg [`DBLBYTE] wdat;
159
 
160
reg nmi1,nmi_edge;
161
reg nmi_armed;
162
 
163
reg isStore;
164
reg isPULU,isPULS;
165
reg isPSHS,isPSHU;
166
reg isRTS,isRTI,isRTF;
167
reg isLEA;
168
reg isRMW;
169
 
170
// Data input path multiplexing
171
reg [BPB-1:0] dati;
172
always_comb
173
        dati = dat_i;
174
 
175
// Evaluate the branch conditional
176
reg takb;
177
always_comb
178
        case(ir12)
179
        `BRA,`LBRA:             takb <= 1'b1;
180
        `BRN,`LBRN:             takb <= 1'b0;
181
        `BHI,`LBHI:             takb <= !cf & !zf;
182
        `BLS,`LBLS:             takb <=  cf | zf;
183
        `BLO,`LBLO:             takb <=  cf;
184
        `BHS,`LBHS:             takb <= !cf;
185
        `BNE,`LBNE:             takb <= !zf;
186
        `BEQ,`LBEQ:             takb <=  zf;
187
        `BMI,`LBMI:             takb <=  nf;
188
        `BPL,`LBPL:             takb <= !nf;
189
        `BVS,`LBVS:             takb <=  vf;
190
        `BVC,`LBVC:             takb <= !vf;
191
        `BGT,`LBGT:             takb <= (nf & vf & !zf) | (!nf & !vf & !zf);
192
        `BGE,`LBGE:             takb <= (nf & vf) | (!nf & !vf);
193
        `BLE,`LBLE:             takb <= zf | (nf & !vf) | (!nf & vf);
194
        `BLT,`LBLT:             takb <= (nf & !vf) | (!nf & vf);
195
        default:        takb <= 1'b1;
196
        endcase
197
 
198
// This chunk of code takes care of calculating the number of bytes stacked
199
// by a push or pull operation.
200
//
201
reg [4:0] cnt;
202
always_comb
203
begin
204
        cnt =   (ir[bitsPerByte] ? 5'd1 : 5'd0) +
205
                        (ir[bitsPerByte+1] ? 5'd1 : 5'd0) +
206
                        (ir[bitsPerByte+2] ? 5'd1 : 5'd0) +
207
                        (ir[bitsPerByte+3] ? 5'd1 : 5'd0) +
208
                        (ir[bitsPerByte+4] ? 5'd2 : 5'd0) +
209
                        (ir[bitsPerByte+5] ? 5'd2 : 5'd0) +
210
                        (ir[bitsPerByte+6] ? 5'd2 : 5'd0) +
211
                        (ir[bitsPerByte+7] ? 5'd2 : 5'd0)
212
                        ;
213
//  cnt = 0;
214
//      if (ir[8]) cnt = cnt + 5'd1;    // CC
215
//      if (ir[9]) cnt = cnt + md32 ? 5'd4 : 5'd1;      // A
216
//      if (ir[10]) cnt = cnt + md32 ? 5'd4 : 5'd1;     // B
217
//      if (ir[BPBM1]) cnt = cnt + 5'd1;        // DP
218
//      if (ir[12]) cnt = cnt + md32 ? 5'd4 : 5'd2;     // X
219
//      if (ir[bitsPerByte+1]) cnt = cnt + md32 ? 5'd4 : 5'd2;  // Y
220
//      if (ir[bitsPerByte+2]) cnt = cnt + md32 ? 5'd4 : 5'd2;  // U/S
221
//      if (ir[bitsPerByte+3]) cnt = cnt + 5'd4;        // PC
222
end
223
 
224
wire isRMW1 =   ir12==`NEG_DP || ir12==`COM_DP || ir12==`LSR_DP || ir12==`ROR_DP || ir12==`ASR_DP || ir12==`ASL_DP || ir12==`ROL_DP || ir12==`DEC_DP || ir12==`INC_DP ||
225
                                ir12==`NEG_NDX || ir12==`COM_NDX || ir12==`LSR_NDX || ir12==`ROR_NDX || ir12==`ASR_NDX || ir12==`ASL_NDX || ir12==`ROL_NDX || ir12==`DEC_NDX || ir12==`INC_NDX ||
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                                ir12==`NEG_EXT || ir12==`COM_EXT || ir12==`LSR_EXT || ir12==`ROR_EXT || ir12==`ASR_EXT || ir12==`ASL_EXT || ir12==`ROL_EXT || ir12==`DEC_EXT || ir12==`INC_EXT
227
                                ;
228
 
229
wire isIndexed =
230
        ir12[7:4]==4'h6 || ir12[7:4]==4'hA || ir12[7:4]==4'hE ||
231
        ir12==`LEAX_NDX || ir12==`LEAY_NDX || ir12==`LEAS_NDX || ir12==`LEAU_NDX
232
        ;
233
reg isDblIndirect;
234
wire isIndirect = ndxbyte[BPBM1-3] & ndxbyte[BPBM1];
235
assign ndxbyte = ir[`HIBYTE];
236
 
237
// Detect type of interrupt
238
wire isINT = ir12==`INT;
239
wire isRST = vect[3:0]==4'hE;
240
wire isNMI = vect[3:0]==4'hC;
241
wire isSWI = vect[3:0]==4'hA;
242
wire isIRQ = vect[3:0]==4'h8;
243
wire isFIRQ = vect[3:0]==4'h6;
244
wire isSWI2 = vect[3:0]==4'h4;
245
wire isSWI3 = vect[3:0]==4'h2;
246
 
247
wire [`TRPBYTE] far_address = {ir[`HIBYTE],ir[`BYTE3],ir[`BYTE4]};
248
wire [`TRPBYTE] address = {ir[`HIBYTE],ir[`BYTE3]};
249
wire [`TRPBYTE] dp_address = {dpr,ir[`HIBYTE]};
250
wire [`TRPBYTE] ex_address = isFar ? far_address : address;
251
wire [`TRPBYTE] offset12 = {{bitsPerByte{ir[bitsPerByte*3-1]}},ir[`BYTE3]};
252
wire [`TRPBYTE] offset24 = {ir[`BYTE3],ir[`BYTE4]};
253
wire [`TRPBYTE] offset36 = {ir[`BYTE3],ir[`BYTE4],ir[`BYTE5]};
254
 
255
// Choose the indexing register
256
reg [`TRPBYTE] ndxreg;
257
always_comb
258
        if (bitsPerByte==8)
259
                case(ndxbyte[6:5])
260
                2'b00:  ndxreg <= xr;
261
                2'b01:  ndxreg <= yr;
262
                2'b10:  ndxreg <= {usppg,8'h00} + usp;
263
                2'b11:  ndxreg <= ssp;
264
                endcase
265
        else if (bitsPerByte==12)
266
                case(ndxbyte[10:9])
267
                2'b00:  ndxreg <= xr;
268
                2'b01:  ndxreg <= yr;
269
                2'b10:  ndxreg <= {usppg,8'h00} + usp;
270
                2'b11:  ndxreg <= ssp;
271
                endcase
272
 
273
reg [`TRPBYTE] NdxAddr;
274
always_comb
275
        if (bitsPerByte==8)
276
                casez({isOuterIndexed,ndxbyte})
277
                9'b00???????:   NdxAddr <= ndxreg + {{19{ndxbyte[BPB-4]}},ndxbyte[BPB-4:0]};
278
                9'b01???0000:   NdxAddr <= ndxreg;
279
                9'b01???0001:   NdxAddr <= ndxreg;
280
                9'b01???0010:   NdxAddr <= ndxreg - 2'd1;
281
                9'b01???0011:   NdxAddr <= ndxreg - 2'd2;
282
                9'b01???0100:   NdxAddr <= ndxreg;
283
                9'b01???0101:   NdxAddr <= ndxreg + {{BPB*2{accb[BPBM1]}},accb};
284
                9'b01???0110:   NdxAddr <= ndxreg + {{BPB*2{acca[BPBM1]}},acca};
285
                9'b01???1000:   NdxAddr <= ndxreg + offset12;
286
                9'b01???1001:   NdxAddr <= ndxreg + offset24;
287
                9'b01???1010:   NdxAddr <= ndxreg + offset36;
288
                9'b01???1011:   NdxAddr <= ndxreg + {acca,accb};
289
                9'b01???1100:   NdxAddr <= pc + offset12 + 3'd3;
290
                9'b01???1101:   NdxAddr <= pc + offset24 + 3'd4;
291
                9'b01???1110:   NdxAddr <= pc + offset36 + 3'd5;
292
                9'b01??01111:   NdxAddr <= isFar ? offset36 : offset24;
293
                9'b01??11111:   NdxAddr <= offset24;
294
                9'b10???????:   NdxAddr <= {{11{ndxbyte[BPB-4]}},ndxbyte[BPB-4:0]};
295
                9'b11???0000:   NdxAddr <= 24'd0;
296
                9'b11???0001:   NdxAddr <= 24'd0;
297
                9'b11???0010:   NdxAddr <= 24'd0;
298
                9'b11???0011:   NdxAddr <= 24'd0;
299
                9'b11???0100:   NdxAddr <= 24'd0;
300
                9'b11???0101:   NdxAddr <= {{BPB*2{accb[BPBM1]}},accb};
301
                9'b11???0110:   NdxAddr <= {{BPB*2{acca[BPBM1]}},acca};
302
                9'b11???1000:   NdxAddr <= offset12;
303
                9'b11???1001:   NdxAddr <= offset24;
304
                9'b11???1010:   NdxAddr <= offset36;
305
                9'b11???1011:   NdxAddr <= {acca,accb};
306
                9'b11???1100:   NdxAddr <= pc + offset12 + 3'd3;
307
                9'b11???1101:   NdxAddr <= pc + offset24 + 3'd4;
308
                9'b11???1110:   NdxAddr <= pc + offset36 + 3'd5;
309
                9'b11??01111:   NdxAddr <= isFar ? offset36 : offset24;
310
                9'b11??11111:   NdxAddr <= offset24;
311
                default:                NdxAddr <= 24'hFFFFFF;
312
                endcase
313
        else if (bitsPerByte==12)
314
                casez({isOuterIndexed,ndxbyte})
315
                13'b00???????????:      NdxAddr <= ndxreg + {{27{ndxbyte[BPB-4]}},ndxbyte[BPB-4:0]};
316
                13'b01???00000000:      NdxAddr <= ndxreg;
317
                13'b01???00000001:      NdxAddr <= ndxreg;
318
                13'b01???00000010:      NdxAddr <= ndxreg - 2'd1;
319
                13'b01???00010010:      NdxAddr <= ndxreg - 2'd2;
320
                13'b01???00100010:      NdxAddr <= ndxreg - 2'd3;
321
                13'b01???00000011:      NdxAddr <= ndxreg - 2'd2;
322
                13'b01???00000100:      NdxAddr <= ndxreg;
323
                13'b01???00000101:      NdxAddr <= ndxreg + {{BPB*2{accb[BPBM1]}},accb};
324
                13'b01???00000110:      NdxAddr <= ndxreg + {{BPB*2{acca[BPBM1]}},acca};
325
                13'b01???00001000:      NdxAddr <= ndxreg + offset12;
326
                13'b01???00001001:      NdxAddr <= ndxreg + offset24;
327
                13'b01???00001010:      NdxAddr <= ndxreg + offset36;
328
                13'b01???00001011:      NdxAddr <= ndxreg + {acca,accb};
329
                13'b01???00001100:      NdxAddr <= pc + offset12 + 3'd3;
330
                13'b01???00001101:      NdxAddr <= pc + offset24 + 3'd4;
331
                13'b01???00001110:      NdxAddr <= pc + offset36 + 3'd5;
332
                13'b01??000001111:      NdxAddr <= isFar ? offset36 : offset24;
333
                13'b01??100001111:      NdxAddr <= offset24;
334
                13'b01???10000000:      NdxAddr <= 24'd0;
335
                13'b01???10000001:      NdxAddr <= 24'd0;
336
                13'b01???10000010:      NdxAddr <= 24'd0;
337
                13'b01???10000011:      NdxAddr <= 24'd0;
338
                13'b01???10000100:      NdxAddr <= 24'd0;
339
                13'b01???10000101:      NdxAddr <= {{BPB*2{accb[BPBM1]}},accb};
340
                13'b01???10000110:      NdxAddr <= {{BPB*2{acca[BPBM1]}},acca};
341
                13'b01???10001000:      NdxAddr <= offset12;
342
                13'b01???10001001:      NdxAddr <= offset24;
343
                13'b01???10001010:      NdxAddr <= offset24;
344
                13'b01???10001011:      NdxAddr <= {acca,accb};
345
                13'b01???10001100:      NdxAddr <= pc + offset12 + 3'd3;
346
                13'b01???10001101:      NdxAddr <= pc + offset24 + 3'd4;
347
                13'b01???10001110:      NdxAddr <= pc + offset36 + 3'd5;
348
                13'b01??010001111:      NdxAddr <= isFar ? offset36 : offset24;
349
                13'b01??110001111:      NdxAddr <= offset24;
350
                13'b10???????????:      NdxAddr <= {{15{ndxbyte[BPB-4]}},ndxbyte[BPB-4:0]};
351
                13'b11???00000000:      NdxAddr <= 24'd0;
352
                13'b11???00000001:      NdxAddr <= 24'd0;
353
                13'b11???00000010:      NdxAddr <= 24'd0;
354
                13'b11???00000011:      NdxAddr <= 24'd0;
355
                13'b11???00000100:      NdxAddr <= 24'd0;
356
                13'b11???00000101:      NdxAddr <= {{BPB*2{accb[BPBM1]}},accb};
357
                13'b11???00000110:      NdxAddr <= {{BPB*2{acca[BPBM1]}},acca};
358
                13'b11???00001000:      NdxAddr <= offset12;
359
                13'b11???00001001:      NdxAddr <= offset24;
360
                13'b11???00001010:      NdxAddr <= offset36;
361
                13'b11???00001011:      NdxAddr <= {acca,accb};
362
                13'b11???00001100:      NdxAddr <= pc + offset12 + 3'd3;
363
                13'b11???00001101:      NdxAddr <= pc + offset24 + 3'd4;
364
                13'b11???00001110:      NdxAddr <= pc + offset36 + 3'd5;
365
                13'b11??000001111:      NdxAddr <= isFar ? offset36 : offset24;
366
                13'b11??000011111:      NdxAddr <= offset24;
367
                default:                NdxAddr <= 24'hFFFFFF;
368
                endcase
369
 
370
// Compute instruction length depending on indexing byte
371
reg [2:0] insnsz;
372
always_comb
373
        if (bitsPerByte==8)
374
                casez(ndxbyte)
375
                8'b0???????:    insnsz <= 4'h2;
376
                8'b1??00000:    insnsz <= 4'h2;
377
                8'b1??00001:    insnsz <= 4'h2;
378
                8'b1??00010:    insnsz <= 4'h2;
379
                8'b1??00011:    insnsz <= 4'h2;
380
                8'b1??00100:    insnsz <= 4'h2;
381
                8'b1??00101:    insnsz <= 4'h2;
382
                8'b1??00110:    insnsz <= 4'h2;
383
                8'b1??01000:    insnsz <= 4'h3;
384
                8'b1??01001:    insnsz <= 4'h4;
385
                8'b1??01010:    insnsz <= 4'h5;
386
                8'b1??01011:    insnsz <= 4'h2;
387
                8'b1??01100:    insnsz <= 4'h3;
388
                8'b1??01101:    insnsz <= 4'h4;
389
                8'b1??01110:    insnsz <= 4'h5;
390
                8'b1??01111:    insnsz <= isFar ? 4'h5 : 4'h4;
391
                8'b1??11111:    insnsz <= 4'h4;
392
                default:        insnsz <= 4'h2;
393
                endcase
394
        else if (bitsPerByte==12)
395
                casez(ndxbyte)
396
                12'b0???????????:       insnsz <= 4'h2;
397
                12'b1???00000000:       insnsz <= 4'h2;
398
                12'b1???00000001:       insnsz <= 4'h2;
399
                12'b1???00000010:       insnsz <= 4'h2;
400
                12'b1???00000011:       insnsz <= 4'h2;
401
                12'b1???00000100:       insnsz <= 4'h2;
402
                12'b1???00000101:       insnsz <= 4'h2;
403
                12'b1???00000110:       insnsz <= 4'h2;
404
                12'b1???00001000:       insnsz <= 4'h3;
405
                12'b1???00001001:       insnsz <= 4'h4;
406
                12'b1???00001010:       insnsz <= 4'h5;
407
                12'b1???00001011:       insnsz <= 4'h2;
408
                12'b1???00001100:       insnsz <= 4'h3;
409
                12'b1???00001101:       insnsz <= 4'h4;
410
                12'b1???00001110:       insnsz <= 4'h5;
411
                12'b1??000001111:       insnsz <= isFar ? 4'h5 : 4'h4;
412
                12'b1??000011111:       insnsz <= 4'h4;
413
                default:        insnsz <= 4'h2;
414
                endcase
415
 
416
// Source registers for transfer or exchange instructions.
417
reg [`DBLBYTE] src1,src2;
418
always_comb
419
        case(ir[bitsPerByte+7:bitsPerByte+4])
420
        4'b0000:        src1 <= {acca[`LOBYTE],accb[`LOBYTE]};
421
        4'b0001:        src1 <= xr;
422
        4'b0010:        src1 <= yr;
423
        4'b0011:        src1 <= usp;
424
        4'b0100:        src1 <= ssp;
425
        4'b0101:        src1 <= pcp2;
426
        4'b1000:        src1 <= acca[`LOBYTE];
427
        4'b1001:        src1 <= accb[`LOBYTE];
428
        4'b1010:        src1 <= ccr;
429
        4'b1011:        src1 <= dpr;
430
        4'b1100:        src1 <= usppg;
431
        4'b1101:        src1 <= 24'h0000;
432
        4'b1110:        src1 <= 24'h0000;
433
        4'b1111:        src1 <= 24'h0000;
434
        default:        src1 <= 24'h0000;
435
        endcase
436
always_comb
437
        case(ir[bitsPerByte+3:bitsPerByte])
438
        4'b0000:        src2 <= {acca[`LOBYTE],accb[`LOBYTE]};
439
        4'b0001:        src2 <= xr;
440
        4'b0010:        src2 <= yr;
441
        4'b0011:        src2 <= usp;
442
        4'b0100:        src2 <= ssp;
443
        4'b0101:        src2 <= pcp2;
444
        4'b1000:        src2 <= acca[`LOBYTE];
445
        4'b1001:        src2 <= accb[`LOBYTE];
446
        4'b1010:        src2 <= ccr;
447
        4'b1011:        src2 <= dpr;
448
        4'b1100:        src2 <= usppg;
449
        4'b1101:        src2 <= 24'h0000;
450
        4'b1110:        src2 <= 24'h0000;
451
        4'b1111:        src2 <= 24'h0000;
452
        default:        src2 <= 24'h0000;
453
        endcase
454
 
455
wire isAcca     =       ir12==`NEGA || ir12==`COMA || ir12==`LSRA || ir12==`RORA || ir12==`ASRA || ir12==`ASLA ||
456
                                ir12==`ROLA || ir12==`DECA || ir12==`INCA || ir12==`TSTA || ir12==`CLRA ||
457
                                ir12==`SUBA_IMM || ir12==`CMPA_IMM || ir12==`SBCA_IMM || ir12==`ANDA_IMM || ir12==`BITA_IMM ||
458
                                ir12==`LDA_IMM || ir12==`EORA_IMM || ir12==`ADCA_IMM || ir12==`ORA_IMM || ir12==`ADDA_IMM ||
459
                                ir12==`SUBA_DP || ir12==`CMPA_DP || ir12==`SBCA_DP || ir12==`ANDA_DP || ir12==`BITA_DP ||
460
                                ir12==`LDA_DP || ir12==`EORA_DP || ir12==`ADCA_DP || ir12==`ORA_DP || ir12==`ADDA_DP ||
461
                                ir12==`SUBA_NDX || ir12==`CMPA_NDX || ir12==`SBCA_NDX || ir12==`ANDA_NDX || ir12==`BITA_NDX ||
462
                                ir12==`LDA_NDX || ir12==`EORA_NDX || ir12==`ADCA_NDX || ir12==`ORA_NDX || ir12==`ADDA_NDX ||
463
                                ir12==`SUBA_EXT || ir12==`CMPA_EXT || ir12==`SBCA_EXT || ir12==`ANDA_EXT || ir12==`BITA_EXT ||
464
                                ir12==`LDA_EXT || ir12==`EORA_EXT || ir12==`ADCA_EXT || ir12==`ORA_EXT || ir12==`ADDA_EXT
465
                                ;
466
 
467
wire [`DBLBYTE] acc = isAcca ? acca : accb;
468
 
469
wire [`DBLBYTE] sum12 = src1 + src2;
470
 
471
always_ff @(posedge clk_i)
472
if (state==DECODE) begin
473
        isStore <=      ir12==`STA_DP || ir12==`STB_DP || ir12==`STD_DP || ir12==`STX_DP || ir12==`STY_DP || ir12==`STU_DP || ir12==`STS_DP ||
474
                                ir12==`STA_NDX || ir12==`STB_NDX || ir12==`STD_NDX || ir12==`STX_NDX || ir12==`STY_NDX || ir12==`STU_NDX || ir12==`STS_NDX ||
475
                                ir12==`STA_EXT || ir12==`STB_EXT || ir12==`STD_EXT || ir12==`STX_EXT || ir12==`STY_EXT || ir12==`STU_EXT || ir12==`STS_EXT
476
                                ;
477
        isPULU <= ir12==`PULU;
478
        isPULS <= ir12==`PULS;
479
        isPSHS <= ir12==`PSHS;
480
        isPSHU <= ir12==`PSHU;
481
        isRTI <= ir12==`RTI;
482
        isRTS <= ir12==`RTS;
483
        isRTF <= ir12==`RTF;
484
        isLEA <= ir12==`LEAX_NDX || ir12==`LEAY_NDX || ir12==`LEAU_NDX || ir12==`LEAS_NDX;
485
        isRMW <= isRMW1;
486
end
487
 
488
wire hit0, hit1;
489
wire ihit = hit0 & hit1;
490
reg rhit0;
491
 
492
assign lic_o =  (state==CALC && !isRMW) ||
493
                                (state==DECODE && (
494
                                        ir12==`NOP || ir12==`ORCC || ir12==`ANDCC || ir12==`DAA || ir12==`LDMD || ir12==`TFR || ir12==`EXG ||
495
                                        ir12==`NEGA || ir12==`COMA || ir12==`LSRA || ir12==`RORA || ir12==`ASRA || ir12==`ROLA || ir12==`DECA || ir12==`INCA || ir12==`TSTA || ir12==`CLRA ||
496
                                        ir12==`NEGB || ir12==`COMB || ir12==`LSRB || ir12==`RORB || ir12==`ASRB || ir12==`ROLB || ir12==`DECB || ir12==`INCB || ir12==`TSTB || ir12==`CLRB ||
497
                                        ir12==`ASLD || ir12==`TSTD || //ir12==`ADDR ||
498
                                        ir12==`SUBA_IMM || ir12==`CMPA_IMM || ir12==`SBCA_IMM || ir12==`ANDA_IMM || ir12==`BITA_IMM || ir12==`LDA_IMM || ir12==`EORA_IMM || ir12==`ADCA_IMM || ir12==`ORA_IMM || ir12==`ADDA_IMM ||
499
                                        ir12==`SUBB_IMM || ir12==`CMPB_IMM || ir12==`SBCB_IMM || ir12==`ANDB_IMM || ir12==`BITB_IMM || ir12==`LDB_IMM || ir12==`EORB_IMM || ir12==`ADCB_IMM || ir12==`ORB_IMM || ir12==`ADDB_IMM ||
500
                                        ir12==`ANDD_IMM || ir12==`ADDD_IMM || ir12==`ADCD_IMM || ir12==`SUBD_IMM || ir12==`SBCD_IMM || ir12==`LDD_IMM ||
501
                                        ir12==`LDQ_IMM || ir12==`CMPD_IMM || ir12==`CMPX_IMM || ir12==`CMPY_IMM || ir12==`CMPU_IMM || ir12==`CMPS_IMM ||
502
                                        ir12==`BEQ || ir12==`BNE || ir12==`BMI || ir12==`BPL || ir12==`BVS || ir12==`BVC || ir12==`BRA || ir12==`BRN ||
503
                                        ir12==`BHI || ir12==`BLS || ir12==`BHS || ir12==`BLO ||
504
                                        ir12==`BGT || ir12==`BGE || ir12==`BLT || ir12==`BLE ||
505
                                        ir12==`LBEQ || ir12==`LBNE || ir12==`LBMI || ir12==`LBPL || ir12==`LBVS || ir12==`LBVC || ir12==`LBRA || ir12==`LBRN ||
506
                                        ir12==`LBHI || ir12==`LBLS || ir12==`LBHS || ir12==`LBLO ||
507
                                        ir12==`LBGT || ir12==`LBGE || ir12==`LBLT || ir12==`LBLE
508
                                        )
509
                                ) ||
510
                                (state==STORE2 && (
511
                                        (store_what==`SW_ACCQ3124 && wadr[1:0]==2'b00) ||
512
                                        (store_what==`SW_ACCQ70) ||
513
                                        (store_what==`SW_ACCA && !(isINT || isPSHS || isPSHU)) ||
514
                                        (store_what==`SW_ACCB && !(isINT || isPSHS || isPSHU)) ||
515
                                        (store_what==`SW_ACCDH && wadr[1:0]!=2'b11) ||
516
                                        (store_what==`SW_ACCDL) ||
517
                                        (store_what==`SW_X3124 && wadr[1:0]==2'b00 && !(isINT || isPSHS || isPSHU)) ||
518
                                        (store_what==`SW_XL && !(isINT || isPSHS || isPSHU)) ||
519
                                        (store_what==`SW_YL && !(isINT || isPSHS || isPSHU)) ||
520
                                        (store_what==`SW_USPL && !(isINT || isPSHS || isPSHU)) ||
521
                                        (store_what==`SW_SSPL && !(isINT || isPSHS || isPSHU)) ||
522
                                        (store_what==`SW_PCL && !(isINT || isPSHS || isPSHU) && !(ir12==`JSR_NDX && isIndirect)) ||
523
                                        (store_what==`SW_ACCA70 && !(isINT || isPSHS || isPSHU)) ||
524
                                        (store_what==`SW_ACCB70 && !(isINT || isPSHS || isPSHU))
525
                                )) ||
526
                                (state==PUSH2 && ir[`HIBYTE]==12'h000 && !isINT) ||
527
                                (state==PULL1 && ir[`HIBYTE]==12'h000) ||
528
                                (state==OUTER_INDEXING2 && isLEA) ||
529
                                (state==LOAD2 &&
530
                                        (load_what==`LW_ACCA && !(isRTI || isPULU || isPULS)) ||
531
                                        (load_what==`LW_ACCB && !(isRTI || isPULU || isPULS)) ||
532
                                        (load_what==`LW_DPR && !(isRTI || isPULU || isPULS)) ||
533
                                        (load_what==`LW_XL && !(isRTI || isPULU || isPULS)) ||
534
                                        (load_what==`LW_YL && !(isRTI || isPULU || isPULS)) ||
535
                                        (load_what==`LW_USPL && !(isRTI || isPULU || isPULS)) ||
536
                                        (load_what==`LW_SSPL && !(isRTI || isPULU || isPULS)) ||
537
                                        (load_what==`LW_PCL) ||
538
                                        (load_what==`LW_IAL && !isOuterIndexed && isLEA) ||
539
                                        (load_what==`LW_IA3124 && radr[1:0]==2'b00 && !isOuterIndexed && isLEA)
540
                                )
541
                                ;
542
 
543
wire lock_bus = load_what==`LW_XH || load_what==`LW_YH || load_what==`LW_USPH || load_what==`LW_SSPH ||
544
                                load_what==`LW_PCH || load_what==`LW_BH || load_what==`LW_IAH || load_what==`LW_PC3124 ||
545
                                load_what==`LW_IA3124 || load_what==`LW_B3124 ||
546
                                load_what==`LW_X3124 || load_what==`LW_Y3124 || load_what==`LW_USP3124 || load_what==`LW_SSP3124 ||
547
                                isRMW ||
548
                                store_what==`SW_ACCDH || store_what==`SW_XH || store_what==`SW_YH || store_what==`SW_USPH || store_what==`SW_SSPH ||
549
                                store_what==`SW_PCH || store_what==`SW_PC3124 || store_what==`SW_ACCQ3124 ||
550
                                store_what==`SW_X3124 || store_what==`SW_Y3124 || store_what==`SW_USP3124 || store_what==`SW_SSP3124
551
                                ;
552
 
553
wire isPrefix = ir12==`PG2 || ir12==`PG3 || ir12==`OUTER;
554
 
555
reg rty;
556
reg [5:0] waitcnt;
557
reg [3:0] iccnt;
558
reg [bitsPerByte-1:0] icbuf [0:15];
559
reg [bitsPerByte*16-1:0] icbuf2;
560
reg [15:0] outstanding; // Outstanding async read cycles.
561
integer n4;
562
 
563
rf6809_icachemem u1
564
(
565
        .wclk(clk_i),
566
        .wce(1'b1),
567
        .wr(state==ICACHE6),
568
        .wa(icwa[11:0]),
569
        .i(icbuf2),
570
        .rclk(~clk_i),
571
        .rce(1'b1),
572
        .pc(pc[11:0]),
573
        .insn(insn)
574
);
575
 
576
rf6809_itagmem u2
577
(
578
        .wclk(clk_i),
579
        .wce(1'b1),
580
        .wr(state==ICACHE6),
581
        .wa(icwa[`TRPBYTE]),
582
        .invalidate(ic_invalidate),
583
        .rclk(~clk_i),
584
        .rce(1'b1),
585
        .pc(pc),
586
        .hit0(hit0),
587
        .hit1(hit1)
588
);
589
 
590
// For asynchronous reads,
591
// The read response might come back in any order (the packets could loop
592
// around in the network.
593
// We need to buffer and reorder the response correctly.
594
 
595
integer n3;
596
always_ff @(posedge clk_i)
597
if (rst_i) begin
598
        icgot <= 16'h0;
599
        for (n3 = 0; n3 < 16; n3 = n3 + 1)
600
                icbuf[n3] <= {bitsPerByte{1'b0}};
601
end
602
else begin
603
        if (state==ICACHE1)
604
                icgot <= 16'h0;
605
`ifdef SUPPORT_AREAD
606
        if (aack_i) begin
607
                icgot[atag_i] <= 1'b1;
608
                icbuf[atag_i] <= dati;
609
        end
610
`else
611
        if (ack_i) begin
612
                icgot[adr_o[3:0]] <= 1'b1;
613
                icbuf[adr_o[3:0]] <= dati;
614
        end
615
`endif
616
end
617
 
618
genvar g;
619
generate begin : gIcin
620
for (g = 0; g < 16; g = g + 1)
621
        always_comb
622
                icbuf2[(g+1)*bitsPerByte-1:g*bitsPerByte] <= icbuf[g];
623
end
624
endgenerate
625
 
626
// Bus timeout counter
627
always_ff @(posedge clk_i)
628
if (rst_i) begin
629
        btocnt <= 24'd0;
630
end
631
else begin
632
        if (cyc_o & stb_o)
633
                btocnt <= btocnt + 2'd1;
634
        else
635
                btocnt <= 24'd0;
636
end
637
always_comb
638
        bto = btocnt >= 24'd10000;
639
 
640
// Count  milliseconds
641
// Based on a count determined by the clock frequency
642
// 40MHz is assumed.
643
reg [23:0] ns_count;    // The counter to get to 1ms
644
reg [35:0] ms_count;    // Count of number of milliseconds
645
 
646
always_ff @(posedge clk_i)
647
if (rst_i) begin
648
        ns_count <= 16'd0;
649
        ms_count <= 36'd0;
650
end
651
else begin
652
        ns_count <= ns_count + 2'd1;
653
        if (ns_count>=24'd40000) begin
654
                ns_count <= 24'h0;
655
                ms_count <= ms_count + 2'd1;
656
        end
657
end
658
 
659
`ifdef SUPPORT_CHECKPOINT
660
always_ff @(posedge clk_i)
661
if (rst_i)
662
        chkpoint <= 12'h000;
663
else begin
664
        if (ns_count==16'd40000) begin
665
                if (ms_count[9:0]==10'h3FF)
666
                        chkpoint <= 12'hFFF;
667
        end
668
        if (state==STORE1 && (wadr=={{BPB*3-8{1'b1}},8'hE1}))
669
                chkpoint <= 12'h000;
670
end
671
`endif
672
 
673
always_ff @(posedge clk_i)
674
        tsc_latched <= tsc_i;
675
 
676
always_ff @(posedge clk_i)
677
        nmi1 <= nmi_i;
678
always_ff @(posedge clk_i)
679
`ifdef SUPPORT_CHECKPOINT
680
        if (ms_count[9:0]==10'h3FF && chkpoint!=12'h000)
681
                nmi_edge <= 1'b1;
682
        else
683
`endif
684
        if (nmi_i & !nmi1)
685
                nmi_edge <= 1'b1;
686
        else if (state==DECODE && ir12==`INT)
687
                nmi_edge <= 1'b0;
688
 
689
reg [9:0] rst_cnt;
690
 
691
always @(posedge clk_i)
692
if (rst_i) begin
693
        wb_nack();
694
        rty <= `FALSE;
695
        rst_cnt <= {id,4'd0};
696
        next_state(RESET);
697
        sync_state <= `FALSE;
698
        wait_state <= `FALSE;
699
        md32 <= `FALSE;
700
        ipg <= 2'b00;
701
        isFar <= `FALSE;
702
        isOuterIndexed <= `FALSE;
703
        dpr <= 12'h000;
704
        ibufadr <= {BPB*3{1'b0}};
705
//      pc <= 24'hFFFFFE;
706
        pc <= {{BPB*3-1{1'b1}},1'b0};   // FF...FE
707
        ir <= {4{`NOP}};
708
        ibuf <= {4{`NOP}};
709
        im <= 1'b1;
710
        firqim <= 1'b1;
711
        nmi_armed <= `FALSE;
712
        ic_invalidate <= `TRUE;
713
        first_ifetch <= `TRUE;
714
        acca <= 12'h0;
715
        accb <= 12'h0;
716
        accd <= 24'h0;
717
        xr <= 24'h0;
718
        yr <= 24'h0;
719
        usp <= 24'h0;
720
        ssp <= 24'h0;
721
        if (halt_i) begin
722
                ba_o <= 1'b1;
723
                bs_o <= 1'b1;
724
        end
725
        else begin
726
                ba_o <= 1'b0;
727
                bs_o <= 1'b0;
728
        end
729
        outstanding <= 16'h0;
730
        iccnt <= 4'h0;
731
end
732
else begin
733
 
734
// Release any bus lock during the last state of an instruction.
735
if (lic_o && ack_i && (state==STORE2 || state==LOAD2))
736
        lock_o <= 1'b0;
737
 
738
case(state)
739
RESET:
740
        if (rst_cnt==10'd0) begin
741
                ic_invalidate <= `FALSE;
742
                ba_o <= 1'b0;
743
                bs_o <= 1'b0;
744
                vect <= `RST_VECT;
745
                radr <= `RST_VECT;
746
                load_what <= `LW_PCH;
747
                next_state(LOAD1);
748
        end
749
        else
750
                rst_cnt <= rst_cnt - 2'd1;
751
 
752
IFETCH:
753
        begin
754
                tIfetch();
755
                tWriteback();
756
        end
757
DECODE: tDecode();
758
LOAD1:  tLoad1();
759
LOAD2:  tLoad2();
760
CALC:           tExecute();
761
STORE1: tStore1();
762
STORE2: tStore2();
763
 
764
// ============================================================================
765
// ============================================================================
766
PUSH1:
767
        begin
768
                next_state(PUSH2);
769
                if (isINT | isPSHS) begin
770
                        wadr <= (ssp - cnt);
771
                        ssp <= (ssp - cnt);
772
                end
773
                else begin      // PSHU
774
                        wadr <= ({usppg,8'h00} + usp - cnt);
775
                        usp <= (usp - cnt);
776
                end
777
        end
778
PUSH2:
779
        begin
780
                next_state(STORE1);
781
                if (ir[bitsPerByte]) begin
782
                        store_what <= `SW_CCR;
783
                        ir[bitsPerByte] <= 1'b0;
784
                end
785
                else if (ir[bitsPerByte+1]) begin
786
                        store_what <= `SW_ACCA;
787
                        ir[bitsPerByte+1] <= 1'b0;
788
                end
789
                else if (ir[bitsPerByte+2]) begin
790
                        store_what <= `SW_ACCB;
791
                        ir[bitsPerByte+2] <= 1'b0;
792
                end
793
                else if (ir[bitsPerByte+3]) begin
794
                        store_what <= `SW_DPR;
795
                        ir[bitsPerByte+3] <= 1'b0;
796
                end
797
                else if (ir[bitsPerByte+4]) begin
798
                        store_what <= `SW_XH;
799
                        ir[bitsPerByte+4] <= 1'b0;
800
                end
801
                else if (ir[bitsPerByte+5]) begin
802
                        store_what <= `SW_YH;
803
                        ir[bitsPerByte+5] <= 1'b0;
804
                end
805
                else if (ir[bitsPerByte+6]) begin
806
                        if (isINT | isPSHS)
807
                                store_what <= `SW_USPH;
808
                        else
809
                                store_what <= `SW_SSPH;
810
                        ir[bitsPerByte+6] <= 1'b0;
811
                end
812
                else if (ir[bitsPerByte+7]) begin
813
                        store_what <= isFar ? `SW_PC2316 : `SW_PCH;
814
                        ir[bitsPerByte+7] <= 1'b0;
815
                end
816
                else begin
817
                        if (isINT) begin
818
                                radr <= vect;
819
                                if (vec_i != 24'h0) begin
820
                                        $display("vector: %h", vec_i);
821
                                        pc <= vec_i;
822
                                        next_state(IFETCH);
823
                                end
824
                                else begin
825
                                        pc[`BYTE3] <= 8'h00;
826
                                        load_what <= `LW_PCH;
827
                                        next_state(LOAD1);
828
                                end
829
                        end
830
                        else
831
                                next_state(IFETCH);
832
                end
833
        end
834
PULL1:
835
        begin
836
                next_state(LOAD1);
837
                if (ir[bitsPerByte]) begin
838
                        load_what <= `LW_CCR;
839
                        ir[bitsPerByte] <= 1'b0;
840
                end
841
                else if (ir[bitsPerByte+1]) begin
842
                        load_what <= `LW_ACCA;
843
                        ir[bitsPerByte+1] <= 1'b0;
844
                end
845
                else if (ir[bitsPerByte+2]) begin
846
                        load_what <= `LW_ACCB;
847
                        ir[bitsPerByte+2] <= 1'b0;
848
                end
849
                else if (ir[bitsPerByte+3]) begin
850
                        load_what <= `LW_DPR;
851
                        ir[bitsPerByte+3] <= 1'b0;
852
                end
853
                else if (ir[bitsPerByte+4]) begin
854
                        load_what <= `LW_XH;
855
                        ir[bitsPerByte+4] <= 1'b0;
856
                end
857
                else if (ir[bitsPerByte+5]) begin
858
                        load_what <= `LW_YH;
859
                        ir[bitsPerByte+5] <= 1'b0;
860
                end
861
                else if (ir[bitsPerByte+6]) begin
862
                        if (ir12==`PULU)
863
                                load_what <= `LW_SSPH;
864
                        else
865
                                load_what <= `LW_USPH;
866
                        ir[bitsPerByte+6] <= 1'b0;
867
                end
868
                else if (ir[bitsPerByte+7]) begin
869
                        load_what <= isFar ? `LW_PC2316 : `LW_PCH;
870
                        ir[bitsPerByte+7] <= 1'b0;
871
                end
872
                else
873
                        next_state(IFETCH);
874
        end
875
 
876
// ----------------------------------------------------------------------------
877
// Outer Indexing Support
878
// ----------------------------------------------------------------------------
879
OUTER_INDEXING:
880
        begin
881
                if (bitsPerByte==8) begin
882
                        casex(ndxbyte)
883
                        8'b0xxxxxxx:    radr <= radr + ndxreg;
884
                        8'b1xxx0000:
885
                                                        begin
886
                                                                radr <= radr + ndxreg;
887
                                                                case(ndxbyte[6:5])
888
                                                                2'b00:  xr <= (xr + 2'd1);
889
                                                                2'b01:  yr <= (yr + 2'd1);
890
                                                                2'b10:  usp <= (usp + 2'd1);
891
                                                                2'b11:  ssp <= (ssp + 2'd1);
892
                                                                endcase
893
                                                        end
894
                        8'b1xxx0001:    begin
895
                                                                radr <= radr + ndxreg;
896
                                                                case(ndxbyte[6:5])
897
                                                                2'b00:  xr <= (xr + 2'd2);
898
                                                                2'b01:  yr <= (yr + 2'd2);
899
                                                                2'b10:  usp <= (usp + 2'd2);
900
                                                                2'b11:  ssp <= (ssp + 2'd2);
901
                                                                endcase
902
                                                        end
903
                        8'b1xxx0010:    radr <= radr + ndxreg;
904
                        8'b1xxx0011:    radr <= radr + ndxreg;
905
                        8'b1xxx0100:    radr <= radr + ndxreg;
906
                        8'b1xxx0101:    radr <= radr + ndxreg;
907
                        8'b1xxx0110:    radr <= radr + ndxreg;
908
                        8'b1xxx1000:    radr <= radr + ndxreg;
909
                        8'b1xxx1001:    radr <= radr + ndxreg;
910
                        8'b1xxx1010:    radr <= radr + ndxreg;
911
                        8'b1xxx1011:    radr <= radr + ndxreg;
912
                        default:        radr <= radr;
913
                        endcase
914
                end
915
                else if (bitsPerByte==12) begin
916
                        casex(ndxbyte)
917
                        12'b0xxxxxxxxxxx:       radr <= radr + ndxreg;
918
                        12'b1xxxx0000000:
919
                                                        begin
920
                                                                radr <= radr + ndxreg;
921
                                                                case(ndxbyte[10:9])
922
                                                                2'b00:  xr <= (xr + 2'd1);
923
                                                                2'b01:  yr <= (yr + 2'd1);
924
                                                                2'b10:  usp <= (usp + 2'd1);
925
                                                                2'b11:  ssp <= (ssp + 2'd1);
926
                                                                endcase
927
                                                        end
928
                        12'b1xxxx0000001:       begin
929
                                                                radr <= radr + ndxreg;
930
                                                                case(ndxbyte[10:9])
931
                                                                2'b00:  xr <= (xr + 2'd2);
932
                                                                2'b01:  yr <= (yr + 2'd2);
933
                                                                2'b10:  usp <= (usp + 2'd2);
934
                                                                2'b11:  ssp <= (ssp + 2'd2);
935
                                                                endcase
936
                                                        end
937
                        12'b1xxxx0000010:       radr <= radr + ndxreg;
938
                        12'b1xxxx0000011:       radr <= radr + ndxreg;
939
                        12'b1xxxx0000100:       radr <= radr + ndxreg;
940
                        12'b1xxxx0000101:       radr <= radr + ndxreg;
941
                        12'b1xxxx0000110:       radr <= radr + ndxreg;
942
                        12'b1xxxx0001000:       radr <= radr + ndxreg;
943
                        12'b1xxxx0001001:       radr <= radr + ndxreg;
944
                        12'b1xxxx0001010:       radr <= radr + ndxreg;
945
                        12'b1xxxx0001011:       radr <= radr + ndxreg;
946
                        default:        radr <= radr;
947
                        endcase
948
                end
949
                next_state(OUTER_INDEXING2);
950
        end
951
OUTER_INDEXING2:
952
        begin
953
                wadr <= radr;
954
                res <= radr[`DBLBYTE];
955
                load_what <= load_what2;
956
                if (isLEA)
957
                        next_state(IFETCH);
958
                else if (isStore)
959
                        next_state(STORE1);
960
                else
961
                        next_state(LOAD1);
962
        end
963
 
964
// ============================================================================
965
// Cache Control
966
// ============================================================================
967
ICACHE1:
968
        begin
969
                iccnt <= 4'h0;
970
                outstanding <= 16'h0;
971
                if (hit0 & hit1)
972
                        next_state(IFETCH);
973
                else if (!tsc && !ack_i) begin
974
                        rhit0 <= hit0;
975
                        bte_o <= 2'b00;
976
                        cti_o <= 3'b001;
977
                        cyc_o <= 1'b1;
978
                        bl_o <= 6'd15;
979
                        stb_o <= 1'b1;
980
                        we_o <= 1'b0;
981
                        adr_o <= !hit0 ? {pc[bitsPerByte*3-1:4],4'b00} : {pcp16[bitsPerByte*3-1:4],4'b0000};
982
                        dat_o <= 12'd0;
983
                        next_state(ICACHE2);
984
                end
985
        end
986
// If tsc is asserted during an instruction cache fetch, then abort the fetch
987
// cycle, and wait until tsc deactivates.
988
// The instruction cache uses asynchronous reading through the network for
989
// better performance. The read request and the read response are two
990
// separate things.
991
ICACHE2:
992
`ifdef SUPPORT_AREAD
993
        if (tsc) begin
994
                wb_nack();
995
                next_state(ICACHE3);
996
        end
997
        else if (ack_i|rty_i|bto) begin
998
                stb_o <= 1'b0;
999
                iccnt <= iccnt + 2'd1;
1000
                next_state(ICACHE4);
1001
                if (iccnt==4'b1110)
1002
                        cti_o <= 3'b111;
1003
                if (iccnt==4'b1111) begin
1004
                        icwa <= adr_o;
1005
                        wb_nack();
1006
                        next_state(ICACHE5);
1007
                end
1008
        end
1009
`else
1010
        if (tsc|rty_i) begin
1011
                wb_nack();
1012
                next_state(ICACHE3);
1013
        end
1014
        else if (ack_i) begin
1015
                stb_o <= 1'b0;
1016
                iccnt <= iccnt + 2'd1;
1017
                next_state(ICACHE4);
1018
                if (iccnt==4'b1110)
1019
                        cti_o <= 3'b111;
1020
                if (iccnt==4'b1111) begin
1021
                        icwa <= adr_o;
1022
                        wb_nack();
1023
                        next_state(ICACHE6);
1024
                end
1025
        end
1026
`endif
1027
 
1028
ICACHE4:
1029
        if (!ack_i) begin
1030
                adr_o[3:0] <= iccnt;
1031
                stb_o <= 1'b1;
1032
                next_state(ICACHE2);
1033
        end
1034
 
1035
ICACHE6:
1036
        next_state(ICACHE1);
1037
 
1038
// The following states to handle outstanding transfers.
1039
// The transfer might retry several times if it has not registered.
1040
`ifdef SUPPORT_AREAD
1041
ICACHE5:
1042
        // Line loaded?
1043
        if (icgot == 16'hFFFF)
1044
                next_state(ICACHE6);
1045
        else begin
1046
                waitcnt <= 6'd20;
1047
                next_state(ICACHE7);
1048
        end
1049
ICACHE7:
1050
        if (waitcnt==6'd0) begin
1051
                next_state(ICACHE6);
1052
                adr_o <= icwa;
1053
                for (n4 = 15; n4 >= 0; n4 = n4 - 1)
1054
                        if (~icgot[n4] & ~outstanding[n4]) begin
1055
                                cti_o <= 3'b001;
1056
                                cyc_o <= TRUE;
1057
                                stb_o <= TRUE;
1058
                                adr_o[3:0] <= n4[3:0];
1059
                                outstanding[n4[3:0]] <= 1'b1;
1060
                                next_state(ICACHE9);
1061
                        end
1062
        end
1063
        else
1064
                waitcnt <= waitcnt - 2'd1;
1065
ICACHE9:
1066
        begin
1067
                if (bto)
1068
                        outstanding <= 16'h0;
1069
                if (aack_i)
1070
                        outstanding[adr_o[3:0]] <= 1'b0;
1071
                if (ack_i|rty_i|bto) begin
1072
                        wb_nack();
1073
                        waitcnt <= 6'd20;
1074
                        next_state(ICACHE7);
1075
                end
1076
        end
1077
`endif
1078
 
1079
// Restart a cache load aborted by the TSC signal. A registered version of the
1080
// hit signal must be used as the cache may be partially updated.
1081
ICACHE3:
1082
        if (!tsc) begin
1083
                bte_o <= 2'b00;
1084
                cti_o <= 3'b001;
1085
                cyc_o <= 1'b1;
1086
                bl_o <= 6'd15;
1087
                stb_o <= 1'b1;
1088
                we_o <= 1'b0;
1089
                adr_o <= !rhit0 ? {pc[bitsPerByte*3-1:4],4'b00} : {pcp16[bitsPerByte*3-1:4],4'b0000};
1090
                dat_o <= 12'd0;
1091
                next_state(ICACHE2);
1092
        end
1093
 
1094
`ifdef SUPPORT_IBUF
1095
IBUF1:
1096
        if (!tsc) begin
1097
                bte_o <= 2'b00;
1098
                cti_o <= 3'b001;
1099
                cyc_o <= 1'b1;
1100
                bl_o <= 6'd2;
1101
                stb_o <= 1'b1;
1102
                we_o <= 1'b0;
1103
                adr_o <= pc[`DBLBYTE];
1104
                dat_o <= 12'd0;
1105
                next_state(IBUF2);
1106
        end
1107
IBUF2:
1108
        if (tsc|rty_i) begin
1109
                wb_nack();
1110
                next_state(IBUF1);
1111
        end
1112
        else if (ack_i) begin
1113
                adr_o <= adr_o + 2'd1;
1114
                ibuf <= dat_i;
1115
                next_state(IBUF3);
1116
        end
1117
IBUF3:
1118
        if (tsc|rty_i) begin
1119
                wb_nack();
1120
                next_state(IBUF1);
1121
        end
1122
        else if (ack_i) begin
1123
                cti_o <= 3'b111;
1124
                adr_o <= adr_o + 2'd1;
1125
                ibuf[`HIBYTE] <= dat_i;
1126
                next_state(IBUF4);
1127
        end
1128
IBUF4:
1129
        if (tsc|rty_i) begin
1130
                wb_nack();
1131
                next_state(IBUF1);
1132
        end
1133
        else if (ack_i) begin
1134
                wb_nack();
1135
                ibuf[`BYTE3] <= dat_i;
1136
                next_state(IBUF5);
1137
        end
1138
IBUF5:
1139
        if (tsc|rty_i) begin
1140
                wb_nack();
1141
                next_state(IBUF1);
1142
        end
1143
        else if (ack_i) begin
1144
                wb_nack();
1145
                ibuf[`BYTE4] <= dat_i;
1146
                next_state(IBUF6);
1147
        end
1148
IBUF6:
1149
        if (tsc|rty_i) begin
1150
                wb_nack();
1151
                next_state(IBUF1);
1152
        end
1153
        else if (ack_i) begin
1154
                wb_nack();
1155
                ibuf[`BYTE5] <= dat_i;
1156
                ibufadr <= pc;
1157
                next_state(IFETCH);
1158
        end
1159
`endif
1160
 
1161
endcase
1162
end
1163
 
1164
// ============================================================================
1165
// ============================================================================
1166
// Supporting Tasks
1167
// ============================================================================
1168
// ============================================================================
1169
 
1170
// ============================================================================
1171
// IFETCH
1172
//
1173
// Fetch instructions.
1174
// ============================================================================
1175
 
1176
task tIfetch;
1177
begin
1178
        if (halt_i) begin
1179
                ba_o <= 1'b1;
1180
                bs_o <= 1'b1;
1181
        end
1182
        else begin
1183
                ba_o <= 1'b0;
1184
                bs_o <= 1'b0;
1185
                next_state(DECODE);
1186
                isFar <= `FALSE;
1187
                isOuterIndexed <= `FALSE;
1188
                ipg <= 2'b00;
1189
                ia <= 24'd0;
1190
                res <= 24'd0;
1191
                load_what <= `LW_NOTHING;
1192
                store_what <= `SW_NOTHING;
1193
                if (nmi_edge | firq_i | irq_i)
1194
                        sync_state <= `FALSE;
1195
                if (nmi_edge & nmi_armed) begin
1196
                        bs_o <= 1'b1;
1197
                        ir[`LOBYTE] <= `INT;
1198
                        ipg <= 2'b11;
1199
                        vect <= `NMI_VECT;
1200
                end
1201
                else if (firq_i & !firqim & !sync_state) begin
1202
                        bs_o <= 1'b1;
1203
                        ir[`LOBYTE] <= `INT;
1204
                        ipg <= 2'b11;
1205
                        vect <= `FIRQ_VECT;
1206
                end
1207
                else if (irq_i & !im & !sync_state) begin
1208
                        $display("**************************************");
1209
                        $display("****** Interrupt *********************");
1210
                        $display("**************************************");
1211
                        bs_o <= 1'b1;
1212
                        ir[`LOBYTE] <= `INT;
1213
                        ipg <= 2'b11;
1214
                        vect <= `IRQ_VECT;
1215
                end
1216
                else begin
1217
                        if (sync_state) begin
1218
                                ba_o <= 1'b1;
1219
                                next_state(IFETCH);
1220
                        end
1221
                        else if (icacheOn) begin
1222
                                if (ihit) begin
1223
                                        ir <= insn;
1224
                                end
1225
                                else begin
1226
                                        ipg <= ipg;
1227
                                        isFar <= isFar;
1228
                                        isOuterIndexed <= isOuterIndexed;
1229
                                        next_state(ICACHE1);
1230
                                end
1231
                        end
1232
`ifdef SUPPORT_IBUF
1233
                        else begin
1234
                                if (ibufhit)
1235
                                        ir <= ibuf;
1236
                                else begin
1237
                                        ipg <= ipg;
1238
                                        isFar <= isFar;
1239
                                        isOuterIndexed <= isOuterIndexed;
1240
                                        next_state(IBUF1);
1241
                                end
1242
                        end
1243
`endif
1244
                end
1245
        end
1246
end
1247
endtask
1248
 
1249
// ============================================================================
1250
// DECODE
1251
//
1252
// Decode instruction and fetch register file values.
1253
// ============================================================================
1254
 
1255
task tDecode;
1256
begin
1257
        first_ifetch <= `TRUE;
1258
        next_state(IFETCH);             // default: move to IFETCH
1259
        pc <= pc + 2'd1;                // default: increment PC by one
1260
        a <= 24'd0;
1261
        b <= 24'd0;
1262
        ia <= 24'd0;
1263
        isDblIndirect <= `FALSE;//ndxbyte[11:4]==8'h8F;
1264
        if (isIndexed) begin
1265
                if (bitsPerByte==8) begin
1266
                        casez(ndxbyte)
1267
                        8'b1??00000:
1268
                                if (!isOuterIndexed)
1269
                                        case(ndxbyte[6:5])
1270
                                        2'b00:  xr <= (xr + 4'd1);
1271
                                        2'b01:  yr <= (yr + 4'd1);
1272
                                        2'b10:  usp <= (usp + 4'd1);
1273
                                        2'b11:  ssp <= (ssp + 4'd1);
1274
                                        endcase
1275
                        8'b1??00001:
1276
                                if (!isOuterIndexed)
1277
                                        case(ndxbyte[6:5])
1278
                                        2'b00:  xr <= (xr + 4'd2);
1279
                                        2'b01:  yr <= (yr + 4'd2);
1280
                                        2'b10:  usp <= (usp + 4'd2);
1281
                                        2'b11:  ssp <= (ssp + 4'd2);
1282
                                        endcase
1283
                        8'b1??00010:
1284
                                case(ndxbyte[6:5])
1285
                                2'b00:  xr <= (xr - 2'd1);
1286
                                2'b01:  yr <= (yr - 2'd1);
1287
                                2'b10:  usp <= (usp - 2'd1);
1288
                                2'b11:  ssp <= (ssp - 2'd1);
1289
                                endcase
1290
                        8'b1??00011:
1291
                                case(ndxbyte[6:5])
1292
                                2'b00:  xr <= (xr - 2'd2);
1293
                                2'b01:  yr <= (yr - 2'd2);
1294
                                2'b10:  usp <= (usp - 2'd2);
1295
                                2'b11:  ssp <= (ssp - 2'd2);
1296
                                endcase
1297
                        endcase
1298
                end
1299
                else if (bitsPerByte==12) begin
1300
                        casez(ndxbyte)
1301
                        12'b1??000000000:
1302
                                if (!isOuterIndexed && ndxbyte[7]==1'b0)
1303
                                        case(ndxbyte[10:9])
1304
                                        2'b00:  xr <= (xr + 4'd1);
1305
                                        2'b01:  yr <= (yr + 4'd1);
1306
                                        2'b10:  usp <= (usp + 4'd1);
1307
                                        2'b11:  ssp <= (ssp + 4'd1);
1308
                                        endcase
1309
                        12'b1??000000001:
1310
                                if (!isOuterIndexed && ndxbyte[7]==1'b0)
1311
                                        case(ndxbyte[10:9])
1312
                                        2'b00:  xr <= (xr + 4'd2);
1313
                                        2'b01:  yr <= (yr + 4'd2);
1314
                                        2'b10:  usp <= (usp + 4'd2);
1315
                                        2'b11:  ssp <= (ssp + 4'd2);
1316
                                        endcase
1317
                        12'b1??0x0000010:
1318
                                case(ndxbyte[10:9])
1319
                                2'b00:  xr <= (xr - 2'd1);
1320
                                2'b01:  yr <= (yr - 2'd1);
1321
                                2'b10:  usp <= (usp - 2'd1);
1322
                                2'b11:  ssp <= (ssp - 2'd1);
1323
                                endcase
1324
                        12'b1??0x0000011:
1325
                                case(ndxbyte[10:9])
1326
                                2'b00:  xr <= (xr - 2'd2);
1327
                                2'b01:  yr <= (yr - 2'd2);
1328
                                2'b10:  usp <= (usp - 2'd2);
1329
                                2'b11:  ssp <= (ssp - 2'd2);
1330
                                endcase
1331
                        endcase
1332
                end
1333
        end
1334
        case(ir12)
1335
        `NOP:   ;
1336
        `SYNC:  sync_state <= `TRUE;
1337
        `ORCC:  begin
1338
                        cf <= cf | ir[bitsPerByte];
1339
                        vf <= vf | ir[bitsPerByte+1];
1340
                        zf <= zf | ir[bitsPerByte+2];
1341
                        nf <= nf | ir[bitsPerByte+3];
1342
                        im <= im | ir[bitsPerByte+4];
1343
                        hf <= hf | ir[bitsPerByte+5];
1344
                        firqim <= firqim | ir[bitsPerByte+6];
1345
                        ef <= ef | ir[bitsPerByte+7];
1346
                        pc <= pcp2;
1347
                        end
1348
        `ANDCC:
1349
                        begin
1350
                        cf <= cf & ir[bitsPerByte];
1351
                        vf <= vf & ir[bitsPerByte+1];
1352
                        zf <= zf & ir[bitsPerByte+2];
1353
                        nf <= nf & ir[bitsPerByte+3];
1354
                        im <= im & ir[bitsPerByte+4];
1355
                        hf <= hf & ir[bitsPerByte+5];
1356
                        firqim <= firqim & ir[bitsPerByte+6];
1357
                        ef <= ef & ir[bitsPerByte+7];
1358
                        pc <= pcp2;
1359
                        end
1360
        `DAA:
1361
                        begin
1362
                                if (hf || acca[3:0] > 4'd9)
1363
                                        res12[3:0] <= acca[3:0] + 4'd6;
1364
                                if (cf || acca[7:4] > 4'd9 || (acca[7:4] > 4'd8 && acca[3:0] > 4'd9))
1365
                                        res12[8:4] <= acca[7:4] + 4'd6;
1366
                        end
1367
        `CWAI:
1368
                        begin
1369
                        cf <= cf & ir[bitsPerByte];
1370
                        vf <= vf & ir[bitsPerByte+1];
1371
                        zf <= zf & ir[bitsPerByte+2];
1372
                        nf <= nf & ir[bitsPerByte+3];
1373
                        im <= im & ir[bitsPerByte+4];
1374
                        hf <= hf & ir[bitsPerByte+5];
1375
                        firqim <= firqim & ir[bitsPerByte+6];
1376
                        ef <= 1'b1;
1377
                        pc <= pc + 2'd2;
1378
                        ir[`HIBYTE] <= -1;
1379
                        isFar <= `TRUE;
1380
                        wait_state <= `TRUE;
1381
                        next_state(PUSH1);
1382
                        end
1383
        `LDMD:  begin
1384
                        natMd <= ir[bitsPerByte];
1385
                        firqMd <= ir[bitsPerByte+1];
1386
                        pc <= pc + 2'd2;
1387
                        end
1388
        `TFR:   pc <= pc + 2'd2;
1389
        `EXG:   pc <= pc + 2'd2;
1390
        `ABX:   res <= xr + accb;
1391
        `SEX: res <= {{bitsPerByte{accb[BPBM1]}},accb[`LOBYTE]};
1392
        `PG2:   begin ipg <= 2'b01; ir <= ir[bitsPerByte*5-1:bitsPerByte]; next_state(DECODE); end
1393
        `PG3:   begin ipg <= 2'b10; ir <= ir[bitsPerByte*5-1:bitsPerByte]; next_state(DECODE); end
1394
        `FAR:   begin isFar <= `TRUE;  ir <= ir[bitsPerByte*5-1:bitsPerByte]; next_state(DECODE); end
1395
        `OUTER: begin isOuterIndexed <= `TRUE;  ir <= ir[bitsPerByte*5-1:bitsPerByte]; next_state(DECODE); end
1396
 
1397
        `NEGA,`NEGB:    begin res12 <= -acc[`LOBYTE]; a <= 24'h00; b <= acc; end
1398
        `COMA,`COMB:    begin res12 <= ~acc[`LOBYTE]; end
1399
        `LSRA,`LSRB:    begin res12 <= {acc[0],1'b0,acc[BPBM1:1]}; end
1400
        `RORA,`RORB:    begin res12 <= {acc[0],cf,acc[BPBM1:1]}; end
1401
        `ASRA,`ASRB:    begin res12 <= {acc[0],acc[BPBM1],acc[BPBM1:1]}; end
1402
        `ASLA,`ASLB:    begin res12 <= {acc[`LOBYTE],1'b0}; end
1403
        `ROLA,`ROLB:    begin res12 <= {acc[`LOBYTE],cf}; end
1404
        `DECA,`DECB:    begin res12 <= acc[`LOBYTE] - 2'd1; end
1405
        `INCA,`INCB:    begin res12 <= acc[`LOBYTE] + 2'd1; end
1406
        `TSTA,`TSTB:    begin res12 <= acc[`LOBYTE]; end
1407
        `CLRA,`CLRB:    begin res12 <= 13'h000; end
1408
 
1409
        // Immediate mode instructions
1410
        `SUBA_IMM,`SUBB_IMM,`CMPA_IMM,`CMPB_IMM:
1411
                begin res12 <= acc[`LOBYTE] - ir[`HIBYTE]; pc <= pc + 4'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1412
        `SBCA_IMM,`SBCB_IMM:
1413
                begin res12 <= acc[`LOBYTE] - ir[`HIBYTE] - cf; pc <= pc + 2'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1414
        `ANDA_IMM,`ANDB_IMM,`BITA_IMM,`BITB_IMM:
1415
                begin res12 <= acc[`LOBYTE] & ir[`HIBYTE]; pc <= pc + 2'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1416
        `LDA_IMM,`LDB_IMM:
1417
                begin res12 <= ir[`HIBYTE]; pc <= pc + 2'd2; end
1418
        `EORA_IMM,`EORB_IMM:
1419
                begin res12 <= acc[`LOBYTE] ^ ir[`HIBYTE]; pc <= pc + 2'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1420
        `ADCA_IMM,`ADCB_IMM:
1421
                begin res12 <= acc[`LOBYTE] + ir[`HIBYTE] + cf; pc <= pc + 2'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1422
        `ORA_IMM,`ORB_IMM:
1423
                begin res12 <= acc[`LOBYTE] | ir[`HIBYTE]; pc <= pc + 2'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1424
        `ADDA_IMM,`ADDB_IMM:
1425
                begin res12 <= acc[`LOBYTE] + ir[`HIBYTE]; pc <= pc + 2'd2; a <= acc[`LOBYTE]; b <= ir[`HIBYTE]; end
1426
        `ADDD_IMM:
1427
                                begin
1428
                                        res <= {acca[`LOBYTE],accb[`LOBYTE]} + {ir[`HIBYTE],ir[`BYTE3]};
1429
                                        pc <= pc + 2'd3;
1430
                                end
1431
        `SUBD_IMM:
1432
                                begin
1433
                                        res <= {acca[`LOBYTE],accb[`LOBYTE]} - {ir[`HIBYTE],ir[`BYTE3]};
1434
                                        pc <= pc + 2'd3;
1435
                                end
1436
        `LDD_IMM:
1437
                                begin
1438
                                        res <= {ir[`HIBYTE],ir[`BYTE3]};
1439
                                        pc <= pc + 2'd3;
1440
                                end
1441
        `LDX_IMM,`LDY_IMM,`LDU_IMM,`LDS_IMM:
1442
                                begin
1443
                                        res <= {ir[`HIBYTE],ir[`BYTE3]};
1444
                                        pc <= pc + 2'd3;
1445
                                end
1446
 
1447
        `CMPD_IMM:
1448
                                begin
1449
                                        res <= {acca[`LOBYTE],accb[`LOBYTE]} - {ir[`HIBYTE],ir[`BYTE3]};
1450
                                        pc <= pc + 2'd3;
1451
                                        a <= {acca[`LOBYTE],accb[`LOBYTE]};
1452
                                        b <= {ir[`HIBYTE],ir[`BYTE3]};
1453
                                end
1454
        `CMPX_IMM:
1455
                                begin
1456
                                        res <= xr[`DBLBYTE] - {ir[`HIBYTE],ir[`BYTE3]};
1457
                                        pc <= pc + 2'd3;
1458
                                        a <= xr[`DBLBYTE];
1459
                                        b <= {ir[`HIBYTE],ir[`BYTE3]};
1460
                                end
1461
        `CMPY_IMM:
1462
                                begin
1463
                                        res <= yr[`DBLBYTE] - {ir[`HIBYTE],ir[`BYTE3]};
1464
                                        pc <= pc + 2'd3;
1465
                                        a <= yr[`DBLBYTE];
1466
                                        b <= {ir[`HIBYTE],ir[`BYTE3]};
1467
                                end
1468
        `CMPU_IMM:
1469
                                begin
1470
                                        res <= usp[`DBLBYTE] - {ir[`HIBYTE],ir[`BYTE3]};
1471
                                        pc <= pc + 2'd3;
1472
                                        a <= usp[`DBLBYTE];
1473
                                        b <= {ir[`HIBYTE],ir[`BYTE3]};
1474
                                end
1475
        `CMPS_IMM:
1476
                                begin
1477
                                        res <= ssp[`DBLBYTE] - {ir[`HIBYTE],ir[`BYTE3]};
1478
                                        pc <= pc + 2'd3;
1479
                                        a <= ssp[`DBLBYTE];
1480
                                        b <= {ir[`HIBYTE],ir[`BYTE3]};
1481
                                end
1482
 
1483
        // Direct mode instructions
1484
        `NEG_DP,`COM_DP,`LSR_DP,`ROR_DP,`ASR_DP,`ASL_DP,`ROL_DP,`DEC_DP,`INC_DP,`TST_DP:
1485
                begin
1486
                        load_what <= `LW_BL;
1487
                        radr <= dp_address;
1488
                        pc <= pc + 2'd2;
1489
                        next_state(LOAD1);
1490
                end
1491
        `SUBA_DP,`CMPA_DP,`SBCA_DP,`ANDA_DP,`BITA_DP,`LDA_DP,`EORA_DP,`ADCA_DP,`ORA_DP,`ADDA_DP,
1492
        `SUBB_DP,`CMPB_DP,`SBCB_DP,`ANDB_DP,`BITB_DP,`LDB_DP,`EORB_DP,`ADCB_DP,`ORB_DP,`ADDB_DP:
1493
                begin
1494
                        load_what <= `LW_BL;
1495
                        radr <= dp_address;
1496
                        pc <= pc + 2'd2;
1497
                        next_state(LOAD1);
1498
                end
1499
        `SUBD_DP,`ADDD_DP,`LDD_DP,`CMPD_DP,`ADCD_DP,`SBCD_DP:
1500
                begin
1501
                        load_what <= `LW_BH;
1502
                        pc <= pc + 2'd2;
1503
                        radr <= dp_address;
1504
                        next_state(LOAD1);
1505
                end
1506
        `CMPX_DP,`LDX_DP,`LDU_DP,`LDS_DP,
1507
        `CMPY_DP,`CMPS_DP,`CMPU_DP,`LDY_DP:
1508
                begin
1509
                        load_what <= `LW_BH;
1510
                        pc <= pc + 2'd2;
1511
                        radr <= dp_address;
1512
                        next_state(LOAD1);
1513
                end
1514
        `CLR_DP:
1515
                begin
1516
                        dp_store(`SW_RES8);
1517
                        res12 <= 13'h000;
1518
                end
1519
        `STA_DP:        dp_store(`SW_ACCA);
1520
        `STB_DP:        dp_store(`SW_ACCB);
1521
        `STD_DP:        dp_store(`SW_ACCDH);
1522
        `STU_DP:        dp_store(`SW_USPH);
1523
        `STS_DP:        dp_store(`SW_SSPH);
1524
        `STX_DP:        dp_store(`SW_XH);
1525
        `STY_DP:        dp_store(`SW_YH);
1526
        // Indexed mode instructions
1527
        `NEG_NDX,`COM_NDX,`LSR_NDX,`ROR_NDX,`ASR_NDX,`ASL_NDX,`ROL_NDX,`DEC_NDX,`INC_NDX,`TST_NDX:
1528
                begin
1529
                        pc <= pc + insnsz;
1530
                        if (isIndirect) begin
1531
                                load_what <= isFar ? `LW_IA2316 : `LW_IAH;
1532
                                load_what2 <= `LW_BL;
1533
                                radr <= NdxAddr;
1534
                                next_state(LOAD1);
1535
                        end
1536
                        else begin
1537
                                b <= 24'd0;
1538
                                load_what <= `LW_BL;
1539
                                radr <= NdxAddr;
1540
                                next_state(LOAD1);
1541
                        end
1542
                end
1543
        `SUBA_NDX,`CMPA_NDX,`SBCA_NDX,`ANDA_NDX,`BITA_NDX,`LDA_NDX,`EORA_NDX,`ADCA_NDX,`ORA_NDX,`ADDA_NDX,
1544
        `SUBB_NDX,`CMPB_NDX,`SBCB_NDX,`ANDB_NDX,`BITB_NDX,`LDB_NDX,`EORB_NDX,`ADCB_NDX,`ORB_NDX,`ADDB_NDX:
1545
                begin
1546
                        pc <= pc + insnsz;
1547
                        if (isIndirect) begin
1548
                                load_what <= isFar ? `LW_IA2316 : `LW_IAH;
1549
                                load_what2 <= `LW_BL;
1550
                                radr <= NdxAddr;
1551
                                next_state(LOAD1);
1552
                        end
1553
                        else begin
1554
                                b <= 24'd0;
1555
                                load_what <= `LW_BL;
1556
                                radr <= NdxAddr;
1557
                                next_state(LOAD1);
1558
                        end
1559
                end
1560
        `SUBD_NDX,`ADDD_NDX,`LDD_NDX,`CMPD_NDX,`ADCD_NDX,`SBCD_NDX:
1561
                begin
1562
                        pc <= pc + insnsz;
1563
                        if (isIndirect) begin
1564
                                load_what <= isFar ? `LW_IA2316 : `LW_IAH;
1565
                                load_what2 <= `LW_BH;
1566
                                radr <= NdxAddr;
1567
                                next_state(LOAD1);
1568
                        end
1569
                        else begin
1570
                                load_what <= `LW_BH;
1571
                                radr <= NdxAddr;
1572
                                next_state(LOAD1);
1573
                        end
1574
                end
1575
        `CMPX_NDX,`LDX_NDX,`LDU_NDX,`LDS_NDX,
1576
        `CMPY_NDX,`CMPS_NDX,`CMPU_NDX,`LDY_NDX:
1577
                begin
1578
                        pc <= pc + insnsz;
1579
                        if (isIndirect) begin
1580
                                load_what <= isFar ? `LW_IA2316 : `LW_IAH;
1581
                                load_what2 <= `LW_BH;
1582
                                radr <= NdxAddr;
1583
                                next_state(LOAD1);
1584
                        end
1585
                        else begin
1586
                                load_what <= `LW_BH;
1587
                                radr <= NdxAddr;
1588
                                next_state(LOAD1);
1589
                        end
1590
                end
1591
        `CLR_NDX:
1592
                begin
1593
                        res12 <= 13'h000;
1594
                        indexed_store(`SW_RES8);
1595
                end
1596
        `STA_NDX:       indexed_store(`SW_ACCA);
1597
        `STB_NDX:       indexed_store(`SW_ACCB);
1598
        `STD_NDX:       indexed_store(`SW_ACCDH);
1599
        `STU_NDX:       indexed_store(`SW_USPH);
1600
        `STS_NDX:       indexed_store(`SW_SSPH);
1601
        `STX_NDX:       indexed_store(`SW_XH);
1602
        `STY_NDX:       indexed_store(`SW_YH);
1603
 
1604
        // Extended mode instructions
1605
        `NEG_EXT,`COM_EXT,`LSR_EXT,`ROR_EXT,`ASR_EXT,`ASL_EXT,`ROL_EXT,`DEC_EXT,`INC_EXT,`TST_EXT:
1606
                begin
1607
                        load_what <= `LW_BL;
1608
                        radr <= ex_address;
1609
                        pc <= pc + (isFar ? 32'd4 : 32'd3);
1610
                        next_state(LOAD1);
1611
                end
1612
        `SUBA_EXT,`CMPA_EXT,`SBCA_EXT,`ANDA_EXT,`BITA_EXT,`LDA_EXT,`EORA_EXT,`ADCA_EXT,`ORA_EXT,`ADDA_EXT,
1613
        `SUBB_EXT,`CMPB_EXT,`SBCB_EXT,`ANDB_EXT,`BITB_EXT,`LDB_EXT,`EORB_EXT,`ADCB_EXT,`ORB_EXT,`ADDB_EXT:
1614
                begin
1615
                        load_what <= `LW_BL;
1616
                        radr <= ex_address;
1617
                        pc <= pc + (isFar ? 32'd4 : 32'd3);
1618
                        next_state(LOAD1);
1619
                end
1620
        `SUBD_EXT,`ADDD_EXT,`LDD_EXT,`CMPD_EXT,`ADCD_EXT,`SBCD_EXT:
1621
                begin
1622
                        load_what <= `LW_BH;
1623
                        radr <= ex_address;
1624
                        pc <= pc + (isFar ? 32'd4 : 32'd3);
1625
                        next_state(LOAD1);
1626
                end
1627
        `CMPX_EXT,`LDX_EXT,`LDU_EXT,`LDS_EXT,
1628
        `CMPY_EXT,`CMPS_EXT,`CMPU_EXT,`LDY_EXT:
1629
                begin
1630
                        load_what <= `LW_BH;
1631
                        radr <= ex_address;
1632
                        pc <= pc + (isFar ? 32'd4 : 32'd3);
1633
                        next_state(LOAD1);
1634
                end
1635
        `CLR_EXT:
1636
                begin
1637
                        ex_store(`SW_RES8);
1638
                        res12 <= 13'h000;
1639
                end
1640
        `STA_EXT:       ex_store(`SW_ACCA);
1641
        `STB_EXT:       ex_store(`SW_ACCB);
1642
        `STD_EXT:       ex_store(`SW_ACCDH);
1643
        `STU_EXT:       ex_store(`SW_USPH);
1644
        `STS_EXT:       ex_store(`SW_SSPH);
1645
        `STX_EXT:       ex_store(`SW_XH);
1646
        `STY_EXT:       ex_store(`SW_YH);
1647
 
1648
        `BSR:
1649
                begin
1650
                        store_what <= `SW_PCH;
1651
                        wadr <= ssp - 2'd2;
1652
                        ssp <= ssp - 2'd2;
1653
                        pc <= pc + 2'd2;
1654
                        next_state(STORE1);
1655
                end
1656
        `LBSR:
1657
                begin
1658
                        store_what <= `SW_PCH;
1659
                        wadr <= ssp - 2'd2;
1660
                        ssp <= ssp - 2'd2;
1661
                        pc <= pc + 2'd3;
1662
                        next_state(STORE1);
1663
                end
1664
        `JSR_DP:
1665
                begin
1666
                        store_what <= `SW_PCH;
1667
                        wadr <= ssp - 2'd2;
1668
                        ssp <= ssp - 2'd2;
1669
                        pc <= pc + 2'd2;
1670
                        next_state(STORE1);
1671
                end
1672
        `JSR_NDX:
1673
                begin
1674
                   begin
1675
          store_what <= `SW_PCH;
1676
          wadr <= ssp - 2'd2;
1677
          ssp <= ssp - 2'd2;
1678
                        end
1679
                        pc <= pc + insnsz;
1680
                        next_state(STORE1);
1681
                end
1682
        `JSR_EXT:
1683
                begin
1684
                        begin
1685
                                store_what <= `SW_PCH;
1686
                                wadr <= ssp - 2'd2;
1687
                                ssp <= ssp - 2'd2;
1688
                        end
1689
                        pc <= pc + 2'd3;
1690
                        next_state(STORE1);
1691
                end
1692
        `JSR_FAR:
1693
                begin
1694
                        store_what <= `SW_PC2316;
1695
                        wadr <= ssp - 16'd4;
1696
                        ssp <= ssp - 16'd4;
1697
                        pc <= pc + 32'd4;
1698
                        next_state(STORE1);
1699
                end
1700
        `RTS:
1701
                begin
1702
                        load_what <= `LW_PCH;
1703
                        radr <= ssp;
1704
                        next_state(LOAD1);
1705
                end
1706
        `RTF:
1707
                begin
1708
                        load_what <= `LW_PC2316;
1709
                        radr <= ssp;
1710
                        next_state(LOAD1);
1711
                end
1712
        `JMP_DP:        pc <= dp_address;
1713
        `JMP_EXT:       pc <= address;
1714
        `JMP_FAR:       pc <= far_address;
1715
        `JMP_NDX:
1716
                begin
1717
                        if (isIndirect) begin
1718
                        radr <= NdxAddr;
1719
                            if (isFar)
1720
                                   load_what <= `LW_PC2316;
1721
                            else
1722
                                   load_what <= `LW_PCH;
1723
                                next_state(LOAD1);
1724
                        end
1725
                        else
1726
                                pc <= isFar ? NdxAddr : {pc[`BYTE3],NdxAddr[`DBLBYTE]};
1727
                end
1728
        `LEAX_NDX,`LEAY_NDX,`LEAS_NDX,`LEAU_NDX:
1729
                begin
1730
                        pc <= pc + insnsz;
1731
                        if (isIndirect) begin
1732
                                load_what <= `LW_IAH;
1733
                                radr <= NdxAddr;
1734
                                state <= LOAD1;
1735
                        end
1736
                        else
1737
                                res <= NdxAddr[`DBLBYTE];
1738
                end
1739
        `PSHU,`PSHS:
1740
                begin
1741
                        next_state(PUSH1);
1742
                        pc <= pc + 2'd2;
1743
                end
1744
        `PULS:
1745
                begin
1746
                        radr <= ssp;
1747
                        next_state(PULL1);
1748
                        pc <= pc + 2'd2;
1749
                end
1750
        `PULU:
1751
                begin
1752
                        radr <= {usppg,8'h00} + usp;
1753
                        next_state(PULL1);
1754
                        pc <= pc + 2'd2;
1755
                end
1756
        `BEQ,`BNE,`BMI,`BPL,`BVS,`BVC,`BHI,`BLS,`BHS,`BLO,`BGT,`BGE,`BLT,`BLE,`BRA,`BRN:
1757
                if (takb)
1758
                        pc <= pc + {{24{ir[BPBX2M1]}},ir[`HIBYTE]} + 2'd2;
1759
                else
1760
                        pc <= pc + 2'd2;
1761
        // PC is already incremented by one due to the PG10 prefix.
1762
        `LBEQ,`LBNE,`LBMI,`LBPL,`LBVS,`LBVC,`LBHI,`LBLS,`LBHS,`LBLO,`LBGT,`LBGE,`LBLT,`LBLE,`LBRN:
1763
                if (takb)
1764
                        pc <= pc + {{12{ir[BPB*3-1]}},ir[`HIBYTE],ir[`BYTE3]} + 2'd3;
1765
                else
1766
                        pc <= pc + 2'd3;
1767
        `LBRA:  pc <= pc + {{12{ir[BPB*3-1]}},ir[`HIBYTE],ir[`BYTE3]} + 2'd3;
1768
        `RTI:
1769
                begin
1770
                        load_what <= `LW_CCR;
1771
                        radr <= ssp;
1772
                        isFar <= `TRUE;
1773
                        next_state(LOAD1);
1774
                end
1775
        `SWI:
1776
                begin
1777
                        im <= 1'b1;
1778
                        firqim <= 1'b1;
1779
                        ir[`LOBYTE] <= `INT;
1780
                        ipg <= 2'b11;
1781
                        vect <= `SWI_VECT;
1782
                        next_state(DECODE);
1783
                end
1784
        `SWI2:
1785
                begin
1786
                        ir[`LOBYTE] <= `INT;
1787
                        ipg <= 2'b11;
1788
                        vect <= `SWI2_VECT;
1789
                        next_state(DECODE);
1790
                end
1791
        `SWI3:
1792
                begin
1793
                        ir[`LOBYTE] <= `INT;
1794
                        ipg <= 2'b11;
1795
                        vect <= `SWI3_VECT;
1796
                        next_state(DECODE);
1797
                end
1798
        // If the processor was in the wait state before the interrupt occurred
1799
        // the registers will have already been pushed. All that needs to be
1800
        // done is to vector to the interrupt routine.
1801
        `INT:
1802
                begin
1803
                        if (wait_state) begin
1804
                                wait_state <= `FALSE;
1805
                                if (vec_i != 24'h0) begin
1806
                                    pc <= vec_i;
1807
                                    next_state(IFETCH);
1808
                                end
1809
                                else begin
1810
                                    radr <= vect;
1811
                      load_what <= `LW_PCH;
1812
                                    pc <= 32'hFFFFFFFE;
1813
                                    next_state(LOAD1);
1814
                                end
1815
                        end
1816
                        else begin
1817
                                if (isNMI | isIRQ | isSWI | isSWI2 | isSWI3) begin
1818
                                        ir[`HIBYTE] <= 16'hFFFF;
1819
                                        ef <= 1'b1;
1820
                                end
1821
                                else if (isFIRQ) begin
1822
                                        if (natMd) begin
1823
                                                ef <= firqMd;
1824
                                                ir[`HIBYTE] <= firqMd ? 16'hFFFF : 12'h81;
1825
                                        end
1826
                                        else begin
1827
                                                ir[`HIBYTE] <= 12'h81;
1828
                                                ef <= 1'b0;
1829
                                        end
1830
                                end
1831
                                pc <= pc;
1832
                                isFar <= `TRUE;
1833
                                next_state(PUSH1);
1834
                        end
1835
                end
1836
        default:        ;
1837
        endcase
1838
end
1839
endtask
1840
 
1841
// ============================================================================
1842
// MEMORY LOAD
1843
// ============================================================================
1844
task tLoad1;
1845
begin
1846
`ifdef SUPPORT_DCACHE
1847
        if (unCachedData)
1848
`endif
1849
        case(radr)
1850
        {{BPB*3-8{1'b1}},8'hE0}:        load_tsk({2'b0,id});
1851
        {{BPB*3-8{1'b1}},8'hE1}:        load_tsk(chkpoint);
1852
        {{BPB*3-8{1'b1}},8'hE4}:        load_tsk(12'h0);
1853
        {{BPB*3-8{1'b1}},8'hE5}:        load_tsk(ms_count[35:24]);
1854
        {{BPB*3-8{1'b1}},8'hE6}:        load_tsk(ms_count[23:12]);
1855
        {{BPB*3-8{1'b1}},8'hE7}:        load_tsk(ms_count[11: 0]);
1856
        default:
1857
        if (~ack_i) begin
1858
                lock_o <= lock_bus;
1859
                wb_read(radr);
1860
                if (!tsc)
1861
                        next_state(LOAD2);
1862
        end
1863
`ifdef SUPPORT_DCACHE
1864
        else if (dhit)
1865
                load_tsk(rdat);
1866
        else begin
1867
                retstate <= LOAD1;
1868
                state <= DCACHE1;
1869
        end
1870
`endif
1871
        endcase
1872
end
1873
endtask
1874
 
1875
task tLoad2;
1876
begin
1877
        // On a tri-state condition abort the bus cycle and retry the load.
1878
        if (tsc|rty_i|bto) begin
1879
                wb_nack();
1880
                next_state(LOAD1);
1881
        end
1882
        else if (ack_i) begin
1883
                wb_nack();
1884
                load_tsk(dati);
1885
        end
1886
`ifdef SUPPORT_BERR
1887
        else if (err_i) begin
1888
                lock_o <= 1'b0;
1889
                wb_nack();
1890
                derr_address <= adr_o;
1891
//              intno <= 9'd508;
1892
                state <= BUS_ERROR;
1893
        end
1894
`endif
1895
end
1896
endtask
1897
 
1898
// ============================================================================
1899
// EXECUTE
1900
//
1901
// Perform calculations
1902
// ============================================================================
1903
task tExecute;
1904
begin
1905
        next_state(IFETCH);
1906
        case(ir12)
1907
        `SUBD_DP,`SUBD_NDX,`SUBD_EXT,
1908
        `CMPD_DP,`CMPD_NDX,`CMPD_EXT:
1909
                begin
1910
                    a <= {acca[`LOBYTE],accb[`LOBYTE]};
1911
                        res <= {acca[`LOBYTE],accb[`LOBYTE]} - b[`DBLBYTE];
1912
                end
1913
        `SBCD_DP,`SBCD_NDX,`SBCD_EXT:
1914
                begin
1915
                    a <= {acca[`LOBYTE],accb[`LOBYTE]};
1916
                        res <= {acca[`LOBYTE],accb[`LOBYTE]} - b[`DBLBYTE] - {23'b0,cf};
1917
                end
1918
        `ADDD_DP,`ADDD_NDX,`ADDD_EXT:
1919
                begin
1920
                    a <= {acca[`LOBYTE],accb[`LOBYTE]};
1921
                        res <= {acca[`LOBYTE],accb[`LOBYTE]} + b[`DBLBYTE];
1922
                end
1923
        `ADCD_DP,`ADCD_NDX,`ADCD_EXT:
1924
                begin
1925
                    a <= {acca[`LOBYTE],accb[`LOBYTE]};
1926
                        res <= {acca[`LOBYTE],accb[`LOBYTE]} + b[`DBLBYTE] + {23'b0,cf};
1927
                end
1928
        `LDD_DP,`LDD_NDX,`LDD_EXT:
1929
                res <= b[`DBLBYTE];
1930
 
1931
        `CMPA_DP,`CMPA_NDX,`CMPA_EXT,
1932
        `SUBA_DP,`SUBA_NDX,`SUBA_EXT,
1933
        `CMPB_DP,`CMPB_NDX,`CMPB_EXT,
1934
        `SUBB_DP,`SUBB_NDX,`SUBB_EXT:
1935
                begin
1936
                        a <= acc;
1937
           res12 <= acc[`LOBYTE] - b12;
1938
                        end
1939
 
1940
        `SBCA_DP,`SBCA_NDX,`SBCA_EXT,
1941
        `SBCB_DP,`SBCB_NDX,`SBCB_EXT:
1942
                begin
1943
                    a <= acc;
1944
          res12 <= acc[`LOBYTE] - b12 - cf;
1945
              end
1946
        `BITA_DP,`BITA_NDX,`BITA_EXT,
1947
        `ANDA_DP,`ANDA_NDX,`ANDA_EXT,
1948
        `BITB_DP,`BITB_NDX,`BITB_EXT,
1949
        `ANDB_DP,`ANDB_NDX,`ANDB_EXT:
1950
                                res12 <= acc[`LOBYTE] & b12;
1951
        `LDA_DP,`LDA_NDX,`LDA_EXT,
1952
        `LDB_DP,`LDB_NDX,`LDB_EXT:
1953
                        res12 <= b12;
1954
        `EORA_DP,`EORA_NDX,`EORA_EXT,
1955
        `EORB_DP,`EORB_NDX,`EORB_EXT:
1956
                                res12 <= acc[`LOBYTE] ^ b12;
1957
        `ADCA_DP,`ADCA_NDX,`ADCA_EXT,
1958
        `ADCB_DP,`ADCB_NDX,`ADCB_EXT:
1959
                        begin
1960
                            a <= acc;
1961
                                res12 <= acc[`LOBYTE] + b12 + cf;
1962
                        end
1963
        `ORA_DP,`ORA_NDX,`ORA_EXT,
1964
        `ORB_DP,`ORB_NDX,`ORB_EXT:
1965
                                res12 <= acc[`LOBYTE] | b12;
1966
        `ADDA_DP,`ADDA_NDX,`ADDA_EXT,
1967
        `ADDB_DP,`ADDB_NDX,`ADDB_EXT:
1968
                begin
1969
                    a <= acc;
1970
                      res12 <= acc[`LOBYTE] + b12;
1971
              end
1972
 
1973
        `LDU_DP,`LDS_DP,`LDX_DP,`LDY_DP,
1974
        `LDU_NDX,`LDS_NDX,`LDX_NDX,`LDY_NDX,
1975
        `LDU_EXT,`LDS_EXT,`LDX_EXT,`LDY_EXT:    res <= b[`DBLBYTE];
1976
        `CMPX_DP,`CMPX_NDX,`CMPX_EXT:   begin a <= xr; res <= xr[`DBLBYTE] - b[`DBLBYTE]; end
1977
        `CMPY_DP,`CMPY_NDX,`CMPY_EXT:   begin a <= yr; res <= yr[`DBLBYTE] - b[`DBLBYTE]; end
1978
        `CMPS_DP,`CMPS_NDX,`CMPS_EXT:   begin a <= ssp; res <= ssp[`DBLBYTE] - b[`DBLBYTE]; end
1979
        `CMPU_DP,`CMPU_NDX,`CMPU_EXT:   begin a <= usp; res <= usp[`DBLBYTE] - b[`DBLBYTE]; end
1980
 
1981
        `NEG_DP,`NEG_NDX,`NEG_EXT:      begin res12 <= -b12; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1982
        `COM_DP,`COM_NDX,`COM_EXT:      begin res12 <= ~b12; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1983
        `LSR_DP,`LSR_NDX,`LSR_EXT:      begin res12 <= {b[0],1'b0,b[BPBM1:1]}; store_what <= `SW_RES8; wadr <= radr; next_state(STORE1); end
1984
        `ROR_DP,`ROR_NDX,`ROR_EXT:      begin res12 <= {b[0],cf,b[BPBM1:1]}; store_what <= `SW_RES8; wadr <= radr; next_state(STORE1); end
1985
        `ASR_DP,`ASR_NDX,`ASR_EXT:      begin res12 <= {b[0],b[BPBM1],b[BPBM1:1]}; store_what <= `SW_RES8; wadr <= radr; next_state(STORE1); end
1986
        `ASL_DP,`ASL_NDX,`ASL_EXT:      begin res12 <= {b12,1'b0}; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1987
        `ROL_DP,`ROL_NDX,`ROL_EXT:      begin res12 <= {b12,cf}; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1988
        `DEC_DP,`DEC_NDX,`DEC_EXT:      begin res12 <= b12 - 2'd1; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1989
        `INC_DP,`INC_NDX,`INC_EXT:      begin res12 <= b12 + 2'd1; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1990
        `TST_DP,`TST_NDX,`TST_EXT:      res12 <= b12;
1991
        /*
1992
        `AIM_DP,`AIM_NDX,`AIM_EXT:      begin res12 <= ir[`HIBYTE] & b12; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1993
        `OIM_DP,`OIM_NDX,`OIM_EXT:      begin res12 <= ir[`HIBYTE] | b12; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1994
        `EIM_DP,`EIM_NDX,`OIM_EXT:  begin res12 <= ir[`HIBYTE] ^ b12; wadr <= radr; store_what <= `SW_RES8; next_state(STORE1); end
1995
        `TIM_DP,`TIM_NDX,`TIM_EXT:      begin res12 <= ir[`HIBYTE] & b12; end
1996
        */
1997
        default:        ;
1998
        endcase
1999
end
2000
endtask
2001
 
2002
// ============================================================================
2003
// MEMORY STORE
2004
// ============================================================================
2005
 
2006
task tStore1;
2007
begin
2008
        if (!ack_i) begin
2009
                lock_o <= lock_bus;
2010
`ifdef SUPPORT_CHECKPOINT
2011
                if (wadr=={{BPB*3-8{1'b1}},8'hE1})
2012
                        next_state(IFETCH);
2013
                else
2014
`endif
2015
                begin
2016
                        case(store_what)
2017
                        `SW_ACCDH:      wb_write(wadr,acca[`LOBYTE]);
2018
                        `SW_ACCDL:      wb_write(wadr,accb[`LOBYTE]);
2019
                        `SW_ACCA:       wb_write(wadr,acca[`LOBYTE]);
2020
                        `SW_ACCB:       wb_write(wadr,accb[`LOBYTE]);
2021
                        `SW_DPR:        wb_write(wadr,dpr);
2022
                        `SW_XL: wb_write(wadr,xr[`LOBYTE]);
2023
                        `SW_XH: wb_write(wadr,xr[`HIBYTE]);
2024
                        `SW_YL: wb_write(wadr,yr[`LOBYTE]);
2025
                        `SW_YH: wb_write(wadr,yr[`HIBYTE]);
2026
                        `SW_USPL:       wb_write(wadr,usp[`LOBYTE]);
2027
                        `SW_USPH:       wb_write(wadr,usp[`HIBYTE]);
2028
                        `SW_SSPL:       wb_write(wadr,ssp[`LOBYTE]);
2029
                        `SW_SSPH:       wb_write(wadr,ssp[`HIBYTE]);
2030
                        `SW_PC2316:     wb_write(wadr,pc[`BYTE3]);
2031
                        `SW_PCH:        wb_write(wadr,pc[`HIBYTE]);
2032
                        `SW_PCL:        wb_write(wadr,pc[`LOBYTE]);
2033
                        `SW_CCR:        wb_write(wadr,ccr);
2034
                        `SW_RES8:       wb_write(wadr,res12[`LOBYTE]);
2035
                        `SW_RES16H:     wb_write(wadr,res[`HIBYTE]);
2036
                        `SW_RES16L:     wb_write(wadr,res[`LOBYTE]);
2037
                        `SW_DEF8:       wb_write(wadr,wdat);
2038
                        default:        wb_write(wadr,wdat);
2039
                        endcase
2040
`ifdef SUPPORT_DCACHE
2041
                        radr <= wadr;           // Do a cache read to test the hit
2042
`endif
2043
                        if (!tsc)
2044
                                next_state(STORE2);
2045
                end
2046
        end
2047
end
2048
endtask
2049
 
2050
// Terminal state for stores. Update the data cache if there was a cache hit.
2051
// Clear any previously set lock status
2052
task tStore2;
2053
begin
2054
        // On a tri-state condition abort the bus cycle and retry the store.
2055
        if (tsc|rty_i|bto) begin
2056
                wb_nack();
2057
                next_state(STORE1);
2058
        end
2059
        else if (ack_i) begin
2060
                wb_nack();
2061
                wdat <= dat_o;
2062
                wadr <= wadr + 2'd1;
2063
                next_state(IFETCH);
2064
                case(store_what)
2065
                `SW_CCR:
2066
                        begin
2067
                                if (isINT) begin
2068
                                        im <= 1'b1;
2069
                                        firqim <= 1'b1;
2070
                                end
2071
                                next_state(PUSH2);
2072
                        end
2073
                `SW_ACCA:
2074
                        if (isINT | isPSHS | isPSHU)
2075
                                next_state(PUSH2);
2076
                        else    // STA
2077
                                next_state(IFETCH);
2078
                `SW_ACCB:
2079
                        if (isINT | isPSHS | isPSHU)
2080
                                next_state(PUSH2);
2081
                        else    // STB
2082
                                next_state(IFETCH);
2083
                `SW_ACCDH:
2084
                        begin
2085
                                store_what <= `SW_ACCDL;
2086
                                next_state(STORE1);
2087
                        end
2088
                `SW_ACCDL:      next_state(IFETCH);
2089
                `SW_DPR:        next_state(PUSH2);
2090
                `SW_XH:
2091
                        begin
2092
                                store_what <= `SW_XL;
2093
                                next_state(STORE1);
2094
                        end
2095
                `SW_XL:
2096
                        if (isINT | isPSHS | isPSHU)
2097
                                next_state(PUSH2);
2098
                        else    // STX
2099
                                next_state(IFETCH);
2100
                `SW_YH:
2101
                        begin
2102
                                store_what <= `SW_YL;
2103
                                next_state(STORE1);
2104
                        end
2105
                `SW_YL:
2106
                        if (isINT | isPSHS | isPSHU)
2107
                                next_state(PUSH2);
2108
                        else    // STY
2109
                                next_state(IFETCH);
2110
                `SW_USPH:
2111
                        begin
2112
                                store_what <= `SW_USPL;
2113
                                next_state(STORE1);
2114
                        end
2115
                `SW_USPL:
2116
                        if (isINT | isPSHS | isPSHU)
2117
                                next_state(PUSH2);
2118
                        else    // STU
2119
                                next_state(IFETCH);
2120
                `SW_SSPH:
2121
                        begin
2122
                                store_what <= `SW_SSPL;
2123
                                next_state(STORE1);
2124
                        end
2125
                `SW_SSPL:
2126
                        if (isINT | isPSHS | isPSHU)
2127
                                next_state(PUSH2);
2128
                        else    // STS
2129
                                next_state(IFETCH);
2130
                `SW_PC2316:
2131
                        begin
2132
                                store_what <= `SW_PCH;
2133
                                next_state(STORE1);
2134
                        end
2135
                `SW_PCH:
2136
                        begin
2137
                                store_what <= `SW_PCL;
2138
                                next_state(STORE1);
2139
                        end
2140
                `SW_PCL:
2141
                        if (isINT | isPSHS | isPSHU)
2142
                                next_state(PUSH2);
2143
                        else begin      // JSR
2144
                                next_state(IFETCH);
2145
                                case(ir12)
2146
                                `BSR:           pc <= pc + {{24{ir[BPBX2M1]}},ir[`HIBYTE]};
2147
                                `LBSR:  pc <= pc + {{12{ir[BPB*3-1]}},ir[`HIBYTE],ir[`BYTE3]};
2148
                                `JSR_DP:        pc <= {dpr,ir[`HIBYTE]};
2149
                                `JSR_EXT:       pc <= {pc[`BYTE3],address[`DBLBYTE]};
2150
                                `JSR_FAR:
2151
                                        begin
2152
                                                pc <= far_address;
2153
                                                $display("Loading PC with %h", far_address);
2154
                                        end
2155
                                `JSR_NDX:
2156
                                        begin
2157
                                                if (isIndirect) begin
2158
                                                        radr <= NdxAddr;
2159
                                                        load_what <= isFar ? `LW_PC2316 : `LW_PCH;
2160
                                                        next_state(LOAD1);
2161
                                                end
2162
                                                else
2163
                                                        pc <= isFar ? NdxAddr : {pc[`BYTE3],NdxAddr[`DBLBYTE]};
2164
                                        end
2165
                                endcase
2166
                        end
2167
                endcase
2168
`ifdef SUPPORT_DCACHE
2169
                if (!dhit && write_allocate) begin
2170
                        state <= DCACHE1;
2171
                end
2172
`endif
2173
        end
2174
`ifdef SUPPORT_BERR
2175
        else if (err_i) begin
2176
                lock_o <= 1'b0;
2177
                wb_nack();
2178
                state <= BUS_ERROR;
2179
        end
2180
`endif
2181
end
2182
endtask
2183
 
2184
// ============================================================================
2185
// WRITEBACK
2186
//
2187
// Write results back to the register file and status flags.
2188
// Which registers and flags get updated depend on the instruction.
2189
// ============================================================================
2190
 
2191
task tWriteback;
2192
begin
2193
        if (first_ifetch) begin
2194
                first_ifetch <= `FALSE;
2195
                case(ir12)
2196
                `ABX:   xr <= res;
2197
                `ADDA_IMM,`ADDA_DP,`ADDA_NDX,`ADDA_EXT,
2198
                `ADCA_IMM,`ADCA_DP,`ADCA_NDX,`ADCA_EXT:
2199
                        begin
2200
                                cf <= (a[BPBM1]&b[BPBM1])|(a[BPBM1]&~res12[BPBM1])|(b[BPBM1]&~res12[BPBM1]);
2201
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2202
                                vf <= (res12[BPBM1] ^ b[BPBM1]) & (1'b1 ^ a[BPBM1] ^ b[BPBM1]);
2203
                                nf <= res12[BPBM1];
2204
                                zf <= res12[`LOBYTE]==12'h000;
2205
                                acca <= res12[`LOBYTE];
2206
                        end
2207
                `ADDB_IMM,`ADDB_DP,`ADDB_NDX,`ADDB_EXT,
2208
                `ADCB_IMM,`ADCB_DP,`ADCB_NDX,`ADCB_EXT:
2209
                        begin
2210
                                cf <= (a[BPBM1]&b[BPBM1])|(a[BPBM1]&~res12[BPBM1])|(b[BPBM1]&~res12[BPBM1]);
2211
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2212
                                vf <= (res12[BPBM1] ^ b[BPBM1]) & (1'b1 ^ a[BPBM1] ^ b[BPBM1]);
2213
                                nf <= res12[BPBM1];
2214
                                zf <= res12[`LOBYTE]==12'h000;
2215
                                accb <= res12[`LOBYTE];
2216
                        end
2217
                `ADDD_IMM,`ADDD_DP,`ADDD_NDX,`ADDD_EXT:
2218
                        begin
2219
                                cf <= (a[BPBX2M1]&b[BPBX2M1])|(a[BPBX2M1]&~res[BPBX2M1])|(b[BPBX2M1]&~res[BPBX2M1]);
2220
                                vf <= (res[BPBX2M1] ^ b[BPBX2M1]) & (1'b1 ^ a[BPBX2M1] ^ b[BPBX2M1]);
2221
                                nf <= res[BPBX2M1];
2222
                                zf <= res[`DBLBYTE]==24'h000000;
2223
                                acca <= res[`HIBYTE];
2224
                                accb <= res[`LOBYTE];
2225
                        end
2226
                `ANDA_IMM,`ANDA_DP,`ANDA_NDX,`ANDA_EXT:
2227
                        begin
2228
                                nf <= res12n;
2229
                                zf <= res12z;
2230
                                vf <= 1'b0;
2231
                                acca <= res12[`LOBYTE];
2232
                        end
2233
                `ANDB_IMM,`ANDB_DP,`ANDB_NDX,`ANDB_EXT:
2234
                        begin
2235
                                nf <= res12n;
2236
                                zf <= res12z;
2237
                                vf <= 1'b0;
2238
                                accb <= res12[`LOBYTE];
2239
                        end
2240
                `ASLA:
2241
                        begin
2242
                                cf <= res12c;
2243
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2244
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2245
                                nf <= res12[BPBM1];
2246
                                zf <= res12[`LOBYTE]==12'h000;
2247
                                acca <= res12[`LOBYTE];
2248
                        end
2249
                `ASLB:
2250
                        begin
2251
                                cf <= res12c;
2252
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2253
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2254
                                nf <= res12[BPBM1];
2255
                                zf <= res12[`LOBYTE]==12'h000;
2256
                                accb <= res12[`LOBYTE];
2257
                        end
2258
                `ASL_DP,`ASL_NDX,`ASL_EXT:
2259
                        begin
2260
                                cf <= res12c;
2261
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2262
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2263
                                nf <= res12[BPBM1];
2264
                                zf <= res12[`LOBYTE]==12'h000;
2265
                        end
2266
                `ASRA:
2267
                        begin
2268
                                cf <= res12c;
2269
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2270
                                nf <= res12[BPBM1];
2271
                                zf <= res12[`LOBYTE]==12'h000;
2272
                                acca <= res12[`LOBYTE];
2273
                        end
2274
                `ASRB:
2275
                        begin
2276
                                cf <= res12c;
2277
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2278
                                nf <= res12[BPBM1];
2279
                                zf <= res12[`LOBYTE]==12'h000;
2280
                                accb <= res12[`LOBYTE];
2281
                        end
2282
                `ASR_DP,`ASR_NDX,`ASR_EXT:
2283
                        begin
2284
                                cf <= res12c;
2285
                                hf <= (a[`HCBIT]&b[`HCBIT])|(a[`HCBIT]&~res12[`HCBIT])|(b[`HCBIT]&~res12[`HCBIT]);
2286
                                nf <= res12[BPBM1];
2287
                                zf <= res12[`LOBYTE]==12'h000;
2288
                        end
2289
                `BITA_IMM,`BITA_DP,`BITA_NDX,`BITA_EXT,
2290
                `BITB_IMM,`BITB_DP,`BITB_NDX,`BITB_EXT:
2291
                        begin
2292
                                vf <= 1'b0;
2293
                                nf <= res12[BPBM1];
2294
                                zf <= res12[`LOBYTE]==12'h000;
2295
                        end
2296
                `CLRA:
2297
                        begin
2298
                                vf <= 1'b0;
2299
                                cf <= 1'b0;
2300
                                nf <= 1'b0;
2301
                                zf <= 1'b1;
2302
                                acca <= 12'h000;
2303
                        end
2304
                `CLRB:
2305
                        begin
2306
                                vf <= 1'b0;
2307
                                cf <= 1'b0;
2308
                                nf <= 1'b0;
2309
                                zf <= 1'b1;
2310
                                accb <= 12'h000;
2311
                        end
2312
                `CLR_DP,`CLR_NDX,`CLR_EXT:
2313
                        begin
2314
                                vf <= 1'b0;
2315
                                cf <= 1'b0;
2316
                                nf <= 1'b0;
2317
                                zf <= 1'b1;
2318
                        end
2319
                `CMPA_IMM,`CMPA_DP,`CMPA_NDX,`CMPA_EXT,
2320
                `CMPB_IMM,`CMPB_DP,`CMPB_NDX,`CMPB_EXT:
2321
                        begin
2322
                                cf <= (~a[BPBM1]&b[BPBM1])|(res12[BPBM1]&~a[BPBM1])|(res12[BPBM1]&b[BPBM1]);
2323
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2324
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2325
                                nf <= res12[BPBM1];
2326
                                zf <= res12[`LOBYTE]==12'h000;
2327
                        end
2328
                `CMPD_IMM,`CMPD_DP,`CMPD_NDX,`CMPD_EXT:
2329
                        begin
2330
                                cf <= (~a[BPBX2M1]&b[BPBX2M1])|(res[BPBX2M1]&~a[BPBX2M1])|(res[BPBX2M1]&b[BPBX2M1]);
2331
                                vf <= (1'b1 ^ res[BPBX2M1] ^ b[BPBX2M1]) & (a[BPBX2M1] ^ b[BPBX2M1]);
2332
                                nf <= res[BPBX2M1];
2333
                                zf <= res[`DBLBYTE]==24'h000000;
2334
                        end
2335
                `CMPS_IMM,`CMPS_DP,`CMPS_NDX,`CMPS_EXT,
2336
                `CMPU_IMM,`CMPU_DP,`CMPU_NDX,`CMPU_EXT,
2337
                `CMPX_IMM,`CMPX_DP,`CMPX_NDX,`CMPX_EXT,
2338
                `CMPY_IMM,`CMPY_DP,`CMPY_NDX,`CMPY_EXT:
2339
                        begin
2340
                                cf <= (~a[BPBX2M1]&b[BPBX2M1])|(res[BPBX2M1]&~a[BPBX2M1])|(res[BPBX2M1]&b[BPBX2M1]);
2341
                                vf <= (1'b1 ^ res[BPBX2M1] ^ b[BPBX2M1]) & (a[BPBX2M1] ^ b[BPBX2M1]);
2342
                                nf <= res[BPBX2M1];
2343
                                zf <= res[`DBLBYTE]==24'h000000;
2344
                        end
2345
                `COMA:
2346
                        begin
2347
                                cf <= 1'b1;
2348
                                vf <= 1'b0;
2349
                                nf <= res12n;
2350
                                zf <= res12z;
2351
                                acca <= res12[`LOBYTE];
2352
                        end
2353
                `COMB:
2354
                        begin
2355
                                cf <= 1'b1;
2356
                                vf <= 1'b0;
2357
                                nf <= res12n;
2358
                                zf <= res12z;
2359
                                accb <= res12[`LOBYTE];
2360
                        end
2361
                `COM_DP,`COM_NDX,`COM_EXT:
2362
                        begin
2363
                                cf <= 1'b1;
2364
                                vf <= 1'b0;
2365
                                nf <= res12n;
2366
                                zf <= res12z;
2367
                        end
2368
                `DAA:
2369
                        begin
2370
                                cf <= res12c;
2371
                                zf <= res12z;
2372
                                nf <= res12n;
2373
                                vf <= (res12[BPBM1] ^ b[BPBM1]) & (1'b1 ^ a[BPBM1] ^ b[BPBM1]);
2374
                                acca <= res12[`LOBYTE];
2375
                        end
2376
                `DECA:
2377
                        begin
2378
                                nf <= res12n;
2379
                                zf <= res12z;
2380
                                vf <= res12[BPBM1] != acca[BPBM1];
2381
                                acca <= res12[`LOBYTE];
2382
                        end
2383
                `DECB:
2384
                        begin
2385
                                nf <= res12n;
2386
                                zf <= res12z;
2387
                                vf <= res12[BPBM1] != accb[BPBM1];
2388
                                accb <= res12[`LOBYTE];
2389
                        end
2390
                `DEC_DP,`DEC_NDX,`DEC_EXT:
2391
                        begin
2392
                                nf <= res12n;
2393
                                zf <= res12z;
2394
                                vf <= res12[BPBM1] != b[BPBM1];
2395
                        end
2396
                `EORA_IMM,`EORA_DP,`EORA_NDX,`EORA_EXT,
2397
                `ORA_IMM,`ORA_DP,`ORA_NDX,`ORA_EXT:
2398
                        begin
2399
                                nf <= res12n;
2400
                                zf <= res12z;
2401
                                vf <= 1'b0;
2402
                                acca <= res12[`LOBYTE];
2403
                        end
2404
                `EORB_IMM,`EORB_DP,`EORB_NDX,`EORB_EXT,
2405
                `ORB_IMM,`ORB_DP,`ORB_NDX,`ORB_EXT:
2406
                        begin
2407
                                nf <= res12n;
2408
                                zf <= res12z;
2409
                                vf <= 1'b0;
2410
                                accb <= res12[`LOBYTE];
2411
                        end
2412
                `EXG:
2413
                        begin
2414
                                case(ir[bitsPerByte+3:bitsPerByte])
2415
                                4'b0000:
2416
                                                        begin
2417
                                                                acca <= src1[`HIBYTE];
2418
                                                                accb <= src1[`LOBYTE];
2419
                                                        end
2420
                                4'b0001:        xr <= src1;
2421
                                4'b0010:        yr <= src1;
2422
                                4'b0011:        usp <= src1;
2423
                                4'b0100:        begin ssp <= src1; nmi_armed <= `TRUE; end
2424
                                4'b0101:        pc <= src1[`DBLBYTE];
2425
                                4'b1000:        acca <= src1[`LOBYTE];
2426
                                4'b1001:        accb <= src1[`LOBYTE];
2427
                                4'b1010:
2428
                                        begin
2429
                                                cf <= src1[0];
2430
                                                vf <= src1[1];
2431
                                                zf <= src1[2];
2432
                                                nf <= src1[3];
2433
                                                im <= src1[4];
2434
                                                hf <= src1[5];
2435
                                                firqim <= src1[6];
2436
                                                ef <= src1[7];
2437
                                        end
2438
                                4'b1011:        dpr <= src1[`LOBYTE];
2439
                                4'b1110:        usppg <= src1[`DBLBYTE];
2440
                                4'b1111:        ;
2441
                                default:        ;
2442
                                endcase
2443
                                case(ir[bitsPerByte+7:bitsPerByte+4])
2444
                                4'b0000:
2445
                                                        begin
2446
                                                                acca <= src2[`HIBYTE];
2447
                                                                accb <= src2[`LOBYTE];
2448
                                                        end
2449
                                4'b0001:        xr <= src2;
2450
                                4'b0010:        yr <= src2;
2451
                                4'b0011:        usp <= src2;
2452
                                4'b0100:        begin ssp <= src2; nmi_armed <= `TRUE; end
2453
                                4'b0101:        pc <= src2[`DBLBYTE];
2454
                                4'b1000:        acca <= src2[`LOBYTE];
2455
                                4'b1001:        accb <= src2[`LOBYTE];
2456
                                4'b1010:
2457
                                        begin
2458
                                                cf <= src2[0];
2459
                                                vf <= src2[1];
2460
                                                zf <= src2[2];
2461
                                                nf <= src2[3];
2462
                                                im <= src2[4];
2463
                                                hf <= src2[5];
2464
                                                firqim <= src2[6];
2465
                                                ef <= src2[7];
2466
                                        end
2467
                                4'b1011:        dpr <= src2[`LOBYTE];
2468
                                4'b1110:        usppg <= src2[`DBLBYTE];
2469
                                4'b1111:        ;
2470
                                default:        ;
2471
                                endcase
2472
                        end
2473
                `INCA:
2474
                        begin
2475
                                nf <= res12n;
2476
                                zf <= res12z;
2477
                                vf <= res12[BPBM1] != acca[BPBM1];
2478
                                acca <= res12[`LOBYTE];
2479
                        end
2480
                `INCB:
2481
                        begin
2482
                                nf <= res12n;
2483
                                zf <= res12z;
2484
                                vf <= res12[BPBM1] != accb[BPBM1];
2485
                                accb <= res12[`LOBYTE];
2486
                        end
2487
                `INC_DP,`INC_NDX,`INC_EXT:
2488
                        begin
2489
                                nf <= res12n;
2490
                                zf <= res12z;
2491
                                vf <= res12[BPBM1] != b[BPBM1];
2492
                        end
2493
                `LDA_IMM,`LDA_DP,`LDA_NDX,`LDA_EXT:
2494
                        begin
2495
                                vf <= 1'b0;
2496
                                zf <= res12z;
2497
                                nf <= res12n;
2498
                                acca <= res12[`LOBYTE];
2499
                        end
2500
                `LDB_IMM,`LDB_DP,`LDB_NDX,`LDB_EXT:
2501
                        begin
2502
                                vf <= 1'b0;
2503
                                zf <= res12z;
2504
                                nf <= res12n;
2505
                                accb <= res12[`LOBYTE];
2506
                        end
2507
                `LDD_IMM,`LDD_DP,`LDD_NDX,`LDD_EXT:
2508
                        begin
2509
                                vf <= 1'b0;
2510
                                zf <= res24z;
2511
                                nf <= res24n;
2512
                                acca <= res[`HIBYTE];
2513
                                accb <= res[`LOBYTE];
2514
                        end
2515
                `LDU_IMM,`LDU_DP,`LDU_NDX,`LDU_EXT:
2516
                        begin
2517
                                vf <= 1'b0;
2518
                                zf <= res24z;
2519
                                nf <= res24n;
2520
                                usp <= res[`DBLBYTE];
2521
                        end
2522
                `LDS_IMM,`LDS_DP,`LDS_NDX,`LDS_EXT:
2523
                        begin
2524
                                vf <= 1'b0;
2525
                                zf <= res24z;
2526
                                nf <= res24n;
2527
                                ssp <= res[`DBLBYTE];
2528
                                nmi_armed <= 1'b1;
2529
                        end
2530
                `LDX_IMM,`LDX_DP,`LDX_NDX,`LDX_EXT:
2531
                        begin
2532
                                vf <= 1'b0;
2533
                                zf <= res24z;
2534
                                nf <= res24n;
2535
                                xr <= res[`DBLBYTE];
2536
                        end
2537
                `LDY_IMM,`LDY_DP,`LDY_NDX,`LDY_EXT:
2538
                        begin
2539
                                vf <= 1'b0;
2540
                                zf <= res24z;
2541
                                nf <= res24n;
2542
                                yr <= res[`DBLBYTE];
2543
                        end
2544
                `LEAS_NDX:
2545
                        begin ssp <= res[`DBLBYTE]; nmi_armed <= 1'b1; end
2546
                `LEAU_NDX:
2547
                        usp <= res[`DBLBYTE];
2548
                `LEAX_NDX:
2549
                        begin
2550
                                zf <= res24z;
2551
                                xr <= res[`DBLBYTE];
2552
                        end
2553
                `LEAY_NDX:
2554
                        begin
2555
                                zf <= res24z;
2556
                                yr <= res[`DBLBYTE];
2557
                        end
2558
                `LSRA:
2559
                        begin
2560
                                cf <= res12c;
2561
                                nf <= res12[BPBM1];
2562
                                zf <= res12[`LOBYTE]==12'h000;
2563
                                acca <= res12[`LOBYTE];
2564
                        end
2565
                `LSRB:
2566
                        begin
2567
                                cf <= res12c;
2568
                                nf <= res12[BPBM1];
2569
                                zf <= res12[`LOBYTE]==12'h000;
2570
                                accb <= res12[`LOBYTE];
2571
                        end
2572
                `LSR_DP,`LSR_NDX,`LSR_EXT:
2573
                        begin
2574
                                cf <= res12c;
2575
                                nf <= res12[BPBM1];
2576
                                zf <= res12[`LOBYTE]==12'h000;
2577
                        end
2578
                `MUL:
2579
                        begin
2580
                                cf <= prod[BPBM1];
2581
                                zf <= res24z;
2582
                                acca <= prod[`HIBYTE];
2583
                                accb <= prod[`LOBYTE];
2584
                        end
2585
                `NEGA:
2586
                        begin
2587
                                cf <= (~a[BPBM1]&b[BPBM1])|(res12[BPBM1]&~a[BPBM1])|(res12[BPBM1]&b[BPBM1]);
2588
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2589
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2590
                                nf <= res12[BPBM1];
2591
                                zf <= res12[`LOBYTE]==12'h000;
2592
                                acca <= res12[`LOBYTE];
2593
                        end
2594
                `NEGB:
2595
                        begin
2596
                                cf <= (~a[BPBM1]&b[BPBM1])|(res12[BPBM1]&~a[BPBM1])|(res12[BPBM1]&b[BPBM1]);
2597
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2598
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2599
                                nf <= res12[BPBM1];
2600
                                zf <= res12[`LOBYTE]==12'h000;
2601
                                accb <= res12[`LOBYTE];
2602
                        end
2603
                `NEG_DP,`NEG_NDX,`NEG_EXT:
2604
                        begin
2605
                                cf <= (~a[BPBM1]&b[BPBM1])|(res12[BPBM1]&~a[BPBM1])|(res12[BPBM1]&b[BPBM1]);
2606
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2607
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2608
                                nf <= res12[BPBM1];
2609
                                zf <= res12[`LOBYTE]==12'h000;
2610
                        end
2611
                `ROLA:
2612
                        begin
2613
                                cf <= res12c;
2614
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2615
                                nf <= res12[BPBM1];
2616
                                zf <= res12[`LOBYTE]==12'h000;
2617
                                acca <= res12[`LOBYTE];
2618
                        end
2619
                `ROLB:
2620
                        begin
2621
                                cf <= res12c;
2622
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2623
                                nf <= res12[BPBM1];
2624
                                zf <= res12[`LOBYTE]==12'h000;
2625
                                accb <= res12[`LOBYTE];
2626
                        end
2627
                `ROL_DP,`ROL_NDX,`ROL_EXT:
2628
                        begin
2629
                                cf <= res12c;
2630
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2631
                                nf <= res12[BPBM1];
2632
                                zf <= res12[`LOBYTE]==12'h000;
2633
                        end
2634
                `RORA:
2635
                        begin
2636
                                cf <= res12c;
2637
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2638
                                nf <= res12[BPBM1];
2639
                                zf <= res12[`LOBYTE]==12'h000;
2640
                                acca <= res12[`LOBYTE];
2641
                        end
2642
                `RORB:
2643
                        begin
2644
                                cf <= res12c;
2645
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2646
                                nf <= res12[BPBM1];
2647
                                zf <= res12[`LOBYTE]==12'h000;
2648
                                accb <= res12[`LOBYTE];
2649
                        end
2650
                `ROR_DP,`ROR_NDX,`ROR_EXT:
2651
                        begin
2652
                                cf <= res12c;
2653
                                vf <= res12[BPBM1] ^ res12[bitsPerByte];
2654
                                nf <= res12[BPBM1];
2655
                                zf <= res12[`LOBYTE]==12'h000;
2656
                        end
2657
                `SBCA_IMM,`SBCA_DP,`SBCA_NDX,`SBCA_EXT:
2658
                        begin
2659
                                cf <= (~a[BPBM1]&b[BPBM1])|(res12[BPBM1]&~a[BPBM1])|(res12[BPBM1]&b[BPBM1]);
2660
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2661
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2662
                                nf <= res12[BPBM1];
2663
                                zf <= res12[`LOBYTE]==12'h000;
2664
                                acca <= res12[`LOBYTE];
2665
                        end
2666
                `SBCB_IMM,`SBCB_DP,`SBCB_NDX,`SBCB_EXT:
2667
                        begin
2668
                                cf <= (~a[BPBM1]&b[BPBM1])|(res12[BPBM1]&~a[BPBM1])|(res12[BPBM1]&b[BPBM1]);
2669
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2670
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2671
                                nf <= res12[BPBM1];
2672
                                zf <= res12[`LOBYTE]==12'h000;
2673
                                accb <= res12[`LOBYTE];
2674
                        end
2675
                `SEX:
2676
                        begin
2677
                                vf <= 1'b0;
2678
                                nf <= res12n;
2679
                                zf <= res12z;
2680
                                acca <= res12[`LOBYTE];
2681
                        end
2682
                `STA_DP,`STA_NDX,`STA_EXT,
2683
                `STB_DP,`STB_NDX,`STB_EXT:
2684
                        begin
2685
                                vf <= 1'b0;
2686
                                zf <= res12z;
2687
                                nf <= res12n;
2688
                        end
2689
                `STD_DP,`STD_NDX,`STD_EXT,
2690
                `STU_DP,`STU_NDX,`STU_EXT,
2691
                `STX_DP,`STX_NDX,`STX_EXT,
2692
                `STY_DP,`STY_NDX,`STY_EXT:
2693
                        begin
2694
                                vf <= 1'b0;
2695
                                zf <= res24z;
2696
                                nf <= res24n;
2697
                        end
2698
                `TFR:
2699
                        begin
2700
                                case(ir[bitsPerByte+3:bitsPerByte])
2701
                                4'b0000:
2702
                                                        begin
2703
                                                                acca <= src1[`HIBYTE];
2704
                                                                accb <= src1[`LOBYTE];
2705
                                                        end
2706
                                4'b0001:        xr <= src1;
2707
                                4'b0010:        yr <= src1;
2708
                                4'b0011:        usp <= src1;
2709
                                4'b0100:        begin ssp <= src1; nmi_armed <= `TRUE; end
2710
                                4'b0101:        pc <= src1[`DBLBYTE];
2711
                                4'b1000:        acca <= src1[`LOBYTE];
2712
                                4'b1001:        accb <= src1[`LOBYTE];
2713
                                4'b1010:
2714
                                        begin
2715
                                                cf <= src1[0];
2716
                                                vf <= src1[1];
2717
                                                zf <= src1[2];
2718
                                                nf <= src1[3];
2719
                                                im <= src1[4];
2720
                                                hf <= src1[5];
2721
                                                firqim <= src1[6];
2722
                                                ef <= src1[7];
2723
                                        end
2724
                                4'b1011:        dpr <= src1[`LOBYTE];
2725
                                4'b1110:        usppg <= src1[`DBLBYTE];
2726
                                4'b1111:        ;
2727
                                default:        ;
2728
                                endcase
2729
                        end
2730
                `TSTA,`TSTB:
2731
                        begin
2732
                                vf <= 1'b0;
2733
                                nf <= res12n;
2734
                                zf <= res12z;
2735
                        end
2736
                `TSTD:
2737
                        begin
2738
                                vf <= 1'b0;
2739
                                nf <= res24n;
2740
                                zf <= res24z;
2741
                        end
2742
                `TST_DP,`TST_NDX,`TST_EXT:
2743
                        begin
2744
                                vf <= 1'b0;
2745
                                nf <= res12n;
2746
                                zf <= res12z;
2747
                        end
2748
                `SUBA_IMM,`SUBA_DP,`SUBA_NDX,`SUBA_EXT:
2749
                        begin
2750
                                acca <= res12[`LOBYTE];
2751
                                nf <= res12n;
2752
                                zf <= res12z;
2753
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2754
                                cf <= res12c;
2755
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2756
                        end
2757
                `SUBB_IMM,`SUBB_DP,`SUBB_NDX,`SUBB_EXT:
2758
                        begin
2759
                                accb <= res12[`LOBYTE];
2760
                                nf <= res12n;
2761
                                zf <= res12z;
2762
                                vf <= (1'b1 ^ res12[BPBM1] ^ b[BPBM1]) & (a[BPBM1] ^ b[BPBM1]);
2763
                                cf <= res12c;
2764
                                hf <= (~a[`HCBIT]&b[`HCBIT])|(res12[`HCBIT]&~a[`HCBIT])|(res12[`HCBIT]&b[`HCBIT]);
2765
                        end
2766
                `SUBD_IMM,`SUBD_DP,`SUBD_NDX,`SUBD_EXT:
2767
                        begin
2768
                                cf <= res24c;
2769
                                vf <= (1'b1 ^ res[BPBX2M1] ^ b[BPBX2M1]) & (a[BPBX2M1] ^ b[BPBX2M1]);
2770
                                nf <= res[BPBX2M1];
2771
                                zf <= res[`DBLBYTE]==24'h000000;
2772
                                acca <= res[`HIBYTE];
2773
                                accb <= res[`LOBYTE];
2774
                        end
2775
                endcase
2776
        end
2777
end
2778
endtask
2779
 
2780
task dp_store;
2781
input [5:0] stw;
2782
begin
2783
        store_what <= stw;
2784
        wadr <= dp_address;
2785
        pc <= pc + 2'd2;
2786
        next_state(STORE1);
2787
end
2788
endtask
2789
 
2790
task indexed_store;
2791
input [5:0] stw;
2792
begin
2793
        store_what <= stw;
2794
        pc <= pc + insnsz;
2795
        if (isIndirect) begin
2796
                load_what <= isFar ? `LW_IA2316 : `LW_IAH;
2797
                radr <= NdxAddr;
2798
                next_state(LOAD1);
2799
        end
2800
        else begin
2801
                wadr <= NdxAddr;
2802
                next_state(STORE1);
2803
        end
2804
end
2805
endtask
2806
 
2807
task ex_store;
2808
input [5:0] stw;
2809
begin
2810
        pc <= pc + (isFar ? 3'd4 : 3'd3);
2811
        store_what <= stw;
2812
        wadr <= ex_address;
2813
        next_state(STORE1);
2814
end
2815
endtask
2816
 
2817
task next_state;
2818
input [5:0] st;
2819
begin
2820
        state <= st;
2821
end
2822
endtask
2823
 
2824
task wb_burst;
2825
input [5:0] len;
2826
input [bitsPerByte*2-1:0] adr;
2827
begin
2828
        if (!tsc) begin
2829
                bte_o <= 2'b00;
2830
                cti_o <= 3'b001;
2831
                bl_o <= len;
2832
                cyc_o <= 1'b1;
2833
                stb_o <= 1'b1;
2834
                adr_o <= adr;
2835
        end
2836
end
2837
endtask
2838
 
2839
task wb_read;
2840
input [`TRPBYTE] adr;
2841
begin
2842
        if (!tsc) begin
2843
                cyc_o <= 1'b1;
2844
                stb_o <= 1'b1;
2845
                adr_o <= adr;
2846
        end
2847
end
2848
endtask
2849
 
2850
task wb_write;
2851
input [`TRPBYTE] adr;
2852
input [`LOBYTE] dat;
2853
begin
2854
        if (!tsc) begin
2855
                cyc_o <= 1'b1;
2856
                stb_o <= 1'b1;
2857
                we_o <= 1'b1;
2858
                adr_o <= adr;
2859
                dat_o <= dat;
2860
        end
2861
end
2862
endtask
2863
 
2864
task wb_nack;
2865
begin
2866
        cti_o <= 3'b000;
2867
        bl_o <= 6'd0;
2868
        cyc_o <= 1'b0;
2869
        stb_o <= 1'b0;
2870
        we_o <= 1'b0;
2871
        adr_o <= 24'd0;
2872
        dat_o <= 12'd0;
2873
end
2874
endtask
2875
 
2876
task load_tsk;
2877
input [`LOBYTE] dat;
2878
begin
2879
        case(load_what)
2880
        `LW_BH:
2881
                        begin
2882
                                radr <= radr + 2'd1;
2883
                                b[`HIBYTE] <= dat;
2884
                                load_what <= `LW_BL;
2885
                                next_state(LOAD1);
2886
                        end
2887
        `LW_BL:
2888
                        begin
2889
                                // Don't increment address here for the benefit of the memory
2890
                                // operate instructions which set wadr=radr in CALC.
2891
                                b[`LOBYTE] <= dat;
2892
                                next_state(CALC);
2893
                        end
2894
        `LW_CCR:        begin
2895
                                next_state(PULL1);
2896
                                radr <= radr + 2'd1;
2897
                                cf <= dat[0];
2898
                                vf <= dat[1];
2899
                                zf <= dat[2];
2900
                                nf <= dat[3];
2901
                                im <= dat[4];
2902
                                hf <= dat[5];
2903
                                firqim <= dat[6];
2904
                                ef <= dat[7];
2905
                                if (isRTI) begin
2906
                                        $display("loaded ccr=%b", dat);
2907
                                        ir[`HIBYTE] <= dat[7] ? 12'hFE : 12'h80;
2908
                                        ssp <= ssp + 2'd1;
2909
                                end
2910
                                else if (isPULS)
2911
                                        ssp <= ssp + 2'd1;
2912
                                else if (isPULU)
2913
                                        usp <= usp + 2'd1;
2914
                        end
2915
        `LW_ACCA:       begin
2916
                                acca <= dat;
2917
                                radr <= radr + 2'd1;
2918
                                if (isRTI) begin
2919
                                        $display("loaded acca=%h from %h", dat, radr);
2920
                                        ssp <= ssp + 2'd1;
2921
                                        next_state(PULL1);
2922
                                end
2923
                                else if (isPULU) begin
2924
                                        usp <= usp + 2'd1;
2925
                                        next_state(PULL1);
2926
                                end
2927
                                else if (isPULS) begin
2928
                                        ssp <= ssp + 2'd1;
2929
                                        next_state(PULL1);
2930
                                end
2931
                                else
2932
                                        next_state(IFETCH);
2933
                        end
2934
        `LW_ACCB:       begin
2935
                                accb <= dat;
2936
                                radr <= radr + 2'd1;
2937
                                if (isRTI) begin
2938
                                        $display("loaded accb=%h from ", dat, radr);
2939
                                        ssp <= ssp + 2'd1;
2940
                                        next_state(PULL1);
2941
                                end
2942
                                else if (isPULU) begin
2943
                                        usp <= usp + 2'd1;
2944
                                        next_state(PULL1);
2945
                                end
2946
                                else if (isPULS) begin
2947
                                        ssp <= ssp + 2'd1;
2948
                                        next_state(PULL1);
2949
                                end
2950
                                else
2951
                                        next_state(IFETCH);
2952
                        end
2953
        `LW_DPR:        begin
2954
                                dpr <= dat;
2955
                                radr <= radr + 2'd1;
2956
                                if (isRTI) begin
2957
                                        $display("loaded dpr=%h from %h", dat, radr);
2958
                                        ssp <= ssp + 2'd1;
2959
                                        next_state(PULL1);
2960
                                end
2961
                                else if (isPULU) begin
2962
                                        usp <= usp + 2'd1;
2963
                                        next_state(PULL1);
2964
                                end
2965
                                else if (isPULS) begin
2966
                                        ssp <= ssp + 2'd1;
2967
                                        next_state(PULL1);
2968
                                end
2969
                                else
2970
                                        next_state(IFETCH);
2971
                        end
2972
        `LW_XH: begin
2973
                                load_what <= `LW_XL;
2974
                                next_state(LOAD1);
2975
                                xr[`HIBYTE] <= dat;
2976
                                radr <= radr + 2'd1;
2977
                                if (isRTI) begin
2978
                                        $display("loaded XH=%h from %h", dat, radr);
2979
                                        ssp <= ssp + 2'd1;
2980
                                end
2981
                                else if (isPULU) begin
2982
                                        usp <= usp + 2'd1;
2983
                                end
2984
                                else if (isPULS) begin
2985
                                        ssp <= ssp + 2'd1;
2986
                                end
2987
                        end
2988
        `LW_XL: begin
2989
                                xr[`LOBYTE] <= dat;
2990
                                radr <= radr + 2'd1;
2991
                                if (isRTI) begin
2992
                                        $display("loaded XL=%h from %h", dat, radr);
2993
                                        ssp <= ssp + 2'd1;
2994
                                        next_state(PULL1);
2995
                                end
2996
                                else if (isPULU) begin
2997
                                        usp <= usp + 2'd1;
2998
                                        next_state(PULL1);
2999
                                end
3000
                                else if (isPULS) begin
3001
                                        ssp <= ssp + 2'd1;
3002
                                        next_state(PULL1);
3003
                                end
3004
                                else
3005
                                        next_state(IFETCH);
3006
                        end
3007
        `LW_YH:
3008
                        begin
3009
                                load_what <= `LW_YL;
3010
                                next_state(LOAD1);
3011
                                yr[`HIBYTE] <= dat;
3012
                                radr <= radr + 2'd1;
3013
                                if (isRTI) begin
3014
                                        $display("loadded YH=%h", dat);
3015
                                        ssp <= ssp + 2'd1;
3016
                                end
3017
                                else if (isPULU) begin
3018
                                        usp <= usp + 2'd1;
3019
                                end
3020
                                else if (isPULS) begin
3021
                                        ssp <= ssp + 2'd1;
3022
                                end
3023
                        end
3024
        `LW_YL: begin
3025
                                yr[`LOBYTE] <= dat;
3026
                                radr <= radr + 2'd1;
3027
                                if (isRTI) begin
3028
                                        $display("loadded YL=%h", dat);
3029
                                        ssp <= ssp + 2'd1;
3030
                                        next_state(PULL1);
3031
                                end
3032
                                else if (isPULU) begin
3033
                                        usp <= usp + 2'd1;
3034
                                        next_state(PULL1);
3035
                                end
3036
                                else if (isPULS) begin
3037
                                        ssp <= ssp + 2'd1;
3038
                                        next_state(PULL1);
3039
                                end
3040
                                else
3041
                                        next_state(IFETCH);
3042
                        end
3043
        `LW_USPH:       begin
3044
                                load_what <= `LW_USPL;
3045
                                next_state(LOAD1);
3046
                                usp[`HIBYTE] <= dat;
3047
                                radr <= radr + 2'd1;
3048
                                if (isRTI) begin
3049
                                        $display("loadded USPH=%h", dat);
3050
                                        ssp <= ssp + 2'd1;
3051
                                end
3052
                                else if (isPULS) begin
3053
                                        ssp <= ssp + 2'd1;
3054
                                end
3055
                        end
3056
        `LW_USPL:       begin
3057
                                usp[`LOBYTE] <= dat;
3058
                                radr <= radr + 2'd1;
3059
                                if (isRTI) begin
3060
                                        $display("loadded USPL=%h", dat);
3061
                                        ssp <= ssp + 2'd1;
3062
                                        next_state(PULL1);
3063
                                end
3064
                                else if (isPULS) begin
3065
                                        ssp <= ssp + 2'd1;
3066
                                        next_state(PULL1);
3067
                                end
3068
                                else
3069
                                        next_state(IFETCH);
3070
                        end
3071
        `LW_SSPH:       begin
3072
                                load_what <= `LW_SSPL;
3073
                                next_state(LOAD1);
3074
                                ssp[`HIBYTE] <= dat;
3075
                                radr <= radr + 2'd1;
3076
                                if (isRTI) begin
3077
                                        ssp <= ssp + 2'd1;
3078
                                end
3079
                                else if (isPULU) begin
3080
                                        usp <= usp + 2'd1;
3081
                                end
3082
                        end
3083
        `LW_SSPL:       begin
3084
                                ssp[`LOBYTE] <= dat;
3085
                                radr <= radr + 2'd1;
3086
                                if (isRTI) begin
3087
                                        ssp <= ssp + 2'd1;
3088
                                        next_state(PULL1);
3089
                                end
3090
                                else if (isPULU) begin
3091
                                        usp <= usp + 2'd1;
3092
                                        next_state(PULL1);
3093
                                end
3094
                                else
3095
                                        next_state(IFETCH);
3096
                        end
3097
        `LW_PCL:        begin
3098
                                pc[`LOBYTE] <= dat;
3099
                                radr <= radr + 2'd1;
3100
                                if (isRTI|isRTS|isPULS) begin
3101
                                        $display("loadded PCL=%h", dat);
3102
                                        ssp <= ssp + 2'd1;
3103
                                end
3104
                                else if (isPULU)
3105
                                        usp <= usp + 2'd1;
3106
                                next_state(IFETCH);
3107
                        end
3108
        `LW_PCH:        begin
3109
                                pc[`HIBYTE] <= dat;
3110
                                load_what <= `LW_PCL;
3111
                                radr <= radr + 2'd1;
3112
                                if (isRTI|isRTS|isPULS) begin
3113
                                        $display("loadded PCH=%h", dat);
3114
                                        ssp <= ssp + 2'd1;
3115
                                end
3116
                                else if (isPULU)
3117
                                        usp <= usp + 2'd1;
3118
                                next_state(LOAD1);
3119
                        end
3120
        `LW_PC2316:     begin
3121
                                pc[`BYTE3] <= dat;
3122
                                load_what <= `LW_PCH;
3123
                                radr <= radr + 16'd1;
3124
                                if (isRTI|isRTF|isPULS)
3125
                                        ssp <= ssp + 16'd1;
3126
                                else if (isPULU)
3127
                                        usp <= usp + 16'd1;
3128
                                next_state(LOAD1);
3129
                        end
3130
        `LW_IAL:
3131
                        begin
3132
                                ia[`LOBYTE] <= dat;
3133
                                res[`LOBYTE] <= dat;
3134
                                radr <= {ia[`BYTE3],ia[`HIBYTE],dat};
3135
                                wadr <= {ia[`BYTE3],ia[`HIBYTE],dat};
3136
`ifdef SUPPORT_DBL_IND
3137
                                if (isDblIndirect) begin
3138
          load_what <= `LW_IAH;
3139
          next_state(LOAD1);
3140
          isDblIndirect <= `FALSE;
3141
                                end
3142
                                else
3143
`endif
3144
                                begin
3145
          load_what <= load_what2;
3146
          if (isOuterIndexed)
3147
              next_state(OUTER_INDEXING);
3148
          else begin
3149
              if (isLEA)
3150
                  next_state(IFETCH);
3151
              else if (isStore)
3152
                  next_state(STORE1);
3153
              else
3154
                  next_state(LOAD1);
3155
          end
3156
                                end
3157
                        end
3158
        `LW_IAH:
3159
                        begin
3160
                                ia[`HIBYTE] <= dat;
3161
                                res[`HIBYTE] <= dat;
3162
                                load_what <= `LW_IAL;
3163
                                radr <= radr + 2'd1;
3164
                                next_state(LOAD1);
3165
                        end
3166
        `LW_IA2316:
3167
                        begin
3168
                                ia[`BYTE3] <= dat;
3169
                                load_what <= `LW_IAH;
3170
                                radr <= radr + 32'd1;
3171
                                next_state(LOAD1);
3172
                        end
3173
        endcase
3174
end
3175
endtask
3176
 
3177
endmodule
3178
 
3179
// ============================================================================
3180
// Cache Memories
3181
// ============================================================================
3182
module rf6809_icachemem(wclk, wce, wr, wa, i, rclk, rce, pc, insn);
3183
input wclk;
3184
input wce;
3185
input wr;
3186
input [11:0] wa;
3187
input [BPB*16-1:0] i;
3188
input rclk;
3189
input rce;
3190
input [11:0] pc;
3191
output [`HEXBYTE] insn;
3192
reg [`HEXBYTE] insn;
3193
 
3194
integer n;
3195
reg [BPB*16-1:0] mem [0:255];
3196
reg [11:0] rpc,rpcp16;
3197
initial begin
3198
        for (n = 0; n < 256; n = n + 1)
3199
                mem[n] = {16{`NOP}};
3200
end
3201
 
3202
always_ff @(posedge wclk)
3203
        if (wce & wr) mem[wa[11:4]] <= i;
3204
 
3205
always_ff @(posedge rclk)
3206
        if (rce) rpc <= pc;
3207
always_ff @(posedge rclk)
3208
        if (rce) rpcp16 <= pc + 5'd16;
3209
wire [BPB*16-1:0] insn0 = mem[rpc[11:4]];
3210
wire [BPB*16-1:0] insn1 = mem[rpcp16[11:4]];
3211
always_comb
3212
        insn = {insn1,insn0} >> ({4'h0,rpc[3:0]} * BPB);
3213
 
3214
endmodule
3215
 
3216
module rf6809_itagmem(wclk, wce, wr, wa, invalidate, rclk, rce, pc, hit0, hit1);
3217
input wclk;
3218
input wce;
3219
input wr;
3220
input [`TRPBYTE] wa;
3221
input invalidate;
3222
input rclk;
3223
input rce;
3224
input [`TRPBYTE] pc;
3225
output hit0;
3226
output hit1;
3227
 
3228
integer n;
3229
reg [BPB*3-1:12] mem [0:255];
3230
reg [0:255] tvalid = 256'd0;
3231
reg [`TRPBYTE] rpc,rpcp16;
3232
wire [BPB*3-1:11] tag0,tag1;
3233
initial begin
3234
        for (n = 0; n < 256; n = n + 1)
3235
                mem[n] = {BPB*2{1'b0}};
3236
end
3237
 
3238
always_ff @(posedge wclk)
3239
        if (wce & wr) mem[wa[11:4]] <= wa[BPB*3-1:12];
3240
always_ff @(posedge wclk)
3241
        if (invalidate) tvalid <= 256'd0;
3242
        else if (wce & wr) tvalid[wa[11:4]] <= 1'b1;
3243
always_ff @(posedge rclk)
3244
        if (rce) rpc <= pc;
3245
always_ff @(posedge rclk)
3246
        if (rce) rpcp16 <= pc + 5'd16;
3247
assign tag0 = {mem[rpc[11:4]],tvalid[rpc[11:4]]};
3248
assign tag1 = {mem[rpcp16[11:4]],tvalid[rpcp16[11:4]]};
3249
 
3250
assign hit0 = tag0 == {rpc[BPB*3-1:12],1'b1};
3251
assign hit1 = tag1 == {rpcp16[BPB*3-1:12],1'b1};
3252
 
3253
endmodule
3254
 

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