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Commit	Line	Data
	1	`include "ARM_Constants.v"
	2
	3	module Memory(
	4	input clk,
	5	input Nrst,
	6
	7	input flush,
	8
	9	/* bus interface */
	10	output reg [31:0] busaddr,
	11	output reg rd_req,
	12	output reg wr_req,
	13	input rw_wait,
	14	output reg [31:0] wr_data,
	15	input [31:0] rd_data,
	16	output reg [2:0] data_size,
	17
	18	/* regfile interface */
	19	output reg [3:0] st_read,
	20	input [31:0] st_data,
	21
	22	/* Coprocessor interface */
	23	output reg cp_req,
	24	input cp_ack,
	25	input cp_busy,
	26	output reg cp_rnw, /* 1 = read from CP, 0 = write to CP */
	27	input [31:0] cp_read,
	28	output reg [31:0] cp_write,
	29
	30	/* stage inputs */
	31	input inbubble,
	32	input [31:0] pc,
	33	input [31:0] insn,
	34	input [31:0] op0,
	35	input [31:0] op1,
	36	input [31:0] op2,
	37	input [31:0] spsr,
	38	input [31:0] cpsr,
	39	input cpsrup,
	40	input write_reg,
	41	input [3:0] write_num,
	42	input [31:0] write_data,
	43
	44	/* outputs */
	45	output reg outstall,
	46	output reg outbubble,
	47	output reg [31:0] outpc,
	48	output reg [31:0] outinsn,
	49	output reg out_write_reg = 1'b0,
	50	output reg [3:0] out_write_num = 4'bxxxx,
	51	output reg [31:0] out_write_data = 32'hxxxxxxxx,
	52	output reg [31:0] outspsr = 32'hxxxxxxxx,
	53	output reg [31:0] outcpsr = 32'hxxxxxxxx,
	54	output reg outcpsrup = 1'hx
	55	);
	56
	57	reg [31:0] addr, raddr, prev_raddr, next_regdata, next_outcpsr;
	58	reg next_outcpsrup;
	59	reg [31:0] prevaddr;
	60	reg [3:0] next_regsel, cur_reg, prev_reg;
	61	reg next_writeback;
	62
	63	reg next_outbubble;
	64	reg next_write_reg;
	65	reg [3:0] next_write_num;
	66	reg [31:0] next_write_data;
	67
	68	reg [3:0] lsr_state = 4'b0001, next_lsr_state;
	69	reg [31:0] align_s1, align_s2, align_rddata;
	70
	71	reg [2:0] lsrh_state = 3'b001, next_lsrh_state;
	72	reg [31:0] lsrh_rddata;
	73	reg [15:0] lsrh_rddata_s1;
	74	reg [7:0] lsrh_rddata_s2;
	75
	76	reg [15:0] regs, next_regs;
	77	reg [3:0] lsm_state = 4'b0001, next_lsm_state;
	78	reg [5:0] offset, prev_offset, offset_sel;
	79
	80	reg [31:0] swp_oldval, next_swp_oldval;
	81	reg [1:0] swp_state = 2'b01, next_swp_state;
	82
	83	reg do_rd_data_latch;
	84	reg [31:0] rd_data_latch = 32'hxxxxxxxx;
	85
	86	always @(posedge clk)
	87	begin
	88	outpc <= pc;
	89	outinsn <= insn;
	90	outbubble <= next_outbubble;
	91	out_write_reg <= next_write_reg;
	92	out_write_num <= next_write_num;
	93	out_write_data <= next_write_data;
	94	regs <= next_regs;
	95	prev_reg <= cur_reg;
	96	if (!rw_wait)
	97	prev_offset <= offset;
	98	prev_raddr <= raddr;
	99	outcpsr <= next_outcpsr;
	100	outspsr <= spsr;
	101	outcpsrup <= next_outcpsrup;
	102	swp_state <= next_swp_state;
	103	lsm_state <= next_lsm_state;
	104	lsr_state <= next_lsr_state;
	105	lsrh_state <= next_lsrh_state;
	106	if (do_rd_data_latch)
	107	rd_data_latch <= rd_data;
	108	prevaddr <= addr;
	109	end
	110
	111	reg delayedflush = 0;
	112	always @(posedge clk)
	113	if (flush && outstall /* halp! I can't do it now, maybe later? */)
	114	delayedflush <= 1;
	115	else if (!outstall /* anything has been handled this time around */)
	116	delayedflush <= 0;
	117
	118	always @(*)
	119	begin
	120	addr = prevaddr;
	121	raddr = 32'hxxxxxxxx;
	122	rd_req = 1'b0;
	123	wr_req = 1'b0;
	124	wr_data = 32'hxxxxxxxx;
	125	busaddr = 32'hxxxxxxxx;
	126	data_size = 3'bxxx;
	127	outstall = 1'b0;
	128	do_rd_data_latch = 0;
	129	next_write_reg = write_reg;
	130	next_write_num = write_num;
	131	next_write_data = write_data;
	132	next_outbubble = inbubble;
	133	next_regs = regs;
	134	cp_req = 1'b0;
	135	cp_rnw = 1'bx;
	136	cp_write = 32'hxxxxxxxx;
	137	offset = prev_offset;
	138	next_outcpsr = lsm_state == 4'b0010 ? outcpsr : cpsr;
	139	next_outcpsrup = cpsrup;
	140	lsrh_rddata = 32'hxxxxxxxx;
	141	lsrh_rddata_s1 = 16'hxxxx;
	142	lsrh_rddata_s2 = 8'hxx;
	143	next_lsm_state = lsm_state;
	144	next_lsr_state = lsr_state;
	145	next_lsrh_state = lsrh_state;
	146	next_swp_oldval = swp_oldval;
	147	next_swp_state = swp_state;
	148	cur_reg = prev_reg;
	149
	150	/* XXX shit not given about endianness */
	151	casez(insn)
	152	`DECODE_ALU_SWP: if(!inbubble) begin
	153	outstall = rw_wait;
	154	next_outbubble = rw_wait;
	155	busaddr = {op0[31:2], 2'b0};
	156	data_size = insn[22] ? 3'b001 : 3'b100;
	157	case(swp_state)
	158	2'b01: begin
	159	rd_req = 1'b1;
	160	outstall = 1'b1;
	161	if(!rw_wait) begin
	162	next_swp_state = 2'b10;
	163	next_swp_oldval = rd_data;
	164	end
	165	$display("SWP: read stage");
	166	end
	167	2'b10: begin
	168	wr_req = 1'b1;
	169	wr_data = insn[22] ? {4{op1[7:0]}} : op1;
	170	next_write_reg = 1'b1;
	171	next_write_num = insn[15:12];
	172	next_write_data = insn[22] ? {24'b0, swp_oldval[7:0]} : swp_oldval;
	173	if(!rw_wait)
	174	next_swp_state = 2'b01;
	175	$display("SWP: write stage");
	176	end
	177	default: begin end
	178	endcase
	179	end
	180	`DECODE_ALU_MULT: begin end
	181	`DECODE_ALU_HDATA_REG,
	182	`DECODE_ALU_HDATA_IMM: if(!inbubble) begin
	183	next_outbubble = rw_wait;
	184	outstall = rw_wait;
	185	addr = insn[23] ? op0 + op1 : op0 - op1; /* up/down select */
	186	raddr = insn[24] ? op0 : addr; /* pre/post increment */
	187	busaddr = raddr;
	188	/* rotate to correct position */
	189	case(insn[6:5])
	190	2'b00: begin end /* swp */
	191	2'b01: begin /* unsigned half */
	192	wr_data = {2{op2[15:0]}}; /* XXX need to store halfword */
	193	data_size = 3'b010;
	194	lsrh_rddata = {16'b0, raddr[1] ? rd_data[31:16] : rd_data[15:0]};
	195	end
	196	2'b10: begin /* signed byte */
	197	wr_data = {4{op2[7:0]}};
	198	data_size = 3'b001;
	199	lsrh_rddata_s1 = raddr[1] ? rd_data[31:16] : rd_data[15:0];
	200	lsrh_rddata_s2 = raddr[0] ? lsrh_rddata_s1[15:8] : lsrh_rddata_s1[7:0];
	201	lsrh_rddata = {{24{lsrh_rddata_s2[7]}}, lsrh_rddata_s2};
	202	end
	203	2'b11: begin /* signed half */
	204	wr_data = {2{op2[15:0]}};
	205	data_size = 3'b010;
	206	lsrh_rddata = raddr[1] ? {{16{rd_data[31]}}, rd_data[31:16]} : {{16{rd_data[15]}}, rd_data[15:0]};
	207	end
	208	endcase
	209
	210	case(lsrh_state)
	211	3'b001: begin
	212	rd_req = insn[20];
	213	wr_req = ~insn[20];
	214	next_write_num = insn[15:12];
	215	next_write_data = lsrh_rddata;
	216	if(insn[20]) begin
	217	next_write_reg = 1'b1;
	218	end
	219	if(insn[21] \| !insn[24]) begin
	220	outstall = 1'b1;
	221	if(!rw_wait)
	222	next_lsrh_state = 3'b010;
	223	end
	224	$display("ALU_LDRSTRH: rd_req %d, wr_req %d", rd_req, wr_req);
	225	end
	226	3'b010: begin
	227	next_outbubble = 1'b0;
	228	next_write_reg = 1'b1;
	229	next_write_num = insn[19:16];
	230	next_write_data = addr;
	231	next_lsrh_state = 3'b100;
	232	end
	233	3'b100: begin
	234	outstall = 0;
	235	next_lsrh_state = 3'b001;
	236	end
	237	default: begin end
	238	endcase
	239
	240	if ((lsrh_state == 3'b001) && flush) begin /* Reject it. */
	241	outstall = 1'b0;
	242	next_lsrh_state = 3'b001;
	243	end
	244	end
	245	`DECODE_LDRSTR_UNDEFINED: begin end
	246	`DECODE_LDRSTR: if(!inbubble) begin
	247	next_outbubble = rw_wait;
	248	outstall = rw_wait;
	249	addr = insn[23] ? op0 + op1 : op0 - op1; /* up/down select */
	250	raddr = insn[24] ? addr : op0; /* pre/post increment */
	251	busaddr = raddr;
	252	/* rotate to correct position */
	253	align_s1 = raddr[1] ? {rd_data[15:0], rd_data[31:16]} : rd_data;
	254	align_s2 = raddr[0] ? {align_s1[7:0], align_s1[31:8]} : align_s1;
	255	/* select byte or word */
	256	align_rddata = insn[22] ? {24'b0, align_s2[7:0]} : align_s2;
	257	wr_data = insn[22] ? {24'h0, {op2[7:0]}} : op2;
	258	data_size = insn[22] ? 3'b001 : 3'b100;
	259	case(lsr_state)
	260	4'b0001: begin
	261	rd_req = insn[20] /* L / \|\| insn[22] / B */;
	262	wr_req = !insn[20] /* L / && !insn[22]/ B */;
	263	next_write_reg = insn[20] /* L */;
	264	next_write_num = insn[15:12];
	265	if(insn[20] /* L */) begin
	266	next_write_data = insn[22] /* B */ ? {24'h0, align_rddata[7:0]} : align_rddata;
	267	end
	268	if (insn[22] /* B / && !insn[20] / L */) begin
	269	do_rd_data_latch = 1;
	270	outstall = 1'b1;
	271	if (!rw_wait)
	272	next_lsr_state = 4'b0010; /* XXX: One-hot, my ass. */
	273	end else if(insn[21] /* W / \| !insn[24] / P */) begin
	274	outstall = 1'b1;
	275	if(!rw_wait)
	276	next_lsr_state = 4'b0100;
	277	end
	278	$display("LDRSTR: rd_req %d, wr_req %d, raddr %08x, wait %d", rd_req, wr_req, raddr, rw_wait);
	279	end
	280	4'b0010: begin
	281	$display("LDRSTR: Handling STRB");
	282	outstall = 1;
	283	rd_req = 0;
	284	wr_req = 1;
	285	next_write_reg = 0;
	286	case (busaddr[1:0])
	287	2'b00: wr_data = {rd_data_latch[31:8], op2[7:0]};
	288	2'b01: wr_data = {rd_data_latch[31:16], op2[7:0], rd_data_latch[7:0]};
	289	2'b10: wr_data = {rd_data_latch[31:24], op2[7:0], rd_data_latch[15:0]};
	290	2'b11: wr_data = {op2[7:0], rd_data_latch[23:0]};
	291	endcase
	292	if(insn[21] /* W / \| !insn[24] / P */) begin
	293	if(!rw_wait)
	294	next_lsr_state = 4'b0100;
	295	end else if (!rw_wait)
	296	next_lsr_state = 4'b1000;
	297	end
	298	4'b0100: begin
	299	outstall = 1;
	300	rd_req = 0;
	301	wr_req= 0;
	302	next_outbubble = 0;
	303	next_write_reg = 1'b1;
	304	next_write_num = insn[19:16];
	305	next_write_data = addr;
	306	next_lsr_state = 4'b1000;
	307	end
	308	4'b1000: begin
	309	rd_req = 0;
	310	wr_req= 0;
	311	outstall = 0;
	312	next_lsr_state = 4'b0001;
	313	end
	314	default: begin end
	315	endcase
	316
	317	if ((lsr_state == 4'b0001) && flush) begin /* Reject it. */
	318	outstall = 1'b0;
	319	next_lsr_state = 4'b0001;
	320	end
	321	end
	322	/* XXX ldm/stm incorrect in that stupid case where one of the listed regs is the base reg */
	323	`DECODE_LDMSTM: if(!inbubble) begin
	324	outstall = rw_wait;
	325	next_outbubble = rw_wait;
	326	data_size = 3'b100;
	327	case(lsm_state)
	328	4'b0001: begin
	329	// next_regs = insn[23] ? op1[15:0] : op1[0:15];
	330	/** verilator can suck my dick */
	331	$display("LDMSTM: Round 1: base register: %08x, reg list %b", op0, op1[15:0]);
	332	next_regs = insn[23] /* U */ ? op1[15:0] : {op1[0], op1[1], op1[2], op1[3], op1[4], op1[5], op1[6], op1[7],
	333	op1[8], op1[9], op1[10], op1[11], op1[12], op1[13], op1[14], op1[15]};
	334	offset = 6'b0;
	335	outstall = 1'b1;
	336	next_lsm_state = 4'b0010;
	337	end
	338	4'b0010: begin
	339	rd_req = insn[20];
	340	wr_req = ~insn[20];
	341	casez(regs)
	342	16'b???????????????1: begin
	343	cur_reg = 4'h0;
	344	next_regs = {regs[15:1], 1'b0};
	345	end
	346	16'b??????????????10: begin
	347	cur_reg = 4'h1;
	348	next_regs = {regs[15:2], 2'b0};
	349	end
	350	16'b?????????????100: begin
	351	cur_reg = 4'h2;
	352	next_regs = {regs[15:3], 3'b0};
	353	end
	354	16'b????????????1000: begin
	355	cur_reg = 4'h3;
	356	next_regs = {regs[15:4], 4'b0};
	357	end
	358	16'b???????????10000: begin
	359	cur_reg = 4'h4;
	360	next_regs = {regs[15:5], 5'b0};
	361	end
	362	16'b??????????100000: begin
	363	cur_reg = 4'h5;
	364	next_regs = {regs[15:6], 6'b0};
	365	end
	366	16'b?????????1000000: begin
	367	cur_reg = 4'h6;
	368	next_regs = {regs[15:7], 7'b0};
	369	end
	370	16'b????????10000000: begin
	371	cur_reg = 4'h7;
	372	next_regs = {regs[15:8], 8'b0};
	373	end
	374	16'b???????100000000: begin
	375	cur_reg = 4'h8;
	376	next_regs = {regs[15:9], 9'b0};
	377	end
	378	16'b??????1000000000: begin
	379	cur_reg = 4'h9;
	380	next_regs = {regs[15:10], 10'b0};
	381	end
	382	16'b?????10000000000: begin
	383	cur_reg = 4'hA;
	384	next_regs = {regs[15:11], 11'b0};
	385	end
	386	16'b????100000000000: begin
	387	cur_reg = 4'hB;
	388	next_regs = {regs[15:12], 12'b0};
	389	end
	390	16'b???1000000000000: begin
	391	cur_reg = 4'hC;
	392	next_regs = {regs[15:13], 13'b0};
	393	end
	394	16'b??10000000000000: begin
	395	cur_reg = 4'hD;
	396	next_regs = {regs[15:14], 14'b0};
	397	end
	398	16'b?100000000000000: begin
	399	cur_reg = 4'hE;
	400	next_regs = {regs[15], 15'b0};
	401	end
	402	16'b1000000000000000: begin
	403	cur_reg = 4'hF;
	404	next_regs = 16'b0;
	405	end
	406	default: begin
	407	cur_reg = 4'hx;
	408	next_regs = 16'b0;
	409	end
	410	endcase
	411	cur_reg = insn[23] ? cur_reg : 4'hF - cur_reg;
	412	if(cur_reg == 4'hF && insn[22]) begin
	413	next_outcpsr = spsr;
	414	next_outcpsrup = 1;
	415	end
	416
	417	offset = prev_offset + 6'h4;
	418	offset_sel = insn[24] ? offset : prev_offset;
	419	raddr = insn[23] ? op0 + {26'b0, offset_sel} : op0 - {26'b0, offset_sel};
	420	if(insn[20]) begin
	421	next_write_reg = !rw_wait;
	422	next_write_num = cur_reg;
	423	next_write_data = rd_data;
	424	end
	425	if (rw_wait) begin
	426	next_regs = regs;
	427	cur_reg = prev_reg; /* whoops, do this one again */
	428	end
	429
	430	st_read = cur_reg;
	431	wr_data = (cur_reg == 4'hF) ? (pc + 12) : st_data;
	432	busaddr = raddr;
	433
	434	$display("LDMSTM: Stage 2: Writing: regs %b, next_regs %b, reg %d, wr_data %08x, addr %08x", regs, next_regs, cur_reg, wr_data, busaddr);
	435
	436	outstall = 1'b1;
	437
	438	if(next_regs == 16'b0) begin
	439	next_lsm_state = 4'b0100;
	440	end
	441	end
	442	4'b0100: begin
	443	outstall = 1;
	444	next_outbubble = 0;
	445	next_write_reg = insn[21] /* writeback */;
	446	next_write_num = insn[19:16];
	447	next_write_data = insn[23] ? op0 + {26'b0, prev_offset} : op0 - {26'b0, prev_offset};
	448	next_lsm_state = 4'b1000;
	449	$display("LDMSTM: Stage 3: Writing back");
	450	end
	451	4'b1000: begin
	452	outstall = 0;
	453	next_lsm_state = 4'b0001;
	454	end
	455	default: $stop;
	456	endcase
	457	if ((lsm_state == 4'b0001) && flush) begin /* Reject it. */
	458	outstall = 1'b0;
	459	next_lsm_state = 4'b0001;
	460	end
	461	$display("LDMSTM: Decoded, bubble %d, insn %08x, lsm state %b -> %b, stall %d", inbubble, insn, lsm_state, next_lsm_state, outstall);
	462	end
	463	`DECODE_LDCSTC: if(!inbubble) begin
	464	$display("WARNING: Unimplemented LDCSTC");
	465	end
	466	`DECODE_CDP: if(!inbubble) begin
	467	cp_req = 1;
	468	if (cp_busy) begin
	469	outstall = 1;
	470	next_outbubble = 1;
	471	end
	472	if (!cp_ack) begin
	473	/* XXX undefined instruction trap */
	474	$display("WARNING: Possible CDP undefined instruction");
	475	end
	476	end
	477	`DECODE_MRCMCR: if(!inbubble) begin
	478	cp_req = 1;
	479	cp_rnw = insn[20] /* L */;
	480	if (insn[20] == 0 /* store to coprocessor */)
	481	cp_write = op0;
	482	else begin
	483	if (insn[15:12] != 4'hF /* Fuck you ARM */) begin
	484	next_write_reg = 1'b1;
	485	next_write_num = insn[15:12];
	486	next_write_data = cp_read;
	487	end else begin
	488	next_outcpsr = {cp_read[31:28], cpsr[27:0]};
	489	next_outcpsrup = 1;
	490	end
	491	end
	492	if (cp_busy) begin
	493	outstall = 1;
	494	next_outbubble = 1;
	495	end
	496	if (!cp_ack) begin
	497	$display("WARNING: Possible MRCMCR undefined instruction: cp_ack %d, cp_busy %d",cp_ack, cp_busy);
	498	end
	499	$display("MRCMCR: ack %d, busy %d", cp_ack, cp_busy);
	500	end
	501	default: begin end
	502	endcase
	503
	504	if ((flush \|\| delayedflush) && !outstall)
	505	next_outbubble = 1'b1;
	506	end
	507	endmodule