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Initial commit of OpenSPARC T2 design and verification files.
[OpenSPARC-T2-DV] / verif / diag / assembly / peu / PCIeIommu4U64kTr.s
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86530b38
AT		 1/*
2* ========== Copyright Header Begin ==========================================
3*
4* OpenSPARC T2 Processor File: PCIeIommu4U64kTr.s
5* Copyright (C) 1995-2007 Sun Microsystems, Inc. All Rights Reserved
6* 4150 Network Circle, Santa Clara, California 95054, U.S.A.
7*
8* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
9*
10* This program is free software; you can redistribute it and/or modify
11* it under the terms of the GNU General Public License as published by
12* the Free Software Foundation; version 2 of the License.
13*
14* This program is distributed in the hope that it will be useful,
15* but WITHOUT ANY WARRANTY; without even the implied warranty of
16* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17* GNU General Public License for more details.
18*
19* You should have received a copy of the GNU General Public License
20* along with this program; if not, write to the Free Software
21* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
22*
23* For the avoidance of doubt, and except that if any non-GPL license
24* choice is available it will apply instead, Sun elects to use only
25* the General Public License version 2 (GPLv2) at this time for any
26* software where a choice of GPL license versions is made
27* available with the language indicating that GPLv2 or any later version
28* may be used, or where a choice of which version of the GPL is applied is
29* otherwise unspecified.
30*
31* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
32* CA 95054 USA or visit www.sun.com if you need additional information or
33* have any questions.
34*
35*
36* ========== Copyright Header End ============================================
37*/
38#define ENABLE_PCIE_LINK_TRAINING
39#define ENABLE_PCIE_MPS_512
40#define MAIN_PAGE_HV_ALSO
41
42#define H_HT0_Interrupt_0x60
43#define My_HT0_Interrupt_0x60 \
44 call my_trap_code; \
45 nop; \
46 retry; \
47 nop;
48
49#include "hboot.s"
50#include "peu_defines.h"
51#include "ncu_defines.h"
52
53#define MEM32_WR_ADDR mpeval(N2_PCIE_BASE_ADDR + MEM32_OFFSET_BASE_REG_DATA)
54
55#define DMA_DATA_ADDR 0x007f0000
56
57#define IOMMU_TTE_ADDR 0x40000000
58
59! Bit 8 = Page Size: 0=8KB, 1=64KB; Bits 3:0 = TSB Table size: 6=64k entries
60#define MMU_TSB_CNTRL_REG_DATA mpeval(IOMMU_TTE_ADDR | 0x100 | 6)
61
62
63/************************************************************************
64 Test case code start
65 ************************************************************************/
66.text
67.global main
68
69main:
70 ta T_CHANGE_HPRIV
71 nop
72
73! enable interrupts & provide basic handler
74#include "piu_rupt_enable.s"
75
76! enable SUN4U translation in the IOMMU
77
78 setx FIRE_DLC_MMU_CSR_A_CTL_ADDR, %g1, %g2
79 setx 0x00301, %g1, %g3 ! 9:8 11 = Cache enabled, 0: 1 = translation enabled
80 stx %g3, [%g2]
81 ldx [%g2], %g3
82
83! load address of the TSB table, and the page size (64KB)
84
85 setx FIRE_DLC_MMU_CSR_A_TSB_ADDR, %g1, %g2
86 setx MMU_TSB_CNTRL_REG_DATA, %g1, %g3
87 stx %g3, [%g2]
88 ldx [%g2], %g3
89
90! Trigger some DMA Reads of various lengths
91
92! Created 09/11/2005 17:27:05 by /home/somePerson/bin/genDMAs.pl
93 setx 0x007f0000, %g1, %g2 ! DMA start address
94 setx 0x00010000, %g1, %g3 ! page size
95#define DMA_ADDR_01 mpeval(0x007f0000 + 0,16,16)
96#define DMA_ADDR_02 mpeval(0x007f0000 + 64,16,16)
97#define DMA_ADDR_03 mpeval(0x007f0000 + 128,16,16)
98DMA0: nop
99! $EV trig_pc_d(1,@VA(.MAIN.DMA0)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_01, DMA_ADDR_02, "64'h100",1)
100 stx %g2, [%g2]
101 ldx [%g2 + 64], %g4
102 ldx [%g2 + 128], %g5
103 ldx [%g2 + 192], %g6
104 add %g2, %g3, %g2
105#define DMA_ADDR_11 mpeval(0x00800000 + 0,16,16)
106#define DMA_ADDR_12 mpeval(0x00800000 + 64,16,16)
107#define DMA_ADDR_13 mpeval(0x00800000 + 128,16,16)
108DMA1: nop
109! $EV trig_pc_d(1,@VA(.MAIN.DMA1)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_11, DMA_ADDR_12, "64'h100",1)
110 stx %g2, [%g2]
111 ldx [%g2 + 64], %g4
112 ldx [%g2 + 128], %g5
113 ldx [%g2 + 192], %g6
114 add %g2, %g3, %g2
115#define DMA_ADDR_21 mpeval(0x00810000 + 0,16,16)
116#define DMA_ADDR_22 mpeval(0x00810000 + 64,16,16)
117#define DMA_ADDR_23 mpeval(0x00810000 + 128,16,16)
118DMA2: nop
119! $EV trig_pc_d(1,@VA(.MAIN.DMA2)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_21, DMA_ADDR_22, "64'h100",1)
120 stx %g2, [%g2]
121 ldx [%g2 + 64], %g4
122 ldx [%g2 + 128], %g5
123 ldx [%g2 + 192], %g6
124 add %g2, %g3, %g2
125#define DMA_ADDR_31 mpeval(0x00820000 + 0,16,16)
126#define DMA_ADDR_32 mpeval(0x00820000 + 64,16,16)
127#define DMA_ADDR_33 mpeval(0x00820000 + 128,16,16)
128DMA3: nop
129! $EV trig_pc_d(1,@VA(.MAIN.DMA3)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_31, DMA_ADDR_32, "64'h100",1)
130 stx %g2, [%g2]
131 ldx [%g2 + 64], %g4
132 ldx [%g2 + 128], %g5
133 ldx [%g2 + 192], %g6
134 add %g2, %g3, %g2
135#define DMA_ADDR_41 mpeval(0x00830000 + 0,16,16)
136#define DMA_ADDR_42 mpeval(0x00830000 + 64,16,16)
137#define DMA_ADDR_43 mpeval(0x00830000 + 128,16,16)
138DMA4: nop
139! $EV trig_pc_d(1,@VA(.MAIN.DMA4)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_41, DMA_ADDR_42, "64'h100",1)
140 stx %g2, [%g2]
141 ldx [%g2 + 64], %g4
142 ldx [%g2 + 128], %g5
143 ldx [%g2 + 192], %g6
144 add %g2, %g3, %g2
145#define DMA_ADDR_51 mpeval(0x00840000 + 0,16,16)
146#define DMA_ADDR_52 mpeval(0x00840000 + 64,16,16)
147#define DMA_ADDR_53 mpeval(0x00840000 + 128,16,16)
148DMA5: nop
149! $EV trig_pc_d(1,@VA(.MAIN.DMA5)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_51, DMA_ADDR_52, "64'h100",1)
150 stx %g2, [%g2]
151 ldx [%g2 + 64], %g4
152 ldx [%g2 + 128], %g5
153 ldx [%g2 + 192], %g6
154 add %g2, %g3, %g2
155#define DMA_ADDR_61 mpeval(0x00850000 + 0,16,16)
156#define DMA_ADDR_62 mpeval(0x00850000 + 64,16,16)
157#define DMA_ADDR_63 mpeval(0x00850000 + 128,16,16)
158DMA6: nop
159! $EV trig_pc_d(1,@VA(.MAIN.DMA6)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_61, DMA_ADDR_62, "64'h100",1)
160 stx %g2, [%g2]
161 ldx [%g2 + 64], %g4
162 ldx [%g2 + 128], %g5
163 ldx [%g2 + 192], %g6
164 add %g2, %g3, %g2
165#define DMA_ADDR_71 mpeval(0x00860000 + 0,16,16)
166#define DMA_ADDR_72 mpeval(0x00860000 + 64,16,16)
167#define DMA_ADDR_73 mpeval(0x00860000 + 128,16,16)
168DMA7: nop
169! $EV trig_pc_d(1,@VA(.MAIN.DMA7)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_71, DMA_ADDR_72, "64'h100",1)
170 stx %g2, [%g2]
171 ldx [%g2 + 64], %g4
172 ldx [%g2 + 128], %g5
173 ldx [%g2 + 192], %g6
174 add %g2, %g3, %g2
175#define DMA_ADDR_81 mpeval(0x00870000 + 0,16,16)
176#define DMA_ADDR_82 mpeval(0x00870000 + 64,16,16)
177#define DMA_ADDR_83 mpeval(0x00870000 + 128,16,16)
178DMA8: nop
179! $EV trig_pc_d(1,@VA(.MAIN.DMA8)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_81, DMA_ADDR_82, "64'h100",1)
180 stx %g2, [%g2]
181 ldx [%g2 + 64], %g4
182 ldx [%g2 + 128], %g5
183 ldx [%g2 + 192], %g6
184 add %g2, %g3, %g2
185#define DMA_ADDR_91 mpeval(0x00880000 + 0,16,16)
186#define DMA_ADDR_92 mpeval(0x00880000 + 64,16,16)
187#define DMA_ADDR_93 mpeval(0x00880000 + 128,16,16)
188DMA9: nop
189! $EV trig_pc_d(1,@VA(.MAIN.DMA9)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_91, DMA_ADDR_92, "64'h100",1)
190 stx %g2, [%g2]
191 ldx [%g2 + 64], %g4
192 ldx [%g2 + 128], %g5
193 ldx [%g2 + 192], %g6
194 add %g2, %g3, %g2
195#define DMA_ADDR_101 mpeval(0x00890000 + 0,16,16)
196#define DMA_ADDR_102 mpeval(0x00890000 + 64,16,16)
197#define DMA_ADDR_103 mpeval(0x00890000 + 128,16,16)
198DMA10: nop
199! $EV trig_pc_d(1,@VA(.MAIN.DMA10)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_101, DMA_ADDR_102, "64'h100",1)
200 stx %g2, [%g2]
201 ldx [%g2 + 64], %g4
202 ldx [%g2 + 128], %g5
203 ldx [%g2 + 192], %g6
204 add %g2, %g3, %g2
205#define DMA_ADDR_111 mpeval(0x008a0000 + 0,16,16)
206#define DMA_ADDR_112 mpeval(0x008a0000 + 64,16,16)
207#define DMA_ADDR_113 mpeval(0x008a0000 + 128,16,16)
208DMA11: nop
209! $EV trig_pc_d(1,@VA(.MAIN.DMA11)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_111, DMA_ADDR_112, "64'h100",1)
210 stx %g2, [%g2]
211 ldx [%g2 + 64], %g4
212 ldx [%g2 + 128], %g5
213 ldx [%g2 + 192], %g6
214 add %g2, %g3, %g2
215#define DMA_ADDR_121 mpeval(0x008b0000 + 0,16,16)
216#define DMA_ADDR_122 mpeval(0x008b0000 + 64,16,16)
217#define DMA_ADDR_123 mpeval(0x008b0000 + 128,16,16)
218DMA12: nop
219! $EV trig_pc_d(1,@VA(.MAIN.DMA12)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_121, DMA_ADDR_122, "64'h100",1)
220 stx %g2, [%g2]
221 ldx [%g2 + 64], %g4
222 ldx [%g2 + 128], %g5
223 ldx [%g2 + 192], %g6
224 add %g2, %g3, %g2
225#define DMA_ADDR_131 mpeval(0x008c0000 + 0,16,16)
226#define DMA_ADDR_132 mpeval(0x008c0000 + 64,16,16)
227#define DMA_ADDR_133 mpeval(0x008c0000 + 128,16,16)
228DMA13: nop
229! $EV trig_pc_d(1,@VA(.MAIN.DMA13)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_131, DMA_ADDR_132, "64'h100",1)
230 stx %g2, [%g2]
231 ldx [%g2 + 64], %g4
232 ldx [%g2 + 128], %g5
233 ldx [%g2 + 192], %g6
234 add %g2, %g3, %g2
235#define DMA_ADDR_141 mpeval(0x008d0000 + 0,16,16)
236#define DMA_ADDR_142 mpeval(0x008d0000 + 64,16,16)
237#define DMA_ADDR_143 mpeval(0x008d0000 + 128,16,16)
238DMA14: nop
239! $EV trig_pc_d(1,@VA(.MAIN.DMA14)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_141, DMA_ADDR_142, "64'h100",1)
240 stx %g2, [%g2]
241 ldx [%g2 + 64], %g4
242 ldx [%g2 + 128], %g5
243 ldx [%g2 + 192], %g6
244 add %g2, %g3, %g2
245#define DMA_ADDR_151 mpeval(0x008e0000 + 0,16,16)
246#define DMA_ADDR_152 mpeval(0x008e0000 + 64,16,16)
247#define DMA_ADDR_153 mpeval(0x008e0000 + 128,16,16)
248DMA15: nop
249! $EV trig_pc_d(1,@VA(.MAIN.DMA15)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_151, DMA_ADDR_152, "64'h100",1)
250 stx %g2, [%g2]
251 ldx [%g2 + 64], %g4
252 ldx [%g2 + 128], %g5
253 ldx [%g2 + 192], %g6
254 add %g2, %g3, %g2
255#define DMA_ADDR_161 mpeval(0x008f0000 + 0,16,16)
256#define DMA_ADDR_162 mpeval(0x008f0000 + 64,16,16)
257#define DMA_ADDR_163 mpeval(0x008f0000 + 128,16,16)
258DMA16: nop
259! $EV trig_pc_d(1,@VA(.MAIN.DMA16)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_161, DMA_ADDR_162, "64'h100",1)
260 stx %g2, [%g2]
261 ldx [%g2 + 64], %g4
262 ldx [%g2 + 128], %g5
263 ldx [%g2 + 192], %g6
264 add %g2, %g3, %g2
265#define DMA_ADDR_171 mpeval(0x00900000 + 0,16,16)
266#define DMA_ADDR_172 mpeval(0x00900000 + 64,16,16)
267#define DMA_ADDR_173 mpeval(0x00900000 + 128,16,16)
268DMA17: nop
269! $EV trig_pc_d(1,@VA(.MAIN.DMA17)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_171, DMA_ADDR_172, "64'h100",1)
270 stx %g2, [%g2]
271 ldx [%g2 + 64], %g4
272 ldx [%g2 + 128], %g5
273 ldx [%g2 + 192], %g6
274 add %g2, %g3, %g2
275#define DMA_ADDR_181 mpeval(0x00910000 + 0,16,16)
276#define DMA_ADDR_182 mpeval(0x00910000 + 64,16,16)
277#define DMA_ADDR_183 mpeval(0x00910000 + 128,16,16)
278DMA18: nop
279! $EV trig_pc_d(1,@VA(.MAIN.DMA18)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_181, DMA_ADDR_182, "64'h100",1)
280 stx %g2, [%g2]
281 ldx [%g2 + 64], %g4
282 ldx [%g2 + 128], %g5
283 ldx [%g2 + 192], %g6
284 add %g2, %g3, %g2
285#define DMA_ADDR_191 mpeval(0x00920000 + 0,16,16)
286#define DMA_ADDR_192 mpeval(0x00920000 + 64,16,16)
287#define DMA_ADDR_193 mpeval(0x00920000 + 128,16,16)
288DMA19: nop
289! $EV trig_pc_d(1,@VA(.MAIN.DMA19)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_191, DMA_ADDR_192, "64'h100",1)
290 stx %g2, [%g2]
291 ldx [%g2 + 64], %g4
292 ldx [%g2 + 128], %g5
293 ldx [%g2 + 192], %g6
294 add %g2, %g3, %g2
295#define DMA_ADDR_201 mpeval(0x00930000 + 0,16,16)
296#define DMA_ADDR_202 mpeval(0x00930000 + 64,16,16)
297#define DMA_ADDR_203 mpeval(0x00930000 + 128,16,16)
298DMA20: nop
299! $EV trig_pc_d(1,@VA(.MAIN.DMA20)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_201, DMA_ADDR_202, "64'h100",1)
300 stx %g2, [%g2]
301 ldx [%g2 + 64], %g4
302 ldx [%g2 + 128], %g5
303 ldx [%g2 + 192], %g6
304 add %g2, %g3, %g2
305#define DMA_ADDR_211 mpeval(0x00940000 + 0,16,16)
306#define DMA_ADDR_212 mpeval(0x00940000 + 64,16,16)
307#define DMA_ADDR_213 mpeval(0x00940000 + 128,16,16)
308DMA21: nop
309! $EV trig_pc_d(1,@VA(.MAIN.DMA21)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_211, DMA_ADDR_212, "64'h100",1)
310 stx %g2, [%g2]
311 ldx [%g2 + 64], %g4
312 ldx [%g2 + 128], %g5
313 ldx [%g2 + 192], %g6
314 add %g2, %g3, %g2
315#define DMA_ADDR_221 mpeval(0x00950000 + 0,16,16)
316#define DMA_ADDR_222 mpeval(0x00950000 + 64,16,16)
317#define DMA_ADDR_223 mpeval(0x00950000 + 128,16,16)
318DMA22: nop
319! $EV trig_pc_d(1,@VA(.MAIN.DMA22)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_221, DMA_ADDR_222, "64'h100",1)
320 stx %g2, [%g2]
321 ldx [%g2 + 64], %g4
322 ldx [%g2 + 128], %g5
323 ldx [%g2 + 192], %g6
324 add %g2, %g3, %g2
325#define DMA_ADDR_231 mpeval(0x00960000 + 0,16,16)
326#define DMA_ADDR_232 mpeval(0x00960000 + 64,16,16)
327#define DMA_ADDR_233 mpeval(0x00960000 + 128,16,16)
328DMA23: nop
329! $EV trig_pc_d(1,@VA(.MAIN.DMA23)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_231, DMA_ADDR_232, "64'h100",1)
330 stx %g2, [%g2]
331 ldx [%g2 + 64], %g4
332 ldx [%g2 + 128], %g5
333 ldx [%g2 + 192], %g6
334 add %g2, %g3, %g2
335#define DMA_ADDR_241 mpeval(0x00970000 + 0,16,16)
336#define DMA_ADDR_242 mpeval(0x00970000 + 64,16,16)
337#define DMA_ADDR_243 mpeval(0x00970000 + 128,16,16)
338DMA24: nop
339! $EV trig_pc_d(1,@VA(.MAIN.DMA24)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_241, DMA_ADDR_242, "64'h100",1)
340 stx %g2, [%g2]
341 ldx [%g2 + 64], %g4
342 ldx [%g2 + 128], %g5
343 ldx [%g2 + 192], %g6
344 add %g2, %g3, %g2
345#define DMA_ADDR_251 mpeval(0x00980000 + 0,16,16)
346#define DMA_ADDR_252 mpeval(0x00980000 + 64,16,16)
347#define DMA_ADDR_253 mpeval(0x00980000 + 128,16,16)
348DMA25: nop
349! $EV trig_pc_d(1,@VA(.MAIN.DMA25)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_251, DMA_ADDR_252, "64'h100",1)
350 stx %g2, [%g2]
351 ldx [%g2 + 64], %g4
352 ldx [%g2 + 128], %g5
353 ldx [%g2 + 192], %g6
354 add %g2, %g3, %g2
355#define DMA_ADDR_261 mpeval(0x00990000 + 0,16,16)
356#define DMA_ADDR_262 mpeval(0x00990000 + 64,16,16)
357#define DMA_ADDR_263 mpeval(0x00990000 + 128,16,16)
358DMA26: nop
359! $EV trig_pc_d(1,@VA(.MAIN.DMA26)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_261, DMA_ADDR_262, "64'h100",1)
360 stx %g2, [%g2]
361 ldx [%g2 + 64], %g4
362 ldx [%g2 + 128], %g5
363 ldx [%g2 + 192], %g6
364 add %g2, %g3, %g2
365#define DMA_ADDR_271 mpeval(0x009a0000 + 0,16,16)
366#define DMA_ADDR_272 mpeval(0x009a0000 + 64,16,16)
367#define DMA_ADDR_273 mpeval(0x009a0000 + 128,16,16)
368DMA27: nop
369! $EV trig_pc_d(1,@VA(.MAIN.DMA27)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_271, DMA_ADDR_272, "64'h100",1)
370 stx %g2, [%g2]
371 ldx [%g2 + 64], %g4
372 ldx [%g2 + 128], %g5
373 ldx [%g2 + 192], %g6
374 add %g2, %g3, %g2
375#define DMA_ADDR_281 mpeval(0x009b0000 + 0,16,16)
376#define DMA_ADDR_282 mpeval(0x009b0000 + 64,16,16)
377#define DMA_ADDR_283 mpeval(0x009b0000 + 128,16,16)
378DMA28: nop
379! $EV trig_pc_d(1,@VA(.MAIN.DMA28)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_281, DMA_ADDR_282, "64'h100",1)
380 stx %g2, [%g2]
381 ldx [%g2 + 64], %g4
382 ldx [%g2 + 128], %g5
383 ldx [%g2 + 192], %g6
384 add %g2, %g3, %g2
385#define DMA_ADDR_291 mpeval(0x009c0000 + 0,16,16)
386#define DMA_ADDR_292 mpeval(0x009c0000 + 64,16,16)
387#define DMA_ADDR_293 mpeval(0x009c0000 + 128,16,16)
388DMA29: nop
389! $EV trig_pc_d(1,@VA(.MAIN.DMA29)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_291, DMA_ADDR_292, "64'h100",1)
390 stx %g2, [%g2]
391 ldx [%g2 + 64], %g4
392 ldx [%g2 + 128], %g5
393 ldx [%g2 + 192], %g6
394 add %g2, %g3, %g2
395#define DMA_ADDR_301 mpeval(0x009d0000 + 0,16,16)
396#define DMA_ADDR_302 mpeval(0x009d0000 + 64,16,16)
397#define DMA_ADDR_303 mpeval(0x009d0000 + 128,16,16)
398DMA30: nop
399! $EV trig_pc_d(1,@VA(.MAIN.DMA30)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_301, DMA_ADDR_302, "64'h100",1)
400 stx %g2, [%g2]
401 ldx [%g2 + 64], %g4
402 ldx [%g2 + 128], %g5
403 ldx [%g2 + 192], %g6
404 add %g2, %g3, %g2
405#define DMA_ADDR_311 mpeval(0x009e0000 + 0,16,16)
406#define DMA_ADDR_312 mpeval(0x009e0000 + 64,16,16)
407#define DMA_ADDR_313 mpeval(0x009e0000 + 128,16,16)
408DMA31: nop
409! $EV trig_pc_d(1,@VA(.MAIN.DMA31)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_311, DMA_ADDR_312, "64'h100",1)
410 stx %g2, [%g2]
411 ldx [%g2 + 64], %g4
412 ldx [%g2 + 128], %g5
413 ldx [%g2 + 192], %g6
414 add %g2, %g3, %g2
415#define DMA_ADDR_321 mpeval(0x009f0000 + 0,16,16)
416#define DMA_ADDR_322 mpeval(0x009f0000 + 64,16,16)
417#define DMA_ADDR_323 mpeval(0x009f0000 + 128,16,16)
418DMA32: nop
419! $EV trig_pc_d(1,@VA(.MAIN.DMA32)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_321, DMA_ADDR_322, "64'h100",1)
420 stx %g2, [%g2]
421 ldx [%g2 + 64], %g4
422 ldx [%g2 + 128], %g5
423 ldx [%g2 + 192], %g6
424 add %g2, %g3, %g2
425#define DMA_ADDR_331 mpeval(0x00a00000 + 0,16,16)
426#define DMA_ADDR_332 mpeval(0x00a00000 + 64,16,16)
427#define DMA_ADDR_333 mpeval(0x00a00000 + 128,16,16)
428DMA33: nop
429! $EV trig_pc_d(1,@VA(.MAIN.DMA33)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_331, DMA_ADDR_332, "64'h100",1)
430 stx %g2, [%g2]
431 ldx [%g2 + 64], %g4
432 ldx [%g2 + 128], %g5
433 ldx [%g2 + 192], %g6
434 add %g2, %g3, %g2
435#define DMA_ADDR_341 mpeval(0x00a10000 + 0,16,16)
436#define DMA_ADDR_342 mpeval(0x00a10000 + 64,16,16)
437#define DMA_ADDR_343 mpeval(0x00a10000 + 128,16,16)
438DMA34: nop
439! $EV trig_pc_d(1,@VA(.MAIN.DMA34)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_341, DMA_ADDR_342, "64'h100",1)
440 stx %g2, [%g2]
441 ldx [%g2 + 64], %g4
442 ldx [%g2 + 128], %g5
443 ldx [%g2 + 192], %g6
444 add %g2, %g3, %g2
445#define DMA_ADDR_351 mpeval(0x00a20000 + 0,16,16)
446#define DMA_ADDR_352 mpeval(0x00a20000 + 64,16,16)
447#define DMA_ADDR_353 mpeval(0x00a20000 + 128,16,16)
448DMA35: nop
449! $EV trig_pc_d(1,@VA(.MAIN.DMA35)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_351, DMA_ADDR_352, "64'h100",1)
450 stx %g2, [%g2]
451 ldx [%g2 + 64], %g4
452 ldx [%g2 + 128], %g5
453 ldx [%g2 + 192], %g6
454 add %g2, %g3, %g2
455#define DMA_ADDR_361 mpeval(0x00a30000 + 0,16,16)
456#define DMA_ADDR_362 mpeval(0x00a30000 + 64,16,16)
457#define DMA_ADDR_363 mpeval(0x00a30000 + 128,16,16)
458DMA36: nop
459! $EV trig_pc_d(1,@VA(.MAIN.DMA36)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_361, DMA_ADDR_362, "64'h100",1)
460 stx %g2, [%g2]
461 ldx [%g2 + 64], %g4
462 ldx [%g2 + 128], %g5
463 ldx [%g2 + 192], %g6
464 add %g2, %g3, %g2
465#define DMA_ADDR_371 mpeval(0x00a40000 + 0,16,16)
466#define DMA_ADDR_372 mpeval(0x00a40000 + 64,16,16)
467#define DMA_ADDR_373 mpeval(0x00a40000 + 128,16,16)
468DMA37: nop
469! $EV trig_pc_d(1,@VA(.MAIN.DMA37)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_371, DMA_ADDR_372, "64'h100",1)
470 stx %g2, [%g2]
471 ldx [%g2 + 64], %g4
472 ldx [%g2 + 128], %g5
473 ldx [%g2 + 192], %g6
474 add %g2, %g3, %g2
475#define DMA_ADDR_381 mpeval(0x00a50000 + 0,16,16)
476#define DMA_ADDR_382 mpeval(0x00a50000 + 64,16,16)
477#define DMA_ADDR_383 mpeval(0x00a50000 + 128,16,16)
478DMA38: nop
479! $EV trig_pc_d(1,@VA(.MAIN.DMA38)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_381, DMA_ADDR_382, "64'h100",1)
480 stx %g2, [%g2]
481 ldx [%g2 + 64], %g4
482 ldx [%g2 + 128], %g5
483 ldx [%g2 + 192], %g6
484 add %g2, %g3, %g2
485#define DMA_ADDR_391 mpeval(0x00a60000 + 0,16,16)
486#define DMA_ADDR_392 mpeval(0x00a60000 + 64,16,16)
487#define DMA_ADDR_393 mpeval(0x00a60000 + 128,16,16)
488DMA39: nop
489! $EV trig_pc_d(1,@VA(.MAIN.DMA39)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_391, DMA_ADDR_392, "64'h100",1)
490 stx %g2, [%g2]
491 ldx [%g2 + 64], %g4
492 ldx [%g2 + 128], %g5
493 ldx [%g2 + 192], %g6
494 add %g2, %g3, %g2
495#define DMA_ADDR_401 mpeval(0x00a70000 + 0,16,16)
496#define DMA_ADDR_402 mpeval(0x00a70000 + 64,16,16)
497#define DMA_ADDR_403 mpeval(0x00a70000 + 128,16,16)
498DMA40: nop
499! $EV trig_pc_d(1,@VA(.MAIN.DMA40)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_401, DMA_ADDR_402, "64'h100",1)
500 stx %g2, [%g2]
501 ldx [%g2 + 64], %g4
502 ldx [%g2 + 128], %g5
503 ldx [%g2 + 192], %g6
504 add %g2, %g3, %g2
505#define DMA_ADDR_411 mpeval(0x00a80000 + 0,16,16)
506#define DMA_ADDR_412 mpeval(0x00a80000 + 64,16,16)
507#define DMA_ADDR_413 mpeval(0x00a80000 + 128,16,16)
508DMA41: nop
509! $EV trig_pc_d(1,@VA(.MAIN.DMA41)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_411, DMA_ADDR_412, "64'h100",1)
510 stx %g2, [%g2]
511 ldx [%g2 + 64], %g4
512 ldx [%g2 + 128], %g5
513 ldx [%g2 + 192], %g6
514 add %g2, %g3, %g2
515#define DMA_ADDR_421 mpeval(0x00a90000 + 0,16,16)
516#define DMA_ADDR_422 mpeval(0x00a90000 + 64,16,16)
517#define DMA_ADDR_423 mpeval(0x00a90000 + 128,16,16)
518DMA42: nop
519! $EV trig_pc_d(1,@VA(.MAIN.DMA42)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_421, DMA_ADDR_422, "64'h100",1)
520 stx %g2, [%g2]
521 ldx [%g2 + 64], %g4
522 ldx [%g2 + 128], %g5
523 ldx [%g2 + 192], %g6
524 add %g2, %g3, %g2
525#define DMA_ADDR_431 mpeval(0x00aa0000 + 0,16,16)
526#define DMA_ADDR_432 mpeval(0x00aa0000 + 64,16,16)
527#define DMA_ADDR_433 mpeval(0x00aa0000 + 128,16,16)
528DMA43: nop
529! $EV trig_pc_d(1,@VA(.MAIN.DMA43)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_431, DMA_ADDR_432, "64'h100",1)
530 stx %g2, [%g2]
531 ldx [%g2 + 64], %g4
532 ldx [%g2 + 128], %g5
533 ldx [%g2 + 192], %g6
534 add %g2, %g3, %g2
535#define DMA_ADDR_441 mpeval(0x00ab0000 + 0,16,16)
536#define DMA_ADDR_442 mpeval(0x00ab0000 + 64,16,16)
537#define DMA_ADDR_443 mpeval(0x00ab0000 + 128,16,16)
538DMA44: nop
539! $EV trig_pc_d(1,@VA(.MAIN.DMA44)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_441, DMA_ADDR_442, "64'h100",1)
540 stx %g2, [%g2]
541 ldx [%g2 + 64], %g4
542 ldx [%g2 + 128], %g5
543 ldx [%g2 + 192], %g6
544 add %g2, %g3, %g2
545#define DMA_ADDR_451 mpeval(0x00ac0000 + 0,16,16)
546#define DMA_ADDR_452 mpeval(0x00ac0000 + 64,16,16)
547#define DMA_ADDR_453 mpeval(0x00ac0000 + 128,16,16)
548DMA45: nop
549! $EV trig_pc_d(1,@VA(.MAIN.DMA45)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_451, DMA_ADDR_452, "64'h100",1)
550 stx %g2, [%g2]
551 ldx [%g2 + 64], %g4
552 ldx [%g2 + 128], %g5
553 ldx [%g2 + 192], %g6
554 add %g2, %g3, %g2
555#define DMA_ADDR_461 mpeval(0x00ad0000 + 0,16,16)
556#define DMA_ADDR_462 mpeval(0x00ad0000 + 64,16,16)
557#define DMA_ADDR_463 mpeval(0x00ad0000 + 128,16,16)
558DMA46: nop
559! $EV trig_pc_d(1,@VA(.MAIN.DMA46)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_461, DMA_ADDR_462, "64'h100",1)
560 stx %g2, [%g2]
561 ldx [%g2 + 64], %g4
562 ldx [%g2 + 128], %g5
563 ldx [%g2 + 192], %g6
564 add %g2, %g3, %g2
565#define DMA_ADDR_471 mpeval(0x00ae0000 + 0,16,16)
566#define DMA_ADDR_472 mpeval(0x00ae0000 + 64,16,16)
567#define DMA_ADDR_473 mpeval(0x00ae0000 + 128,16,16)
568DMA47: nop
569! $EV trig_pc_d(1,@VA(.MAIN.DMA47)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_471, DMA_ADDR_472, "64'h100",1)
570 stx %g2, [%g2]
571 ldx [%g2 + 64], %g4
572 ldx [%g2 + 128], %g5
573 ldx [%g2 + 192], %g6
574 add %g2, %g3, %g2
575#define DMA_ADDR_481 mpeval(0x00af0000 + 0,16,16)
576#define DMA_ADDR_482 mpeval(0x00af0000 + 64,16,16)
577#define DMA_ADDR_483 mpeval(0x00af0000 + 128,16,16)
578DMA48: nop
579! $EV trig_pc_d(1,@VA(.MAIN.DMA48)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_481, DMA_ADDR_482, "64'h100",1)
580 stx %g2, [%g2]
581 ldx [%g2 + 64], %g4
582 ldx [%g2 + 128], %g5
583 ldx [%g2 + 192], %g6
584 add %g2, %g3, %g2
585#define DMA_ADDR_491 mpeval(0x00b00000 + 0,16,16)
586#define DMA_ADDR_492 mpeval(0x00b00000 + 64,16,16)
587#define DMA_ADDR_493 mpeval(0x00b00000 + 128,16,16)
588DMA49: nop
589! $EV trig_pc_d(1,@VA(.MAIN.DMA49)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_491, DMA_ADDR_492, "64'h100",1)
590 stx %g2, [%g2]
591 ldx [%g2 + 64], %g4
592 ldx [%g2 + 128], %g5
593 ldx [%g2 + 192], %g6
594 add %g2, %g3, %g2
595#define DMA_ADDR_501 mpeval(0x00b10000 + 0,16,16)
596#define DMA_ADDR_502 mpeval(0x00b10000 + 64,16,16)
597#define DMA_ADDR_503 mpeval(0x00b10000 + 128,16,16)
598DMA50: nop
599! $EV trig_pc_d(1,@VA(.MAIN.DMA50)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_501, DMA_ADDR_502, "64'h100",1)
600 stx %g2, [%g2]
601 ldx [%g2 + 64], %g4
602 ldx [%g2 + 128], %g5
603 ldx [%g2 + 192], %g6
604 add %g2, %g3, %g2
605#define DMA_ADDR_511 mpeval(0x00b20000 + 0,16,16)
606#define DMA_ADDR_512 mpeval(0x00b20000 + 64,16,16)
607#define DMA_ADDR_513 mpeval(0x00b20000 + 128,16,16)
608DMA51: nop
609! $EV trig_pc_d(1,@VA(.MAIN.DMA51)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_511, DMA_ADDR_512, "64'h100",1)
610 stx %g2, [%g2]
611 ldx [%g2 + 64], %g4
612 ldx [%g2 + 128], %g5
613 ldx [%g2 + 192], %g6
614 add %g2, %g3, %g2
615#define DMA_ADDR_521 mpeval(0x00b30000 + 0,16,16)
616#define DMA_ADDR_522 mpeval(0x00b30000 + 64,16,16)
617#define DMA_ADDR_523 mpeval(0x00b30000 + 128,16,16)
618DMA52: nop
619! $EV trig_pc_d(1,@VA(.MAIN.DMA52)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_521, DMA_ADDR_522, "64'h100",1)
620 stx %g2, [%g2]
621 ldx [%g2 + 64], %g4
622 ldx [%g2 + 128], %g5
623 ldx [%g2 + 192], %g6
624 add %g2, %g3, %g2
625#define DMA_ADDR_531 mpeval(0x00b40000 + 0,16,16)
626#define DMA_ADDR_532 mpeval(0x00b40000 + 64,16,16)
627#define DMA_ADDR_533 mpeval(0x00b40000 + 128,16,16)
628DMA53: nop
629! $EV trig_pc_d(1,@VA(.MAIN.DMA53)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_531, DMA_ADDR_532, "64'h100",1)
630 stx %g2, [%g2]
631 ldx [%g2 + 64], %g4
632 ldx [%g2 + 128], %g5
633 ldx [%g2 + 192], %g6
634 add %g2, %g3, %g2
635#define DMA_ADDR_541 mpeval(0x00b50000 + 0,16,16)
636#define DMA_ADDR_542 mpeval(0x00b50000 + 64,16,16)
637#define DMA_ADDR_543 mpeval(0x00b50000 + 128,16,16)
638DMA54: nop
639! $EV trig_pc_d(1,@VA(.MAIN.DMA54)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_541, DMA_ADDR_542, "64'h100",1)
640 stx %g2, [%g2]
641 ldx [%g2 + 64], %g4
642 ldx [%g2 + 128], %g5
643 ldx [%g2 + 192], %g6
644 add %g2, %g3, %g2
645#define DMA_ADDR_551 mpeval(0x00b60000 + 0,16,16)
646#define DMA_ADDR_552 mpeval(0x00b60000 + 64,16,16)
647#define DMA_ADDR_553 mpeval(0x00b60000 + 128,16,16)
648DMA55: nop
649! $EV trig_pc_d(1,@VA(.MAIN.DMA55)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_551, DMA_ADDR_552, "64'h100",1)
650 stx %g2, [%g2]
651 ldx [%g2 + 64], %g4
652 ldx [%g2 + 128], %g5
653 ldx [%g2 + 192], %g6
654 add %g2, %g3, %g2
655#define DMA_ADDR_561 mpeval(0x00b70000 + 0,16,16)
656#define DMA_ADDR_562 mpeval(0x00b70000 + 64,16,16)
657#define DMA_ADDR_563 mpeval(0x00b70000 + 128,16,16)
658DMA56: nop
659! $EV trig_pc_d(1,@VA(.MAIN.DMA56)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_561, DMA_ADDR_562, "64'h100",1)
660 stx %g2, [%g2]
661 ldx [%g2 + 64], %g4
662 ldx [%g2 + 128], %g5
663 ldx [%g2 + 192], %g6
664 add %g2, %g3, %g2
665#define DMA_ADDR_571 mpeval(0x00b80000 + 0,16,16)
666#define DMA_ADDR_572 mpeval(0x00b80000 + 64,16,16)
667#define DMA_ADDR_573 mpeval(0x00b80000 + 128,16,16)
668DMA57: nop
669! $EV trig_pc_d(1,@VA(.MAIN.DMA57)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_571, DMA_ADDR_572, "64'h100",1)
670 stx %g2, [%g2]
671 ldx [%g2 + 64], %g4
672 ldx [%g2 + 128], %g5
673 ldx [%g2 + 192], %g6
674 add %g2, %g3, %g2
675#define DMA_ADDR_581 mpeval(0x00b90000 + 0,16,16)
676#define DMA_ADDR_582 mpeval(0x00b90000 + 64,16,16)
677#define DMA_ADDR_583 mpeval(0x00b90000 + 128,16,16)
678DMA58: nop
679! $EV trig_pc_d(1,@VA(.MAIN.DMA58)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_581, DMA_ADDR_582, "64'h100",1)
680 stx %g2, [%g2]
681 ldx [%g2 + 64], %g4
682 ldx [%g2 + 128], %g5
683 ldx [%g2 + 192], %g6
684 add %g2, %g3, %g2
685#define DMA_ADDR_591 mpeval(0x00ba0000 + 0,16,16)
686#define DMA_ADDR_592 mpeval(0x00ba0000 + 64,16,16)
687#define DMA_ADDR_593 mpeval(0x00ba0000 + 128,16,16)
688DMA59: nop
689! $EV trig_pc_d(1,@VA(.MAIN.DMA59)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_591, DMA_ADDR_592, "64'h100",1)
690 stx %g2, [%g2]
691 ldx [%g2 + 64], %g4
692 ldx [%g2 + 128], %g5
693 ldx [%g2 + 192], %g6
694 add %g2, %g3, %g2
695#define DMA_ADDR_601 mpeval(0x00bb0000 + 0,16,16)
696#define DMA_ADDR_602 mpeval(0x00bb0000 + 64,16,16)
697#define DMA_ADDR_603 mpeval(0x00bb0000 + 128,16,16)
698DMA60: nop
699! $EV trig_pc_d(1,@VA(.MAIN.DMA60)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_601, DMA_ADDR_602, "64'h100",1)
700 stx %g2, [%g2]
701 ldx [%g2 + 64], %g4
702 ldx [%g2 + 128], %g5
703 ldx [%g2 + 192], %g6
704 add %g2, %g3, %g2
705#define DMA_ADDR_611 mpeval(0x00bc0000 + 0,16,16)
706#define DMA_ADDR_612 mpeval(0x00bc0000 + 64,16,16)
707#define DMA_ADDR_613 mpeval(0x00bc0000 + 128,16,16)
708DMA61: nop
709! $EV trig_pc_d(1,@VA(.MAIN.DMA61)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_611, DMA_ADDR_612, "64'h100",1)
710 stx %g2, [%g2]
711 ldx [%g2 + 64], %g4
712 ldx [%g2 + 128], %g5
713 ldx [%g2 + 192], %g6
714 add %g2, %g3, %g2
715#define DMA_ADDR_621 mpeval(0x00bd0000 + 0,16,16)
716#define DMA_ADDR_622 mpeval(0x00bd0000 + 64,16,16)
717#define DMA_ADDR_623 mpeval(0x00bd0000 + 128,16,16)
718DMA62: nop
719! $EV trig_pc_d(1,@VA(.MAIN.DMA62)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_621, DMA_ADDR_622, "64'h100",1)
720 stx %g2, [%g2]
721 ldx [%g2 + 64], %g4
722 ldx [%g2 + 128], %g5
723 ldx [%g2 + 192], %g6
724 add %g2, %g3, %g2
725#define DMA_ADDR_631 mpeval(0x00be0000 + 0,16,16)
726#define DMA_ADDR_632 mpeval(0x00be0000 + 64,16,16)
727#define DMA_ADDR_633 mpeval(0x00be0000 + 128,16,16)
728DMA63: nop
729! $EV trig_pc_d(1,@VA(.MAIN.DMA63)) -> EnablePCIeIgCmd("DMAWR", DMA_ADDR_631, DMA_ADDR_632, "64'h100",1)
730 stx %g2, [%g2]
731 ldx [%g2 + 64], %g4
732 ldx [%g2 + 128], %g5
733 ldx [%g2 + 192], %g6
734 add %g2, %g3, %g2
735DMA64: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA64) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_02, DMA_ADDR_03, "64'h80",1)
736DMA65: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA65) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_12, DMA_ADDR_13, "64'h80",1)
737DMA66: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA66) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_22, DMA_ADDR_23, "64'h80",1)
738DMA67: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA67) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_32, DMA_ADDR_33, "64'h80",1)
739DMA68: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA68) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_42, DMA_ADDR_43, "64'h80",1)
740DMA69: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA69) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_52, DMA_ADDR_53, "64'h80",1)
741DMA70: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA70) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_62, DMA_ADDR_63, "64'h80",1)
742DMA71: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA71) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_72, DMA_ADDR_73, "64'h80",1)
743DMA72: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA72) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_82, DMA_ADDR_83, "64'h80",1)
744DMA73: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA73) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_92, DMA_ADDR_93, "64'h80",1)
745DMA74: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA74) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_102, DMA_ADDR_103, "64'h80",1)
746DMA75: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA75) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_112, DMA_ADDR_113, "64'h80",1)
747DMA76: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA76) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_122, DMA_ADDR_123, "64'h80",1)
748DMA77: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA77) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_132, DMA_ADDR_133, "64'h80",1)
749DMA78: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA78) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_142, DMA_ADDR_143, "64'h80",1)
750DMA79: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA79) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_152, DMA_ADDR_153, "64'h80",1)
751DMA80: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA80) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_162, DMA_ADDR_163, "64'h80",1)
752DMA81: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA81) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_172, DMA_ADDR_173, "64'h80",1)
753DMA82: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA82) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_182, DMA_ADDR_183, "64'h80",1)
754DMA83: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA83) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_192, DMA_ADDR_193, "64'h80",1)
755DMA84: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA84) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_202, DMA_ADDR_203, "64'h80",1)
756DMA85: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA85) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_212, DMA_ADDR_213, "64'h80",1)
757DMA86: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA86) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_222, DMA_ADDR_223, "64'h80",1)
758DMA87: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA87) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_232, DMA_ADDR_233, "64'h80",1)
759DMA88: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA88) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_242, DMA_ADDR_243, "64'h80",1)
760DMA89: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA89) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_252, DMA_ADDR_253, "64'h80",1)
761DMA90: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA90) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_262, DMA_ADDR_263, "64'h80",1)
762DMA91: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA91) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_272, DMA_ADDR_273, "64'h80",1)
763DMA92: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA92) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_282, DMA_ADDR_283, "64'h80",1)
764DMA93: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA93) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_292, DMA_ADDR_293, "64'h80",1)
765DMA94: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA94) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_302, DMA_ADDR_303, "64'h80",1)
766DMA95: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA95) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_312, DMA_ADDR_313, "64'h80",1)
767DMA96: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA96) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_322, DMA_ADDR_323, "64'h80",1)
768DMA97: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA97) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_332, DMA_ADDR_333, "64'h80",1)
769DMA98: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA98) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_342, DMA_ADDR_343, "64'h80",1)
770DMA99: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA99) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_352, DMA_ADDR_353, "64'h80",1)
771DMA100: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA100) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_362, DMA_ADDR_363, "64'h80",1)
772DMA101: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA101) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_372, DMA_ADDR_373, "64'h80",1)
773DMA102: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA102) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_382, DMA_ADDR_383, "64'h80",1)
774DMA103: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA103) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_392, DMA_ADDR_393, "64'h80",1)
775DMA104: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA104) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_402, DMA_ADDR_403, "64'h80",1)
776DMA105: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA105) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_412, DMA_ADDR_413, "64'h80",1)
777DMA106: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA106) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_422, DMA_ADDR_423, "64'h80",1)
778DMA107: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA107) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_432, DMA_ADDR_433, "64'h80",1)
779DMA108: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA108) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_442, DMA_ADDR_443, "64'h80",1)
780DMA109: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA109) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_452, DMA_ADDR_453, "64'h80",1)
781DMA110: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA110) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_462, DMA_ADDR_463, "64'h80",1)
782DMA111: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA111) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_472, DMA_ADDR_473, "64'h80",1)
783DMA112: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA112) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_482, DMA_ADDR_483, "64'h80",1)
784DMA113: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA113) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_492, DMA_ADDR_493, "64'h80",1)
785DMA114: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA114) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_502, DMA_ADDR_503, "64'h80",1)
786DMA115: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA115) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_512, DMA_ADDR_513, "64'h80",1)
787DMA116: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA116) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_522, DMA_ADDR_523, "64'h80",1)
788DMA117: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA117) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_532, DMA_ADDR_533, "64'h80",1)
789DMA118: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA118) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_542, DMA_ADDR_543, "64'h80",1)
790DMA119: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA119) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_552, DMA_ADDR_553, "64'h80",1)
791DMA120: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA120) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_562, DMA_ADDR_563, "64'h80",1)
792DMA121: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA121) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_572, DMA_ADDR_573, "64'h80",1)
793DMA122: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA122) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_582, DMA_ADDR_583, "64'h80",1)
794DMA123: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA123) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_592, DMA_ADDR_593, "64'h80",1)
795DMA124: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA124) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_602, DMA_ADDR_603, "64'h80",1)
796DMA125: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA125) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_612, DMA_ADDR_613, "64'h80",1)
797DMA126: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA126) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_622, DMA_ADDR_623, "64'h80",1)
798DMA127: nop ! $EV trig_pc_d(1,@VA(.MAIN.DMA127) -> EnablePCIeIgCmd("DMARD", DMA_ADDR_632, DMA_ADDR_633, "64'h80",1)
799
800
801
802 ! select a MEM32 address in PCI address range and transmit the command to NCU
803
804 setx MEM32_WR_ADDR, %g1, %g2
805 set 5, %g4 ! loop 5 times
806
807delay_loop:
808 stx %g2, [%g2] ! MEM32 PIO Write
809 ldx [%g2], %l0 ! MEM32 PIO READ
810 add %g2, 8, %g2 ! increment PIO address
811
812 dec %g4 ! decrement counter
813 brnz %g4, delay_loop ! loop if not zero
814 nop
815
816
817test_passed:
818 EXIT_GOOD
819
820test_failed:
821 EXIT_BAD
822
823
824/************************************************************************
825 Test case data start. Need to set up known data to check on DMA completions
826************************************************************************/
827
828SECTION .DATA DATA_VA=DMA_DATA_ADDR
829attr_data {
830 Name = .DATA,
831 hypervisor,
832 compressimage
833}
834.data
835 init_mem(0x0101010201030104, 64, 8, +, 0, +, 0x0004000400040004)
836
837
838/************************************************************************
839 IOMMU TTE start
840 TTE Format:
84163: 48 DEV KEY - set to 0
84247: 39 reserved - set to 0
84338: 13 DATA PA - set to VA for VA=RA
84412: 7 DATA_SOFT - set to 0
8456: 5 reserved - set to 0
8465: 3 FNM MASK - set to 0
8472: 2 KEY VALID - set to 0
8481: 1 DATA_W - set to 1
8490: 0 DATA_V - set to 1
850************************************************************************/
851
852SECTION .DATA2 DATA_VA=IOMMU_TTE_ADDR
853attr_data {
854 Name = .DATA2,
855 hypervisor,
856 compressimage
857}
858
859.data
860 .skip 8*0x7f
861 ! we only need 64 TTEs for this test
862 init_mem(0x00000000007f0003, 64, 8, +, 0, +, 0x0000000000010000)
863
864
865/************************************************************************/
Full OpenSPARC design & verification tarball including full HDL.