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1 | #ifndef __SOUND_AZT3328_H |
2 | #define __SOUND_AZT3328_H |
3 | |
4 | /* "PU" == "power-up value", as tested on PCI168 PCI rev. 10 |
5 | * "WRITE_ONLY" == register does not indicate actual bit values */ |
6 | |
7 | /*** main I/O area port indices ***/ |
8 | /* (only 0x70 of 0x80 bytes saved/restored by Windows driver) */ |
9 | #define AZF_IO_SIZE_CTRL 0x80 |
10 | #define AZF_IO_SIZE_CTRL_PM 0x70 |
11 | |
12 | /* the driver initialisation suggests a layout of 4 areas |
13 | * within the main card control I/O: |
14 | * from 0x00 (playback codec), from 0x20 (recording codec) |
15 | * and from 0x40 (most certainly I2S out codec). |
16 | * And another area from 0x60 to 0x6f (DirectX timer, IRQ management, |
17 | * power management etc.???). */ |
18 | |
19 | #define AZF_IO_OFFS_CODEC_PLAYBACK 0x00 |
20 | #define AZF_IO_OFFS_CODEC_CAPTURE 0x20 |
21 | #define AZF_IO_OFFS_CODEC_I2S_OUT 0x40 |
22 | |
23 | #define IDX_IO_CODEC_DMA_FLAGS 0x00 /* PU:0x0000 */ |
24 | /* able to reactivate output after output muting due to 8/16bit |
25 | * output change, just like 0x0002. |
26 | * 0x0001 is the only bit that's able to start the DMA counter */ |
27 | #define DMA_RESUME 0x0001 /* paused if cleared? */ |
28 | /* 0x0002 *temporarily* set during DMA stopping. hmm |
29 | * both 0x0002 and 0x0004 set in playback setup. */ |
30 | /* able to reactivate output after output muting due to 8/16bit |
31 | * output change, just like 0x0001. */ |
32 | #define DMA_RUN_SOMETHING1 0x0002 /* \ alternated (toggled) */ |
33 | /* 0x0004: NOT able to reactivate output */ |
34 | #define DMA_RUN_SOMETHING2 0x0004 /* / bits */ |
35 | #define SOMETHING_ALMOST_ALWAYS_SET 0x0008 /* ???; can be modified */ |
36 | #define DMA_EPILOGUE_SOMETHING 0x0010 |
37 | #define DMA_SOMETHING_ELSE 0x0020 /* ??? */ |
38 | #define SOMETHING_UNMODIFIABLE 0xffc0 /* unused? not modifiable */ |
39 | #define IDX_IO_CODEC_IRQTYPE 0x02 /* PU:0x0001 */ |
40 | /* write back to flags in case flags are set, in order to ACK IRQ in handler |
41 | * (bit 1 of port 0x64 indicates interrupt for one of these three types) |
42 | * sometimes in this case it just writes 0xffff to globally ACK all IRQs |
43 | * settings written are not reflected when reading back, though. |
44 | * seems to be IRQ, too (frequently used: port |= 0x07 !), but who knows? */ |
45 | #define IRQ_SOMETHING 0x0001 /* something & ACK */ |
46 | #define IRQ_FINISHED_DMABUF_1 0x0002 /* 1st dmabuf finished & ACK */ |
47 | #define IRQ_FINISHED_DMABUF_2 0x0004 /* 2nd dmabuf finished & ACK */ |
48 | #define IRQMASK_SOME_STATUS_1 0x0008 /* \ related bits */ |
49 | #define IRQMASK_SOME_STATUS_2 0x0010 /* / (checked together in loop) */ |
50 | #define IRQMASK_UNMODIFIABLE 0xffe0 /* unused? not modifiable */ |
51 | /* start address of 1st DMA transfer area, PU:0x00000000 */ |
52 | #define IDX_IO_CODEC_DMA_START_1 0x04 |
53 | /* start address of 2nd DMA transfer area, PU:0x00000000 */ |
54 | #define IDX_IO_CODEC_DMA_START_2 0x08 |
55 | /* both lengths of DMA transfer areas, PU:0x00000000 |
56 | length1: offset 0x0c, length2: offset 0x0e */ |
57 | #define IDX_IO_CODEC_DMA_LENGTHS 0x0c |
58 | #define IDX_IO_CODEC_DMA_CURRPOS 0x10 /* current DMA position, PU:0x00000000 */ |
59 | /* offset within current DMA transfer area, PU:0x0000 */ |
60 | #define IDX_IO_CODEC_DMA_CURROFS 0x14 |
61 | #define IDX_IO_CODEC_SOUNDFORMAT 0x16 /* PU:0x0010 */ |
62 | /* all unspecified bits can't be modified */ |
63 | #define SOUNDFORMAT_FREQUENCY_MASK 0x000f |
64 | #define SOUNDFORMAT_XTAL1 0x00 |
65 | #define SOUNDFORMAT_XTAL2 0x01 |
66 | /* all _SUSPECTED_ values are not used by Windows drivers, so we don't |
67 | * have any hard facts, only rough measurements. |
68 | * All we know is that the crystal used on the board has 24.576MHz, |
69 | * like many soundcards (which results in the frequencies below when |
70 | * using certain divider values selected by the values below) */ |
71 | #define SOUNDFORMAT_FREQ_SUSPECTED_4000 0x0c | SOUNDFORMAT_XTAL1 |
72 | #define SOUNDFORMAT_FREQ_SUSPECTED_4800 0x0a | SOUNDFORMAT_XTAL1 |
73 | #define SOUNDFORMAT_FREQ_5510 0x0c | SOUNDFORMAT_XTAL2 |
74 | #define SOUNDFORMAT_FREQ_6620 0x0a | SOUNDFORMAT_XTAL2 |
75 | #define SOUNDFORMAT_FREQ_8000 0x00 | SOUNDFORMAT_XTAL1 /* also 0x0e | SOUNDFORMAT_XTAL1? */ |
76 | #define SOUNDFORMAT_FREQ_9600 0x08 | SOUNDFORMAT_XTAL1 |
77 | #define SOUNDFORMAT_FREQ_11025 0x00 | SOUNDFORMAT_XTAL2 /* also 0x0e | SOUNDFORMAT_XTAL2? */ |
78 | #define SOUNDFORMAT_FREQ_SUSPECTED_13240 0x08 | SOUNDFORMAT_XTAL2 /* seems to be 6620 *2 */ |
79 | #define SOUNDFORMAT_FREQ_16000 0x02 | SOUNDFORMAT_XTAL1 |
80 | #define SOUNDFORMAT_FREQ_22050 0x02 | SOUNDFORMAT_XTAL2 |
81 | #define SOUNDFORMAT_FREQ_32000 0x04 | SOUNDFORMAT_XTAL1 |
82 | #define SOUNDFORMAT_FREQ_44100 0x04 | SOUNDFORMAT_XTAL2 |
83 | #define SOUNDFORMAT_FREQ_48000 0x06 | SOUNDFORMAT_XTAL1 |
84 | #define SOUNDFORMAT_FREQ_SUSPECTED_66200 0x06 | SOUNDFORMAT_XTAL2 /* 66200 (13240 * 5); 64000 may have been nicer :-\ */ |
85 | #define SOUNDFORMAT_FLAG_16BIT 0x0010 |
86 | #define SOUNDFORMAT_FLAG_2CHANNELS 0x0020 |
87 | |
88 | |
89 | /* define frequency helpers, for maximum value safety */ |
90 | enum azf_freq_t { |
91 | #define AZF_FREQ(rate) AZF_FREQ_##rate = rate |
92 | AZF_FREQ(4000), |
93 | AZF_FREQ(4800), |
94 | AZF_FREQ(5512), |
95 | AZF_FREQ(6620), |
96 | AZF_FREQ(8000), |
97 | AZF_FREQ(9600), |
98 | AZF_FREQ(11025), |
99 | AZF_FREQ(13240), |
100 | AZF_FREQ(16000), |
101 | AZF_FREQ(22050), |
102 | AZF_FREQ(32000), |
103 | AZF_FREQ(44100), |
104 | AZF_FREQ(48000), |
105 | AZF_FREQ(66200), |
106 | #undef AZF_FREQ |
107 | }; |
108 | |
109 | /** DirectX timer, main interrupt area (FIXME: and something else?) **/ |
110 | #define IDX_IO_TIMER_VALUE 0x60 /* found this timer area by pure luck :-) */ |
111 | /* timer countdown value; triggers IRQ when timer is finished */ |
112 | #define TIMER_VALUE_MASK 0x000fffffUL |
113 | /* activate timer countdown */ |
114 | #define TIMER_COUNTDOWN_ENABLE 0x01000000UL |
115 | /* trigger timer IRQ on zero transition */ |
116 | #define TIMER_IRQ_ENABLE 0x02000000UL |
117 | /* being set in IRQ handler in case port 0x00 (hmm, not port 0x64!?!?) |
118 | * had 0x0020 set upon IRQ handler */ |
119 | #define TIMER_IRQ_ACK 0x04000000UL |
120 | #define IDX_IO_IRQSTATUS 0x64 |
121 | /* some IRQ bit in here might also be used to signal a power-management timer |
122 | * timeout, to request shutdown of the chip (e.g. AD1815JS has such a thing). |
123 | * OPL3 hardware contains several timers which confusingly in most cases |
124 | * are NOT routed to an IRQ, but some designs (e.g. LM4560) DO support that, |
125 | * so I wouldn't be surprised at all to discover that AZF3328 |
126 | * supports that thing as well... */ |
127 | |
128 | #define IRQ_PLAYBACK 0x0001 |
129 | #define IRQ_RECORDING 0x0002 |
130 | #define IRQ_I2S_OUT 0x0004 /* this IS I2S, right!? (untested) */ |
131 | #define IRQ_GAMEPORT 0x0008 /* Interrupt of Digital(ly) Enhanced Game Port */ |
132 | #define IRQ_MPU401 0x0010 |
133 | #define IRQ_TIMER 0x0020 /* DirectX timer */ |
134 | #define IRQ_UNKNOWN2 0x0040 /* probably unused, or possibly OPL3 timer? */ |
135 | #define IRQ_UNKNOWN3 0x0080 /* probably unused, or possibly OPL3 timer? */ |
136 | #define IDX_IO_66H 0x66 /* writing 0xffff returns 0x0000 */ |
137 | /* this is set to e.g. 0x3ff or 0x300, and writable; |
138 | * maybe some buffer limit, but I couldn't find out more, PU:0x00ff: */ |
139 | #define IDX_IO_SOME_VALUE 0x68 |
140 | #define IO_68_RANDOM_TOGGLE1 0x0100 /* toggles randomly */ |
141 | #define IO_68_RANDOM_TOGGLE2 0x0200 /* toggles randomly */ |
142 | /* umm, nope, behaviour of these bits changes depending on what we wrote |
143 | * to 0x6b!! |
144 | * And they change upon playback/stop, too: |
145 | * Writing a value to 0x68 will display this exact value during playback, |
146 | * too but when stopped it can fall back to a rather different |
147 | * seemingly random value). Hmm, possibly this is a register which |
148 | * has a remote shadow which needs proper device supply which only exists |
149 | * in case playback is active? Or is this driver-induced? |
150 | */ |
151 | |
152 | /* this WORD can be set to have bits 0x0028 activated (FIXME: correct??); |
153 | * actually inhibits PCM playback!!! maybe power management??: */ |
154 | #define IDX_IO_6AH 0x6A /* WRITE_ONLY! */ |
155 | /* bit 5: enabling this will activate permanent counting of bytes 2/3 |
156 | * at gameport I/O (0xb402/3) (equal values each) and cause |
157 | * gameport legacy I/O at 0x0200 to be _DISABLED_! |
158 | * Is this Digital Enhanced Game Port Enable??? Or maybe it's Testmode |
159 | * for Enhanced Digital Gameport (see 4D Wave DX card): */ |
160 | #define IO_6A_SOMETHING1_GAMEPORT 0x0020 |
161 | /* bit 8; sure, this _pauses_ playback (later resumes at same spot!), |
162 | * but what the heck is this really about??: */ |
163 | #define IO_6A_PAUSE_PLAYBACK_BIT8 0x0100 |
164 | /* bit 9; sure, this _pauses_ playback (later resumes at same spot!), |
165 | * but what the heck is this really about??: */ |
166 | #define IO_6A_PAUSE_PLAYBACK_BIT9 0x0200 |
167 | /* BIT8 and BIT9 are _NOT_ able to affect OPL3 MIDI playback, |
168 | * thus it suggests influence on PCM only!! |
169 | * However OTOH there seems to be no bit anywhere around here |
170 | * which is able to disable OPL3... */ |
171 | /* bit 10: enabling this actually changes values at legacy gameport |
172 | * I/O address (0x200); is this enabling of the Digital Enhanced Game Port??? |
173 | * Or maybe this simply switches off the NE558 circuit, since enabling this |
174 | * still lets us evaluate button states, but not axis states */ |
175 | #define IO_6A_SOMETHING2_GAMEPORT 0x0400 |
176 | /* writing 0x0300: causes quite some crackling during |
177 | * PC activity such as switching windows (PCI traffic?? |
178 | * --> FIFO/timing settings???) */ |
179 | /* writing 0x0100 plus/or 0x0200 inhibits playback */ |
180 | /* since the Windows .INF file has Flag_Enable_JoyStick and |
181 | * Flag_Enable_SB_DOS_Emulation directly together, it stands to reason |
182 | * that some other bit in this same register might be responsible |
183 | * for SB DOS Emulation activation (note that the file did NOT define |
184 | * a switch for OPL3!) */ |
185 | #define IDX_IO_6CH 0x6C /* unknown; fully read-writable */ |
186 | #define IDX_IO_6EH 0x6E |
187 | /* writing 0xffff returns 0x83fe (or 0x03fe only). |
188 | * writing 0x83 (and only 0x83!!) to 0x6f will cause 0x6c to switch |
189 | * from 0000 to ffff. */ |
190 | |
191 | /* further I/O indices not saved/restored and not readable after writing, |
192 | * so probably not used */ |
193 | |
194 | |
195 | /*** Gameport area port indices ***/ |
196 | /* (only 0x06 of 0x08 bytes saved/restored by Windows driver) */ |
197 | #define AZF_IO_SIZE_GAME 0x08 |
198 | #define AZF_IO_SIZE_GAME_PM 0x06 |
199 | |
200 | enum { |
201 | AZF_GAME_LEGACY_IO_PORT = 0x200 |
202 | }; |
203 | |
204 | #define IDX_GAME_LEGACY_COMPATIBLE 0x00 |
205 | /* in some operation mode, writing anything to this port |
206 | * triggers an interrupt: |
207 | * yup, that's in case IDX_GAME_01H has one of the |
208 | * axis measurement bits enabled |
209 | * (and of course one needs to have GAME_HWCFG_IRQ_ENABLE, too) */ |
210 | |
211 | #define IDX_GAME_AXES_CONFIG 0x01 |
212 | /* NOTE: layout of this register awfully similar (read: "identical??") |
213 | * to AD1815JS.pdf (p.29) */ |
214 | |
215 | /* enables axis 1 (X axis) measurement: */ |
216 | #define GAME_AXES_ENABLE_1 0x01 |
217 | /* enables axis 2 (Y axis) measurement: */ |
218 | #define GAME_AXES_ENABLE_2 0x02 |
219 | /* enables axis 3 (X axis) measurement: */ |
220 | #define GAME_AXES_ENABLE_3 0x04 |
221 | /* enables axis 4 (Y axis) measurement: */ |
222 | #define GAME_AXES_ENABLE_4 0x08 |
223 | /* selects the current axis to read the measured value of |
224 | * (at IDX_GAME_AXIS_VALUE): |
225 | * 00 = axis 1, 01 = axis 2, 10 = axis 3, 11 = axis 4: */ |
226 | #define GAME_AXES_READ_MASK 0x30 |
227 | /* enable to have the latch continuously accept ADC values |
228 | * (and continuously cause interrupts in case interrupts are enabled); |
229 | * AD1815JS.pdf says it's ~16ms interval there: */ |
230 | #define GAME_AXES_LATCH_ENABLE 0x40 |
231 | /* joystick data (measured axes) ready for reading: */ |
232 | #define GAME_AXES_SAMPLING_READY 0x80 |
233 | |
234 | /* NOTE: other card specs (SiS960 and others!) state that the |
235 | * game position latches should be frozen when reading and be freed |
236 | * (== reset?) after reading!!! |
237 | * Freezing most likely means disabling 0x40 (GAME_AXES_LATCH_ENABLE), |
238 | * but how to free the value? */ |
239 | /* An internet search for "gameport latch ADC" should provide some insight |
240 | * into how to program such a gameport system. */ |
241 | |
242 | /* writing 0xf0 to 01H once reset both counters to 0, in some special mode!? |
243 | * yup, in case 6AH 0x20 is not enabled |
244 | * (and 0x40 is sufficient, 0xf0 is not needed) */ |
245 | |
246 | #define IDX_GAME_AXIS_VALUE 0x02 |
247 | /* R: value of currently configured axis (word value!); |
248 | * W: trigger axis measurement */ |
249 | |
250 | #define IDX_GAME_HWCONFIG 0x04 |
251 | /* note: bits 4 to 7 are never set (== 0) when reading! |
252 | * --> reserved bits? */ |
253 | /* enables IRQ notification upon axes measurement ready: */ |
254 | #define GAME_HWCFG_IRQ_ENABLE 0x01 |
255 | /* these bits choose a different frequency for the |
256 | * internal ADC counter increment. |
257 | * hmm, seems to be a combo of bits: |
258 | * 00 --> standard frequency |
259 | * 10 --> 1/2 |
260 | * 01 --> 1/20 |
261 | * 11 --> 1/200: */ |
262 | #define GAME_HWCFG_ADC_COUNTER_FREQ_MASK 0x06 |
263 | |
264 | /* FIXME: these values might be reversed... */ |
265 | #define GAME_HWCFG_ADC_COUNTER_FREQ_STD 0 |
266 | #define GAME_HWCFG_ADC_COUNTER_FREQ_1_2 1 |
267 | #define GAME_HWCFG_ADC_COUNTER_FREQ_1_20 2 |
268 | #define GAME_HWCFG_ADC_COUNTER_FREQ_1_200 3 |
269 | |
270 | /* enable gameport legacy I/O address (0x200) |
271 | * I was unable to locate any configurability for a different address: */ |
272 | #define GAME_HWCFG_LEGACY_ADDRESS_ENABLE 0x08 |
273 | |
274 | /*** MPU401 ***/ |
275 | #define AZF_IO_SIZE_MPU 0x04 |
276 | #define AZF_IO_SIZE_MPU_PM 0x04 |
277 | |
278 | /*** OPL3 synth ***/ |
279 | /* (only 0x06 of 0x08 bytes saved/restored by Windows driver) */ |
280 | #define AZF_IO_SIZE_OPL3 0x08 |
281 | #define AZF_IO_SIZE_OPL3_PM 0x06 |
282 | /* hmm, given that a standard OPL3 has 4 registers only, |
283 | * there might be some enhanced functionality lurking at the end |
284 | * (especially since register 0x04 has a "non-empty" value 0xfe) */ |
285 | |
286 | /*** mixer I/O area port indices ***/ |
287 | /* (only 0x22 of 0x40 bytes saved/restored by Windows driver) |
288 | * UNFORTUNATELY azf3328 is NOT truly AC97 compliant: see main file intro */ |
289 | #define AZF_IO_SIZE_MIXER 0x40 |
290 | #define AZF_IO_SIZE_MIXER_PM 0x22 |
291 | |
292 | #define MIXER_VOLUME_RIGHT_MASK 0x001f |
293 | #define MIXER_VOLUME_LEFT_MASK 0x1f00 |
294 | #define MIXER_MUTE_MASK 0x8000 |
295 | #define IDX_MIXER_RESET 0x00 /* does NOT seem to have AC97 ID bits */ |
296 | #define IDX_MIXER_PLAY_MASTER 0x02 |
297 | #define IDX_MIXER_MODEMOUT 0x04 |
298 | #define IDX_MIXER_BASSTREBLE 0x06 |
299 | #define MIXER_BASSTREBLE_TREBLE_VOLUME_MASK 0x000e |
300 | #define MIXER_BASSTREBLE_BASS_VOLUME_MASK 0x0e00 |
301 | #define IDX_MIXER_PCBEEP 0x08 |
302 | #define IDX_MIXER_MODEMIN 0x0a |
303 | #define IDX_MIXER_MIC 0x0c |
304 | #define MIXER_MIC_MICGAIN_20DB_ENHANCEMENT_MASK 0x0040 |
305 | #define IDX_MIXER_LINEIN 0x0e |
306 | #define IDX_MIXER_CDAUDIO 0x10 |
307 | #define IDX_MIXER_VIDEO 0x12 |
308 | #define IDX_MIXER_AUX 0x14 |
309 | #define IDX_MIXER_WAVEOUT 0x16 |
310 | #define IDX_MIXER_FMSYNTH 0x18 |
311 | #define IDX_MIXER_REC_SELECT 0x1a |
312 | #define MIXER_REC_SELECT_MIC 0x00 |
313 | #define MIXER_REC_SELECT_CD 0x01 |
314 | #define MIXER_REC_SELECT_VIDEO 0x02 |
315 | #define MIXER_REC_SELECT_AUX 0x03 |
316 | #define MIXER_REC_SELECT_LINEIN 0x04 |
317 | #define MIXER_REC_SELECT_MIXSTEREO 0x05 |
318 | #define MIXER_REC_SELECT_MIXMONO 0x06 |
319 | #define MIXER_REC_SELECT_MONOIN 0x07 |
320 | #define IDX_MIXER_REC_VOLUME 0x1c |
321 | #define IDX_MIXER_ADVCTL1 0x1e |
322 | /* unlisted bits are unmodifiable */ |
323 | #define MIXER_ADVCTL1_3DWIDTH_MASK 0x000e |
324 | #define MIXER_ADVCTL1_HIFI3D_MASK 0x0300 /* yup, this is missing the high bit that official AC97 contains, plus it doesn't have linear bit value range behaviour but instead acts weirdly (possibly we're dealing with two *different* 3D settings here??) */ |
325 | #define IDX_MIXER_ADVCTL2 0x20 /* subset of AC97_GENERAL_PURPOSE reg! */ |
326 | /* unlisted bits are unmodifiable */ |
327 | #define MIXER_ADVCTL2_LPBK 0x0080 /* Loopback mode -- Win driver: "WaveOut3DBypass"? mutes WaveOut at LineOut */ |
328 | #define MIXER_ADVCTL2_MS 0x0100 /* Mic Select 0=Mic1, 1=Mic2 -- Win driver: "ModemOutSelect"?? */ |
329 | #define MIXER_ADVCTL2_MIX 0x0200 /* Mono output select 0=Mix, 1=Mic; Win driver: "MonoSelectSource"?? */ |
330 | #define MIXER_ADVCTL2_3D 0x2000 /* 3D Enhancement 1=on */ |
331 | #define MIXER_ADVCTL2_POP 0x8000 /* Pcm Out Path, 0=pre 3D, 1=post 3D */ |
332 | |
333 | #define IDX_MIXER_SOMETHING30H 0x30 /* used, but unknown??? */ |
334 | |
335 | /* driver internal flags */ |
336 | #define SET_CHAN_LEFT 1 |
337 | #define SET_CHAN_RIGHT 2 |
338 | |
339 | /* helper macro to align I/O port ranges to 32bit I/O width */ |
340 | #define AZF_ALIGN(x) (((x) + 3) & (~3)) |
341 | |
342 | #endif /* __SOUND_AZT3328_H */ |
343 |
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