xref: /linux/sound/mips/hal2.h (revision 87c9c16317882dd6dbbc07e349bc3223e14f3244)
1 /* SPDX-License-Identifier: GPL-2.0-only */
2 #ifndef __HAL2_H
3 #define __HAL2_H
4 
5 /*
6  *  Driver for HAL2 sound processors
7  *  Copyright (c) 1999 Ulf Carlsson <ulfc@bun.falkenberg.se>
8  *  Copyright (c) 2001, 2002, 2003 Ladislav Michl <ladis@linux-mips.org>
9  */
10 
11 #include <linux/types.h>
12 
13 /* Indirect status register */
14 
15 #define H2_ISR_TSTATUS		0x01	/* RO: transaction status 1=busy */
16 #define H2_ISR_USTATUS		0x02	/* RO: utime status bit 1=armed */
17 #define H2_ISR_QUAD_MODE	0x04	/* codec mode 0=indigo 1=quad */
18 #define H2_ISR_GLOBAL_RESET_N	0x08	/* chip global reset 0=reset */
19 #define H2_ISR_CODEC_RESET_N	0x10	/* codec/synth reset 0=reset  */
20 
21 /* Revision register */
22 
23 #define H2_REV_AUDIO_PRESENT	0x8000	/* RO: audio present 0=present */
24 #define H2_REV_BOARD_M		0x7000	/* RO: bits 14:12, board revision */
25 #define H2_REV_MAJOR_CHIP_M	0x00F0	/* RO: bits 7:4, major chip revision */
26 #define H2_REV_MINOR_CHIP_M	0x000F	/* RO: bits 3:0, minor chip revision */
27 
28 /* Indirect address register */
29 
30 /*
31  * Address of indirect internal register to be accessed. A write to this
32  * register initiates read or write access to the indirect registers in the
33  * HAL2. Note that there af four indirect data registers for write access to
34  * registers larger than 16 byte.
35  */
36 
37 #define H2_IAR_TYPE_M		0xF000	/* bits 15:12, type of functional */
38 					/* block the register resides in */
39 					/* 1=DMA Port */
40 					/* 9=Global DMA Control */
41 					/* 2=Bresenham */
42 					/* 3=Unix Timer */
43 #define H2_IAR_NUM_M		0x0F00	/* bits 11:8 instance of the */
44 					/* blockin which the indirect */
45 					/* register resides */
46 					/* If IAR_TYPE_M=DMA Port: */
47 					/* 1=Synth In */
48 					/* 2=AES In */
49 					/* 3=AES Out */
50 					/* 4=DAC Out */
51 					/* 5=ADC Out */
52 					/* 6=Synth Control */
53 					/* If IAR_TYPE_M=Global DMA Control: */
54 					/* 1=Control */
55 					/* If IAR_TYPE_M=Bresenham: */
56 					/* 1=Bresenham Clock Gen 1 */
57 					/* 2=Bresenham Clock Gen 2 */
58 					/* 3=Bresenham Clock Gen 3 */
59 					/* If IAR_TYPE_M=Unix Timer: */
60 					/* 1=Unix Timer */
61 #define H2_IAR_ACCESS_SELECT	0x0080	/* 1=read 0=write */
62 #define H2_IAR_PARAM		0x000C	/* Parameter Select */
63 #define H2_IAR_RB_INDEX_M	0x0003	/* Read Back Index */
64 					/* 00:word0 */
65 					/* 01:word1 */
66 					/* 10:word2 */
67 					/* 11:word3 */
68 /*
69  * HAL2 internal addressing
70  *
71  * The HAL2 has "indirect registers" (idr) which are accessed by writing to the
72  * Indirect Data registers. Write the address to the Indirect Address register
73  * to transfer the data.
74  *
75  * We define the H2IR_* to the read address and H2IW_* to the write address and
76  * H2I_* to be fields in whatever register is referred to.
77  *
78  * When we write to indirect registers which are larger than one word (16 bit)
79  * we have to fill more than one indirect register before writing. When we read
80  * back however we have to read several times, each time with different Read
81  * Back Indexes (there are defs for doing this easily).
82  */
83 
84 /*
85  * Relay Control
86  */
87 #define H2I_RELAY_C		0x9100
88 #define H2I_RELAY_C_STATE	0x01		/* state of RELAY pin signal */
89 
90 /* DMA port enable */
91 
92 #define H2I_DMA_PORT_EN		0x9104
93 #define H2I_DMA_PORT_EN_SY_IN	0x01		/* Synth_in DMA port */
94 #define H2I_DMA_PORT_EN_AESRX	0x02		/* AES receiver DMA port */
95 #define H2I_DMA_PORT_EN_AESTX	0x04		/* AES transmitter DMA port */
96 #define H2I_DMA_PORT_EN_CODECTX	0x08		/* CODEC transmit DMA port */
97 #define H2I_DMA_PORT_EN_CODECR	0x10		/* CODEC receive DMA port */
98 
99 #define H2I_DMA_END		0x9108 		/* global dma endian select */
100 #define H2I_DMA_END_SY_IN	0x01		/* Synth_in DMA port */
101 #define H2I_DMA_END_AESRX	0x02		/* AES receiver DMA port */
102 #define H2I_DMA_END_AESTX	0x04		/* AES transmitter DMA port */
103 #define H2I_DMA_END_CODECTX	0x08		/* CODEC transmit DMA port */
104 #define H2I_DMA_END_CODECR	0x10		/* CODEC receive DMA port */
105 						/* 0=b_end 1=l_end */
106 
107 #define H2I_DMA_DRV		0x910C  	/* global PBUS DMA enable */
108 
109 #define H2I_SYNTH_C		0x1104		/* Synth DMA control */
110 
111 #define H2I_AESRX_C		0x1204	 	/* AES RX dma control */
112 
113 #define H2I_C_TS_EN		0x20		/* Timestamp enable */
114 #define H2I_C_TS_FRMT		0x40		/* Timestamp format */
115 #define H2I_C_NAUDIO		0x80		/* Sign extend */
116 
117 /* AESRX CTL, 16 bit */
118 
119 #define H2I_AESTX_C		0x1304		/* AES TX DMA control */
120 #define H2I_AESTX_C_CLKID_SHIFT	3		/* Bresenham Clock Gen 1-3 */
121 #define H2I_AESTX_C_CLKID_M	0x18
122 #define H2I_AESTX_C_DATAT_SHIFT	8		/* 1=mono 2=stereo (3=quad) */
123 #define H2I_AESTX_C_DATAT_M	0x300
124 
125 /* CODEC registers */
126 
127 #define H2I_DAC_C1		0x1404 		/* DAC DMA control, 16 bit */
128 #define H2I_DAC_C2		0x1408		/* DAC DMA control, 32 bit */
129 #define H2I_ADC_C1		0x1504 		/* ADC DMA control, 16 bit */
130 #define H2I_ADC_C2		0x1508		/* ADC DMA control, 32 bit */
131 
132 /* Bits in CTL1 register */
133 
134 #define H2I_C1_DMA_SHIFT	0		/* DMA channel */
135 #define H2I_C1_DMA_M		0x7
136 #define H2I_C1_CLKID_SHIFT	3		/* Bresenham Clock Gen 1-3 */
137 #define H2I_C1_CLKID_M		0x18
138 #define H2I_C1_DATAT_SHIFT	8		/* 1=mono 2=stereo (3=quad) */
139 #define H2I_C1_DATAT_M		0x300
140 
141 /* Bits in CTL2 register */
142 
143 #define H2I_C2_R_GAIN_SHIFT	0		/* right a/d input gain */
144 #define H2I_C2_R_GAIN_M		0xf
145 #define H2I_C2_L_GAIN_SHIFT	4		/* left a/d input gain */
146 #define H2I_C2_L_GAIN_M		0xf0
147 #define H2I_C2_R_SEL		0x100		/* right input select */
148 #define H2I_C2_L_SEL		0x200		/* left input select */
149 #define H2I_C2_MUTE		0x400		/* mute */
150 #define H2I_C2_DO1		0x00010000	/* digital output port bit 0 */
151 #define H2I_C2_DO2		0x00020000	/* digital output port bit 1 */
152 #define H2I_C2_R_ATT_SHIFT	18		/* right d/a output - */
153 #define H2I_C2_R_ATT_M		0x007c0000	/* attenuation */
154 #define H2I_C2_L_ATT_SHIFT	23		/* left d/a output - */
155 #define H2I_C2_L_ATT_M		0x0f800000	/* attenuation */
156 
157 #define H2I_SYNTH_MAP_C		0x1104		/* synth dma handshake ctrl */
158 
159 /* Clock generator CTL 1, 16 bit */
160 
161 #define H2I_BRES1_C1		0x2104
162 #define H2I_BRES2_C1		0x2204
163 #define H2I_BRES3_C1		0x2304
164 
165 #define H2I_BRES_C1_SHIFT	0		/* 0=48.0 1=44.1 2=aes_rx */
166 #define H2I_BRES_C1_M		0x03
167 
168 /* Clock generator CTL 2, 32 bit */
169 
170 #define H2I_BRES1_C2		0x2108
171 #define H2I_BRES2_C2		0x2208
172 #define H2I_BRES3_C2		0x2308
173 
174 #define H2I_BRES_C2_INC_SHIFT	0		/* increment value */
175 #define H2I_BRES_C2_INC_M	0xffff
176 #define H2I_BRES_C2_MOD_SHIFT	16		/* modcontrol value */
177 #define H2I_BRES_C2_MOD_M	0xffff0000	/* modctrl=0xffff&(modinc-1) */
178 
179 /* Unix timer, 64 bit */
180 
181 #define H2I_UTIME		0x3104
182 #define H2I_UTIME_0_LD		0xffff		/* microseconds, LSB's */
183 #define H2I_UTIME_1_LD0		0x0f		/* microseconds, MSB's */
184 #define H2I_UTIME_1_LD1		0xf0		/* tenths of microseconds */
185 #define H2I_UTIME_2_LD		0xffff		/* seconds, LSB's */
186 #define H2I_UTIME_3_LD		0xffff		/* seconds, MSB's */
187 
188 struct hal2_ctl_regs {
189 	u32 _unused0[4];
190 	u32 isr;		/* 0x10 Status Register */
191 	u32 _unused1[3];
192 	u32 rev;		/* 0x20 Revision Register */
193 	u32 _unused2[3];
194 	u32 iar;		/* 0x30 Indirect Address Register */
195 	u32 _unused3[3];
196 	u32 idr0;		/* 0x40 Indirect Data Register 0 */
197 	u32 _unused4[3];
198 	u32 idr1;		/* 0x50 Indirect Data Register 1 */
199 	u32 _unused5[3];
200 	u32 idr2;		/* 0x60 Indirect Data Register 2 */
201 	u32 _unused6[3];
202 	u32 idr3;		/* 0x70 Indirect Data Register 3 */
203 };
204 
205 struct hal2_aes_regs {
206 	u32 rx_stat[2];	/* Status registers */
207 	u32 rx_cr[2];		/* Control registers */
208 	u32 rx_ud[4];		/* User data window */
209 	u32 rx_st[24];		/* Channel status data */
210 
211 	u32 tx_stat[1];	/* Status register */
212 	u32 tx_cr[3];		/* Control registers */
213 	u32 tx_ud[4];		/* User data window */
214 	u32 tx_st[24];		/* Channel status data */
215 };
216 
217 struct hal2_vol_regs {
218 	u32 right;		/* Right volume */
219 	u32 left;		/* Left volume */
220 };
221 
222 struct hal2_syn_regs {
223 	u32 _unused0[2];
224 	u32 page;		/* DOC Page register */
225 	u32 regsel;		/* DOC Register selection */
226 	u32 dlow;		/* DOC Data low */
227 	u32 dhigh;		/* DOC Data high */
228 	u32 irq;		/* IRQ Status */
229 	u32 dram;		/* DRAM Access */
230 };
231 
232 #endif	/* __HAL2_H */
233