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authorTakashi Iwai <tiwai@suse.de>2005-06-30 20:26:20 +0400
committerJaroslav Kysela <perex@suse.cz>2005-07-28 14:21:18 +0400
commit1bd9debf25b8a5f5029d7619f43e4a9a775973d3 (patch)
treebb3f77f6216e67e125ac932c8133ddc2331f7c90 /sound/sparc
parentab79509a95b1d22c40d4a87823b6a48bc9a12af5 (diff)
downloadlinux-1bd9debf25b8a5f5029d7619f43e4a9a775973d3.tar.xz
[ALSA] Add DBRI driver on Sparcs
Documentation,SPARC,/sparc/Makefile Add the DBRI driver on Sparcs by Martin Habets <mhabets@users.sourceforge.net> (moved from alsa-driver tree). Signed-off-by: Takashi Iwai <tiwai@suse.de>
Diffstat (limited to 'sound/sparc')
-rw-r--r--sound/sparc/Kconfig12
-rw-r--r--sound/sparc/Makefile4
-rw-r--r--sound/sparc/dbri.c2729
3 files changed, 2741 insertions, 4 deletions
diff --git a/sound/sparc/Kconfig b/sound/sparc/Kconfig
index f0fce1daf67d..25a8a558ef92 100644
--- a/sound/sparc/Kconfig
+++ b/sound/sparc/Kconfig
@@ -13,7 +13,6 @@ config SND_SUN_AMD7930
To compile this driver as a module, choose M here: the module
will be called snd-sun-amd7930.
-# dep_tristate 'Sun DBRI' CONFIG_SND_SUN_DBRI $CONFIG_SND
config SND_SUN_CS4231
tristate "Sun CS4231"
depends on SND
@@ -24,5 +23,14 @@ config SND_SUN_CS4231
To compile this driver as a module, choose M here: the module
will be called snd-sun-cs4231.
-endmenu
+config SND_SUN_DBRI
+ tristate "Sun DBRI"
+ depends on SND && SBUS
+ select SND_PCM
+ help
+ Say Y here to include support for DBRI sound device on Sun.
+ To compile this driver as a module, choose M here: the module
+ will be called snd-sun-dbri.
+
+endmenu
diff --git a/sound/sparc/Makefile b/sound/sparc/Makefile
index 6809cc92d276..3cd89c67c2f2 100644
--- a/sound/sparc/Makefile
+++ b/sound/sparc/Makefile
@@ -4,9 +4,9 @@
#
snd-sun-amd7930-objs := amd7930.o
-#snd-sun-dbri-objs := dbri.o
snd-sun-cs4231-objs := cs4231.o
+snd-sun-dbri-objs := dbri.o
obj-$(CONFIG_SND_SUN_AMD7930) += snd-sun-amd7930.o
-#obj-$(CONFIG_SND_SUN_DBRI) += snd-sun-dbri.o
obj-$(CONFIG_SND_SUN_CS4231) += snd-sun-cs4231.o
+obj-$(CONFIG_SND_SUN_DBRI) += snd-sun-dbri.o
diff --git a/sound/sparc/dbri.c b/sound/sparc/dbri.c
new file mode 100644
index 000000000000..941c7b1e7ebb
--- /dev/null
+++ b/sound/sparc/dbri.c
@@ -0,0 +1,2729 @@
+/*
+ * Driver for DBRI sound chip found on Sparcs.
+ * Copyright (C) 2004 Martin Habets (mhabets@users.sourceforge.net)
+ *
+ * Based entirely upon drivers/sbus/audio/dbri.c which is:
+ * Copyright (C) 1997 Rudolf Koenig (rfkoenig@immd4.informatik.uni-erlangen.de)
+ * Copyright (C) 1998, 1999 Brent Baccala (baccala@freesoft.org)
+ *
+ * This is the lowlevel driver for the DBRI & MMCODEC duo used for ISDN & AUDIO
+ * on Sun SPARCstation 10, 20, LX and Voyager models.
+ *
+ * - DBRI: AT&T T5900FX Dual Basic Rates ISDN Interface. It is a 32 channel
+ * data time multiplexer with ISDN support (aka T7259)
+ * Interfaces: SBus,ISDN NT & TE, CHI, 4 bits parallel.
+ * CHI: (spelled ki) Concentration Highway Interface (AT&T or Intel bus ?).
+ * Documentation:
+ * - "STP 4000SBus Dual Basic Rate ISDN (DBRI) Tranceiver" from
+ * Sparc Technology Business (courtesy of Sun Support)
+ * - Data sheet of the T7903, a newer but very similar ISA bus equivalent
+ * available from the Lucent (formarly AT&T microelectronics) home
+ * page.
+ * - http://www.freesoft.org/Linux/DBRI/
+ * - MMCODEC: Crystal Semiconductor CS4215 16 bit Multimedia Audio Codec
+ * Interfaces: CHI, Audio In & Out, 2 bits parallel
+ * Documentation: from the Crystal Semiconductor home page.
+ *
+ * The DBRI is a 32 pipe machine, each pipe can transfer some bits between
+ * memory and a serial device (long pipes, nr 0-15) or between two serial
+ * devices (short pipes, nr 16-31), or simply send a fixed data to a serial
+ * device (short pipes).
+ * A timeslot defines the bit-offset and nr of bits read from a serial device.
+ * The timeslots are linked to 6 circular lists, one for each direction for
+ * each serial device (NT,TE,CHI). A timeslot is associated to 1 or 2 pipes
+ * (the second one is a monitor/tee pipe, valid only for serial input).
+ *
+ * The mmcodec is connected via the CHI bus and needs the data & some
+ * parameters (volume, balance, output selection) timemultiplexed in 8 byte
+ * chunks. It also has a control mode, which serves for audio format setting.
+ *
+ * Looking at the CS4215 data sheet it is easy to set up 2 or 4 codecs on
+ * the same CHI bus, so I thought perhaps it is possible to use the onboard
+ * & the speakerbox codec simultanously, giving 2 (not very independent :-)
+ * audio devices. But the SUN HW group decided against it, at least on my
+ * LX the speakerbox connector has at least 1 pin missing and 1 wrongly
+ * connected.
+ */
+
+#include <sound/driver.h>
+#include <linux/interrupt.h>
+#include <linux/delay.h>
+
+#include <sound/core.h>
+#include <sound/pcm.h>
+#include <sound/pcm_params.h>
+#include <sound/info.h>
+#include <sound/control.h>
+#include <sound/initval.h>
+
+#include <asm/irq.h>
+#include <asm/io.h>
+#include <asm/sbus.h>
+#include <asm/atomic.h>
+
+MODULE_AUTHOR("Rudolf Koenig, Brent Baccala and Martin Habets");
+MODULE_DESCRIPTION("Sun DBRI");
+MODULE_LICENSE("GPL");
+MODULE_SUPPORTED_DEVICE("{{Sun,DBRI}}");
+
+static int index[SNDRV_CARDS] = SNDRV_DEFAULT_IDX; /* Index 0-MAX */
+static char *id[SNDRV_CARDS] = SNDRV_DEFAULT_STR; /* ID for this card */
+static int enable[SNDRV_CARDS] = SNDRV_DEFAULT_ENABLE_PNP; /* Enable this card */
+
+module_param_array(index, int, NULL, 0444);
+MODULE_PARM_DESC(index, "Index value for Sun DBRI soundcard.");
+module_param_array(id, charp, NULL, 0444);
+MODULE_PARM_DESC(id, "ID string for Sun DBRI soundcard.");
+module_param_array(enable, bool, NULL, 0444);
+MODULE_PARM_DESC(enable, "Enable Sun DBRI soundcard.");
+
+#define DBRI_DEBUG
+
+#define D_INT (1<<0)
+#define D_GEN (1<<1)
+#define D_CMD (1<<2)
+#define D_MM (1<<3)
+#define D_USR (1<<4)
+#define D_DESC (1<<5)
+
+static int dbri_debug = 0;
+module_param(dbri_debug, int, 0444);
+MODULE_PARM_DESC(dbri_debug, "Debug value for Sun DBRI soundcard.");
+
+#ifdef DBRI_DEBUG
+static char *cmds[] = {
+ "WAIT", "PAUSE", "JUMP", "IIQ", "REX", "SDP", "CDP", "DTS",
+ "SSP", "CHI", "NT", "TE", "CDEC", "TEST", "CDM", "RESRV"
+};
+
+#define dprintk(a, x...) if(dbri_debug & a) printk(KERN_DEBUG x)
+
+#define DBRI_CMD(cmd, intr, value) ((cmd << 28) | \
+ (1 << 27) | \
+ value)
+#else
+#define dprintk(a, x...)
+
+#define DBRI_CMD(cmd, intr, value) ((cmd << 28) | \
+ (intr << 27) | \
+ value)
+#endif /* DBRI_DEBUG */
+
+/***************************************************************************
+ CS4215 specific definitions and structures
+****************************************************************************/
+
+struct cs4215 {
+ __u8 data[4]; /* Data mode: Time slots 5-8 */
+ __u8 ctrl[4]; /* Ctrl mode: Time slots 1-4 */
+ __u8 onboard;
+ __u8 offset; /* Bit offset from frame sync to time slot 1 */
+ volatile __u32 status;
+ volatile __u32 version;
+ __u8 precision; /* In bits, either 8 or 16 */
+ __u8 channels; /* 1 or 2 */
+};
+
+/*
+ * Control mode first
+ */
+
+/* Time Slot 1, Status register */
+#define CS4215_CLB (1<<2) /* Control Latch Bit */
+#define CS4215_OLB (1<<3) /* 1: line: 2.0V, speaker 4V */
+ /* 0: line: 2.8V, speaker 8V */
+#define CS4215_MLB (1<<4) /* 1: Microphone: 20dB gain disabled */
+#define CS4215_RSRVD_1 (1<<5)
+
+/* Time Slot 2, Data Format Register */
+#define CS4215_DFR_LINEAR16 0
+#define CS4215_DFR_ULAW 1
+#define CS4215_DFR_ALAW 2
+#define CS4215_DFR_LINEAR8 3
+#define CS4215_DFR_STEREO (1<<2)
+static struct {
+ unsigned short freq;
+ unsigned char xtal;
+ unsigned char csval;
+} CS4215_FREQ[] = {
+ { 8000, (1 << 4), (0 << 3) },
+ { 16000, (1 << 4), (1 << 3) },
+ { 27429, (1 << 4), (2 << 3) }, /* Actually 24428.57 */
+ { 32000, (1 << 4), (3 << 3) },
+ /* { NA, (1 << 4), (4 << 3) }, */
+ /* { NA, (1 << 4), (5 << 3) }, */
+ { 48000, (1 << 4), (6 << 3) },
+ { 9600, (1 << 4), (7 << 3) },
+ { 5513, (2 << 4), (0 << 3) }, /* Actually 5512.5 */
+ { 11025, (2 << 4), (1 << 3) },
+ { 18900, (2 << 4), (2 << 3) },
+ { 22050, (2 << 4), (3 << 3) },
+ { 37800, (2 << 4), (4 << 3) },
+ { 44100, (2 << 4), (5 << 3) },
+ { 33075, (2 << 4), (6 << 3) },
+ { 6615, (2 << 4), (7 << 3) },
+ { 0, 0, 0}
+};
+
+#define CS4215_HPF (1<<7) /* High Pass Filter, 1: Enabled */
+
+#define CS4215_12_MASK 0xfcbf /* Mask off reserved bits in slot 1 & 2 */
+
+/* Time Slot 3, Serial Port Control register */
+#define CS4215_XEN (1<<0) /* 0: Enable serial output */
+#define CS4215_XCLK (1<<1) /* 1: Master mode: Generate SCLK */
+#define CS4215_BSEL_64 (0<<2) /* Bitrate: 64 bits per frame */
+#define CS4215_BSEL_128 (1<<2)
+#define CS4215_BSEL_256 (2<<2)
+#define CS4215_MCK_MAST (0<<4) /* Master clock */
+#define CS4215_MCK_XTL1 (1<<4) /* 24.576 MHz clock source */
+#define CS4215_MCK_XTL2 (2<<4) /* 16.9344 MHz clock source */
+#define CS4215_MCK_CLK1 (3<<4) /* Clockin, 256 x Fs */
+#define CS4215_MCK_CLK2 (4<<4) /* Clockin, see DFR */
+
+/* Time Slot 4, Test Register */
+#define CS4215_DAD (1<<0) /* 0:Digital-Dig loop, 1:Dig-Analog-Dig loop */
+#define CS4215_ENL (1<<1) /* Enable Loopback Testing */
+
+/* Time Slot 5, Parallel Port Register */
+/* Read only here and the same as the in data mode */
+
+/* Time Slot 6, Reserved */
+
+/* Time Slot 7, Version Register */
+#define CS4215_VERSION_MASK 0xf /* Known versions 0/C, 1/D, 2/E */
+
+/* Time Slot 8, Reserved */
+
+/*
+ * Data mode
+ */
+/* Time Slot 1-2: Left Channel Data, 2-3: Right Channel Data */
+
+/* Time Slot 5, Output Setting */
+#define CS4215_LO(v) v /* Left Output Attenuation 0x3f: -94.5 dB */
+#define CS4215_LE (1<<6) /* Line Out Enable */
+#define CS4215_HE (1<<7) /* Headphone Enable */
+
+/* Time Slot 6, Output Setting */
+#define CS4215_RO(v) v /* Right Output Attenuation 0x3f: -94.5 dB */
+#define CS4215_SE (1<<6) /* Speaker Enable */
+#define CS4215_ADI (1<<7) /* A/D Data Invalid: Busy in calibration */
+
+/* Time Slot 7, Input Setting */
+#define CS4215_LG(v) v /* Left Gain Setting 0xf: 22.5 dB */
+#define CS4215_IS (1<<4) /* Input Select: 1=Microphone, 0=Line */
+#define CS4215_OVR (1<<5) /* 1: Overrange condition occurred */
+#define CS4215_PIO0 (1<<6) /* Parallel I/O 0 */
+#define CS4215_PIO1 (1<<7)
+
+/* Time Slot 8, Input Setting */
+#define CS4215_RG(v) v /* Right Gain Setting 0xf: 22.5 dB */
+#define CS4215_MA(v) (v<<4) /* Monitor Path Attenuation 0xf: mute */
+
+/***************************************************************************
+ DBRI specific definitions and structures
+****************************************************************************/
+
+/* DBRI main registers */
+#define REG0 0x00UL /* Status and Control */
+#define REG1 0x04UL /* Mode and Interrupt */
+#define REG2 0x08UL /* Parallel IO */
+#define REG3 0x0cUL /* Test */
+#define REG8 0x20UL /* Command Queue Pointer */
+#define REG9 0x24UL /* Interrupt Queue Pointer */
+
+#define DBRI_NO_CMDS 64
+#define DBRI_NO_INTS 1 /* Note: the value of this define was
+ * originally 2. The ringbuffer to store
+ * interrupts in dma is currently broken.
+ * This is a temporary fix until the ringbuffer
+ * is fixed.
+ */
+#define DBRI_INT_BLK 64
+#define DBRI_NO_DESCS 64
+#define DBRI_NO_PIPES 32
+
+#define DBRI_MM_ONB 1
+#define DBRI_MM_SB 2
+
+#define DBRI_REC 0
+#define DBRI_PLAY 1
+#define DBRI_NO_STREAMS 2
+
+/* One transmit/receive descriptor */
+struct dbri_mem {
+ volatile __u32 word1;
+ volatile __u32 ba; /* Transmit/Receive Buffer Address */
+ volatile __u32 nda; /* Next Descriptor Address */
+ volatile __u32 word4;
+};
+
+/* This structure is in a DMA region where it can accessed by both
+ * the CPU and the DBRI
+ */
+struct dbri_dma {
+ volatile s32 cmd[DBRI_NO_CMDS]; /* Place for commands */
+ volatile s32 intr[DBRI_NO_INTS * DBRI_INT_BLK]; /* Interrupt field */
+ struct dbri_mem desc[DBRI_NO_DESCS]; /* Xmit/receive descriptors */
+};
+
+#define dbri_dma_off(member, elem) \
+ ((u32)(unsigned long) \
+ (&(((struct dbri_dma *)0)->member[elem])))
+
+enum in_or_out { PIPEinput, PIPEoutput };
+
+struct dbri_pipe {
+ u32 sdp; /* SDP command word */
+ enum in_or_out direction;
+ int nextpipe; /* Next pipe in linked list */
+ int prevpipe;
+ int cycle; /* Offset of timeslot (bits) */
+ int length; /* Length of timeslot (bits) */
+ int first_desc; /* Index of first descriptor */
+ int desc; /* Index of active descriptor */
+ volatile __u32 *recv_fixed_ptr; /* Ptr to receive fixed data */
+};
+
+struct dbri_desc {
+ int inuse; /* Boolean flag */
+ int next; /* Index of next desc, or -1 */
+ unsigned int len;
+};
+
+/* Per stream (playback or record) information */
+typedef struct dbri_streaminfo {
+ snd_pcm_substream_t *substream;
+ u32 dvma_buffer; /* Device view of Alsa DMA buffer */
+ int left; /* # of bytes left in DMA buffer */
+ int size; /* Size of DMA buffer */
+ size_t offset; /* offset in user buffer */
+ int pipe; /* Data pipe used */
+ int left_gain; /* mixer elements */
+ int right_gain;
+ int balance;
+} dbri_streaminfo_t;
+
+/* This structure holds the information for both chips (DBRI & CS4215) */
+typedef struct snd_dbri {
+ snd_card_t *card; /* ALSA card */
+ snd_pcm_t *pcm;
+
+ int regs_size, irq; /* Needed for unload */
+ struct sbus_dev *sdev; /* SBUS device info */
+ spinlock_t lock;
+
+ volatile struct dbri_dma *dma; /* Pointer to our DMA block */
+ u32 dma_dvma; /* DBRI visible DMA address */
+
+ void __iomem *regs; /* dbri HW regs */
+ int dbri_version; /* 'e' and up is OK */
+ int dbri_irqp; /* intr queue pointer */
+ int wait_seen;
+
+ struct dbri_pipe pipes[DBRI_NO_PIPES]; /* DBRI's 32 data pipes */
+ struct dbri_desc descs[DBRI_NO_DESCS];
+
+ int chi_in_pipe;
+ int chi_out_pipe;
+ int chi_bpf;
+
+ struct cs4215 mm; /* mmcodec special info */
+ /* per stream (playback/record) info */
+ struct dbri_streaminfo stream_info[DBRI_NO_STREAMS];
+
+ struct snd_dbri *next;
+} snd_dbri_t;
+
+/* Needed for the ALSA macros to work */
+#define chip_t snd_dbri_t
+
+#define DBRI_MAX_VOLUME 63 /* Output volume */
+#define DBRI_MAX_GAIN 15 /* Input gain */
+#define DBRI_RIGHT_BALANCE 255
+#define DBRI_MID_BALANCE (DBRI_RIGHT_BALANCE >> 1)
+
+/* DBRI Reg0 - Status Control Register - defines. (Page 17) */
+#define D_P (1<<15) /* Program command & queue pointer valid */
+#define D_G (1<<14) /* Allow 4-Word SBus Burst */
+#define D_S (1<<13) /* Allow 16-Word SBus Burst */
+#define D_E (1<<12) /* Allow 8-Word SBus Burst */
+#define D_X (1<<7) /* Sanity Timer Disable */
+#define D_T (1<<6) /* Permit activation of the TE interface */
+#define D_N (1<<5) /* Permit activation of the NT interface */
+#define D_C (1<<4) /* Permit activation of the CHI interface */
+#define D_F (1<<3) /* Force Sanity Timer Time-Out */
+#define D_D (1<<2) /* Disable Master Mode */
+#define D_H (1<<1) /* Halt for Analysis */
+#define D_R (1<<0) /* Soft Reset */
+
+/* DBRI Reg1 - Mode and Interrupt Register - defines. (Page 18) */
+#define D_LITTLE_END (1<<8) /* Byte Order */
+#define D_BIG_END (0<<8) /* Byte Order */
+#define D_MRR (1<<4) /* Multiple Error Ack on SBus (readonly) */
+#define D_MLE (1<<3) /* Multiple Late Error on SBus (readonly) */
+#define D_LBG (1<<2) /* Lost Bus Grant on SBus (readonly) */
+#define D_MBE (1<<1) /* Burst Error on SBus (readonly) */
+#define D_IR (1<<0) /* Interrupt Indicator (readonly) */
+
+/* DBRI Reg2 - Parallel IO Register - defines. (Page 18) */
+#define D_ENPIO3 (1<<7) /* Enable Pin 3 */
+#define D_ENPIO2 (1<<6) /* Enable Pin 2 */
+#define D_ENPIO1 (1<<5) /* Enable Pin 1 */
+#define D_ENPIO0 (1<<4) /* Enable Pin 0 */
+#define D_ENPIO (0xf0) /* Enable all the pins */
+#define D_PIO3 (1<<3) /* Pin 3: 1: Data mode, 0: Ctrl mode */
+#define D_PIO2 (1<<2) /* Pin 2: 1: Onboard PDN */
+#define D_PIO1 (1<<1) /* Pin 1: 0: Reset */
+#define D_PIO0 (1<<0) /* Pin 0: 1: Speakerbox PDN */
+
+/* DBRI Commands (Page 20) */
+#define D_WAIT 0x0 /* Stop execution */
+#define D_PAUSE 0x1 /* Flush long pipes */
+#define D_JUMP 0x2 /* New command queue */
+#define D_IIQ 0x3 /* Initialize Interrupt Queue */
+#define D_REX 0x4 /* Report command execution via interrupt */
+#define D_SDP 0x5 /* Setup Data Pipe */
+#define D_CDP 0x6 /* Continue Data Pipe (reread NULL Pointer) */
+#define D_DTS 0x7 /* Define Time Slot */
+#define D_SSP 0x8 /* Set short Data Pipe */
+#define D_CHI 0x9 /* Set CHI Global Mode */
+#define D_NT 0xa /* NT Command */
+#define D_TE 0xb /* TE Command */
+#define D_CDEC 0xc /* Codec setup */
+#define D_TEST 0xd /* No comment */
+#define D_CDM 0xe /* CHI Data mode command */
+
+/* Special bits for some commands */
+#define D_PIPE(v) ((v)<<0) /* Pipe Nr: 0-15 long, 16-21 short */
+
+/* Setup Data Pipe */
+/* IRM */
+#define D_SDP_2SAME (1<<18) /* Report 2nd time in a row value rcvd */
+#define D_SDP_CHANGE (2<<18) /* Report any changes */
+#define D_SDP_EVERY (3<<18) /* Report any changes */
+#define D_SDP_EOL (1<<17) /* EOL interrupt enable */
+#define D_SDP_IDLE (1<<16) /* HDLC idle interrupt enable */
+
+/* Pipe data MODE */
+#define D_SDP_MEM (0<<13) /* To/from memory */
+#define D_SDP_HDLC (2<<13)
+#define D_SDP_HDLC_D (3<<13) /* D Channel (prio control) */
+#define D_SDP_SER (4<<13) /* Serial to serial */
+#define D_SDP_FIXED (6<<13) /* Short only */
+#define D_SDP_MODE(v) ((v)&(7<<13))
+
+#define D_SDP_TO_SER (1<<12) /* Direction */
+#define D_SDP_FROM_SER (0<<12) /* Direction */
+#define D_SDP_MSB (1<<11) /* Bit order within Byte */
+#define D_SDP_LSB (0<<11) /* Bit order within Byte */
+#define D_SDP_P (1<<10) /* Pointer Valid */
+#define D_SDP_A (1<<8) /* Abort */
+#define D_SDP_C (1<<7) /* Clear */
+
+/* Define Time Slot */
+#define D_DTS_VI (1<<17) /* Valid Input Time-Slot Descriptor */
+#define D_DTS_VO (1<<16) /* Valid Output Time-Slot Descriptor */
+#define D_DTS_INS (1<<15) /* Insert Time Slot */
+#define D_DTS_DEL (0<<15) /* Delete Time Slot */
+#define D_DTS_PRVIN(v) ((v)<<10) /* Previous In Pipe */
+#define D_DTS_PRVOUT(v) ((v)<<5) /* Previous Out Pipe */
+
+/* Time Slot defines */
+#define D_TS_LEN(v) ((v)<<24) /* Number of bits in this time slot */
+#define D_TS_CYCLE(v) ((v)<<14) /* Bit Count at start of TS */
+#define D_TS_DI (1<<13) /* Data Invert */
+#define D_TS_1CHANNEL (0<<10) /* Single Channel / Normal mode */
+#define D_TS_MONITOR (2<<10) /* Monitor pipe */
+#define D_TS_NONCONTIG (3<<10) /* Non contiguous mode */
+#define D_TS_ANCHOR (7<<10) /* Starting short pipes */
+#define D_TS_MON(v) ((v)<<5) /* Monitor Pipe */
+#define D_TS_NEXT(v) ((v)<<0) /* Pipe Nr: 0-15 long, 16-21 short */
+
+/* Concentration Highway Interface Modes */
+#define D_CHI_CHICM(v) ((v)<<16) /* Clock mode */
+#define D_CHI_IR (1<<15) /* Immediate Interrupt Report */
+#define D_CHI_EN (1<<14) /* CHIL Interrupt enabled */
+#define D_CHI_OD (1<<13) /* Open Drain Enable */
+#define D_CHI_FE (1<<12) /* Sample CHIFS on Rising Frame Edge */
+#define D_CHI_FD (1<<11) /* Frame Drive */
+#define D_CHI_BPF(v) ((v)<<0) /* Bits per Frame */
+
+/* NT: These are here for completeness */
+#define D_NT_FBIT (1<<17) /* Frame Bit */
+#define D_NT_NBF (1<<16) /* Number of bad frames to loose framing */
+#define D_NT_IRM_IMM (1<<15) /* Interrupt Report & Mask: Immediate */
+#define D_NT_IRM_EN (1<<14) /* Interrupt Report & Mask: Enable */
+#define D_NT_ISNT (1<<13) /* Configfure interface as NT */
+#define D_NT_FT (1<<12) /* Fixed Timing */
+#define D_NT_EZ (1<<11) /* Echo Channel is Zeros */
+#define D_NT_IFA (1<<10) /* Inhibit Final Activation */
+#define D_NT_ACT (1<<9) /* Activate Interface */
+#define D_NT_MFE (1<<8) /* Multiframe Enable */
+#define D_NT_RLB(v) ((v)<<5) /* Remote Loopback */
+#define D_NT_LLB(v) ((v)<<2) /* Local Loopback */
+#define D_NT_FACT (1<<1) /* Force Activation */
+#define D_NT_ABV (1<<0) /* Activate Bipolar Violation */
+
+/* Codec Setup */
+#define D_CDEC_CK(v) ((v)<<24) /* Clock Select */
+#define D_CDEC_FED(v) ((v)<<12) /* FSCOD Falling Edge Delay */
+#define D_CDEC_RED(v) ((v)<<0) /* FSCOD Rising Edge Delay */
+
+/* Test */
+#define D_TEST_RAM(v) ((v)<<16) /* RAM Pointer */
+#define D_TEST_SIZE(v) ((v)<<11) /* */
+#define D_TEST_ROMONOFF 0x5 /* Toggle ROM opcode monitor on/off */
+#define D_TEST_PROC 0x6 /* MicroProcessor test */
+#define D_TEST_SER 0x7 /* Serial-Controller test */
+#define D_TEST_RAMREAD 0x8 /* Copy from Ram to system memory */
+#define D_TEST_RAMWRITE 0x9 /* Copy into Ram from system memory */
+#define D_TEST_RAMBIST 0xa /* RAM Built-In Self Test */
+#define D_TEST_MCBIST 0xb /* Microcontroller Built-In Self Test */
+#define D_TEST_DUMP 0xe /* ROM Dump */
+
+/* CHI Data Mode */
+#define D_CDM_THI (1<<8) /* Transmit Data on CHIDR Pin */
+#define D_CDM_RHI (1<<7) /* Receive Data on CHIDX Pin */
+#define D_CDM_RCE (1<<6) /* Receive on Rising Edge of CHICK */
+#define D_CDM_XCE (1<<2) /* Transmit Data on Rising Edge of CHICK */
+#define D_CDM_XEN (1<<1) /* Transmit Highway Enable */
+#define D_CDM_REN (1<<0) /* Receive Highway Enable */
+
+/* The Interrupts */
+#define D_INTR_BRDY 1 /* Buffer Ready for processing */
+#define D_INTR_MINT 2 /* Marked Interrupt in RD/TD */
+#define D_INTR_IBEG 3 /* Flag to idle transition detected (HDLC) */
+#define D_INTR_IEND 4 /* Idle to flag transition detected (HDLC) */
+#define D_INTR_EOL 5 /* End of List */
+#define D_INTR_CMDI 6 /* Command has bean read */
+#define D_INTR_XCMP 8 /* Transmission of frame complete */
+#define D_INTR_SBRI 9 /* BRI status change info */
+#define D_INTR_FXDT 10 /* Fixed data change */
+#define D_INTR_CHIL 11 /* CHI lost frame sync (channel 36 only) */
+#define D_INTR_COLL 11 /* Unrecoverable D-Channel collision */
+#define D_INTR_DBYT 12 /* Dropped by frame slip */
+#define D_INTR_RBYT 13 /* Repeated by frame slip */
+#define D_INTR_LINT 14 /* Lost Interrupt */
+#define D_INTR_UNDR 15 /* DMA underrun */
+
+#define D_INTR_TE 32
+#define D_INTR_NT 34
+#define D_INTR_CHI 36
+#define D_INTR_CMD 38
+
+#define D_INTR_GETCHAN(v) (((v)>>24) & 0x3f)
+#define D_INTR_GETCODE(v) (((v)>>20) & 0xf)
+#define D_INTR_GETCMD(v) (((v)>>16) & 0xf)
+#define D_INTR_GETVAL(v) ((v) & 0xffff)
+#define D_INTR_GETRVAL(v) ((v) & 0xfffff)
+
+#define D_P_0 0 /* TE receive anchor */
+#define D_P_1 1 /* TE transmit anchor */
+#define D_P_2 2 /* NT transmit anchor */
+#define D_P_3 3 /* NT receive anchor */
+#define D_P_4 4 /* CHI send data */
+#define D_P_5 5 /* CHI receive data */
+#define D_P_6 6 /* */
+#define D_P_7 7 /* */
+#define D_P_8 8 /* */
+#define D_P_9 9 /* */
+#define D_P_10 10 /* */
+#define D_P_11 11 /* */
+#define D_P_12 12 /* */
+#define D_P_13 13 /* */
+#define D_P_14 14 /* */
+#define D_P_15 15 /* */
+#define D_P_16 16 /* CHI anchor pipe */
+#define D_P_17 17 /* CHI send */
+#define D_P_18 18 /* CHI receive */
+#define D_P_19 19 /* CHI receive */
+#define D_P_20 20 /* CHI receive */
+#define D_P_21 21 /* */
+#define D_P_22 22 /* */
+#define D_P_23 23 /* */
+#define D_P_24 24 /* */
+#define D_P_25 25 /* */
+#define D_P_26 26 /* */
+#define D_P_27 27 /* */
+#define D_P_28 28 /* */
+#define D_P_29 29 /* */
+#define D_P_30 30 /* */
+#define D_P_31 31 /* */
+
+/* Transmit descriptor defines */
+#define DBRI_TD_F (1<<31) /* End of Frame */
+#define DBRI_TD_D (1<<30) /* Do not append CRC */
+#define DBRI_TD_CNT(v) ((v)<<16) /* Number of valid bytes in the buffer */
+#define DBRI_TD_B (1<<15) /* Final interrupt */
+#define DBRI_TD_M (1<<14) /* Marker interrupt */
+#define DBRI_TD_I (1<<13) /* Transmit Idle Characters */
+#define DBRI_TD_FCNT(v) (v) /* Flag Count */
+#define DBRI_TD_UNR (1<<3) /* Underrun: transmitter is out of data */
+#define DBRI_TD_ABT (1<<2) /* Abort: frame aborted */
+#define DBRI_TD_TBC (1<<0) /* Transmit buffer Complete */
+#define DBRI_TD_STATUS(v) ((v)&0xff) /* Transmit status */
+ /* Maximum buffer size per TD: almost 8Kb */
+#define DBRI_TD_MAXCNT ((1 << 13) - 1)
+
+/* Receive descriptor defines */
+#define DBRI_RD_F (1<<31) /* End of Frame */
+#define DBRI_RD_C (1<<30) /* Completed buffer */
+#define DBRI_RD_B (1<<15) /* Final interrupt */
+#define DBRI_RD_M (1<<14) /* Marker interrupt */
+#define DBRI_RD_BCNT(v) (v) /* Buffer size */
+#define DBRI_RD_CRC (1<<7) /* 0: CRC is correct */
+#define DBRI_RD_BBC (1<<6) /* 1: Bad Byte received */
+#define DBRI_RD_ABT (1<<5) /* Abort: frame aborted */
+#define DBRI_RD_OVRN (1<<3) /* Overrun: data lost */
+#define DBRI_RD_STATUS(v) ((v)&0xff) /* Receive status */
+#define DBRI_RD_CNT(v) (((v)>>16)&0x1fff) /* Valid bytes in the buffer */
+
+/* stream_info[] access */
+/* Translate the ALSA direction into the array index */
+#define DBRI_STREAMNO(substream) \
+ (substream->stream == \
+ SNDRV_PCM_STREAM_PLAYBACK? DBRI_PLAY: DBRI_REC)
+
+/* Return a pointer to dbri_streaminfo */
+#define DBRI_STREAM(dbri, substream) &dbri->stream_info[DBRI_STREAMNO(substream)]
+
+static snd_dbri_t *dbri_list = NULL; /* All DBRI devices */
+
+/*
+ * Short data pipes transmit LSB first. The CS4215 receives MSB first. Grrr.
+ * So we have to reverse the bits. Note: not all bit lengths are supported
+ */
+static __u32 reverse_bytes(__u32 b, int len)
+{
+ switch (len) {
+ case 32:
+ b = ((b & 0xffff0000) >> 16) | ((b & 0x0000ffff) << 16);
+ case 16:
+ b = ((b & 0xff00ff00) >> 8) | ((b & 0x00ff00ff) << 8);
+ case 8:
+ b = ((b & 0xf0f0f0f0) >> 4) | ((b & 0x0f0f0f0f) << 4);
+ case 4:
+ b = ((b & 0xcccccccc) >> 2) | ((b & 0x33333333) << 2);
+ case 2:
+ b = ((b & 0xaaaaaaaa) >> 1) | ((b & 0x55555555) << 1);
+ case 1:
+ case 0:
+ break;
+ default:
+ printk(KERN_ERR "DBRI reverse_bytes: unsupported length\n");
+ };
+
+ return b;
+}
+
+/*
+****************************************************************************
+************** DBRI initialization and command synchronization *************
+****************************************************************************
+
+Commands are sent to the DBRI by building a list of them in memory,
+then writing the address of the first list item to DBRI register 8.
+The list is terminated with a WAIT command, which can generate a
+CPU interrupt if required.
+
+Since the DBRI can run in parallel with the CPU, several means of
+synchronization present themselves. The original scheme (Rudolf's)
+was to set a flag when we "cmdlock"ed the DBRI, clear the flag when
+an interrupt signaled completion, and wait on a wait_queue if a routine
+attempted to cmdlock while the flag was set. The problems arose when
+we tried to cmdlock from inside an interrupt handler, which might
+cause scheduling in an interrupt (if we waited), etc, etc
+
+A more sophisticated scheme might involve a circular command buffer
+or an array of command buffers. A routine could fill one with
+commands and link it onto a list. When a interrupt signaled
+completion of the current command buffer, look on the list for
+the next one.
+
+I've decided to implement something much simpler - after each command,
+the CPU waits for the DBRI to finish the command by polling the P bit
+in DBRI register 0. I've tried to implement this in such a way
+that might make implementing a more sophisticated scheme easier.
+
+Every time a routine wants to write commands to the DBRI, it must
+first call dbri_cmdlock() and get an initial pointer into dbri->dma->cmd
+in return. After the commands have been writen, dbri_cmdsend() is
+called with the final pointer value.
+
+*/
+
+enum dbri_lock_t { NoGetLock, GetLock };
+
+static volatile s32 *dbri_cmdlock(snd_dbri_t * dbri, enum dbri_lock_t get)
+{
+#ifndef SMP
+ if ((get == GetLock) && spin_is_locked(&dbri->lock)) {
+ printk(KERN_ERR "DBRI: cmdlock called while in spinlock.");
+ }
+#endif
+
+ /*if (get == GetLock) spin_lock(&dbri->lock); */
+ return &dbri->dma->cmd[0];
+}
+
+static void dbri_process_interrupt_buffer(snd_dbri_t *);
+
+static void dbri_cmdsend(snd_dbri_t * dbri, volatile s32 * cmd)
+{
+ int MAXLOOPS = 1000000;
+ int maxloops = MAXLOOPS;
+ volatile s32 *ptr;
+
+ for (ptr = &dbri->dma->cmd[0]; ptr < cmd; ptr++) {
+ dprintk(D_CMD, "cmd: %lx:%08x\n", (unsigned long)ptr, *ptr);
+ }
+
+ if ((cmd - &dbri->dma->cmd[0]) >= DBRI_NO_CMDS - 1) {
+ printk("DBRI: Command buffer overflow! (bug in driver)\n");
+ /* Ignore the last part. */
+ cmd = &dbri->dma->cmd[DBRI_NO_CMDS - 3];
+ }
+
+ *(cmd++) = DBRI_CMD(D_PAUSE, 0, 0);
+ *(cmd++) = DBRI_CMD(D_WAIT, 1, 0);
+ dbri->wait_seen = 0;
+ sbus_writel(dbri->dma_dvma, dbri->regs + REG8);
+ while ((--maxloops) > 0 && (sbus_readl(dbri->regs + REG0) & D_P))
+ barrier();
+ if (maxloops == 0) {
+ printk(KERN_ERR "DBRI: Chip never completed command buffer\n");
+ dprintk(D_CMD, "DBRI: Chip never completed command buffer\n");
+ } else {
+ while ((--maxloops) > 0 && (!dbri->wait_seen))
+ dbri_process_interrupt_buffer(dbri);
+ if (maxloops == 0) {
+ printk(KERN_ERR "DBRI: Chip never acked WAIT\n");
+ dprintk(D_CMD, "DBRI: Chip never acked WAIT\n");
+ } else {
+ dprintk(D_CMD, "Chip completed command "
+ "buffer (%d)\n", MAXLOOPS - maxloops);
+ }
+ }
+
+ /*spin_unlock(&dbri->lock); */
+}
+
+/* Lock must be held when calling this */
+static void dbri_reset(snd_dbri_t * dbri)
+{
+ int i;
+
+ dprintk(D_GEN, "reset 0:%x 2:%x 8:%x 9:%x\n",
+ sbus_readl(dbri->regs + REG0),
+ sbus_readl(dbri->regs + REG2),
+ sbus_readl(dbri->regs + REG8), sbus_readl(dbri->regs + REG9));
+
+ sbus_writel(D_R, dbri->regs + REG0); /* Soft Reset */
+ for (i = 0; (sbus_readl(dbri->regs + REG0) & D_R) && i < 64; i++)
+ udelay(10);
+}
+
+/* Lock must not be held before calling this */
+static void dbri_initialize(snd_dbri_t * dbri)
+{
+ volatile s32 *cmd;
+ u32 dma_addr, tmp;
+ unsigned long flags;
+ int n;
+
+ spin_lock_irqsave(&dbri->lock, flags);
+
+ dbri_reset(dbri);
+
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+ dprintk(D_GEN, "init: cmd: %p, int: %p\n",
+ &dbri->dma->cmd[0], &dbri->dma->intr[0]);
+
+ /*
+ * Initialize the interrupt ringbuffer.
+ */
+ for (n = 0; n < DBRI_NO_INTS - 1; n++) {
+ dma_addr = dbri->dma_dvma;
+ dma_addr += dbri_dma_off(intr, ((n + 1) & DBRI_INT_BLK));
+ dbri->dma->intr[n * DBRI_INT_BLK] = dma_addr;
+ }
+ dma_addr = dbri->dma_dvma + dbri_dma_off(intr, 0);
+ dbri->dma->intr[n * DBRI_INT_BLK] = dma_addr;
+ dbri->dbri_irqp = 1;
+
+ /* Initialize pipes */
+ for (n = 0; n < DBRI_NO_PIPES; n++)
+ dbri->pipes[n].desc = dbri->pipes[n].first_desc = -1;
+
+ /* We should query the openprom to see what burst sizes this
+ * SBus supports. For now, just disable all SBus bursts */
+ tmp = sbus_readl(dbri->regs + REG0);
+ tmp &= ~(D_G | D_S | D_E);
+ sbus_writel(tmp, dbri->regs + REG0);
+
+ /*
+ * Set up the interrupt queue
+ */
+ dma_addr = dbri->dma_dvma + dbri_dma_off(intr, 0);
+ *(cmd++) = DBRI_CMD(D_IIQ, 0, 0);
+ *(cmd++) = dma_addr;
+
+ dbri_cmdsend(dbri, cmd);
+ spin_unlock_irqrestore(&dbri->lock, flags);
+}
+
+/*
+****************************************************************************
+************************** DBRI data pipe management ***********************
+****************************************************************************
+
+While DBRI control functions use the command and interrupt buffers, the
+main data path takes the form of data pipes, which can be short (command
+and interrupt driven), or long (attached to DMA buffers). These functions
+provide a rudimentary means of setting up and managing the DBRI's pipes,
+but the calling functions have to make sure they respect the pipes' linked
+list ordering, among other things. The transmit and receive functions
+here interface closely with the transmit and receive interrupt code.
+
+*/
+static int pipe_active(snd_dbri_t * dbri, int pipe)
+{
+ return ((pipe >= 0) && (dbri->pipes[pipe].desc != -1));
+}
+
+/* reset_pipe(dbri, pipe)
+ *
+ * Called on an in-use pipe to clear anything being transmitted or received
+ * Lock must be held before calling this.
+ */
+static void reset_pipe(snd_dbri_t * dbri, int pipe)
+{
+ int sdp;
+ int desc;
+ volatile int *cmd;
+
+ if (pipe < 0 || pipe > 31) {
+ printk("DBRI: reset_pipe called with illegal pipe number\n");
+ return;
+ }
+
+ sdp = dbri->pipes[pipe].sdp;
+ if (sdp == 0) {
+ printk("DBRI: reset_pipe called on uninitialized pipe\n");
+ return;
+ }
+
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+ *(cmd++) = DBRI_CMD(D_SDP, 0, sdp | D_SDP_C | D_SDP_P);
+ *(cmd++) = 0;
+ dbri_cmdsend(dbri, cmd);
+
+ desc = dbri->pipes[pipe].first_desc;
+ while (desc != -1) {
+ dbri->descs[desc].inuse = 0;
+ desc = dbri->descs[desc].next;
+ }
+
+ dbri->pipes[pipe].desc = -1;
+ dbri->pipes[pipe].first_desc = -1;
+}
+
+/* FIXME: direction as an argument? */
+static void setup_pipe(snd_dbri_t * dbri, int pipe, int sdp)
+{
+ if (pipe < 0 || pipe > 31) {
+ printk("DBRI: setup_pipe called with illegal pipe number\n");
+ return;
+ }
+
+ if ((sdp & 0xf800) != sdp) {
+ printk("DBRI: setup_pipe called with strange SDP value\n");
+ /* sdp &= 0xf800; */
+ }
+
+ /* If this is a fixed receive pipe, arrange for an interrupt
+ * every time its data changes
+ */
+ if (D_SDP_MODE(sdp) == D_SDP_FIXED && !(sdp & D_SDP_TO_SER))
+ sdp |= D_SDP_CHANGE;
+
+ sdp |= D_PIPE(pipe);
+ dbri->pipes[pipe].sdp = sdp;
+ dbri->pipes[pipe].desc = -1;
+ dbri->pipes[pipe].first_desc = -1;
+ if (sdp & D_SDP_TO_SER)
+ dbri->pipes[pipe].direction = PIPEoutput;
+ else
+ dbri->pipes[pipe].direction = PIPEinput;
+
+ reset_pipe(dbri, pipe);
+}
+
+/* FIXME: direction not needed */
+static void link_time_slot(snd_dbri_t * dbri, int pipe,
+ enum in_or_out direction, int basepipe,
+ int length, int cycle)
+{
+ volatile s32 *cmd;
+ int val;
+ int prevpipe;
+ int nextpipe;
+
+ if (pipe < 0 || pipe > 31 || basepipe < 0 || basepipe > 31) {
+ printk
+ ("DBRI: link_time_slot called with illegal pipe number\n");
+ return;
+ }
+
+ if (dbri->pipes[pipe].sdp == 0 || dbri->pipes[basepipe].sdp == 0) {
+ printk("DBRI: link_time_slot called on uninitialized pipe\n");
+ return;
+ }
+
+ /* Deal with CHI special case:
+ * "If transmission on edges 0 or 1 is desired, then cycle n
+ * (where n = # of bit times per frame...) must be used."
+ * - DBRI data sheet, page 11
+ */
+ if (basepipe == 16 && direction == PIPEoutput && cycle == 0)
+ cycle = dbri->chi_bpf;
+
+ if (basepipe == pipe) {
+ prevpipe = pipe;
+ nextpipe = pipe;
+ } else {
+ /* We're not initializing a new linked list (basepipe != pipe),
+ * so run through the linked list and find where this pipe
+ * should be sloted in, based on its cycle. CHI confuses
+ * things a bit, since it has a single anchor for both its
+ * transmit and receive lists.
+ */
+ if (basepipe == 16) {
+ if (direction == PIPEinput) {
+ prevpipe = dbri->chi_in_pipe;
+ } else {
+ prevpipe = dbri->chi_out_pipe;
+ }
+ } else {
+ prevpipe = basepipe;
+ }
+
+ nextpipe = dbri->pipes[prevpipe].nextpipe;
+
+ while (dbri->pipes[nextpipe].cycle < cycle
+ && dbri->pipes[nextpipe].nextpipe != basepipe) {
+ prevpipe = nextpipe;
+ nextpipe = dbri->pipes[nextpipe].nextpipe;
+ }
+ }
+
+ if (prevpipe == 16) {
+ if (direction == PIPEinput) {
+ dbri->chi_in_pipe = pipe;
+ } else {
+ dbri->chi_out_pipe = pipe;
+ }
+ } else {
+ dbri->pipes[prevpipe].nextpipe = pipe;
+ }
+
+ dbri->pipes[pipe].nextpipe = nextpipe;
+ dbri->pipes[pipe].cycle = cycle;
+ dbri->pipes[pipe].length = length;
+
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+
+ if (direction == PIPEinput) {
+ val = D_DTS_VI | D_DTS_INS | D_DTS_PRVIN(prevpipe) | pipe;
+ *(cmd++) = DBRI_CMD(D_DTS, 0, val);
+ *(cmd++) =
+ D_TS_LEN(length) | D_TS_CYCLE(cycle) | D_TS_NEXT(nextpipe);
+ *(cmd++) = 0;
+ } else {
+ val = D_DTS_VO | D_DTS_INS | D_DTS_PRVOUT(prevpipe) | pipe;
+ *(cmd++) = DBRI_CMD(D_DTS, 0, val);
+ *(cmd++) = 0;
+ *(cmd++) =
+ D_TS_LEN(length) | D_TS_CYCLE(cycle) | D_TS_NEXT(nextpipe);
+ }
+
+ dbri_cmdsend(dbri, cmd);
+}
+
+static void unlink_time_slot(snd_dbri_t * dbri, int pipe,
+ enum in_or_out direction, int prevpipe,
+ int nextpipe)
+{
+ volatile s32 *cmd;
+ int val;
+
+ if (pipe < 0 || pipe > 31 || prevpipe < 0 || prevpipe > 31) {
+ printk
+ ("DBRI: unlink_time_slot called with illegal pipe number\n");
+ return;
+ }
+
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+
+ if (direction == PIPEinput) {
+ val = D_DTS_VI | D_DTS_DEL | D_DTS_PRVIN(prevpipe) | pipe;
+ *(cmd++) = DBRI_CMD(D_DTS, 0, val);
+ *(cmd++) = D_TS_NEXT(nextpipe);
+ *(cmd++) = 0;
+ } else {
+ val = D_DTS_VO | D_DTS_DEL | D_DTS_PRVOUT(prevpipe) | pipe;
+ *(cmd++) = DBRI_CMD(D_DTS, 0, val);
+ *(cmd++) = 0;
+ *(cmd++) = D_TS_NEXT(nextpipe);
+ }
+
+ dbri_cmdsend(dbri, cmd);
+}
+
+/* xmit_fixed() / recv_fixed()
+ *
+ * Transmit/receive data on a "fixed" pipe - i.e, one whose contents are not
+ * expected to change much, and which we don't need to buffer.
+ * The DBRI only interrupts us when the data changes (receive pipes),
+ * or only changes the data when this function is called (transmit pipes).
+ * Only short pipes (numbers 16-31) can be used in fixed data mode.
+ *
+ * These function operate on a 32-bit field, no matter how large
+ * the actual time slot is. The interrupt handler takes care of bit
+ * ordering and alignment. An 8-bit time slot will always end up
+ * in the low-order 8 bits, filled either MSB-first or LSB-first,
+ * depending on the settings passed to setup_pipe()
+ */
+static void xmit_fixed(snd_dbri_t * dbri, int pipe, unsigned int data)
+{
+ volatile s32 *cmd;
+
+ if (pipe < 16 || pipe > 31) {
+ printk("DBRI: xmit_fixed: Illegal pipe number\n");
+ return;
+ }
+
+ if (D_SDP_MODE(dbri->pipes[pipe].sdp) == 0) {
+ printk("DBRI: xmit_fixed: Uninitialized pipe %d\n", pipe);
+ return;
+ }
+
+ if (D_SDP_MODE(dbri->pipes[pipe].sdp) != D_SDP_FIXED) {
+ printk("DBRI: xmit_fixed: Non-fixed pipe %d\n", pipe);
+ return;
+ }
+
+ if (!(dbri->pipes[pipe].sdp & D_SDP_TO_SER)) {
+ printk("DBRI: xmit_fixed: Called on receive pipe %d\n", pipe);
+ return;
+ }
+
+ /* DBRI short pipes always transmit LSB first */
+
+ if (dbri->pipes[pipe].sdp & D_SDP_MSB)
+ data = reverse_bytes(data, dbri->pipes[pipe].length);
+
+ cmd = dbri_cmdlock(dbri, GetLock);
+
+ *(cmd++) = DBRI_CMD(D_SSP, 0, pipe);
+ *(cmd++) = data;
+
+ dbri_cmdsend(dbri, cmd);
+}
+
+static void recv_fixed(snd_dbri_t * dbri, int pipe, volatile __u32 * ptr)
+{
+ if (pipe < 16 || pipe > 31) {
+ printk("DBRI: recv_fixed called with illegal pipe number\n");
+ return;
+ }
+
+ if (D_SDP_MODE(dbri->pipes[pipe].sdp) != D_SDP_FIXED) {
+ printk("DBRI: recv_fixed called on non-fixed pipe %d\n", pipe);
+ return;
+ }
+
+ if (dbri->pipes[pipe].sdp & D_SDP_TO_SER) {
+ printk("DBRI: recv_fixed called on transmit pipe %d\n", pipe);
+ return;
+ }
+
+ dbri->pipes[pipe].recv_fixed_ptr = ptr;
+}
+
+/* setup_descs()
+ *
+ * Setup transmit/receive data on a "long" pipe - i.e, one associated
+ * with a DMA buffer.
+ *
+ * Only pipe numbers 0-15 can be used in this mode.
+ *
+ * This function takes a stream number pointing to a data buffer,
+ * and work by building chains of descriptors which identify the
+ * data buffers. Buffers too large for a single descriptor will
+ * be spread across multiple descriptors.
+ */
+static int setup_descs(snd_dbri_t * dbri, int streamno, unsigned int period)
+{
+ dbri_streaminfo_t *info = &dbri->stream_info[streamno];
+ __u32 dvma_buffer;
+ int desc = 0;
+ int len;
+ int first_desc = -1;
+ int last_desc = -1;
+
+ if (info->pipe < 0 || info->pipe > 15) {
+ printk("DBRI: setup_descs: Illegal pipe number\n");
+ return -2;
+ }
+
+ if (dbri->pipes[info->pipe].sdp == 0) {
+ printk("DBRI: setup_descs: Uninitialized pipe %d\n",
+ info->pipe);
+ return -2;
+ }
+
+ dvma_buffer = info->dvma_buffer;
+ len = info->size;
+
+ if (streamno == DBRI_PLAY) {
+ if (!(dbri->pipes[info->pipe].sdp & D_SDP_TO_SER)) {
+ printk("DBRI: setup_descs: Called on receive pipe %d\n",
+ info->pipe);
+ return -2;
+ }
+ } else {
+ if (dbri->pipes[info->pipe].sdp & D_SDP_TO_SER) {
+ printk
+ ("DBRI: setup_descs: Called on transmit pipe %d\n",
+ info->pipe);
+ return -2;
+ }
+ /* Should be able to queue multiple buffers to receive on a pipe */
+ if (pipe_active(dbri, info->pipe)) {
+ printk("DBRI: recv_on_pipe: Called on active pipe %d\n",
+ info->pipe);
+ return -2;
+ }
+
+ /* Make sure buffer size is multiple of four */
+ len &= ~3;
+ }
+
+ while (len > 0) {
+ int mylen;
+
+ for (; desc < DBRI_NO_DESCS; desc++) {
+ if (!dbri->descs[desc].inuse)
+ break;
+ }
+ if (desc == DBRI_NO_DESCS) {
+ printk("DBRI: setup_descs: No descriptors\n");
+ return -1;
+ }
+
+ if (len > DBRI_TD_MAXCNT) {
+ mylen = DBRI_TD_MAXCNT; /* 8KB - 1 */
+ } else {
+ mylen = len;
+ }
+ if (mylen > period) {
+ mylen = period;
+ }
+
+ dbri->descs[desc].inuse = 1;
+ dbri->descs[desc].next = -1;
+ dbri->dma->desc[desc].ba = dvma_buffer;
+ dbri->dma->desc[desc].nda = 0;
+
+ if (streamno == DBRI_PLAY) {
+ dbri->descs[desc].len = mylen;
+ dbri->dma->desc[desc].word1 = DBRI_TD_CNT(mylen);
+ dbri->dma->desc[desc].word4 = 0;
+ if (first_desc != -1)
+ dbri->dma->desc[desc].word1 |= DBRI_TD_M;
+ } else {
+ dbri->descs[desc].len = 0;
+ dbri->dma->desc[desc].word1 = 0;
+ dbri->dma->desc[desc].word4 =
+ DBRI_RD_B | DBRI_RD_BCNT(mylen);
+ }
+
+ if (first_desc == -1) {
+ first_desc = desc;
+ } else {
+ dbri->descs[last_desc].next = desc;
+ dbri->dma->desc[last_desc].nda =
+ dbri->dma_dvma + dbri_dma_off(desc, desc);
+ }
+
+ last_desc = desc;
+ dvma_buffer += mylen;
+ len -= mylen;
+ }
+
+ if (first_desc == -1 || last_desc == -1) {
+ printk("DBRI: setup_descs: Not enough descriptors available\n");
+ return -1;
+ }
+
+ dbri->dma->desc[last_desc].word1 &= ~DBRI_TD_M;
+ if (streamno == DBRI_PLAY) {
+ dbri->dma->desc[last_desc].word1 |=
+ DBRI_TD_I | DBRI_TD_F | DBRI_TD_B;
+ }
+ dbri->pipes[info->pipe].first_desc = first_desc;
+ dbri->pipes[info->pipe].desc = first_desc;
+
+ for (desc = first_desc; desc != -1; desc = dbri->descs[desc].next) {
+ dprintk(D_DESC, "DESC %d: %08x %08x %08x %08x\n",
+ desc,
+ dbri->dma->desc[desc].word1,
+ dbri->dma->desc[desc].ba,
+ dbri->dma->desc[desc].nda, dbri->dma->desc[desc].word4);
+ }
+ return 0;
+}
+
+/*
+****************************************************************************
+************************** DBRI - CHI interface ****************************
+****************************************************************************
+
+The CHI is a four-wire (clock, frame sync, data in, data out) time-division
+multiplexed serial interface which the DBRI can operate in either master
+(give clock/frame sync) or slave (take clock/frame sync) mode.
+
+*/
+
+enum master_or_slave { CHImaster, CHIslave };
+
+static void reset_chi(snd_dbri_t * dbri, enum master_or_slave master_or_slave,
+ int bits_per_frame)
+{
+ volatile s32 *cmd;
+ int val;
+ static int chi_initialized = 0; /* FIXME: mutex? */
+
+ if (!chi_initialized) {
+
+ cmd = dbri_cmdlock(dbri, GetLock);
+
+ /* Set CHI Anchor: Pipe 16 */
+
+ val = D_DTS_VI | D_DTS_INS | D_DTS_PRVIN(16) | D_PIPE(16);
+ *(cmd++) = DBRI_CMD(D_DTS, 0, val);
+ *(cmd++) = D_TS_ANCHOR | D_TS_NEXT(16);
+ *(cmd++) = 0;
+
+ val = D_DTS_VO | D_DTS_INS | D_DTS_PRVOUT(16) | D_PIPE(16);
+ *(cmd++) = DBRI_CMD(D_DTS, 0, val);
+ *(cmd++) = 0;
+ *(cmd++) = D_TS_ANCHOR | D_TS_NEXT(16);
+
+ dbri->pipes[16].sdp = 1;
+ dbri->pipes[16].nextpipe = 16;
+ dbri->chi_in_pipe = 16;
+ dbri->chi_out_pipe = 16;
+
+#if 0
+ chi_initialized++;
+#endif
+ } else {
+ int pipe;
+
+ for (pipe = dbri->chi_in_pipe;
+ pipe != 16; pipe = dbri->pipes[pipe].nextpipe) {
+ unlink_time_slot(dbri, pipe, PIPEinput,
+ 16, dbri->pipes[pipe].nextpipe);
+ }
+ for (pipe = dbri->chi_out_pipe;
+ pipe != 16; pipe = dbri->pipes[pipe].nextpipe) {
+ unlink_time_slot(dbri, pipe, PIPEoutput,
+ 16, dbri->pipes[pipe].nextpipe);
+ }
+
+ dbri->chi_in_pipe = 16;
+ dbri->chi_out_pipe = 16;
+
+ cmd = dbri_cmdlock(dbri, GetLock);
+ }
+
+ if (master_or_slave == CHIslave) {
+ /* Setup DBRI for CHI Slave - receive clock, frame sync (FS)
+ *
+ * CHICM = 0 (slave mode, 8 kHz frame rate)
+ * IR = give immediate CHI status interrupt
+ * EN = give CHI status interrupt upon change
+ */
+ *(cmd++) = DBRI_CMD(D_CHI, 0, D_CHI_CHICM(0));
+ } else {
+ /* Setup DBRI for CHI Master - generate clock, FS
+ *
+ * BPF = bits per 8 kHz frame
+ * 12.288 MHz / CHICM_divisor = clock rate
+ * FD = 1 - drive CHIFS on rising edge of CHICK
+ */
+ int clockrate = bits_per_frame * 8;
+ int divisor = 12288 / clockrate;
+
+ if (divisor > 255 || divisor * clockrate != 12288)
+ printk("DBRI: illegal bits_per_frame in setup_chi\n");
+
+ *(cmd++) = DBRI_CMD(D_CHI, 0, D_CHI_CHICM(divisor) | D_CHI_FD
+ | D_CHI_BPF(bits_per_frame));
+ }
+
+ dbri->chi_bpf = bits_per_frame;
+
+ /* CHI Data Mode
+ *
+ * RCE = 0 - receive on falling edge of CHICK
+ * XCE = 1 - transmit on rising edge of CHICK
+ * XEN = 1 - enable transmitter
+ * REN = 1 - enable receiver
+ */
+
+ *(cmd++) = DBRI_CMD(D_PAUSE, 0, 0);
+ *(cmd++) = DBRI_CMD(D_CDM, 0, D_CDM_XCE | D_CDM_XEN | D_CDM_REN);
+
+ dbri_cmdsend(dbri, cmd);
+}
+
+/*
+****************************************************************************
+*********************** CS4215 audio codec management **********************
+****************************************************************************
+
+In the standard SPARC audio configuration, the CS4215 codec is attached
+to the DBRI via the CHI interface and few of the DBRI's PIO pins.
+
+*/
+static void cs4215_setup_pipes(snd_dbri_t * dbri)
+{
+ /*
+ * Data mode:
+ * Pipe 4: Send timeslots 1-4 (audio data)
+ * Pipe 20: Send timeslots 5-8 (part of ctrl data)
+ * Pipe 6: Receive timeslots 1-4 (audio data)
+ * Pipe 21: Receive timeslots 6-7. We can only receive 20 bits via
+ * interrupt, and the rest of the data (slot 5 and 8) is
+ * not relevant for us (only for doublechecking).
+ *
+ * Control mode:
+ * Pipe 17: Send timeslots 1-4 (slots 5-8 are readonly)
+ * Pipe 18: Receive timeslot 1 (clb).
+ * Pipe 19: Receive timeslot 7 (version).
+ */
+
+ setup_pipe(dbri, 4, D_SDP_MEM | D_SDP_TO_SER | D_SDP_MSB);
+ setup_pipe(dbri, 20, D_SDP_FIXED | D_SDP_TO_SER | D_SDP_MSB);
+ setup_pipe(dbri, 6, D_SDP_MEM | D_SDP_FROM_SER | D_SDP_MSB);
+ setup_pipe(dbri, 21, D_SDP_FIXED | D_SDP_FROM_SER | D_SDP_MSB);
+
+ setup_pipe(dbri, 17, D_SDP_FIXED | D_SDP_TO_SER | D_SDP_MSB);
+ setup_pipe(dbri, 18, D_SDP_FIXED | D_SDP_FROM_SER | D_SDP_MSB);
+ setup_pipe(dbri, 19, D_SDP_FIXED | D_SDP_FROM_SER | D_SDP_MSB);
+}
+
+static int cs4215_init_data(struct cs4215 *mm)
+{
+ /*
+ * No action, memory resetting only.
+ *
+ * Data Time Slot 5-8
+ * Speaker,Line and Headphone enable. Gain set to the half.
+ * Input is mike.
+ */
+ mm->data[0] = CS4215_LO(0x20) | CS4215_HE | CS4215_LE;
+ mm->data[1] = CS4215_RO(0x20) | CS4215_SE;
+ mm->data[2] = CS4215_LG(0x8) | CS4215_IS | CS4215_PIO0 | CS4215_PIO1;
+ mm->data[3] = CS4215_RG(0x8) | CS4215_MA(0xf);
+
+ /*
+ * Control Time Slot 1-4
+ * 0: Default I/O voltage scale
+ * 1: 8 bit ulaw, 8kHz, mono, high pass filter disabled
+ * 2: Serial enable, CHI master, 128 bits per frame, clock 1
+ * 3: Tests disabled
+ */
+ mm->ctrl[0] = CS4215_RSRVD_1 | CS4215_MLB;
+ mm->ctrl[1] = CS4215_DFR_ULAW | CS4215_FREQ[0].csval;
+ mm->ctrl[2] = CS4215_XCLK | CS4215_BSEL_128 | CS4215_FREQ[0].xtal;
+ mm->ctrl[3] = 0;
+
+ mm->status = 0;
+ mm->version = 0xff;
+ mm->precision = 8; /* For ULAW */
+ mm->channels = 2;
+
+ return 0;
+}
+
+static void cs4215_setdata(snd_dbri_t * dbri, int muted)
+{
+ if (muted) {
+ dbri->mm.data[0] |= 63;
+ dbri->mm.data[1] |= 63;
+ dbri->mm.data[2] &= ~15;
+ dbri->mm.data[3] &= ~15;
+ } else {
+ /* Start by setting the playback attenuation. */
+ dbri_streaminfo_t *info = &dbri->stream_info[DBRI_PLAY];
+ int left_gain = info->left_gain % 64;
+ int right_gain = info->right_gain % 64;
+
+ if (info->balance < DBRI_MID_BALANCE) {
+ right_gain *= info->balance;
+ right_gain /= DBRI_MID_BALANCE;
+ } else {
+ left_gain *= DBRI_RIGHT_BALANCE - info->balance;
+ left_gain /= DBRI_MID_BALANCE;
+ }
+
+ dbri->mm.data[0] &= ~0x3f; /* Reset the volume bits */
+ dbri->mm.data[1] &= ~0x3f;
+ dbri->mm.data[0] |= (DBRI_MAX_VOLUME - left_gain);
+ dbri->mm.data[1] |= (DBRI_MAX_VOLUME - right_gain);
+
+ /* Now set the recording gain. */
+ info = &dbri->stream_info[DBRI_REC];
+ left_gain = info->left_gain % 16;
+ right_gain = info->right_gain % 16;
+ dbri->mm.data[2] |= CS4215_LG(left_gain);
+ dbri->mm.data[3] |= CS4215_RG(right_gain);
+ }
+
+ xmit_fixed(dbri, 20, *(int *)dbri->mm.data);
+}
+
+/*
+ * Set the CS4215 to data mode.
+ */
+static void cs4215_open(snd_dbri_t * dbri)
+{
+ int data_width;
+ u32 tmp;
+
+ dprintk(D_MM, "cs4215_open: %d channels, %d bits\n",
+ dbri->mm.channels, dbri->mm.precision);
+
+ /* Temporarily mute outputs, and wait 1/8000 sec (125 us)
+ * to make sure this takes. This avoids clicking noises.
+ */
+
+ cs4215_setdata(dbri, 1);
+ udelay(125);
+
+ /*
+ * Data mode:
+ * Pipe 4: Send timeslots 1-4 (audio data)
+ * Pipe 20: Send timeslots 5-8 (part of ctrl data)
+ * Pipe 6: Receive timeslots 1-4 (audio data)
+ * Pipe 21: Receive timeslots 6-7. We can only receive 20 bits via
+ * interrupt, and the rest of the data (slot 5 and 8) is
+ * not relevant for us (only for doublechecking).
+ *
+ * Just like in control mode, the time slots are all offset by eight
+ * bits. The CS4215, it seems, observes TSIN (the delayed signal)
+ * even if it's the CHI master. Don't ask me...
+ */
+ tmp = sbus_readl(dbri->regs + REG0);
+ tmp &= ~(D_C); /* Disable CHI */
+ sbus_writel(tmp, dbri->regs + REG0);
+
+ /* Switch CS4215 to data mode - set PIO3 to 1 */
+ sbus_writel(D_ENPIO | D_PIO1 | D_PIO3 |
+ (dbri->mm.onboard ? D_PIO0 : D_PIO2), dbri->regs + REG2);
+
+ reset_chi(dbri, CHIslave, 128);
+
+ /* Note: this next doesn't work for 8-bit stereo, because the two
+ * channels would be on timeslots 1 and 3, with 2 and 4 idle.
+ * (See CS4215 datasheet Fig 15)
+ *
+ * DBRI non-contiguous mode would be required to make this work.
+ */
+ data_width = dbri->mm.channels * dbri->mm.precision;
+
+ link_time_slot(dbri, 20, PIPEoutput, 16, 32, dbri->mm.offset + 32);
+ link_time_slot(dbri, 4, PIPEoutput, 16, data_width, dbri->mm.offset);
+ link_time_slot(dbri, 6, PIPEinput, 16, data_width, dbri->mm.offset);
+ link_time_slot(dbri, 21, PIPEinput, 16, 16, dbri->mm.offset + 40);
+
+ /* FIXME: enable CHI after _setdata? */
+ tmp = sbus_readl(dbri->regs + REG0);
+ tmp |= D_C; /* Enable CHI */
+ sbus_writel(tmp, dbri->regs + REG0);
+
+ cs4215_setdata(dbri, 0);
+}
+
+/*
+ * Send the control information (i.e. audio format)
+ */
+static int cs4215_setctrl(snd_dbri_t * dbri)
+{
+ int i, val;
+ u32 tmp;
+
+ /* FIXME - let the CPU do something useful during these delays */
+
+ /* Temporarily mute outputs, and wait 1/8000 sec (125 us)
+ * to make sure this takes. This avoids clicking noises.
+ */
+
+ cs4215_setdata(dbri, 1);
+ udelay(125);
+
+ /*
+ * Enable Control mode: Set DBRI's PIO3 (4215's D/~C) to 0, then wait
+ * 12 cycles <= 12/(5512.5*64) sec = 34.01 usec
+ */
+ val = D_ENPIO | D_PIO1 | (dbri->mm.onboard ? D_PIO0 : D_PIO2);
+ sbus_writel(val, dbri->regs + REG2);
+ dprintk(D_MM, "cs4215_setctrl: reg2=0x%x\n", val);
+ udelay(34);
+
+ /* In Control mode, the CS4215 is a slave device, so the DBRI must
+ * operate as CHI master, supplying clocking and frame synchronization.
+ *
+ * In Data mode, however, the CS4215 must be CHI master to insure
+ * that its data stream is synchronous with its codec.
+ *
+ * The upshot of all this? We start by putting the DBRI into master
+ * mode, program the CS4215 in Control mode, then switch the CS4215
+ * into Data mode and put the DBRI into slave mode. Various timing
+ * requirements must be observed along the way.
+ *
+ * Oh, and one more thing, on a SPARCStation 20 (and maybe
+ * others?), the addressing of the CS4215's time slots is
+ * offset by eight bits, so we add eight to all the "cycle"
+ * values in the Define Time Slot (DTS) commands. This is
+ * done in hardware by a TI 248 that delays the DBRI->4215
+ * frame sync signal by eight clock cycles. Anybody know why?
+ */
+ tmp = sbus_readl(dbri->regs + REG0);
+ tmp &= ~D_C; /* Disable CHI */
+ sbus_writel(tmp, dbri->regs + REG0);
+
+ reset_chi(dbri, CHImaster, 128);
+
+ /*
+ * Control mode:
+ * Pipe 17: Send timeslots 1-4 (slots 5-8 are readonly)
+ * Pipe 18: Receive timeslot 1 (clb).
+ * Pipe 19: Receive timeslot 7 (version).
+ */
+
+ link_time_slot(dbri, 17, PIPEoutput, 16, 32, dbri->mm.offset);
+ link_time_slot(dbri, 18, PIPEinput, 16, 8, dbri->mm.offset);
+ link_time_slot(dbri, 19, PIPEinput, 16, 8, dbri->mm.offset + 48);
+
+ /* Wait for the chip to echo back CLB (Control Latch Bit) as zero */
+ dbri->mm.ctrl[0] &= ~CS4215_CLB;
+ xmit_fixed(dbri, 17, *(int *)dbri->mm.ctrl);
+
+ tmp = sbus_readl(dbri->regs + REG0);
+ tmp |= D_C; /* Enable CHI */
+ sbus_writel(tmp, dbri->regs + REG0);
+
+ for (i = 64; ((dbri->mm.status & 0xe4) != 0x20); --i) {
+ udelay(125);
+ }
+ if (i == 0) {
+ dprintk(D_MM, "CS4215 didn't respond to CLB (0x%02x)\n",
+ dbri->mm.status);
+ return -1;
+ }
+
+ /* Disable changes to our copy of the version number, as we are about
+ * to leave control mode.
+ */
+ recv_fixed(dbri, 19, NULL);
+
+ /* Terminate CS4215 control mode - data sheet says
+ * "Set CLB=1 and send two more frames of valid control info"
+ */
+ dbri->mm.ctrl[0] |= CS4215_CLB;
+ xmit_fixed(dbri, 17, *(int *)dbri->mm.ctrl);
+
+ /* Two frames of control info @ 8kHz frame rate = 250 us delay */
+ udelay(250);
+
+ cs4215_setdata(dbri, 0);
+
+ return 0;
+}
+
+/*
+ * Setup the codec with the sampling rate, audio format and number of
+ * channels.
+ * As part of the process we resend the settings for the data
+ * timeslots as well.
+ */
+static int cs4215_prepare(snd_dbri_t * dbri, unsigned int rate,
+ snd_pcm_format_t format, unsigned int channels)
+{
+ int freq_idx;
+ int ret = 0;
+
+ /* Lookup index for this rate */
+ for (freq_idx = 0; CS4215_FREQ[freq_idx].freq != 0; freq_idx++) {
+ if (CS4215_FREQ[freq_idx].freq == rate)
+ break;
+ }
+ if (CS4215_FREQ[freq_idx].freq != rate) {
+ printk(KERN_WARNING "DBRI: Unsupported rate %d Hz\n", rate);
+ return -1;
+ }
+
+ switch (format) {
+ case SNDRV_PCM_FORMAT_MU_LAW:
+ dbri->mm.ctrl[1] = CS4215_DFR_ULAW;
+ dbri->mm.precision = 8;
+ break;
+ case SNDRV_PCM_FORMAT_A_LAW:
+ dbri->mm.ctrl[1] = CS4215_DFR_ALAW;
+ dbri->mm.precision = 8;
+ break;
+ case SNDRV_PCM_FORMAT_U8:
+ dbri->mm.ctrl[1] = CS4215_DFR_LINEAR8;
+ dbri->mm.precision = 8;
+ break;
+ case SNDRV_PCM_FORMAT_S16_BE:
+ dbri->mm.ctrl[1] = CS4215_DFR_LINEAR16;
+ dbri->mm.precision = 16;
+ break;
+ default:
+ printk(KERN_WARNING "DBRI: Unsupported format %d\n", format);
+ return -1;
+ }
+
+ /* Add rate parameters */
+ dbri->mm.ctrl[1] |= CS4215_FREQ[freq_idx].csval;
+ dbri->mm.ctrl[2] = CS4215_XCLK |
+ CS4215_BSEL_128 | CS4215_FREQ[freq_idx].xtal;
+
+ dbri->mm.channels = channels;
+ /* Stereo bit: 8 bit stereo not working yet. */
+ if ((channels > 1) && (dbri->mm.precision == 16))
+ dbri->mm.ctrl[1] |= CS4215_DFR_STEREO;
+
+ ret = cs4215_setctrl(dbri);
+ if (ret == 0)
+ cs4215_open(dbri); /* set codec to data mode */
+
+ return ret;
+}
+
+/*
+ *
+ */
+static int cs4215_init(snd_dbri_t * dbri)
+{
+ u32 reg2 = sbus_readl(dbri->regs + REG2);
+ dprintk(D_MM, "cs4215_init: reg2=0x%x\n", reg2);
+
+ /* Look for the cs4215 chips */
+ if (reg2 & D_PIO2) {
+ dprintk(D_MM, "Onboard CS4215 detected\n");
+ dbri->mm.onboard = 1;
+ }
+ if (reg2 & D_PIO0) {
+ dprintk(D_MM, "Speakerbox detected\n");
+ dbri->mm.onboard = 0;
+
+ if (reg2 & D_PIO2) {
+ printk(KERN_INFO "DBRI: Using speakerbox / "
+ "ignoring onboard mmcodec.\n");
+ sbus_writel(D_ENPIO2, dbri->regs + REG2);
+ }
+ }
+
+ if (!(reg2 & (D_PIO0 | D_PIO2))) {
+ printk(KERN_ERR "DBRI: no mmcodec found.\n");
+ return -EIO;
+ }
+
+ cs4215_setup_pipes(dbri);
+
+ cs4215_init_data(&dbri->mm);
+
+ /* Enable capture of the status & version timeslots. */
+ recv_fixed(dbri, 18, &dbri->mm.status);
+ recv_fixed(dbri, 19, &dbri->mm.version);
+
+ dbri->mm.offset = dbri->mm.onboard ? 0 : 8;
+ if (cs4215_setctrl(dbri) == -1 || dbri->mm.version == 0xff) {
+ dprintk(D_MM, "CS4215 failed probe at offset %d\n",
+ dbri->mm.offset);
+ return -EIO;
+ }
+ dprintk(D_MM, "Found CS4215 at offset %d\n", dbri->mm.offset);
+
+ return 0;
+}
+
+/*
+****************************************************************************
+*************************** DBRI interrupt handler *************************
+****************************************************************************
+
+The DBRI communicates with the CPU mainly via a circular interrupt
+buffer. When an interrupt is signaled, the CPU walks through the
+buffer and calls dbri_process_one_interrupt() for each interrupt word.
+Complicated interrupts are handled by dedicated functions (which
+appear first in this file). Any pending interrupts can be serviced by
+calling dbri_process_interrupt_buffer(), which works even if the CPU's
+interrupts are disabled. This function is used by dbri_cmdsend()
+to make sure we're synced up with the chip after each command sequence,
+even if we're running cli'ed.
+
+*/
+
+/* xmit_descs()
+ *
+ * Transmit the current TD's for recording/playing, if needed.
+ * For playback, ALSA has filled the DMA memory with new data (we hope).
+ */
+static void xmit_descs(unsigned long data)
+{
+ snd_dbri_t *dbri = (snd_dbri_t *) data;
+ dbri_streaminfo_t *info;
+ volatile s32 *cmd;
+ unsigned long flags;
+ int first_td;
+
+ if (dbri == NULL)
+ return; /* Disabled */
+
+ /* First check the recording stream for buffer overflow */
+ info = &dbri->stream_info[DBRI_REC];
+ spin_lock_irqsave(&dbri->lock, flags);
+
+ if ((info->left >= info->size) && (info->pipe >= 0)) {
+ first_td = dbri->pipes[info->pipe].first_desc;
+
+ dprintk(D_DESC, "xmit_descs rec @ TD %d\n", first_td);
+
+ /* Stream could be closed by the time we run. */
+ if (first_td < 0) {
+ goto play;
+ }
+
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+ *(cmd++) = DBRI_CMD(D_SDP, 0,
+ dbri->pipes[info->pipe].sdp
+ | D_SDP_P | D_SDP_EVERY | D_SDP_C);
+ *(cmd++) = dbri->dma_dvma + dbri_dma_off(desc, first_td);
+ dbri_cmdsend(dbri, cmd);
+
+ /* Reset our admin of the pipe & bytes read. */
+ dbri->pipes[info->pipe].desc = first_td;
+ info->left = 0;
+ }
+
+play:
+ spin_unlock_irqrestore(&dbri->lock, flags);
+
+ /* Now check the playback stream for buffer underflow */
+ info = &dbri->stream_info[DBRI_PLAY];
+ spin_lock_irqsave(&dbri->lock, flags);
+
+ if ((info->left <= 0) && (info->pipe >= 0)) {
+ first_td = dbri->pipes[info->pipe].first_desc;
+
+ dprintk(D_DESC, "xmit_descs play @ TD %d\n", first_td);
+
+ /* Stream could be closed by the time we run. */
+ if (first_td < 0) {
+ spin_unlock_irqrestore(&dbri->lock, flags);
+ return;
+ }
+
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+ *(cmd++) = DBRI_CMD(D_SDP, 0,
+ dbri->pipes[info->pipe].sdp
+ | D_SDP_P | D_SDP_EVERY | D_SDP_C);
+ *(cmd++) = dbri->dma_dvma + dbri_dma_off(desc, first_td);
+ dbri_cmdsend(dbri, cmd);
+
+ /* Reset our admin of the pipe & bytes written. */
+ dbri->pipes[info->pipe].desc = first_td;
+ info->left = info->size;
+ }
+ spin_unlock_irqrestore(&dbri->lock, flags);
+}
+
+DECLARE_TASKLET(xmit_descs_task, xmit_descs, 0);
+
+/* transmission_complete_intr()
+ *
+ * Called by main interrupt handler when DBRI signals transmission complete
+ * on a pipe (interrupt triggered by the B bit in a transmit descriptor).
+ *
+ * Walks through the pipe's list of transmit buffer descriptors, releasing
+ * each one's DMA buffer (if present), flagging the descriptor available,
+ * and signaling its callback routine (if present), before proceeding
+ * to the next one. Stops when the first descriptor is found without
+ * TBC (Transmit Buffer Complete) set, or we've run through them all.
+ */
+
+static void transmission_complete_intr(snd_dbri_t * dbri, int pipe)
+{
+ dbri_streaminfo_t *info;
+ int td;
+ int status;
+
+ info = &dbri->stream_info[DBRI_PLAY];
+
+ td = dbri->pipes[pipe].desc;
+ while (td >= 0) {
+ if (td >= DBRI_NO_DESCS) {
+ printk(KERN_ERR "DBRI: invalid td on pipe %d\n", pipe);
+ return;
+ }
+
+ status = DBRI_TD_STATUS(dbri->dma->desc[td].word4);
+ if (!(status & DBRI_TD_TBC)) {
+ break;
+ }
+
+ dprintk(D_INT, "TD %d, status 0x%02x\n", td, status);
+
+ dbri->dma->desc[td].word4 = 0; /* Reset it for next time. */
+ info->offset += dbri->descs[td].len;
+ info->left -= dbri->descs[td].len;
+
+ /* On the last TD, transmit them all again. */
+ if (dbri->descs[td].next == -1) {
+ if (info->left > 0) {
+ printk(KERN_WARNING
+ "%d bytes left after last transfer.\n",
+ info->left);
+ info->left = 0;
+ }
+ tasklet_schedule(&xmit_descs_task);
+ }
+
+ td = dbri->descs[td].next;
+ dbri->pipes[pipe].desc = td;
+ }
+
+ /* Notify ALSA */
+ if (spin_is_locked(&dbri->lock)) {
+ spin_unlock(&dbri->lock);
+ snd_pcm_period_elapsed(info->substream);
+ spin_lock(&dbri->lock);
+ } else
+ snd_pcm_period_elapsed(info->substream);
+}
+
+static void reception_complete_intr(snd_dbri_t * dbri, int pipe)
+{
+ dbri_streaminfo_t *info;
+ int rd = dbri->pipes[pipe].desc;
+ s32 status;
+
+ if (rd < 0 || rd >= DBRI_NO_DESCS) {
+ printk(KERN_ERR "DBRI: invalid rd on pipe %d\n", pipe);
+ return;
+ }
+
+ dbri->descs[rd].inuse = 0;
+ dbri->pipes[pipe].desc = dbri->descs[rd].next;
+ status = dbri->dma->desc[rd].word1;
+ dbri->dma->desc[rd].word1 = 0; /* Reset it for next time. */
+
+ info = &dbri->stream_info[DBRI_REC];
+ info->offset += DBRI_RD_CNT(status);
+ info->left += DBRI_RD_CNT(status);
+
+ /* FIXME: Check status */
+
+ dprintk(D_INT, "Recv RD %d, status 0x%02x, len %d\n",
+ rd, DBRI_RD_STATUS(status), DBRI_RD_CNT(status));
+
+ /* On the last TD, transmit them all again. */
+ if (dbri->descs[rd].next == -1) {
+ if (info->left > info->size) {
+ printk(KERN_WARNING
+ "%d bytes recorded in %d size buffer.\n",
+ info->left, info->size);
+ }
+ tasklet_schedule(&xmit_descs_task);
+ }
+
+ /* Notify ALSA */
+ if (spin_is_locked(&dbri->lock)) {
+ spin_unlock(&dbri->lock);
+ snd_pcm_period_elapsed(info->substream);
+ spin_lock(&dbri->lock);
+ } else
+ snd_pcm_period_elapsed(info->substream);
+}
+
+static void dbri_process_one_interrupt(snd_dbri_t * dbri, int x)
+{
+ int val = D_INTR_GETVAL(x);
+ int channel = D_INTR_GETCHAN(x);
+ int command = D_INTR_GETCMD(x);
+ int code = D_INTR_GETCODE(x);
+#ifdef DBRI_DEBUG
+ int rval = D_INTR_GETRVAL(x);
+#endif
+
+ if (channel == D_INTR_CMD) {
+ dprintk(D_CMD, "INTR: Command: %-5s Value:%d\n",
+ cmds[command], val);
+ } else {
+ dprintk(D_INT, "INTR: Chan:%d Code:%d Val:%#x\n",
+ channel, code, rval);
+ }
+
+ if (channel == D_INTR_CMD && command == D_WAIT) {
+ dbri->wait_seen++;
+ return;
+ }
+
+ switch (code) {
+ case D_INTR_BRDY:
+ reception_complete_intr(dbri, channel);
+ break;
+ case D_INTR_XCMP:
+ case D_INTR_MINT:
+ transmission_complete_intr(dbri, channel);
+ break;
+ case D_INTR_UNDR:
+ /* UNDR - Transmission underrun
+ * resend SDP command with clear pipe bit (C) set
+ */
+ {
+ volatile s32 *cmd;
+
+ int pipe = channel;
+ int td = dbri->pipes[pipe].desc;
+
+ dbri->dma->desc[td].word4 = 0;
+ cmd = dbri_cmdlock(dbri, NoGetLock);
+ *(cmd++) = DBRI_CMD(D_SDP, 0,
+ dbri->pipes[pipe].sdp
+ | D_SDP_P | D_SDP_C | D_SDP_2SAME);
+ *(cmd++) = dbri->dma_dvma + dbri_dma_off(desc, td);
+ dbri_cmdsend(dbri, cmd);
+ }
+ break;
+ case D_INTR_FXDT:
+ /* FXDT - Fixed data change */
+ if (dbri->pipes[channel].sdp & D_SDP_MSB)
+ val = reverse_bytes(val, dbri->pipes[channel].length);
+
+ if (dbri->pipes[channel].recv_fixed_ptr)
+ *(dbri->pipes[channel].recv_fixed_ptr) = val;
+ break;
+ default:
+ if (channel != D_INTR_CMD)
+ printk(KERN_WARNING
+ "DBRI: Ignored Interrupt: %d (0x%x)\n", code, x);
+ }
+}
+
+/* dbri_process_interrupt_buffer advances through the DBRI's interrupt
+ * buffer until it finds a zero word (indicating nothing more to do
+ * right now). Non-zero words require processing and are handed off
+ * to dbri_process_one_interrupt AFTER advancing the pointer. This
+ * order is important since we might recurse back into this function
+ * and need to make sure the pointer has been advanced first.
+ */
+static void dbri_process_interrupt_buffer(snd_dbri_t * dbri)
+{
+ s32 x;
+
+ while ((x = dbri->dma->intr[dbri->dbri_irqp]) != 0) {
+ dbri->dma->intr[dbri->dbri_irqp] = 0;
+ dbri->dbri_irqp++;
+ if (dbri->dbri_irqp == (DBRI_NO_INTS * DBRI_INT_BLK))
+ dbri->dbri_irqp = 1;
+ else if ((dbri->dbri_irqp & (DBRI_INT_BLK - 1)) == 0)
+ dbri->dbri_irqp++;
+
+ dbri_process_one_interrupt(dbri, x);
+ }
+}
+
+static irqreturn_t snd_dbri_interrupt(int irq, void *dev_id,
+ struct pt_regs *regs)
+{
+ snd_dbri_t *dbri = dev_id;
+ static int errcnt = 0;
+ int x;
+
+ if (dbri == NULL)
+ return IRQ_NONE;
+ spin_lock(&dbri->lock);
+
+ /*
+ * Read it, so the interrupt goes away.
+ */
+ x = sbus_readl(dbri->regs + REG1);
+
+ if (x & (D_MRR | D_MLE | D_LBG | D_MBE)) {
+ u32 tmp;
+
+ if (x & D_MRR)
+ printk(KERN_ERR
+ "DBRI: Multiple Error Ack on SBus reg1=0x%x\n",
+ x);
+ if (x & D_MLE)
+ printk(KERN_ERR
+ "DBRI: Multiple Late Error on SBus reg1=0x%x\n",
+ x);
+ if (x & D_LBG)
+ printk(KERN_ERR
+ "DBRI: Lost Bus Grant on SBus reg1=0x%x\n", x);
+ if (x & D_MBE)
+ printk(KERN_ERR
+ "DBRI: Burst Error on SBus reg1=0x%x\n", x);
+
+ /* Some of these SBus errors cause the chip's SBus circuitry
+ * to be disabled, so just re-enable and try to keep going.
+ *
+ * The only one I've seen is MRR, which will be triggered
+ * if you let a transmit pipe underrun, then try to CDP it.
+ *
+ * If these things persist, we should probably reset
+ * and re-init the chip.
+ */
+ if ((++errcnt) % 10 == 0) {
+ dprintk(D_INT, "Interrupt errors exceeded.\n");
+ dbri_reset(dbri);
+ } else {
+ tmp = sbus_readl(dbri->regs + REG0);
+ tmp &= ~(D_D);
+ sbus_writel(tmp, dbri->regs + REG0);
+ }
+ }
+
+ dbri_process_interrupt_buffer(dbri);
+
+ /* FIXME: Write 0 into regs to ACK interrupt */
+
+ spin_unlock(&dbri->lock);
+
+ return IRQ_HANDLED;
+}
+
+/****************************************************************************
+ PCM Interface
+****************************************************************************/
+static snd_pcm_hardware_t snd_dbri_pcm_hw = {
+ .info = (SNDRV_PCM_INFO_MMAP |
+ SNDRV_PCM_INFO_INTERLEAVED |
+ SNDRV_PCM_INFO_BLOCK_TRANSFER |
+ SNDRV_PCM_INFO_MMAP_VALID),
+ .formats = SNDRV_PCM_FMTBIT_MU_LAW |
+ SNDRV_PCM_FMTBIT_A_LAW |
+ SNDRV_PCM_FMTBIT_U8 |
+ SNDRV_PCM_FMTBIT_S16_BE,
+ .rates = SNDRV_PCM_RATE_8000_48000,
+ .rate_min = 8000,
+ .rate_max = 48000,
+ .channels_min = 1,
+ .channels_max = 2,
+ .buffer_bytes_max = (64 * 1024),
+ .period_bytes_min = 1,
+ .period_bytes_max = DBRI_TD_MAXCNT,
+ .periods_min = 1,
+ .periods_max = 1024,
+};
+
+static int snd_dbri_open(snd_pcm_substream_t * substream)
+{
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ snd_pcm_runtime_t *runtime = substream->runtime;
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+ unsigned long flags;
+
+ dprintk(D_USR, "open audio output.\n");
+ runtime->hw = snd_dbri_pcm_hw;
+
+ spin_lock_irqsave(&dbri->lock, flags);
+ info->substream = substream;
+ info->left = 0;
+ info->offset = 0;
+ info->dvma_buffer = 0;
+ info->pipe = -1;
+ spin_unlock_irqrestore(&dbri->lock, flags);
+
+ cs4215_open(dbri);
+
+ return 0;
+}
+
+static int snd_dbri_close(snd_pcm_substream_t * substream)
+{
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+
+ dprintk(D_USR, "close audio output.\n");
+ info->substream = NULL;
+ info->left = 0;
+ info->offset = 0;
+
+ return 0;
+}
+
+static int snd_dbri_hw_params(snd_pcm_substream_t * substream,
+ snd_pcm_hw_params_t * hw_params)
+{
+ snd_pcm_runtime_t *runtime = substream->runtime;
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+ int direction;
+ int ret;
+
+ /* set sampling rate, audio format and number of channels */
+ ret = cs4215_prepare(dbri, params_rate(hw_params),
+ params_format(hw_params),
+ params_channels(hw_params));
+ if (ret != 0)
+ return ret;
+
+ if ((ret = snd_pcm_lib_malloc_pages(substream,
+ params_buffer_bytes(hw_params))) < 0) {
+ snd_printk(KERN_ERR "malloc_pages failed with %d\n", ret);
+ return ret;
+ }
+
+ /* hw_params can get called multiple times. Only map the DMA once.
+ */
+ if (info->dvma_buffer == 0) {
+ if (DBRI_STREAMNO(substream) == DBRI_PLAY)
+ direction = SBUS_DMA_TODEVICE;
+ else
+ direction = SBUS_DMA_FROMDEVICE;
+
+ info->dvma_buffer = sbus_map_single(dbri->sdev,
+ runtime->dma_area,
+ params_buffer_bytes(hw_params),
+ direction);
+ }
+
+ direction = params_buffer_bytes(hw_params);
+ dprintk(D_USR, "hw_params: %d bytes, dvma=%x\n",
+ direction, info->dvma_buffer);
+ return 0;
+}
+
+static int snd_dbri_hw_free(snd_pcm_substream_t * substream)
+{
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+ int direction;
+ dprintk(D_USR, "hw_free.\n");
+
+ /* hw_free can get called multiple times. Only unmap the DMA once.
+ */
+ if (info->dvma_buffer) {
+ if (DBRI_STREAMNO(substream) == DBRI_PLAY)
+ direction = SBUS_DMA_TODEVICE;
+ else
+ direction = SBUS_DMA_FROMDEVICE;
+
+ sbus_unmap_single(dbri->sdev, info->dvma_buffer,
+ substream->runtime->buffer_size, direction);
+ info->dvma_buffer = 0;
+ }
+ info->pipe = -1;
+
+ return snd_pcm_lib_free_pages(substream);
+}
+
+static int snd_dbri_prepare(snd_pcm_substream_t * substream)
+{
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+ snd_pcm_runtime_t *runtime = substream->runtime;
+ int ret;
+
+ info->size = snd_pcm_lib_buffer_bytes(substream);
+ if (DBRI_STREAMNO(substream) == DBRI_PLAY)
+ info->pipe = 4; /* Send pipe */
+ else {
+ info->pipe = 6; /* Receive pipe */
+ info->left = info->size; /* To trigger submittal */
+ }
+
+ spin_lock_irq(&dbri->lock);
+
+ /* Setup the all the transmit/receive desciptors to cover the
+ * whole DMA buffer.
+ */
+ ret = setup_descs(dbri, DBRI_STREAMNO(substream),
+ snd_pcm_lib_period_bytes(substream));
+
+ runtime->stop_threshold = DBRI_TD_MAXCNT / runtime->channels;
+
+ spin_unlock_irq(&dbri->lock);
+
+ dprintk(D_USR, "prepare audio output. %d bytes\n", info->size);
+ return ret;
+}
+
+static int snd_dbri_trigger(snd_pcm_substream_t * substream, int cmd)
+{
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+ int ret = 0;
+
+ switch (cmd) {
+ case SNDRV_PCM_TRIGGER_START:
+ dprintk(D_USR, "start audio, period is %d bytes\n",
+ (int)snd_pcm_lib_period_bytes(substream));
+ /* Enable & schedule the tasklet that re-submits the TDs. */
+ xmit_descs_task.data = (unsigned long)dbri;
+ tasklet_schedule(&xmit_descs_task);
+ break;
+ case SNDRV_PCM_TRIGGER_STOP:
+ dprintk(D_USR, "stop audio.\n");
+ /* Make the tasklet bail out immediately. */
+ xmit_descs_task.data = 0;
+ reset_pipe(dbri, info->pipe);
+ break;
+ default:
+ ret = -EINVAL;
+ }
+
+ return ret;
+}
+
+static snd_pcm_uframes_t snd_dbri_pointer(snd_pcm_substream_t * substream)
+{
+ snd_dbri_t *dbri = snd_pcm_substream_chip(substream);
+ dbri_streaminfo_t *info = DBRI_STREAM(dbri, substream);
+ snd_pcm_uframes_t ret;
+
+ ret = bytes_to_frames(substream->runtime, info->offset)
+ % substream->runtime->buffer_size;
+ dprintk(D_USR, "I/O pointer: %ld frames, %d bytes left.\n",
+ ret, info->left);
+ return ret;
+}
+
+static snd_pcm_ops_t snd_dbri_ops = {
+ .open = snd_dbri_open,
+ .close = snd_dbri_close,
+ .ioctl = snd_pcm_lib_ioctl,
+ .hw_params = snd_dbri_hw_params,
+ .hw_free = snd_dbri_hw_free,
+ .prepare = snd_dbri_prepare,
+ .trigger = snd_dbri_trigger,
+ .pointer = snd_dbri_pointer,
+};
+
+static int __devinit snd_dbri_pcm(snd_dbri_t * dbri)
+{
+ snd_pcm_t *pcm;
+ int err;
+
+ if ((err = snd_pcm_new(dbri->card,
+ /* ID */ "sun_dbri",
+ /* device */ 0,
+ /* playback count */ 1,
+ /* capture count */ 1, &pcm)) < 0)
+ return err;
+ snd_assert(pcm != NULL, return -EINVAL);
+
+ snd_pcm_set_ops(pcm, SNDRV_PCM_STREAM_PLAYBACK, &snd_dbri_ops);
+ snd_pcm_set_ops(pcm, SNDRV_PCM_STREAM_CAPTURE, &snd_dbri_ops);
+
+ pcm->private_data = dbri;
+ pcm->info_flags = 0;
+ strcpy(pcm->name, dbri->card->shortname);
+ dbri->pcm = pcm;
+
+ if ((err = snd_pcm_lib_preallocate_pages_for_all(pcm,
+ SNDRV_DMA_TYPE_CONTINUOUS,
+ snd_dma_continuous_data(GFP_KERNEL),
+ 64 * 1024, 64 * 1024)) < 0) {
+ return err;
+ }
+
+ return 0;
+}
+
+/*****************************************************************************
+ Mixer interface
+*****************************************************************************/
+
+static int snd_cs4215_info_volume(snd_kcontrol_t * kcontrol,
+ snd_ctl_elem_info_t * uinfo)
+{
+ uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER;
+ uinfo->count = 2;
+ uinfo->value.integer.min = 0;
+ if (kcontrol->private_value == DBRI_PLAY) {
+ uinfo->value.integer.max = DBRI_MAX_VOLUME;
+ } else {
+ uinfo->value.integer.max = DBRI_MAX_GAIN;
+ }
+ return 0;
+}
+
+static int snd_cs4215_get_volume(snd_kcontrol_t * kcontrol,
+ snd_ctl_elem_value_t * ucontrol)
+{
+ snd_dbri_t *dbri = snd_kcontrol_chip(kcontrol);
+ dbri_streaminfo_t *info;
+ snd_assert(dbri != NULL, return -EINVAL);
+ info = &dbri->stream_info[kcontrol->private_value];
+ snd_assert(info != NULL, return -EINVAL);
+
+ ucontrol->value.integer.value[0] = info->left_gain;
+ ucontrol->value.integer.value[1] = info->right_gain;
+ return 0;
+}
+
+static int snd_cs4215_put_volume(snd_kcontrol_t * kcontrol,
+ snd_ctl_elem_value_t * ucontrol)
+{
+ snd_dbri_t *dbri = snd_kcontrol_chip(kcontrol);
+ dbri_streaminfo_t *info = &dbri->stream_info[kcontrol->private_value];
+ unsigned long flags;
+ int changed = 0;
+
+ if (info->left_gain != ucontrol->value.integer.value[0]) {
+ info->left_gain = ucontrol->value.integer.value[0];
+ changed = 1;
+ }
+ if (info->right_gain != ucontrol->value.integer.value[1]) {
+ info->right_gain = ucontrol->value.integer.value[1];
+ changed = 1;
+ }
+ if (changed == 1) {
+ /* First mute outputs, and wait 1/8000 sec (125 us)
+ * to make sure this takes. This avoids clicking noises.
+ */
+ spin_lock_irqsave(&dbri->lock, flags);
+
+ cs4215_setdata(dbri, 1);
+ udelay(125);
+ cs4215_setdata(dbri, 0);
+
+ spin_unlock_irqrestore(&dbri->lock, flags);
+ }
+ return changed;
+}
+
+static int snd_cs4215_info_single(snd_kcontrol_t * kcontrol,
+ snd_ctl_elem_info_t * uinfo)
+{
+ int mask = (kcontrol->private_value >> 16) & 0xff;
+
+ uinfo->type = (mask == 1) ?
+ SNDRV_CTL_ELEM_TYPE_BOOLEAN : SNDRV_CTL_ELEM_TYPE_INTEGER;
+ uinfo->count = 1;
+ uinfo->value.integer.min = 0;
+ uinfo->value.integer.max = mask;
+ return 0;
+}
+
+static int snd_cs4215_get_single(snd_kcontrol_t * kcontrol,
+ snd_ctl_elem_value_t * ucontrol)
+{
+ snd_dbri_t *dbri = snd_kcontrol_chip(kcontrol);
+ int elem = kcontrol->private_value & 0xff;
+ int shift = (kcontrol->private_value >> 8) & 0xff;
+ int mask = (kcontrol->private_value >> 16) & 0xff;
+ int invert = (kcontrol->private_value >> 24) & 1;
+ snd_assert(dbri != NULL, return -EINVAL);
+
+ if (elem < 4) {
+ ucontrol->value.integer.value[0] =
+ (dbri->mm.data[elem] >> shift) & mask;
+ } else {
+ ucontrol->value.integer.value[0] =
+ (dbri->mm.ctrl[elem - 4] >> shift) & mask;
+ }
+
+ if (invert == 1) {
+ ucontrol->value.integer.value[0] =
+ mask - ucontrol->value.integer.value[0];
+ }
+ return 0;
+}
+
+static int snd_cs4215_put_single(snd_kcontrol_t * kcontrol,
+ snd_ctl_elem_value_t * ucontrol)
+{
+ snd_dbri_t *dbri = snd_kcontrol_chip(kcontrol);
+ unsigned long flags;
+ int elem = kcontrol->private_value & 0xff;
+ int shift = (kcontrol->private_value >> 8) & 0xff;
+ int mask = (kcontrol->private_value >> 16) & 0xff;
+ int invert = (kcontrol->private_value >> 24) & 1;
+ int changed = 0;
+ unsigned short val;
+ snd_assert(dbri != NULL, return -EINVAL);
+
+ val = (ucontrol->value.integer.value[0] & mask);
+ if (invert == 1)
+ val = mask - val;
+ val <<= shift;
+
+ if (elem < 4) {
+ dbri->mm.data[elem] = (dbri->mm.data[elem] &
+ ~(mask << shift)) | val;
+ changed = (val != dbri->mm.data[elem]);
+ } else {
+ dbri->mm.ctrl[elem - 4] = (dbri->mm.ctrl[elem - 4] &
+ ~(mask << shift)) | val;
+ changed = (val != dbri->mm.ctrl[elem - 4]);
+ }
+
+ dprintk(D_GEN, "put_single: mask=0x%x, changed=%d, "
+ "mixer-value=%ld, mm-value=0x%x\n",
+ mask, changed, ucontrol->value.integer.value[0],
+ dbri->mm.data[elem & 3]);
+
+ if (changed) {
+ /* First mute outputs, and wait 1/8000 sec (125 us)
+ * to make sure this takes. This avoids clicking noises.
+ */
+ spin_lock_irqsave(&dbri->lock, flags);
+
+ cs4215_setdata(dbri, 1);
+ udelay(125);
+ cs4215_setdata(dbri, 0);
+
+ spin_unlock_irqrestore(&dbri->lock, flags);
+ }
+ return changed;
+}
+
+/* Entries 0-3 map to the 4 data timeslots, entries 4-7 map to the 4 control
+ timeslots. Shift is the bit offset in the timeslot, mask defines the
+ number of bits. invert is a boolean for use with attenuation.
+ */
+#define CS4215_SINGLE(xname, entry, shift, mask, invert) \
+{ .iface = SNDRV_CTL_ELEM_IFACE_MIXER, .name = xname, \
+ .info = snd_cs4215_info_single, \
+ .get = snd_cs4215_get_single, .put = snd_cs4215_put_single, \
+ .private_value = entry | (shift << 8) | (mask << 16) | (invert << 24) },
+
+static snd_kcontrol_new_t dbri_controls[] __devinitdata = {
+ {
+ .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
+ .name = "Playback Volume",
+ .info = snd_cs4215_info_volume,
+ .get = snd_cs4215_get_volume,
+ .put = snd_cs4215_put_volume,
+ .private_value = DBRI_PLAY,
+ },
+ CS4215_SINGLE("Headphone switch", 0, 7, 1, 0)
+ CS4215_SINGLE("Line out switch", 0, 6, 1, 0)
+ CS4215_SINGLE("Speaker switch", 1, 6, 1, 0)
+ {
+ .iface = SNDRV_CTL_ELEM_IFACE_MIXER,
+ .name = "Capture Volume",
+ .info = snd_cs4215_info_volume,
+ .get = snd_cs4215_get_volume,
+ .put = snd_cs4215_put_volume,
+ .private_value = DBRI_REC,
+ },
+ /* FIXME: mic/line switch */
+ CS4215_SINGLE("Line in switch", 2, 4, 1, 0)
+ CS4215_SINGLE("High Pass Filter switch", 5, 7, 1, 0)
+ CS4215_SINGLE("Monitor Volume", 3, 4, 0xf, 1)
+ CS4215_SINGLE("Mic boost", 4, 4, 1, 1)
+};
+
+#define NUM_CS4215_CONTROLS (sizeof(dbri_controls)/sizeof(snd_kcontrol_new_t))
+
+static int __init snd_dbri_mixer(snd_dbri_t * dbri)
+{
+ snd_card_t *card;
+ int idx, err;
+
+ snd_assert(dbri != NULL && dbri->card != NULL, return -EINVAL);
+
+ card = dbri->card;
+ strcpy(card->mixername, card->shortname);
+
+ for (idx = 0; idx < NUM_CS4215_CONTROLS; idx++) {
+ if ((err = snd_ctl_add(card,
+ snd_ctl_new1(&dbri_controls[idx],
+ dbri))) < 0)
+ return err;
+ }
+
+ for (idx = DBRI_REC; idx < DBRI_NO_STREAMS; idx++) {
+ dbri->stream_info[idx].left_gain = 0;
+ dbri->stream_info[idx].right_gain = 0;
+ dbri->stream_info[idx].balance = DBRI_MID_BALANCE;
+ }
+
+ return 0;
+}
+
+/****************************************************************************
+ /proc interface
+****************************************************************************/
+static void dbri_regs_read(snd_info_entry_t * entry, snd_info_buffer_t * buffer)
+{
+ snd_dbri_t *dbri = entry->private_data;
+
+ snd_iprintf(buffer, "REG0: 0x%x\n", sbus_readl(dbri->regs + REG0));
+ snd_iprintf(buffer, "REG2: 0x%x\n", sbus_readl(dbri->regs + REG2));
+ snd_iprintf(buffer, "REG8: 0x%x\n", sbus_readl(dbri->regs + REG8));
+ snd_iprintf(buffer, "REG9: 0x%x\n", sbus_readl(dbri->regs + REG9));
+}
+
+#ifdef DBRI_DEBUG
+static void dbri_debug_read(snd_info_entry_t * entry,
+ snd_info_buffer_t * buffer)
+{
+ snd_dbri_t *dbri = entry->private_data;
+ int pipe;
+ snd_iprintf(buffer, "debug=%d\n", dbri_debug);
+
+ snd_iprintf(buffer, "CHI pipe in=%d, out=%d\n",
+ dbri->chi_in_pipe, dbri->chi_out_pipe);
+ for (pipe = 0; pipe < 32; pipe++) {
+ if (pipe_active(dbri, pipe)) {
+ struct dbri_pipe *pptr = &dbri->pipes[pipe];
+ snd_iprintf(buffer,
+ "Pipe %d: %s SDP=0x%x desc=%d, "
+ "len=%d @ %d prev: %d next %d\n",
+ pipe,
+ (pptr->direction ==
+ PIPEinput ? "input" : "output"), pptr->sdp,
+ pptr->desc, pptr->length, pptr->cycle,
+ pptr->prevpipe, pptr->nextpipe);
+ }
+ }
+}
+
+static void dbri_debug_write(snd_info_entry_t * entry,
+ snd_info_buffer_t * buffer)
+{
+ char line[80];
+ int i;
+
+ if (snd_info_get_line(buffer, line, 80) == 0) {
+ sscanf(line, "%d\n", &i);
+ dbri_debug = i & 0x3f;
+ }
+}
+#endif
+
+void snd_dbri_proc(snd_dbri_t * dbri)
+{
+ snd_info_entry_t *entry;
+ int err;
+
+ err = snd_card_proc_new(dbri->card, "regs", &entry);
+ snd_info_set_text_ops(entry, dbri, 1024, dbri_regs_read);
+
+#ifdef DBRI_DEBUG
+ err = snd_card_proc_new(dbri->card, "debug", &entry);
+ snd_info_set_text_ops(entry, dbri, 4096, dbri_debug_read);
+ entry->mode = S_IFREG | S_IRUGO | S_IWUSR; /* Writable for root */
+ entry->c.text.write_size = 256;
+ entry->c.text.write = dbri_debug_write;
+#endif
+}
+
+/*
+****************************************************************************
+**************************** Initialization ********************************
+****************************************************************************
+*/
+static void snd_dbri_free(snd_dbri_t * dbri);
+
+static int __init snd_dbri_create(snd_card_t * card,
+ struct sbus_dev *sdev,
+ struct linux_prom_irqs *irq, int dev)
+{
+ snd_dbri_t *dbri = card->private_data;
+ int err;
+
+ spin_lock_init(&dbri->lock);
+ dbri->card = card;
+ dbri->sdev = sdev;
+ dbri->irq = irq->pri;
+ dbri->dbri_version = sdev->prom_name[9];
+
+ dbri->dma = sbus_alloc_consistent(sdev, sizeof(struct dbri_dma),
+ &dbri->dma_dvma);
+ memset((void *)dbri->dma, 0, sizeof(struct dbri_dma));
+
+ dprintk(D_GEN, "DMA Cmd Block 0x%p (0x%08x)\n",
+ dbri->dma, dbri->dma_dvma);
+
+ /* Map the registers into memory. */
+ dbri->regs_size = sdev->reg_addrs[0].reg_size;
+ dbri->regs = sbus_ioremap(&sdev->resource[0], 0,
+ dbri->regs_size, "DBRI Registers");
+ if (!dbri->regs) {
+ printk(KERN_ERR "DBRI: could not allocate registers\n");
+ sbus_free_consistent(sdev, sizeof(struct dbri_dma),
+ (void *)dbri->dma, dbri->dma_dvma);
+ return -EIO;
+ }
+
+ err = request_irq(dbri->irq, snd_dbri_interrupt, SA_SHIRQ,
+ "DBRI audio", dbri);
+ if (err) {
+ printk(KERN_ERR "DBRI: Can't get irq %d\n", dbri->irq);
+ sbus_iounmap(dbri->regs, dbri->regs_size);
+ sbus_free_consistent(sdev, sizeof(struct dbri_dma),
+ (void *)dbri->dma, dbri->dma_dvma);
+ return err;
+ }
+
+ /* Do low level initialization of the DBRI and CS4215 chips */
+ dbri_initialize(dbri);
+ err = cs4215_init(dbri);
+ if (err) {
+ snd_dbri_free(dbri);
+ return err;
+ }
+
+ dbri->next = dbri_list;
+ dbri_list = dbri;
+
+ return 0;
+}
+
+static void snd_dbri_free(snd_dbri_t * dbri)
+{
+ dprintk(D_GEN, "snd_dbri_free\n");
+ dbri_reset(dbri);
+
+ if (dbri->irq)
+ free_irq(dbri->irq, dbri);
+
+ if (dbri->regs)
+ sbus_iounmap(dbri->regs, dbri->regs_size);
+
+ if (dbri->dma)
+ sbus_free_consistent(dbri->sdev, sizeof(struct dbri_dma),
+ (void *)dbri->dma, dbri->dma_dvma);
+}
+
+static int __init dbri_attach(int prom_node, struct sbus_dev *sdev)
+{
+ snd_dbri_t *dbri;
+ struct linux_prom_irqs irq;
+ struct resource *rp;
+ snd_card_t *card;
+ static int dev = 0;
+ int err;
+
+ if (sdev->prom_name[9] < 'e') {
+ printk(KERN_ERR "DBRI: unsupported chip version %c found.\n",
+ sdev->prom_name[9]);
+ return -EIO;
+ }
+
+ if (dev >= SNDRV_CARDS)
+ return -ENODEV;
+ if (!enable[dev]) {
+ dev++;
+ return -ENOENT;
+ }
+
+ prom_getproperty(prom_node, "intr", (char *)&irq, sizeof(irq));
+
+ card = snd_card_new(index[dev], id[dev], THIS_MODULE,
+ sizeof(snd_dbri_t));
+ if (card == NULL)
+ return -ENOMEM;
+
+ strcpy(card->driver, "DBRI");
+ strcpy(card->shortname, "Sun DBRI");
+ rp = &sdev->resource[0];
+ sprintf(card->longname, "%s at 0x%02lx:0x%08lx, irq %s",
+ card->shortname,
+ rp->flags & 0xffL, rp->start, __irq_itoa(irq.pri));
+
+ if ((err = snd_dbri_create(card, sdev, &irq, dev)) < 0) {
+ snd_card_free(card);
+ return err;
+ }
+
+ dbri = (snd_dbri_t *) card->private_data;
+ if ((err = snd_dbri_pcm(dbri)) < 0) {
+ snd_dbri_free(dbri);
+ snd_card_free(card);
+ return err;
+ }
+
+ if ((err = snd_dbri_mixer(dbri)) < 0) {
+ snd_dbri_free(dbri);
+ snd_card_free(card);
+ return err;
+ }
+
+ /* /proc file handling */
+ snd_dbri_proc(dbri);
+
+ if ((err = snd_card_register(card)) < 0) {
+ snd_dbri_free(dbri);
+ snd_card_free(card);
+ return err;
+ }
+
+ printk(KERN_INFO "audio%d at %p (irq %d) is DBRI(%c)+CS4215(%d)\n",
+ dev, dbri->regs,
+ dbri->irq, dbri->dbri_version, dbri->mm.version);
+ dev++;
+
+ return 0;
+}
+
+/* Probe for the dbri chip and then attach the driver. */
+static int __init dbri_init(void)
+{
+ struct sbus_bus *sbus;
+ struct sbus_dev *sdev;
+ int found = 0;
+
+ /* Probe each SBUS for the DBRI chip(s). */
+ for_all_sbusdev(sdev, sbus) {
+ /*
+ * The version is coded in the last character
+ */
+ if (!strncmp(sdev->prom_name, "SUNW,DBRI", 9)) {
+ dprintk(D_GEN, "DBRI: Found %s in SBUS slot %d\n",
+ sdev->prom_name, sdev->slot);
+
+ if (dbri_attach(sdev->prom_node, sdev) == 0)
+ found++;
+ }
+ }
+
+ return (found > 0) ? 0 : -EIO;
+}
+
+static void __exit dbri_exit(void)
+{
+ snd_dbri_t *this = dbri_list;
+
+ while (this != NULL) {
+ snd_dbri_t *next = this->next;
+ snd_card_t *card = this->card;
+
+ snd_dbri_free(this);
+ snd_card_free(card);
+ this = next;
+ }
+ dbri_list = NULL;
+}
+
+module_init(dbri_init);
+module_exit(dbri_exit);