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// SPDX-License-Identifier: GPL-2.0-only
//
// motu-register-dsp-message-parser.c - a part of driver for MOTU FireWire series
//
// Copyright (c) 2021 Takashi Sakamoto <o-takashi@sakamocchi.jp>
// Below models allow software to configure their DSP functions by asynchronous transaction
// to access their internal registers.
// * 828 mk2
// * 896hd
// * Traveler
// * 8 pre
// * Ultralite
// * 4 pre
// * Audio Express
//
// Additionally, isochronous packets from the above models include messages to notify state of
// DSP. The messages are two set of 3 byte data in 2nd and 3rd quadlet of data block. When user
// operates hardware components such as dial and switch, corresponding messages are transferred.
// The messages include Hardware metering and MIDI messages as well.
#include "motu.h"
#define MSG_FLAG_POS 4
#define MSG_FLAG_TYPE_MASK 0xf8
#define MSG_FLAG_MIDI_MASK 0x01
#define MSG_FLAG_MODEL_SPECIFIC_MASK 0x06
#define MSG_FLAG_8PRE 0x00
#define MSG_FLAG_ULTRALITE 0x04
#define MSG_FLAG_TRAVELER 0x04
#define MSG_FLAG_828MK2 0x04
#define MSG_FLAG_896HD 0x04
#define MSG_FLAG_4PRE 0x05 // MIDI mask is in 8th byte.
#define MSG_FLAG_AUDIOEXPRESS 0x05 // MIDI mask is in 8th byte.
#define MSG_FLAG_TYPE_SHIFT 3
#define MSG_VALUE_POS 5
#define MSG_MIDI_BYTE_POS 6
#define MSG_METER_IDX_POS 7
// In 4 pre and Audio express, meter index is in 6th byte. MIDI flag is in 8th byte and MIDI byte
// is in 7th byte.
#define MSG_METER_IDX_POS_4PRE_AE 6
#define MSG_MIDI_BYTE_POS_4PRE_AE 7
#define MSG_FLAG_MIDI_POS_4PRE_AE 8
enum register_dsp_msg_type {
// Used for messages with no information.
INVALID = 0x00,
MIXER_SELECT = 0x01,
MIXER_SRC_GAIN = 0x02,
MIXER_SRC_PAN = 0x03,
MIXER_SRC_FLAG = 0x04,
MIXER_OUTPUT_PAIRED_VOLUME = 0x05,
MIXER_OUTPUT_PAIRED_FLAG = 0x06,
MAIN_OUTPUT_PAIRED_VOLUME = 0x07,
HP_OUTPUT_PAIRED_VOLUME = 0x08,
HP_OUTPUT_PAIRED_ASSIGNMENT = 0x09,
// Transferred by all models but the purpose is still unknown.
UNKNOWN_0 = 0x0a,
// Specific to 828mk2, 896hd, Traveler.
UNKNOWN_2 = 0x0c,
// Specific to 828mk2, Traveler, and 896hd (not functional).
LINE_INPUT_BOOST = 0x0d,
// Specific to 828mk2, Traveler, and 896hd (not functional).
LINE_INPUT_NOMINAL_LEVEL = 0x0e,
// Specific to Ultralite, 4 pre, Audio express, and 8 pre (not functional).
INPUT_GAIN_AND_INVERT = 0x15,
// Specific to 4 pre, and Audio express.
INPUT_FLAG = 0x16,
// Specific to 4 pre, and Audio express.
MIXER_SRC_PAIRED_BALANCE = 0x17,
// Specific to 4 pre, and Audio express.
MIXER_SRC_PAIRED_WIDTH = 0x18,
// Transferred by all models. This type of message interposes the series of the other
// messages. The message delivers signal level up to 96.0 kHz. In 828mk2, 896hd, and
// Traveler, one of physical outputs is selected for the message. The selection is done
// by LSB one byte in asynchronous write quadlet transaction to 0x'ffff'f000'0b2c.
METER = 0x1f,
};
#define EVENT_QUEUE_SIZE 16
struct msg_parser {
spinlock_t lock;
struct snd_firewire_motu_register_dsp_meter meter;
bool meter_pos_quirk;
struct snd_firewire_motu_register_dsp_parameter param;
u8 prev_mixer_src_type;
u8 mixer_ch;
u8 mixer_src_ch;
u8 input_ch;
u8 prev_msg_type;
u32 event_queue[EVENT_QUEUE_SIZE];
unsigned int push_pos;
unsigned int pull_pos;
};
int snd_motu_register_dsp_message_parser_new(struct snd_motu *motu)
{
struct msg_parser *parser;
parser = devm_kzalloc(&motu->card->card_dev, sizeof(*parser), GFP_KERNEL);
if (!parser)
return -ENOMEM;
spin_lock_init(&parser->lock);
if (motu->spec == &snd_motu_spec_4pre || motu->spec == &snd_motu_spec_audio_express)
parser->meter_pos_quirk = true;
motu->message_parser = parser;
return 0;
}
int snd_motu_register_dsp_message_parser_init(struct snd_motu *motu)
{
struct msg_parser *parser = motu->message_parser;
parser->prev_mixer_src_type = INVALID;
parser->mixer_ch = 0xff;
parser->mixer_src_ch = 0xff;
parser->prev_msg_type = INVALID;
return 0;
}
// Rough implementaion of queue without overrun check.
static void queue_event(struct snd_motu *motu, u8 msg_type, u8 identifier0, u8 identifier1, u8 val)
{
struct msg_parser *parser = motu->message_parser;
unsigned int pos = parser->push_pos;
u32 entry;
if (!motu->hwdep || motu->hwdep->used == 0)
return;
entry = (msg_type << 24) | (identifier0 << 16) | (identifier1 << 8) | val;
parser->event_queue[pos] = entry;
++pos;
if (pos >= EVENT_QUEUE_SIZE)
pos = 0;
parser->push_pos = pos;
}
void snd_motu_register_dsp_message_parser_parse(const struct amdtp_stream *s,
const struct pkt_desc *desc, unsigned int count)
{
struct snd_motu *motu = container_of(s, struct snd_motu, tx_stream);
unsigned int data_block_quadlets = s->data_block_quadlets;
struct msg_parser *parser = motu->message_parser;
bool meter_pos_quirk = parser->meter_pos_quirk;
unsigned int pos = parser->push_pos;
unsigned long flags;
int i;
spin_lock_irqsave(&parser->lock, flags);
for (i = 0; i < count; ++i) {
__be32 *buffer = desc->ctx_payload;
unsigned int data_blocks = desc->data_blocks;
int j;
desc = amdtp_stream_next_packet_desc(s, desc);
for (j = 0; j < data_blocks; ++j) {
u8 *b = (u8 *)buffer;
u8 msg_type = (b[MSG_FLAG_POS] & MSG_FLAG_TYPE_MASK) >> MSG_FLAG_TYPE_SHIFT;
u8 val = b[MSG_VALUE_POS];
buffer += data_block_quadlets;
switch (msg_type) {
case MIXER_SELECT:
{
u8 mixer_ch = val / 0x20;
if (mixer_ch < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_MIXER_COUNT) {
parser->mixer_src_ch = 0;
parser->mixer_ch = mixer_ch;
}
break;
}
case MIXER_SRC_GAIN:
case MIXER_SRC_PAN:
case MIXER_SRC_FLAG:
case MIXER_SRC_PAIRED_BALANCE:
case MIXER_SRC_PAIRED_WIDTH:
{
struct snd_firewire_motu_register_dsp_parameter *param = &parser->param;
u8 mixer_ch = parser->mixer_ch;
u8 mixer_src_ch = parser->mixer_src_ch;
if (msg_type != parser->prev_mixer_src_type)
mixer_src_ch = 0;
else
++mixer_src_ch;
parser->prev_mixer_src_type = msg_type;
if (mixer_ch < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_MIXER_COUNT &&
mixer_src_ch < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_MIXER_SRC_COUNT) {
u8 mixer_ch = parser->mixer_ch;
switch (msg_type) {
case MIXER_SRC_GAIN:
if (param->mixer.source[mixer_ch].gain[mixer_src_ch] != val) {
queue_event(motu, msg_type, mixer_ch, mixer_src_ch, val);
param->mixer.source[mixer_ch].gain[mixer_src_ch] = val;
}
break;
case MIXER_SRC_PAN:
if (param->mixer.source[mixer_ch].pan[mixer_src_ch] != val) {
queue_event(motu, msg_type, mixer_ch, mixer_src_ch, val);
param->mixer.source[mixer_ch].pan[mixer_src_ch] = val;
}
break;
case MIXER_SRC_FLAG:
if (param->mixer.source[mixer_ch].flag[mixer_src_ch] != val) {
queue_event(motu, msg_type, mixer_ch, mixer_src_ch, val);
param->mixer.source[mixer_ch].flag[mixer_src_ch] = val;
}
break;
case MIXER_SRC_PAIRED_BALANCE:
if (param->mixer.source[mixer_ch].paired_balance[mixer_src_ch] != val) {
queue_event(motu, msg_type, mixer_ch, mixer_src_ch, val);
param->mixer.source[mixer_ch].paired_balance[mixer_src_ch] = val;
}
break;
case MIXER_SRC_PAIRED_WIDTH:
if (param->mixer.source[mixer_ch].paired_width[mixer_src_ch] != val) {
queue_event(motu, msg_type, mixer_ch, mixer_src_ch, val);
param->mixer.source[mixer_ch].paired_width[mixer_src_ch] = val;
}
break;
default:
break;
}
parser->mixer_src_ch = mixer_src_ch;
}
break;
}
case MIXER_OUTPUT_PAIRED_VOLUME:
case MIXER_OUTPUT_PAIRED_FLAG:
{
struct snd_firewire_motu_register_dsp_parameter *param = &parser->param;
u8 mixer_ch = parser->mixer_ch;
if (mixer_ch < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_MIXER_COUNT) {
switch (msg_type) {
case MIXER_OUTPUT_PAIRED_VOLUME:
if (param->mixer.output.paired_volume[mixer_ch] != val) {
queue_event(motu, msg_type, mixer_ch, 0, val);
param->mixer.output.paired_volume[mixer_ch] = val;
}
break;
case MIXER_OUTPUT_PAIRED_FLAG:
if (param->mixer.output.paired_flag[mixer_ch] != val) {
queue_event(motu, msg_type, mixer_ch, 0, val);
param->mixer.output.paired_flag[mixer_ch] = val;
}
break;
default:
break;
}
}
break;
}
case MAIN_OUTPUT_PAIRED_VOLUME:
if (parser->param.output.main_paired_volume != val) {
queue_event(motu, msg_type, 0, 0, val);
parser->param.output.main_paired_volume = val;
}
break;
case HP_OUTPUT_PAIRED_VOLUME:
if (parser->param.output.hp_paired_volume != val) {
queue_event(motu, msg_type, 0, 0, val);
parser->param.output.hp_paired_volume = val;
}
break;
case HP_OUTPUT_PAIRED_ASSIGNMENT:
if (parser->param.output.hp_paired_assignment != val) {
queue_event(motu, msg_type, 0, 0, val);
parser->param.output.hp_paired_assignment = val;
}
break;
case LINE_INPUT_BOOST:
if (parser->param.line_input.boost_flag != val) {
queue_event(motu, msg_type, 0, 0, val);
parser->param.line_input.boost_flag = val;
}
break;
case LINE_INPUT_NOMINAL_LEVEL:
if (parser->param.line_input.nominal_level_flag != val) {
queue_event(motu, msg_type, 0, 0, val);
parser->param.line_input.nominal_level_flag = val;
}
break;
case INPUT_GAIN_AND_INVERT:
case INPUT_FLAG:
{
struct snd_firewire_motu_register_dsp_parameter *param = &parser->param;
u8 input_ch = parser->input_ch;
if (parser->prev_msg_type != msg_type)
input_ch = 0;
else
++input_ch;
if (input_ch < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_INPUT_COUNT) {
switch (msg_type) {
case INPUT_GAIN_AND_INVERT:
if (param->input.gain_and_invert[input_ch] != val) {
queue_event(motu, msg_type, input_ch, 0, val);
param->input.gain_and_invert[input_ch] = val;
}
break;
case INPUT_FLAG:
if (param->input.flag[input_ch] != val) {
queue_event(motu, msg_type, input_ch, 0, val);
param->input.flag[input_ch] = val;
}
break;
default:
break;
}
parser->input_ch = input_ch;
}
break;
}
case UNKNOWN_0:
case UNKNOWN_2:
break;
case METER:
{
u8 pos;
if (!meter_pos_quirk)
pos = b[MSG_METER_IDX_POS];
else
pos = b[MSG_METER_IDX_POS_4PRE_AE];
if (pos < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_METER_INPUT_COUNT) {
parser->meter.data[pos] = val;
} else if (pos >= 0x80) {
pos -= (0x80 - SNDRV_FIREWIRE_MOTU_REGISTER_DSP_METER_INPUT_COUNT);
if (pos < SNDRV_FIREWIRE_MOTU_REGISTER_DSP_METER_COUNT)
parser->meter.data[pos] = val;
}
// The message for meter is interruptible to the series of other
// types of messages. Don't cache it.
fallthrough;
}
case INVALID:
default:
// Don't cache it.
continue;
}
parser->prev_msg_type = msg_type;
}
}
if (pos != parser->push_pos)
wake_up(&motu->hwdep_wait);
spin_unlock_irqrestore(&parser->lock, flags);
}
void snd_motu_register_dsp_message_parser_copy_meter(struct snd_motu *motu,
struct snd_firewire_motu_register_dsp_meter *meter)
{
struct msg_parser *parser = motu->message_parser;
unsigned long flags;
spin_lock_irqsave(&parser->lock, flags);
memcpy(meter, &parser->meter, sizeof(*meter));
spin_unlock_irqrestore(&parser->lock, flags);
}
void snd_motu_register_dsp_message_parser_copy_parameter(struct snd_motu *motu,
struct snd_firewire_motu_register_dsp_parameter *param)
{
struct msg_parser *parser = motu->message_parser;
unsigned long flags;
spin_lock_irqsave(&parser->lock, flags);
memcpy(param, &parser->param, sizeof(*param));
spin_unlock_irqrestore(&parser->lock, flags);
}
unsigned int snd_motu_register_dsp_message_parser_count_event(struct snd_motu *motu)
{
struct msg_parser *parser = motu->message_parser;
if (parser->pull_pos > parser->push_pos)
return EVENT_QUEUE_SIZE - parser->pull_pos + parser->push_pos;
else
return parser->push_pos - parser->pull_pos;
}
bool snd_motu_register_dsp_message_parser_copy_event(struct snd_motu *motu, u32 *event)
{
struct msg_parser *parser = motu->message_parser;
unsigned int pos = parser->pull_pos;
unsigned long flags;
if (pos == parser->push_pos)
return false;
spin_lock_irqsave(&parser->lock, flags);
*event = parser->event_queue[pos];
++pos;
if (pos >= EVENT_QUEUE_SIZE)
pos = 0;
parser->pull_pos = pos;
spin_unlock_irqrestore(&parser->lock, flags);
return true;
}
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