Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Takashi Sakamoto | 1370 | 100.00% | 3 | 100.00% |
Total | 1370 | 3 |
/* * motu-protocol-v3.c - a part of driver for MOTU FireWire series * * Copyright (c) 2015-2017 Takashi Sakamoto <o-takashi@sakamocchi.jp> * * Licensed under the terms of the GNU General Public License, version 2. */ #include <linux/delay.h> #include "motu.h" #define V3_CLOCK_STATUS_OFFSET 0x0b14 #define V3_FETCH_PCM_FRAMES 0x02000000 #define V3_CLOCK_RATE_MASK 0x0000ff00 #define V3_CLOCK_RATE_SHIFT 8 #define V3_CLOCK_SOURCE_MASK 0x000000ff #define V3_OPT_IFACE_MODE_OFFSET 0x0c94 #define V3_ENABLE_OPT_IN_IFACE_A 0x00000001 #define V3_ENABLE_OPT_IN_IFACE_B 0x00000002 #define V3_ENABLE_OPT_OUT_IFACE_A 0x00000100 #define V3_ENABLE_OPT_OUT_IFACE_B 0x00000200 #define V3_NO_ADAT_OPT_IN_IFACE_A 0x00010000 #define V3_NO_ADAT_OPT_IN_IFACE_B 0x00100000 #define V3_NO_ADAT_OPT_OUT_IFACE_A 0x00040000 #define V3_NO_ADAT_OPT_OUT_IFACE_B 0x00400000 static int v3_get_clock_rate(struct snd_motu *motu, unsigned int *rate) { __be32 reg; u32 data; int err; err = snd_motu_transaction_read(motu, V3_CLOCK_STATUS_OFFSET, ®, sizeof(reg)); if (err < 0) return err; data = be32_to_cpu(reg); data = (data & V3_CLOCK_RATE_MASK) >> V3_CLOCK_RATE_SHIFT; if (data >= ARRAY_SIZE(snd_motu_clock_rates)) return -EIO; *rate = snd_motu_clock_rates[data]; return 0; } static int v3_set_clock_rate(struct snd_motu *motu, unsigned int rate) { __be32 reg; u32 data; bool need_to_wait; int i, err; for (i = 0; i < ARRAY_SIZE(snd_motu_clock_rates); ++i) { if (snd_motu_clock_rates[i] == rate) break; } if (i == ARRAY_SIZE(snd_motu_clock_rates)) return -EINVAL; err = snd_motu_transaction_read(motu, V3_CLOCK_STATUS_OFFSET, ®, sizeof(reg)); if (err < 0) return err; data = be32_to_cpu(reg); data &= ~(V3_CLOCK_RATE_MASK | V3_FETCH_PCM_FRAMES); data |= i << V3_CLOCK_RATE_SHIFT; need_to_wait = data != be32_to_cpu(reg); reg = cpu_to_be32(data); err = snd_motu_transaction_write(motu, V3_CLOCK_STATUS_OFFSET, ®, sizeof(reg)); if (err < 0) return err; if (need_to_wait) { /* Cost expensive. */ if (msleep_interruptible(4000) > 0) return -EINTR; } return 0; } static int v3_get_clock_source(struct snd_motu *motu, enum snd_motu_clock_source *src) { __be32 reg; u32 data; unsigned int val; int err; err = snd_motu_transaction_read(motu, V3_CLOCK_STATUS_OFFSET, ®, sizeof(reg)); if (err < 0) return err; data = be32_to_cpu(reg); val = data & V3_CLOCK_SOURCE_MASK; if (val == 0x00) { *src = SND_MOTU_CLOCK_SOURCE_INTERNAL; } else if (val == 0x01) { *src = SND_MOTU_CLOCK_SOURCE_WORD_ON_BNC; } else if (val == 0x10) { *src = SND_MOTU_CLOCK_SOURCE_SPDIF_ON_COAX; } else if (val == 0x18 || val == 0x19) { err = snd_motu_transaction_read(motu, V3_OPT_IFACE_MODE_OFFSET, ®, sizeof(reg)); if (err < 0) return err; data = be32_to_cpu(reg); if (val == 0x18) { if (data & V3_NO_ADAT_OPT_IN_IFACE_A) *src = SND_MOTU_CLOCK_SOURCE_SPDIF_ON_OPT_A; else *src = SND_MOTU_CLOCK_SOURCE_ADAT_ON_OPT_A; } else { if (data & V3_NO_ADAT_OPT_IN_IFACE_B) *src = SND_MOTU_CLOCK_SOURCE_SPDIF_ON_OPT_B; else *src = SND_MOTU_CLOCK_SOURCE_ADAT_ON_OPT_B; } } else { *src = SND_MOTU_CLOCK_SOURCE_UNKNOWN; } return 0; } static int v3_switch_fetching_mode(struct snd_motu *motu, bool enable) { __be32 reg; u32 data; int err; err = snd_motu_transaction_read(motu, V3_CLOCK_STATUS_OFFSET, ®, sizeof(reg)); if (err < 0) return 0; data = be32_to_cpu(reg); if (enable) data |= V3_FETCH_PCM_FRAMES; else data &= ~V3_FETCH_PCM_FRAMES; reg = cpu_to_be32(data); return snd_motu_transaction_write(motu, V3_CLOCK_STATUS_OFFSET, ®, sizeof(reg)); } static void calculate_fixed_part(struct snd_motu_packet_format *formats, enum amdtp_stream_direction dir, enum snd_motu_spec_flags flags, unsigned char analog_ports) { unsigned char pcm_chunks[3] = {0, 0, 0}; formats->msg_chunks = 2; pcm_chunks[0] = analog_ports; pcm_chunks[1] = analog_ports; if (flags & SND_MOTU_SPEC_SUPPORT_CLOCK_X4) pcm_chunks[2] = analog_ports; if (dir == AMDTP_IN_STREAM) { if (flags & SND_MOTU_SPEC_TX_MICINST_CHUNK) { pcm_chunks[0] += 2; pcm_chunks[1] += 2; if (flags & SND_MOTU_SPEC_SUPPORT_CLOCK_X4) pcm_chunks[2] += 2; } if (flags & SND_MOTU_SPEC_TX_RETURN_CHUNK) { pcm_chunks[0] += 2; pcm_chunks[1] += 2; if (flags & SND_MOTU_SPEC_SUPPORT_CLOCK_X4) pcm_chunks[2] += 2; } if (flags & SND_MOTU_SPEC_TX_REVERB_CHUNK) { pcm_chunks[0] += 2; pcm_chunks[1] += 2; } } else { if (flags & SND_MOTU_SPEC_RX_SEPARETED_MAIN) { pcm_chunks[0] += 2; pcm_chunks[1] += 2; } // Packets to v3 units include 2 chunks for phone 1/2, except // for 176.4/192.0 kHz. pcm_chunks[0] += 2; pcm_chunks[1] += 2; } if (flags & SND_MOTU_SPEC_HAS_AESEBU_IFACE) { pcm_chunks[0] += 2; pcm_chunks[1] += 2; } /* * At least, packets have two data chunks for S/PDIF on coaxial * interface. */ pcm_chunks[0] += 2; pcm_chunks[1] += 2; /* * Fixed part consists of PCM chunks multiple of 4, with msg chunks. As * a result, this part can includes empty data chunks. */ formats->fixed_part_pcm_chunks[0] = round_up(2 + pcm_chunks[0], 4) - 2; formats->fixed_part_pcm_chunks[1] = round_up(2 + pcm_chunks[1], 4) - 2; if (flags & SND_MOTU_SPEC_SUPPORT_CLOCK_X4) formats->fixed_part_pcm_chunks[2] = round_up(2 + pcm_chunks[2], 4) - 2; } static void calculate_differed_part(struct snd_motu_packet_format *formats, enum snd_motu_spec_flags flags, u32 data, u32 a_enable_mask, u32 a_no_adat_mask, u32 b_enable_mask, u32 b_no_adat_mask) { unsigned char pcm_chunks[3] = {0, 0, 0}; int i; if ((flags & SND_MOTU_SPEC_HAS_OPT_IFACE_A) && (data & a_enable_mask)) { if (data & a_no_adat_mask) { /* * Additional two data chunks for S/PDIF on optical * interface A. This includes empty data chunks. */ pcm_chunks[0] += 4; pcm_chunks[1] += 4; } else { /* * Additional data chunks for ADAT on optical interface * A. */ pcm_chunks[0] += 8; pcm_chunks[1] += 4; } } if ((flags & SND_MOTU_SPEC_HAS_OPT_IFACE_B) && (data & b_enable_mask)) { if (data & b_no_adat_mask) { /* * Additional two data chunks for S/PDIF on optical * interface B. This includes empty data chunks. */ pcm_chunks[0] += 4; pcm_chunks[1] += 4; } else { /* * Additional data chunks for ADAT on optical interface * B. */ pcm_chunks[0] += 8; pcm_chunks[1] += 4; } } for (i = 0; i < 3; ++i) { if (pcm_chunks[i] > 0) pcm_chunks[i] = round_up(pcm_chunks[i], 4); formats->differed_part_pcm_chunks[i] = pcm_chunks[i]; } } static int v3_cache_packet_formats(struct snd_motu *motu) { __be32 reg; u32 data; int err; err = snd_motu_transaction_read(motu, V3_OPT_IFACE_MODE_OFFSET, ®, sizeof(reg)); if (err < 0) return err; data = be32_to_cpu(reg); calculate_fixed_part(&motu->tx_packet_formats, AMDTP_IN_STREAM, motu->spec->flags, motu->spec->analog_in_ports); calculate_differed_part(&motu->tx_packet_formats, motu->spec->flags, data, V3_ENABLE_OPT_IN_IFACE_A, V3_NO_ADAT_OPT_IN_IFACE_A, V3_ENABLE_OPT_IN_IFACE_B, V3_NO_ADAT_OPT_IN_IFACE_B); calculate_fixed_part(&motu->rx_packet_formats, AMDTP_OUT_STREAM, motu->spec->flags, motu->spec->analog_out_ports); calculate_differed_part(&motu->rx_packet_formats, motu->spec->flags, data, V3_ENABLE_OPT_OUT_IFACE_A, V3_NO_ADAT_OPT_OUT_IFACE_A, V3_ENABLE_OPT_OUT_IFACE_B, V3_NO_ADAT_OPT_OUT_IFACE_B); motu->tx_packet_formats.pcm_byte_offset = 10; motu->rx_packet_formats.pcm_byte_offset = 10; return 0; } const struct snd_motu_protocol snd_motu_protocol_v3 = { .get_clock_rate = v3_get_clock_rate, .set_clock_rate = v3_set_clock_rate, .get_clock_source = v3_get_clock_source, .switch_fetching_mode = v3_switch_fetching_mode, .cache_packet_formats = v3_cache_packet_formats, };
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