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d8002539ec
In Fireface series, registration of higher 4 bytes of destination address for asynchronous transaction of MIDI messages is done by a write transaction to model-specific register. On the other hand, registration of lower 4 bytes of the address is selectable from 4 options. A register for this registration includes the other purpose options such as input attenuation. Thus this driver expects userspace applications to configure the register. Actual behaviour for the asynchronous transaction is different depending on protocols. In former protocol, destination offset of each transaction is the same as the registered address even if it is block request. In latter models, destination offset of each transaction is the offset of previous transaction plus 4 byte and the transaction is quadlet request. This commit cleanups comments about the above mechanism. Signed-off-by: Takashi Sakamoto <o-takashi@sakamocchi.jp> Signed-off-by: Takashi Iwai <tiwai@suse.de>
234 lines
6.4 KiB
C
234 lines
6.4 KiB
C
/*
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* ff-transaction.c - a part of driver for RME Fireface series
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*
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* Copyright (c) 2015-2017 Takashi Sakamoto
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*
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* Licensed under the terms of the GNU General Public License, version 2.
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*/
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#include "ff.h"
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static void finish_transmit_midi_msg(struct snd_ff *ff, unsigned int port,
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int rcode)
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{
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struct snd_rawmidi_substream *substream =
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READ_ONCE(ff->rx_midi_substreams[port]);
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if (rcode_is_permanent_error(rcode)) {
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ff->rx_midi_error[port] = true;
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return;
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}
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if (rcode != RCODE_COMPLETE) {
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/* Transfer the message again, immediately. */
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ff->next_ktime[port] = 0;
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schedule_work(&ff->rx_midi_work[port]);
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return;
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}
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snd_rawmidi_transmit_ack(substream, ff->rx_bytes[port]);
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ff->rx_bytes[port] = 0;
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if (!snd_rawmidi_transmit_empty(substream))
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schedule_work(&ff->rx_midi_work[port]);
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}
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static void finish_transmit_midi0_msg(struct fw_card *card, int rcode,
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void *data, size_t length,
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void *callback_data)
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{
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struct snd_ff *ff =
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container_of(callback_data, struct snd_ff, transactions[0]);
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finish_transmit_midi_msg(ff, 0, rcode);
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}
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static void finish_transmit_midi1_msg(struct fw_card *card, int rcode,
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void *data, size_t length,
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void *callback_data)
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{
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struct snd_ff *ff =
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container_of(callback_data, struct snd_ff, transactions[1]);
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finish_transmit_midi_msg(ff, 1, rcode);
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}
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static void transmit_midi_msg(struct snd_ff *ff, unsigned int port)
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{
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struct snd_rawmidi_substream *substream =
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READ_ONCE(ff->rx_midi_substreams[port]);
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int quad_count;
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struct fw_device *fw_dev = fw_parent_device(ff->unit);
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unsigned long long addr;
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int generation;
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fw_transaction_callback_t callback;
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int tcode;
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if (substream == NULL || snd_rawmidi_transmit_empty(substream))
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return;
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if (ff->rx_bytes[port] > 0 || ff->rx_midi_error[port])
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return;
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/* Do it in next chance. */
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if (ktime_after(ff->next_ktime[port], ktime_get())) {
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schedule_work(&ff->rx_midi_work[port]);
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return;
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}
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quad_count = ff->spec->protocol->fill_midi_msg(ff, substream, port);
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if (quad_count <= 0)
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return;
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if (port == 0) {
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addr = ff->spec->midi_rx_addrs[0];
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callback = finish_transmit_midi0_msg;
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} else {
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addr = ff->spec->midi_rx_addrs[1];
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callback = finish_transmit_midi1_msg;
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}
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/* Set interval to next transaction. */
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ff->next_ktime[port] = ktime_add_ns(ktime_get(),
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ff->rx_bytes[port] * 8 * NSEC_PER_SEC / 31250);
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if (quad_count == 1)
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tcode = TCODE_WRITE_QUADLET_REQUEST;
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else
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tcode = TCODE_WRITE_BLOCK_REQUEST;
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/*
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* In Linux FireWire core, when generation is updated with memory
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* barrier, node id has already been updated. In this module, After
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* this smp_rmb(), load/store instructions to memory are completed.
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* Thus, both of generation and node id are available with recent
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* values. This is a light-serialization solution to handle bus reset
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* events on IEEE 1394 bus.
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*/
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generation = fw_dev->generation;
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smp_rmb();
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fw_send_request(fw_dev->card, &ff->transactions[port], tcode,
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fw_dev->node_id, generation, fw_dev->max_speed,
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addr, &ff->msg_buf[port], quad_count * 4,
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callback, &ff->transactions[port]);
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}
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static void transmit_midi0_msg(struct work_struct *work)
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{
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struct snd_ff *ff = container_of(work, struct snd_ff, rx_midi_work[0]);
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transmit_midi_msg(ff, 0);
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}
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static void transmit_midi1_msg(struct work_struct *work)
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{
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struct snd_ff *ff = container_of(work, struct snd_ff, rx_midi_work[1]);
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transmit_midi_msg(ff, 1);
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}
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static void handle_midi_msg(struct fw_card *card, struct fw_request *request,
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int tcode, int destination, int source,
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int generation, unsigned long long offset,
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void *data, size_t length, void *callback_data)
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{
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struct snd_ff *ff = callback_data;
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__le32 *buf = data;
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fw_send_response(card, request, RCODE_COMPLETE);
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offset -= ff->async_handler.offset;
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ff->spec->protocol->handle_midi_msg(ff, (unsigned int)offset, buf,
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length);
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}
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static int allocate_own_address(struct snd_ff *ff, int i)
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{
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struct fw_address_region midi_msg_region;
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int err;
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ff->async_handler.length = ff->spec->midi_addr_range;
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ff->async_handler.address_callback = handle_midi_msg;
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ff->async_handler.callback_data = ff;
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midi_msg_region.start = 0x000100000000ull * i;
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midi_msg_region.end = midi_msg_region.start + ff->async_handler.length;
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err = fw_core_add_address_handler(&ff->async_handler, &midi_msg_region);
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if (err >= 0) {
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/* Controllers are allowed to register this region. */
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if (ff->async_handler.offset & 0x0000ffffffff) {
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fw_core_remove_address_handler(&ff->async_handler);
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err = -EAGAIN;
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}
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}
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return err;
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}
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// Controllers are allowed to register higher 4 bytes of destination address to
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// receive asynchronous transactions for MIDI messages, while the way to
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// register lower 4 bytes of address is different depending on protocols. For
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// details, please refer to comments in protocol implementations.
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//
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// This driver expects userspace applications to configure registers for the
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// lower address because in most cases such registers has the other settings.
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int snd_ff_transaction_reregister(struct snd_ff *ff)
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{
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struct fw_card *fw_card = fw_parent_device(ff->unit)->card;
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u32 addr;
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__le32 reg;
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/*
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* Controllers are allowed to register its node ID and upper 2 byte of
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* local address to listen asynchronous transactions.
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*/
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addr = (fw_card->node_id << 16) | (ff->async_handler.offset >> 32);
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reg = cpu_to_le32(addr);
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return snd_fw_transaction(ff->unit, TCODE_WRITE_QUADLET_REQUEST,
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ff->spec->midi_high_addr,
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®, sizeof(reg), 0);
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}
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int snd_ff_transaction_register(struct snd_ff *ff)
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{
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int i, err;
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/*
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* Allocate in Memory Space of IEC 13213, but lower 4 byte in LSB should
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* be zero due to device specification.
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*/
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for (i = 0; i < 0xffff; i++) {
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err = allocate_own_address(ff, i);
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if (err != -EBUSY && err != -EAGAIN)
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break;
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}
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if (err < 0)
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return err;
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err = snd_ff_transaction_reregister(ff);
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if (err < 0)
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return err;
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INIT_WORK(&ff->rx_midi_work[0], transmit_midi0_msg);
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INIT_WORK(&ff->rx_midi_work[1], transmit_midi1_msg);
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return 0;
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}
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void snd_ff_transaction_unregister(struct snd_ff *ff)
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{
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__le32 reg;
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if (ff->async_handler.callback_data == NULL)
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return;
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ff->async_handler.callback_data = NULL;
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/* Release higher 4 bytes of address. */
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reg = cpu_to_le32(0x00000000);
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snd_fw_transaction(ff->unit, TCODE_WRITE_QUADLET_REQUEST,
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ff->spec->midi_high_addr,
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®, sizeof(reg), 0);
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fw_core_remove_address_handler(&ff->async_handler);
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}
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