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firewire: core: use union for callback of transaction completion
In 1394 OHCI, the OUTPUT_LAST descriptor of Asynchronous Transmit (AT) request context has timeStamp field, in which 1394 OHCI controller record the isochronous cycle when the packet was sent for the request subaction. Additionally, for the case of split transaction in IEEE 1394, Asynchronous Receive (AT) request context is used for response subaction to finish the transaction. The trailer quadlet of descriptor in the context has timeStamp field, in which 1394 OHCI controller records the isochronous cycle when the packet arrived. Current implementation of 1394 OHCI controller driver stores values of both fields to internal structure as time stamp, while Linux FireWire subsystem provides no way to access to it. When using asynchronous transaction service provided by the subsystem, callback function is passed to kernel API. The prototype of callback function has the lack of argument for the values. This commit adds a new callback function for the purpose. It has an additional argument to point to the constant array with two elements. For backward compatibility to kernel space, a new union is also adds to wrap two different prototype of callback function. The fw_transaction structure has the union as a member and a boolean flag to express which function callback is available. The core function is changed to handle the two cases; with or without time stamp. For the error path to process transaction, the isochronous cycle is computed by current value of CYCLE_TIMER register in 1394 OHCI controller. Especially for the case of timeout of split transaction, the expected isochronous cycle is computed. Link: https://lore.kernel.org/r/20230529113406.986289-6-o-takashi@sakamocchi.jp Signed-off-by: Takashi Sakamoto <o-takashi@sakamocchi.jp>
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@ -70,8 +70,8 @@ static int try_cancel_split_timeout(struct fw_transaction *t)
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return 1;
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}
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static int close_transaction(struct fw_transaction *transaction,
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struct fw_card *card, int rcode)
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static int close_transaction(struct fw_transaction *transaction, struct fw_card *card, int rcode,
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u32 response_tstamp)
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{
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struct fw_transaction *t = NULL, *iter;
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unsigned long flags;
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@ -92,7 +92,12 @@ static int close_transaction(struct fw_transaction *transaction,
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spin_unlock_irqrestore(&card->lock, flags);
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if (t) {
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t->callback(card, rcode, NULL, 0, t->callback_data);
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if (!t->with_tstamp) {
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t->callback.without_tstamp(card, rcode, NULL, 0, t->callback_data);
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} else {
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t->callback.with_tstamp(card, rcode, t->packet.timestamp, response_tstamp,
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NULL, 0, t->callback_data);
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}
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return 0;
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}
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@ -107,6 +112,8 @@ static int close_transaction(struct fw_transaction *transaction,
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int fw_cancel_transaction(struct fw_card *card,
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struct fw_transaction *transaction)
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{
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u32 tstamp;
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/*
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* Cancel the packet transmission if it's still queued. That
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* will call the packet transmission callback which cancels
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@ -121,7 +128,17 @@ int fw_cancel_transaction(struct fw_card *card,
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* if the transaction is still pending and remove it in that case.
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*/
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return close_transaction(transaction, card, RCODE_CANCELLED);
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if (transaction->packet.ack == 0) {
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// The timestamp is reused since it was just read now.
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tstamp = transaction->packet.timestamp;
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} else {
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u32 curr_cycle_time = 0;
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(void)fw_card_read_cycle_time(card, &curr_cycle_time);
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tstamp = cycle_time_to_ohci_tstamp(curr_cycle_time);
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}
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return close_transaction(transaction, card, RCODE_CANCELLED, tstamp);
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}
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EXPORT_SYMBOL(fw_cancel_transaction);
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@ -140,7 +157,12 @@ static void split_transaction_timeout_callback(struct timer_list *timer)
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card->tlabel_mask &= ~(1ULL << t->tlabel);
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spin_unlock_irqrestore(&card->lock, flags);
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t->callback(card, RCODE_CANCELLED, NULL, 0, t->callback_data);
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if (!t->with_tstamp) {
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t->callback.without_tstamp(card, RCODE_CANCELLED, NULL, 0, t->callback_data);
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} else {
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t->callback.with_tstamp(card, RCODE_CANCELLED, t->packet.timestamp,
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t->split_timeout_cycle, NULL, 0, t->callback_data);
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}
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}
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static void start_split_transaction_timeout(struct fw_transaction *t,
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@ -162,6 +184,8 @@ static void start_split_transaction_timeout(struct fw_transaction *t,
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spin_unlock_irqrestore(&card->lock, flags);
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}
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static u32 compute_split_timeout_timestamp(struct fw_card *card, u32 request_timestamp);
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static void transmit_complete_callback(struct fw_packet *packet,
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struct fw_card *card, int status)
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{
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@ -170,28 +194,32 @@ static void transmit_complete_callback(struct fw_packet *packet,
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switch (status) {
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case ACK_COMPLETE:
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close_transaction(t, card, RCODE_COMPLETE);
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close_transaction(t, card, RCODE_COMPLETE, packet->timestamp);
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break;
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case ACK_PENDING:
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{
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t->split_timeout_cycle =
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compute_split_timeout_timestamp(card, packet->timestamp) & 0xffff;
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start_split_transaction_timeout(t, card);
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break;
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}
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case ACK_BUSY_X:
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case ACK_BUSY_A:
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case ACK_BUSY_B:
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close_transaction(t, card, RCODE_BUSY);
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close_transaction(t, card, RCODE_BUSY, packet->timestamp);
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break;
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case ACK_DATA_ERROR:
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close_transaction(t, card, RCODE_DATA_ERROR);
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close_transaction(t, card, RCODE_DATA_ERROR, packet->timestamp);
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break;
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case ACK_TYPE_ERROR:
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close_transaction(t, card, RCODE_TYPE_ERROR);
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close_transaction(t, card, RCODE_TYPE_ERROR, packet->timestamp);
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break;
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default:
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/*
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* In this case the ack is really a juju specific
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* rcode, so just forward that to the callback.
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*/
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close_transaction(t, card, status);
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close_transaction(t, card, status, packet->timestamp);
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break;
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}
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}
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@ -363,7 +391,8 @@ void fw_send_request(struct fw_card *card, struct fw_transaction *t, int tcode,
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t->is_split_transaction = false;
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timer_setup(&t->split_timeout_timer,
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split_transaction_timeout_callback, 0);
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t->callback = callback;
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t->callback.without_tstamp = callback;
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t->with_tstamp = false;
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t->callback_data = callback_data;
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fw_fill_request(&t->packet, tcode, t->tlabel,
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@ -1047,7 +1076,12 @@ void fw_core_handle_response(struct fw_card *card, struct fw_packet *p)
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*/
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card->driver->cancel_packet(card, &t->packet);
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t->callback(card, rcode, data, data_length, t->callback_data);
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if (!t->with_tstamp) {
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t->callback.without_tstamp(card, rcode, data, data_length, t->callback_data);
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} else {
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t->callback.with_tstamp(card, rcode, t->packet.timestamp, p->timestamp, data,
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data_length, t->callback_data);
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}
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}
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EXPORT_SYMBOL(fw_core_handle_response);
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@ -247,6 +247,13 @@ void fw_fill_response(struct fw_packet *response, u32 *request_header,
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void fw_request_get(struct fw_request *request);
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void fw_request_put(struct fw_request *request);
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// Convert the value of IEEE 1394 CYCLE_TIME register to the format of timeStamp field in
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// descriptors of 1394 OHCI.
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static inline u32 cycle_time_to_ohci_tstamp(u32 tstamp)
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{
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return (tstamp & 0x0ffff000) >> 12;
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}
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#define FW_PHY_CONFIG_NO_NODE_ID -1
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#define FW_PHY_CONFIG_CURRENT_GAP_COUNT -1
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void fw_send_phy_config(struct fw_card *card,
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@ -1623,6 +1623,8 @@ static void handle_local_request(struct context *ctx, struct fw_packet *packet)
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}
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}
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static u32 get_cycle_time(struct fw_ohci *ohci);
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static void at_context_transmit(struct context *ctx, struct fw_packet *packet)
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{
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unsigned long flags;
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@ -1633,6 +1635,10 @@ static void at_context_transmit(struct context *ctx, struct fw_packet *packet)
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if (HEADER_GET_DESTINATION(packet->header[0]) == ctx->ohci->node_id &&
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ctx->ohci->generation == packet->generation) {
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spin_unlock_irqrestore(&ctx->ohci->lock, flags);
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// Timestamping on behalf of the hardware.
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packet->timestamp = cycle_time_to_ohci_tstamp(get_cycle_time(ctx->ohci));
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handle_local_request(ctx, packet);
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return;
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}
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@ -1640,9 +1646,12 @@ static void at_context_transmit(struct context *ctx, struct fw_packet *packet)
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ret = at_context_queue_packet(ctx, packet);
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spin_unlock_irqrestore(&ctx->ohci->lock, flags);
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if (ret < 0)
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packet->callback(packet, &ctx->ohci->card, packet->ack);
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if (ret < 0) {
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// Timestamping on behalf of the hardware.
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packet->timestamp = cycle_time_to_ohci_tstamp(get_cycle_time(ctx->ohci));
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packet->callback(packet, &ctx->ohci->card, packet->ack);
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}
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}
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static void detect_dead_context(struct fw_ohci *ohci,
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@ -2557,6 +2566,10 @@ static int ohci_cancel_packet(struct fw_card *card, struct fw_packet *packet)
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log_ar_at_event(ohci, 'T', packet->speed, packet->header, 0x20);
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driver_data->packet = NULL;
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packet->ack = RCODE_CANCELLED;
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// Timestamping on behalf of the hardware.
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packet->timestamp = cycle_time_to_ohci_tstamp(get_cycle_time(ohci));
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packet->callback(packet, &ohci->card, packet->ack);
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ret = 0;
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out:
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@ -261,6 +261,15 @@ typedef void (*fw_packet_callback_t)(struct fw_packet *packet,
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typedef void (*fw_transaction_callback_t)(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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typedef void (*fw_transaction_callback_with_tstamp_t)(struct fw_card *card, int rcode,
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u32 request_tstamp, u32 response_tstamp, void *data,
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size_t length, void *callback_data);
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union fw_transaction_callback {
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fw_transaction_callback_t without_tstamp;
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fw_transaction_callback_with_tstamp_t with_tstamp;
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};
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/*
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* This callback handles an inbound request subaction. It is called in
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* RCU read-side context, therefore must not sleep.
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@ -312,6 +321,7 @@ struct fw_transaction {
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struct fw_card *card;
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bool is_split_transaction;
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struct timer_list split_timeout_timer;
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u32 split_timeout_cycle;
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struct fw_packet packet;
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@ -319,7 +329,8 @@ struct fw_transaction {
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* The data passed to the callback is valid only during the
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* callback.
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*/
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fw_transaction_callback_t callback;
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union fw_transaction_callback callback;
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bool with_tstamp;
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void *callback_data;
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};
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