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/linux-6.6.21/Documentation/infiniband/
Dtag_matching.rst14 The ordering rules require that when more than one pair of send and receive
16 and the earliest posted-receive is the pair that must be used to satisfy the
23 corresponding matching receive is posted. If a matching receive is posted,
44 There are two types of matching objects used, the posted receive list and the
45 unexpected message list. The application posts receive buffers through calls
46 to the MPI receive routines in the posted receive list and posts send messages
47 using the MPI send routines. The head of the posted receive list may be
50 When send is initiated and arrives at the receive side, if there is no
51 pre-posted receive for this arriving message, it is passed to the software and
54 specified receive buffer. This allows overlapping receive-side MPI tag
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/linux-6.6.21/drivers/staging/greybus/
Dlog.c22 struct gb_log_send_log_request *receive; in gb_log_request_handler() local
31 if (op->request->payload_size < sizeof(*receive)) { in gb_log_request_handler()
33 op->request->payload_size, sizeof(*receive)); in gb_log_request_handler()
36 receive = op->request->payload; in gb_log_request_handler()
37 len = le16_to_cpu(receive->len); in gb_log_request_handler()
38 if (len != (op->request->payload_size - sizeof(*receive))) { in gb_log_request_handler()
40 (op->request->payload_size - sizeof(*receive))); in gb_log_request_handler()
54 receive->msg[len - 1] = '\0'; in gb_log_request_handler()
60 dev_dbg(dev, "%s", receive->msg); in gb_log_request_handler()
Draw.c94 struct gb_raw_send_request *receive; in gb_raw_request_handler() local
103 if (op->request->payload_size < sizeof(*receive)) { in gb_raw_request_handler()
105 op->request->payload_size, sizeof(*receive)); in gb_raw_request_handler()
108 receive = op->request->payload; in gb_raw_request_handler()
109 len = le32_to_cpu(receive->len); in gb_raw_request_handler()
120 return receive_data(raw, len, receive->data); in gb_raw_request_handler()
/linux-6.6.21/Documentation/devicetree/bindings/powerpc/fsl/
Dmpic-msgr.txt25 - mpic-msgr-receive-mask: Specifies what registers in the containing block
26 are allowed to receive interrupts. The value is a bit mask where a set
27 bit at bit 'n' indicates that message register 'n' can receive interrupts.
50 // Message registers 0 and 2 in this block can receive interrupts on
53 mpic-msgr-receive-mask = <0x5>;
59 // Message registers 0 and 2 in this block can receive interrupts on
62 mpic-msgr-receive-mask = <0x5>;
/linux-6.6.21/Documentation/networking/device_drivers/can/freescale/
Dflexcan.rst19 and i.MX53 SOCs) only receive RTR frames if the controller is
30 With the "rx-rtr" private flag the ability to receive RTR frames can
31 be waived at the expense of losing the ability to receive RTR
37 The CAN controller can and will receive RTR frames.
39 On some IP cores the controller cannot receive RTR frames in the
45 Waive ability to receive RTR frames. (not supported on all IP cores)
/linux-6.6.21/Documentation/networking/
Dstrparser.rst17 The strparser works in one of two modes: receive callback or general
20 In receive callback mode, the strparser is called from the data_ready
33 functions, and a data_ready function for receive callback mode. The
48 socket associated with the stream parser for use with receive
101 maximum messages size is the limit of the receive socket
102 buffer and message timeout is the receive timeout for the socket.
144 zero) and the parser is in receive callback mode, then it will set
156 processing a timeout). In receive callback mode the default
165 by the lock callback. In receive callback mode the default
190 the TCP socket in receive callback mode. The stream parser may
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Dscaling.rst27 Contemporary NICs support multiple receive and transmit descriptor queues
31 of logical flows. Packets for each flow are steered to a separate receive
42 stores a queue number. The receive queue for a packet is determined
49 can be directed to their own receive queue. Such “n-tuple” filters can
59 num_queues. A typical RSS configuration would be to have one receive queue
76 Each receive queue has a separate IRQ associated with it. The NIC triggers
82 processing takes place in receive interrupt handling, it is advantageous
83 to spread receive interrupts between CPUs. To manually adjust the IRQ
92 RSS should be enabled when latency is a concern or whenever receive
97 is likely the one with the smallest number of receive queues where no
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Dtc-queue-filters.rst8 to a single queue on both the transmit and receive side.
22 Likewise, on the receive side, the two filters for selecting set of
31 receive queue. The action skbedit queue_mapping for receive queue
Dkcm.rst9 can efficiently send and receive application protocol messages over TCP using
47 Similarly, in the receive path, messages are constructed on each TCP socket
55 messages on receive as well as other connection specific information for KCM.
63 can be used to send and receive messages from the KCM socket.
98 KCM limits the maximum receive message size to be the size of the receive
105 A timeout may be set for assembling messages on a receive socket. The timeout
106 value is taken from the receive timeout of the attached TCP socket (this is set
189 Disabling receive on KCM socket
193 When receive is disabled, any pending messages in the socket's
194 receive buffer are moved to other sockets. This feature is useful
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Dmctp.rst11 The core code provides a socket-based interface to send and receive MCTP
83 Sockets that receive incoming request packets will bind to a local address,
100 The reference to 'incoming' is important here; a bound socket will only receive
111 receive incoming packets from any locally-connected network. A specific network
112 value will cause the socket to only receive incoming messages from that network.
115 ``MCTP_ADDR_ANY`` configures the socket to receive messages addressed to any
118 The ``smctp_type`` field specifies which message types to receive. Only the
169 implicit local socket address, to allow the socket to receive responses to this
173 Sockets will only receive responses to requests they have sent (with TO=1) and
176 ``recvfrom()``, ``recvmsg()``, ``recv()`` : receive an MCTP message
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/linux-6.6.21/drivers/input/serio/
Dlibps2.c269 unsigned int receive = (command >> 8) & 0xf; in __ps2_command() local
274 if (receive > sizeof(ps2dev->cmdbuf)) { in __ps2_command()
288 ps2dev->cmdcnt = receive; in __ps2_command()
310 if (receive) { in __ps2_command()
314 for (i = 0; i < receive; i++) in __ps2_command()
315 ps2dev->cmdbuf[(receive - 1) - i] = param[i]; in __ps2_command()
356 for (i = 0; i < receive; i++) in __ps2_command()
357 param[i] = ps2dev->cmdbuf[(receive - 1) - i]; in __ps2_command()
358 kmsan_unpoison_memory(param, receive); in __ps2_command()
377 receive, param ?: send_param); in __ps2_command()
/linux-6.6.21/Documentation/userspace-api/media/rc/
Dlirc-get-rec-mode.rst14 LIRC_GET_REC_MODE/LIRC_SET_REC_MODE - Get/set current receive mode.
34 Mode used for receive.
39 Get and set the current receive mode. Only
Dlirc-set-rec-carrier.rst13 LIRC_SET_REC_CARRIER - Set carrier used to modulate IR receive.
34 Set receive carrier used to modulate IR PWM pulses and spaces.
/linux-6.6.21/Documentation/devicetree/bindings/interrupt-controller/
Dcirrus,clps711x-intc.txt25 13: URXINT1 UART1 receive FIFO half full
29 17: SS2RX SSI2 receive FIFO half or greater full
32 29: URXINT2 UART2 receive FIFO half full
/linux-6.6.21/net/caif/
Dcfdgml.c34 dgm->layer.receive = cfdgml_receive; in cfdgml_create()
46 caif_assert(layr->receive != NULL); in cfdgml_receive()
61 ret = layr->up->receive(layr->up, pkt); in cfdgml_receive()
Dcfveil.c33 vei->layer.receive = cfvei_receive; in cfvei_create()
44 caif_assert(layr->receive != NULL); in cfvei_receive()
55 ret = layr->up->receive(layr->up, pkt); in cfvei_receive()
Dcfutill.c34 util->layer.receive = cfutill_receive; in cfutill_create()
46 caif_assert(layr->up->receive != NULL); in cfutill_receive()
56 return layr->up->receive(layr->up, pkt); in cfutill_receive()
Dcfdbgl.c27 dbg->layer.receive = cfdbgl_receive; in cfdbgl_create()
35 return layr->up->receive(layr->up, pkt); in cfdbgl_receive()
Dcfvidl.c30 vid->layer.receive = cfvidl_receive; in cfvidl_create()
44 return layr->up->receive(layr->up, pkt); in cfvidl_receive()
/linux-6.6.21/Documentation/devicetree/bindings/sound/
Dadi,axi-i2s.txt3 The core can be generated with transmit (playback), only receive
15 the core. The core expects two dma channels if both transmit and receive are
17 - dma-names : "tx" for the transmit channel, "rx" for the receive channel.
/linux-6.6.21/Documentation/devicetree/bindings/net/can/
Drenesas,rcar-canfd.yaml121 - description: CAN receive FIFO interrupt
124 - description: CAN0 transmit/receive FIFO receive completion interrupt
127 - description: CAN1 transmit/receive FIFO receive completion interrupt
/linux-6.6.21/Documentation/networking/device_drivers/ethernet/altera/
Daltera_tse.rst42 The SGDMA supports only a single transmit or receive operation at a time, and
91 The driver will post receive buffers to the receive DMA logic during driver
93 underlying DMA logic (MSGDMA is able queue receive buffers, SGDMA is not able
94 to queue receive buffers to the SGDMA receive logic). When a packet is
95 received, the DMA logic generates an interrupt. The driver handles a receive
96 interrupt by obtaining the DMA receive logic status, reaping receive
97 completions until no more receive completions are available.
102 using NAPI for receive operations. Interrupt mitigation is not yet supported
/linux-6.6.21/Documentation/devicetree/bindings/spi/
Dmicrochip,spi-pic32.txt7 of <fault-irq>, <receive-irq>, <transmit-irq>.
18 named "spi-tx" for transmit and named "spi-rx" for receive.
/linux-6.6.21/Documentation/networking/device_drivers/ethernet/neterion/
Ds2io.rst59 and receive, TSO.
61 c. Multi-buffer receive mode. Scattering of packet across multiple
73 f. Multi-FIFO/Ring. Supports up to 8 transmit queues and receive rings,
87 Number of receive rings
101 Size of each receive ring(in 4K blocks)
/linux-6.6.21/Documentation/networking/caif/
Dlinux_caif.rst82 CAIF payload with receive and transmit functions.
86 to the called function (except for framing layers' receive function)
169 layer->up->receive(layer->up, packet);
182 Net device and Socket implement the 'receive()' function defined by
184 receive of packets is handled as by the rest of the layers: the 'dn->transmit()'

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