| /Zephyr-4.3.0/tests/subsys/rtio/rtio_api/src/ |
| D | test_rtio_api.c | 50 uintptr_t userdata[2] = {0, 1}; in test_rtio_simple_() local
59 rtio_sqe_prep_nop(sqe, (struct rtio_iodev *)&iodev_test_simple, &userdata[0]); in test_rtio_simple_()
68 zassert_equal_ptr(cqe->userdata, &userdata[0], "Expected userdata back"); in test_rtio_simple_()
83 uintptr_t userdata[2] = {0, 1}; in ZTEST() local
91 rtio_sqe_prep_nop(sqe, (struct rtio_iodev *)&iodev_test_simple, &userdata[0]); in ZTEST()
117 uint32_t userdata[4] = {0, 1, 2, 3}; in test_rtio_chain_() local
126 &userdata[i]); in test_rtio_chain_()
128 TC_PRINT("produce %d, sqe %p, userdata %d\n", i, sqe, userdata[i]); in test_rtio_chain_()
144 TC_PRINT("consume %d, cqe %p, userdata %d\n", i, cqe, *(uint32_t *)cqe->userdata); in test_rtio_chain_()
147 zassert_equal_ptr(cqe->userdata, &userdata[i], "Expected in order completions"); in test_rtio_chain_()
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| D | rtio_iodev_test.h | 83 static void rtio_iodev_await_signaled(struct rtio_iodev_sqe *iodev_sqe, void *userdata) in rtio_iodev_await_signaled() argument
85 struct rtio_iodev_test_data *data = userdata; in rtio_iodev_await_signaled()
108 /* For reads the test device copies from the given userdata */ in rtio_iodev_timer_fn()
109 memcpy(buf, ((uint8_t *)iodev_sqe->sqe.userdata), 16); in rtio_iodev_timer_fn()
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| /Zephyr-4.3.0/drivers/spi/ |
| D | spi_signal.c | 19 void *userdata) in z_spi_transfer_signal_cb() argument
23 struct k_poll_signal *sig = userdata; in z_spi_transfer_signal_cb()
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| D | spi_rv32m1_lpspi.c | 124 status_t status, void *userData) in spi_mcux_master_transfer_callback() argument
126 struct spi_mcux_data *data = userData; in spi_mcux_master_transfer_callback()
218 void *userdata) in transceive() argument
223 spi_context_lock(&data->ctx, asynchronous, cb, userdata, spi_cfg); in transceive()
257 void *userdata) in spi_mcux_transceive_async() argument
259 return transceive(dev, spi_cfg, tx_bufs, rx_bufs, true, cb, userdata); in spi_mcux_transceive_async()
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| D | spi_test.c | 32 void *userdata) in vnd_spi_transceive_async() argument
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| D | spi_mcux_flexio.c | 111 flexio_spi_master_handle_t *handle, status_t status, void *userData) in spi_mcux_master_transfer_callback() argument
113 struct spi_mcux_flexio_data *data = userData; in spi_mcux_master_transfer_callback()
320 void *userdata) in transceive() argument
326 spi_context_lock(&data->ctx, asynchronous, cb, userdata, spi_cfg); in transceive()
368 void *userdata) in spi_mcux_transceive_async() argument
370 return transceive(dev, spi_cfg, tx_bufs, rx_bufs, true, cb, userdata); in spi_mcux_transceive_async()
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| D | spi_mcux_ecspi.c | 229 void *userdata) in transceive() argument
234 spi_context_lock(&data->ctx, asynchronous, cb, userdata, spi_cfg); in transceive()
267 void *userdata) in spi_mcux_transceive_async() argument
269 return transceive(dev, spi_cfg, tx_bufs, rx_bufs, true, cb, userdata); in spi_mcux_transceive_async()
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| D | spi_infineon.c | 240 bool asynchronous, spi_callback_t cb, void *userdata) in transceive() argument
246 spi_context_lock(ctx, asynchronous, cb, userdata, spi_cfg); in transceive()
278 void *userdata) in ifx_cat1_spi_transceive_async() argument
280 return transceive(dev, spi_cfg, tx_bufs, rx_bufs, true, cb, userdata); in ifx_cat1_spi_transceive_async()
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| D | spi_xmc4xxx.c | 273 bool asynchronous, spi_callback_t cb, void *userdata) in spi_xmc4xxx_transceive() argument
290 spi_context_lock(ctx, asynchronous, cb, userdata, spi_cfg); in spi_xmc4xxx_transceive()
331 void *userdata) in spi_xmc4xxx_transceive_async() argument
333 return spi_xmc4xxx_transceive(dev, spi_cfg, tx_bufs, rx_bufs, true, cb, userdata); in spi_xmc4xxx_transceive_async()
361 spi_callback_t cb, void *userdata) in spi_xmc4xxx_transceive_dma() argument
378 spi_context_lock(ctx, asynchronous, cb, userdata, spi_cfg); in spi_xmc4xxx_transceive_dma()
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| D | spi_psoc6.c | 301 void *userdata) in spi_psoc6_transceive() argument
307 spi_context_lock(&data->ctx, asynchronous, cb, userdata, spi_cfg); in spi_psoc6_transceive()
358 void *userdata) in spi_psoc6_transceive_async() argument
361 rx_bufs, true, cb, userdata); in spi_psoc6_transceive_async()
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| D | spi_litex_litespi.c | 253 void *userdata) in transceive() argument
262 spi_context_lock(&data->ctx, asynchronous, cb, userdata, config); in transceive()
293 void *userdata) in spi_litex_transceive_async() argument
301 return transceive(dev, config, tx_bufs, rx_bufs, true, cb, userdata); in spi_litex_transceive_async()
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| D | spi_sedi.c | 96 void *userdata) in transceive() argument
108 spi_context_lock(&spi->ctx, asynchronous, cb, userdata, config); in transceive()
235 void *userdata) in spi_sedi_transceive_async() argument
237 return transceive(dev, config, tx_bufs, rx_bufs, true, cb, userdata); in spi_sedi_transceive_async()
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| /Zephyr-4.3.0/samples/subsys/rtio/sensor_batch_processing/src/ |
| D | main.c | 39 uint8_t *userdata[M] = {0}; in main() local
63 if (rtio_cqe_get_mempool_buffer(&ez_io, cqe, &userdata[m], &data_len[m])) { in main()
78 LOG_HEXDUMP_DBG(userdata[m], SAMPLE_SIZE, "Sample data:"); in main()
89 rtio_release_buffer(&ez_io, userdata[m], data_len[m]); in main()
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| /Zephyr-4.3.0/include/zephyr/rtio/ |
| D | rtio.h | 106 * sequence holds the iodev that will be used and the last holds the userdata
289 * @param userdata Userdata
291 typedef void (*rtio_signaled_t)(struct rtio_iodev_sqe *iodev_sqe, void *userdata);
314 void *userdata; member
373 void *userdata; member
390 void *userdata; /**< Associated userdata with operation */ member
592 void *userdata) in rtio_sqe_prep_nop() argument
597 sqe->userdata = userdata; in rtio_sqe_prep_nop()
608 void *userdata) in rtio_sqe_prep_read() argument
616 sqe->userdata = userdata; in rtio_sqe_prep_read()
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| /Zephyr-4.3.0/subsys/rtio/ |
| D | rtio_executor.c | 22 * @param userdata Additional data passed along
24 static void rtio_executor_sqe_signaled(struct rtio_iodev_sqe *iodev_sqe, void *userdata) in rtio_executor_sqe_signaled() argument
26 ARG_UNUSED(userdata); in rtio_executor_sqe_signaled()
159 void *userdata = iodev_sqe->sqe.userdata; in rtio_executor_handle_multishot() local
184 rtio_cqe_submit(r, result, userdata, cqe_flags); in rtio_executor_handle_multishot()
208 void *userdata = curr->sqe.userdata; in rtio_executor_handle_oneshot() local
216 rtio_cqe_submit(r, result, userdata, cqe_flags); in rtio_executor_handle_oneshot()
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| /Zephyr-4.3.0/drivers/i2c/ |
| D | i2c_mcux.c | 47 void *userdata; member
99 status_t status, void *userdata) in i2c_mcux_master_transfer_callback() argument
105 struct device *dev = userdata; in i2c_mcux_master_transfer_callback()
219 void *userdata = data->userdata; in i2c_mcux_async_done() local
225 data->userdata = NULL; in i2c_mcux_async_done()
231 cb(dev, result, userdata); in i2c_mcux_async_done()
277 uint16_t addr, i2c_callback_t cb, void *userdata) in i2c_mcux_transfer_cb() argument
292 data->userdata = userdata; in i2c_mcux_transfer_cb()
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| D | i2c_nxp_ii2c.c | 49 void *userdata; member
110 status_t status, void *userdata) in nxp_ii2c_master_transfer_callback() argument
116 struct device *dev = userdata; in nxp_ii2c_master_transfer_callback()
230 void *userdata = data->userdata; in nxp_ii2c_async_done() local
236 data->userdata = NULL; in nxp_ii2c_async_done()
242 cb(dev, result, userdata); in nxp_ii2c_async_done()
288 uint16_t addr, i2c_callback_t cb, void *userdata) in nxp_ii2c_transfer_cb() argument
303 data->userdata = userdata; in nxp_ii2c_transfer_cb()
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| D | i2c_silabs.c | 125 uint16_t addr, i2c_callback_t cb, void *userdata, in i2c_silabs_transfer_dma() argument
294 void *userdata) in i2c_silabs_transfer_impl() argument
334 ret = i2c_silabs_transfer_dma(dev, msgs, num_msgs, addr, cb, userdata, in i2c_silabs_transfer_impl()
367 void *userdata) in i2c_silabs_dev_transfer_cb() argument
374 data->callback_context = userdata; in i2c_silabs_dev_transfer_cb()
375 return i2c_silabs_transfer_impl(dev, msgs, num_msgs, addr, cb, userdata); in i2c_silabs_dev_transfer_cb()
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| /Zephyr-4.3.0/tests/bsim/bluetooth/host/l2cap/userdata/ |
| D | testcase.yaml | 2 bluetooth.host.l2cap.userdata:
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| /Zephyr-4.3.0/subsys/sensing/ |
| D | dispatch.c | 111 if ((uintptr_t)cqe.userdata >= in dispatch_task()
113 (uintptr_t)cqe.userdata < (uintptr_t)STRUCT_SECTION_END(sensing_sensor)) { in dispatch_task()
114 struct sensing_sensor *sensor = cqe.userdata; in dispatch_task()
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| D | sensing_sensor.c | 18 struct sensing_sensor *sensor = (struct sensing_sensor *)iodev_sqe->sqe.userdata; in sensing_iodev_submit()
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| /Zephyr-4.3.0/tests/subsys/rtio/rtio_i2c/src/ |
| D | main.cpp | 81 sqe->userdata = NULL; in ZTEST()
273 /* Add userdata so we can match these up with the CQEs */ in ZTEST()
274 sqe_write->userdata = &msg[0]; in ZTEST()
275 sqe_read->userdata = &msg[1]; in ZTEST()
276 sqe_dropped->userdata = &msg[2]; in ZTEST()
293 int msg_idx = (struct i2c_msg *)cqe[i]->userdata - msg; in ZTEST()
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| /Zephyr-4.3.0/drivers/sensor/ |
| D | sensor_shell.h | 24 void sensor_shell_processing_callback(int result, uint8_t *buf, uint32_t buf_len, void *userdata);
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| /Zephyr-4.3.0/include/zephyr/drivers/ |
| D | i2c.h | 231 void *userdata);
907 * @param userdata Userdata passed to callback.
919 void *userdata) in i2c_transfer_cb() argument
929 cb(dev, 0, userdata); in i2c_transfer_cb()
937 return api->transfer_cb(dev, msgs, num_msgs, addr, cb, userdata); in i2c_transfer_cb()
945 * i2c_transfer_cb(spec->bus, msgs, num_msgs, spec->addr, cb, userdata);
951 * @param userdata Userdata passed to callback.
959 void *userdata) in i2c_transfer_cb_dt() argument
961 return i2c_transfer_cb(spec->bus, msgs, num_msgs, spec->addr, cb, userdata); in i2c_transfer_cb_dt()
982 * @param userdata Userdata passed to callback.
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| /Zephyr-4.3.0/subsys/mgmt/mcumgr/transport/ |
| D | Kconfig | 70 is sufficient for Bluetooth. For UDP, the userdata must be large
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