2 * This file is part of the libsigrok project.
4 * Copyright (C) 2020 Florian Schmidt <schmidt_florian@gmx.de>
5 * Copyright (C) 2013 Marcus Comstedt <marcus@mc.pp.se>
6 * Copyright (C) 2013 Bert Vermeulen <bert@biot.com>
7 * Copyright (C) 2012 Joel Holdsworth <joel@airwebreathe.org.uk>
9 * This program is free software: you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation, either version 3 of the License, or
12 * (at your option) any later version.
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
19 * You should have received a copy of the GNU General Public License
20 * along with this program. If not, see <http://www.gnu.org/licenses/>.
27 #include <glib/gstdio.h>
32 #include <libsigrok/libsigrok.h>
33 #include "libsigrok-internal.h"
36 #define UC_FIRMWARE "kingst-la-%04x.fw"
37 #define FPGA_FW_LA2016 "kingst-la2016-fpga.bitstream"
38 #define FPGA_FW_LA2016A "kingst-la2016a1-fpga.bitstream"
40 #define MAX_SAMPLE_RATE SR_MHZ(200)
41 #define MAX_SAMPLE_DEPTH 10e9
42 #define MAX_PWM_FREQ SR_MHZ(20)
43 #define PWM_CLOCK SR_MHZ(200)
45 /* usb vendor class control requests to the cypress FX2 microcontroller */
46 #define CMD_EEPROM 0xa2 /* ctrl_in reads, ctrl_out writes */
47 #define CMD_FPGA_INIT 0x50 /* used before and after FPGA bitstream loading */
48 #define CMD_FPGA_SPI 0x20 /* access registers in the FPGA over SPI bus, ctrl_in reads, ctrl_out writes */
49 #define CMD_FPGA_ENABLE 0x10
50 #define CMD_BULK_RESET 0x38 /* flush FX2 usb endpoint 6 IN fifos */
51 #define CMD_BULK_START 0x30 /* begin transfer of capture data via usb endpoint 6 IN */
52 #define CMD_KAUTH 0x60 /* communicate with authentication ic U10, not used */
55 * fpga spi register addresses for control request CMD_FPGA_SPI:
56 * There are around 60 byte-wide registers within the fpga and
57 * these are the base addresses used for accessing them.
58 * On the spi bus, the msb of the address byte is set for read
59 * and cleared for write, but that is handled by the fx2 mcu
60 * as appropriate. In this driver code just use IN transactions
61 * to read, OUT to write.
63 #define REG_RUN 0x00 /* read capture status, write capture start */
64 #define REG_PWM_EN 0x02 /* user pwm channels on/off */
65 #define REG_CAPT_MODE 0x03 /* set to 0x00 for capture to sdram, 0x01 bypass sdram for streaming */
66 #define REG_BULK 0x08 /* write start address and number of bytes for capture data bulk upload */
67 #define REG_SAMPLING 0x10 /* write capture config, read capture data location in sdram */
68 #define REG_TRIGGER 0x20 /* write level and edge trigger config */
69 #define REG_THRESHOLD 0x68 /* write two pwm configs to control input threshold dac */
70 #define REG_PWM1 0x70 /* write config for user pwm1 */
71 #define REG_PWM2 0x78 /* write config for user pwm2 */
73 static int ctrl_in(const struct sr_dev_inst *sdi,
74 uint8_t bRequest, uint16_t wValue, uint16_t wIndex,
75 void *data, uint16_t wLength)
77 struct sr_usb_dev_inst *usb;
82 if ((ret = libusb_control_transfer(
83 usb->devhdl, LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_ENDPOINT_IN,
84 bRequest, wValue, wIndex, (unsigned char *)data, wLength,
85 DEFAULT_TIMEOUT_MS)) != wLength) {
86 sr_err("failed to read %d bytes via ctrl-in %d %#x, %d: %s.",
87 wLength, bRequest, wValue, wIndex,
88 libusb_error_name(ret));
95 static int ctrl_out(const struct sr_dev_inst *sdi,
96 uint8_t bRequest, uint16_t wValue, uint16_t wIndex,
97 void *data, uint16_t wLength)
99 struct sr_usb_dev_inst *usb;
104 if ((ret = libusb_control_transfer(
105 usb->devhdl, LIBUSB_REQUEST_TYPE_VENDOR | LIBUSB_ENDPOINT_OUT,
106 bRequest, wValue, wIndex, (unsigned char*)data, wLength,
107 DEFAULT_TIMEOUT_MS)) != wLength) {
108 sr_err("failed to write %d bytes via ctrl-out %d %#x, %d: %s.",
109 wLength, bRequest, wValue, wIndex,
110 libusb_error_name(ret));
117 static int upload_fpga_bitstream(const struct sr_dev_inst *sdi, const char *bitstream_fname)
119 struct dev_context *devc;
120 struct drv_context *drvc;
121 struct sr_usb_dev_inst *usb;
122 struct sr_resource bitstream;
123 uint8_t buffer[sizeof(uint32_t)];
130 unsigned int zero_pad_to = 0x2c000;
133 drvc = sdi->driver->context;
136 sr_info("Uploading FPGA bitstream '%s'.", bitstream_fname);
138 ret = sr_resource_open(drvc->sr_ctx, &bitstream, SR_RESOURCE_FIRMWARE, bitstream_fname);
140 sr_err("could not find fpga firmware %s!", bitstream_fname);
144 devc->bitstream_size = (uint32_t)bitstream.size;
146 write_u32le_inc(&wrptr, devc->bitstream_size);
147 if ((ret = ctrl_out(sdi, CMD_FPGA_INIT, 0x00, 0, buffer, wrptr - buffer)) != SR_OK) {
148 sr_err("failed to give upload init command");
149 sr_resource_close(drvc->sr_ctx, &bitstream);
155 if (pos < bitstream.size) {
156 len = (int)sr_resource_read(drvc->sr_ctx, &bitstream, &block, sizeof(block));
158 sr_err("failed to read from fpga bitstream!");
159 sr_resource_close(drvc->sr_ctx, &bitstream);
163 // fill with zero's until zero_pad_to
164 len = zero_pad_to - pos;
165 if ((unsigned)len > sizeof(block))
167 memset(&block, 0, len);
172 ret = libusb_bulk_transfer(usb->devhdl, 2, (unsigned char*)&block[0], len, &act_len, DEFAULT_TIMEOUT_MS);
174 sr_dbg("failed to write fpga bitstream block at %#x len %d: %s.", pos, (int)len, libusb_error_name(ret));
178 if (act_len != len) {
179 sr_dbg("failed to write fpga bitstream block at %#x len %d: act_len is %d.", pos, (int)len, act_len);
185 sr_resource_close(drvc->sr_ctx, &bitstream);
188 sr_info("FPGA bitstream upload (%" PRIu64 " bytes) done.", bitstream.size);
190 if ((ret = ctrl_in(sdi, CMD_FPGA_INIT, 0x00, 0, &cmd_resp, sizeof(cmd_resp))) != SR_OK) {
191 sr_err("failed to read response after FPGA bitstream upload");
195 sr_err("after fpga bitstream upload command response is 0x%02x, expect 0!", cmd_resp);
201 if ((ret = ctrl_out(sdi, CMD_FPGA_ENABLE, 0x01, 0, NULL, 0)) != SR_OK) {
202 sr_err("failed enable fpga");
210 static int set_threshold_voltage(const struct sr_dev_inst *sdi, float voltage)
212 struct dev_context *devc;
217 uint16_t duty_R79,duty_R56;
218 uint8_t buf[2 * sizeof(uint16_t)];
221 /* clamp threshold setting within valid range for LA2016 */
225 else if (voltage < -4.0) {
230 * The fpga has two programmable pwm outputs which feed a dac that
231 * is used to adjust input offset. The dac changes the input
232 * swing around the fixed fpga input threshold.
233 * The two pwm outputs can be seen on R79 and R56 respectvely.
234 * Frequency is fixed at 100kHz and duty is varied.
235 * The R79 pwm uses just three settings.
236 * The R56 pwm varies with required threshold and its behaviour
237 * also changes depending on the setting of R79 PWM.
241 * calculate required pwm duty register values from requested threshold voltage
242 * see last page of schematic (on wiki) for an explanation of these numbers
244 if (voltage >= 2.9) {
245 duty_R79 = 0; /* this pwm is off (0V)*/
246 duty_R56 = (uint16_t)(302 * voltage - 363);
248 else if (voltage <= -0.4) {
249 duty_R79 = 0x02D7; /* 72% duty */
250 duty_R56 = (uint16_t)(302 * voltage + 1090);
253 duty_R79 = 0x00f2; /* 25% duty */
254 duty_R56 = (uint16_t)(302 * voltage + 121);
257 /* clamp duty register values at sensible limits */
261 else if (duty_R56 > 1100) {
265 sr_dbg("set threshold voltage %.2fV", voltage);
266 sr_dbg("duty_R56=0x%04x, duty_R79=0x%04x", duty_R56, duty_R79);
269 write_u16le_inc(&wrptr, duty_R56);
270 write_u16le_inc(&wrptr, duty_R79);
272 ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_THRESHOLD, 0, buf, wrptr - buf);
274 sr_err("error setting new threshold voltage of %.2fV", voltage);
277 devc->threshold_voltage = voltage;
282 static int enable_pwm(const struct sr_dev_inst *sdi, uint8_t p1, uint8_t p2)
284 struct dev_context *devc;
291 if (p1) cfg |= 1 << 0;
292 if (p2) cfg |= 1 << 1;
294 sr_dbg("set pwm enable %d %d", p1, p2);
295 ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_PWM_EN, 0, &cfg, sizeof(cfg));
297 sr_err("error setting new pwm enable 0x%02x", cfg);
300 devc->pwm_setting[0].enabled = (p1) ? 1 : 0;
301 devc->pwm_setting[1].enabled = (p2) ? 1 : 0;
306 static int set_pwm(const struct sr_dev_inst *sdi, uint8_t which, float freq, float duty)
308 int CTRL_PWM[] = { REG_PWM1, REG_PWM2 };
309 struct dev_context *devc;
310 pwm_setting_dev_t cfg;
311 pwm_setting_t *setting;
313 uint8_t buf[2 * sizeof(uint32_t)];
318 if (which < 1 || which > 2) {
319 sr_err("invalid pwm channel: %d", which);
322 if (freq > MAX_PWM_FREQ) {
323 sr_err("pwm frequency too high: %.1f", freq);
326 if (duty > 100 || duty < 0) {
327 sr_err("invalid pwm percentage: %f", duty);
331 cfg.period = (uint32_t)(PWM_CLOCK / freq);
332 cfg.duty = (uint32_t)(0.5f + (cfg.period * duty / 100.));
333 sr_dbg("set pwm%d period %d, duty %d", which, cfg.period, cfg.duty);
336 write_u32le_inc(&wrptr, cfg.period);
337 write_u32le_inc(&wrptr, cfg.duty);
338 ret = ctrl_out(sdi, CMD_FPGA_SPI, CTRL_PWM[which - 1], 0, buf, wrptr - buf);
340 sr_err("error setting new pwm%d config %d %d", which, cfg.period, cfg.duty);
343 setting = &devc->pwm_setting[which - 1];
344 setting->freq = freq;
345 setting->duty = duty;
350 static int set_defaults(const struct sr_dev_inst *sdi)
352 struct dev_context *devc;
357 devc->capture_ratio = 5; /* percent */
358 devc->cur_channels = 0xffff;
359 devc->limit_samples = 5000000;
360 devc->cur_samplerate = 200000000;
362 ret = set_threshold_voltage(sdi, devc->threshold_voltage);
366 ret = enable_pwm(sdi, 0, 0);
370 ret = set_pwm(sdi, 1, 1e3, 50);
374 ret = set_pwm(sdi, 2, 100e3, 50);
378 ret = enable_pwm(sdi, 1, 1);
385 static int set_trigger_config(const struct sr_dev_inst *sdi)
387 struct dev_context *devc;
388 struct sr_trigger *trigger;
392 struct sr_trigger_stage *stage1;
393 struct sr_trigger_match *match;
396 uint8_t buf[4 * sizeof(uint32_t)];
400 trigger = sr_session_trigger_get(sdi->session);
402 memset(&cfg, 0, sizeof(cfg));
404 cfg.channels = devc->cur_channels;
406 if (trigger && trigger->stages) {
407 stages = trigger->stages;
408 stage1 = stages->data;
410 sr_err("Only one trigger stage supported for now.");
413 channel = stage1->matches;
415 match = channel->data;
416 ch_mask = 1 << match->channel->index;
418 switch (match->match) {
419 case SR_TRIGGER_ZERO:
420 cfg.level |= ch_mask;
421 cfg.high_or_falling &= ~ch_mask;
424 cfg.level |= ch_mask;
425 cfg.high_or_falling |= ch_mask;
427 case SR_TRIGGER_RISING:
428 if ((cfg.enabled & ~cfg.level)) {
429 sr_err("Only one trigger signal with falling-/rising-edge allowed.");
432 cfg.level &= ~ch_mask;
433 cfg.high_or_falling &= ~ch_mask;
435 case SR_TRIGGER_FALLING:
436 if ((cfg.enabled & ~cfg.level)) {
437 sr_err("Only one trigger signal with falling-/rising-edge allowed.");
440 cfg.level &= ~ch_mask;
441 cfg.high_or_falling |= ch_mask;
444 sr_err("Unknown trigger value.");
447 cfg.enabled |= ch_mask;
448 channel = channel->next;
451 sr_dbg("set trigger configuration channels: 0x%04x, "
452 "trigger-enabled 0x%04x, level-triggered 0x%04x, "
453 "high/falling 0x%04x", cfg.channels, cfg.enabled, cfg.level,
454 cfg.high_or_falling);
456 devc->had_triggers_configured = cfg.enabled != 0;
459 write_u32le_inc(&wrptr, cfg.channels);
460 write_u32le_inc(&wrptr, cfg.enabled);
461 write_u32le_inc(&wrptr, cfg.level);
462 write_u32le_inc(&wrptr, cfg.high_or_falling);
463 ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_TRIGGER, 16, buf, wrptr - buf);
465 sr_err("error setting trigger config!");
472 static int set_sample_config(const struct sr_dev_inst *sdi)
474 struct dev_context *devc;
475 double clock_divisor;
479 uint8_t buf[2 * sizeof(uint32_t) + 48 / 8 + sizeof(uint16_t)];
483 total = 128 * 1024 * 1024;
485 if (devc->cur_samplerate > MAX_SAMPLE_RATE) {
486 sr_err("too high sample rate: %" PRIu64, devc->cur_samplerate);
490 clock_divisor = MAX_SAMPLE_RATE / (double)devc->cur_samplerate;
491 if (clock_divisor > 0xffff)
492 clock_divisor = 0xffff;
493 divisor = (uint16_t)(clock_divisor + 0.5);
494 devc->cur_samplerate = MAX_SAMPLE_RATE / divisor;
496 if (devc->limit_samples > MAX_SAMPLE_DEPTH) {
497 sr_err("too high sample depth: %" PRIu64, devc->limit_samples);
501 devc->pre_trigger_size = (devc->capture_ratio * devc->limit_samples) / 100;
503 sr_dbg("set sampling configuration %.0fkHz, %d samples, trigger-pos %d%%",
504 devc->cur_samplerate / 1e3, (unsigned int)devc->limit_samples, (unsigned int)devc->capture_ratio);
507 write_u32le_inc(&wrptr, devc->limit_samples);
508 write_u8_inc(&wrptr, 0);
509 write_u32le_inc(&wrptr, devc->pre_trigger_size);
510 write_u32le_inc(&wrptr, ((total * devc->capture_ratio) / 100) & 0xFFFFFF00 );
511 write_u16le_inc(&wrptr, divisor);
512 write_u8_inc(&wrptr, 0);
514 ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_SAMPLING, 0, buf, wrptr - buf);
516 sr_err("error setting sample config!");
524 * lowest 2 bit are probably:
527 * next 2 bit indicate whether we are still waiting for triggering
531 static uint16_t run_state(const struct sr_dev_inst *sdi)
536 if ((ret = ctrl_in(sdi, CMD_FPGA_SPI, REG_RUN, 0, &state, sizeof(state))) != SR_OK) {
537 sr_err("failed to read run state!");
540 sr_dbg("run_state: 0x%04x", state);
545 static int set_run_mode(const struct sr_dev_inst *sdi, uint8_t fast_blinking)
549 if ((ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_RUN, 0, &fast_blinking, sizeof(fast_blinking))) != SR_OK) {
550 sr_err("failed to send set-run-mode command %d", fast_blinking);
557 static int get_capture_info(const struct sr_dev_inst *sdi)
559 struct dev_context *devc;
561 uint8_t buf[3 * sizeof(uint32_t)];
562 const uint8_t *rdptr;
566 if ((ret = ctrl_in(sdi, CMD_FPGA_SPI, REG_SAMPLING, 0, buf, sizeof(buf))) != SR_OK) {
567 sr_err("failed to read capture info!");
572 devc->info.n_rep_packets = read_u32le_inc(&rdptr);
573 devc->info.n_rep_packets_before_trigger = read_u32le_inc(&rdptr);
574 devc->info.write_pos = read_u32le_inc(&rdptr);
576 sr_dbg("capture info: n_rep_packets: 0x%08x/%d, before_trigger: 0x%08x/%d, write_pos: 0x%08x%d",
577 devc->info.n_rep_packets, devc->info.n_rep_packets,
578 devc->info.n_rep_packets_before_trigger, devc->info.n_rep_packets_before_trigger,
579 devc->info.write_pos, devc->info.write_pos);
581 if (devc->info.n_rep_packets % 5)
582 sr_warn("number of packets is not as expected multiples of 5: %d", devc->info.n_rep_packets);
587 SR_PRIV int la2016_upload_firmware(struct sr_context *sr_ctx, libusb_device *dev, uint16_t product_id)
590 snprintf(fw_file, sizeof(fw_file) - 1, UC_FIRMWARE, product_id);
591 return ezusb_upload_firmware(sr_ctx, dev, USB_CONFIGURATION, fw_file);
594 SR_PRIV int la2016_setup_acquisition(const struct sr_dev_inst *sdi)
596 struct dev_context *devc;
602 ret = set_threshold_voltage(sdi, devc->threshold_voltage);
607 if ((ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_CAPT_MODE, 0, &cmd, sizeof(cmd))) != SR_OK) {
608 sr_err("failed to send stop sampling command");
612 ret = set_trigger_config(sdi);
616 ret = set_sample_config(sdi);
623 SR_PRIV int la2016_start_acquisition(const struct sr_dev_inst *sdi)
625 return set_run_mode(sdi, 3);
628 SR_PRIV int la2016_stop_acquisition(const struct sr_dev_inst *sdi)
630 return set_run_mode(sdi, 0);
633 SR_PRIV int la2016_abort_acquisition(const struct sr_dev_inst *sdi)
635 return la2016_stop_acquisition(sdi);
638 SR_PRIV int la2016_has_triggered(const struct sr_dev_inst *sdi)
642 state = run_state(sdi);
644 return (state & 0x3) == 1;
647 SR_PRIV int la2016_start_retrieval(const struct sr_dev_inst *sdi, libusb_transfer_cb_fn cb)
649 struct dev_context *devc;
650 struct sr_usb_dev_inst *usb;
652 uint8_t wrbuf[2 * sizeof(uint32_t)];
660 if ((ret = get_capture_info(sdi)) != SR_OK)
663 devc->n_transfer_packets_to_read = devc->info.n_rep_packets / NUM_PACKETS_IN_CHUNK;
664 devc->n_bytes_to_read = devc->n_transfer_packets_to_read * TRANSFER_PACKET_LENGTH;
665 devc->read_pos = devc->info.write_pos - devc->n_bytes_to_read;
666 devc->n_reps_until_trigger = devc->info.n_rep_packets_before_trigger;
668 sr_dbg("want to read %d tfer-packets starting from pos %d",
669 devc->n_transfer_packets_to_read, devc->read_pos);
671 if ((ret = ctrl_out(sdi, CMD_BULK_RESET, 0x00, 0, NULL, 0)) != SR_OK) {
672 sr_err("failed to reset bulk state");
675 sr_dbg("will read from 0x%08x, 0x%08x bytes", devc->read_pos, devc->n_bytes_to_read);
677 write_u32le_inc(&wrptr, devc->read_pos);
678 write_u32le_inc(&wrptr, devc->n_bytes_to_read);
679 if ((ret = ctrl_out(sdi, CMD_FPGA_SPI, REG_BULK, 0, wrbuf, wrptr - wrbuf)) != SR_OK) {
680 sr_err("failed to send bulk config");
683 if ((ret = ctrl_out(sdi, CMD_BULK_START, 0x00, 0, NULL, 0)) != SR_OK) {
684 sr_err("failed to unblock bulk transfers");
688 to_read = devc->n_bytes_to_read;
689 if (to_read > LA2016_BULK_MAX)
690 to_read = LA2016_BULK_MAX;
692 buffer = g_try_malloc(to_read);
694 sr_err("Failed to allocate %d bytes for bulk transfer", to_read);
695 return SR_ERR_MALLOC;
698 devc->transfer = libusb_alloc_transfer(0);
699 libusb_fill_bulk_transfer(
700 devc->transfer, usb->devhdl,
701 0x86, buffer, to_read,
702 cb, (void *)sdi, DEFAULT_TIMEOUT_MS);
704 if ((ret = libusb_submit_transfer(devc->transfer)) != 0) {
705 sr_err("Failed to submit transfer: %s.", libusb_error_name(ret));
706 libusb_free_transfer(devc->transfer);
707 devc->transfer = NULL;
715 SR_PRIV int la2016_init_device(const struct sr_dev_inst *sdi)
719 int16_t purchase_date_bcd[2];
723 /* Four bytes of eeprom at 0x20 are purchase year & month in BCD format, with 16bit
724 * complemented checksum; e.g. 2004DFFB = 2020-April.
725 * This helps to identify the age of devices if unknown magic numbers occur.
727 if ((ret = ctrl_in(sdi, CMD_EEPROM, 0x20, 0, purchase_date_bcd, sizeof(purchase_date_bcd))) != SR_OK) {
728 sr_err("failed to read eeprom purchase_date_bcd");
731 sr_dbg("purchase date: 20%02hx-%02hx", (purchase_date_bcd[0]) & 0x00ff, (purchase_date_bcd[0] >> 8) & 0x00ff);
732 if( purchase_date_bcd[0] != (0x0ffff & ~purchase_date_bcd[1]) ) {
733 sr_err("purchase date: checksum failure");
738 * There are four known kingst logic analyser devices which use this same usb vid and pid:
739 * LA2016, LA1016 and the older revision of each of these. They all use the same hardware
740 * and the same FX2 mcu firmware but each requires a different fpga bitstream. They are
741 * differentiated by a 'magic' byte within the 8 bytes of EEPROM from address 0x08.
752 * It seems that only these magic bytes are used, other bytes shown above are 'don't care'.
753 * Changing the magic byte on newer device to older magic causes OEM software to load
754 * the older fpga bitstream. The device then functions but has channels out of order.
755 * It's likely the bitstreams were changed to move input channel pins due to PCB changes.
757 * magic 9 == LA1016a using "kingst-la1016a1-fpga.bitstream" (latest v1.3.0 PCB, perhaps others)
758 * magic 8 == LA2016a using "kingst-la2016a1-fpga.bitstream" (latest v1.3.0 PCB, perhaps others)
759 * magic 3 == LA1016 using "kingst-la1016-fpga.bitstream"
760 * magic 2 == LA2016 using "kingst-la2016-fpga.bitstream"
762 * This was all determined by altering the eeprom contents of an LA2016 and LA1016 and observing
763 * the vendor software actions, either raising errors or loading specific bitstreams.
766 * An LA1016 cannot be converted to an LA2016 by changing the magic number - the bitstream
767 * will not authenticate with ic U10, which has different security coding for each device type.
770 if ((ret = ctrl_in(sdi, CMD_EEPROM, 0x08, 0, &buf, sizeof(buf))) != SR_OK) {
771 sr_err("failed to read eeprom device identifier bytes");
776 if (buf[0] == (0x0ff & ~buf[1])) {
777 /* primary copy of magic passes complement check */
780 else if (buf[4] == (0x0ff & ~buf[5])) {
781 /* backup copy of magic passes complement check */
782 sr_dbg("device_type: using backup copy of magic number");
786 sr_dbg("device_type: magic number is %hhu", magic);
788 /* select the correct fpga bitstream for this device */
791 ret = upload_fpga_bitstream(sdi, FPGA_FW_LA2016);
794 ret = upload_fpga_bitstream(sdi, FPGA_FW_LA2016A);
797 sr_err("device_type: device not supported; magic number indicates this is not an LA2016");
802 sr_err("failed to upload fpga bitstream");
806 state = run_state(sdi);
807 if (state != 0x85e9) {
808 sr_warn("expect run state to be 0x85e9, but it reads 0x%04x", state);
811 if ((ret = ctrl_out(sdi, CMD_BULK_RESET, 0x00, 0, NULL, 0)) != SR_OK) {
812 sr_err("failed to send CMD_BULK_RESET");
816 sr_dbg("device should be initialized");
818 return set_defaults(sdi);
821 SR_PRIV int la2016_deinit_device(const struct sr_dev_inst *sdi)
825 if ((ret = ctrl_out(sdi, CMD_FPGA_ENABLE, 0x00, 0, NULL, 0)) != SR_OK) {
826 sr_err("failed to send deinit command");