*/
/*
- * ASIX Sigma Logic Analyzer Driver
+ * ASIX SIGMA Logic Analyzer Driver
*/
+#include "config.h"
+#include <glib.h>
+#include <glib/gstdio.h>
#include <ftdi.h>
#include <string.h>
#include <zlib.h>
#include <sigrok.h>
-#include <config.h>
+#include <sigrok-internal.h>
#include "asix-sigma.h"
#define USB_VENDOR 0xa600
static GSList *device_instances = NULL;
static uint64_t supported_samplerates[] = {
- KHZ(200),
- KHZ(250),
- KHZ(500),
- MHZ(1),
- MHZ(5),
- MHZ(10),
- MHZ(25),
- MHZ(50),
- MHZ(100),
- MHZ(200),
+ SR_KHZ(200),
+ SR_KHZ(250),
+ SR_KHZ(500),
+ SR_MHZ(1),
+ SR_MHZ(5),
+ SR_MHZ(10),
+ SR_MHZ(25),
+ SR_MHZ(50),
+ SR_MHZ(100),
+ SR_MHZ(200),
0,
};
-static struct samplerates samplerates = {
- KHZ(200),
- MHZ(200),
- 0,
+static struct sr_samplerates samplerates = {
+ SR_KHZ(200),
+ SR_MHZ(200),
+ SR_HZ(0),
supported_samplerates,
};
static int capabilities[] = {
- HWCAP_LOGIC_ANALYZER,
- HWCAP_SAMPLERATE,
- HWCAP_CAPTURE_RATIO,
- HWCAP_PROBECONFIG,
+ SR_HWCAP_LOGIC_ANALYZER,
+ SR_HWCAP_SAMPLERATE,
+ SR_HWCAP_CAPTURE_RATIO,
+ SR_HWCAP_PROBECONFIG,
- HWCAP_LIMIT_MSEC,
+ SR_HWCAP_LIMIT_MSEC,
0,
};
"asix-sigma-phasor.fw", /* Frequency counter */
};
-static void hw_stop_acquisition(int device_index, gpointer session_device_id);
+static void hw_stop_acquisition(int device_index, gpointer session_data);
static int sigma_read(void *buf, size_t size, struct sigma *sigma)
{
ret = ftdi_read_data(&sigma->ftdic, (unsigned char *)buf, size);
if (ret < 0) {
- g_warning("ftdi_read_data failed: %s",
- ftdi_get_error_string(&sigma->ftdic));
+ sr_warn("ftdi_read_data failed: %s",
+ ftdi_get_error_string(&sigma->ftdic));
}
return ret;
ret = ftdi_write_data(&sigma->ftdic, (unsigned char *)buf, size);
if (ret < 0) {
- g_warning("ftdi_write_data failed: %s",
- ftdi_get_error_string(&sigma->ftdic));
+ sr_warn("ftdi_write_data failed: %s",
+ ftdi_get_error_string(&sigma->ftdic));
} else if ((size_t) ret != size) {
- g_warning("ftdi_write_data did not complete write\n");
+ sr_warn("ftdi_write_data did not complete write\n");
}
return ret;
uint8_t value;
if (1 != sigma_read_register(reg, &value, 1, sigma)) {
- g_warning("Sigma_get_register: 1 byte expected");
+ sr_warn("sigma_get_register: 1 byte expected");
return 0;
}
int c, ret, bit, v;
uint32_t imm = 0x3f6df2ab;
- f = fopen(filename, "r");
+ f = g_fopen(filename, "rb");
if (!f) {
- g_warning("fopen(\"%s\", \"r\")", filename);
- return -1;
+ sr_warn("g_fopen(\"%s\", \"rb\")", filename);
+ return SR_ERR;
}
if (-1 == fseek(f, 0, SEEK_END)) {
- g_warning("fseek on %s failed", filename);
+ sr_warn("fseek on %s failed", filename);
fclose(f);
- return -1;
+ return SR_ERR;
}
file_size = ftell(f);
fseek(f, 0, SEEK_SET);
- compressed_buf = g_malloc(file_size);
- firmware = g_malloc(buffer_size);
+ if (!(compressed_buf = g_try_malloc(file_size))) {
+ sr_err("sigma: %s: compressed_buf malloc failed", __func__);
+ fclose(f);
+ return SR_ERR_MALLOC;
+ }
- if (!compressed_buf || !firmware) {
- g_warning("Error allocating buffers");
- return -1;
+ if (!(firmware = g_try_malloc(buffer_size))) {
+ sr_err("sigma: %s: firmware malloc failed", __func__);
+ fclose(f);
+ g_free(compressed_buf);
+ return SR_ERR_MALLOC;
}
csize = 0;
if (ret < 0) {
g_free(compressed_buf);
g_free(firmware);
- g_warning("Could not unpack Sigma firmware. (Error %d)\n", ret);
- return -1;
+ sr_warn("Could not unpack Sigma firmware. (Error %d)\n", ret);
+ return SR_ERR;
}
g_free(compressed_buf);
*buf_size = fwsize * 2 * 8;
- *buf = p = (unsigned char *)g_malloc(*buf_size);
-
+ *buf = p = (unsigned char *)g_try_malloc(*buf_size);
if (!p) {
- g_warning("Error allocating buffers");
- return -1;
+ sr_err("sigma: %s: buf/p malloc failed", __func__);
+ g_free(compressed_buf);
+ g_free(firmware);
+ return SR_ERR_MALLOC;
}
for (i = 0; i < fwsize; ++i) {
if (offset != *buf_size) {
g_free(*buf);
- g_warning("Error reading firmware %s "
- "offset=%ld, file_size=%ld, buf_size=%zd\n",
- filename, offset, file_size, *buf_size);
+ sr_warn("Error reading firmware %s "
+ "offset=%ld, file_size=%ld, buf_size=%zd\n",
+ filename, offset, file_size, *buf_size);
- return -1;
+ return SR_ERR;
}
- return 0;
+ return SR_OK;
}
-static int hw_init(char *deviceinfo)
+static int hw_init(const char *deviceinfo)
{
- struct sigrok_device_instance *sdi;
- struct sigma *sigma = g_malloc(sizeof(struct sigma));
+ struct sr_device_instance *sdi;
+ struct sigma *sigma;
- deviceinfo = deviceinfo;
+ /* Avoid compiler warnings. */
+ (void)deviceinfo;
- if (!sigma)
- return 0;
+ if (!(sigma = g_try_malloc(sizeof(struct sigma)))) {
+ sr_err("sigma: %s: sigma malloc failed", __func__);
+ return 0; /* FIXME: Should be SR_ERR_MALLOC. */
+ }
ftdi_init(&sigma->ftdic);
goto free;
sigma->cur_samplerate = 0;
+ sigma->period_ps = 0;
sigma->limit_msec = 0;
sigma->cur_firmware = -1;
sigma->num_probes = 0;
sigma->use_triggers = 0;
/* Register SIGMA device. */
- sdi = sigrok_device_instance_new(0, ST_INITIALIZING,
+ sdi = sr_device_instance_new(0, SR_ST_INITIALIZING,
USB_VENDOR_NAME, USB_MODEL_NAME, USB_MODEL_VERSION);
if (!sdi)
goto free;
return 1;
free:
- free(sigma);
+ g_free(sigma);
return 0;
}
/* Make sure it's an ASIX SIGMA. */
if ((ret = ftdi_usb_open_desc(&sigma->ftdic,
USB_VENDOR, USB_PRODUCT, USB_DESCRIPTION, NULL)) < 0) {
- g_warning("ftdi_usb_open failed: %s",
- ftdi_get_error_string(&sigma->ftdic));
+ sr_warn("ftdi_usb_open failed: %s",
+ ftdi_get_error_string(&sigma->ftdic));
return 0;
}
if ((ret = ftdi_set_bitmode(&sigma->ftdic, 0xdf, BITMODE_BITBANG)) < 0) {
- g_warning("ftdi_set_bitmode failed: %s",
- ftdi_get_error_string(&sigma->ftdic));
+ sr_warn("ftdi_set_bitmode failed: %s",
+ ftdi_get_error_string(&sigma->ftdic));
return 0;
}
/* Four times the speed of sigmalogan - Works well. */
if ((ret = ftdi_set_baudrate(&sigma->ftdic, 750000)) < 0) {
- g_warning("ftdi_set_baudrate failed: %s",
- ftdi_get_error_string(&sigma->ftdic));
+ sr_warn("ftdi_set_baudrate failed: %s",
+ ftdi_get_error_string(&sigma->ftdic));
return 0;
}
snprintf(firmware_path, sizeof(firmware_path), "%s/%s", FIRMWARE_DIR,
firmware_files[firmware_idx]);
- if (-1 == bin2bitbang(firmware_path, &buf, &buf_size)) {
- g_warning("An error occured while reading the firmware: %s",
- firmware_path);
- return SR_ERR;
+ if ((ret = bin2bitbang(firmware_path, &buf, &buf_size)) != SR_OK) {
+ sr_warn("An error occured while reading the firmware: %s",
+ firmware_path);
+ return ret;
}
/* Upload firmare. */
g_free(buf);
if ((ret = ftdi_set_bitmode(&sigma->ftdic, 0x00, BITMODE_RESET)) < 0) {
- g_warning("ftdi_set_bitmode failed: %s",
- ftdi_get_error_string(&sigma->ftdic));
+ sr_warn("ftdi_set_bitmode failed: %s",
+ ftdi_get_error_string(&sigma->ftdic));
return SR_ERR;
}
ret = sigma_read(result, 3, sigma);
if (ret != 3 ||
result[0] != 0xa6 || result[1] != 0x55 || result[2] != 0xaa) {
- g_warning("Configuration failed. Invalid reply received.");
+ sr_warn("Configuration failed. Invalid reply received.");
return SR_ERR;
}
static int hw_opendev(int device_index)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
struct sigma *sigma;
int ret;
- if (!(sdi = get_sigrok_device_instance(device_instances, device_index)))
+ if (!(sdi = sr_get_device_instance(device_instances, device_index)))
return SR_ERR;
sigma = sdi->priv;
if ((ret = ftdi_usb_open_desc(&sigma->ftdic,
USB_VENDOR, USB_PRODUCT, USB_DESCRIPTION, NULL)) < 0) {
- g_warning("ftdi_usb_open failed: %s",
+ sr_warn("ftdi_usb_open failed: %s",
ftdi_get_error_string(&sigma->ftdic));
return 0;
}
- sdi->status = ST_ACTIVE;
+ sdi->status = SR_ST_ACTIVE;
return SR_OK;
}
-static int set_samplerate(struct sigrok_device_instance *sdi,
+static int set_samplerate(struct sr_device_instance *sdi,
uint64_t samplerate)
{
int i, ret;
if (supported_samplerates[i] == 0)
return SR_ERR_SAMPLERATE;
- if (samplerate <= MHZ(50)) {
+ if (samplerate <= SR_MHZ(50)) {
ret = upload_firmware(0, sigma);
sigma->num_probes = 16;
}
- if (samplerate == MHZ(100)) {
+ if (samplerate == SR_MHZ(100)) {
ret = upload_firmware(1, sigma);
sigma->num_probes = 8;
}
- else if (samplerate == MHZ(200)) {
+ else if (samplerate == SR_MHZ(200)) {
ret = upload_firmware(2, sigma);
sigma->num_probes = 4;
}
sigma->cur_samplerate = samplerate;
+ sigma->period_ps = 1000000000000 / samplerate;
sigma->samples_per_event = 16 / sigma->num_probes;
sigma->state.state = SIGMA_IDLE;
- g_message("Firmware uploaded");
+ sr_info("Firmware uploaded");
return ret;
}
* The Sigma supports complex triggers using boolean expressions, but this
* has not been implemented yet.
*/
-static int configure_probes(struct sigrok_device_instance *sdi, GSList *probes)
+static int configure_probes(struct sr_device_instance *sdi, GSList *probes)
{
struct sigma *sigma = sdi->priv;
- struct probe *probe;
+ struct sr_probe *probe;
GSList *l;
int trigger_set = 0;
int probebit;
memset(&sigma->trigger, 0, sizeof(struct sigma_trigger));
for (l = probes; l; l = l->next) {
- probe = (struct probe *)l->data;
+ probe = (struct sr_probe *)l->data;
probebit = 1 << (probe->index - 1);
if (!probe->enabled || !probe->trigger)
continue;
- if (sigma->cur_samplerate >= MHZ(100)) {
+ if (sigma->cur_samplerate >= SR_MHZ(100)) {
/* Fast trigger support. */
if (trigger_set) {
- g_warning("Asix Sigma only supports a single "
- "pin trigger in 100 and 200 "
- "MHz mode.");
+ sr_warn("ASIX SIGMA only supports a single "
+ "pin trigger in 100 and 200MHz mode.");
return SR_ERR;
}
if (probe->trigger[0] == 'f')
else if (probe->trigger[0] == 'r')
sigma->trigger.risingmask |= probebit;
else {
- g_warning("Asix Sigma only supports "
- "rising/falling trigger in 100 "
- "and 200 MHz mode.");
+ sr_warn("ASIX SIGMA only supports "
+ "rising/falling trigger in 100 "
+ "and 200MHz mode.");
return SR_ERR;
}
* does not permit ORed triggers.
*/
if (trigger_set > 1) {
- g_warning("Asix Sigma only supports 1 rising/"
- "falling triggers.");
+ sr_warn("ASIX SIGMA only supports 1 rising/"
+ "falling triggers.");
return SR_ERR;
}
}
return SR_OK;
}
-static void hw_closedev(int device_index)
+static int hw_closedev(int device_index)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
struct sigma *sigma;
- if ((sdi = get_sigrok_device_instance(device_instances, device_index)))
- {
- sigma = sdi->priv;
- if (sdi->status == ST_ACTIVE)
- ftdi_usb_close(&sigma->ftdic);
+ if (!(sdi = sr_get_device_instance(device_instances, device_index))) {
+ sr_err("sigma: %s: sdi was NULL", __func__);
+ return SR_ERR; /* TODO: SR_ERR_ARG? */
+ }
- sdi->status = ST_INACTIVE;
+ if (!(sigma = sdi->priv)) {
+ sr_err("sigma: %s: sdi->priv was NULL", __func__);
+ return SR_ERR; /* TODO: SR_ERR_ARG? */
}
+
+ /* TODO */
+ if (sdi->status == SR_ST_ACTIVE)
+ ftdi_usb_close(&sigma->ftdic);
+
+ sdi->status = SR_ST_INACTIVE;
+
+ return SR_OK;
}
static void hw_cleanup(void)
{
GSList *l;
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
/* Properly close all devices. */
for (l = device_instances; l; l = l->next) {
sdi = l->data;
if (sdi->priv != NULL)
free(sdi->priv);
- sigrok_device_instance_free(sdi);
+ sr_device_instance_free(sdi);
}
g_slist_free(device_instances);
device_instances = NULL;
static void *hw_get_device_info(int device_index, int device_info_id)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
struct sigma *sigma;
void *info = NULL;
- if (!(sdi = get_sigrok_device_instance(device_instances, device_index))) {
- fprintf(stderr, "It's NULL.\n");
+ if (!(sdi = sr_get_device_instance(device_instances, device_index))) {
+ sr_err("It's NULL.\n");
return NULL;
}
sigma = sdi->priv;
switch (device_info_id) {
- case DI_INSTANCE:
+ case SR_DI_INSTANCE:
info = sdi;
break;
- case DI_NUM_PROBES:
+ case SR_DI_NUM_PROBES:
info = GINT_TO_POINTER(16);
break;
- case DI_SAMPLERATES:
+ case SR_DI_SAMPLERATES:
info = &samplerates;
break;
- case DI_TRIGGER_TYPES:
+ case SR_DI_TRIGGER_TYPES:
info = (char *)TRIGGER_TYPES;
break;
- case DI_CUR_SAMPLERATE:
+ case SR_DI_CUR_SAMPLERATE:
info = &sigma->cur_samplerate;
break;
}
static int hw_get_status(int device_index)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
- sdi = get_sigrok_device_instance(device_instances, device_index);
+ sdi = sr_get_device_instance(device_instances, device_index);
if (sdi)
return sdi->status;
else
- return ST_NOT_FOUND;
+ return SR_ST_NOT_FOUND;
}
static int *hw_get_capabilities(void)
static int hw_set_configuration(int device_index, int capability, void *value)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
struct sigma *sigma;
int ret;
- if (!(sdi = get_sigrok_device_instance(device_instances, device_index)))
+ if (!(sdi = sr_get_device_instance(device_instances, device_index)))
return SR_ERR;
sigma = sdi->priv;
- if (capability == HWCAP_SAMPLERATE) {
+ if (capability == SR_HWCAP_SAMPLERATE) {
ret = set_samplerate(sdi, *(uint64_t*) value);
- } else if (capability == HWCAP_PROBECONFIG) {
+ } else if (capability == SR_HWCAP_PROBECONFIG) {
ret = configure_probes(sdi, value);
- } else if (capability == HWCAP_LIMIT_MSEC) {
+ } else if (capability == SR_HWCAP_LIMIT_MSEC) {
sigma->limit_msec = *(uint64_t*) value;
if (sigma->limit_msec > 0)
ret = SR_OK;
else
ret = SR_ERR;
- } else if (capability == HWCAP_CAPTURE_RATIO) {
+ } else if (capability == SR_HWCAP_CAPTURE_RATIO) {
sigma->capture_ratio = *(uint64_t*) value;
if (sigma->capture_ratio < 0 || sigma->capture_ratio > 100)
ret = SR_ERR;
*/
static int decode_chunk_ts(uint8_t *buf, uint16_t *lastts,
uint16_t *lastsample, int triggerpos,
- uint16_t limit_chunk, void *user_data)
+ uint16_t limit_chunk, void *session_data)
{
- struct sigrok_device_instance *sdi = user_data;
+ struct sr_device_instance *sdi = session_data;
struct sigma *sigma = sdi->priv;
uint16_t tsdiff, ts;
uint16_t samples[65536 * sigma->samples_per_event];
- struct datafeed_packet packet;
+ struct sr_datafeed_packet packet;
+ struct sr_datafeed_logic logic;
int i, j, k, l, numpad, tosend;
size_t n = 0, sent = 0;
int clustersize = EVENTS_PER_CLUSTER * sigma->samples_per_event;
/* Check if trigger is in this chunk. */
if (triggerpos != -1) {
- if (sigma->cur_samplerate <= MHZ(50))
+ if (sigma->cur_samplerate <= SR_MHZ(50))
triggerpos -= EVENTS_PER_CLUSTER - 1;
if (triggerpos < 0)
while (sent < n) {
tosend = MIN(2048, n - sent);
- packet.type = DF_LOGIC;
- packet.length = tosend * sizeof(uint16_t);
- packet.unitsize = 2;
- packet.payload = samples + sent;
- session_bus(sigma->session_id, &packet);
+ packet.type = SR_DF_LOGIC;
+ /* TODO: fill in timeoffset and duration */
+ packet.timeoffset = 0;
+ packet.duration = 0;
+ packet.payload = &logic;
+ logic.length = tosend * sizeof(uint16_t);
+ logic.unitsize = 2;
+ logic.data = samples + sent;
+ sr_session_bus(sigma->session_id, &packet);
sent += tosend;
}
&sigma->trigger);
if (tosend > 0) {
- packet.type = DF_LOGIC;
- packet.length = tosend * sizeof(uint16_t);
- packet.unitsize = 2;
- packet.payload = samples;
- session_bus(sigma->session_id, &packet);
+ packet.type = SR_DF_LOGIC;
+ /* TODO: fill in timeoffset and duration */
+ packet.timeoffset = 0;
+ packet.duration = 0;
+ packet.payload = &logic;
+ logic.length = tosend * sizeof(uint16_t);
+ logic.unitsize = 2;
+ logic.data = samples;
+ sr_session_bus(sigma->session_id, &packet);
sent += tosend;
}
/* Only send trigger if explicitly enabled. */
if (sigma->use_triggers) {
- packet.type = DF_TRIGGER;
- packet.length = 0;
- packet.payload = 0;
- session_bus(sigma->session_id, &packet);
+ packet.type = SR_DF_TRIGGER;
+ /* TODO: fill in timeoffset only */
+ packet.timeoffset = 0;
+ packet.duration = 0;
+ sr_session_bus(sigma->session_id, &packet);
}
}
tosend = n - sent;
if (tosend > 0) {
- packet.type = DF_LOGIC;
- packet.length = tosend * sizeof(uint16_t);
- packet.unitsize = 2;
- packet.payload = samples + sent;
- session_bus(sigma->session_id, &packet);
+ packet.type = SR_DF_LOGIC;
+ /* TODO: fill in timeoffset and duration */
+ packet.timeoffset = 0;
+ packet.duration = 0;
+ packet.payload = &logic;
+ logic.length = tosend * sizeof(uint16_t);
+ logic.unitsize = 2;
+ logic.data = samples + sent;
+ sr_session_bus(sigma->session_id, &packet);
}
*lastsample = samples[n - 1];
return SR_OK;
}
-static int receive_data(int fd, int revents, void *user_data)
+static int receive_data(int fd, int revents, void *session_data)
{
- struct sigrok_device_instance *sdi = user_data;
+ struct sr_device_instance *sdi = session_data;
struct sigma *sigma = sdi->priv;
- struct datafeed_packet packet;
+ struct sr_datafeed_packet packet;
const int chunks_per_read = 32;
unsigned char buf[chunks_per_read * CHUNK_SIZE];
int bufsz, numchunks, i, newchunks;
uint64_t running_msec;
struct timeval tv;
- fd = fd;
- revents = revents;
+ /* Avoid compiler warnings. */
+ (void)fd;
+ (void)revents;
numchunks = (sigma->state.stoppos + 511) / 512;
if (running_msec < sigma->limit_msec && numchunks < 32767)
return FALSE;
- hw_stop_acquisition(sdi->index, user_data);
+ hw_stop_acquisition(sdi->index, session_data);
return FALSE;
} else if (sigma->state.state == SIGMA_DOWNLOAD) {
if (sigma->state.chunks_downloaded >= numchunks) {
/* End of samples. */
- packet.type = DF_END;
- packet.length = 0;
- session_bus(sigma->session_id, &packet);
+ packet.type = SR_DF_END;
+ sr_session_bus(sigma->session_id, &packet);
sigma->state.state = SIGMA_IDLE;
newchunks = MIN(chunks_per_read,
numchunks - sigma->state.chunks_downloaded);
- g_message("Downloading sample data: %.0f %%",
- 100.0 * sigma->state.chunks_downloaded / numchunks);
+ sr_info("Downloading sample data: %.0f %%",
+ 100.0 * sigma->state.chunks_downloaded / numchunks);
bufsz = sigma_read_dram(sigma->state.chunks_downloaded,
newchunks, buf, sigma);
+ /* TODO: Check bufsz. For now, just avoid compiler warnings. */
+ (void)bufsz;
/* Find first ts. */
if (sigma->state.chunks_downloaded == 0) {
&sigma->state.lastts,
&sigma->state.lastsample,
sigma->state.triggerpos & 0x1ff,
- limit_chunk, user_data);
+ limit_chunk, session_data);
else
decode_chunk_ts(buf + (i * CHUNK_SIZE),
&sigma->state.lastts,
&sigma->state.lastsample,
- -1, limit_chunk, user_data);
+ -1, limit_chunk, session_data);
++sigma->state.chunks_downloaded;
}
return SR_OK;
}
-static int hw_start_acquisition(int device_index, gpointer session_device_id)
+static int hw_start_acquisition(int device_index, gpointer session_data)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
struct sigma *sigma;
- struct datafeed_packet packet;
- struct datafeed_header header;
+ struct sr_datafeed_packet packet;
+ struct sr_datafeed_header header;
struct clockselect_50 clockselect;
- int frac;
+ int frac, triggerpin, ret;
uint8_t triggerselect;
struct triggerinout triggerinout_conf;
struct triggerlut lut;
- int triggerpin;
- session_device_id = session_device_id;
+ /* Avoid compiler warnings. */
+ (void)session_data;
- if (!(sdi = get_sigrok_device_instance(device_instances, device_index)))
+ if (!(sdi = sr_get_device_instance(device_instances, device_index)))
return SR_ERR;
sigma = sdi->priv;
/* If the samplerate has not been set, default to 200 KHz. */
- if (sigma->cur_firmware == -1)
- set_samplerate(sdi, KHZ(200));
+ if (sigma->cur_firmware == -1) {
+ if ((ret = set_samplerate(sdi, SR_KHZ(200))) != SR_OK)
+ return ret;
+ }
/* Enter trigger programming mode. */
sigma_set_register(WRITE_TRIGGER_SELECT1, 0x20, sigma);
/* 100 and 200 MHz mode. */
- if (sigma->cur_samplerate >= MHZ(100)) {
+ if (sigma->cur_samplerate >= SR_MHZ(100)) {
sigma_set_register(WRITE_TRIGGER_SELECT1, 0x81, sigma);
/* Find which pin to trigger on from mask. */
triggerselect |= 1 << 3;
/* All other modes. */
- } else if (sigma->cur_samplerate <= MHZ(50)) {
+ } else if (sigma->cur_samplerate <= SR_MHZ(50)) {
build_basic_trigger(&lut, sigma);
sigma_write_trigger_lut(&lut, sigma);
sigma_set_register(WRITE_TRIGGER_SELECT1, triggerselect, sigma);
/* Set clock select register. */
- if (sigma->cur_samplerate == MHZ(200))
+ if (sigma->cur_samplerate == SR_MHZ(200))
/* Enable 4 probes. */
sigma_set_register(WRITE_CLOCK_SELECT, 0xf0, sigma);
- else if (sigma->cur_samplerate == MHZ(100))
+ else if (sigma->cur_samplerate == SR_MHZ(100))
/* Enable 8 probes. */
sigma_set_register(WRITE_CLOCK_SELECT, 0x00, sigma);
else {
* 50 MHz mode (or fraction thereof). Any fraction down to
* 50 MHz / 256 can be used, but is not supported by sigrok API.
*/
- frac = MHZ(50) / sigma->cur_samplerate - 1;
+ frac = SR_MHZ(50) / sigma->cur_samplerate - 1;
clockselect.async = 0;
clockselect.fraction = frac;
gettimeofday(&sigma->start_tv, 0);
sigma_set_register(WRITE_MODE, 0x0d, sigma);
- sigma->session_id = session_device_id;
+ sigma->session_id = session_data;
/* Send header packet to the session bus. */
- packet.type = DF_HEADER;
- packet.length = sizeof(struct datafeed_header);
+ packet.type = SR_DF_HEADER;
packet.payload = &header;
header.feed_version = 1;
gettimeofday(&header.starttime, NULL);
header.samplerate = sigma->cur_samplerate;
- header.protocol_id = PROTO_RAW;
header.num_logic_probes = sigma->num_probes;
header.num_analog_probes = 0;
- session_bus(session_device_id, &packet);
+ sr_session_bus(session_data, &packet);
/* Add capture source. */
- source_add(0, G_IO_IN, 10, receive_data, sdi);
+ sr_source_add(0, G_IO_IN, 10, receive_data, sdi);
sigma->state.state = SIGMA_CAPTURE;
return SR_OK;
}
-static void hw_stop_acquisition(int device_index, gpointer session_device_id)
+static void hw_stop_acquisition(int device_index, gpointer session_data)
{
- struct sigrok_device_instance *sdi;
+ struct sr_device_instance *sdi;
struct sigma *sigma;
uint8_t modestatus;
- if (!(sdi = get_sigrok_device_instance(device_instances, device_index)))
+ if (!(sdi = sr_get_device_instance(device_instances, device_index)))
return;
sigma = sdi->priv;
- session_device_id = session_device_id;
+ /* Avoid compiler warnings. */
+ (void)session_data;
/* Stop acquisition. */
sigma_set_register(WRITE_MODE, 0x11, sigma);
sigma->state.state = SIGMA_DOWNLOAD;
}
-struct device_plugin asix_sigma_plugin_info = {
- "asix-sigma",
- 1,
- hw_init,
- hw_cleanup,
- hw_opendev,
- hw_closedev,
- hw_get_device_info,
- hw_get_status,
- hw_get_capabilities,
- hw_set_configuration,
- hw_start_acquisition,
- hw_stop_acquisition,
+struct sr_device_plugin asix_sigma_plugin_info = {
+ .name = "asix-sigma",
+ .longname = "ASIX SIGMA",
+ .api_version = 1,
+ .init = hw_init,
+ .cleanup = hw_cleanup,
+ .opendev = hw_opendev,
+ .closedev = hw_closedev,
+ .get_device_info = hw_get_device_info,
+ .get_status = hw_get_status,
+ .get_capabilities = hw_get_capabilities,
+ .set_configuration = hw_set_configuration,
+ .start_acquisition = hw_start_acquisition,
+ .stop_acquisition = hw_stop_acquisition,
};