NULL,
};
-struct la8 {
+/* Private, per-device-instance driver context. */
+struct context {
/** FTDI device context (used by libftdi). */
struct ftdi_context *ftdic;
};
/* Function prototypes. */
-static int la8_close_usb_reset_sequencer(struct la8 *la8);
-static int hw_stop_acquisition(int dev_index, gpointer session_data);
-static int la8_reset(struct la8 *la8);
+static int la8_close_usb_reset_sequencer(struct context *ctx);
+static int hw_dev_acquisition_stop(int dev_index, gpointer session_data);
+static int la8_reset(struct context *ctx);
static void fill_supported_samplerates_if_needed(void)
{
/**
* Write data of a certain length to the LA8's FTDI device.
*
- * @param la8 The LA8 struct containing private per-device-instance data.
+ * @param ctx The struct containing private per-device-instance data.
* @param buf The buffer containing the data to write.
* @param size The number of bytes to write.
* @return The number of bytes written, or a negative value upon errors.
*/
-static int la8_write(struct la8 *la8, uint8_t *buf, int size)
+static int la8_write(struct context *ctx, uint8_t *buf, int size)
{
int bytes_written;
- if (!la8) {
- sr_err("la8: %s: la8 was NULL", __func__);
+ if (!ctx) {
+ sr_err("la8: %s: ctx was NULL", __func__);
return SR_ERR_ARG;
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
return SR_ERR_ARG;
}
- bytes_written = ftdi_write_data(la8->ftdic, buf, size);
+ bytes_written = ftdi_write_data(ctx->ftdic, buf, size);
if (bytes_written < 0) {
sr_err("la8: %s: ftdi_write_data: (%d) %s", __func__,
- bytes_written, ftdi_get_error_string(la8->ftdic));
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
+ bytes_written, ftdi_get_error_string(ctx->ftdic));
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
} else if (bytes_written != size) {
sr_err("la8: %s: bytes to write: %d, bytes written: %d",
__func__, size, bytes_written);
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
}
return bytes_written;
/**
* Read a certain amount of bytes from the LA8's FTDI device.
*
- * @param la8 The LA8 struct containing private per-device-instance data.
+ * @param ctx The struct containing private per-device-instance data.
* @param buf The buffer where the received data will be stored.
* @param size The number of bytes to read.
* @return The number of bytes read, or a negative value upon errors.
*/
-static int la8_read(struct la8 *la8, uint8_t *buf, int size)
+static int la8_read(struct context *ctx, uint8_t *buf, int size)
{
int bytes_read;
- if (!la8) {
- sr_err("la8: %s: la8 was NULL", __func__);
+ if (!ctx) {
+ sr_err("la8: %s: ctx was NULL", __func__);
return SR_ERR_ARG;
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
return SR_ERR_ARG;
}
- bytes_read = ftdi_read_data(la8->ftdic, buf, size);
+ bytes_read = ftdi_read_data(ctx->ftdic, buf, size);
if (bytes_read < 0) {
sr_err("la8: %s: ftdi_read_data: (%d) %s", __func__,
- bytes_read, ftdi_get_error_string(la8->ftdic));
+ bytes_read, ftdi_get_error_string(ctx->ftdic));
} else if (bytes_read != size) {
// sr_err("la8: %s: bytes to read: %d, bytes read: %d",
// __func__, size, bytes_read);
return bytes_read;
}
-static int la8_close(struct la8 *la8)
+static int la8_close(struct context *ctx)
{
int ret;
- if (!la8) {
- sr_err("la8: %s: la8 was NULL", __func__);
+ if (!ctx) {
+ sr_err("la8: %s: ctx was NULL", __func__);
return SR_ERR_ARG;
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
- if ((ret = ftdi_usb_close(la8->ftdic)) < 0) {
+ if ((ret = ftdi_usb_close(ctx->ftdic)) < 0) {
sr_err("la8: %s: ftdi_usb_close: (%d) %s",
- __func__, ret, ftdi_get_error_string(la8->ftdic));
+ __func__, ret, ftdi_get_error_string(ctx->ftdic));
}
return ret;
/**
* Close the ChronoVu LA8 USB port and reset the LA8 sequencer logic.
*
- * @param la8 The LA8 struct containing private per-device-instance data.
+ * @param ctx The struct containing private per-device-instance data.
* @return SR_OK upon success, SR_ERR upon failure.
*/
-static int la8_close_usb_reset_sequencer(struct la8 *la8)
+static int la8_close_usb_reset_sequencer(struct context *ctx)
{
/* Magic sequence of bytes for resetting the LA8 sequencer logic. */
uint8_t buf[8] = {0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01, 0x01};
int ret;
- if (!la8) {
- sr_err("la8: %s: la8 was NULL", __func__);
+ if (!ctx) {
+ sr_err("la8: %s: ctx was NULL", __func__);
return SR_ERR_ARG;
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
- if (la8->ftdic->usb_dev) {
+ if (ctx->ftdic->usb_dev) {
/* Reset the LA8 sequencer logic, then wait 100ms. */
sr_dbg("la8: resetting sequencer logic");
- (void) la8_write(la8, buf, 8); /* Ignore errors. */
+ (void) la8_write(ctx, buf, 8); /* Ignore errors. */
g_usleep(100 * 1000);
/* Purge FTDI buffers, then reset and close the FTDI device. */
sr_dbg("la8: purging buffers, resetting+closing FTDI device");
/* Log errors, but ignore them (i.e., don't abort). */
- if ((ret = ftdi_usb_purge_buffers(la8->ftdic)) < 0)
+ if ((ret = ftdi_usb_purge_buffers(ctx->ftdic)) < 0)
sr_err("la8: %s: ftdi_usb_purge_buffers: (%d) %s",
- __func__, ret, ftdi_get_error_string(la8->ftdic));
- if ((ret = ftdi_usb_reset(la8->ftdic)) < 0)
+ __func__, ret, ftdi_get_error_string(ctx->ftdic));
+ if ((ret = ftdi_usb_reset(ctx->ftdic)) < 0)
sr_err("la8: %s: ftdi_usb_reset: (%d) %s", __func__,
- ret, ftdi_get_error_string(la8->ftdic));
- if ((ret = ftdi_usb_close(la8->ftdic)) < 0)
+ ret, ftdi_get_error_string(ctx->ftdic));
+ if ((ret = ftdi_usb_close(ctx->ftdic)) < 0)
sr_err("la8: %s: ftdi_usb_close: (%d) %s", __func__,
- ret, ftdi_get_error_string(la8->ftdic));
+ ret, ftdi_get_error_string(ctx->ftdic));
}
- ftdi_free(la8->ftdic); /* Returns void. */
- la8->ftdic = NULL;
+ ftdi_free(ctx->ftdic); /* Returns void. */
+ ctx->ftdic = NULL;
return SR_OK;
}
*
* The LA8 must be reset after a failed read/write operation or upon timeouts.
*
- * @param la8 The LA8 struct containing private per-device-instance data.
+ * @param ctx The struct containing private per-device-instance data.
* @return SR_OK upon success, SR_ERR upon failure.
*/
-static int la8_reset(struct la8 *la8)
+static int la8_reset(struct context *ctx)
{
uint8_t buf[BS];
time_t done, now;
int bytes_read;
- if (!la8) {
- sr_err("la8: %s: la8 was NULL", __func__);
+ if (!ctx) {
+ sr_err("la8: %s: ctx was NULL", __func__);
return SR_ERR_ARG;
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
done = 20 + time(NULL);
do {
/* TODO: Ignore errors? Check for < 0 at least! */
- bytes_read = la8_read(la8, (uint8_t *)&buf, BS);
+ bytes_read = la8_read(ctx, (uint8_t *)&buf, BS);
now = time(NULL);
} while ((done > now) && (bytes_read > 0));
/* Reset the LA8 sequencer logic and close the USB port. */
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
sr_dbg("la8: device reset finished");
return SR_OK;
}
-static int configure_probes(struct la8 *la8, GSList *probes)
+static int configure_probes(struct context *ctx, GSList *probes)
{
struct sr_probe *probe;
GSList *l;
uint8_t probe_bit;
char *tc;
- la8->trigger_pattern = 0;
- la8->trigger_mask = 0; /* Default to "don't care" for all probes. */
+ ctx->trigger_pattern = 0;
+ ctx->trigger_mask = 0; /* Default to "don't care" for all probes. */
for (l = probes; l; l = l->next) {
probe = (struct sr_probe *)l->data;
/* Configure the probe's trigger mask and trigger pattern. */
for (tc = probe->trigger; tc && *tc; tc++) {
- la8->trigger_mask |= probe_bit;
+ ctx->trigger_mask |= probe_bit;
/* Sanity check, LA8 only supports low/high trigger. */
if (*tc != '0' && *tc != '1') {
}
if (*tc == '1')
- la8->trigger_pattern |= probe_bit;
+ ctx->trigger_pattern |= probe_bit;
}
}
sr_dbg("la8: %s: trigger_mask = 0x%x, trigger_pattern = 0x%x",
- __func__, la8->trigger_mask, la8->trigger_pattern);
+ __func__, ctx->trigger_mask, ctx->trigger_pattern);
return SR_OK;
}
{
int ret;
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
/* Avoid compiler errors. */
(void)devinfo;
/* Allocate memory for our private driver context. */
- if (!(la8 = g_try_malloc(sizeof(struct la8)))) {
- sr_err("la8: %s: struct la8 malloc failed", __func__);
+ if (!(ctx = g_try_malloc(sizeof(struct context)))) {
+ sr_err("la8: %s: struct context malloc failed", __func__);
goto err_free_nothing;
}
/* Set some sane defaults. */
- la8->ftdic = NULL;
- la8->cur_samplerate = SR_MHZ(100); /* 100MHz == max. samplerate */
- la8->limit_msec = 0;
- la8->limit_samples = 0;
- la8->session_id = NULL;
- memset(la8->mangled_buf, 0, BS);
- la8->final_buf = NULL;
- la8->trigger_pattern = 0x00; /* Value irrelevant, see trigger_mask. */
- la8->trigger_mask = 0x00; /* All probes are "don't care". */
- la8->trigger_timeout = 10; /* Default to 10s trigger timeout. */
- la8->trigger_found = 0;
- la8->done = 0;
- la8->block_counter = 0;
- la8->divcount = 0; /* 10ns sample period == 100MHz samplerate */
+ ctx->ftdic = NULL;
+ ctx->cur_samplerate = SR_MHZ(100); /* 100MHz == max. samplerate */
+ ctx->limit_msec = 0;
+ ctx->limit_samples = 0;
+ ctx->session_id = NULL;
+ memset(ctx->mangled_buf, 0, BS);
+ ctx->final_buf = NULL;
+ ctx->trigger_pattern = 0x00; /* Value irrelevant, see trigger_mask. */
+ ctx->trigger_mask = 0x00; /* All probes are "don't care". */
+ ctx->trigger_timeout = 10; /* Default to 10s trigger timeout. */
+ ctx->trigger_found = 0;
+ ctx->done = 0;
+ ctx->block_counter = 0;
+ ctx->divcount = 0; /* 10ns sample period == 100MHz samplerate */
/* Allocate memory where we'll store the de-mangled data. */
- if (!(la8->final_buf = g_try_malloc(SDRAM_SIZE))) {
+ if (!(ctx->final_buf = g_try_malloc(SDRAM_SIZE))) {
sr_err("la8: %s: final_buf malloc failed", __func__);
- goto err_free_la8;
+ goto err_free_ctx;
}
/* Allocate memory for the FTDI context (ftdic) and initialize it. */
- if (!(la8->ftdic = ftdi_new())) {
+ if (!(ctx->ftdic = ftdi_new())) {
sr_err("la8: %s: ftdi_new failed", __func__);
goto err_free_final_buf;
}
/* Check for the device and temporarily open it. */
- if ((ret = ftdi_usb_open_desc(la8->ftdic, USB_VENDOR_ID,
+ if ((ret = ftdi_usb_open_desc(ctx->ftdic, USB_VENDOR_ID,
USB_PRODUCT_ID, USB_DESCRIPTION, NULL)) < 0) {
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
goto err_free_ftdic;
}
sr_dbg("la8: found device");
goto err_close_ftdic;
}
- sdi->priv = la8;
+ sdi->priv = ctx;
dev_insts = g_slist_append(dev_insts, sdi);
sr_spew("la8: %s finished successfully", __func__);
/* Close device. We'll reopen it again when we need it. */
- (void) la8_close(la8); /* Log, but ignore errors. */
+ (void) la8_close(ctx); /* Log, but ignore errors. */
return 1;
err_close_ftdic:
- (void) la8_close(la8); /* Log, but ignore errors. */
+ (void) la8_close(ctx); /* Log, but ignore errors. */
err_free_ftdic:
- free(la8->ftdic); /* NOT g_free()! */
+ free(ctx->ftdic); /* NOT g_free()! */
err_free_final_buf:
- g_free(la8->final_buf);
-err_free_la8:
- g_free(la8);
+ g_free(ctx->final_buf);
+err_free_ctx:
+ g_free(ctx);
err_free_nothing:
return 0;
}
-static int hw_opendev(int dev_index)
+static int hw_dev_open(int dev_index)
{
int ret;
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
if (!(sdi = sr_dev_inst_get(dev_insts, dev_index))) {
sr_err("la8: %s: sdi was NULL", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
sr_dbg("la8: opening device");
/* Open the device. */
- if ((ret = ftdi_usb_open_desc(la8->ftdic, USB_VENDOR_ID,
+ if ((ret = ftdi_usb_open_desc(ctx->ftdic, USB_VENDOR_ID,
USB_PRODUCT_ID, USB_DESCRIPTION, NULL)) < 0) {
sr_err("la8: %s: ftdi_usb_open_desc: (%d) %s",
- __func__, ret, ftdi_get_error_string(la8->ftdic));
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
+ __func__, ret, ftdi_get_error_string(ctx->ftdic));
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
return SR_ERR;
}
sr_dbg("la8: device opened successfully");
/* Purge RX/TX buffers in the FTDI chip. */
- if ((ret = ftdi_usb_purge_buffers(la8->ftdic)) < 0) {
+ if ((ret = ftdi_usb_purge_buffers(ctx->ftdic)) < 0) {
sr_err("la8: %s: ftdi_usb_purge_buffers: (%d) %s",
- __func__, ret, ftdi_get_error_string(la8->ftdic));
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
- goto err_opendev_close_ftdic;
+ __func__, ret, ftdi_get_error_string(ctx->ftdic));
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
+ goto err_dev_open_close_ftdic;
}
sr_dbg("la8: FTDI buffers purged successfully");
/* Enable flow control in the FTDI chip. */
- if ((ret = ftdi_setflowctrl(la8->ftdic, SIO_RTS_CTS_HS)) < 0) {
+ if ((ret = ftdi_setflowctrl(ctx->ftdic, SIO_RTS_CTS_HS)) < 0) {
sr_err("la8: %s: ftdi_setflowcontrol: (%d) %s",
- __func__, ret, ftdi_get_error_string(la8->ftdic));
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
- goto err_opendev_close_ftdic;
+ __func__, ret, ftdi_get_error_string(ctx->ftdic));
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
+ goto err_dev_open_close_ftdic;
}
sr_dbg("la8: FTDI flow control enabled successfully");
return SR_OK;
-err_opendev_close_ftdic:
- (void) la8_close(la8); /* Log, but ignore errors. */
+err_dev_open_close_ftdic:
+ (void) la8_close(ctx); /* Log, but ignore errors. */
return SR_ERR;
}
static int set_samplerate(struct sr_dev_inst *sdi, uint64_t samplerate)
{
- struct la8 *la8;
+ struct context *ctx;
if (!sdi) {
sr_err("la8: %s: sdi was NULL", __func__);
return SR_ERR_ARG;
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return SR_ERR_ARG;
}
return SR_ERR;
/* Set the new samplerate. */
- la8->cur_samplerate = samplerate;
+ ctx->cur_samplerate = samplerate;
- sr_dbg("la8: samplerate set to %" PRIu64 "Hz", la8->cur_samplerate);
+ sr_dbg("la8: samplerate set to %" PRIu64 "Hz", ctx->cur_samplerate);
return SR_OK;
}
-static int hw_closedev(int dev_index)
+static int hw_dev_close(int dev_index)
{
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
if (!(sdi = sr_dev_inst_get(dev_insts, dev_index))) {
sr_err("la8: %s: sdi was NULL", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
if (sdi->status == SR_ST_ACTIVE) {
sr_dbg("la8: %s: status ACTIVE, closing device", __func__);
/* TODO: Really ignore errors here, or return SR_ERR? */
- (void) la8_close_usb_reset_sequencer(la8); /* Ignore errors. */
+ (void) la8_close_usb_reset_sequencer(ctx); /* Ignore errors. */
} else {
sr_spew("la8: %s: status not ACTIVE, nothing to do", __func__);
}
sdi->status = SR_ST_INACTIVE;
sr_dbg("la8: %s: freeing sample buffers", __func__);
- g_free(la8->final_buf);
+ g_free(ctx->final_buf);
return SR_OK;
}
static void *hw_dev_info_get(int dev_index, int dev_info_id)
{
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
void *info;
sr_spew("la8: entering %s", __func__);
return NULL;
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return NULL;
}
info = (char *)TRIGGER_TYPES;
break;
case SR_DI_CUR_SAMPLERATE:
- info = &la8->cur_samplerate;
+ info = &ctx->cur_samplerate;
break;
default:
/* Unknown device info ID, return NULL. */
return info;
}
-static int hw_get_status(int dev_index)
+static int hw_dev_status_get(int dev_index)
{
struct sr_dev_inst *sdi;
return hwcaps;
}
-static int hw_config_set(int dev_index, int hwcap, void *value)
+static int hw_dev_config_set(int dev_index, int hwcap, void *value)
{
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
sr_spew("la8: entering %s", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
case SR_HWCAP_SAMPLERATE:
if (set_samplerate(sdi, *(uint64_t *)value) == SR_ERR)
return SR_ERR;
- sr_dbg("la8: SAMPLERATE = %" PRIu64, la8->cur_samplerate);
+ sr_dbg("la8: SAMPLERATE = %" PRIu64, ctx->cur_samplerate);
break;
case SR_HWCAP_PROBECONFIG:
- if (configure_probes(la8, (GSList *)value) != SR_OK) {
+ if (configure_probes(ctx, (GSList *)value) != SR_OK) {
sr_err("la8: %s: probe config failed", __func__);
return SR_ERR;
}
sr_err("la8: %s: LIMIT_MSEC can't be 0", __func__);
return SR_ERR;
}
- la8->limit_msec = *(uint64_t *)value;
- sr_dbg("la8: LIMIT_MSEC = %" PRIu64, la8->limit_msec);
+ ctx->limit_msec = *(uint64_t *)value;
+ sr_dbg("la8: LIMIT_MSEC = %" PRIu64, ctx->limit_msec);
break;
case SR_HWCAP_LIMIT_SAMPLES:
if (*(uint64_t *)value < MIN_NUM_SAMPLES) {
sr_err("la8: %s: LIMIT_SAMPLES too small", __func__);
return SR_ERR;
}
- la8->limit_samples = *(uint64_t *)value;
- sr_dbg("la8: LIMIT_SAMPLES = %" PRIu64, la8->limit_samples);
+ ctx->limit_samples = *(uint64_t *)value;
+ sr_dbg("la8: LIMIT_SAMPLES = %" PRIu64, ctx->limit_samples);
break;
default:
/* Unknown capability, return SR_ERR. */
/**
* Get a block of data from the LA8.
*
- * @param la8 The LA8 struct containing private per-device-instance data.
+ * @param ctx The struct containing private per-device-instance data.
* @return SR_OK upon success, or SR_ERR upon errors.
*/
-static int la8_read_block(struct la8 *la8)
+static int la8_read_block(struct context *ctx)
{
int i, byte_offset, m, mi, p, index, bytes_read;
time_t now;
- if (!la8) {
- sr_err("la8: %s: la8 was NULL", __func__);
+ if (!ctx) {
+ sr_err("la8: %s: ctx was NULL", __func__);
return SR_ERR_ARG;
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
- sr_spew("la8: %s: reading block %d", __func__, la8->block_counter);
+ sr_spew("la8: %s: reading block %d", __func__, ctx->block_counter);
- bytes_read = la8_read(la8, la8->mangled_buf, BS);
+ bytes_read = la8_read(ctx, ctx->mangled_buf, BS);
/* If first block read got 0 bytes, retry until success or timeout. */
- if ((bytes_read == 0) && (la8->block_counter == 0)) {
+ if ((bytes_read == 0) && (ctx->block_counter == 0)) {
do {
sr_spew("la8: %s: reading block 0 again", __func__);
- bytes_read = la8_read(la8, la8->mangled_buf, BS);
+ bytes_read = la8_read(ctx, ctx->mangled_buf, BS);
/* TODO: How to handle read errors here? */
now = time(NULL);
- } while ((la8->done > now) && (bytes_read == 0));
+ } while ((ctx->done > now) && (bytes_read == 0));
}
/* Check if block read was successful or a timeout occured. */
if (bytes_read != BS) {
sr_err("la8: %s: trigger timed out", __func__);
- (void) la8_reset(la8); /* Ignore errors. */
+ (void) la8_reset(ctx); /* Ignore errors. */
return SR_ERR;
}
/* De-mangle the data. */
- sr_spew("la8: de-mangling samples of block %d", la8->block_counter);
- byte_offset = la8->block_counter * BS;
+ sr_spew("la8: de-mangling samples of block %d", ctx->block_counter);
+ byte_offset = ctx->block_counter * BS;
m = byte_offset / (1024 * 1024);
mi = m * (1024 * 1024);
for (i = 0; i < BS; i++) {
p = i & (1 << 0);
index = m * 2 + (((byte_offset + i) - mi) / 2) * 16;
- index += (la8->divcount == 0) ? p : (1 - p);
- la8->final_buf[index] = la8->mangled_buf[i];
+ index += (ctx->divcount == 0) ? p : (1 - p);
+ ctx->final_buf[index] = ctx->mangled_buf[i];
}
return SR_OK;
}
-static void send_block_to_session_bus(struct la8 *la8, int block)
+static void send_block_to_session_bus(struct context *ctx, int block)
{
int i;
uint8_t sample, expected_sample;
struct sr_datafeed_logic logic;
int trigger_point; /* Relative trigger point (in this block). */
- /* Note: No sanity checks on la8/block, caller is responsible. */
+ /* Note: No sanity checks on ctx/block, caller is responsible. */
/* Check if we can find the trigger condition in this block. */
trigger_point = -1;
- expected_sample = la8->trigger_pattern & la8->trigger_mask;
+ expected_sample = ctx->trigger_pattern & ctx->trigger_mask;
for (i = 0; i < BS; i++) {
/* Don't continue if the trigger was found previously. */
- if (la8->trigger_found)
+ if (ctx->trigger_found)
break;
/*
* no trigger conditions were specified by the user. In that
* case we don't want to send an SR_DF_TRIGGER packet at all.
*/
- if (la8->trigger_mask == 0x00)
+ if (ctx->trigger_mask == 0x00)
break;
- sample = *(la8->final_buf + (block * BS) + i);
+ sample = *(ctx->final_buf + (block * BS) + i);
- if ((sample & la8->trigger_mask) == expected_sample) {
+ if ((sample & ctx->trigger_mask) == expected_sample) {
trigger_point = i;
- la8->trigger_found = 1;
+ ctx->trigger_found = 1;
break;
}
}
packet.payload = &logic;
logic.length = BS;
logic.unitsize = 1;
- logic.data = la8->final_buf + (block * BS);
- sr_session_bus(la8->session_id, &packet);
+ logic.data = ctx->final_buf + (block * BS);
+ sr_session_bus(ctx->session_id, &packet);
return;
}
packet.payload = &logic;
logic.length = trigger_point;
logic.unitsize = 1;
- logic.data = la8->final_buf + (block * BS);
- sr_session_bus(la8->session_id, &packet);
+ logic.data = ctx->final_buf + (block * BS);
+ sr_session_bus(ctx->session_id, &packet);
}
/* Send the SR_DF_TRIGGER packet to the session bus. */
(block * BS) + trigger_point);
packet.type = SR_DF_TRIGGER;
packet.payload = NULL;
- sr_session_bus(la8->session_id, &packet);
+ sr_session_bus(ctx->session_id, &packet);
/* If at least one sample is located after the trigger... */
if (trigger_point < (BS - 1)) {
packet.payload = &logic;
logic.length = BS - trigger_point;
logic.unitsize = 1;
- logic.data = la8->final_buf + (block * BS) + trigger_point;
- sr_session_bus(la8->session_id, &packet);
+ logic.data = ctx->final_buf + (block * BS) + trigger_point;
+ sr_session_bus(ctx->session_id, &packet);
}
}
{
int i, ret;
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
/* Avoid compiler errors. */
(void)fd;
return FALSE;
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return FALSE;
}
/* Get one block of data. */
- if ((ret = la8_read_block(la8)) < 0) {
+ if ((ret = la8_read_block(ctx)) < 0) {
sr_err("la8: %s: la8_read_block error: %d", __func__, ret);
- hw_stop_acquisition(sdi->index, session_data);
+ hw_dev_acquisition_stop(sdi->index, session_data);
return FALSE;
}
/* We need to get exactly NUM_BLOCKS blocks (i.e. 8MB) of data. */
- if (la8->block_counter != (NUM_BLOCKS - 1)) {
- la8->block_counter++;
+ if (ctx->block_counter != (NUM_BLOCKS - 1)) {
+ ctx->block_counter++;
return TRUE;
}
/* All data was received and demangled, send it to the session bus. */
for (i = 0; i < NUM_BLOCKS; i++)
- send_block_to_session_bus(la8, i);
+ send_block_to_session_bus(ctx, i);
- hw_stop_acquisition(sdi->index, session_data);
+ hw_dev_acquisition_stop(sdi->index, session_data);
// return FALSE; /* FIXME? */
return TRUE;
}
-static int hw_start_acquisition(int dev_index, gpointer session_data)
+static int hw_dev_acquisition_start(int dev_index, gpointer session_data)
{
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
struct sr_datafeed_packet packet;
struct sr_datafeed_header header;
uint8_t buf[4];
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return SR_ERR; /* TODO: SR_ERR_ARG? */
}
- if (!la8->ftdic) {
- sr_err("la8: %s: la8->ftdic was NULL", __func__);
+ if (!ctx->ftdic) {
+ sr_err("la8: %s: ctx->ftdic was NULL", __func__);
return SR_ERR_ARG;
}
- la8->divcount = samplerate_to_divcount(la8->cur_samplerate);
- if (la8->divcount == 0xff) {
+ ctx->divcount = samplerate_to_divcount(ctx->cur_samplerate);
+ if (ctx->divcount == 0xff) {
sr_err("la8: %s: invalid divcount/samplerate", __func__);
return SR_ERR;
}
/* Fill acquisition parameters into buf[]. */
- buf[0] = la8->divcount;
+ buf[0] = ctx->divcount;
buf[1] = 0xff; /* This byte must always be 0xff. */
- buf[2] = la8->trigger_pattern;
- buf[3] = la8->trigger_mask;
+ buf[2] = ctx->trigger_pattern;
+ buf[3] = ctx->trigger_mask;
/* Start acquisition. */
- bytes_written = la8_write(la8, buf, 4);
+ bytes_written = la8_write(ctx, buf, 4);
if (bytes_written < 0) {
sr_err("la8: acquisition failed to start");
sr_dbg("la8: acquisition started successfully");
- la8->session_id = session_data;
+ ctx->session_id = session_data;
/* Send header packet to the session bus. */
sr_dbg("la8: %s: sending SR_DF_HEADER", __func__);
packet.payload = &header;
header.feed_version = 1;
gettimeofday(&header.starttime, NULL);
- header.samplerate = la8->cur_samplerate;
+ header.samplerate = ctx->cur_samplerate;
header.num_logic_probes = NUM_PROBES;
sr_session_bus(session_data, &packet);
/* Time when we should be done (for detecting trigger timeouts). */
- la8->done = (la8->divcount + 1) * 0.08388608 + time(NULL)
- + la8->trigger_timeout;
- la8->block_counter = 0;
- la8->trigger_found = 0;
+ ctx->done = (ctx->divcount + 1) * 0.08388608 + time(NULL)
+ + ctx->trigger_timeout;
+ ctx->block_counter = 0;
+ ctx->trigger_found = 0;
/* Hook up a dummy handler to receive data from the LA8. */
sr_source_add(-1, G_IO_IN, 0, receive_data, sdi);
return SR_OK;
}
-static int hw_stop_acquisition(int dev_index, gpointer session_data)
+static int hw_dev_acquisition_stop(int dev_index, gpointer session_data)
{
struct sr_dev_inst *sdi;
- struct la8 *la8;
+ struct context *ctx;
struct sr_datafeed_packet packet;
sr_dbg("la8: stopping acquisition");
return SR_ERR_BUG;
}
- if (!(la8 = sdi->priv)) {
+ if (!(ctx = sdi->priv)) {
sr_err("la8: %s: sdi->priv was NULL", __func__);
return SR_ERR_BUG;
}
.api_version = 1,
.init = hw_init,
.cleanup = hw_cleanup,
- .opendev = hw_opendev,
- .closedev = hw_closedev,
+ .dev_open = hw_dev_open,
+ .dev_close = hw_dev_close,
.dev_info_get = hw_dev_info_get,
- .get_status = hw_get_status,
+ .dev_status_get = hw_dev_status_get,
.hwcap_get_all = hw_hwcap_get_all,
- .config_set = hw_config_set,
- .start_acquisition = hw_start_acquisition,
- .stop_acquisition = hw_stop_acquisition,
+ .dev_config_set = hw_dev_config_set,
+ .dev_acquisition_start = hw_dev_acquisition_start,
+ .dev_acquisition_stop = hw_dev_acquisition_stop,
};