#include "lwla.h"
#include "protocol.h"
-/* Number of logic channels.
- */
+/* Number of logic channels. */
#define NUM_CHANNELS 16
-/* Unit size for the sigrok logic datafeed.
- */
+/* Unit size for the sigrok logic datafeed. */
#define UNIT_SIZE ((NUM_CHANNELS + 7) / 8)
-/* Size of the acquisition buffer in device memory units.
- */
+/* Size of the acquisition buffer in device memory units. */
#define MEMORY_DEPTH (256 * 1024) /* 256k x 32 bit */
-/* Capture memory read start address.
- */
+/* Capture memory read start address. */
#define READ_START_ADDR 2
-/* Number of device memory units (32 bit) to read at a time.
- */
+/* Number of device memory units (32 bit) to read at a time. */
#define READ_CHUNK_LEN 250
-/** LWLA1016 register addresses.
- */
+/** LWLA1016 register addresses. */
enum reg_addr {
REG_CHAN_MASK = 0x1000, /* bit mask of enabled channels */
REG_DIV_COUNT = 0x10BC, /* write */
};
-/** Flag bits for REG_MEM_CTRL.
- */
+/** Flag bits for REG_MEM_CTRL. */
enum mem_ctrl_flag {
MEM_CTRL_RESET = 1 << 0,
MEM_CTRL_WRITE = 1 << 1,
};
-/** Flag bits for REG_CAP_CTRL.
- */
+/** Flag bits for REG_CAP_CTRL. */
enum cap_ctrl_flag {
CAP_CTRL_FIFO32_FULL = 1 << 0, /* "fifo32_ful" bit */
CAP_CTRL_FIFO64_FULL = 1 << 1, /* "fifo64_ful" bit */
CAP_CTRL_CNTR_NOT_ENDR = 1 << 6, /* "cntr_not_endr" bit */
};
-/* Available FPGA configurations.
- */
+/* Available FPGA configurations. */
enum fpga_config {
FPGA_100 = 0, /* 100 MS/s, no compression */
FPGA_100_TS, /* 100 MS/s, timing-state mode */
};
-/* FPGA bitstream resource filenames.
- */
+/* FPGA bitstream resource filenames. */
static const char bitstream_map[][32] = {
[FPGA_100] = "sysclk-lwla1016-100.rbf",
[FPGA_100_TS] = "sysclk-lwla1016-100-ts.rbf",
};
-/* Demangle incoming sample data from the transfer buffer.
- */
+/* Demangle incoming sample data from the transfer buffer. */
static void read_response(struct acquisition_state *acq)
{
uint32_t *in_p, *out_p;
* alignment is guaranteed.
*/
out_p = (uint32_t *)&acq->out_packet[acq->out_index * UNIT_SIZE];
- in_p = &acq->xfer_buf_in[acq->in_index];
+ in_p = &acq->xfer_buf_in[acq->in_index];
/*
* Transfer two samples at a time, taking care to swap the 16-bit
* halves of each input word but keeping the samples themselves in
acq->samples_done += run_samples;
}
-/* Demangle and decompress incoming sample data from the transfer buffer.
- */
+/* Demangle and decompress incoming sample data from the transfer buffer. */
static void read_response_rle(struct acquisition_state *acq)
{
uint32_t *in_p;
uint16_t *out_p;
- unsigned int words_left;
- unsigned int max_samples, run_samples;
- unsigned int wi, ri;
+ unsigned int words_left, max_samples, run_samples, wi, ri;
uint32_t word;
uint16_t sample;
acq->samples_done += run_samples;
if (run_samples == max_samples)
- break; /* packet full or sample limit reached */
+ break; /* Packet full or sample limit reached. */
if (wi >= words_left)
- break; /* done with current transfer */
+ break; /* Done with current transfer. */
word = GUINT32_FROM_LE(in_p[wi]);
acq->sample = word >> 16;
acq->run_len = (word & 0xFFFF) + 1;
}
+
acq->in_index += wi;
acq->mem_addr_done += wi;
}
struct dev_context *devc;
struct sr_usb_dev_inst *usb;
unsigned int i;
- int xfer_len;
- int ret;
+ int xfer_len, ret;
uint16_t command[5];
unsigned char reply[512];
devc = sdi->priv;
- usb = sdi->conn;
+ usb = sdi->conn;
command[0] = LWLA_WORD(CMD_READ_MEM32);
command[1] = LWLA_WORD_0(start);
command[3] = LWLA_WORD_0(count);
command[4] = LWLA_WORD_1(count);
- ret = lwla_send_command(usb, command, ARRAY_SIZE(command));
+ ret = lwla_send_command(usb, ARRAY_AND_SIZE(command));
if (ret != SR_OK)
return ret;
xfer_len);
return SR_ERR;
}
+
return SR_OK;
}
-/* Select and transfer FPGA bitstream for the current configuration.
- */
+/* Select and transfer FPGA bitstream for the current configuration. */
static int apply_fpga_config(const struct sr_dev_inst *sdi)
{
struct dev_context *devc;
struct drv_context *drvc;
- int config;
- int ret;
+ int config, ret;
devc = sdi->priv;
drvc = sdi->driver->context;
if (sdi->status == SR_ST_INACTIVE)
- return SR_OK; /* the LWLA1016 has no off state */
+ return SR_OK; /* The LWLA1016 has no off state. */
config = (devc->cfg_rle) ? FPGA_100_TS : FPGA_100;
if (config == devc->active_fpga_config)
- return SR_OK; /* no change */
+ return SR_OK; /* No change. */
ret = lwla_send_bitstream(drvc->sr_ctx, sdi->conn,
bitstream_map[config]);
return ret;
}
-/* Perform initialization self test.
- */
+/* Perform initialization self test. */
static int device_init_check(const struct sr_dev_inst *sdi)
{
static const struct regval mem_reset[] = {
};
uint32_t value;
int ret;
-
const unsigned int test_count = 24;
- ret = lwla_read_reg(sdi->conn, REG_TEST_ID, &value);
- if (ret != SR_OK)
- return ret;
+ lwla_read_reg(sdi->conn, REG_TEST_ID, &value);
/* Ignore the value returned by the first read. */
ret = lwla_read_reg(sdi->conn, REG_TEST_ID, &value);
return SR_ERR;
}
- ret = lwla_write_regs(sdi->conn, mem_reset, ARRAY_SIZE(mem_reset));
+ ret = lwla_write_regs(sdi->conn, ARRAY_AND_SIZE(mem_reset));
if (ret != SR_OK)
return ret;
ret = test_read_memory(sdi, 0, test_count);
if (ret != SR_OK)
return ret;
+
/*
* Issue another read request or the device will stall, for whatever
* reason. This happens both with and without the short transfer quirk.
int ret;
devc = sdi->priv;
- usb = sdi->conn;
+ usb = sdi->conn;
ret = lwla_write_reg(usb, REG_CHAN_MASK, devc->channel_mask);
if (ret != SR_OK)
if (ret != SR_OK)
return ret;
- ret = lwla_write_regs(usb, capture_init, ARRAY_SIZE(capture_init));
+ ret = lwla_write_regs(usb, ARRAY_AND_SIZE(capture_init));
if (ret != SR_OK)
return ret;
unsigned int chunk_len, count;
devc = sdi->priv;
- acq = devc->acquisition;
+ acq = devc->acquisition;
acq->xfer_out->length = 0;
acq->reg_seq_pos = 0;
int expect_len;
devc = sdi->priv;
- acq = devc->acquisition;
+ acq = devc->acquisition;
switch (devc->state) {
case STATE_STATUS_REQUEST:
return SR_OK;
}
-/* Model descriptor for the LWLA1016.
- */
+/* Model descriptor for the LWLA1016. */
SR_PRIV const struct model_info lwla1016_info = {
.name = "LWLA1016",
.num_channels = NUM_CHANNELS,