Rename various *PROBE* macros to *CHANNEL*.

[libsigrok.git] / hardware / sysclk-lwla / protocol.c

diff --git a/hardware/sysclk-lwla/protocol.c b/hardware/sysclk-lwla/protocol.c
index 39b9d893a99b63d1b69b1e62ff3a0f148ddfef8d..7bb1948d030c9b7a0bf60bbac1742a5eec65eeda 100644 (file)
--- a/hardware/sysclk-lwla/protocol.c
+++ b/hardware/sysclk-lwla/protocol.c
@@ -20,9 +20,6 @@
 #include "protocol.h"
 #include <string.h>
 
-/* Bit mask covering all 34 channels. */
-#define ALL_CHANNELS_MASK (((uint64_t)1 << NUM_PROBES) - 1)
-
 /* Bit mask for the RLE repeat-count-follows flag. */
 #define RLE_FLAG_LEN_FOLLOWS ((uint64_t)1 << 35)
 
@@ -32,13 +29,13 @@
 /* Number of 64-bit words read from the capture status memory. */
 #define CAP_STAT_LEN 5
 
-/* The bitstream filenames are indexed by the clock source enumeration.
+/* The bitstream filenames are indexed by the clock_config enumeration.
  */
-static const char *const bitstream_map[] = {
-       FIRMWARE_DIR "/sysclk-lwla1034-off.bitstream",
-       FIRMWARE_DIR "/sysclk-lwla1034-int.bitstream",
-       FIRMWARE_DIR "/sysclk-lwla1034-extpos.bitstream",
-       FIRMWARE_DIR "/sysclk-lwla1034-extneg.bitstream",
+static const char bitstream_map[][32] = {
+       "sysclk-lwla1034-off.rbf",
+       "sysclk-lwla1034-int.rbf",
+       "sysclk-lwla1034-extpos.rbf",
+       "sysclk-lwla1034-extneg.rbf",
 };
 
 /* Submit an already filled-in USB transfer.
@@ -66,6 +63,7 @@ static int capture_setup(const struct sr_dev_inst *sdi)
        struct dev_context *devc;
        struct acquisition_state *acq;
        uint64_t divider_count;
+       uint64_t trigger_mask;
        uint64_t memory_limit;
        uint16_t command[3 + 10*4];
 
@@ -105,10 +103,18 @@ static int capture_setup(const struct sr_dev_inst *sdi)
        command[17] = LWLA_WORD_2(devc->trigger_edge_mask);
        command[18] = LWLA_WORD_3(devc->trigger_edge_mask);
 
-       command[19] = LWLA_WORD_0(devc->trigger_mask);
-       command[20] = LWLA_WORD_1(devc->trigger_mask);
-       command[21] = LWLA_WORD_2(devc->trigger_mask);
-       command[22] = LWLA_WORD_3(devc->trigger_mask);
+       trigger_mask = devc->trigger_mask;
+       /* Set bits to select external TRG input edge. */
+       if (devc->cfg_trigger_source == TRIGGER_EXT_TRG)
+               switch (devc->cfg_trigger_slope) {
+               case EDGE_POSITIVE: trigger_mask |= (uint64_t)1 << 35; break; 
+               case EDGE_NEGATIVE: trigger_mask |= (uint64_t)1 << 34; break; 
+               }
+
+       command[19] = LWLA_WORD_0(trigger_mask);
+       command[20] = LWLA_WORD_1(trigger_mask);
+       command[21] = LWLA_WORD_2(trigger_mask);
+       command[22] = LWLA_WORD_3(trigger_mask);
 
        /* Set the capture memory full threshold. This is slightly less
         * than the actual maximum, most likely in order to compensate for
@@ -290,7 +296,7 @@ static void process_capture_length(const struct sr_dev_inst *sdi)
                devc->transfer_error = TRUE;
                return;
        }
-       acq->mem_addr_fill = LWLA_READ32(acq->xfer_buf_in);
+       acq->mem_addr_fill = LWLA_TO_UINT32(acq->xfer_buf_in[0]);
 
        sr_dbg("%zu words in capture buffer.", acq->mem_addr_fill);
 
@@ -365,9 +371,9 @@ static void process_capture_status(const struct sr_dev_inst *sdi)
         * in the FPGA.  These fields are definitely less than 64 bit wide
         * internally, and the unused bits occasionally even contain garbage.
         */
-       mem_fill = LWLA_READ32(&acq->xfer_buf_in[0]);
-       duration = LWLA_READ32(&acq->xfer_buf_in[8]);
-       flags    = LWLA_READ32(&acq->xfer_buf_in[16]) & STATUS_FLAG_MASK;
+       mem_fill = LWLA_TO_UINT32(acq->xfer_buf_in[0]);
+       duration = LWLA_TO_UINT32(acq->xfer_buf_in[4]);
+       flags    = LWLA_TO_UINT32(acq->xfer_buf_in[8]) & STATUS_FLAG_MASK;
 
        /* The LWLA1034 runs at 125 MHz if the clock divider is bypassed.
         * However, the time base used for the duration is apparently not
@@ -455,7 +461,7 @@ static int process_sample_data(const struct sr_dev_inst *sdi)
        struct dev_context *devc;
        struct acquisition_state *acq;
        uint8_t *out_p;
-       uint16_t *slice;
+       uint32_t *slice;
        struct sr_datafeed_packet packet;
        struct sr_datafeed_logic logic;
        size_t expect_len;
@@ -475,7 +481,7 @@ static int process_sample_data(const struct sr_dev_inst *sdi)
 
        in_words_left = MIN(acq->mem_addr_stop - acq->mem_addr_done,
                            READ_CHUNK_LEN);
-       expect_len = LWLA1034_MEMBUF_LEN(in_words_left) * sizeof(uint16_t);
+       expect_len = LWLA1034_MEMBUF_LEN(in_words_left) * sizeof(uint32_t);
        actual_len = acq->xfer_in->actual_length;
 
        if (actual_len != expect_len) {
@@ -533,13 +539,13 @@ static int process_sample_data(const struct sr_dev_inst *sdi)
                        break; /* done with current chunk */
 
                /* Now work on the current slice. */
-               high_nibbles = LWLA_READ32(&slice[8 * 2]);
-               word = LWLA_READ32(&slice[si * 2]);
+               high_nibbles = LWLA_TO_UINT32(slice[8]);
+               word = LWLA_TO_UINT32(slice[si]);
                word |= (high_nibbles << (4 * si + 4)) & ((uint64_t)0xF << 32);
 
                if (acq->rle == RLE_STATE_DATA) {
                        acq->sample = word & ALL_CHANNELS_MASK;
-                       acq->run_len = ((word >> NUM_PROBES) & 1) + 1;
+                       acq->run_len = ((word >> NUM_CHANNELS) & 1) + 1;
                        if (word & RLE_FLAG_LEN_FOLLOWS)
                                acq->rle = RLE_STATE_LEN;
                } else {
@@ -548,10 +554,9 @@ static int process_sample_data(const struct sr_dev_inst *sdi)
                }
 
                /* Move to next word. */
-               if (++si >= 8) {
-                       si = 0;
-                       slice += 9 * 2;
-               }
+               si = (si + 1) % 8;
+               if (si == 0)
+                       slice += 9;
                --in_words_left;
        }
 
@@ -697,14 +702,10 @@ SR_PRIV int lwla_init_device(const struct sr_dev_inst *sdi)
 
        devc = sdi->priv;
 
-       /* Select internal clock if it hasn't been set yet */
-       if (devc->selected_clock_source == CLOCK_SOURCE_NONE)
-               devc->selected_clock_source = CLOCK_SOURCE_INT;
-
        /* Force reload of bitstream */
-       devc->cur_clock_source = CLOCK_SOURCE_NONE;
+       devc->cur_clock_config = CONF_CLOCK_NONE;
 
-       ret = lwla_set_clock_source(sdi);
+       ret = lwla_set_clock_config(sdi);
 
        if (ret != SR_OK)
                return ret;
@@ -737,29 +738,31 @@ SR_PRIV int lwla_init_device(const struct sr_dev_inst *sdi)
        return ret;
 }
 
-/* Select the LWLA clock source.  If the clock source changed from the
- * previous setting, this will download a new bitstream to the FPGA.
+/* Select the LWLA clock configuration.  If the clock source changed from
+ * the previous setting, this will download a new bitstream to the FPGA.
  */
-SR_PRIV int lwla_set_clock_source(const struct sr_dev_inst *sdi)
+SR_PRIV int lwla_set_clock_config(const struct sr_dev_inst *sdi)
 {
        struct dev_context *devc;
        int ret;
-       enum clock_source selected;
-       size_t idx;
+       enum clock_config choice;
 
        devc = sdi->priv;
-       selected = devc->selected_clock_source;
 
-       if (devc->cur_clock_source != selected) {
-               devc->cur_clock_source = CLOCK_SOURCE_NONE;
-               idx = selected;
-               if (idx >= G_N_ELEMENTS(bitstream_map)) {
-                       sr_err("Clock source (%d) out of range", selected);
-                       return SR_ERR_BUG;
-               }
-               ret = lwla_send_bitstream(sdi->conn, bitstream_map[idx]);
+       if (sdi->status == SR_ST_INACTIVE)
+               choice = CONF_CLOCK_NONE;
+       else if (devc->cfg_clock_source == CLOCK_INTERNAL)
+               choice = CONF_CLOCK_INT;
+       else if (devc->cfg_clock_edge == EDGE_POSITIVE)
+               choice = CONF_CLOCK_EXT_RISE;
+       else
+               choice = CONF_CLOCK_EXT_FALL;
+
+       if (choice != devc->cur_clock_config) {
+               devc->cur_clock_config = CONF_CLOCK_NONE;
+               ret = lwla_send_bitstream(sdi->conn, bitstream_map[choice]);
                if (ret == SR_OK)
-                       devc->cur_clock_source = selected;
+                       devc->cur_clock_config = choice;
                return ret;
        }
        return SR_OK;
@@ -793,8 +796,7 @@ SR_PRIV int lwla_setup_acquisition(const struct sr_dev_inst *sdi)
        } else
                acq->samples_max = MAX_LIMIT_SAMPLES;
 
-       switch (devc->cur_clock_source) {
-       case CLOCK_SOURCE_INT:
+       if (devc->cfg_clock_source == CLOCK_INTERNAL) {
                sr_info("Internal clock, samplerate %" PRIu64 ".",
                        devc->samplerate);
                if (devc->samplerate == 0)
@@ -809,18 +811,13 @@ SR_PRIV int lwla_setup_acquisition(const struct sr_dev_inst *sdi)
                else if (devc->limit_samples == 0 && devc->limit_msec > 0)
                        acq->samples_max = devc->limit_msec
                                        * devc->samplerate / 1000;
-               break;
-       case CLOCK_SOURCE_EXT_FALL:
-               sr_info("External clock, falling edge.");
-               acq->bypass_clockdiv = TRUE;
-               break;
-       case CLOCK_SOURCE_EXT_RISE:
-               sr_info("External clock, rising edge.");
+       } else {
                acq->bypass_clockdiv = TRUE;
-               break;
-       default:
-               sr_err("No valid clock source has been configured.");
-               return SR_ERR;
+
+               if (devc->cfg_clock_edge == EDGE_NEGATIVE)
+                       sr_info("External clock, falling edge.");
+               else
+                       sr_info("External clock, rising edge.");
        }
 
        regvals[0].reg = REG_MEM_CTRL2;