262 lines
6.8 KiB
C
262 lines
6.8 KiB
C
// vim: set et:
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#include <stdio.h>
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#include "tusb.h"
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#include "protocfg.h"
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#ifdef DBOARD_HAS_SERPROG
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#include "protos.h"
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#include "thread.h"
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#include "rtconf.h"
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#include "serprog.h"
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// TODO: refactor some of this stuff into another header & split off serprog
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// protocol handling from the SPI stuff. one thing we should think about
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// when performing this refactor is, would other boards support
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// parallell, LPC, or FWH, or only SPI? if only SPI, the entire proto
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// handler can just be made reusable verbatim.
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// kinda refactored this already but it still has a good note for non-SPI stuff,
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// so leaving it here for now
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static const uint8_t serprog_cmdmap[32] = {
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0x3f, // cmd 00..05 not 0x06 (Q_CHIPSIZE) and 0x07 (Q_OPBUF), as this is a SPI-only device
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0x01, // only cmd 08
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0x1f, // cmd 10..15 supported
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0, // 18..1f
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0, // 20..27
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0, // 28..2f
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0, // 30..37
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0, // 38..3f
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0, // 40..47
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0, // 48..4f
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(1<<3), // 50..57: enable 0x53
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0, // 58..5f
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0, // rest is 0
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};
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static const char serprog_pgmname[16] = {
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'D','a','p','p','e','r','M','i','m','e','-','J','T','A','G',0 // TODO
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};
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static uint8_t rx_buf[CFG_TUD_CDC_RX_BUFSIZE];
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static uint8_t tx_buf[CFG_TUD_CDC_TX_BUFSIZE];
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static uint32_t rxavail, rxpos;
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void cdc_serprog_init(void) {
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rxavail = 0;
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rxpos = 0;
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sp_spi_init();
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}
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static uint8_t read_byte(void) {
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while (rxavail <= 0) {
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if (!tud_cdc_n_connected(CDC_N_SERPROG) || !tud_cdc_n_available(CDC_N_SERPROG)) {
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thread_yield();
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continue;
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}
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rxpos = 0;
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rxavail = tud_cdc_n_read(CDC_N_SERPROG, rx_buf, sizeof rx_buf);
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if (rxavail == 0) thread_yield();
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}
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uint8_t rv = rx_buf[rxpos];
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++rxpos;
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--rxavail;
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//printf("r %02x\n",rv);
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return rv;
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}
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static void handle_cmd(void) {
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uint32_t nresp = 0;
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uint8_t cmd = read_byte();
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switch (cmd) {
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case S_CMD_NOP:
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//printf("nop\n");
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tx_buf[0] = S_ACK;
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nresp = 1;
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break;
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case S_CMD_SYNCNOP:
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//printf("snop\n");
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tx_buf[0] = S_NAK;
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tx_buf[1] = S_ACK;
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nresp = 2;
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break;
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case S_CMD_Q_IFACE:
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//printf("q_if\n");
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tx_buf[0] = S_ACK;
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tx_buf[1] = SERPROG_IFACE_VERSION & 0xff;
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tx_buf[2] = (SERPROG_IFACE_VERSION >> 8) & 0xff;
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nresp = 3;
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break;
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case S_CMD_Q_CMDMAP:
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//printf("q_cmap\n");
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tx_buf[0] = S_ACK;
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memcpy(&tx_buf[1], serprog_cmdmap, sizeof serprog_cmdmap);
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nresp = sizeof(serprog_cmdmap) + 1;
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break;
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case S_CMD_Q_PGMNAME:
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//printf("q_pgm\n");
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tx_buf[0] = S_ACK;
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memcpy(&tx_buf[1], serprog_pgmname, sizeof serprog_pgmname);
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nresp = sizeof(serprog_pgmname) + 1;
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break;
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case S_CMD_Q_SERBUF:
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//printf("q_sbuf\n");
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tx_buf[0] = S_ACK;
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tx_buf[1] = sizeof(rx_buf) & 0xff;
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tx_buf[2] = (sizeof(rx_buf) >> 8) & 0xff;
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nresp = 3;
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break;
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case S_CMD_Q_BUSTYPE:
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//printf("q_btyp\n");
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tx_buf[0] = S_ACK;
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tx_buf[1] = 1<<3; // SPI only
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nresp = 2;
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break;
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case S_CMD_Q_WRNMAXLEN:
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//printf("q_wlen\n");
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tx_buf[0] = S_ACK;
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tx_buf[1] = (sizeof(tx_buf)-1) & 0xff;
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tx_buf[2] = ((sizeof(tx_buf)-1) >> 8) & 0xff;
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tx_buf[3] = ((sizeof(tx_buf)-1) >>16) & 0xff;
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nresp = 4;
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break;
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case S_CMD_Q_RDNMAXLEN:
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//printf("q_rlen\n");
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tx_buf[0] = S_ACK;
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tx_buf[1] = (sizeof(rx_buf)-1) & 0xff;
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tx_buf[2] = ((sizeof(rx_buf)-1) >> 8) & 0xff;
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tx_buf[3] = ((sizeof(rx_buf)-1) >>16) & 0xff;
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nresp = 4;
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break;
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case S_CMD_S_BUSTYPE:
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//printf("s_btyp\n");
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if (read_byte()/* bus type to set */ == (1<<3)) {
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tx_buf[0] = S_ACK;
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} else {
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tx_buf[0] = S_NAK;
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}
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nresp = 1;
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break;
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case S_CMD_SPIOP: {
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//printf("spiop\n");
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uint32_t slen, rlen;
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slen = (uint32_t)read_byte();
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slen |= (uint32_t)read_byte() << 8;
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slen |= (uint32_t)read_byte() << 16;
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rlen = (uint32_t)read_byte();
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rlen |= (uint32_t)read_byte() << 8;
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rlen |= (uint32_t)read_byte() << 16;
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sp_spi_op_begin();
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size_t this_batch;
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// 1. write slen data bytes
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// we're going to use the tx buf for all operations here
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while (slen > 0) {
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this_batch = sizeof(tx_buf);
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if (this_batch > slen) this_batch = slen;
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for (size_t i = 0; i < this_batch; ++i) tx_buf[i] = read_byte();
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sp_spi_op_write(this_batch, tx_buf);
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slen -= this_batch;
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}
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// 2. write data
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// first, do a batch of 63, because we also need to send an ACK byte
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this_batch = sizeof(tx_buf)-1;
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if (this_batch > rlen) this_batch = rlen;
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sp_spi_op_read(this_batch, &tx_buf[1]);
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tx_buf[0] = S_ACK;
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tud_cdc_n_write(CDC_N_SERPROG, tx_buf, this_batch+1);
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rlen -= this_batch;
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// now do in batches of 64
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while (rlen > 0) {
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this_batch = sizeof(tx_buf);
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if (this_batch > rlen) this_batch = rlen;
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sp_spi_op_read(this_batch, tx_buf);
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tud_cdc_n_write(CDC_N_SERPROG, tx_buf, this_batch);
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rlen -= this_batch;
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}
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tud_cdc_n_write_flush(CDC_N_SERPROG);
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// that's it!
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sp_spi_op_end();
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nresp = 0; // we sent our own response manually
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}
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break;
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case S_CMD_S_SPI_FREQ: {
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//printf("s_spi_freq\n");
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uint32_t freq;
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freq = (uint32_t)read_byte();
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freq |= (uint32_t)read_byte() << 8;
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freq |= (uint32_t)read_byte() << 16;
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freq |= (uint32_t)read_byte() << 24;
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uint32_t nfreq = sp_spi_set_freq(freq);
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tx_buf[0] = S_ACK;
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tx_buf[1] = nfreq & 0xff;
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tx_buf[2] = (nfreq >> 8) & 0xff;
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tx_buf[3] = (nfreq >> 16) & 0xff;
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tx_buf[4] = (nfreq >> 24) & 0xff;
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nresp = 5;
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}
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break;
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case S_CMD_S_PINSTATE: {
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//printf("s_pins\n");
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if (read_byte() == 0) sp_spi_cs_deselect();
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else sp_spi_cs_select();
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tx_buf[0] = S_ACK;
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nresp = 1;
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}
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break;
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case S_CMD_MAGIC_SETTINGS: {
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uint8_t a = read_byte();
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uint8_t b = read_byte();
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tx_buf[0] = S_ACK;
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tx_buf[1] = rtconf_do(a, b);
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nresp = 2;
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}
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break;
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default:
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//printf("ill %d\n", cmd);
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tx_buf[0] = S_NAK;
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nresp = 1;
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break;
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}
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if (nresp > 0) {
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tud_cdc_n_write(CDC_N_SERPROG, tx_buf, nresp);
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tud_cdc_n_write_flush(CDC_N_SERPROG);
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}
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}
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void cdc_serprog_task(void) {
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handle_cmd();
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//printf("d\n");
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}
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#endif /* DBOARD_HAS_SERPROG */
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