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git://projects.qi-hardware.com/ben-blinkenlights.git
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475 lines
9.9 KiB
C
475 lines
9.9 KiB
C
/*
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* ubb-la.c - UBB logic analyzer
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*
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* Written 2013 by Werner Almesberger
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* Copyright 2013 Werner Almesberger
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*/
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#include <stdint.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <unistd.h>
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#include <string.h>
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#include <math.h>
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#include <assert.h>
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#include <sys/mman.h>
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#include <ubb/ubb.h>
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#include <ubb/regs4740.h>
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#include <ubb/mmcclk.h>
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#include <ubb/physmem.h>
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#include "gui.h"
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#define DMA 5
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#define KEY_MASK 0x5fc0000
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/*
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* The initial skip is for samples loaded into the FIFO when starting the
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* command, before waiting for the trigger. A completely filled FIFO would
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* hold 16 * 32 bits or 128 samples. In reality, we observe 122 samples for
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* sample rates up to 24 MHz and 123 samples for 42 or 56 MHz.
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*/
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#define INITIAL_SKIP 122 /* should be 123 for higher speeds */
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/* ----- Enable/disable interrupts ----------------------------------------- */
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static uint32_t old_icmr;
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static void disable_interrupts(void)
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{
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old_icmr = ICMR;
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ICMSR = 0xffffffff;
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}
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static void enable_interrupts(void)
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{
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ICMCR = ~old_icmr;
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}
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/* ----- DMA control ------------------------------------------------------- */
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static uint32_t old_dmac;
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static void dma_stop(void)
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{
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DCS(DMA) =
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DCS_TT | /* Transfer terminated */
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DCS_HLT; /* DMA halt */
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DCS(DMA) = 0; /* reset DMA channel */
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}
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static void dma_init(void)
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{
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old_dmac = DMAC;
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DMAC = DMAC_DMAE; /* activate the DMA controller (in case it's off) */
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dma_stop();
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DCM(DMA) =
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DCM_DAI | /* destination address increment */
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(DCM_TSZ_32BYTE << DCM_TSZ_SHIFT);
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/* transfer size is 32 bytes */
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DRT(DMA) = DRT_MSC_RX; /* MSC receive-fifo-full transfer request */
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}
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static void dma_cleanup(void)
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{
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DMAC = old_dmac;
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dma_stop();
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}
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static void dma_setup(unsigned long buf, int nibbles)
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{
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assert(!(nibbles & 63));
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/* need to reset DSA, DTA, DTC when done. uncertain about DCS */
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DCS(DMA) = DCS_NDES; /* no-descriptor transfer */
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DSA(DMA) = REG_PADDR(MSC_RXFIFO); /* source */
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DTA(DMA) = buf; /* destination */
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DTC(DMA) = nibbles >> 6; /* 32 bytes per transfer */
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}
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static void wait_dma_done(void)
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{
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while (!(DCS(DMA) & DCS_TT));
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}
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/* ----- MMC control ------------------------------------------------------- */
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static int xfer(unsigned long buf, int nibbles,
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uint32_t trigger, uint32_t mask)
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{
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dma_init();
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dma_setup(buf, nibbles);
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MSC_STRPCL = MSC_STRPCRL_START_CLOCK; /* start the bus clock */
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MSC_RESTO = MSC_RESTO_MASK; /* maximum response time-out */
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MSC_RDTO = MSC_RDTO_MASK;
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MSC_BLKLEN = nibbles >> 1;
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MSC_CMDAT =
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MSC_CMDAT_BUS_WIDTH_4 << MSC_CMDAT_BUS_WIDTH_SHIFT |
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MSC_CMDAT_DMA_EN | /* DMA */
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MSC_CMDAT_DATA_EN | /* with data transfer */
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MSC_CMDAT_RESPONSE_FORMAT_NONE; /* no response required */
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MSC_STRPCL = MSC_STRPCRL_START_OP;
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while (MSC_STAT & MSC_STAT_DATA_FIFO_EMPTY);
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IN(UBB_CMD);
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disable_interrupts();
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while ((PDPIN & mask) != trigger)
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if ((PDPIN & KEY_MASK) != KEY_MASK)
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goto quit;
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DCS(DMA) =
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DCS_NDES | /* no descriptor */
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DCS_CTE; /* enable channel */
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enable_interrupts();
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wait_dma_done();
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//printf("MSC_STAT = %08x\n", MSC_STAT);
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dma_cleanup();
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return 1;
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quit:
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enable_interrupts();
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dma_cleanup();
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return 0;
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}
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static void xfers(unsigned long *bufs, int n_bufs, int nibbles,
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const struct mmcclk *clk, const struct mmcclk *fast_clk)
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{
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int i = 0;
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dma_init();
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MSC_STRPCL = MSC_STRPCRL_START_CLOCK; /* start the bus clock */
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MSC_RESTO = MSC_RESTO_MASK; /* maximum response time-out */
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MSC_RDTO = MSC_RDTO_MASK;
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MSC_BLKLEN = nibbles >> 1;
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MSC_CMDAT =
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MSC_CMDAT_BUS_WIDTH_4 << MSC_CMDAT_BUS_WIDTH_SHIFT |
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MSC_CMDAT_DMA_EN | /* DMA */
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MSC_CMDAT_DATA_EN | /* with data transfer */
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MSC_CMDAT_RESPONSE_FORMAT_NONE; /* no response required */
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disable_interrupts();
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OUT(UBB_CMD);
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dma_setup(bufs[0], nibbles);
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while (1) {
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MSC_STRPCL = MSC_STRPCRL_START_OP;
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MSC_CLKRT = fast_clk->clkrt;
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MSCCDR = 0;
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while (!(MSC_STAT & MSC_STAT_END_CMD_RES));
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IN(UBB_CMD);
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MSCCDR = clk->clkdiv;
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MSC_CLKRT = clk->clkrt;
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DCS(DMA) =
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DCS_NDES | /* no descriptor */
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DCS_CTE; /* enable channel */
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/*
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* @@@ We could enable interrupts while waiting, particularly
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* at low sample rates, as long as the probability of missing
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* the end of the DMA transfer is acceptably low.
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*/
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wait_dma_done();
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if (++i == n_bufs)
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break;
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OUT(UBB_CMD);
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dma_setup(bufs[i], nibbles);
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while (!(MSC_STAT & MSC_STAT_DATA_TRAN_DONE));
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}
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enable_interrupts();
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dma_cleanup();
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}
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/* ----- ASCII output ------------------------------------------------------ */
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static void print_samples(FILE *file, uint8_t *buf, int skip, int nibbles)
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{
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uint8_t v, last = 0xff;
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int i, count = 0;
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for (i = skip; i != nibbles; i++) {
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v = (buf[i >> 1] >> (4*(~i & 1))) & 0xf;
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if (v == last) {
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count++;
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} else {
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switch (count) {
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case 0:
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break;
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case 1:
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printf("%X", last);
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break;
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default:
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printf("%X{%d}", last, count);
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break;
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}
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last = v;
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count = 1;
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}
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}
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if (count == 1)
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printf("%X\n", last);
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else
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printf("%X{%d}\n", last, count);
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}
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/* ----- Capture ----------------------------------------------------------- */
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static int do_buf(int nibbles, uint32_t trigger, uint32_t mask,
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const struct mmcclk *clk, int use_gui)
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{
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uint8_t *buf = physmem_malloc(4096);
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struct physmem_vec vec;
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int n;
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if (mlockall(MCL_CURRENT | MCL_FUTURE)) {
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perror("mlockall");
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exit(1);
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}
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memset(buf, 0, 4096);
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physmem_flush(buf, 4096);
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n = physmem_xlat(buf, nibbles >> 1, &vec, 1);
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if (n != 1) {
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fprintf(stderr, "physmem_xlat_vec: expected 1, got %d\n", n);
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exit(1);
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}
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if (!xfer(vec.addr, nibbles, trigger, mask))
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return 0;
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if (use_gui)
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gui(buf, INITIAL_SKIP, nibbles, clk->bus_clk_hz);
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else
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print_samples(stdout, buf, INITIAL_SKIP, nibbles);
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return 1;
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}
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static void do_bufs(int n_bufs, int nibbles,
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const struct mmcclk *clk, const struct mmcclk *fast_clk)
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{
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uint8_t *bufs[n_bufs];
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struct physmem_vec vecs[n_bufs];
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unsigned long addrs[n_bufs];
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int i,n;
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if (mlockall(MCL_CURRENT | MCL_FUTURE)) {
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perror("mlockall");
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exit(1);
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}
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for (i = 0; i != n_bufs; i++) {
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bufs[i] = physmem_malloc(4096);
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memset(bufs[i], 0, 4096);
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physmem_flush(bufs[i], 4096);
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n = physmem_xlat(bufs[i], nibbles >> 1, vecs+i, 1);
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if (n != 1) {
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fprintf(stderr,
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"physmem_xlat_vec: expected 1, got %d\n", n);
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exit(1);
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}
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addrs[i] = vecs[i].addr;
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}
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assert(!fast_clk->clkdiv);
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xfers(addrs, n_bufs, nibbles, clk, fast_clk);
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for (i = 0; i != n_bufs; i++)
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print_samples(stdout, bufs[i], 0, nibbles);
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}
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/* ----- Command-line processing ------------------------------------------- */
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/*
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* Among equal bus rates, pick the configuration with the fastest MMC clock.
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* It'll save a few nanoseconds.
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*/
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static void frequency(struct mmcclk *clk, int hz, int all)
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{
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struct mmcclk mmc;
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mmcclk_first(&mmc, 0,
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MMCCLK_FLAG_RD_ONLY | (all ? MMCCLK_FLAG_ALL : 0));
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*clk = mmc;
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while (mmcclk_next(&mmc))
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if (fabs(clk->bus_clk_hz-hz) > fabs(mmc.bus_clk_hz-hz) ||
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(fabs(clk->bus_clk_hz-hz) == fabs(mmc.bus_clk_hz-hz) &&
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clk->clkdiv > mmc.clkdiv))
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*clk = mmc;
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}
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static unsigned long xlat_pins(unsigned long pins)
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{
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if (pins & ~0x1fUL) {
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fprintf(stderr, "invalid trigger set/mask: 0x%lx\n", pins);
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exit(1);
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}
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pins <<= 10;
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if (pins & (0x10 << 10))
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pins = (pins ^ (0x10 << 10)) | UBB_CLK;
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return pins;
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}
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static void usage(const char *name)
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{
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fprintf(stderr,
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"usage: %s [-C] [-t pattern/mask] [(-f|-F) frequency_MHz] [-g] [-n N]\n\n"
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" -C output the MMC clock on CLK/TRIG (for debugging)\n"
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" -f freq_MHz select the specified frequency (default; 1 MHz)\n"
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" -F freq_MHz like -f, but also allow \"overclocking\"\n"
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" -g display the captured waveforms graphically (default:\n"
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" print as text to standard output)\n"
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" -n N capture N buffers worth of samples without waiting for a\n"
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" trigger\n"
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" -t pattern/mask start capture at the specified pattern (DAT0 = 1, etc.,\n"
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" CLK = 16). Default: any change on TRIG.\n"
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, name);
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exit(1);
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}
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int main(int argc, char **argv)
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{
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double freq_mhz = 1;
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int all = 0;
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unsigned long trigger = 1, mask = 0;
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unsigned long multi = 0;
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int clkout = 0;
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int use_gui = 0;
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struct mmcclk clk, fast_clk;
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char *end;
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int c, res;
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while ((c = getopt(argc, argv, "Cf:F:gn:t:")) != EOF)
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switch (c) {
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case 'C':
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clkout = 1;
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break;
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case 'F':
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all = 1;
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/* fall through */
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case 'f':
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freq_mhz = strtod(optarg, &end);
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if (*end)
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usage(*argv);
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break;
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case 'g':
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use_gui = 1;
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break;
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case 'n':
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multi = strtoul(optarg, &end, 0);
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if (*end)
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usage(*argv);
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break;
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case 't':
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trigger = strtoul(optarg, &end, 0);
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if (*end != '/')
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usage(*argv);
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mask = strtoul(end+1, &end, 0);
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if (*end)
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usage(*argv);
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trigger = xlat_pins(trigger);
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mask = xlat_pins(mask);
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break;
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default:
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usage(*argv);
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}
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if (optind != argc)
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usage(*argv);
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ubb_open(UBB_ALL);
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PDFUNS = UBB_DAT0 | UBB_DAT1 | UBB_DAT2 | UBB_DAT3;
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if (clkout)
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PDFUNS = UBB_CLK;
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OUT(UBB_CMD);
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CLR(UBB_CMD);
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PDFUNC = UBB_CMD;
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frequency(&clk, 1e6*freq_mhz, all);
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fprintf(stderr, "bus %g MHz controller %g MHz\n", clk.bus_clk_hz/1e6,
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clk.sys_clk_hz/(clk.clkdiv+1.0)/1e6);
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mmcclk_start(&clk);
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if (trigger == 1) {
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trigger = ~PDPIN & UBB_CLK;
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mask = UBB_CLK;
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}
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if (use_gui)
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gui_init();
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if (!multi) {
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res = !do_buf(8128, trigger, mask, &clk, use_gui);
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} else {
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frequency(&fast_clk, 84e6, 1);
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do_bufs(multi, 8128, &clk, &fast_clk);
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res = 0;
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}
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mmcclk_stop();
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ubb_close(UBB_ALL);
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return res;
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}
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