/* * ubb-patgen.c - UBB pattern generator * * Written 2013 by Werner Almesberger * Copyright 2013 Werner Almesberger * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define DMA 5 extern int cacheflush(char *addr, int nbytes, int cache); /* ----- List available bus clock frequencies ------------------------------ */ static int cmp(const void *a, const void *b) { const struct mmcclk *ma = a, *mb = b; if (ma->bus_clk_hz < mb->bus_clk_hz) return -1; if (ma->bus_clk_hz > mb->bus_clk_hz) return 1; return mb->clkdiv-ma->clkdiv; } static struct mmcclk *frequencies(int *n) { struct mmcclk mmc; struct mmcclk *clks = malloc(sizeof(struct mmcclk)); int n_clks = 1; if (!clks) { perror("malloc"); exit(1); } mmcclk_first(&mmc, 0); clks[0] = mmc; while (mmcclk_next(&mmc)) { clks = realloc(clks, sizeof(struct mmcclk)*(n_clks+1)); if (!clks) { perror("realloc"); exit(1); } clks[n_clks] = mmc; n_clks++; } qsort(clks, n_clks, sizeof(*clks), cmp); *n = n_clks; return clks; } static void print_freq(FILE *file, double f) { const char *prefix = ""; if (f >= 1000000) { f /= 1000000; prefix = "M"; } else if (f >= 1000) { f /= 1000; prefix = "k"; } fprintf(file, "%g %sHz", f, prefix); } static void show_frequencies(void) { const struct mmcclk *clks; int n, i; clks = frequencies(&n); for (i = 0; i != n; i++) { printf("clkdiv = %u, clkrt = %u, bus_clk = ", clks[i].clkdiv, clks[i].clkrt); print_freq(stdout, clks[i].bus_clk_hz); putchar('\n'); } free((void *) clks); } static int select_freq(struct mmcclk *res, int hz, int rel) { const struct mmcclk *clks, *p, *best = NULL; double d, best_d = 0; int n; clks = frequencies(&n); for (p = clks; p != clks+n; p++) { if (rel > 0 && p->bus_clk_hz < hz) continue; if (rel < 0 && p->bus_clk_hz > hz) continue; d = fabs(p->bus_clk_hz-hz); if (!best || d < best_d) { best = p; best_d = d; } } if (!best) return 0; *res = *best; free((void *) clks); return 1; } /* ----- DMA the pattern --------------------------------------------------- */ static uint32_t old_dmac; static void dma_stop(void) { DCS(DMA) = (1 << 3) | (1 << 2); /* halt DMA channel */ DCS(DMA) = 0; /* reset DMA channel */ } static void dma_init(void) { old_dmac = DMAC; DMAC = 1; /* activate the DMA controller (in case it's off) */ dma_stop(); DCM(DMA) = (1 << 23) | /* source address increment */ (4 << 8); /* transfer size is 32 bytes */ DRT(DMA) = 26; /* MSC transmit-fifo-empty transfer request */ } static void dma_cleanup(void) { DMAC = old_dmac; dma_stop(); } static void dma_setup(unsigned long buf, int nibbles) { assert(!(nibbles & 63)); DCS(DMA) = 1 << 31; /* no-descriptor transfer */ DSA(DMA) = buf; /* source */ DTA(DMA) = REG_PADDR(MSC_TXFIFO); /* MUST set this each time */ DTC(DMA) = nibbles >> 6; /* 32 bytes per transfer */ } static void wait_dma_done(void) { while (!((DCS(DMA) >> 3) & 1)); /* DCS.TT */ } static void wait_response(void) { while (!((MSC_STAT >> 11 ) & 1)); /* MSC_STAT.END_CMD_RES */ } static void wait_fifo_empty(void) { while (!((MSC_STAT >> 6 ) & 1)); /* MSC_STAT.DATA_FIFO_EMPTY */ } static void wait_shifted(const struct mmcclk *clk) { /* 8 nibbles */ double us = 8*1000000.0/clk->bus_clk_hz; usleep((int) us+1); } static void mmc_buffer(const struct mmcclk *clk, uint8_t first, unsigned long buf, int nibbles, uint32_t mask) { /* * If under control of the MMC controller, DATx tri-state until we * actually send data. That's why they have been set up as GPIOs and * we'll only switch them to function when the MMC controller is in a * well-defined state. */ MSC_STRPCL = 1 << 3; /* reset the MSC */ while (MSC_STAT & (1 << 15)); /* wait until reset finishes */ dma_setup(buf, nibbles); MSC_CLKRT = clk->clkrt; /* cleared by MSC reset */ MSC_STRPCL = 2; /* start the bus clock */ MSC_RESTO = 0xffff; /* maximum response time-out */ MSC_BLKLEN = 0xfff; /* never reach the end (with CRC) */ MSC_CMDAT = (2 << 9) | /* 4 bit bus */ (1 << 8) | /* DMA */ (1 << 4) | /* write */ (1 << 3) | /* with data transfer */ 1; /* R1 response */ MSC_STRPCL = 4; /* START_OP */ /* * Make sure we've reached the end of the command and then send the * first pattern (eight times, since this is the smallest amount we * can send. */ wait_response(); MSC_TXFIFO = first*0x11111111; wait_fifo_empty(); wait_shifted(clk); /* * Since the transfer (of nominally 4095 bytes) is not done yet, the * MMC controller will hold the bus at the last value sent. It's now * safe to switch from GPIO to function. */ PDFUNS = mask; /* * Send the pattern with DMA. Note that we still have to send the first * pattern, since the static state we begin from may not have been * present long enough. */ DCS(DMA) = (1 << 31) | /* no descriptor */ 1; /* enable transfer */ wait_dma_done(); wait_fifo_empty(); wait_shifted(clk); /* * We're done. As far as the MMC controller is concerned, the transfer * is still not finished (i.e., we haven't sent 4095 bytes) and will * therefore just hold the bus. We can now return the bus to GPIO. * This form of handover also prevents the MMC controller from sending * a CRC, which may confuse the recipient of the pattern. */ } static void send_buffer(const struct mmcclk *clk, const uint8_t *buf, int nibbles, uint32_t mask) { unsigned long phys; if (cacheflush((void *) buf, nibbles >> 1, DCACHE)) { perror("cacheflush"); exit(1); } asm("sync"); /* flush the write buffer */ phys = physmem_xlat((void *) buf); mmc_buffer(clk, buf[0] >> 4, phys, nibbles, mask); } static void *parse_pattern(const char *s, int *nibbles) { uint8_t *buf = physmem_malloc(4095); /* maximum block size */ int n = 0; uint8_t v = 0; char *end; unsigned long i; memset(buf, 0, 4095); while (*s) { char ch[2] = { *s, 0 }; v = strtoul(ch, &end, 16); if (*end) { fprintf(stderr, "\"%c\" is not a hex digit\n", *s); exit(1); } if (s[1] == '{') { i = strtoul(s+2, &end, 0); if (!*end) { fprintf(stderr, "unterminated range\n"); exit(1); } if (*end != '}' || end == s+2) { fprintf(stderr, "invalid range \"%.*s\"\n", end-s, s+1); exit(1); } s = end+1; } else { i = 1; s++; } while (i) { if (n == 8192-64-1) { fprintf(stderr, "pattern is too long\n"); exit(1); } buf[n >> 1] |= v << 4*(~n & 1); n++; i--; } } /* pad to multiples of 32 bytes */ while (n & 63) { buf[n >> 1] |= v << 4*(~n & 1); n++; } *nibbles = n; return buf; } static void dma_pattern(const struct mmcclk *clk, const char *pattern, uint32_t mask) { const uint8_t *buf; int n; if (!*pattern) { fprintf(stderr, "pattern is empty\n"); exit(1); } buf = parse_pattern(pattern, &n); dma_init(); /* Initial static state: the first pattern. */ PDFUNS = UBB_CMD; PDDATC = ~((buf[0] >> 4) << 10) & mask; PDDATS = (buf[0] >> 4) << 10; PDDIRS = mask; send_buffer(clk, buf, n, mask); /* Final static state: the last pattern. */ PDDATC = ~((buf[(n >> 1)-1] & 0xf) << 10) & mask; PDDATS = (buf[(n >> 1)-1] & 0xf) << 10; PDFUNC = mask; dma_cleanup(); } /* ----- Command-line processing ------------------------------------------- */ static int frequency(const char *s, int *hz, int *rel) { char *end; double f; f = strtod(s, &end); switch (*end) { case 'M': case 'm': *hz = f*1000000; end++; break; case 'K': case 'k': *hz = f*1000; end++; break; default: *hz = f; break; } if ((end[0] == 'H' || end[0] == 'h') && (end[1] == 'Z' || end[1] == 'z')) end += 2; switch (*end) { case '+': *rel = 1; end++; break; case '-': *rel = -1; end++; break; default: *rel = 0; break; } return !*end; } static void usage(const char *name) { fprintf(stderr, "usage: %s\n" "usage: %s [-b freq_hz] [-f freq_hz] [-c] [-q] [pattern] active_s\n\n" " -b freq_hz set bus clock to the specified frequency (default: 1 MHz)\n" " -c output bus clock on CLK\n" " -f freq_hz set pattern rate (default: same as bus clock)\n" " -q quiet. Don't report clock differences.\n\n" " active_s keep running that many seconds after setting the clock\n" " pattern send the specified pattern on DAT0 through DAT3\n\n" "Frequency: the frequency in Hz, optionally followed by \"M\" or \"k\",\n" " optionally followed by \"Hz\", optionally followed by \"+\" or \"-\".\n" " \"+\" selects a frequency >= the specified one, \"-\" one <=.\n" " Without +/-, the closest available frequency is selected.\n" "Pattern: hex digits corresponding to 1 for DAT0, 2 for DAT1, etc.\n" " {n} repeats the preceding digit n times, e.g., 1{3} is equivalent to 111.\n" , name, name); exit(1); } int main(int argc, char **argv) { struct mmcclk clk; int bus_hz = 0, clkout = 0, bus_rel = 0; int pattern_hz = 0, pattern_rel = 0; const char *pattern = NULL; int quiet = 0; double active_s; struct timespec active_ns; char *end; int c; while ((c = getopt(argc, argv, "b:cq")) != EOF) switch (c) { case 'b': if (!frequency(optarg, &bus_hz, &bus_rel)) usage(*argv); break; case 'f': if (!frequency(optarg, &pattern_hz, &pattern_rel)) usage(*argv); break; case 'c': clkout = 1; break; case 'q': quiet = 1; break; default: usage(*argv); } switch (argc-optind) { case 0: if (clkout || quiet) usage(*argv); ubb_open(UBB_ALL); show_frequencies(); return 1; case 2: pattern = argv[optind]; /* fall through */ case 1: active_s = strtod(argv[argc-1], &end); if (*end) usage(*argv); active_ns.tv_sec = (int) active_s; active_ns.tv_nsec = (active_s-(int) active_s)*1e9; break; default: usage(*argv); } ubb_open(UBB_ALL); PDFUNS = UBB_CMD; if (!bus_hz) bus_hz = 1000000; if (!select_freq(&clk, bus_hz, bus_rel)) { fprintf(stderr, "no suitable frequency found\n"); exit(1); } if (clk.bus_clk_hz != bus_hz && !quiet) { double err; fprintf(stderr, "bus clk = "); print_freq(stderr, clk.bus_clk_hz); err = (clk.bus_clk_hz-bus_hz)/bus_hz; if (err <= -0.0001 || err >= 0.0001) fprintf(stderr, " (%+.2g%%)\n", err*100); else fprintf(stderr, " (%+d ppm)\n", (int) (err*1000000)); } if (clkout) PDFUNS = UBB_CLK; mmcclk_start(&clk); if (pattern) dma_pattern(&clk, pattern, UBB_DAT0 | UBB_DAT1 | UBB_DAT2 | UBB_DAT3); if (nanosleep(&active_ns, NULL)) perror("nanosleep"); mmcclk_stop(); ubb_close(UBB_DAT0 | UBB_DAT1 | UBB_DAT2 | UBB_DAT3); return 0; }