/* * SPDX-License-Identifier: GPL-2.0-or-later * Copyright (c) 2013 Free Software Foundation, Inc. * Copyright (c) 2023, 2026 Leah Rowe * * This program receives text encoded as pulses on the PC speaker, * and decodes them. This is a special type of interface provided * by coreboot and GRUB, for computers that lack serial ports. * * Usage example: * parec --channels=1 --rate=48000 --format=s16le | ./spkmodem-recv * * Originally provided by GNU GRUB, this version is a heavily * modified fork that complies with the OpenBSD Kernel Source * File Style Guide (KNF) instead of GNU coding standards; it * emphasises strict error handling, portability and code * quality, as characterised by OpenBSD projects. * * This fork of spkmodem-recv is provided with Libreboot releases: * https://libreboot.org/ */ #define _POSIX_SOURCE /* * For OpenBSD define, to detect version * for deciding whether to use pledge(2) */ #ifdef __OpenBSD__ #include #endif #include #include #include #include #include #include #define SAMPLES_PER_FRAME 240 #define MAX_SAMPLES (2 * SAMPLES_PER_FRAME) #define FREQ_SEP_MIN 5 #define FREQ_SEP_MAX 15 #define FREQ_DATA_MIN 15 #define FREQ_DATA_THRESHOLD 25 #define FREQ_DATA_MAX 60 #define THRESHOLD 500 #define READ_BUF 4096 struct decoder_state { signed short frame[MAX_SAMPLES]; unsigned char pulse[MAX_SAMPLES]; signed short inbuf[READ_BUF]; size_t inpos; size_t inlen; int ringpos; int sep_pos; /* * Sliding window pulse counters * used to detect modem tones */ int freq_data; int freq_separator; int sample_count; int ascii_bit; unsigned char ascii; int debug; }; static const char *argv0; static void handle_audio(struct decoder_state *st); static int valid_signal(struct decoder_state *st); static void decode_pulse(struct decoder_state *st); static signed short read_sample(struct decoder_state *st); static int set_ascii_bit(struct decoder_state *st); static void print_char(struct decoder_state *st); static void print_stats(struct decoder_state *st); static void reset_char(struct decoder_state *st); static void err(int errval, const char *msg, ...); static void usage(void); static const char *progname(void); int getopt(int, char * const *, const char *); extern char *optarg; extern int optind; extern int opterr; extern int optopt; #ifndef errno extern int errno; #endif int main(int argc, char **argv) { struct decoder_state st; int c; #if defined (__OpenBSD__) && defined(OpenBSD) #if OpenBSD >= 509 if (pledge("stdio", NULL) == -1) err(errno, "pledge"); #endif #endif memset(&st, 0, sizeof(st)); st.ascii_bit = 7; st.ringpos = 0; st.sep_pos = SAMPLES_PER_FRAME; argv0 = argv[0]; while ((c = getopt(argc, argv, "d")) != -1) { if (c != 'd') usage(); st.debug = 1; break; } setvbuf(stdout, NULL, _IONBF, 0); for (;;) handle_audio(&st); return EXIT_SUCCESS; } static void handle_audio(struct decoder_state *st) { int sample; if (st->sample_count > (3 * SAMPLES_PER_FRAME)) reset_char(st); if (!valid_signal(st)) { decode_pulse(st); return; } if (set_ascii_bit(st) < 0) print_char(st); st->sample_count = 0; for (sample = 0; sample < SAMPLES_PER_FRAME; sample++) decode_pulse(st); } static int valid_signal(struct decoder_state *st) { return (st->freq_separator > FREQ_SEP_MIN && st->freq_separator < FREQ_SEP_MAX && st->freq_data > FREQ_DATA_MIN && st->freq_data < FREQ_DATA_MAX); } static void decode_pulse(struct decoder_state *st) { unsigned char old_ring, old_sep; unsigned char new_pulse; old_ring = st->pulse[st->ringpos]; old_sep = st->pulse[st->sep_pos]; st->freq_data -= old_ring; st->freq_data += old_sep; st->freq_separator -= old_sep; st->frame[st->ringpos] = read_sample(st); if ((unsigned)(st->frame[st->ringpos] + THRESHOLD) > (unsigned)(2 * THRESHOLD)) new_pulse = 1; else new_pulse = 0; st->pulse[st->ringpos] = new_pulse; st->freq_separator += new_pulse; st->ringpos++; if (st->ringpos >= MAX_SAMPLES) st->ringpos = 0; st->sep_pos++; if (st->sep_pos >= MAX_SAMPLES) st->sep_pos = 0; st->sample_count++; } static signed short read_sample(struct decoder_state *st) { size_t n; while (st->inpos >= st->inlen) { n = fread(st->inbuf, sizeof(st->inbuf[0]), READ_BUF, stdin); if (n == 0) { if (feof(stdin)) exit(EXIT_SUCCESS); err(errno, "stdin read"); } st->inpos = 0; st->inlen = n; } return st->inbuf[st->inpos++]; } static int set_ascii_bit(struct decoder_state *st) { if (st->debug) print_stats(st); if (st->freq_data < FREQ_DATA_THRESHOLD) st->ascii |= (1 << st->ascii_bit); st->ascii_bit--; return st->ascii_bit; } static void print_char(struct decoder_state *st) { if (st->debug) printf("<%c,%x>", st->ascii, st->ascii); else putchar(st->ascii); reset_char(st); } static void print_stats(struct decoder_state *st) { long pos; if ((pos = ftell(stdin)) == -1) { printf("%d %d %d\n", st->freq_data, st->freq_separator, FREQ_DATA_THRESHOLD); return; } printf("%d %d %d @%ld\n", st->freq_data, st->freq_separator, FREQ_DATA_THRESHOLD, pos - sizeof(st->frame)); } static void reset_char(struct decoder_state *st) { st->ascii = 0; st->ascii_bit = 7; } static void err(int errval, const char *msg, ...) { va_list ap; fprintf(stderr, "%s: ", progname()); va_start(ap, msg); vfprintf(stderr, msg, ap); va_end(ap); fprintf(stderr, ": %s\n", strerror(errval)); exit(EXIT_FAILURE); } static void usage(void) { fprintf(stderr, "usage: %s [-d]\n", progname()); exit(EXIT_FAILURE); } static const char * progname(void) { const char *p; if (argv0 == NULL || *argv0 == '\0') return ""; p = strrchr(argv0, '/'); if (p) return p + 1; else return argv0; }