mirror of
https://codeberg.org/libreboot/lbmk.git
synced 2026-07-11 14:02:52 +02:00
78b71f867f
current logic is hardcoded, as in the original spkmodem-recv. with this change, small differences are observed and averaged, then the detection thresholds are adjusted accordingly. the existing macros serve as a baseline, but real signals differ. with this change, we therefore account for possible drift in timings, which can change in real-time; the old code could possibly get out of sync beccause of that, which may have resulted in corrupt characters on the screen. this change therefore should make the output a bit more stable. the detection window is continually adjusted, so that the output timings don't drift. the tolerances are automatically adjusted based on base timings (see new define in patch) Signed-off-by: Leah Rowe <leah@libreboot.org>
550 lines
13 KiB
C
550 lines
13 KiB
C
/*
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* SPDX-License-Identifier: GPL-2.0-or-later
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* Copyright (c) 2013 Free Software Foundation, Inc.
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* Copyright (c) 2023, 2026 Leah Rowe <leah@libreboot.org>
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*
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* This program receives text encoded as pulses on the PC speaker,
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* and decodes them via simple FSK (Frequency Shift Keying)
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* demodulation and FIR (Finite Impulse Response) frequency
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* discriminator.
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*
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* It waits for specific tones at specific intervals.
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* It detects tones within the audio stream and reconstructs
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* characters bit-by-bit as the encoded modem signal is received.
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* This is performance-efficient on most CPUs, and has relatively
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* high tolerance for noisy signals (similar to techniques used
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* for data stored on audio cassette tapes).
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*
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* This is a special interface provided by coreboot and GNU GRUB,
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* for computers that lack serial ports (useful for debugging).
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* Note that GRUB and coreboot can both send these signals; this
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* tool merely decodes them. This tool does not *encode*, only
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* decode.
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*
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* Usage example (NOTE: little endian!):
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* parec --channels=1 --rate=48000 --format=s16le | ./spkmodem-decode
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*
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* Originally provided by GNU GRUB, this version is a heavily
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* modified fork that complies with the OpenBSD Kernel Source
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* File Style Guide (KNF) instead of GNU coding standards; it
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* emphasises strict error handling, portability and code
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* quality, as characterised by OpenBSD projects. Several magic
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* numbers have been tidied up, calculated (not hardcoded) and
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* thoroughly explained, unlike in the original version.
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*
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* The original version was essentially a blob, masquerading as
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* source code. This forked source code is therefore the result
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* of extensive reverse engineering (of the GNU source code)!
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* This cleaned up code and extensive commenting will thoroughly
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* explain how the decoding works. This was done as an academic
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* exercise in 2023, continuing in 2026.
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*
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* This fork of spkmodem-recv, called spkmodem-decode, is provided
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* with Libreboot releases:
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* https://libreboot.org/
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*
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* The original GNU version is here, if you're morbidly curious:
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* https://cgit.git.savannah.gnu.org/cgit/grub.git/plain/util/spkmodem-recv.c?id=3dce38eb196f47bdf86ab028de74be40e13f19fd
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*
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* Libreboot's version was renamed to spkmodem-decode on 12 March 2026,
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* since Libreboot's version no longer closely resembles the GNU
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* version at all; ergo, a full rename was in order. GNU's version
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* was called spkmodem-recv.
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*/
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#define _POSIX_SOURCE
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/*
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* For OpenBSD define, to detect version
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* for deciding whether to use pledge(2)
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*/
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#ifdef __OpenBSD__
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#include <sys/param.h>
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#endif
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#include <errno.h>
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#include <stdio.h>
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#include <stdarg.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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/*
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* spkmodem is essentially using FSK (Frequency Shift Keying)
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* with two primary tones representing encoded bits,
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* separated by a framing tone.
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* Very cheap on CPU cycles and avoids needing something more
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* expensive like FFT or Goertzel filters, and tolerates
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* weak/noisy signals.
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*/
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/*
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* Frequency of audio in Hz
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*/
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#define SAMPLE_RATE 48000
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/*
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* One analysis frame spans 5 ms.
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*
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* frame_time = SAMPLES_PER_FRAME / SAMPLE_RATE
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*
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* With the default sample rate (48 kHz):
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*
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* frame_time = N / 48000
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* 0.005 s = N / 48000
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* N = 0.005 × 48000 = 240 samples
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*/
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#define SAMPLES_PER_FRAME 240
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/*
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* Number of analysis frames per second.
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*
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* Each increment in the frequency counters corresponds
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* roughly to this many Hertz of tone frequency.
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*
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* With the default values:
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* FRAME_RATE = 48000 / 240 = 200 Hz
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*/
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#define FRAME_RATE ((SAMPLE_RATE) / (SAMPLES_PER_FRAME))
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/*
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* Two FIR windows are maintained; one for data tone,
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* and one for the separator tone. They are positioned
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* one frame apart in the ring buffer.
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*/
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#define MAX_SAMPLES (2 * (SAMPLES_PER_FRAME))
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/*
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* Approx byte offset for ring buffer span, just for
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* easier debug output correlating to the audio stream.
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*/
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#define SAMPLE_OFFSET ((MAX_SAMPLES) * (sizeof(short)))
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/*
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* Expected tone ranges (approximate, derived from spkmodem).
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* These values are intentionally wide because real-world setups
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* often involve microphones, room acoustics, and cheap ADCs.
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*/
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#define SEP_TONE_MIN_HZ 1000
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#define SEP_TONE_MAX_HZ 3000
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#define SEP_TOLERANCE_PULSES \
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(((SEP_TONE_MAX_HZ) - (SEP_TONE_MIN_HZ)) / (2 * (FRAME_RATE)))
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#define DATA_TONE_MIN_HZ 3000
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#define DATA_TONE_MAX_HZ 12000
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/* Mid point used to distinguish the two data tones. */
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#define DATA_TONE_THRESHOLD_HZ 5000
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/*
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* Convert tone frequency ranges into pulse counts within the
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* sliding analysis window.
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*
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* pulse_count is: tone_frequency / FRAME_RATE
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* where FRAME_RATE = SAMPLE_RATE / SAMPLES_PER_FRAME.
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*/
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#define FREQ_SEP_MIN ((SEP_TONE_MIN_HZ) / (FRAME_RATE))
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#define FREQ_SEP_MAX ((SEP_TONE_MAX_HZ) / (FRAME_RATE))
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#define FREQ_DATA_MIN ((DATA_TONE_MIN_HZ) / (FRAME_RATE))
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#define FREQ_DATA_MAX ((DATA_TONE_MAX_HZ) / (FRAME_RATE))
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#define FREQ_DATA_THRESHOLD ((DATA_TONE_THRESHOLD_HZ) / (FRAME_RATE))
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/*
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* Sample amplitude threshold used to convert the waveform
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* into a pulse stream. Values near zero are regarded as noise.
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*/
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#define THRESHOLD 500
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#define READ_BUF 4096
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struct decoder_state {
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unsigned char pulse[MAX_SAMPLES];
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signed short inbuf[READ_BUF];
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size_t inpos;
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size_t inlen;
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int ringpos;
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int sep_pos;
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/*
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* Sliding window pulse counters
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* used to detect modem tones
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*/
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int freq_data;
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int freq_separator;
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int sample_count;
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int ascii_bit;
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unsigned char ascii;
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int debug;
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int swap_bytes;
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/* dynamic separator calibration */
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int sep_sum;
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int sep_samples;
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int sep_min;
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int sep_max;
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};
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static const char *argv0;
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static int host_is_big_endian(void);
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static void handle_audio(struct decoder_state *st);
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static int valid_signal(struct decoder_state *st);
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static void decode_pulse(struct decoder_state *st);
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static signed short read_sample(struct decoder_state *st);
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static int set_ascii_bit(struct decoder_state *st);
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static void print_char(struct decoder_state *st);
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static void print_stats(struct decoder_state *st);
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static void reset_char(struct decoder_state *st);
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static void err(int errval, const char *msg, ...);
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static void usage(void);
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static const char *progname(void);
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int getopt(int, char * const *, const char *);
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extern char *optarg;
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extern int optind;
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extern int opterr;
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extern int optopt;
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int
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main(int argc, char **argv)
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{
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struct decoder_state st;
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int c;
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argv0 = argv[0];
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#if defined (__OpenBSD__) && defined(OpenBSD)
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#if OpenBSD >= 509
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if (pledge("stdio", NULL) == -1)
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err(errno, "pledge");
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#endif
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#endif
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memset(&st, 0, sizeof(st));
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while ((c = getopt(argc, argv, "d")) != -1) {
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if (c != 'd')
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usage();
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st.debug = 1;
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break;
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}
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/*
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* Used for separator calibration
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*/
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st.sep_min = FREQ_SEP_MIN;
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st.sep_max = FREQ_SEP_MAX;
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st.ascii_bit = 7;
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st.ringpos = 0;
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st.sep_pos = SAMPLES_PER_FRAME;
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if (host_is_big_endian())
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st.swap_bytes = 1;
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setvbuf(stdout, NULL, _IONBF, 0);
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for (;;)
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handle_audio(&st);
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return EXIT_SUCCESS;
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}
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static int
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host_is_big_endian(void)
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{
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unsigned int x = 1;
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return (*(unsigned char *)&x == 0);
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}
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static void
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handle_audio(struct decoder_state *st)
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{
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int avg;
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int sample;
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/*
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* If the modem signal disappears for several frames,
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* discard the partially assembled character.
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*/
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if (st->sample_count >= (3 * SAMPLES_PER_FRAME))
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reset_char(st);
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if (!valid_signal(st)) {
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/*
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* collect separator tone statistics
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* (and auto-adjust tolerances)
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*/
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if (st->sep_samples < 50 && st->freq_separator > 0) {
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st->sep_sum += st->freq_separator;
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st->sep_samples++;
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if (st->sep_samples == 50) {
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avg = st->sep_sum / st->sep_samples;
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/* plus or minus 3 pulse window */
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st->sep_min = avg - SEP_TOLERANCE_PULSES;
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st->sep_max = avg + SEP_TOLERANCE_PULSES;
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if (st->debug)
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printf("separator calibrated: %dHz\n",
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avg * FRAME_RATE);
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}
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}
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decode_pulse(st);
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return;
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}
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if (set_ascii_bit(st) < 0)
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print_char(st);
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st->sample_count = 0;
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for (sample = 0; sample < SAMPLES_PER_FRAME; sample++)
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decode_pulse(st);
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}
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/*
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* Verify that the observed pulse densities fall within the
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* expected ranges for spkmodem tones. This prevents random noise
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* from being misinterpreted as data.
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*/
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static int
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valid_signal(struct decoder_state *st)
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{
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return (st->freq_separator > st->sep_min &&
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st->freq_separator < st->sep_max &&
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st->freq_data > FREQ_DATA_MIN &&
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st->freq_data < FREQ_DATA_MAX);
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}
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/*
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* Main demodulation step (moving-sum FIR filter).
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*/
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static void
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decode_pulse(struct decoder_state *st)
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{
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unsigned char old_ring, old_sep;
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unsigned char new_pulse;
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int ringpos;
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int sep_pos;
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signed short sample;
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ringpos = st->ringpos;
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sep_pos = st->sep_pos;
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/*
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* Sliding rectangular FIR (Finite Impulse Response) filter.
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*
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* After thresholding, the signal becomes a stream of 0/1 pulses.
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* The decoder measures pulse density over two windows:
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*
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* freq_data: pulses in the "data" window
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* freq_separator: pulses in the "separator" window
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*
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* Instead of calculating each window every time (O(N) per frame), we
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* update the window sums incrementally:
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*
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* sum_new = sum_old - pulse_leaving + pulse_entering
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*
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* This keeps the filter O(1) per sample instead of O(N).
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* The technique is equivalent to a rectangular FIR filter
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* implemented as a sliding moving sum.
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*
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* The two windows are exactly SAMPLES_PER_FRAME apart in the ring
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* buffer, so the pulse leaving the data window is simultaneously
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* entering the separator window.
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*/
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old_ring = st->pulse[ringpos];
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old_sep = st->pulse[sep_pos];
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st->freq_data -= old_ring;
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st->freq_data += old_sep;
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st->freq_separator -= old_sep;
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sample = read_sample(st);
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/*
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* Convert the waveform sample into a pulse (0 or 1).
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*
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* The unsigned comparison creates a small dead zone near zero,
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* suppressing small amplitude noise from microphones or
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* cheap ADCs. Real PC speaker tones are far outside this
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* range, so they still produce clean pulses.
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*/
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if ((unsigned)(sample + THRESHOLD)
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> (unsigned)(2 * THRESHOLD))
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new_pulse = 1;
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else
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new_pulse = 0;
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st->pulse[ringpos] = new_pulse;
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st->freq_separator += new_pulse;
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/*
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* Advance both FIR windows through the ring buffer.
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* The separator window always stays one frame ahead
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* of the data window.
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*/
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ringpos++;
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if (ringpos >= MAX_SAMPLES)
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ringpos = 0;
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sep_pos++;
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if (sep_pos >= MAX_SAMPLES)
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sep_pos = 0;
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st->ringpos = ringpos;
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st->sep_pos = sep_pos;
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st->sample_count++;
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}
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static signed short
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read_sample(struct decoder_state *st)
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{
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size_t n;
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signed short sample;
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unsigned short u;
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while (st->inpos >= st->inlen) {
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n = fread(st->inbuf, sizeof(st->inbuf[0]),
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READ_BUF, stdin);
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if (n == 0) {
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if (ferror(stdin))
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err(errno, "stdin read");
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if (feof(stdin))
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exit(EXIT_SUCCESS);
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}
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st->inpos = 0;
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st->inlen = n;
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}
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sample = st->inbuf[st->inpos++];
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if (st->swap_bytes) {
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u = (unsigned short)sample;
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u = (u >> 8) | (u << 8);
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sample = (signed short)u;
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}
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return sample;
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}
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/*
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* Each validated frame contributes one bit of modem data.
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* Bits are accumulated MSB-first into the ASCII byte.
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*/
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static int
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set_ascii_bit(struct decoder_state *st)
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{
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if (st->debug)
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print_stats(st);
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if (st->freq_data < FREQ_DATA_THRESHOLD)
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st->ascii |= (1 << st->ascii_bit);
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st->ascii_bit--;
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return st->ascii_bit;
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}
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static void
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print_char(struct decoder_state *st)
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{
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if (st->debug)
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printf("<%c,%x>", st->ascii, st->ascii);
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else
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putchar(st->ascii);
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reset_char(st);
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}
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static void
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print_stats(struct decoder_state *st)
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{
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long pos;
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int data_hz = st->freq_data * FRAME_RATE;
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int sep_hz = st->freq_separator * FRAME_RATE;
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int sep_hz_min = st->sep_min * FRAME_RATE;
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int sep_hz_max = st->sep_max * FRAME_RATE;
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if ((pos = ftell(stdin)) == -1) {
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printf("%d %d %d data=%dHz sep=%dHz(min %dHz %dHz)\n",
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st->freq_data,
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st->freq_separator,
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FREQ_DATA_THRESHOLD,
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data_hz,
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sep_hz,
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sep_hz_min,
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sep_hz_max);
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return;
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}
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printf("%d %d %d @%ld data=%dHz sep=%dHz(min %dHz %dHz)\n",
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st->freq_data,
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st->freq_separator,
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FREQ_DATA_THRESHOLD,
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pos - SAMPLE_OFFSET,
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data_hz,
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sep_hz,
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sep_hz_min,
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sep_hz_max);
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}
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static void
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reset_char(struct decoder_state *st)
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{
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st->ascii = 0;
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st->ascii_bit = 7;
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}
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static void
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err(int errval, const char *msg, ...)
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{
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va_list ap;
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fprintf(stderr, "%s: ", progname());
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va_start(ap, msg);
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vfprintf(stderr, msg, ap);
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va_end(ap);
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fprintf(stderr, ": %s\n", strerror(errval));
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exit(EXIT_FAILURE);
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}
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static void
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usage(void)
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{
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fprintf(stderr, "usage: %s [-d]\n", progname());
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exit(EXIT_FAILURE);
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}
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static const char *
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progname(void)
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{
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const char *p;
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if (argv0 == NULL || *argv0 == '\0')
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return "";
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p = strrchr(argv0, '/');
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if (p)
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return p + 1;
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else
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return argv0;
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}
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