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view spandsp-0.0.6pre17/tests/t38_non_ecm_buffer_tests.c @ 4:26cd8f1ef0b1
import spandsp-0.0.6pre17
| author | Peter Meerwald <pmeerw@cosy.sbg.ac.at> |
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| date | Fri, 25 Jun 2010 15:50:58 +0200 |
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/* * SpanDSP - a series of DSP components for telephony * * t38_non_ecm_buffer_tests.c - Tests for the T.38 non-ECM image data buffer module. * * Written by Steve Underwood <steveu@coppice.org> * * Copyright (C) 2008 Steve Underwood * * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2, as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * $Id: t38_non_ecm_buffer_tests.c,v 1.5.4.1 2009/12/19 06:43:28 steveu Exp $ */ /*! \file */ /*! \page t38_non_ecm_buffer_tests_page T.38 non-ECM buffer tests \section t38_non_ecm_buffer_tests_page_sec_1 What does it do? These tests exercise the flow controlling non-ECM image data buffer module, used for T.38 gateways. */ #if defined(HAVE_CONFIG_H) #include <config.h> #endif #include <stdlib.h> #include <stdio.h> #include <fcntl.h> #include <string.h> #include <assert.h> #include <errno.h> //#if defined(WITH_SPANDSP_INTERNALS) #define SPANDSP_EXPOSE_INTERNAL_STRUCTURES //#endif #include "spandsp.h" /* A pattern of widening gaps between ones, until at 11 apart an EOL should be registered */ static const uint8_t spreader[] = { 0x55, 0x55, 0x55, 0x55, 0x55, 0x55, 0x55, 0x55, /* 1 apart */ 0x22, /* 2 and 3 apart */ 0x10, /* 4 apart */ 0x40, /* 5 apart */ 0x80, /* 6 apart */ 0x80, /* 7 apart */ 0x40, /* 8 apart */ 0x10, /* 9 apart */ 0x02, /* 10 apart */ 0x00, 0x25 /* 11 apart */ }; static int bit_no; static int xxx(t38_non_ecm_buffer_state_t *s, logging_state_t *l, int log_bits, int n, int expected) { int i; int j; int bit; t38_non_ecm_buffer_inject(s, &spreader[n], 1); if (expected >= 0) { for (i = 0; i < 128; i++) { bit = t38_non_ecm_buffer_get_bit((void *) s); if (log_bits) printf("Rx bit %d - %d\n", bit_no, bit); if (bit != expected) { printf("Tests failed - %d %d %d\n", bit_no, bit, expected); exit(2); } bit_no++; } } else { j = -1; for (i = 0; i < 256; i++) { bit = t38_non_ecm_buffer_get_bit((void *) s); if (log_bits) printf("Rx bit %d - %d\n", bit_no, bit); if (j < 0) { if (bit == 1) j = 18*8 - 5; } else { expected = (spreader[j >> 3] >> (7 - (j & 7))) & 1; if (bit != expected) { printf("Tests failed - %d %d %d\n", bit_no, bit, expected); exit(2); } j++; if (j >= 18*8) j = 0; } bit_no++; if (j == 17*8) return 0; } } return 0; } /*- End of function --------------------------------------------------------*/ int main(int argc, char *argv[]) { t38_non_ecm_buffer_state_t buffer; logging_state_t logging; uint8_t buf[1024]; int bit; int n; int log_bits; int i; log_bits = (argc > 1); printf("T.38 non-ECM rate adapting buffer tests.\n"); span_log_init(&logging, SPAN_LOG_FLOW, NULL); span_log_set_protocol(&logging, "Buffer"); printf("1 - Impose no minimum for the bits per row\n"); t38_non_ecm_buffer_init(&buffer, TRUE, 0); n = 0; bit_no = 0; /* We should get ones until the buffers recognises an EOL */ printf(" We should get ones here\n"); for (i = 0; i < 17; i++) xxx(&buffer, &logging, log_bits, i, 1); printf(" We should change to zeros here\n"); xxx(&buffer, &logging, log_bits, i, 0); for (i = 0; i < 17; i++) xxx(&buffer, &logging, log_bits, i, 0); printf(" We should get the first row here\n"); xxx(&buffer, &logging, log_bits, i, -1); for (i = 0; i < 17; i++) xxx(&buffer, &logging, log_bits, i, 0); printf(" We should get the second row here\n"); xxx(&buffer, &logging, log_bits, i, -1); for (i = 0; i < 17; i++) xxx(&buffer, &logging, log_bits, i, 0); printf(" We should get the third row here\n"); xxx(&buffer, &logging, log_bits, i, -1); printf(" Done\n"); t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("2 - Impose no minimum for the bits per row, different alignment\n"); t38_non_ecm_buffer_init(&buffer, TRUE, 0); n = 0; memset(buf, 0, sizeof(buf)); /* The first one in this should be seen as the first EOL */ memset(buf + 10, 0x55, 10); /* EOL 2 */ buf[25] = 0x20; /* EOL 3 */ memset(buf + 30, 0x55, 10); /* EOL 4 */ buf[45] = 0x10; t38_non_ecm_buffer_inject(&buffer, buf, 50); t38_non_ecm_buffer_push(&buffer); for (;;) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n, bit); n++; if (bit == SIG_STATUS_END_OF_DATA) { if (n != 337) { printf("Tests failed\n"); exit(2); } break; } if (n >= 18 && n <= 96) { if (bit == (n & 1)) { printf("Tests failed\n"); exit(2); } } else if (n >= 178 && n <= 256) { if (bit == (n & 1)) { printf("Tests failed\n"); exit(2); } } else if (n == 139 || n == 300) { if (bit != 1) { printf("Tests failed\n"); exit(2); } } else { if (bit != 0) { printf("Tests failed\n"); exit(2); } } } t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("3 - Demand a fairly high minimum for the bits per row\n"); t38_non_ecm_buffer_init(&buffer, TRUE, 400); n = 0; memset(buf, 0, sizeof(buf)); /* The first one in this should be seen as the first EOL */ memset(buf + 10, 0x55, 10); /* EOL 2 */ buf[25] = 0x08; /* EOL 3 */ memset(buf + 30, 0x55, 10); /* EOL 4 */ buf[45] = 0x04; t38_non_ecm_buffer_inject(&buffer, buf, 50); t38_non_ecm_buffer_push(&buffer); for (;;) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n, bit); n++; if (bit == SIG_STATUS_END_OF_DATA) { if (n != 1273) { printf("Tests failed\n"); exit(2); } break; } if (n >= 18 && n <= 96) { if (bit == (n & 1)) { printf("Tests failed\n"); exit(2); } } else if (n >= 834 && n <= 912) { if (bit == (n & 1)) { printf("Tests failed\n"); exit(2); } } else if (n == 429 || n == 1238) { if (bit != 1) { printf("Tests failed\n"); exit(2); } } else { if (bit != 0) { printf("Tests failed\n"); exit(2); } } } t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("4 - Take some time to get to the first row of the image, output ahead\n"); t38_non_ecm_buffer_init(&buffer, TRUE, 400); n = 0; /* Get some initial bits from an empty buffer. These should be ones */ for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 1) { printf("Tests failed\n"); exit(2); } } printf(" Initial ones OK\n"); /* Now put some zeros into the buffer, but no EOL. We should continue getting ones out. */ memset(buf, 0, sizeof(buf)); t38_non_ecm_buffer_inject(&buffer, buf, 20); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 1) { printf("Tests failed\n"); exit(2); } } printf(" Continuing initial ones OK\n"); /* Now add a one, to make an EOL. We should see the zeros come out. */ buf[0] = 0x01; t38_non_ecm_buffer_inject(&buffer, buf, 1); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 0) { printf("Tests failed\n"); exit(2); } } printf(" First EOL caused zeros to output OK\n"); /* Now add another line. We should see the first line come out. This means just the 23rd bit from now will be a one. */ buf[0] = 0x00; buf[4] = 0x01; t38_non_ecm_buffer_inject(&buffer, buf, 5); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if ((i == 23 && bit == 0) || (i != 23 && bit != 0)) { printf("Tests failed (%d)\n", i); exit(2); } } printf(" Second EOL caused the first row to output OK\n"); /* Now inject an RTC - 6 EOLs */ memset(buf, 0, sizeof(buf)); /* T.4 1D style */ for (i = 10; i < 19; i += 3) { buf[i] = 0x00; buf[i + 1] = 0x10; buf[i + 2] = 0x01; } /* T.4 2D style */ buf[25 + 0] = 0x00; buf[25 + 1] = 0x18; buf[25 + 2] = 0x00; buf[25 + 3] = 0xC0; buf[25 + 4] = 0x06; buf[25 + 5] = 0x00; buf[25 + 6] = 0x30; buf[25 + 7] = 0x01; buf[25 + 8] = 0x80; buf[25 + 9] = 0x0C; t38_non_ecm_buffer_inject(&buffer, buf, 50); t38_non_ecm_buffer_push(&buffer); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (i == 7 || i == 400 + 11 + 0*12 || i == 400 + 11 + 1*12 || i == 400 + 11 + 2*12 || i == 400 + 11 + 3*12 || i == 400 + 11 + 4*12 || i == 400 + 11 + 5*12 || i == 400 + 11 + 60 + 400 + 4 + 0*13 || i == 400 + 11 + 60 + 400 + 4 + 0*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 1*13 || i == 400 + 11 + 60 + 400 + 4 + 1*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 2*13 || i == 400 + 11 + 60 + 400 + 4 + 2*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 3*13 || i == 400 + 11 + 60 + 400 + 4 + 3*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 4*13 || i == 400 + 11 + 60 + 400 + 4 + 4*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 5*13 || i == 400 + 11 + 60 + 400 + 4 + 5*13 + 1) { if (bit == 0) { printf("Tests failed (%d)\n", i); exit(2); } } else { if (bit == 1) { printf("Tests failed (%d)\n", i); exit(2); } } } printf(" RTC output OK\n"); t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("5 - Take some time to get to the first row of the image, output behind\n"); t38_non_ecm_buffer_init(&buffer, TRUE, 400); n = 0; /* Inject some ones. */ memset(buf, 0xFF, 100); t38_non_ecm_buffer_inject(&buffer, buf, 100); /* Inject some zeros */ memset(buf, 0, sizeof(buf)); t38_non_ecm_buffer_inject(&buffer, buf, 100); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 1) { printf("Tests failed\n"); exit(2); } } printf(" Initial ones OK\n"); /* Now add a one, to make an EOL. We should see the zeros come out. */ buf[0] = 0x01; t38_non_ecm_buffer_inject(&buffer, buf, 1); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 0) { printf("Tests failed\n"); exit(2); } } printf(" First EOL caused zeros to output OK\n"); /* Now add another line. We should see the first line come out. This means just the 23rd bit from now will be a one. */ buf[0] = 0x00; buf[4] = 0x01; t38_non_ecm_buffer_inject(&buffer, buf, 5); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if ((i == 23 && bit == 0) || (i != 23 && bit != 0)) { printf("Tests failed (%d)\n", i); exit(2); } } printf(" Second EOL caused the first row to output OK\n"); /* Now inject an RTC - 6 EOLs */ memset(buf, 0, sizeof(buf)); /* T.4 1D style */ for (i = 10; i < 19; i += 3) { buf[i] = 0x00; buf[i + 1] = 0x10; buf[i + 2] = 0x01; } /* T.4 2D style */ buf[25 + 0] = 0x00; buf[25 + 1] = 0x18; buf[25 + 2] = 0x00; buf[25 + 3] = 0xC0; buf[25 + 4] = 0x06; buf[25 + 5] = 0x00; buf[25 + 6] = 0x30; buf[25 + 7] = 0x01; buf[25 + 8] = 0x80; buf[25 + 9] = 0x0C; t38_non_ecm_buffer_inject(&buffer, buf, 50); t38_non_ecm_buffer_push(&buffer); for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (i == 7 || i == 400 + 11 + 0*12 || i == 400 + 11 + 1*12 || i == 400 + 11 + 2*12 || i == 400 + 11 + 3*12 || i == 400 + 11 + 4*12 || i == 400 + 11 + 5*12 || i == 400 + 11 + 60 + 400 + 4 + 0*13 || i == 400 + 11 + 60 + 400 + 4 + 0*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 1*13 || i == 400 + 11 + 60 + 400 + 4 + 1*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 2*13 || i == 400 + 11 + 60 + 400 + 4 + 2*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 3*13 || i == 400 + 11 + 60 + 400 + 4 + 3*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 4*13 || i == 400 + 11 + 60 + 400 + 4 + 4*13 + 1 || i == 400 + 11 + 60 + 400 + 4 + 5*13 || i == 400 + 11 + 60 + 400 + 4 + 5*13 + 1) { if (bit == 0) { printf("Tests failed (%d)\n", i); exit(2); } } else { if (bit == 1) { printf("Tests failed (%d)\n", i); exit(2); } } } printf(" RTC output OK\n"); t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("6 - TCF without leading ones\n"); t38_non_ecm_buffer_init(&buffer, FALSE, 400); n = 0; /* Get some initial bits from an empty buffer. These should be ones */ for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 1) { printf("Tests failed\n"); exit(2); } } printf(" Initial ones from an empty TCF buffer OK\n"); /* Now send some TCF through, and see that it comes out */ memset(buf, 0x00, sizeof(buf)); t38_non_ecm_buffer_inject(&buffer, buf, 500); t38_non_ecm_buffer_push(&buffer); for (i = 0; i < 500*8; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 0) { printf("Tests failed\n"); exit(2); } } printf(" Passthrough of TCF OK\n"); /* Check the right number of bits was buffered */ bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != SIG_STATUS_END_OF_DATA) { printf("Tests failed\n"); exit(2); } printf(" End of data seen OK\n"); t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("7 - TCF with leading ones\n"); t38_non_ecm_buffer_init(&buffer, FALSE, 400); n = 0; /* Get some initial bits from an empty buffer. These should be ones */ for (i = 0; i < 1000; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 1) { printf("Tests failed\n"); exit(2); } } printf(" Initial ones from an empty TCF buffer OK\n"); /* Now send some initial ones, and see that we continue to get all ones as the stuffing. */ memset(buf, 0xFF, 500); t38_non_ecm_buffer_inject(&buffer, buf, 500); for (i = 0; i < 500*8; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != 1) { printf("Tests failed\n"); exit(2); } } printf(" Sustaining ones OK\n"); /* Now send some initial ones, and some TCF through, and see that only the TCF comes out */ memset(buf, 0x00, sizeof(buf)); memset(buf, 0xFF, 100); /* End the ones mid byte */ buf[100] = 0xF0; t38_non_ecm_buffer_inject(&buffer, buf, 500); t38_non_ecm_buffer_push(&buffer); for (i = 0; i < 400*8; i++) { bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if ((i < 4 && bit == 0) || (i >= 4 && bit != 0)) { printf("Tests failed\n"); exit(2); } } printf(" Passthrough of TCF OK\n"); /* Check the right number of bits was buffered */ bit = t38_non_ecm_buffer_get_bit((void *) &buffer); if (log_bits) printf("Rx bit %d - %d\n", n++, bit); if (bit != SIG_STATUS_END_OF_DATA) { printf("Tests failed\n"); exit(2); } printf(" End of data seen OK\n"); t38_non_ecm_buffer_report_input_status(&buffer, &logging); t38_non_ecm_buffer_report_output_status(&buffer, &logging); printf("Tests passed\n"); return 0; } /*- End of function --------------------------------------------------------*/ /*- End of file ------------------------------------------------------------*/