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direwolf
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Merge branch 'dev' to master for release 1.6.

This commit is contained in:
wb2osz 2020-10-27 20:45:30 -04:00
parent a1e2d1c3a8 bfc708d014
commit 413855e791
306 changed files with 13398 additions and 6995 deletions
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4
.gitignore vendored
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@ -107,3 +107,7 @@ $RECYCLE.BIN/
*.lnk *.lnk
/use_this_sdk /use_this_sdk
*.dSYM *.dSYM
# cmake
build/
tmp/

61
CHANGES.md
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@ -2,6 +2,67 @@
# Revision History # # Revision History #
## Version 1.6 -- October 2020 ##
### New Build Procedure: ###
- Rather than trying to keep a bunch of different platform specific Makefiles in sync, "cmake" is now used for greater portability and easier maintenance.
- README.md has a quick summary of the process. More details in the ***User Guide***.
### New Features: ###
- "-X" option enables FX.25 transmission. FX.25 reception is always enabled so you don't need to do anything special. "What is FX.25?" you might ask. It is forward error correction (FEC) added in a way that is completely compatible with an ordinary AX.25 frame. See new document ***AX25\_plus\_FEC\_equals\_FX25.pdf*** for details.
- Receive AIS location data from ships. Enable by using "-B AIS" command line option or "MODEM AIS" in the configuration file. AIS NMEA sentences are encapsulated in APRS user-defined data with a "{DA" prefix. This uses 9600 bps so you need to use wide band audio, not what comes out of the speaker. There is also a "-A" option to generate APRS Object Reports.
- Receive Emergency Alert System (EAS) Specific Area Message Encoding (SAME). Enable by using "-B EAS" command line option or "MODEM EAS" in the configuration file. EAS SAME messages are encapsulated in APRS user-defined data with a "{DE" prefix. This uses low speed AFSK so speaker output is fine.
- "-t" option now accepts more values to accommodate inconsistent handling of text color control codes by different terminal emulators. The default, 1, should work with most modern terminal types. If the colors are not right, try "-t 9" to see the result of the different choices and pick the best one. If none of them look right, file a bug report and specify: operating system version (e.g. Raspbian Buster), terminal emulator type and version (e.g. LXTerminal 0.3.2). Include a screen capture.
- "-g" option to force G3RUH mode for lower speeds where a different modem type may be the default.
- 2400 bps compatibility with MFJ-2400. See ***2400-4800-PSK-for-APRS-Packet-Radio.pdf*** for details
- "atest -h" will display the frame in hexadecimal for closer inspection.
- Add support for Multi-GNSS NMEA sentences.
### Bugs Fixed: ###
- Proper counting of frames in transmit queue for AGW protocol 'Y' command.
### New Documentation: ###
- ***AX.25 + FEC = FX.25***
- ***AIS Reception***
- ***AX.25 Throughput: Why is 9600 bps Packet Radio only twice as fast as 1200?***
- [***Ham Radio of Things (HRoT) - IoT over Ham Radio***](https://github.com/wb2osz/hrot)
- [***EAS SAME to APRS Message Converter***](https://github.com/wb2osz/eas2aprs)
- [***Dire Wolf PowerPoint Slide Show***](https://github.com/wb2osz/direwolf-presentation)
### Notes: ###
The Windows binary distribution now uses gcc (MinGW) version 7.4.0.
The Windows version is built for both 32 and 64 bit operating systems.
Use the 64 bit version if possible; it runs considerably faster.
## Version 1.5 -- September 2018 ## ## Version 1.5 -- September 2018 ##

343
CMakeLists.txt Normal file
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@ -0,0 +1,343 @@
cmake_minimum_required(VERSION 3.1.0)
project(direwolf)
# configure version
set(direwolf_VERSION_MAJOR "1")
set(direwolf_VERSION_MINOR "6")
set(direwolf_VERSION_PATCH "0")
set(direwolf_VERSION_SUFFIX "")
# options
option(FORCE_SSE "Compile with SSE instruction only" OFF)
option(FORCE_SSSE3 "Compile with SSSE3 instruction only" OFF)
option(FORCE_SSE41 "Compile with SSE4.1 instruction only" OFF)
option(OPTIONAL_TEST "Compile optional test (might be broken)" OFF)
# UNITTEST option must be after CMAKE_BUILT_TYPE
# where cmake find custom modules
list(APPEND CMAKE_MODULE_PATH ${CMAKE_SOURCE_DIR}/cmake/modules)
# fix c standard used on the project
set(CMAKE_C_STANDARD 99)
# Set additional project information
set(COMPANY "wb2osz")
add_definitions("-DCOMPANY=\"${COMPANY}\"")
set(APPLICATION_NAME "Dire Wolf")
add_definitions("-DAPPLICATION_NAME=\"${APPLICATION_NAME}\"")
set(APPLICATION_MAINTAINER="John Langner, WB2OSZ")
set(COPYRIGHT "Copyright (c) 2019 John Langner, WB2OSZ. All rights reserved.")
add_definitions("-DCOPYRIGHT=\"${COPYRIGHT}\"")
set(IDENTIFIER "com.${COMPANY}.${APPLICATION_NAME}")
add_definitions("-DIDENTIFIER=\"${IDENTIFIER}\"")
# raspberry as only lxterminal not xterm
if(NOT (WIN32 OR CYGWIN))
find_program(BINARY_TERMINAL_BIN lxterminal)
if(BINARY_TERMINAL_BIN)
set(APPLICATION_DESKTOP_EXEC "${BINARY_TERMINAL_BIN} -e ${CMAKE_PROJECT_NAME}")
else()
set(APPLICATION_DESKTOP_EXEC "xterm -e ${CMAKE_PROJECT_NAME}")
endif()
endif()
find_package(Git)
if(GIT_FOUND AND EXISTS "${CMAKE_SOURCE_DIR}/.git/")
# we can also use `git describe --tags`
execute_process(COMMAND "${GIT_EXECUTABLE}" rev-parse --short HEAD
WORKING_DIRECTORY "${CMAKE_SOURCE_DIR}"
RESULT_VARIABLE res
OUTPUT_VARIABLE out
ERROR_QUIET
OUTPUT_STRIP_TRAILING_WHITESPACE)
if(NOT res)
string(REGEX REPLACE "^v([0-9]+)\.([0-9]+)\.([0-9]+)-" "" git_commit ${out})
set(direwolf_VERSION_SUFFIX "-${git_commit}")
set(direwolf_VERSION_COMMIT "${git_commit}")
endif()
endif()
# set variables
set(direwolf_VERSION "${direwolf_VERSION_MAJOR}.${direwolf_VERSION_MINOR}.${direwolf_VERSION_PATCH}${direwolf_VERSION_SUFFIX}")
message(STATUS "${APPLICATION_NAME} Version: ${direwolf_VERSION}")
add_definitions("-DIREWOLF_VERSION=\"${direwolf_VERSION}\"")
add_definitions("-DMAJOR_VERSION=${direwolf_VERSION_MAJOR}")
add_definitions("-DMINOR_VERSION=${direwolf_VERSION_MINOR}")
if(direwolf_VERSION_COMMIT)
add_definitions("-DEXTRA_VERSION=${direwolf_VERSION_COMMIT}")
endif()
set(CUSTOM_SRC_DIR "${CMAKE_SOURCE_DIR}/src")
set(CUSTOM_EXTERNAL_DIR "${CMAKE_SOURCE_DIR}/external")
set(CUSTOM_MISC_DIR "${CUSTOM_EXTERNAL_DIR}/misc")
set(CUSTOM_REGEX_DIR "${CUSTOM_EXTERNAL_DIR}/regex")
set(CUSTOM_GEOTRANZ_DIR "${CUSTOM_EXTERNAL_DIR}/geotranz")
set(CUSTOM_DATA_DIR "${CMAKE_SOURCE_DIR}/data")
set(CUSTOM_SCRIPTS_DIR "${CMAKE_SOURCE_DIR}/scripts")
set(CUSTOM_TELEMETRY_DIR "${CUSTOM_SCRIPTS_DIR}/telemetry-toolkit")
set(CUSTOM_CONF_DIR "${CMAKE_SOURCE_DIR}/conf")
set(CUSTOM_DOC_DIR "${CMAKE_SOURCE_DIR}/doc")
set(CUSTOM_MAN_DIR "${CMAKE_SOURCE_DIR}/man")
set(CUSTOM_TEST_DIR "${CMAKE_SOURCE_DIR}/test")
set(CUSTOM_TEST_SCRIPTS_DIR "${CUSTOM_TEST_DIR}/scripts")
set(CUSTOM_SHELL_SHABANG "#!/bin/sh -e")
# cpack variables
set(CPACK_GENERATOR "ZIP")
set(CPACK_STRIP_FILES true)
set(CPACK_PACKAGE_NAME "${CMAKE_PROJECT_NAME}")
# This has architecture of the build machine, not the target platform.
# e.g. Comes out as x86_64 when building for i686 target platform.
#set(CPACK_PACKAGE_FILE_NAME "${CMAKE_PROJECT_NAME}-${direwolf_VERSION}_${CMAKE_SYSTEM_PROCESSOR}")
# We don't know the target yet so this is set after FindCPUflags.
set(CPACK_PACKAGE_CONTACT "https://github.com/wb2osz/direwolf")
SET(CPACK_PACKAGE_DESCRIPTION_SUMMARY "Dire Wolf is an AX.25 soundcard TNC, digipeater, APRS IGate, GPS tracker, and APRStt gateway")
set(CPACK_PACKAGE_DESCRIPTION_FILE "${CMAKE_SOURCE_DIR}/README.md")
set(CPACK_RESOURCE_FILE_README "${CMAKE_SOURCE_DIR}/README.md")
set(CPACK_RESOURCE_FILE_LICENSE "${CMAKE_SOURCE_DIR}/LICENSE")
set(CPACK_SOURCE_IGNORE_FILES "${PROJECT_BINARY_DIR};/.git/;.gitignore;menu.yml;.travis.yml;.appveyor.yml;default.nix;.envrc;TODOs.org;/.scripts/")
SET(CPACK_PACKAGE_VERSION "${direwolf_VERSION}")
SET(CPACK_PACKAGE_VERSION_MAJOR "${direwolf_VERSION_MAJOR}")
SET(CPACK_PACKAGE_VERSION_MINOR "${direwolf_VERSION_MINOR}")
SET(CPACK_PACKAGE_VERSION_PATCH "${direwolf_VERSION_PATCH}")
SET(CPACK_DEBIAN_PACKAGE_DEPENDS "libasound2,libgps23")
# if we don't set build_type
if(NOT DEFINED CMAKE_BUILD_TYPE OR "${CMAKE_BUILD_TYPE}" STREQUAL "")
set(CMAKE_BUILD_TYPE Release CACHE STRING "Build type" FORCE)
endif()
message(STATUS "Build type set to: ${CMAKE_BUILD_TYPE}")
message("CMake system: ${CMAKE_SYSTEM_NAME}")
# Unittest should be on for dev builds and off for releases.
if(CMAKE_BUILD_TYPE MATCHES "Release")
option(UNITTEST "Build unittest binaries." OFF)
else()
option(UNITTEST "Build unittest binaries." ON)
endif()
# set compiler
include(FindCompiler)
# find cpu flags (and set compiler)
include(FindCPUflags)
if(${ARCHITECTURE} MATCHES "x86")
set(CPACK_PACKAGE_FILE_NAME "${CMAKE_PROJECT_NAME}-${direwolf_VERSION}_i686")
else()
set(CPACK_PACKAGE_FILE_NAME "${CMAKE_PROJECT_NAME}-${direwolf_VERSION}_${ARCHITECTURE}")
endif()
# auto include current directory
set(CMAKE_INCLUDE_CURRENT_DIR ON)
# set OS dependant variables
if(${CMAKE_SYSTEM_NAME} STREQUAL "Linux")
set(LINUX TRUE)
configure_file("${CMAKE_SOURCE_DIR}/cmake/cpack/${CMAKE_PROJECT_NAME}.desktop.in"
"${CMAKE_BINARY_DIR}/${CMAKE_PROJECT_NAME}.desktop" @ONLY)
elseif(${CMAKE_SYSTEM_NAME} STREQUAL "FreeBSD")
set(FREEBSD TRUE)
configure_file("${CMAKE_SOURCE_DIR}/cmake/cpack/${CMAKE_PROJECT_NAME}.desktop.in"
"${CMAKE_BINARY_DIR}/${CMAKE_PROJECT_NAME}.desktop" @ONLY)
elseif(APPLE)
if("${CMAKE_OSX_DEPLOYMENT_TARGET}" STREQUAL "")
message(STATUS "Build for macOS target: local version")
else()
message(STATUS "Build for macOS target: ${CMAKE_OSX_DEPLOYMENT_TARGET}")
endif()
# prepend path to find_*()
set(CMAKE_FIND_ROOT_PATH "/opt/local")
set(CMAKE_MACOSX_RPATH ON)
message(STATUS "RPATH support: ${CMAKE_MACOSX_RPATH}")
elseif (WIN32)
if(NOT VS2015 AND NOT VS2017)
message(FATAL_ERROR "You must use Microsoft Visual Studio 2015 or 2017 as compiler")
endif()
# compile with full multicore
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} /MP")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /MP")
set(CUSTOM_SHELL_BIN "")
endif()
if (C_CLANG OR C_GCC)
# _BSD_SOURCE is deprecated we need to use _DEFAULT_SOURCE.
#
# That works find for more modern compilers but we have issues with:
# Centos 7, gcc 4.8.5, glibc 2.17
# Centos 6, gcc 4.4.7, glibc 2.12
#
# CentOS 6 & 7: Without -D_BSD_SOURCE, we get Warning: Implicit declaration of
# functions alloca, cfmakeraw, scandir, setlinebuf, strcasecmp, strncasecmp, and strsep.
# When a function (like strsep) returns a pointer, the compiler instead assumes a 32 bit
# int and sign extends it out to be a 64 bit pointer. Use the pointer and Kaboom!
#
# CentOS 6: We have additional problem. Without -D_POSIX_C_SOURCE=199309L, we get
# implicit declaration of function clock_gettime and the linker can't find it.
#
# It turns out that -D_GNU_SOURCE can be used instead of both of those. For more information,
# see https://www.gnu.org/software/libc/manual/html_node/Feature-Test-Macros.html
#
# Why was this not an issue before? If gcc is used without the -std=c99 option,
# it is perfectly happy with clock_gettime, strsep, etc. but with the c99 option, it no longer
# recognizes a bunch of commonly used functions. Using _GNU_SOURCE, rather than _DEFAULT_SOURCE
# solves the problem for CentOS 6 & 7. This also makes -D_XOPEN_SOURCE= unnecessary.
# I hope it doesn't break with newer versions of glibc.
#
# I also took out -Wextra because it spews out so much noise a serious problem was not noticed.
# It might go back in someday when I have more patience to clean up all the warnings.
#
###set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Wall -Wextra -Wvla -ffast-math -ftree-vectorize -D_XOPEN_SOURCE=600 -D_DEFAULT_SOURCE ${EXTRA_FLAGS}")
if(FREEBSD)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Wall -Wextra -Wvla -ffast-math -ftree-vectorize -D_DEFAULT_SOURCE ${EXTRA_FLAGS}")
else()
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Wall -Wvla -ffast-math -ftree-vectorize -D_GNU_SOURCE ${EXTRA_FLAGS}")
endif()
#
#
# -lm is needed for functions in math.h
if (LINUX)
# We have another problem with CentOS 6. clock_gettime() is in librt so we need -lrt.
# The clock_* functions were moved into gnu libc for version 2.17.
# https://sourceware.org/ml/libc-announce/2012/msg00001.html
# If using gnu libc 2.17, or later, the -lrt is no longer needed but doesn't hurt.
# I'm making this conditional on LINUX because it is not needed for BSD and MacOSX.
link_libraries("-lrt -lm")
else()
link_libraries("-lm")
endif()
elseif (C_MSVC)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -W3 -MP ${EXTRA_FLAGS}")
endif()
if (C_CLANG)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -ferror-limit=1")
elseif (C_GCC)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fmax-errors=1")
endif()
# set installation directories
if (WIN32 OR CYGWIN)
set(INSTALL_BIN_DIR ".")
set(INSTALL_DOC_DIR "doc")
set(INSTALL_CONF_DIR ".")
set(INSTALL_SCRIPTS_DIR "scripts")
set(INSTALL_MAN_DIR "man")
set(INSTALL_DATA_DIR "data")
else()
set(INSTALL_BIN_DIR "bin")
set(INSTALL_DOC_DIR "share/doc/${CMAKE_PROJECT_NAME}")
set(INSTALL_CONF_DIR "${INSTALL_DOC_DIR}/conf")
set(INSTALL_SCRIPTS_DIR "${INSTALL_DOC_DIR}/scripts")
if(FREEBSD)
set(INSTALL_MAN_DIR "man/man1")
else()
set(INSTALL_MAN_DIR "share/man/man1")
endif()
set(INSTALL_DATA_DIR "share/${PROJECT_NAME}")
endif(WIN32 OR CYGWIN)
# requirements
set(THREADS_PREFER_PTHREAD_FLAG ON)
find_package(Threads REQUIRED)
find_package(GPSD)
if(GPSD_FOUND)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -DENABLE_GPSD")
else()
set(GPSD_INCLUDE_DIRS "")
set(GPSD_LIBRARIES "")
endif()
find_package(hamlib)
if(HAMLIB_FOUND)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -DUSE_HAMLIB")
else()
set(HAMLIB_INCLUDE_DIRS "")
set(HAMLIB_LIBRARIES "")
endif()
if(LINUX)
find_package(ALSA REQUIRED)
if(ALSA_FOUND)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -DUSE_ALSA")
endif()
find_package(udev)
if(UDEV_FOUND)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -DUSE_CM108")
endif()
elseif (NOT WIN32 AND NOT CYGWIN)
find_package(Portaudio REQUIRED)
if(PORTAUDIO_FOUND)
set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -DUSE_PORTAUDIO")
endif()
else()
set(ALSA_INCLUDE_DIRS "")
set(ALSA_LIBRARIES "")
set(UDEV_INCLUDE_DIRS "")
set(UDEV_LIBRARIES "")
set(PORTAUDIO_INCLUDE_DIRS "")
set(PORTAUDIO_LIBRARIES "")
endif()
# manage and fetch new data
add_subdirectory(data)
# external libraries
add_subdirectory(${CUSTOM_GEOTRANZ_DIR})
add_subdirectory(${CUSTOM_REGEX_DIR})
add_subdirectory(${CUSTOM_MISC_DIR})
# direwolf source code and utilities
add_subdirectory(src)
# ctest
if(UNITTEST)
message(STATUS "Build unit test binaries")
include(CTest)
enable_testing()
add_subdirectory(test)
endif(UNITTEST)
# manage scripts
add_subdirectory(scripts)
# manage config
add_subdirectory(conf)
# install basic docs
install(FILES ${CMAKE_SOURCE_DIR}/CHANGES.md DESTINATION ${INSTALL_DOC_DIR})
install(FILES ${CMAKE_SOURCE_DIR}/LICENSE DESTINATION ${INSTALL_DOC_DIR})
install(FILES ${CMAKE_SOURCE_DIR}/external/LICENSE DESTINATION ${INSTALL_DOC_DIR}/external)
add_subdirectory(doc)
add_subdirectory(man)
# install desktop link
if (LINUX OR FREEBSD)
install(FILES ${CMAKE_BINARY_DIR}/${CMAKE_PROJECT_NAME}.desktop DESTINATION share/applications)
install(FILES ${CMAKE_SOURCE_DIR}/cmake/cpack/${CMAKE_PROJECT_NAME}_icon.png DESTINATION share/pixmaps)
endif()
############ uninstall target ################
configure_file(
"${CMAKE_CURRENT_SOURCE_DIR}/cmake/include/uninstall.cmake.in"
"${CMAKE_CURRENT_BINARY_DIR}/uninstall.cmake"
IMMEDIATE @ONLY)
add_custom_target(uninstall
COMMAND ${CMAKE_COMMAND} -P
${CMAKE_CURRENT_BINARY_DIR}/uninstall.cmake)
############ packaging ################
add_subdirectory(cmake/cpack)

0
LICENSE-dire-wolf.txt → LICENSE
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50
Makefile
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@ -1,16 +1,36 @@
# Select proper Makefile for operating system.
# The Windows version is built with the help of Cygwin.
# In my case, I see CYGWIN_NT-6.1-WOW so we don't check for all:
# equal to some value. Your mileage my vary. @echo "The build procedure has changed in version 1.6."
@echo "In general, it now looks like this:"
win := $(shell uname | grep CYGWIN) @echo " "
dar := $(shell uname | grep Darwin) @echo "Download the source code:"
@echo " "
ifneq ($(win),) @echo " cd ~"
include Makefile.win @echo " git clone https://www.github.com/wb2osz/direwolf"
else ifeq ($(dar),Darwin) @echo " cd direwolf"
include Makefile.macosx @echo " "
else @echo "Optional - Do this to get the latest development version"
include Makefile.linux @echo "rather than the latest stable release."
endif @echo " "
@echo " git checkout dev"
@echo " "
@echo "Build it. There are two new steps not used for earlier releases."
@echo " "
@echo " mkdir build && cd build"
@echo " cmake .."
@echo " make -j4"
@echo " "
@echo "Install:"
@echo " "
@echo " sudo make install"
@echo " make install-conf"
@echo " "
@echo "You will probably need to install additional applications and"
@echo "libraries depending on your operating system."
@echo "More details are in the README.md file."
@echo " "
@echo "Questions?"
@echo " "
@echo " - Extensive documentation can be found in the 'doc' directory."
@echo " - Join the discussion forum here: https://groups.io/g/direwolf"
@echo " "

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@ -1,988 +0,0 @@
#
# Makefile for Linux version of Dire Wolf.
#
APPS := direwolf decode_aprs text2tt tt2text ll2utm utm2ll aclients atest log2gpx gen_packets ttcalc kissutil cm108
all : $(APPS) direwolf.desktop direwolf.conf
@echo " "
@echo "Next step - install with:"
@echo " "
@echo " sudo make install"
@echo " "
CC := gcc
# Just for fun, let's see how clang compares to gcc. First install like this:
# sudo apt-get update
# apt-cache search clang
# sudo apt-get install clang-3.5
#
# CC := clang-3.5
# _XOPEN_SOURCE=600 and _DEFAULT_SOURCE=1 are needed for glibc >= 2.24.
# Explanation here: https://github.com/wb2osz/direwolf/issues/62
# There are a few source files where it had been necessary to define __USE_XOPEN2KXSI,
# __USE_XOPEN, or _POSIX_C_SOURCE. Doesn't seem to be needed after adding this.
# The first assignment to CFLAGS and LDFLAGS uses +=, rather than :=, so
# we will inherit options already set in build environment.
# Explanation - https://github.com/wb2osz/direwolf/pull/38
CFLAGS += -O3 -pthread -Igeotranz -D_XOPEN_SOURCE=600 -D_DEFAULT_SOURCE=1 -Wall
# That was fine for a recent Ubuntu and Raspbian Jessie.
# However, Raspbian wheezy was then missing declaration for strsep and definition of fd_set.
CFLAGS += -D_BSD_SOURCE
LDFLAGS += -lm -lpthread -lrt
#
# The DSP filters spend a lot of time spinning around in little
# loops multiplying and adding arrays of numbers. The Intel "SSE"
# instructions, introduced in 1999 with the Pentium III series,
# can speed this up considerably.
#
# SSE2 instructions, added in 2000, don't seem to offer any advantage.
#
#
# Let's take a look at the effect of the compile options.
#
#
# Times are elapsed time to process Track 2 of the TNC test CD.
#
# i.e. "./atest 02_Track_2.wav"
# Default demodulator type is new "E" added for version 1.2.
#
#
# ---------- x86 (32 bit) ----------
#
#
# gcc 4.6.3 running on Ubuntu 12.04.05.
# Intel(R) Celeron(R) CPU 2.53GHz. Appears to have only 32 bit instructions.
# Probably from around 2004 or 2005.
#
# When gcc is generating code for a 32 bit x86 target, it assumes the ancient
# i386 processor. This is good for portability but bad for performance.
#
# The code can run considerably faster by taking advantage of the SSE instructions
# available in the Pentium 3 or later.
#
# seconds options comments
# ------ ------- --------
# 524
# 183 -O2
# 182 -O3
# 183 -O3 -ffast-math (should be same as -Ofast)
# 184 -Ofast
# 189 -O3 -ffast-math -march=pentium
# 122 -O3 -ffast-math -msse
# 122 -O3 -ffast-math -march=pentium -msse
# 121 -O3 -ffast-math -march=pentium3 (this implies -msse)
# 120 -O3 -ffast-math -march=native
#
# Note that "-march=native" is essentially the same as "-march=pentium3."
#
# If the compiler is generating code for the i386 target, we can
# get much better results by telling it we have at least a Pentium 3.
arch := $(shell echo | gcc -E -dM - | grep __i386__)
ifneq ($(arch),)
CFLAGS += -march=pentium3
endif
#
# ---------- x86_64 ----------
#
#
# gcc 4.8.2 running on Ubuntu 14.04.1.
# Intel Core 2 Duo from around 2007 or 2008.
#
# 64 bit target implies that we have SSE and probably even better vector instructions.
#
# seconds options comments
# ------ ------- --------
# 245
# 75 -01
# 72 -02
# 71 -03
# 73 -O3 -march=native
# 42 -O3 -ffast-math
# 42 -Ofast (note below)
# 40 -O3 -ffast-math -march=native
#
#
# Note that "-Ofast" is a newer option roughly equivalent to "-O3 -ffast-math".
# I use the longer form because it is compatible with older compilers.
#
# Why don't I don't have "-march=native?"
# Older compilers don't recognize "native" as one of the valid options.
# One article said it was added with gcc 4.2 but I haven't verified that.
#
# ---------- How does clang compare? - Ubuntu x86_64 ----------
#
# I keep hearing a lot about "clang." Let's see how it compares with gcc.
# Simply use different compiler and keep all options the same.
#
# test case: atest 02_Track_2.wav
#
# gcc 4.8.4: 988 packets decoded in 40.503 seconds. 38.3 x realtime
# 988 packets decoded in 40.403 seconds. 38.4 x realtime
#
# clang 3.8.0-2: 988 packets decoded in 77.454 seconds. 20.0 x realtime
# 988 packets decoded in 77.232 seconds. 20.1 x realtime
#
# I'm not impressed. Almost twice as long. Maybe we need to try some other compiler options.
# -march=native did not help.
# Makefile.macosx, which uses clang, has these:
# -fvectorize -fslp-vectorize -fslp-vectorize-aggressive
# Those did not help.
#
useffast := $(shell gcc --help -v 2>/dev/null | grep ffast-math)
ifneq ($(useffast),)
CFLAGS += -ffast-math
endif
#
# ---------- ARM - Raspberry Pi 1 models ----------
#
# Raspberry Pi (before RPi model 2), ARM11 (ARMv6 + VFP2)
# gcc (Debian 4.6.3-14+rpi1) 4.6.3
#
#
# seconds options comments
# ------ ------- ---------
# 892 -O3
# 887 -O3 -ffast-math
# x -O3 -ffast-math -march=native (error: bad value for -march switch)
# 887 -O3 -ffast-math -mfpu=vfp
# 890 -O3 -ffast-math -march=armv6zk -mcpu=arm1176jzf-s -mfloat-abi=hard -mfpu=vfp
#
#
# The compiler, supplied with Raspbian, is configured with these options which are
# good for the pre version 2 models.
# --with-arch=armv6 --with-fpu=vfp --with-float=hard
#
# Run "gcc --help -v 2" and look near the end.
#
#
#
# ---------- ARM - Raspberry Pi 2 ----------
#
# Besides the higher clock speed, the Raspberry Pi 2 has the NEON instruction set
# which which should make things considerably faster.
#
#
# seconds options comments
# ------ ------- ---------
# 426 -O3 -ffast-math (already more than twice as fast)
# 429 -O3 -mfpu=neon
# 419 -O3 -mfpu=neon -funsafe-math-optimizations
# 412 -O3 -ffast-math -mfpu=neon
# 413 -O3 -ffast-math -mfpu=neon-vfpv4
# 430 -O3 -ffast-math -mfpu=neon-vfpv4 -march=armv7-a
# 412 -O3 -ffast-math -mfpu=neon-vfpv4 -mtune=arm7
# 410 -O3 -ffast-math -mfpu=neon-vfpv4 -funsafe-math-optimizations
#
# gcc -march=armv7-a -mfpu=neon-vfpv4
#
# I expected the -mfpu=neon option to have a much larger impact.
# Adding -march=armv7-a makes it slower!
#
# If you compile with the RPi 2 specific options above and try to run it on the RPi
# model B (pre version 2), it will die with "illegal instruction."
#
# Dire Wolf is known to work on the BeagleBone, CubieBoard2, CHIP, etc.
# The best compiler options will depend on the specific type of processor
# and the compiler target defaults.
#
neon := $(shell cat /proc/cpuinfo | grep neon)
ifneq ($(neon),)
CFLAGS += -mfpu=neon
endif
#
# You would expect "-march=native" to produce the fastest code.
# Why don't I use it here?
#
# 1. In my benchmarks, above, it has a negligible impact if any at all.
# 2. Some older versions of gcc don't recognize "native" as a valid choice.
# 3. Results are less portable. Not a consideration if you are
# building only for your own use but very important for anyone
# redistributing a "binary" version.
#
# If you are planning to distribute the binary version to other
# people (in some ham radio software collection, RPM, or DEB package),
# avoid fine tuning it for your particular computer. It could
# cause compatibility issues for those with older computers.
#
# ---------- How does clang compare? - ARM - Raspberry Pi 2 ----------
#
# I keep hearing a lot about "clang." Let's see how it compares with gcc.
# Simply use different compiler and keep all options the same.
#
# test case: atest 02_Track_2.wav
#
# gcc 4.9.2-10: 988 packets decoded in 353.025 seconds. 4.4 x realtime
# 988 packets decoded in 352.752 seconds. 4.4 x realtime
#
# clang 3.5.0-10: 988 packets decoded in 825.879 seconds. 1.9 x realtime
# 988 packets decoded in 831.469 seconds. 1.9 x realtime
#
# There might be a different set of options which produce faster code
# but the initial test doesn't look good. About 2.3 times as slow.
# If you want to use OSS (for FreeBSD, OpenBSD) instead of
# ALSA (for Linux), comment out (or remove) the line below.
# TODO: Can we automate this somehow?
alsa = 1
ifeq ($(wildcard /usr/include/pthread.h),)
$(error /usr/include/pthread.h does not exist. Install it with "sudo apt-get install libc6-dev" or "sudo yum install glibc-headers" )
endif
ifneq ($(alsa),)
CFLAGS += -DUSE_ALSA
LDFLAGS += -lasound
ifeq ($(wildcard /usr/include/alsa/asoundlib.h),)
$(error /usr/include/alsa/asoundlib.h does not exist. Install it with "sudo apt-get install libasound2-dev" or "sudo yum install alsa-lib-devel" )
endif
endif
# Enable GPS if header file is present.
# Finding libgps.so* is more difficult because it
# is in different places on different operating systems.
enable_gpsd := $(wildcard /usr/include/gps.h)
ifneq ($(enable_gpsd),)
CFLAGS += -DENABLE_GPSD
LDFLAGS += -lgps
endif
# Enable hamlib support if header file is present.
enable_hamlib := $(wildcard /usr/include/hamlib/rig.h /usr/local/include/hamlib/rig.h)
ifneq ($(enable_hamlib),)
CFLAGS += -DUSE_HAMLIB
LDFLAGS += -lhamlib
endif
# Should enabling of this feature be strongly encouraged or
# is it quite specialized and of interest to a small audience?
# If, for some reason, can obtain the libudev-dev package, or
# don't want to install it, comment out the next 3 lines.
#ifeq ($(wildcard /usr/include/libudev.h),)
#$(error /usr/include/libudev.h does not exist. Install it with "sudo apt-get install libudev-dev" or "sudo yum install libudev-devel" )
#endif
# Enable cm108 PTT support if libudev header file is present.
enable_cm108 := $(wildcard /usr/include/libudev.h)
ifneq ($(enable_cm108),)
CFLAGS += -DUSE_CM108
LDFLAGS += -ludev
endif
# Name of current directory.
# Used to generate zip file name for distribution.
z := $(notdir ${CURDIR})
# -------------------------------- Main application -----------------------------------------
direwolf : direwolf.o config.o recv.o demod.o dsp.o demod_afsk.o demod_psk.o demod_9600.o hdlc_rec.o \
hdlc_rec2.o multi_modem.o rdq.o rrbb.o dlq.o \
fcs_calc.o ax25_pad.o ax25_pad2.o xid.o \
decode_aprs.o symbols.o server.o kiss.o kissserial.o kissnet.o kiss_frame.o hdlc_send.o fcs_calc.o \
gen_tone.o audio.o audio_stats.o digipeater.o cdigipeater.o pfilter.o dedupe.o tq.o xmit.o morse.o \
ptt.o beacon.o encode_aprs.o latlong.o encode_aprs.o latlong.o textcolor.o \
dtmf.o aprs_tt.o tt_user.o tt_text.o igate.o waypoint.o serial_port.o log.o telemetry.o \
dwgps.o dwgpsnmea.o dwgpsd.o dtime_now.o mheard.o ax25_link.o cm108.o \
misc.a geotranz.a
$(CC) -o $@ $^ $(LDFLAGS)
@echo " "
ifneq ($(enable_gpsd),)
@echo "\t>\tThis includes support for gpsd."
else
@echo "\t>\tThis does NOT include support for gpsd."
endif
ifneq ($(enable_hamlib),)
@echo "\t>\tThis includes support for hamlib."
else
@echo "\t>\tThis does NOT include support for hamlib."
endif
ifneq ($(enable_cm108),)
@echo "\t>\tThis includes support for CM108/CM119 PTT."
else
@echo "\t>\tThis does NOT include support for CM108/CM119 PTT."
endif
@echo " "
# Optimization for slow processors.
demod.o : fsk_fast_filter.h
demod_afsk.o : fsk_fast_filter.h
fsk_fast_filter.h : gen_fff
./gen_fff > fsk_fast_filter.h
gen_fff : demod_afsk.c dsp.c textcolor.c
echo " " > tune.h
$(CC) $(CFLAGS) -DGEN_FFF -o $@ $^ $(LDFLAGS)
#
# The destination field is often used to identify the manufacturer/model.
# These are not hardcoded into Dire Wolf. Instead they are read from
# a file called tocalls.txt at application start up time.
#
# The original permanent symbols are built in but the "new" symbols,
# using overlays, are often updated. These are also read from files.
#
# You can obtain an updated copy by typing "make tocalls-symbols".
# This is not part of the normal build process. You have to do this explicitly.
#
# The locations below appear to be the most recent.
# The copy at http://www.aprs.org/tocalls.txt is out of date.
#
.PHONY: tocalls-symbols
tocalls-symbols :
cp tocalls.txt tocalls.txt~
wget http://www.aprs.org/aprs11/tocalls.txt -O tocalls.txt
-diff -Z tocalls.txt~ tocalls.txt
cp symbols-new.txt symbols-new.txt~
wget http://www.aprs.org/symbols/symbols-new.txt -O symbols-new.txt
-diff -Z symbols-new.txt~ symbols-new.txt
cp symbolsX.txt symbolsX.txt~
wget http://www.aprs.org/symbols/symbolsX.txt -O symbolsX.txt
-diff -Z symbolsX.txt~ symbolsX.txt
# ---------------------------------------- Other utilities included ------------------------------
# Separate application to decode raw data.
# First three use .c rather than .o because they depend on DECAMAIN definition.
decode_aprs : decode_aprs.c kiss_frame.c ax25_pad.c dwgpsnmea.o dwgps.o dwgpsd.o serial_port.o symbols.o textcolor.o fcs_calc.o latlong.o log.o telemetry.o tt_text.o misc.a
$(CC) $(CFLAGS) -DDECAMAIN -o $@ $^ $(LDFLAGS)
# Convert between text and touch tone representation.
text2tt : tt_text.c misc.a
$(CC) $(CFLAGS) -DENC_MAIN -o $@ $^ $(LDFLAGS)
tt2text : tt_text.c misc.a
$(CC) $(CFLAGS) -DDEC_MAIN -o $@ $^ $(LDFLAGS)
# Convert between Latitude/Longitude and UTM coordinates.
ll2utm : ll2utm.c geotranz.a textcolor.o misc.a
$(CC) $(CFLAGS) -o $@ $^ $(LDFLAGS)
utm2ll : utm2ll.c geotranz.a textcolor.o misc.a
$(CC) $(CFLAGS) -o $@ $^ $(LDFLAGS)
# Convert from log file to GPX.
log2gpx : log2gpx.c textcolor.o misc.a
$(CC) $(CFLAGS) -o $@ $^ $(LDFLAGS)
# Test application to generate sound.
gen_packets : gen_packets.c ax25_pad.c hdlc_send.c fcs_calc.c gen_tone.c morse.c dtmf.c textcolor.c dsp.c misc.a
$(CC) $(CFLAGS) -o $@ $^ $(LDFLAGS)
# Unit test for AFSK demodulator
atest : atest.c demod.o demod_afsk.o demod_psk.o demod_9600.o \
dsp.o hdlc_rec.o hdlc_rec2.o multi_modem.o rrbb.o \
fcs_calc.o ax25_pad.o decode_aprs.o dwgpsnmea.o \
dwgps.o dwgpsd.o serial_port.o telemetry.o dtime_now.o latlong.o symbols.o tt_text.o textcolor.o \
misc.a
$(CC) $(CFLAGS) -o $@ $^ $(LDFLAGS)
# Multiple AGWPE network or serial port clients to test TNCs side by side.
aclients : aclients.c ax25_pad.c fcs_calc.c textcolor.o misc.a
$(CC) $(CFLAGS) -g -o $@ $^
# Talk to a KISS TNC.
# Note: kiss_frame.c has conditional compilation on KISSUTIL.
kissutil : kissutil.c kiss_frame.c ax25_pad.o fcs_calc.o textcolor.o serial_port.o dtime_now.o sock.o misc.a
$(CC) $(CFLAGS) -g -DKISSUTIL -o $@ $^ $(LDFLAGS)
# List USB audio adapters than can use GPIO for PTT.
cm108 : cm108.c textcolor.o misc.a
$(CC) $(CFLAGS) -g -DCM108_MAIN -o $@ $^ $(LDFLAGS)
# Touch Tone to Speech sample application.
ttcalc : ttcalc.o ax25_pad.o fcs_calc.o textcolor.o misc.a
$(CC) $(CFLAGS) -g -o $@ $^
# ----------------------------------------- Libraries --------------------------------------------
# UTM, USNG, MGRS conversions.
geotranz.a : error_string.o mgrs.o polarst.o tranmerc.o ups.o usng.o utm.o
ar -cr $@ $^
error_string.o : geotranz/error_string.c
$(CC) $(CFLAGS) -c -o $@ $^
mgrs.o : geotranz/mgrs.c
$(CC) $(CFLAGS) -c -o $@ $^
polarst.o : geotranz/polarst.c
$(CC) $(CFLAGS) -c -o $@ $^
tranmerc.o : geotranz/tranmerc.c
$(CC) $(CFLAGS) -c -o $@ $^
ups.o : geotranz/ups.c
$(CC) $(CFLAGS) -c -o $@ $^
usng.o : geotranz/usng.c
$(CC) $(CFLAGS) -c -o $@ $^
utm.o : geotranz/utm.c
$(CC) $(CFLAGS) -c -o $@ $^
# Provide our own copy of strlcpy and strlcat because they are not included with Linux.
# We don't need the others in that same directory.
misc.a : strlcpy.o strlcat.o
ar -cr $@ $^
strlcpy.o : misc/strlcpy.c
$(CC) $(CFLAGS) -I. -c -o $@ $^
strlcat.o : misc/strlcat.c
$(CC) $(CFLAGS) -I. -c -o $@ $^
# ------------------------------------- Installation ----------------------------------
# Generate apprpriate sample configuration file for this platform.
# Originally, there was one sample for all platforms. It got too cluttered
# and confusing saying, this is for windows, and this is for Linux, and this ...
# Trying to maintain 3 different versions in parallel is error prone.
# We now have a single generic version which can be used to generate
# the various platform specific versions.
# generic.conf should be checked into source control.
# direwolf.conf should NOT. It is generated when compiling on the target platform.
direwolf.conf : generic.conf
egrep '^C|^L' generic.conf | cut -c2-999 > direwolf.conf
# Where should we install it?
# Something built from source and installed locally would normally go in /usr/local/...
# If not specified on the make command line, this is our default.
DESTDIR ?= /usr/local
# However, if you are preparing a "binary" DEB or RPM package, the installation location
# would normally be /usr/... instead. In this case, use a command line like this:
#
# make DESTDIR=/usr install
# Command to "install" to system directories. Use "ginstall" for Mac.
INSTALL=install
# direwolf.desktop was previously handcrafted for the Raspberry Pi.
# It was hardcoded with lxterminal, /home/pi, and so on.
# In version 1.2, try to customize this to match other situations better.
# TODO: Test this better.
direwolf.desktop :
@echo "Generating customized direwolf.desktop ..."
@echo '[Desktop Entry]' > $@
@echo 'Type=Application' >> $@
ifneq ($(wildcard /usr/bin/lxterminal),)
@echo "Exec=lxterminal -t \"Dire Wolf\" -e \"$(DESTDIR)/bin/direwolf\"" >> $@
else ifneq ($(wildcard /usr/bin/lxterm),)
@echo "Exec=lxterm -hold -title \"Dire Wolf\" -bg white -e \"$(DESTDIR)/bin/direwolf\"" >> $@
else
@echo "Exec=xterm -hold -title \"Dire Wolf\" -bg white -e \"$(DESTDIR)/bin/direwolf\"" >> $@
endif
@echo 'Name=Dire Wolf' >> $@
@echo 'Comment=APRS Soundcard TNC' >> $@
@echo 'Icon=$(DESTDIR)/share/direwolf/pixmaps/dw-icon.png' >> $@
@echo "Path=$(HOME)" >> $@
@echo '#Terminal=true' >> $@
@echo 'Categories=HamRadio' >> $@
@echo 'Keywords=Ham Radio;APRS;Soundcard TNC;KISS;AGWPE;AX.25' >> $@
# Installation into $(DESTDIR), usually /usr/local/... or /usr/...
# Needs to be run as root or with sudo.
.PHONY: install
install : $(APPS) direwolf.conf tocalls.txt symbols-new.txt symbolsX.txt dw-icon.png direwolf.desktop
#
# Applications, not installed with package manager, normally go in /usr/local/bin.
# /usr/bin is used instead when installing from .DEB or .RPM package.
#
$(INSTALL) -D --mode=755 direwolf $(DESTDIR)/bin/direwolf
$(INSTALL) -D --mode=755 decode_aprs $(DESTDIR)/bin/decode_aprs
$(INSTALL) -D --mode=755 text2tt $(DESTDIR)/bin/text2tt
$(INSTALL) -D --mode=755 tt2text $(DESTDIR)/bin/tt2text
$(INSTALL) -D --mode=755 ll2utm $(DESTDIR)/bin/ll2utm
$(INSTALL) -D --mode=755 utm2ll $(DESTDIR)/bin/utm2ll
$(INSTALL) -D --mode=755 aclients $(DESTDIR)/bin/aclients
$(INSTALL) -D --mode=755 log2gpx $(DESTDIR)/bin/log2gpx
$(INSTALL) -D --mode=755 gen_packets $(DESTDIR)/bin/gen_packets
$(INSTALL) -D --mode=755 atest $(DESTDIR)/bin/atest
$(INSTALL) -D --mode=755 ttcalc $(DESTDIR)/bin/ttcalc
$(INSTALL) -D --mode=755 kissutil $(DESTDIR)/bin/kissutil
$(INSTALL) -D --mode=755 cm108 $(DESTDIR)/bin/cm108
$(INSTALL) -D --mode=755 dwespeak.sh $(DESTDIR)/bin/dwspeak.sh
#
# Telemetry Toolkit executables. Other .conf and .txt files will go into doc directory.
#
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-balloon.pl $(DESTDIR)/bin/telem-balloon.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-bits.pl $(DESTDIR)/bin/telem-bits.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-data.pl $(DESTDIR)/bin/telem-data.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-data91.pl $(DESTDIR)/bin/telem-data91.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-eqns.pl $(DESTDIR)/bin/telem-eqns.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-parm.pl $(DESTDIR)/bin/telem-parm.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-seq.sh $(DESTDIR)/bin/telem-seq.sh
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-unit.pl $(DESTDIR)/bin/telem-unit.pl
$(INSTALL) -D --mode=755 telemetry-toolkit/telem-volts.py $(DESTDIR)/bin/telem-volts.py
#
# Misc. data such as "tocall" to system mapping.
#
$(INSTALL) -D --mode=644 tocalls.txt $(DESTDIR)/share/direwolf/tocalls.txt
$(INSTALL) -D --mode=644 symbols-new.txt $(DESTDIR)/share/direwolf/symbols-new.txt
$(INSTALL) -D --mode=644 symbolsX.txt $(DESTDIR)/share/direwolf/symbolsX.txt
#
# For desktop icon.
#
$(INSTALL) -D --mode=644 dw-icon.png $(DESTDIR)/share/direwolf/pixmaps/dw-icon.png
$(INSTALL) -D --mode=644 direwolf.desktop $(DESTDIR)/share/applications/direwolf.desktop
#
# Documentation. Various plain text files and PDF.
#
$(INSTALL) -D --mode=644 CHANGES.md $(DESTDIR)/share/doc/direwolf/CHANGES.md
$(INSTALL) -D --mode=644 LICENSE-dire-wolf.txt $(DESTDIR)/share/doc/direwolf/LICENSE-dire-wolf.txt
$(INSTALL) -D --mode=644 LICENSE-other.txt $(DESTDIR)/share/doc/direwolf/LICENSE-other.txt
#
# ./README.md is an overview for the project main page.
# Maybe we could stick it in some other place.
# doc/README.md contains an overview of the PDF file contents and is more useful here.
#
$(INSTALL) -D --mode=644 doc/README.md $(DESTDIR)/share/doc/direwolf/README.md
$(INSTALL) -D --mode=644 doc/2400-4800-PSK-for-APRS-Packet-Radio.pdf $(DESTDIR)/share/doc/direwolf/2400-4800-PSK-for-APRS-Packet-Radio.pdf
$(INSTALL) -D --mode=644 doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf $(DESTDIR)/share/doc/direwolf/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf
$(INSTALL) -D --mode=644 doc/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf $(DESTDIR)/share/doc/direwolf/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf
$(INSTALL) -D --mode=644 doc/A-Closer-Look-at-the-WA8LMF-TNC-Test-CD.pdf $(DESTDIR)/share/doc/direwolf/A-Closer-Look-at-the-WA8LMF-TNC-Test-CD.pdf
$(INSTALL) -D --mode=644 doc/APRS-Telemetry-Toolkit.pdf $(DESTDIR)/share/doc/direwolf/APRS-Telemetry-Toolkit.pdf
$(INSTALL) -D --mode=644 doc/APRStt-Implementation-Notes.pdf $(DESTDIR)/share/doc/direwolf/APRStt-Implementation-Notes.pdf
$(INSTALL) -D --mode=644 doc/APRStt-interface-for-SARTrack.pdf $(DESTDIR)/share/doc/direwolf/APRStt-interface-for-SARTrack.pdf
$(INSTALL) -D --mode=644 doc/APRStt-Listening-Example.pdf $(DESTDIR)/share/doc/direwolf/APRStt-Listening-Example.pdf
$(INSTALL) -D --mode=644 doc/Bluetooth-KISS-TNC.pdf $(DESTDIR)/share/doc/direwolf/Bluetooth-KISS-TNC.pdf
$(INSTALL) -D --mode=644 doc/Going-beyond-9600-baud.pdf $(DESTDIR)/share/doc/direwolf/Going-beyond-9600-baud.pdf
$(INSTALL) -D --mode=644 doc/Raspberry-Pi-APRS.pdf $(DESTDIR)/share/doc/direwolf/Raspberry-Pi-APRS.pdf
$(INSTALL) -D --mode=644 doc/Raspberry-Pi-APRS-Tracker.pdf $(DESTDIR)/share/doc/direwolf/Raspberry-Pi-APRS-Tracker.pdf
$(INSTALL) -D --mode=644 doc/Raspberry-Pi-SDR-IGate.pdf $(DESTDIR)/share/doc/direwolf/Raspberry-Pi-SDR-IGate.pdf
$(INSTALL) -D --mode=644 doc/Successful-APRS-IGate-Operation.pdf $(DESTDIR)/share/doc/direwolf/Successful-APRS-IGate-Operation.pdf
$(INSTALL) -D --mode=644 doc/User-Guide.pdf $(DESTDIR)/share/doc/direwolf/User-Guide.pdf
$(INSTALL) -D --mode=644 doc/WA8LMF-TNC-Test-CD-Results.pdf $(DESTDIR)/share/doc/direwolf/WA8LMF-TNC-Test-CD-Results.pdf
#
# Various sample config and other files go into examples under the doc directory.
# When building from source, these can be put in home directory with "make install-conf".
# When installed from .DEB or .RPM package, the user will need to copy these to
# the home directory or other desired location.
#
$(INSTALL) -D --mode=644 direwolf.conf $(DESTDIR)/share/doc/direwolf/examples/direwolf.conf
$(INSTALL) -D --mode=755 dw-start.sh $(DESTDIR)/share/doc/direwolf/examples/dw-start.sh
$(INSTALL) -D --mode=644 sdr.conf $(DESTDIR)/share/doc/direwolf/examples/sdr.conf
$(INSTALL) -D --mode=644 telemetry-toolkit/telem-m0xer-3.txt $(DESTDIR)/share/doc/direwolf/examples/telem-m0xer-3.txt
$(INSTALL) -D --mode=644 telemetry-toolkit/telem-balloon.conf $(DESTDIR)/share/doc/direwolf/examples/telem-balloon.conf
$(INSTALL) -D --mode=644 telemetry-toolkit/telem-volts.conf $(DESTDIR)/share/doc/direwolf/examples/telem-volts.conf
#
# "man" pages
#
$(INSTALL) -D --mode=644 man1/aclients.1 $(DESTDIR)/share/man/man1/aclients.1
$(INSTALL) -D --mode=644 man1/atest.1 $(DESTDIR)/share/man/man1/atest.1
$(INSTALL) -D --mode=644 man1/decode_aprs.1 $(DESTDIR)/share/man/man1/decode_aprs.1
$(INSTALL) -D --mode=644 man1/direwolf.1 $(DESTDIR)/share/man/man1/direwolf.1
$(INSTALL) -D --mode=644 man1/gen_packets.1 $(DESTDIR)/share/man/man1/gen_packets.1
$(INSTALL) -D --mode=644 man1/kissutil.1 $(DESTDIR)/share/man/man1/kissutil.1
$(INSTALL) -D --mode=644 man1/ll2utm.1 $(DESTDIR)/share/man/man1/ll2utm.1
$(INSTALL) -D --mode=644 man1/log2gpx.1 $(DESTDIR)/share/man/man1/log2gpx.1
$(INSTALL) -D --mode=644 man1/text2tt.1 $(DESTDIR)/share/man/man1/text2tt.1
$(INSTALL) -D --mode=644 man1/tt2text.1 $(DESTDIR)/share/man/man1/tt2text.1
$(INSTALL) -D --mode=644 man1/utm2ll.1 $(DESTDIR)/share/man/man1/utm2ll.1
#
# Set group and mode of HID devices corresponding to C-Media USB Audio adapters.
# This will allow us to use the CM108/CM119 GPIO pins for PTT.
#
$(INSTALL) -D --mode=644 99-direwolf-cmedia.rules /etc/udev/rules.d/99-direwolf-cmedia.rules
#
@echo " "
@echo "If this is your first install, not an upgrade, type this to put a copy"
@echo "of the sample configuration file (direwolf.conf) in your home directory:"
@echo " "
@echo " make install-conf"
@echo " "
# Put sample configuration & startup files in home directory.
# This step would be done as ordinary user.
# Some people like to put the direwolf config file in /etc/ax25.
# Note that all of these are also in $(DESTDIR)/share/doc/direwolf/examples/.
# The Raspberry Pi has ~/Desktop but Ubuntu does not.
# TODO: Handle Linux variations correctly.
# Version 1.4 - Add "-n" option to avoid clobbering existing, probably customized, config files.
# dw-start.sh is greatly improved in version 1.4.
# It was moved from isntall-rpi to install-conf because it is not just for the RPi.
.PHONY: install-conf
install-conf : direwolf.conf
cp -n direwolf.conf ~
cp -n sdr.conf ~
cp -n telemetry-toolkit/telem-m0xer-3.txt ~
cp -n telemetry-toolkit/telem-*.conf ~
chmod +x dw-start.sh
cp -n dw-start.sh ~
ifneq ($(wildcard $(HOME)/Desktop),)
@echo " "
@echo "This will add a desktop icon on some systems."
@echo "This is known to work on Raspberry Pi but might not be compatible with other desktops."
@echo " "
@echo " make install-rpi"
@echo " "
endif
.PHONY: install-rpi
install-rpi :
ln -f -s $(DESTDIR)/share/applications/direwolf.desktop ~/Desktop/direwolf.desktop
# ---------------------------------- Automated Smoke Test --------------------------------
# Combine some unit tests into a single regression sanity check.
check : dtest ttest tttexttest pftest tlmtest lltest enctest kisstest pad2test xidtest dtmftest check-modem1200 check-modem300 check-modem9600 check-modem19200 check-modem2400 check-modem4800
# Can we encode and decode at popular data rates?
check-modem1200 : gen_packets atest
./gen_packets -n 100 -o /tmp/test12.wav
./atest -F0 -PE -L63 -G71 /tmp/test12.wav
./atest -F1 -PE -L70 -G75 /tmp/test12.wav
rm /tmp/test12.wav
check-modem300 : gen_packets atest
./gen_packets -B300 -n 100 -o /tmp/test3.wav
./atest -B300 -F0 -L68 -G69 /tmp/test3.wav
./atest -B300 -F1 -L73 -G75 /tmp/test3.wav
rm /tmp/test3.wav
check-modem9600 : gen_packets atest
./gen_packets -B9600 -n 100 -o /tmp/test96.wav
./atest -B9600 -F0 -L50 -G54 /tmp/test96.wav
./atest -B9600 -F1 -L55 -G59 /tmp/test96.wav
rm /tmp/test96.wav
check-modem19200 : gen_packets atest
./gen_packets -r 96000 -B19200 -n 100 -o /tmp/test19.wav
./atest -B19200 -F0 -L55 -G59 /tmp/test19.wav
./atest -B19200 -F1 -L60 -G64 /tmp/test19.wav
rm /tmp/test19.wav
check-modem2400 : gen_packets atest
./gen_packets -B2400 -n 100 -o /tmp/test24.wav
./atest -B2400 -F0 -L70 -G78 /tmp/test24.wav
./atest -B2400 -F1 -L80 -G87 /tmp/test24.wav
rm /tmp/test24.wav
check-modem4800 : gen_packets atest
./gen_packets -B2400 -n 100 -o /tmp/test48.wav
./atest -B2400 -F0 -L70 -G79 /tmp/test48.wav
./atest -B2400 -F1 -L80 -G90 /tmp/test48.wav
rm /tmp/test48.wav
# Unit test for inner digipeater algorithm
.PHONY : dtest
dtest : digipeater.c dedupe.c pfilter.c \
ax25_pad.o fcs_calc.o tq.o textcolor.o \
decode_aprs.o dwgpsnmea.o dwgps.o dwgpsd.o serial_port.o latlong.o telemetry.o symbols.o tt_text.o misc.a
$(CC) $(CFLAGS) -DDIGITEST -o $@ $^ $(LDFLAGS)
./dtest
rm dtest
# Unit test for APRStt tone sequence parsing.
.PHONY : ttest
ttest : aprs_tt.c tt_text.c latlong.o textcolor.o misc.a geotranz.a misc.a
$(CC) $(CFLAGS) -DTT_MAIN -o $@ $^ $(LDFLAGS)
./ttest
rm ttest
# Unit test for APRStt tone sequence / text conversions.
.PHONY: tttexttest
tttexttest : tt_text.c textcolor.o misc.a
$(CC) $(CFLAGS) -DTTT_TEST -o $@ $^ $(LDFLAGS)
./tttexttest
rm tttexttest
# Unit test for Packet Filtering.
.PHONY: pftest
pftest : pfilter.c ax25_pad.o textcolor.o fcs_calc.o decode_aprs.o dwgpsnmea.o dwgps.o dwgpsd.o serial_port.o latlong.o symbols.o telemetry.o tt_text.o misc.a
$(CC) $(CFLAGS) -DPFTEST -o $@ $^ $(LDFLAGS)
./pftest
rm pftest
# Unit test for telemetry decoding.
.PHONY: tlmtest
tlmtest : telemetry.c ax25_pad.o fcs_calc.o textcolor.o misc.a
$(CC) $(CFLAGS) -DTEST -o $@ $^ $(LDFLAGS)
./tlmtest
rm tlmtest
# Unit test for location coordinate conversion.
.PHONY: lltest
lltest : latlong.c textcolor.o misc.a
$(CC) $(CFLAGS) -DLLTEST -o $@ $^ $(LDFLAGS)
./lltest
rm lltest
# Unit test for encoding position & object report.
.PHONY: enctest
enctest : encode_aprs.c latlong.c textcolor.c misc.a
$(CC) $(CFLAGS) -DEN_MAIN -o $@ $^ $(LDFLAGS)
./enctest
rm enctest
# Unit test for KISS encapsulation.
.PHONY: kisstest
kisstest : kiss_frame.c
$(CC) $(CFLAGS) -DKISSTEST -o $@ $^ $(LDFLAGS)
./kisstest
rm kisstest
# Unit test for constructing frames besides UI.
.PHONY: pad2test
pad2test : ax25_pad2.c ax25_pad.c fcs_calc.o textcolor.o misc.a
$(CC) $(CFLAGS) -DPAD2TEST -o $@ $^ $(LDFLAGS)
./pad2test
rm pad2test
# Unit Test for XID frame encode/decode.
.PHONY: xidtest
xidtest : xid.c textcolor.o misc.a
$(CC) $(CFLAGS) -DXIDTEST -o $@ $^ $(LDFLAGS)
./xidtest
rm xidtest
# Unit Test for DTMF encode/decode.
.PHONY: dtmftest
dtmftest : dtmf.c textcolor.o
$(CC) $(CFLAGS) -DDTMF_TEST -o $@ $^ $(LDFLAGS)
./dtmftest
rm dtmftest
# ----------------------------- Manual tests and experiments ---------------------------
# These are not included in a normal build. Might be broken.
# Unit test for IGate
itest : igate.c textcolor.c ax25_pad.c fcs_calc.c textcolor.o misc.a
$(CC) $(CFLAGS) -DITEST -o $@ $^
./itest
# Unit test for UDP reception with AFSK demodulator.
# Temporary during development. Might not be useful anymore.
udptest : udp_test.c demod.o dsp.o demod_afsk.o demod_psk.o demod_9600.o hdlc_rec.o hdlc_rec2.o multi_modem.o rrbb.o \
fcs_calc.o ax25_pad.o decode_aprs.o symbols.o textcolor.o misc.a
$(CC) $(CFLAGS) -o $@ $^ $(LDFLAGS)
./udptest
# For demodulator tweaking experiments.
# Dependencies of demod*.c, rather than .o, are intentional.
demod.o : tune.h
demod_afsk.o : tune.h
demod_9600.o : tune.h
demod_psk.o : tune.h
tune.h :
echo " " > tune.h
testagc : atest.c demod.c dsp.c demod_afsk.c demod_psk.c demod_9600.c hdlc_rec.o hdlc_rec2.o multi_modem.o rrbb.o \
fcs_calc.o ax25_pad.o decode_aprs.o telemetry.o dtime_now.o latlong.o symbols.o tune.h textcolor.o misc.a
$(CC) $(CFLAGS) -o atest $^ $(LDFLAGS)
./atest 02_Track_2.wav | grep "packets decoded in" > atest.out
testagc96 : atest.c fsk_fast_filter.h tune.h demod.c demod_afsk.c demod_psk.c demod_9600.c \
dsp.o hdlc_rec.o hdlc_rec2.o multi_modem.o \
rrbb.o fcs_calc.o ax25_pad.o decode_aprs.o \
dwgpsnmea.o dwgps.o dwgpsd.o serial_port.o latlong.o \
symbols.o tt_text.o textcolor.o telemetry.o dtime_now.o \
misc.a
rm -f atest96
$(CC) $(CFLAGS) -o atest96 $^ $(LDFLAGS)
./atest96 -B 9600 ../walkabout9600c.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 noisy96.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 19990303_0225_9600_8bis_22kHz.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 19990303_0225_9600_16bit_22kHz.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 -P + z8-22k.wav| grep "packets decoded in" >atest.out
#./atest96 -B 9600 test9600.wav | grep "packets decoded in" >atest.out
echo " " > tune.h
# ------------------------------- Source distribution ---------------------------------
# probably obsolete and can be removed after move to github.
.PHONY: dist-src
dist-src : README.md CHANGES.md
doc/User-Guide.pdf doc/Raspberry-Pi-APRS.pdf \
doc/Raspberry-Pi-APRS-Tracker.pdf doc/APRStt-Implementation-Notes.pdf \
dw-start.sh dwespeak.bat dwespeak.sh \
tocalls.txt symbols-new.txt symbolsX.txt direwolf.spec
rm -f fsk_fast_filter.h
echo " " > tune.h
rm -f ../$z-src.zip
(cd .. ; zip $z-src.zip \
$z/README.md \
$z/CHANGES.md \
$z/LICENSE* \
$z/doc/User-Guide.pdf \
$z/doc/Raspberry-Pi-APRS.pdf \
$z/doc/Raspberry-Pi-APRS-Tracker.pdf \
$z/doc/APRStt-Implementation-Notes.pdf \
$z/doc/APRS-Telemetry-Toolkit.pdf \
$z/Makefile* \
$z/*.c $z/*.h \
$z/regex/* $z/misc/* $z/geotranz/* \
$z/man1/* \
$z/generic.conf \
$z/tocalls.txt $z/symbols-new.txt $z/symbolsX.txt \
$z/dw-icon.png $z/dw-icon.rc $z/dw-icon.ico \
$z/dw-start.sh $z/direwolf.spec \
$z/dwespeak.bat $z/dwespeak.sh \
$z/telemetry-toolkit/* )
# -----------------------------------------------------------------------------------------
.PHONY: clean
clean :
rm -f $(APPS) gen_fff tune.h fsk_fast_filter.h *.o *.a direwolf.desktop
depend : $(wildcard *.c)
makedepend -f $(lastword $(MAKEFILE_LIST)) -- $(CFLAGS) -- $^
#
# The following is updated by "make depend"
#
# DO NOT DELETE

555
Makefile.macosx
View File

@ -1,555 +0,0 @@
#
# Makefile for Macintosh 10.6+ version of Dire Wolf.
#
# TODO: This is a modified version of Makefile.linux and it
# has fallen a little behind. For example, it is missing the check target.
# It would be more maintainable if we could use a single file for both.
# The differences are not that great.
# Maybe the most of the differences could go in to platform specific include
# files rather than cluttering it up with too many if blocks.
# Changes:
#
# 16 Dec 2015
# 1. Added condition check for gps/gpsd code. Commented out due to 32/64 bit
# library issues. Macports gpsd build problem.
# 2. SDK version checks are now performed by a bash script 'search_sdks.sh'.
# This should resolve the varied locations Apple stored the SDKs on the different
# Xcode/OS versions. Executing 'make' on the first pass asks the operator
# which SDK he/she wishes to use. Executing 'make clean' resets the SDK
# selection and operator intervention is once again required. Selected SDK
# information resides in a file named './use_this_sdk' in the current working
# directory.
# 3. Removed fsk_fast_filter.h from atest receipe, clang compiler was having
# a hissy fit. Not check with GCC.
APPS := direwolf decode_aprs text2tt tt2text ll2utm utm2ll aclients atest log2gpx gen_packets ttcalc kissutil
all : $(APPS) direwolf.conf
@echo " "
@echo "Next step install with: "
@echo " "
@echo " sudo make install"
@echo " "
@echo " "
SYS_LIBS :=
SYS_MIN :=
SYS_LIBS := $(shell ./search_sdks.sh)
EXTRA_CFLAGS :=
DARWIN_CC := $(shell which clang)
ifeq (${DARWIN_CC},)
DARWIN_CC := $(shell which gcc)
EXTRA_CFLAGS :=
else
EXTRA_CFLAGS := -fvectorize -fslp-vectorize -fslp-vectorize-aggressive -pthread
endif
# Change as required in support of the available libraries
UNAME_M := $(shell uname -m)
ifeq (${UNAME_M},x86_64)
CC := $(DARWIN_CC) -m64 $(SYS_LIBS) $(SYS_MIN)
else
CC := $(DARWIN_CC) -m32 $(SYS_LIBS) $(SYS_MIN)
endif
# _XOPEN_SOURCE=600 and _DEFAULT_SOURCE=1 are needed for glibc >= 2.24.
# Explanation here: https://github.com/wb2osz/direwolf/issues/62
CFLAGS := -Os -pthread -Igeotranz -D_XOPEN_SOURCE=600 -D_DEFAULT_SOURCE=1 $(EXTRA_CFLAGS)
# That was fine for a recent Ubuntu and Raspbian Jessie.
# However, Raspbian wheezy was then missing declaration for strsep and definition of fd_set.
CFLAGS += -D_BSD_SOURCE
# $(info $$CC is [${CC}])
# If the compiler is generating code for a 32 bit target (-m32), we can
# get much better results by telling it we have at least a Pentium 3
# which hass the SSE instructions.
CFLAGS += -march=core2 -msse4.1 -std=gnu99
#CFLAGS += -march=pentium3 -sse
# Add -ffastmath in only if compiler version recognizes it.
useffast := $(shell gcc --help -v 2>/dev/null | grep ffast-math)
ifneq ($(useffast),)
CFLAGS += -ffast-math
endif
#CFLAGS += -D_FORTIFY_SOURCE
# Use PortAudio Library
# Force static linking of portaudio if the static library is available.
PA_LIB_STATIC := $(shell find /opt/local/lib -maxdepth 1 -type f -name "libportaudio.a")
#$(info $$PA_LIB_STATIC is [${PA_LIB_STATIC}])
ifeq (${PA_LIB_STATIC},)
LDLIBS += -L/opt/local/lib -lportaudio
else
LDLIBS += /opt/local/lib/libportaudio.a
endif
# Include libraries portaudio requires.
LDLIBS += -framework CoreAudio -framework AudioUnit -framework AudioToolbox
LDLIBS += -framework Foundation -framework CoreServices
CFLAGS += -DUSE_PORTAUDIO -I/opt/local/include
# Uncomment following lines to enable GPS interface & tracker function.
# Not available for MacOSX (as far as I know).
# Although MacPorts has gpsd, wonder if it's the same thing. Add the check
# just in case it works.
# Well never mind, issue with Macports with 64bit libs ;-( leave the check in
# until (if ever) Macports fixes the issue.
#GPS_HEADER := $(shell find /opt/local/include -maxdepth 1 -type f -name "gps.h")
#ifeq (${GPS_HEADER},)
#GPS_OBJS :=
#else
#CFLAGS += -DENABLE_GPSD
#LDLIBS += -L/opt/local/lib -lgps -lgpsd
#GPS_OBJS := dwgps.o dwgpsnmea.o dwgpsd.o
#endif
# Name of current directory.
# Used to generate zip file name for distribution.
z := $(notdir ${CURDIR})
# Main application.
direwolf : direwolf.o aprs_tt.o audio_portaudio.o audio_stats.o ax25_link.o ax25_pad.o ax25_pad2.o beacon.o \
config.o decode_aprs.o dedupe.o demod_9600.o demod_afsk.o demod_psk.o \
demod.o digipeater.o cdigipeater.o dlq.o dsp.o dtime_now.o dtmf.o dwgps.o \
encode_aprs.o encode_aprs.o fcs_calc.o fcs_calc.o gen_tone.o \
geotranz.a hdlc_rec.o hdlc_rec2.o hdlc_send.o igate.o kiss_frame.o \
kiss.o kissserial.o kissnet.o latlong.o latlong.o log.o morse.o multi_modem.o \
waypoint.o serial_port.o pfilter.o ptt.o rdq.o recv.o rrbb.o server.o \
symbols.o telemetry.o textcolor.o tq.o tt_text.o tt_user.o xid.o xmit.o \
dwgps.o dwgpsnmea.o mheard.o
$(CC) $(CFLAGS) -o $@ $^ -lpthread $(LDLIBS) -lm
# Optimization for slow processors.
demod.o : fsk_fast_filter.h
demod_afsk.o : fsk_fast_filter.h
fsk_fast_filter.h : gen_fff
./gen_fff > fsk_fast_filter.h
gen_fff : demod_afsk.c dsp.c textcolor.c
echo " " > tune.h
$(CC) $(CFLAGS) -DGEN_FFF -o $@ $^ $(LDFLAGS)
# UTM, USNG, MGRS conversions.
geotranz.a : error_string.o mgrs.o polarst.o tranmerc.o ups.o usng.o utm.o
ar -cr $@ $^
error_string.o : geotranz/error_string.c
$(CC) $(CFLAGS) -c -o $@ $^
mgrs.o : geotranz/mgrs.c
$(CC) $(CFLAGS) -c -o $@ $^
polarst.o : geotranz/polarst.c
$(CC) $(CFLAGS) -c -o $@ $^
tranmerc.o : geotranz/tranmerc.c
$(CC) $(CFLAGS) -c -o $@ $^
ups.o : geotranz/ups.c
$(CC) $(CFLAGS) -c -o $@ $^
usng.o : geotranz/usng.c
$(CC) $(CFLAGS) -c -o $@ $^
utm.o : geotranz/utm.c
$(CC) $(CFLAGS) -c -o $@ $^
# Generate apprpriate sample configuration file for this platform.
direwolf.conf : generic.conf
egrep '^C|^M' generic.conf | cut -c2-999 > direwolf.conf
# Where should we install it?
# Macports typically installs in /opt/local so maybe you want to use that instead.
INSTALLDIR := /usr/local
#INSTALLDIR := /opt/local
# TODO: Test this better.
# Optional installation into INSTALLDIR.
# Needs to be run as root or with sudo.
# Command to "install" to system directories. "install" for Linux. "ginstall" for Mac.
INSTALL=ginstall
.PHONY: install
install : $(APPS) direwolf.conf tocalls.txt symbols-new.txt symbolsX.txt dw-icon.png
#
# Applications.
#
$(INSTALL) direwolf $(INSTALLDIR)/bin
$(INSTALL) decode_aprs $(INSTALLDIR)/bin
$(INSTALL) text2tt $(INSTALLDIR)/bin
$(INSTALL) tt2text $(INSTALLDIR)/bin
$(INSTALL) ll2utm $(INSTALLDIR)/bin
$(INSTALL) utm2ll $(INSTALLDIR)/bin
$(INSTALL) aclients $(INSTALLDIR)/bin
$(INSTALL) log2gpx $(INSTALLDIR)/bin
$(INSTALL) gen_packets $(INSTALLDIR)/bin
$(INSTALL) atest $(INSTALLDIR)/bin
$(INSTALL) ttcalc $(INSTALLDIR)/bin
$(INSTALL) kissutil $(INSTALLDIR)/bin
$(INSTALL) dwespeak.sh $(INSTALLDIR)/bin
#
# Telemetry Toolkit executables. Other .conf and .txt files will go into doc directory.
#
$(INSTALL) telemetry-toolkit/telem-balloon.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-bits.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-data.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-data91.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-eqns.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-parm.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-unit.pl $(INSTALLDIR)/bin
$(INSTALL) telemetry-toolkit/telem-volts.py $(INSTALLDIR)/bin
#
# Misc. data such as "tocall" to system mapping.
#
$(INSTALL) -D --mode=644 tocalls.txt $(INSTALLDIR)/share/direwolf/tocalls.txt
$(INSTALL) -D --mode=644 symbols-new.txt $(INSTALLDIR)/share/direwolf/symbols-new.txt
$(INSTALL) -D --mode=644 symbolsX.txt $(INSTALLDIR)/share/direwolf/symbolsX.txt
$(INSTALL) -D --mode=644 dw-icon.png $(INSTALLDIR)/share/direwolf/dw-icon.png
#
# Documentation. Various plain text files and PDF.
#
$(INSTALL) -D --mode=644 README.md $(INSTALLDIR)/share/doc/direwolf/README.md
$(INSTALL) -D --mode=644 CHANGES.md $(INSTALLDIR)/share/doc/direwolf/CHANGES.md
$(INSTALL) -D --mode=644 LICENSE-dire-wolf.txt $(INSTALLDIR)/share/doc/direwolf/LICENSE-dire-wolf.txt
$(INSTALL) -D --mode=644 LICENSE-other.txt $(INSTALLDIR)/share/doc/direwolf/LICENSE-other.txt
#
# ./README.md is an overview for the project main page.
# doc/README.md contains an overview of the PDF file contents and is more useful here.
#
$(INSTALL) -D --mode=644 doc/README.md $(INSTALLDIR)/share/doc/direwolf/README.md
$(INSTALL) -D --mode=644 doc/2400-4800-PSK-for-APRS-Packet-Radio.pdf $(INSTALLDIR)/share/doc/direwolf/2400-4800-PSK-for-APRS-Packet-Radio.pdf
$(INSTALL) -D --mode=644 doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf $(INSTALLDIR)/share/doc/direwolf/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf
$(INSTALL) -D --mode=644 doc/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf $(INSTALLDIR)/share/doc/direwolf/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf
$(INSTALL) -D --mode=644 doc/A-Closer-Look-at-the-WA8LMF-TNC-Test-CD.pdf $(INSTALLDIR)/share/doc/direwolf/A-Closer-Look-at-the-WA8LMF-TNC-Test-CD.pdf
$(INSTALL) -D --mode=644 doc/APRS-Telemetry-Toolkit.pdf $(INSTALLDIR)/share/doc/direwolf/APRS-Telemetry-Toolkit.pdf
$(INSTALL) -D --mode=644 doc/APRStt-Implementation-Notes.pdf $(INSTALLDIR)/share/doc/direwolf/APRStt-Implementation-Notes.pdf
$(INSTALL) -D --mode=644 doc/APRStt-interface-for-SARTrack.pdf $(INSTALLDIR)/share/doc/direwolf/APRStt-interface-for-SARTrack.pdf
$(INSTALL) -D --mode=644 doc/APRStt-Listening-Example.pdf $(INSTALLDIR)/share/doc/direwolf/APRStt-Listening-Example.pdf
$(INSTALL) -D --mode=644 doc/Bluetooth-KISS-TNC.pdf $(INSTALLDIR)/share/doc/direwolf/Bluetooth-KISS-TNC.pdf
$(INSTALL) -D --mode=644 doc/Going-beyond-9600-baud.pdf $(INSTALLDIR)/share/doc/direwolf/Going-beyond-9600-baud.pdf
$(INSTALL) -D --mode=644 doc/Raspberry-Pi-APRS.pdf $(INSTALLDIR)/share/doc/direwolf/Raspberry-Pi-APRS.pdf
$(INSTALL) -D --mode=644 doc/Raspberry-Pi-APRS-Tracker.pdf $(INSTALLDIR)/share/doc/direwolf/Raspberry-Pi-APRS-Tracker.pdf
$(INSTALL) -D --mode=644 doc/Raspberry-Pi-SDR-IGate.pdf $(INSTALLDIR)/share/doc/direwolf/Raspberry-Pi-SDR-IGate.pdf
$(INSTALL) -D --mode=644 doc/Successful-APRS-IGate-Operation.pdf $(INSTALLDIR)/share/doc/direwolf/Successful-APRS-IGate-Operation.pdf
$(INSTALL) -D --mode=644 doc/User-Guide.pdf $(INSTALLDIR)/share/doc/direwolf/User-Guide.pdf
$(INSTALL) -D --mode=644 doc/WA8LMF-TNC-Test-CD-Results.pdf $(INSTALLDIR)/share/doc/direwolf/WA8LMF-TNC-Test-CD-Results.pdf
#
# Sample config files also go into the doc directory.
# When building from source, these can be put in home directory with "make install-conf".
# When installed from .DEB or .RPM package, the user will need to copy these to
# the home directory or other desired location.
# Someone suggested that these could go into an "examples" subdirectory under doc.
#
$(INSTALL) -D --mode=644 direwolf.conf $(INSTALLDIR)/share/doc/direwolf/direwolf.conf
$(INSTALL) -D --mode=644 telemetry-toolkit/telem-m0xer-3.txt $(INSTALLDIR)/share/doc/direwolf/telem-m0xer-3.txt
$(INSTALL) -D --mode=644 telemetry-toolkit/telem-balloon.conf $(INSTALLDIR)/share/doc/direwolf/telem-balloon.conf
$(INSTALL) -D --mode=644 telemetry-toolkit/telem-volts.conf $(INSTALLDIR)/share/doc/direwolf/telem-volts.conf
#
# "man" pages
#
$(INSTALL) -D --mode=644 man1/aclients.1 $(INSTALLDIR)/man/man1/aclients.1
$(INSTALL) -D --mode=644 man1/atest.1 $(INSTALLDIR)/man/man1/atest.1
$(INSTALL) -D --mode=644 man1/decode_aprs.1 $(INSTALLDIR)/man/man1/decode_aprs.1
$(INSTALL) -D --mode=644 man1/direwolf.1 $(INSTALLDIR)/man/man1/direwolf.1
$(INSTALL) -D --mode=644 man1/gen_packets.1 $(INSTALLDIR)/man/man1/gen_packets.1
$(INSTALL) -D --mode=644 man1/ll2utm.1 $(INSTALLDIR)/man/man1/ll2utm.1
$(INSTALL) -D --mode=644 man1/log2gpx.1 $(INSTALLDIR)/man/man1/log2gpx.1
$(INSTALL) -D --mode=644 man1/text2tt.1 $(INSTALLDIR)/man/man1/text2tt.1
$(INSTALL) -D --mode=644 man1/tt2text.1 $(INSTALLDIR)/man/man1/tt2text.1
$(INSTALL) -D --mode=644 man1/utm2ll.1 $(INSTALLDIR)/man/man1/utm2ll.1
#
@echo " "
@echo "If this is your first install, not an upgrade, type this to put a copy"
@echo "of the sample configuration file (direwolf.conf) in your home directory:"
@echo " "
@echo " make install-conf"
@echo " "
# TODO: Should we put the sample direwolf.conf file somewhere like
# /usr/share/doc/direwolf/examples and add that to the
# end of the search path list?
# That would make it easy to see user customizations compared to the
# latest sample.
# These would be done as ordinary user.
.PHONY: install-conf
install-conf : direwolf.conf
cp direwolf.conf ~
cp telemetry-toolkit/telem-m0xer-3.txt ~
cp telemetry-toolkit/telem-*.conf ~
# Separate application to decode raw data.
# First three use .c rather than .o because they depend on DECAMAIN definition.
decode_aprs : decode_aprs.c kiss_frame.c ax25_pad.c dwgpsnmea.o dwgps.o dwgpsd.o serial_port.o symbols.o textcolor.o fcs_calc.o latlong.o log.o telemetry.o tt_text.o
$(CC) $(CFLAGS) -DDECAMAIN -o $@ $^ -lm
# Convert between text and touch tone representation.
text2tt : tt_text.c
$(CC) $(CFLAGS) -DENC_MAIN -o $@ $^
tt2text : tt_text.c
$(CC) $(CFLAGS) -DDEC_MAIN -o $@ $^
# Convert between Latitude/Longitude and UTM coordinates.
ll2utm : ll2utm.c geotranz.a
$(CC) $(CFLAGS) -o $@ $^ -lm
utm2ll : utm2ll.c geotranz.a
$(CC) $(CFLAGS) -o $@ $^ -lm
# Convert from log file to GPX.
log2gpx : log2gpx.c
$(CC) $(CFLAGS) -o $@ $^ -lm
# Test application to generate sound.
gen_packets : gen_packets.c ax25_pad.c hdlc_send.c fcs_calc.c gen_tone.c morse.c dtmf.c textcolor.c dsp.c
$(CC) $(CFLAGS) -o $@ $^ $(LDLIBS) -lm
demod.o : tune.h
demod_afsk.o : tune.h
demod_9600.o : tune.h
demod_psk.o : tune.h
tune.h :
echo " " > tune.h
testagc : atest.c demod.c dsp.c demod_afsk.c demod_9600.c hdlc_rec.c hdlc_rec2.o multi_modem.o rrbb.o \
fcs_calc.c ax25_pad.c decode_aprs.c telemetry.c dtime_now.o latlong.c symbols.c tune.h textcolor.c
$(CC) $(CFLAGS) -o atest $^ -lm
./atest 02_Track_2.wav | grep "packets decoded in" > atest.out
# Unit test for demodulators
atest : atest.c demod.c dsp.c demod_afsk.c demod_psk.c demod_9600.c hdlc_rec.c hdlc_rec2.o multi_modem.o rrbb.o \
fcs_calc.c ax25_pad.c decode_aprs.c dwgpsnmea.o dwgps.o serial_port.o telemetry.c dtime_now.o latlong.c symbols.c textcolor.c tt_text.c
$(CC) $(CFLAGS) -o $@ $^ -lm
#atest : atest.c fsk_fast_filter.h demod.c dsp.c demod_afsk.c demod_psk.c demod_9600.c hdlc_rec.c hdlc_rec2.o multi_modem.o rrbb.o \
# fcs_calc.c ax25_pad.c decode_aprs.c dwgpsnmea.o dwgps.o serial_port.o telemetry.c latlong.c symbols.c textcolor.c tt_text.c
# $(CC) $(CFLAGS) -o $@ $^ -lm
# Unit test for inner digipeater algorithm
dtest : digipeater.c pfilter.o ax25_pad.o dedupe.o fcs_calc.o tq.o textcolor.o \
decode_aprs.o dwgpsnmea.o dwgps.o serial_port.o latlong.o telemetry.o symbols.o tt_text.o
$(CC) $(CFLAGS) -DTEST -o $@ $^
./dtest
# Unit test for APRStt.
ttest : aprs_tt.c tt_text.c latlong.c geotranz.a
$(CC) $(CFLAGS) -DTT_MAIN -o $@ $^
# Unit test for IGate
itest : igate.c textcolor.c ax25_pad.c fcs_calc.c
$(CC) $(CFLAGS) -DITEST -o $@ $^
./itest
# Unit test for UDP reception with AFSK demodulator
udptest : udp_test.c demod.c dsp.c demod_afsk.c demod_9600.c hdlc_rec.c hdlc_rec2.c multi_modem.c rrbb.c fcs_calc.c ax25_pad.c decode_aprs.c symbols.c textcolor.c
$(CC) $(CFLAGS) -o $@ $^ -lm
./udptest
# Unit test for telemetry decoding.
tlmtest : telemetry.c ax25_pad.c fcs_calc.c textcolor.c
$(CC) $(CFLAGS) -o $@ $^ -lm
./tlmtest
# Multiple AGWPE network or serial port clients to test TNCs side by side.
aclients : aclients.c ax25_pad.c fcs_calc.c textcolor.c
$(CC) $(CFLAGS) -g -o $@ $^
# Talk to a KISS TNC.
# Note: kiss_frame.c has conditional compilation on KISSUTIL.
kissutil : kissutil.c kiss_frame.c ax25_pad.o fcs_calc.o textcolor.o serial_port.o dtime_now.o sock.o
$(CC) $(CFLAGS) -g -DKISSUTIL -o $@ $^
# Touch Tone to Speech sample application.
ttcalc : ttcalc.o ax25_pad.o fcs_calc.o textcolor.o
$(CC) $(CFLAGS) -g -o $@ $^
depend : $(wildcard *.c)
makedepend -f $(lastword $(MAKEFILE_LIST)) -- $(CFLAGS) -- $^
.PHONY: clean
clean :
rm -f $(APPS) gen_fff \
fsk_fast_filter.h *.o *.a use_this_sdk
echo " " > tune.h
.PHONY: dist-mac
dist-mac: direwolf decode_aprs text2tt tt2text ll2utm utm2ll aclients log2gpx gen_packets \
tocalls.txt symbols-new.txt symbolsX.txt dw-icon.png
rm -f ../direwolf_dist_bin.zip
(cd .. ; zip direwolf_dist_bin.zip \
$(INSTALLDIR)/bin/direwolf \
$(INSTALLDIR)/bin/decode_aprs \
$(INSTALLDIR)/bin/text2tt \
$(INSTALLDIR)/bin/tt2text \
$(INSTALLDIR)/bin/ll2utm \
$(INSTALLDIR)/bin/utm2ll \
$(INSTALLDIR)/bin/aclients \
$(INSTALLDIR)/bin/log2gpx \
$(INSTALLDIR)/bin/gen_packets \
$(INSTALLDIR)/bin/atest \
$(INSTALLDIR)/bin/ttcalc \
$(INSTALLDIR)/bin/kissutil \
$(INSTALLDIR)/bin/dwespeak.sh \
$(INSTALLDIR)/share/direwolf/tocalls.txt \
$(INSTALLDIR)/share/direwolf/config/direwolf.conf \
$(INSTALLDIR)/share/direwolf/symbols-new.txt \
$(INSTALLDIR)/share/direwolf/symbolsX.txt \
$(INSTALLDIR)/share/direwolf/dw-icon.png \
$(INSTALLDIR)/share/doc/direwolf/README.md \
$(INSTALLDIR)/share/doc/direwolf/CHANGES.md \
$(INSTALLDIR)/share/doc/direwolf/LICENSE-dire-wolf.txt \
$(INSTALLDIR)/share/doc/direwolf/LICENSE-other.txt \
$(INSTALLDIR)/share/doc/direwolf/User-Guide.pdf \
$(INSTALLDIR)/share/doc/direwolf/Raspberry-Pi-APRS.pdf \
$(INSTALLDIR)/share/doc/direwolf/Raspberry-Pi-APRS-Tracker.pdf \
$(INSTALLDIR)/share/doc/direwolf/APRStt-Implementation-Notes.pdf \
$(INSTALLDIR)/share/doc/direwolf/APRS-Telemetry-Toolkit.pdf \
$(INSTALLDIR)/man/man1/aclients.1 \
$(INSTALLDIR)/man/man1/atest.1 \
$(INSTALLDIR)/man/man1/decode_aprs.1 \
$(INSTALLDIR)/man/man1/direwolf.1 \
$(INSTALLDIR)/man/man1/gen_packets.1 \
$(INSTALLDIR)/man/man1/kissutil.1 \
$(INSTALLDIR)/man/man1/ll2utm.1 \
$(INSTALLDIR)/man/man1/log2gpx.1 \
$(INSTALLDIR)/man/man1/text2tt.1 \
$(INSTALLDIR)/man/man1/tt2text.1 \
$(INSTALLDIR)/man/man1/utm2ll.1 \
)
# Package it up for distribution.
.PHONY: dist-src
dist-src : README.md CHANGES.md \
doc/User-Guide.pdf doc/Raspberry-Pi-APRS.pdf \
doc/Raspberry-Pi-APRS-Tracker.pdf doc/APRStt-Implementation-Notes.pdf \
dw-start.sh dwespeak.bat dwespeak.sh \
tocalls.txt symbols-new.txt symbolsX.txt direwolf.spec
rm -f fsk_fast_filter.h
echo " " > tune.h
rm -f ../$z-src.zip
(cd .. ; zip $z-src.zip \
$z/README.md \
$z/CHANGES.md \
$z/LICENSE* \
$z/doc/User-Guide.pdf \
$z/doc/Raspberry-Pi-APRS.pdf \
$z/doc/Raspberry-Pi-APRS-Tracker.pdf \
$z/doc/APRStt-Implementation-Notes.pdf \
$z/Makefile* \
$z/*.c $z/*.h \
$z/regex/* $z/misc/* $z/geotranz/* \
$z/man1/* \
$z/generic.conf \
$z/tocalls.txt $z/symbols-new.txt $z/symbolsX.txt \
$z/dw-icon.png $z/dw-icon.rc $z/dw-icon.ico \
$z/dw-start.sh $z/direwolf.spec \
$z/dwespeak.bat $z/dwespeak.sh \
$z/telemetry-toolkit/* )
#
# The destination field is often used to identify the manufacturer/model.
# These are not hardcoded into Dire Wolf. Instead they are read from
# a file called tocalls.txt at application start up time.
#
# The original permanent symbols are built in but the "new" symbols,
# using overlays, are often updated. These are also read from files.
#
# You can obtain an updated copy by typing "make tocalls-symbols".
# This is not part of the normal build process. You have to do this explicitly.
#
# The locations below appear to be the most recent.
# The copy at http://www.aprs.org/tocalls.txt is out of date.
#
.PHONY: tocalls-symbols
tocalls-symbols :
cp tocalls.txt tocalls.txt~
wget http://www.aprs.org/aprs11/tocalls.txt -O tocalls.txt
-diff -Z tocalls.txt~ tocalls.txt
cp symbols-new.txt symbols-new.txt~
wget http://www.aprs.org/symbols/symbols-new.txt -O symbols-new.txt
-diff -Z symbols-new.txt~ symbols-new.txt
cp symbolsX.txt symbolsX.txt~
wget http://www.aprs.org/symbols/symbolsX.txt -O symbolsX.txt
-diff -Z symbolsX.txt~ symbolsX.txt

695
Makefile.win
View File

@ -1,695 +0,0 @@
#
# Makefile for native Windows version of Dire Wolf.
#
#
# This is built in the Cygwin environment but with the
# compiler from http://www.mingw.org/ so there is no
# dependency on extra DLLs.
#
# The MinGW/bin directory must be in the PATH for the
# compiler. e.g. export PATH=/cygdrive/c/MinGW/bin:$PATH
#
# Failure to have the path set correctly will result in the
# obscure message: Makefile.win:... recipe for target ... failed.
#
# Type "which gcc" to make sure you are getting the right one!
#
all : direwolf decode_aprs text2tt tt2text ll2utm utm2ll aclients log2gpx gen_packets atest ttcalc tnctest kissutil
# People say we need -mthreads option for threads to work properly.
# They also say it creates a dependency on mingwm10.dll but I'm not seeing that.
# Maybe that is for pthreads. We are using the Windows threads.
# -Ofast was added in gcc 4.6 which was the MinGW version back in 2012.
CC := gcc
CFLAGS := -Ofast -march=pentium3 -msse -Iregex -Iutm -Igeotranz -mthreads -DUSE_REGEX_STATIC -Wall -Wlogical-op
AR := ar
CFLAGS += -g
# TEMP EXPERIMENT - DO NOT RELEASE
#CFLAGS += -fsanitize=undefined
# For version 1.4, we upgrade from gcc 4.6.2 to 4.9.3.
# gcc 4.8 adds these. Try them just for fun.
# No, it needs libasan which is not on Windows.
#CFLAGS += -fsanitize=address -fno-omit-frame-pointer
# Helpful for the demodulators. Overkill for non-hot spots.
#CFLAGS += -Wdouble-promotion
# Don't have the patience for this right now.
#CFLAGS += -Wextra
# Continue working on these.
CFLAGS += -Wsign-compare
CFLAGS += -Wuninitialized
CFLAGS += -Wold-style-declaration
# CFLAGS += -fdelete-null-pointer-checks -Wnull-dereference ---not recognized
#CFLAGS += -Wold-style-definition
#-Wmissing-prototypes
#
# Let's see impact of various optimization levels.
# Benchmark results with MinGW gcc version 4.6.2.
#
# seconds options, comments
# ------ -----------------
# 119.8 -O2 Used for version 0.8
# 92.1 -O3
# 88.7 -Ofast (should be same as -O3 -ffastmath)
# 87.5 -Ofast -march=pentium
# 74.1 -Ofast -msse
# 72.2 -Ofast -march=pentium -msse
# 62.0 -Ofast -march=pentium3 (this implies -msse)
# 61.9 -Ofast -march=pentium3 -msse
#
# A minimum of Windows XP is required due to some of the system
# features being used. XP requires a Pentium processor or later.
# The DSP filters can be sped up considerably with the SSE instructions.
# The SSE instructions were introduced in 1999 with the
# Pentium III series.
# SSE2 instructions, added in 2000, don't seem to offer any advantage.
#
# For version 0.9, a Pentium 3 or equivalent is now the minimum required
# for the prebuilt Windows distribution.
# If you insist on using a computer from the previous century,
# you can compile this yourself with different options.
#
# -------------------------------------- Main application --------------------------------
# Not sure why this is here.
demod.o : fsk_demod_state.h
demod_9600.o : fsk_demod_state.h
demod_afsk.o : fsk_demod_state.h
demod_psk.o : fsk_demod_state.h
direwolf : direwolf.o config.o recv.o demod.o dsp.o demod_afsk.o demod_psk.o demod_9600.o hdlc_rec.o \
hdlc_rec2.o multi_modem.o rdq.o rrbb.o dlq.o \
fcs_calc.o ax25_pad.o ax25_pad2.o xid.o \
decode_aprs.o symbols.o server.o kiss.o kissserial.o kissnet.o kiss_frame.o hdlc_send.o fcs_calc.o \
gen_tone.o morse.o audio_win.o audio_stats.o digipeater.o cdigipeater.o pfilter.o dedupe.o tq.o xmit.o \
ptt.o beacon.o dwgps.o encode_aprs.o latlong.o textcolor.o \
dtmf.o aprs_tt.o tt_user.o tt_text.o igate.o waypoint.o serial_port.o log.o telemetry.o \
dwgps.o dwgpsnmea.o dtime_now.o mheard.o ax25_link.o cm108.c \
dw-icon.o regex.a misc.a geotranz.a
$(CC) $(CFLAGS) -o $@ $^ -lwinmm -lws2_32
dw-icon.o : dw-icon.rc dw-icon.ico
windres dw-icon.rc -o $@
# Optimization for slow processors.
demod.o : fsk_fast_filter.h
demod_afsk.o : fsk_fast_filter.h
fsk_fast_filter.h : gen_fff
./gen_fff > fsk_fast_filter.h
gen_fff : demod_afsk.c dsp.c textcolor.c
echo " " > tune.h
$(CC) $(CFLAGS) -DGEN_FFF -o $@ $^
#
# The destination field is often used to identify the manufacturer/model.
# These are not hardcoded into Dire Wolf. Instead they are read from
# a file called tocalls.txt at application start up time.
#
# The original permanent symbols are built in but the "new" symbols,
# using overlays, are often updated. These are also read from files.
#
# You can obtain an updated copy by typing "make tocalls-symbols".
# This is not part of the normal build process. You have to do this explicitly.
#
# The locations below appear to be the most recent.
# The copy at http://www.aprs.org/tocalls.txt is out of date.
#
.PHONY: tocalls-symbols
tocalls-symbols :
cp tocalls.txt tocalls.txt~
wget http://www.aprs.org/aprs11/tocalls.txt -O tocalls.txt
-diff tocalls.txt~ tocalls.txt
cp symbols-new.txt symbols-new.txt~
wget http://www.aprs.org/symbols/symbols-new.txt -O symbols-new.txt
-diff symbols-new.txt~ symbols-new.txt
cp symbolsX.txt symbolsX.txt~
wget http://www.aprs.org/symbols/symbolsX.txt -O symbolsX.txt
-diff symbolsX.txt~ symbolsX.txt
# ---------------------------- Other utilities included with distribution -------------------------
# Separate application to decode raw data.
# First three use .c rather than .o because they depend on DECAMAIN definition.
decode_aprs : decode_aprs.c kiss_frame.c ax25_pad.c dwgpsnmea.o dwgps.o serial_port.o symbols.o textcolor.o fcs_calc.o latlong.o log.o telemetry.o tt_text.o regex.a misc.a geotranz.a
$(CC) $(CFLAGS) -DDECAMAIN -o decode_aprs $^
# Convert between text and touch tone representation.
text2tt : tt_text.c misc.a
$(CC) $(CFLAGS) -DENC_MAIN -o $@ $^
tt2text : tt_text.c misc.a
$(CC) $(CFLAGS) -DDEC_MAIN -o $@ $^
# Convert between Latitude/Longitude and UTM coordinates.
ll2utm : ll2utm.c textcolor.c geotranz.a misc.a
$(CC) $(CFLAGS) -o $@ $^
utm2ll : utm2ll.c textcolor.c geotranz.a misc.a
$(CC) $(CFLAGS) -o $@ $^
# Convert from log file to GPX.
log2gpx : log2gpx.c textcolor.o misc.a
$(CC) $(CFLAGS) -o $@ $^
# Test application to generate sound.
gen_packets : gen_packets.o ax25_pad.o hdlc_send.o fcs_calc.o gen_tone.o morse.o dtmf.o textcolor.o dsp.o misc.a regex.a
$(CC) $(CFLAGS) -o $@ $^
# Connected mode packet application server.
appserver : appserver.o textcolor.o ax25_pad.o fcs_calc.o misc.a
$(CC) $(CFLAGS) -o $@ $^ -lwinmm -lws2_32
# ------------------------------------------- Libraries --------------------------------------------
# UTM, USNG, MGRS conversions.
geotranz.a : error_string.o mgrs.o polarst.o tranmerc.o ups.o usng.o utm.o
ar -cr $@ $^
error_string.o : geotranz/error_string.c
$(CC) $(CFLAGS) -c -o $@ $^
mgrs.o : geotranz/mgrs.c
$(CC) $(CFLAGS) -c -o $@ $^
polarst.o : geotranz/polarst.c
$(CC) $(CFLAGS) -c -o $@ $^
tranmerc.o : geotranz/tranmerc.c
$(CC) $(CFLAGS) -c -o $@ $^
ups.o : geotranz/ups.c
$(CC) $(CFLAGS) -c -o $@ $^
usng.o : geotranz/usng.c
$(CC) $(CFLAGS) -c -o $@ $^
utm.o : geotranz/utm.c
$(CC) $(CFLAGS) -c -o $@ $^
#
# When building for Linux, we use regular expression
# functions supplied by the gnu C library.
# For the native WIN32 version, we need to use our own copy.
# These were copied from http://gnuwin32.sourceforge.net/packages/regex.htm
# Consider upgrading from https://www.gnu.org/software/libc/sources.html
regex.a : regex.o
ar -cr $@ $^
regex.o : regex/regex.c
$(CC) $(CFLAGS) -Dbool=int -Dtrue=1 -Dfalse=0 -c -o $@ $^
# There are several string functions found in Linux
# but not on Windows. Need to provide our own copy.
misc.a : strsep.o strtok_r.o strcasestr.o strlcpy.o strlcat.o
ar -cr $@ $^
strsep.o : misc/strsep.c
$(CC) $(CFLAGS) -c -o $@ $^
strtok_r.o : misc/strtok_r.c
$(CC) $(CFLAGS) -c -o $@ $^
strcasestr.o : misc/strcasestr.c
$(CC) $(CFLAGS) -c -o $@ $^
strlcpy.o : misc/strlcpy.c
$(CC) $(CFLAGS) -I. -c -o $@ $^
strlcat.o : misc/strlcat.c
$(CC) $(CFLAGS) -I. -c -o $@ $^
# --------------------------------- Automated Smoke Test --------------------------------
# Combine some unit tests into a single regression sanity check.
check : dtest ttest tttexttest pftest tlmtest lltest enctest kisstest pad2test xidtest dtmftest check-modem1200 check-modem300 check-modem9600 check-modem19200 check-modem2400 check-modem4800
# Can we encode and decode at popular data rates?
# Verify that single bit fixup increases the count.
check-modem1200 : gen_packets atest
gen_packets -n 100 -o test12.wav
atest -F0 -PE -L64 -G72 test12.wav
atest -F1 -PE -L70 -G75 test12.wav
rm test12.wav
check-modem300 : gen_packets atest
gen_packets -B300 -n 100 -o test3.wav
atest -B300 -F0 -L68 -G69 test3.wav
atest -B300 -F1 -L71 -G75 test3.wav
rm test3.wav
#FIXME: test full amplitude.
check-modem9600 : gen_packets atest
gen_packets -B9600 -a 170 -o test96.wav
sleep 1
atest -B9600 -F0 -L4 -G4 test96.wav
sleep 1
rm test96.wav
sleep 1
gen_packets -B9600 -n 100 -o test96.wav
sleep 1
atest -B9600 -F0 -L50 -G54 test96.wav
atest -B9600 -F1 -L55 -G59 test96.wav
sleep 1
rm test96.wav
check-modem19200 : gen_packets atest
gen_packets -r 96000 -B19200 -a 170 -o test19.wav
sleep 1
atest -B19200 -F0 -L4 test19.wav
sleep 1
rm test19.wav
sleep 1
gen_packets -r 96000 -B19200 -n 100 -o test19.wav
sleep 1
atest -B19200 -F0 -L55 -G59 test19.wav
atest -B19200 -F1 -L60 -G64 test19.wav
sleep 1
rm test19.wav
check-modem2400 : gen_packets atest
gen_packets -B2400 -n 100 -o test24.wav
sleep 1
atest -B2400 -F0 -L70 -G78 test24.wav
atest -B2400 -F1 -L80 -G87 test24.wav
sleep 1
rm test24.wav
check-modem4800 : gen_packets atest
gen_packets -B4800 -n 100 -o test48.wav
sleep 1
atest -B4800 -F0 -L70 -G74 test48.wav
atest -B4800 -F1 -L79 -G84 test48.wav
sleep 1
rm test48.wav
# Unit test for demodulators
atest : atest.c fsk_fast_filter.h demod.c demod_afsk.c demod_psk.c demod_9600.c \
dsp.o hdlc_rec.o hdlc_rec2.o multi_modem.o \
rrbb.o fcs_calc.o ax25_pad.o decode_aprs.o \
dwgpsnmea.o dwgps.o serial_port.o latlong.c \
symbols.c tt_text.c textcolor.c telemetry.c dtime_now.o \
decode_aprs.o log.o \
misc.a regex.a
echo " " > tune.h
$(CC) $(CFLAGS) -o $@ $^
#./atest ..\\direwolf-0.2\\02_Track_2.wav
#atest -B 9600 z9.wav
#atest za100.wav
atest9 : atest.c demod.c dsp.c demod_afsk.c demod_psk.c demod_9600.c hdlc_rec.c hdlc_rec2.c multi_modem.c \
rrbb.c fcs_calc.c ax25_pad.c decode_aprs.c latlong.c symbols.c textcolor.c telemetry.c dtime_now.o misc.a regex.a \
fsk_fast_filter.h
echo " " > tune.h
$(CC) $(CFLAGS) -o $@ $^
./atest9 -B 9600 ../walkabout9600.wav | grep "packets decoded in" >atest.out
#./atest9 -B 9600 noise96.wav
# Unit test for inner digipeater algorithm
.PHONY: dtest
dtest : digipeater.c dedupe.c pfilter.c \
ax25_pad.o fcs_calc.o tq.o textcolor.o \
decode_aprs.o dwgpsnmea.o dwgps.o serial_port.o latlong.o telemetry.o symbols.o tt_text.o misc.a regex.a
$(CC) $(CFLAGS) -DDIGITEST -o $@ $^
./dtest
rm dtest.exe
# Unit test for APRStt tone seqence parsing.
.PHONTY: ttest
ttest : aprs_tt.c tt_text.c latlong.o textcolor.o geotranz.a misc.a
$(CC) $(CFLAGS) -Igeotranz -DTT_MAIN -o $@ $^
./ttest
rm ttest.exe
# Unit test for APRStt tone sequence / text conversions.
.PHONY: tttexttest
tttexttest : tt_text.c textcolor.o misc.a
$(CC) $(CFLAGS) -DTTT_TEST -o $@ $^
./tttexttest
rm tttexttest.exe
# Unit test for Packet Filtering.
.PHONY: pftest
pftest : pfilter.c ax25_pad.o textcolor.o fcs_calc.o decode_aprs.o dwgpsnmea.o dwgps.o serial_port.o latlong.o symbols.o telemetry.o tt_text.o misc.a regex.a
$(CC) $(CFLAGS) -DPFTEST -o $@ $^
./pftest
rm pftest.exe
# Unit test for telemetry decoding.
.PHONY: tlmtest
tlmtest : telemetry.c ax25_pad.o fcs_calc.o textcolor.o misc.a regex.a
$(CC) $(CFLAGS) -DTEST -o $@ $^
./tlmtest
rm tlmtest.exe
# Unit test for location coordinate conversion.
.PHONY: lltest
lltest : latlong.c textcolor.o misc.a
$(CC) $(CFLAGS) -DLLTEST -o $@ $^
./lltest
rm lltest.exe
# Unit test for encoding position & object report.
.PHONY: enctest
enctest : encode_aprs.c latlong.c textcolor.c misc.a
$(CC) $(CFLAGS) -DEN_MAIN -o $@ $^
./enctest
rm enctest.exe
# Unit test for KISS encapsulation.
.PHONY: kisstest
kisstest : kiss_frame.c
$(CC) $(CFLAGS) -DKISSTEST -o $@ $^
./kisstest
rm kisstest.exe
# Unit test for constructing frames besides UI.
.PHONY: pad2test
pad2test : ax25_pad2.c ax25_pad.c fcs_calc.o textcolor.o regex.a misc.a
$(CC) $(CFLAGS) -DPAD2TEST -o $@ $^
./pad2test
rm pad2test.exe
# Unit Test for XID frame encode/decode.
.PHONY: xidtest
xidtest : xid.c textcolor.o misc.a
$(CC) $(CFLAGS) -DXIDTEST -o $@ $^
./xidtest
rm xidtest.exe
# Unit Test for DTMF encode/decode.
.PHONY: dtmftest
dtmftest : dtmf.c textcolor.o
$(CC) $(CFLAGS) -DDTMF_TEST -o $@ $^
./dtmftest
rm dtmftest.exe
# ------------------------------ Other manual testing & experimenting -------------------------------
tnctest : tnctest.c textcolor.o dtime_now.o serial_port.o misc.a
$(CC) $(CFLAGS) -o $@ $^ -lwinmm -lws2_32
# For tweaking the demodulator.
demod.o : tune.h
demod_9600.o : tune.h
demod_afsk.o : tune.h
demod_psk.o : tune.h
testagc : atest.c demod.c dsp.c demod_afsk.c demod_psk.c demod_9600.o fsk_demod_agc.h \
hdlc_rec.o hdlc_rec2.o multi_modem.o \
rrbb.o fcs_calc.o ax25_pad.o decode_aprs.o latlong.o symbols.o textcolor.o telemetry.o \
dwgpsnmea.o dwgps.o serial_port.o tt_text.o dtime_now.o regex.a misc.a
rm -f atest.exe
$(CC) $(CFLAGS) -o atest $^
./atest -P GGG- -F 0 ../02_Track_2.wav | grep "packets decoded in" >atest.out
echo " " > tune.h
noisy3.wav : gen_packets
./gen_packets -B 300 -n 100 -o noisy3.wav
testagc3 : atest.c demod.c dsp.c demod_afsk.c demod_psk.c demod_9600.c hdlc_rec.c hdlc_rec2.c multi_modem.c \
rrbb.c fcs_calc.c ax25_pad.c decode_aprs.c latlong.c symbols.c textcolor.c telemetry.c dtime_now.o regex.a misc.a \
tune.h
rm -f atest3.exe
$(CC) $(CFLAGS) -o atest3 $^
./atest3 -B 300 -P D -D 3 noisy3.wav | grep "packets decoded in" >atest.out
echo " " > tune.h
noisy96.wav : gen_packets
./gen_packets -B 9600 -n 100 -o noisy96.wav
testagc96 : atest.c fsk_fast_filter.h tune.h demod.c demod_afsk.c demod_psk.c demod_9600.c \
dsp.o hdlc_rec.o hdlc_rec2.o multi_modem.o \
rrbb.o fcs_calc.o ax25_pad.o decode_aprs.o \
dwgpsnmea.o dwgps.o serial_port.o latlong.o \
symbols.o tt_text.o textcolor.o telemetry.o dtime_now.o \
misc.a regex.a
rm -f atest96.exe
$(CC) $(CFLAGS) -o atest96 $^
./atest96 -B 9600 ../walkabout9600c.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 noisy96.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 19990303_0225_9600_8bis_22kHz.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 19990303_0225_9600_16bit_22kHz.wav | grep "packets decoded in" >atest.out
#./atest96 -B 9600 -P + z8-22k.wav| grep "packets decoded in" >atest.out
#./atest96 -B 9600 test9600.wav | grep "packets decoded in" >atest.out
echo " " > tune.h
testagc24 : atest.c fsk_fast_filter.h tune.h demod.c demod_afsk.c demod_psk.c demod_9600.c \
dsp.o hdlc_rec.o hdlc_rec2.o multi_modem.o \
rrbb.o fcs_calc.o ax25_pad.o decode_aprs.o \
dwgpsnmea.o dwgps.o serial_port.o latlong.o \
symbols.o tt_text.o textcolor.o telemetry.o dtime_now.o \
misc.a regex.a
rm -f atest24.exe
sleep 1
$(CC) $(CFLAGS) -o atest24 $^
./atest24 -B 2400 test2400.wav | grep "packets decoded in" >atest.out
echo " " > tune.h
testagc48 : atest.c fsk_fast_filter.h tune.h demod.c demod_afsk.c demod_psk.c demod_9600.c \
dsp.o hdlc_rec.o hdlc_rec2.o multi_modem.o \
rrbb.o fcs_calc.o ax25_pad.o decode_aprs.o \
dwgpsnmea.o dwgps.o serial_port.o latlong.o \
symbols.o tt_text.o textcolor.o telemetry.o dtime_now.o \
misc.a regex.a
rm -f atest48.exe
sleep 1
$(CC) $(CFLAGS) -o atest48 $^
./atest48 -B 4800 test4800.wav | grep "packets decoded in" >atest.out
#./atest48 -B 4800 test4800.wav
echo " " > tune.h
# Unit test for IGate
itest : igate.c textcolor.c ax25_pad.c fcs_calc.c misc.a regex.a
$(CC) $(CFLAGS) -DITEST -o $@ $^ -lwinmm -lws2_32
# Multiple AGWPE network or serial port clients to test TNCs side by side.
aclients : aclients.c ax25_pad.c fcs_calc.c textcolor.c misc.a regex.a
$(CC) $(CFLAGS) -o $@ $^ -lwinmm -lws2_32
# Talk to a KISS TNC.
# Note: kiss_frame.c has conditional compilation on KISSUTIL.
kissutil : kissutil.c kiss_frame.c ax25_pad.o fcs_calc.o textcolor.o serial_port.o sock.o dtime_now.o misc.a regex.a
$(CC) $(CFLAGS) -DKISSUTIL -o $@ $^ -lwinmm -lws2_32
# Touch Tone to Speech sample application.
ttcalc : ttcalc.o ax25_pad.o fcs_calc.o textcolor.o misc.a regex.a
$(CC) $(CFLAGS) -o $@ $^ -lwinmm -lws2_32
# Send GPS location to KISS TNC each second.
walk96 : walk96.c dwgps.o dwgpsnmea.o kiss_frame.o \
latlong.o encode_aprs.o serial_port.o textcolor.o \
ax25_pad.o fcs_calc.o \
xmit.o hdlc_send.o gen_tone.o ptt.o tq.o \
hdlc_rec.o hdlc_rec2.o rrbb.o dsp.o audio_win.o \
multi_modem.o demod.o demod_afsk.o demod_psk.c demod_9600.o rdq.o \
server.o morse.o dtmf.o audio_stats.o dtime_now.o dlq.o \
regex.a misc.a
$(CC) $(CFLAGS) -DWALK96 -o $@ $^ -lwinmm -lws2_32
#--------------------------------------------------------------
.PHONY: depend
depend : $(wildcard *.c)
makedepend -f $(lastword $(MAKEFILE_LIST)) -- $(CFLAGS) -- $^
.PHONY: clean
clean :
rm -f *.o *.a *.exe fsk_fast_filter.h noisy96.wav
echo " " > tune.h
# ------------------------------- Packaging for distribution ----------------------
# Name of zip file for distribution.
z := $(notdir ${CURDIR})
.PHONY: dist-win
dist-win : direwolf.exe decode_aprs.exe text2tt.exe tt2text.exe ll2utm.exe utm2ll.exe \
aclients.exe log2gpx.exe gen_packets.exe atest.exe ttcalc.exe kissutil.exe \
generic.conf dwespeak.bat \
README.md CHANGES.md \
doc/User-Guide.pdf \
doc/Raspberry-Pi-APRS.pdf \
doc/APRStt-Implementation-Notes.pdf
rm -f ../$z-win.zip
egrep '^C|^W' generic.conf | cut -c2-999 > direwolf.conf
unix2dos direwolf.conf
cp doc/README.md README-doc.md
zip --junk-paths ../$z-win.zip \
README.md \
CHANGES.md \
README-doc.md \
doc/2400-4800-PSK-for-APRS-Packet-Radio.pdf \
doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf \
doc/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf \
doc/A-Closer-Look-at-the-WA8LMF-TNC-Test-CD.pdf \
doc/APRS-Telemetry-Toolkit.pdf \
doc/APRStt-Implementation-Notes.pdf \
doc/APRStt-interface-for-SARTrack.pdf \
doc/APRStt-Listening-Example.pdf \
doc/Bluetooth-KISS-TNC.pdf \
doc/Going-beyond-9600-baud.pdf \
doc/Raspberry-Pi-APRS.pdf \
doc/Raspberry-Pi-APRS-Tracker.pdf \
doc/Raspberry-Pi-SDR-IGate.pdf \
doc/Successful-APRS-IGate-Operation.pdf \
doc/User-Guide.pdf \
doc/WA8LMF-TNC-Test-CD-Results.pdf \
LICENSE* \
direwolf.conf \
direwolf.exe \
decode_aprs.exe \
tocalls.txt symbols-new.txt symbolsX.txt \
text2tt.exe tt2text.exe \
ll2utm.exe utm2ll.exe \
aclients.exe \
log2gpx.exe \
gen_packets.exe \
atest.exe \
ttcalc.exe \
kissutil.exe \
dwespeak.bat \
telemetry-toolkit/*
rm README-doc.md
# Reminders if pdf files are not up to date.
doc/User-Guide.pdf : doc/User-Guide.docx
echo "***** User-Guide.pdf is out of date *****"
doc/Raspberry-Pi-APRS.pdf : doc/Raspberry-Pi-APRS.docx
echo "***** Raspberry-Pi-APRS.pdf is out of date *****"
doc/Raspberry-Pi-APRS-Tracker.pdf : doc/Raspberry-Pi-APRS-Tracker.docx
echo "***** Raspberry-Pi-APRS-Tracker.pdf is out of date *****"
doc/APRStt-Implementation-Notes.pdf : doc/APRStt-Implementation-Notes.docx
echo "***** APRStt-Implementation-Notes.pdf is out of date *****"
doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf : doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.docx
echo "***** A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf is out of date *****"
doc/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf : doc/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.docx
echo "***** A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf is out of date *****"
doc/APRS-Telemetry-Toolkit.pdf : doc/APRS-Telemetry-Toolkit.docx
echo "***** APRS-Telemetry-Toolkit.pdf is out of date *****"
.PHONY: backup
backup :
mkdir /cygdrive/e/backup-cygwin-home/`date +"%Y-%m-%d"`
cp -r . /cygdrive/e/backup-cygwin-home/`date +"%Y-%m-%d"`
#
# The following is updated by "make depend"
#
# DO NOT DELETE

95
README.md
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@ -3,13 +3,16 @@
### Decoded Information from Radio Emissions for Windows Or Linux Fans ### ### Decoded Information from Radio Emissions for Windows Or Linux Fans ###
In the early days of Amateur Packet Radio, it was necessary to use an expensive “Terminal Node Controller” (TNC) with specialized hardware. Those days are gone. You can now get better results at lower cost by connecting your radio to the “soundcard” interface of a computer and using software to decode the signals. In the early days of Amateur Packet Radio, it was necessary to use an expensive "Terminal Node Controller" (TNC) with specialized hardware. Those days are gone. You can now get better results at lower cost by connecting your radio to the "soundcard" interface of a computer and using software to decode the signals.
Why settle for mediocre receive performance from a 1980's technology TNC using an old modem chip? Dire Wolf decodes over 1000 error-free frames from Track 2 of the [WA8LMF TNC Test CD](https://github.com/wb2osz/direwolf/tree/dev/doc/WA8LMF-TNC-Test-CD-Results.pdf), leaving all the hardware TNCs, and first generation "soundcard" modems, behind in the dust. Why waste $200 and settle for mediocre receive performance from a 1980's technology TNC using an old modem chip? Dire Wolf decodes over 1000 error-free frames from Track 2 of the [WA8LMF TNC Test CD](https://github.com/wb2osz/direwolf/tree/dev/doc/WA8LMF-TNC-Test-CD-Results.pdf), leaving all the hardware TNCs, and first generation "soundcard" modems, behind in the dust.
![](tnc-test-cd-results.png) ![](tnc-test-cd-results.png)
Dire Wolf now includes [FX.25](https://en.wikipedia.org/wiki/FX.25_Forward_Error_Correction/) which adds Forward Error Correction (FEC) in a way that is completely compatible with existing systems. If both ends are capable of FX.25, your information will continue to get through under conditions where regular AX.25 is completely useless.
![](fx25.png)
Dire Wolf is a modern software replacement for the old 1980's style TNC built with special hardware. Dire Wolf is a modern software replacement for the old 1980's style TNC built with special hardware.
Without any additional software, it can perform as: Without any additional software, it can perform as:
@ -20,7 +23,7 @@ Without any additional software, it can perform as:
- [APRStt](http://www.aprs.org/aprstt.html) gateway - [APRStt](http://www.aprs.org/aprstt.html) gateway
It can also be used as a virtual TNC for other applications such as [APRSIS32](http://aprsisce.wikidot.com/), [UI-View32](http://www.ui-view.net/), [Xastir](http://xastir.org/index.php/Main_Page), [APRS-TW](http://aprstw.blandranch.net/), [YAAC](http://www.ka2ddo.org/ka2ddo/YAAC.html), [UISS](http://users.belgacom.net/hamradio/uiss.htm), [Linux AX25](http://www.linux-ax25.org/wiki/Main_Page), [SARTrack](http://www.sartrack.co.nz/index.html), [Winlink Express (formerly known as RMS Express, formerly known as Winlink 2000 or WL2K)](http://www.winlink.org/RMSExpress), [BPQ32](http://www.cantab.net/users/john.wiseman/Documents/BPQ32.html), [Outpost PM](http://www.outpostpm.org/), and many others. It can also be used as a virtual TNC for other applications such as [APRSIS32](http://aprsisce.wikidot.com/), [Xastir](http://xastir.org/index.php/Main_Page), [APRS-TW](http://aprstw.blandranch.net/), [YAAC](http://www.ka2ddo.org/ka2ddo/YAAC.html), [PinPoint APRS](http://www.pinpointaprs.com/), [UI-View32](http://www.ui-view.net/),[UISS](http://users.belgacom.net/hamradio/uiss.htm), [Linux AX25](http://www.linux-ax25.org/wiki/Main_Page), [SARTrack](http://www.sartrack.co.nz/index.html), [Winlink Express (formerly known as RMS Express, formerly known as Winlink 2000 or WL2K)](http://www.winlink.org/RMSExpress), [BPQ32](http://www.cantab.net/users/john.wiseman/Documents/BPQ32.html), [Outpost PM](http://www.outpostpm.org/), [Ham Radio of Things](https://github.com/wb2osz/hrot), [Packet Compressed Sensing Imaging (PCSI)](https://maqifrnswa.github.io/PCSI/), and many others.
## Features & Benefits ## ## Features & Benefits ##
@ -49,6 +52,11 @@ It can also be used as a virtual TNC for other applications such as [APRSIS32](h
IGate stations allow communication between disjoint radio networks by allowing some content to flow between them over the Internet. IGate stations allow communication between disjoint radio networks by allowing some content to flow between them over the Internet.
- **Ham Radio of Things (HRoT).**
There have been occasional mentions of merging Ham Radio with the Internet of Things but only ad hoc incompatible narrowly focused applications. Here is a proposal for a standardized more flexible method so different systems can communicate with each other.
[Ham Radio of Things - IoT over Ham Radio](https://github.com/wb2osz/hrot)
- **AX.25 v2.2 Link Layer.** - **AX.25 v2.2 Link Layer.**
@ -56,23 +64,23 @@ It can also be used as a virtual TNC for other applications such as [APRSIS32](h
- **KISS Interface (TCP/IP, serial port, Bluetooth) & AGW network Interface (TCP/IP).** - **KISS Interface (TCP/IP, serial port, Bluetooth) & AGW network Interface (TCP/IP).**
Dire Wolf can be used as a virtual TNC for applications such as APRSIS32, UI-View32, Xastir, APRS-TW,YAAC, UISS, Linux AX25, SARTrack, Winlink / RMS Express, Outpost PM, and many others. Dire Wolf can be used as a virtual TNC for applications such as [APRSIS32](http://aprsisce.wikidot.com/), [Xastir](http://xastir.org/index.php/Main_Page), [APRS-TW](http://aprstw.blandranch.net/), [YAAC](http://www.ka2ddo.org/ka2ddo/YAAC.html), [PinPoint APRS](http://www.pinpointaprs.com/), [UI-View32](http://www.ui-view.net/),[UISS](http://users.belgacom.net/hamradio/uiss.htm), [Linux AX25](http://www.linux-ax25.org/wiki/Main_Page), [SARTrack](http://www.sartrack.co.nz/index.html), [Winlink Express (formerly known as RMS Express, formerly known as Winlink 2000 or WL2K)](http://www.winlink.org/RMSExpress), [BPQ32](http://www.cantab.net/users/john.wiseman/Documents/BPQ32.html), [Outpost PM](http://www.outpostpm.org/), [Ham Radio of Things](https://github.com/wb2osz/hrot), [Packet Compressed Sensing Imaging (PCSI)](https://maqifrnswa.github.io/PCSI/), and many others.
### Radio Interfaces: ### ### Radio Interfaces: ###
- **Uses computers “soundcard” and digital signal processing.** - **Uses computer's "soundcard" and digital signal processing.**
Lower cost and better performance than specialized hardware. Lower cost and better performance than specialized hardware.
Compatible interfaces include [UDRC](https://nw-digital-radio.groups.io/g/udrc/wiki/UDRC%E2%84%A2-and-Direwolf-Packet-Modem), [SignaLink USB](http://www.tigertronics.com/slusbmain.htm), [DMK URI](http://www.dmkeng.com/URI_Order_Page.htm), [RB-USB RIM](http://www.repeater-builder.com/products/usb-rim-lite.html), [RA-35](http://www.masterscommunications.com/products/radio-adapter/ra35.html), and many others. Compatible interfaces include [DRAWS](http://nwdigitalradio.com/draws/), [UDRC](https://nw-digital-radio.groups.io/g/udrc/wiki/UDRC%E2%84%A2-and-Direwolf-Packet-Modem), [SignaLink USB](http://www.tigertronics.com/slusbmain.htm), [DMK URI](http://www.dmkeng.com/URI_Order_Page.htm), [RB-USB RIM](http://www.repeater-builder.com/products/usb-rim-lite.html), [RA-35](http://www.masterscommunications.com/products/radio-adapter/ra35.html), [DINAH](https://hamprojects.info/dinah/), [SHARI](https://hamprojects.info/shari/), and many others.
- **Standard 300, 1200 & 9600 bps modems and more.** - **Standard 300, 1200 & 9600 bps modems and more.**
- **DTMF (“Touch Tone”) Decoding and Encoding.** - **DTMF ("Touch Tone") Decoding and Encoding.**
- **Speech Synthesizer & Morse code generator.** - **Speech Synthesizer interface & Morse code generator.**
Transmit human understandable messages. Transmit human understandable messages.
@ -101,59 +109,86 @@ It can also be used as a virtual TNC for other applications such as [APRSIS32](h
Go to the [**releases** page](https://github.com/wb2osz/direwolf/releases). Download a zip file with "win" in its name, unzip it, and run direwolf.exe from a command window. Go to the [**releases** page](https://github.com/wb2osz/direwolf/releases). Download a zip file with "win" in its name, unzip it, and run direwolf.exe from a command window.
For more details see the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc). You can also build it yourself from source. For more details see the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc).
### Linux - Using git clone (recommended) ### ### Linux - Using git clone (recommended) ###
***Note that this has changed for version 1.6. There are now a couple extra steps.***
First you will need to install some software development packages using different commands depending on your flavor of Linux.
In most cases, the first few will already be there and the package installer will tell you that installation is not necessary.
On Debian / Ubuntu / Raspbian / Raspberry Pi OS:
sudo apt-get install git
sudo apt-get install gcc
sudo apt-get install g++
sudo apt-get install make
sudo apt-get install cmake
sudo apt-get install libasound2-dev
sudo apt-get install libudev-dev
Or on Red Hat / Fedora / CentOS:
sudo yum install git
sudo yum install gcc
sudo yum install gcc-c++
sudo yum install make
sudo yum install alsa-lib-devel
sudo yum install libudev-devel
CentOS 6 & 7 currently have cmake 2.8 but we need 3.1 or later.
First you need to enable the EPEL repository. Add a symlink if you don't already have the older version and want to type cmake rather than cmake3.
sudo yum install epel-release
sudo rpm -e cmake
sudo yum install cmake3
sudo ln -s /usr/bin/cmake3 /usr/bin/cmake
Then on any flavor of Linux:
cd ~ cd ~
git clone https://www.github.com/wb2osz/direwolf git clone https://www.github.com/wb2osz/direwolf
cd direwolf cd direwolf
make git checkout dev
mkdir build && cd build
cmake ..
make -j4
sudo make install sudo make install
make install-conf make install-conf
This should give you the most recent stable release. If you want the latest (possibly unstable) development version, use "git checkout dev" before the first "make" command. This gives you the latest development version. Leave out the "git checkout dev" to get the most recent stable release.
For more details see the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc). Special considerations for the Raspberry Pi are found in **Raspberry-Pi-APRS.pdf** For more details see the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc). Special considerations for the Raspberry Pi are found in **Raspberry-Pi-APRS.pdf**
### Linux - Using apt-get (Debian flavor operating systems) ### ### Linux - Using apt-get (Debian flavor operating systems) ###
Results will vary depending on your hardware platform and operating system version because it depends on various volunteers who perform the packaging. Results will vary depending on your hardware platform and operating system version because it depends on various volunteers who perform the packaging. Expect the version to lag significantly behind development.
sudo apt-get update sudo apt-get update
apt-cache showpkg direwolf apt-cache showpkg direwolf
sudo apt-get install direwolf sudo apt-get install direwolf
### Linux - Using yum (Red Hat flavor operating systems) ### ### Linux - Using yum (Red Hat flavor operating systems) ###
Results will vary depending on your hardware platform and operating system version because it depends on various volunteers who perform the packaging. Results will vary depending on your hardware platform and operating system version because it depends on various volunteers who perform the packaging. Expect the version to lag significantly behind development.
sudo yum check-update sudo yum check-update
sudo yum list direwolf sudo yum list direwolf
sudo yum install direwolf sudo yum install direwolf
### Linux - Download source in tar or zip file ###
Go to the [releases page](https://github.com/wb2osz/direwolf/releases). Chose desired release and download the source as zip or compressed tar file. Unpack the files, with "unzip" or "tar xfz," and then:
cd direwolf-*
make
sudo make install
make install-conf
For more details see the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc). Special considerations for the Raspberry Pi are found in **Raspberry-Pi-APRS.pdf**
### Macintosh OS X ### ### Macintosh OS X ###
Read the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc). It is a lot more complicated than Linux. Read the **User Guide** in the [**doc** directory](https://github.com/wb2osz/direwolf/tree/master/doc). It is more complicated than Linux.
If you have problems, post them to the [Dire Wolf packet TNC](https://groups.yahoo.com/neo/groups/direwolf_packet/info) discussion group. I don't have a Mac and probably won't be able to help you. I rely on others, in the user community, for the Mac version. If you have problems, post them to the [Dire Wolf packet TNC](https://groups.io/g/direwolf) discussion group.
@ -161,7 +196,7 @@ If you have problems, post them to the [Dire Wolf packet TNC](https://groups.ya
Here are some good places to ask questions and share your experience: Here are some good places to ask questions and share your experience:
- [Dire Wolf packet TNC](https://groups.yahoo.com/neo/groups/direwolf_packet/info) - [Dire Wolf Software TNC](https://groups.io/g/direwolf)
- [Raspberry Pi 4 Ham Radio](https://groups.io/g/RaspberryPi-4-HamRadio) - [Raspberry Pi 4 Ham Radio](https://groups.io/g/RaspberryPi-4-HamRadio)

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include(CPack)

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[Desktop Entry]
Name=@APPLICATION_NAME@
Comment=APRS Soundcard TNC
Exec=@APPLICATION_DESKTOP_EXEC@
Icon=@CMAKE_PROJECT_NAME@_icon.png
StartupNotify=true
Terminal=false
Type=Application
Categories=HamRadio
Keywords=Ham Radio;APRS;Soundcard TNC;KISS;AGWPE;AX.25

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MAINICON ICON "direwolf_icon.ico"

0
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#include <stdint.h>
#include <arm_neon.h>
#include <stdlib.h>
#include <signal.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
uint32x4_t x={0};
x=veorq_u32(x,x);
return 0;
}

15
cmake/cpu_tests/test_x86_avx.cxx Normal file
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@ -0,0 +1,15 @@
#include <signal.h>
#include <stdlib.h>
#include <immintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
__m256d x = _mm256_setzero_pd();
x=_mm256_addsub_pd(x,x);
return 0;
}

15
cmake/cpu_tests/test_x86_avx2.cxx Normal file
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#include <signal.h>
#include <stdlib.h>
#include <immintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
__m256i x = _mm256_setzero_si256();
x=_mm256_add_epi64 (x,x);
return 0;
}

16
cmake/cpu_tests/test_x86_avx512.cxx Normal file
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#include <stdint.h>
#include <stdlib.h>
#include <signal.h>
#include <immintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
uint64_t x[8] = {0};
__m512i y = _mm512_loadu_si512((__m512i*)x);
return 0;
}

15
cmake/cpu_tests/test_x86_sse2.cxx Normal file
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#include <signal.h>
#include <stdlib.h>
#include <emmintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
__m128i x = _mm_setzero_si128();
x=_mm_add_epi64(x,x);
return 0;
}

16
cmake/cpu_tests/test_x86_sse3.cxx Normal file
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#include <signal.h>
#include <stdlib.h>
#include <emmintrin.h>
#include <pmmintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
__m128d x = _mm_setzero_pd();
x=_mm_addsub_pd(x,x);
return 0;
}

18
cmake/cpu_tests/test_x86_sse41.cxx Normal file
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#include <signal.h>
#include <stdlib.h>
#include <emmintrin.h>
#include <smmintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
__m128i x = _mm_setzero_si128();
__m128i a = _mm_setzero_si128();
__m128i b = _mm_setzero_si128();
x=_mm_blend_epi16(a,b,4);
return 0;
}

15
cmake/cpu_tests/test_x86_sse42.cxx Normal file
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@ -0,0 +1,15 @@
#include <signal.h>
#include <stdlib.h>
#include <nmmintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
unsigned int x=32;
x=_mm_crc32_u8(x,4);
return 0;
}

16
cmake/cpu_tests/test_x86_ssse3.cxx Normal file
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#include <signal.h>
#include <stdlib.h>
#include <emmintrin.h>
#include <tmmintrin.h>
void signalHandler(int signum) {
exit(signum); // SIGILL = 4
}
int main(int argc, char* argv[])
{
signal(SIGILL, signalHandler);
__m128i x = _mm_setzero_si128();
x=_mm_alignr_epi8(x,x,2);
return 0;
}

21
cmake/include/uninstall.cmake.in Normal file
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if(NOT EXISTS "@CMAKE_CURRENT_BINARY_DIR@/install_manifest.txt")
message(FATAL_ERROR "Cannot find install manifest: @CMAKE_CURRENT_BINARY_DIR@/install_manifest.txt")
endif(NOT EXISTS "@CMAKE_CURRENT_BINARY_DIR@/install_manifest.txt")
file(READ "@CMAKE_CURRENT_BINARY_DIR@/install_manifest.txt" files)
string(REGEX REPLACE "\n" ";" files "${files}")
foreach(file ${files})
message(STATUS "Uninstalling $ENV{DESTDIR}${file}")
if(IS_SYMLINK "$ENV{DESTDIR}${file}" OR EXISTS "$ENV{DESTDIR}${file}")
exec_program(
"@CMAKE_COMMAND@" ARGS "-E remove \"$ENV{DESTDIR}${file}\""
OUTPUT_VARIABLE rm_out
RETURN_VALUE rm_retval
)
if(NOT "${rm_retval}" STREQUAL 0)
message(FATAL_ERROR "Problem when removing $ENV{DESTDIR}${file}")
endif(NOT "${rm_retval}" STREQUAL 0)
else(IS_SYMLINK "$ENV{DESTDIR}${file}" OR EXISTS "$ENV{DESTDIR}${file}")
message(STATUS "File $ENV{DESTDIR}${file} does not exist.")
endif(IS_SYMLINK "$ENV{DESTDIR}${file}" OR EXISTS "$ENV{DESTDIR}${file}")
endforeach(file)

379
cmake/modules/FindCPUflags.cmake Normal file
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# Clang or AppleClang (see CMP0025)
if(NOT DEFINED C_CLANG AND CMAKE_CXX_COMPILER_ID MATCHES "Clang")
set(C_CLANG 1)
elseif(NOT DEFINED C_GCC AND CMAKE_CXX_COMPILER_ID MATCHES "GNU")
set(C_GCC 1)
elseif(NOT DEFINED C_MSVC AND CMAKE_CXX_COMPILER_ID MATCHES "MSVC")
set(C_MSVC 1)
endif()
# Detect current compilation architecture and create standard definitions
include(CheckSymbolExists)
function(detect_architecture symbol arch)
if (NOT DEFINED ARCHITECTURE)
set(CMAKE_REQUIRED_QUIET 1)
check_symbol_exists("${symbol}" "" ARCHITECTURE_${arch})
unset(CMAKE_REQUIRED_QUIET)
# The output variable needs to be unique across invocations otherwise
# CMake's crazy scope rules will keep it defined
if (ARCHITECTURE_${arch})
set(ARCHITECTURE "${arch}" PARENT_SCOPE)
set(ARCHITECTURE_${arch} 1 PARENT_SCOPE)
add_definitions(-DARCHITECTURE_${arch}=1)
endif()
endif()
endfunction()
# direwolf versions thru 1.5 were available pre-built for 32 bit Windows targets.
# Research and experimentation revealed that the SSE instructions made a big
# difference in runtime speed but SSE2 and later were not significantly better
# for this application. I decided to build with only the SSE instructions making
# the Pentium 3 the minimum requirement. SSE2 would require at least a Pentium 4
# and offered no significant performance advantage.
# These are ancient history - from the previous Century - but old computers, generally
# considered useless for anything else, often end up in the ham shack.
#
# When cmake was first used for direwolf, the default target became 64 bit and the
# SSE2, SSE3, SSE4.1, and SSE4.2 instructions were automatically enabled based on the
# build machine capabilities. This was fine until I tried running the application
# on a computer much older than where it was built. It did not have the SSE4 instructions
# and the application died without a clue for the reason.
# Just how much benefit do these new instructions provide for this application?
#
# These were all run on the same computer, but compiled in different ways.
# Times to run atest with Track 1 of the TNC test CD:
#
# direwolf 1.5 - 32 bit target - gcc 6.3.0
#
# 60.4 sec. Pentium 3 with SSE
#
# direwolf 1.6 - 32 bit target - gcc 7.4.0
#
# 81.0 sec. with no SIMD instructions enabled.
# 54.4 sec. with SSE
# 52.0 sec. with SSE2
# 52.4 sec. with SSE2, SSE3
# 52.3 sec. with SSE2, SSE3, SSE4.1, SSE4.2
# 49.9 sec. Fedora standard: -m32 -march=i686 -mtune=generic -msse2 -mfpmath=sse
# 50.4 sec. sse not sse2: -m32 -march=i686 -mtune=generic -msse -mfpmath=sse
#
# That's what I found several years ago with a much older compiler.
# The original SSE helped a lot but SSE2 and later made little difference.
#
# direwolf 1.6 - 64 bit target - gcc 7.4.0
#
# 34.8 sec. with no SIMD instructions enabled.
# 34.8 sec. with SSE
# 34.8 sec. with SSE2
# 34.2 sec. with SSE2, SSE3
# 33.5 sec. with SSE2, SSE3, SSE4.1, SSE4.2
# 33.4 Fedora standard: -mtune=generic
#
# Why do we see such little variation? 64-bit target implies
# SSE, SSE2, SSE3 instructions are available.
#
# Building for a 64 bit target makes it run about 1.5x faster on the same hardware.
#
# The default will be set for maximum portability so packagers won't need to
# to anything special.
#
set(FORCE_SSE 1)
#
# While ENABLE_GENERIC also had the desired result (for x86_64), I don't think
# it is the right approach. It prevents the detection of the architecture,
# i.e. x86, x86_64, ARM, ARM64. That's why it did not go looking for the various
# SSE instructions. For x86, we would miss out on using SSE.
if (NOT ENABLE_GENERIC)
if (C_MSVC)
detect_architecture("_M_AMD64" x86_64)
detect_architecture("_M_IX86" x86)
detect_architecture("_M_ARM" ARM)
detect_architecture("_M_ARM64" ARM64)
else()
detect_architecture("__x86_64__" x86_64)
detect_architecture("__i386__" x86)
detect_architecture("__arm__" ARM)
detect_architecture("__aarch64__" ARM64)
endif()
endif()
if (NOT DEFINED ARCHITECTURE)
set(ARCHITECTURE "GENERIC")
set(ARCHITECTURE_GENERIC 1)
add_definitions(-DARCHITECTURE_GENERIC=1)
endif()
message(STATUS "Target architecture: ${ARCHITECTURE}")
set(TEST_DIR ${PROJECT_SOURCE_DIR}/cmake/cpu_tests)
# flag that set the minimum cpu flag requirements
# used to create re-distribuitable binary
if (${ARCHITECTURE} MATCHES "x86_64|x86" AND (FORCE_SSE OR FORCE_SSSE3 OR FORCE_SSE41))
if (FORCE_SSE)
set(HAS_SSE ON CACHE BOOL "SSE SIMD enabled")
if(C_GCC OR C_CLANG)
if (${ARCHITECTURE} MATCHES "x86_64")
# All 64-bit capable chips support MMX, SSE, SSE2, and SSE3
# so they are all enabled automatically. We don't want to use
# SSE4, based on build machine capabilites, because the application
# would not run properly on an older CPU.
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mtune=generic" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mtune=generic" )
else()
# Fedora standard uses -msse2 here.
# I dropped it down to -msse for greater compatibility and little penalty.
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -m32 -march=i686 -mtune=generic -msse -mfpmath=sse" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -m32 -march=i686 -mtune=generic -msse -mfpmath=sse" )
endif()
message(STATUS "Use SSE SIMD instructions")
add_definitions(-DUSE_SSE)
elseif(C_MSVC)
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:SSE" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:SSE" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
message(STATUS "Use MSVC SSSE3 SIMD instructions")
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSSE3)
endif()
elseif (FORCE_SSSE3)
set(HAS_SSSE3 ON CACHE BOOL "SSSE3 SIMD enabled")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mssse3" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mssse3" )
message(STATUS "Use SSSE3 SIMD instructions")
add_definitions(-DUSE_SSSE3)
elseif(C_MSVC)
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:SSSE3" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:SSSE3" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
message(STATUS "Use MSVC SSSE3 SIMD instructions")
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSSE3)
endif()
elseif (FORCE_SSE41)
set(HAS_SSSE3 ON CACHE BOOL "SSSE3 SIMD enabled")
set(HAS_SSE4_1 ON CACHE BOOL "Architecture has SSE 4.1 SIMD enabled")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -msse4.1" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -msse4.1" )
message(STATUS "Use SSE 4.1 SIMD instructions")
add_definitions(-DUSE_SSSE3)
add_definitions(-DUSE_SSE4_1)
elseif(C_MSVC)
# seems that from MSVC 2015 comiler doesn't support those flags
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:SSE4_1" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:SSE4_1" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
message(STATUS "Use SSE 4.1 SIMD instructions")
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSSE3)
add_definitions(-DUSE_SSE4_1)
endif()
endif()
else ()
if (${ARCHITECTURE} MATCHES "x86_64|x86")
if(C_MSVC)
try_run(RUN_SSE2 COMPILE_SSE2 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_sse2.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_SSE2 COMPILE_SSE2 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_sse2.cxx" COMPILE_DEFINITIONS -msse2 -O0)
endif()
if(COMPILE_SSE2 AND RUN_SSE2 EQUAL 0)
set(HAS_SSE2 ON CACHE BOOL "Architecture has SSSE2 SIMD enabled")
message(STATUS "Use SSE2 SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -msse2" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -msse2" )
add_definitions(-DUSE_SSE2)
elseif(C_MSVC)
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:SSE2" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:SSE2" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:SSE2" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:SSE2" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSE2)
endif()
else()
set(HAS_SSE2 OFF CACHE BOOL "Architecture does not have SSSE2 SIMD enabled")
endif()
if(C_MSVC)
try_run(RUN_SSSE3 COMPILE_SSSE3 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_ssse3.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_SSSE3 COMPILE_SSSE3 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_ssse3.cxx" COMPILE_DEFINITIONS -mssse3 -O0)
endif()
if(COMPILE_SSSE3 AND RUN_SSSE3 EQUAL 0)
set(HAS_SSSE3 ON CACHE BOOL "Architecture has SSSE3 SIMD enabled")
message(STATUS "Use SSSE3 SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mssse3" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mssse3" )
add_definitions(-DUSE_SSSE3)
elseif(C_MSVC)
# seems not present on MSVC 2017
#set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:SSSE3" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSSE3)
endif()
else()
set(HAS_SSSE3 OFF CACHE BOOL "Architecture does not have SSSE3 SIMD enabled")
endif()
if(C_MSVC)
try_run(RUN_SSE4_1 COMPILE_SSE4_1 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_sse41.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_SSE4_1 COMPILE_SSE4_1 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_sse41.cxx" COMPILE_DEFINITIONS -msse4.1 -O0)
endif()
if(COMPILE_SSE4_1 AND RUN_SSE4_1 EQUAL 0)
set(HAS_SSE4_1 ON CACHE BOOL "Architecture has SSE 4.1 SIMD enabled")
message(STATUS "Use SSE 4.1 SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -msse4.1" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -msse4.1" )
add_definitions(-DUSE_SSE4_1)
elseif(C_MSVC)
# seems not present on MSVC 2017
#set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:SSE4_1" )
#set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:SSE4_1" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSE4_1)
endif()
else()
set(HAS_SSE4_1 OFF CACHE BOOL "Architecture does not have SSE 4.1 SIMD enabled")
endif()
if(C_MSVC)
try_run(RUN_SSE4_2 COMPILE_SSE4_2 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_sse42.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_SSE4_2 COMPILE_SSE4_2 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_sse42.cxx" COMPILE_DEFINITIONS -msse4.2 -O0)
endif()
if(COMPILE_SSE4_2 AND RUN_SSE4_2 EQUAL 0)
set(HAS_SSE4_2 ON CACHE BOOL "Architecture has SSE 4.2 SIMD enabled")
message(STATUS "Use SSE 4.2 SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -msse4.2" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -msse4.2" )
add_definitions(-DUSE_SSE4_2)
elseif(C_MSVC)
# seems not present on MSVC 2017
#set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:SSE4_2" )
#set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:SSE4_2" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_SSE4_2)
endif()
else()
set(HAS_SSE4_2 OFF CACHE BOOL "Architecture does not have SSE 4.2 SIMD enabled")
endif()
if(C_MSVC)
try_run(RUN_AVX COMPILE_AVX "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_avx.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_AVX COMPILE_AVX "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_avx.cxx" COMPILE_DEFINITIONS -mavx -O0)
endif()
if(COMPILE_AVX AND RUN_AVX EQUAL 0)
set(HAS_AVX ON CACHE BOOL "Architecture has AVX SIMD enabled")
message(STATUS "Use AVX SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mavx" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mavx" )
add_definitions(-DUSE_AVX)
elseif(C_MSVC)
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:AVX" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:AVX" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:AVX" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:AVX" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_AVX)
endif()
else()
set(HAS_AVX OFF CACHE BOOL "Architecture does not have AVX SIMD enabled")
endif()
if(C_MSVC)
try_run(RUN_AVX2 COMPILE_AVX2 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_avx2.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_AVX2 COMPILE_AVX2 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_avx2.cxx" COMPILE_DEFINITIONS -mavx2 -O0)
endif()
if(COMPILE_AVX2 AND RUN_AVX2 EQUAL 0)
set(HAS_AVX2 ON CACHE BOOL "Architecture has AVX2 SIMD enabled")
message(STATUS "Use AVX2 SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mavx2" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mavx2" )
add_definitions(-DUSE_AVX2)
elseif(C_MSVC)
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:AVX2" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:AVX2" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:AVX2" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:AVX2" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_AVX2)
endif()
else()
set(HAS_AVX2 OFF CACHE BOOL "Architecture does not have AVX2 SIMD enabled")
endif()
if(C_MSVC)
try_run(RUN_AVX512 COMPILE_AVX512 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_avx512.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_AVX512 COMPILE_AVX512 "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_x86_avx512.cxx" COMPILE_DEFINITIONS -mavx512f -O0)
endif()
if(COMPILE_AVX512 AND RUN_AVX512 EQUAL 0)
set(HAS_AVX512 ON CACHE BOOL "Architecture has AVX512 SIMD enabled")
message(STATUS "Use AVX512 SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mavx512f" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mavx512f" )
add_definitions(-DUSE_AVX512)
elseif(C_MSVC)
set( CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} /arch:AVX512" )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} /arch:AVX512" )
set( CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:AVX512" )
set( CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} /Oi /GL /Ot /Ox /arch:AVX512" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "${CMAKE_EXE_LINKER_FLAGS_RELEASE} /LTCG" )
add_definitions (/D "_CRT_SECURE_NO_WARNINGS")
add_definitions(-DUSE_AVX512)
endif()
else()
set(HAS_AVX512 OFF CACHE BOOL "Architecture does not have AVX512 SIMD enabled")
endif()
elseif(ARCHITECTURE_ARM)
if(C_MSVC)
try_run(RUN_NEON COMPILE_NEON "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_arm_neon.cxx" COMPILE_DEFINITIONS /O0)
else()
try_run(RUN_NEON COMPILE_NEON "${CMAKE_BINARY_DIR}/tmp" "${TEST_DIR}/test_arm_neon.cxx" COMPILE_DEFINITIONS -mfpu=neon -O0)
endif()
if(COMPILE_NEON AND RUN_NEON EQUAL 0)
set(HAS_NEON ON CACHE BOOL "Architecture has NEON SIMD enabled")
message(STATUS "Use NEON SIMD instructions")
if(C_GCC OR C_CLANG)
set( CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -mfpu=neon" )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mfpu=neon" )
add_definitions(-DUSE_NEON)
endif()
else()
set(HAS_NEON OFF CACHE BOOL "Architecture does not have NEON SIMD enabled")
endif()
elseif(ARCHITECTURE_ARM64)
# Advanced SIMD (aka NEON) is mandatory for AArch64
set(HAS_NEON ON CACHE BOOL "Architecture has NEON SIMD enabled")
message(STATUS "Use NEON SIMD instructions")
add_definitions(-DUSE_NEON)
endif()
endif()
# clear binary test folder
FILE(REMOVE_RECURSE ${CMAKE_BINARY_DIR}/tmp)

13
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# Clang or AppleClang (see CMP0025)
if(NOT DEFINED C_CLANG AND CMAKE_CXX_COMPILER_ID MATCHES "Clang")
set(C_CLANG 1)
elseif(NOT DEFINED C_GCC AND CMAKE_CXX_COMPILER_ID MATCHES "GNU")
set(C_GCC 1)
elseif(NOT DEFINED C_MSVC AND CMAKE_CXX_COMPILER_ID MATCHES "MSVC")
set(C_MSVC 1)
if(MSVC_VERSION GREATER 1910 AND MSVC_VERSION LESS 1919)
set(VS2017 ON)
elseif(MSVC_VERSION GREATER 1899 AND MSVC_VERSION LESS 1910)
set(VS2015 ON)
endif()
endif()

88
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# - Try to find GPSD
# Once done this will define
#
# GPSD_FOUND - system has GPSD
# GPSD_INCLUDE_DIRS - the GPSD include directory
# GPSD_LIBRARIES - Link these to use GPSD
# GPSD_DEFINITIONS - Compiler switches required for using GPSD
#
# Copyright (c) 2006 Andreas Schneider <mail@cynapses.org>
#
# Redistribution and use is allowed according to the terms of the New
# BSD license.
# For details see the accompanying COPYING-CMAKE-SCRIPTS file.
#
set(GPSD_ROOT_DIR
"${GPSD_ROOT_DIR}"
CACHE
PATH
"Directory to search for gpsd")
find_package(PkgConfig QUIET)
if(PKG_CONFIG_FOUND)
pkg_check_modules(PC_GPSD libgps)
endif()
if (GPSD_LIBRARIES AND GPSD_INCLUDE_DIRS)
# in cache already
set(GPSD_FOUND TRUE)
else (GPSD_LIBRARIES AND GPSD_INCLUDE_DIRS)
find_path(GPSD_INCLUDE_DIRS
NAMES
gps.h
PATHS
/usr/include
/usr/local/include
/opt/local/include
/sw/include
/usr/include/gps
/usr/local/include/gps
/opt/local/include/gps
/sw/include/gps
HINTS
${PC_GPSD_INCLUDEDIR}
${GPSD_ROOT_DIR}
)
# debian uses version suffixes
# add suffix evey new release
find_library(GPSD_LIBRARIES
NAMES
gps
PATHS
/usr/lib64
/usr/lib
/usr/local/lib
/opt/local/lib
/sw/lib
HINTS
${PC_GPSD_LIBDIR}
${GPSD_ROOT_DIR}
)
if (GPSD_INCLUDE_DIRS AND GPSD_LIBRARIES)
set(GPSD_FOUND TRUE)
endif (GPSD_INCLUDE_DIRS AND GPSD_LIBRARIES)
if (GPSD_FOUND)
if (NOT GPSD_FIND_QUIETLY)
message(STATUS "Found GPSD: ${GPSD_LIBRARIES}")
endif (NOT GPSD_FIND_QUIETLY)
else (GPSD_FOUND)
if (GPSD_FIND_REQUIRED)
message(FATAL_ERROR "Could not find GPSD")
endif (GPSD_FIND_REQUIRED)
endif (GPSD_FOUND)
# show the GPSD_INCLUDE_DIRS and GPSD_LIBRARIES variables only in the advanced view
mark_as_advanced(GPSD_INCLUDE_DIRS GPSD_LIBRARIES)
endif (GPSD_LIBRARIES AND GPSD_INCLUDE_DIRS)
# maybe on CYGWIN gpsd works
if (WIN32)
set(GPSD_FOUND FALSE)
set(GPSD_LIBRARIES "")
set(GPSD_INCLUDE_DIRS "")
endif (WIN32)

64
cmake/modules/FindPortaudio.cmake Normal file
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# - Try to find Portaudio
# Once done this will define
#
# PORTAUDIO_FOUND - system has Portaudio
# PORTAUDIO_INCLUDE_DIRS - the Portaudio include directory
# PORTAUDIO_LIBRARIES - Link these to use Portaudio
set(PORTAUDIO_ROOT_DIR
"${PORTAUDIO_ROOT_DIR}"
CACHE
PATH
"Directory to search for portaudio")
find_package(PkgConfig QUIET)
if(PKG_CONFIG_FOUND)
pkg_check_modules(PC_PORTAUDIO portaudio-2.0)
endif()
find_path(PORTAUDIO_INCLUDE_DIRS
NAMES
portaudio.h
PATHS
/usr/local/include
/usr/include
/opt/local/include
HINTS
${PC_PORTAUDIO_INCLUDEDIR}
${PORTAUDIO_ROOT_DIR}
)
find_library(PORTAUDIO_LIBRARIES
NAMES
portaudio
PATHS
/usr/local/lib
/usr/lib
/usr/lib64
/opt/local/lib
HINTS
${PC_PORTAUDIO_LIBDIR}
${PORTAUDIO_ROOT_DIR}
)
mark_as_advanced(PORTAUDIO_INCLUDE_DIRS PORTAUDIO_LIBRARIES)
# Found PORTAUDIO, but it may be version 18 which is not acceptable.
if(EXISTS ${PORTAUDIO_INCLUDE_DIRS}/portaudio.h)
include(CheckCXXSourceCompiles)
set(CMAKE_REQUIRED_INCLUDES_SAVED ${CMAKE_REQUIRED_INCLUDES})
set(CMAKE_REQUIRED_INCLUDES ${PORTAUDIO_INCLUDE_DIRS})
CHECK_CXX_SOURCE_COMPILES(
"#include <portaudio.h>\nPaDeviceIndex pa_find_device_by_name(const char *name); int main () {return 0;}"
PORTAUDIO2_FOUND)
set(CMAKE_REQUIRED_INCLUDES ${CMAKE_REQUIRED_INCLUDES_SAVED})
unset(CMAKE_REQUIRED_INCLUDES_SAVED)
if(PORTAUDIO2_FOUND)
INCLUDE(FindPackageHandleStandardArgs)
FIND_PACKAGE_HANDLE_STANDARD_ARGS(PORTAUDIO DEFAULT_MSG PORTAUDIO_INCLUDE_DIRS PORTAUDIO_LIBRARIES)
else(PORTAUDIO2_FOUND)
message(STATUS
" portaudio.h not compatible (requires API 2.0)")
set(PORTAUDIO_FOUND FALSE)
endif(PORTAUDIO2_FOUND)
endif()

67
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# - Try to find Hamlib
#
# HAMLIB_FOUND - system has Hamlib
# HAMLIB_LIBRARIES - location of the library for hamlib
# HAMLIB_INCLUDE_DIRS - location of the include files for hamlib
#
# Requires these CMake modules:
# FindPackageHandleStandardArgs (known included with CMake >=2.6.2)
#
# Original Author:
# 2019 Davide Gerhard <rainbow@irh.it>
set(HAMLIB_ROOT_DIR
"${HAMLIB_ROOT_DIR}"
CACHE
PATH
"Directory to search for hamlib")
find_package(PkgConfig QUIET)
if(PKG_CONFIG_FOUND)
pkg_check_modules(PC_HAMLIB hamlib)
endif()
find_path(HAMLIB_INCLUDE_DIR
NAMES hamlib/rig.h
PATHS
/usr/include
/usr/local/include
/opt/local/include
HINTS
${PC_HAMLIB_INCLUDEDIR}
${HAMLIB_ROOT_DIR}
)
find_library(HAMLIB_LIBRARY
NAMES hamlib
PATHS
/usr/lib64/hamlib
/usr/lib/hamlib
/usr/lib64
/usr/lib
/usr/local/lib64/hamlib
/usr/local/lib/hamlib
/usr/local/lib64
/usr/local/lib
/opt/local/lib
/opt/local/lib/hamlib
HINTS
${PC_HAMLIB_LIBDIR}
${HAMLIB_ROOT_DIR}
)
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(HAMLIB
DEFAULT_MSG
HAMLIB_LIBRARY
HAMLIB_INCLUDE_DIR
)
if(HAMLIB_FOUND)
list(APPEND HAMLIB_LIBRARIES ${HAMLIB_LIBRARY})
list(APPEND HAMLIB_INCLUDE_DIRS ${HAMLIB_INCLUDE_DIR})
mark_as_advanced(HAMLIB_ROOT_DIR)
endif()
mark_as_advanced(HAMLIB_INCLUDE_DIR HAMLIB_LIBRARY)

85
cmake/modules/Findudev.cmake Normal file
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# - try to find the udev library
#
# Cache Variables: (probably not for direct use in your scripts)
# UDEV_INCLUDE_DIR
# UDEV_SOURCE_DIR
# UDEV_LIBRARY
#
# Non-cache variables you might use in your CMakeLists.txt:
# UDEV_FOUND
# UDEV_INCLUDE_DIRS
# UDEV_LIBRARIES
#
# Requires these CMake modules:
# FindPackageHandleStandardArgs (known included with CMake >=2.6.2)
#
# Original Author:
# 2014 Kevin M. Godby <kevin@godby.org>
#
# Distributed under the Boost Software License, Version 1.0.
# (See accompanying file LICENSE_1_0.txt or copy at
# http://www.boost.org/LICENSE_1_0.txt)
set(UDEV_ROOT_DIR
"${UDEV_ROOT_DIR}"
CACHE
PATH
"Directory to search for udev")
find_package(PkgConfig QUIET)
if(PKG_CONFIG_FOUND)
pkg_check_modules(PC_LIBUDEV libudev)
endif()
find_library(UDEV_LIBRARY
NAMES
udev
PATHS
${PC_LIBUDEV_LIBRARY_DIRS}
${PC_LIBUDEV_LIBDIR}
/usr/lib64
/usr/lib
/usr/local/lib
HINTS
"${UDEV_ROOT_DIR}"
PATH_SUFFIXES
lib
)
get_filename_component(_libdir "${UDEV_LIBRARY}" PATH)
find_path(UDEV_INCLUDE_DIR
NAMES
libudev.h
PATHS
/usr/include
/usr/local/include
${PC_LIBUDEV_INCLUDE_DIRS}
${PC_LIBUDEV_INCLUDEDIR}
HINTS
"${_libdir}"
"${_libdir}/.."
"${UDEV_ROOT_DIR}"
PATH_SUFFIXES
include
)
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(UDEV
DEFAULT_MSG
UDEV_LIBRARY
UDEV_INCLUDE_DIR
)
if (UDEV_INCLUDE_DIR AND UDEV_LIBRARY)
set(UDEV_FOUND TRUE)
endif (UDEV_INCLUDE_DIR AND UDEV_LIBRARY)
if(UDEV_FOUND)
list(APPEND UDEV_LIBRARIES ${UDEV_LIBRARY})
list(APPEND UDEV_INCLUDE_DIRS ${UDEV_INCLUDE_DIR})
mark_as_advanced(UDEV_ROOT_DIR)
endif()
mark_as_advanced(UDEV_INCLUDE_DIR
UDEV_LIBRARY)

0
99-direwolf-cmedia.rules → conf/99-direwolf-cmedia.rules
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48
conf/CMakeLists.txt Normal file
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@ -0,0 +1,48 @@
# generate conf per platform
file(READ "${CUSTOM_CONF_DIR}/generic.conf" file_content)
if(LINUX)
string(REGEX REPLACE "\n%W%[^\n]*" "" file_content "${file_content}")
string(REGEX REPLACE "\n%M%[^\n]*" "" file_content "${file_content}")
string(REGEX REPLACE "\n%L%([^\n]*)" "\n\\1" file_content "${file_content}")
elseif(WIN32 OR CYGWIN)
string(REGEX REPLACE "\n%M%[^\n]*" "" file_content "${file_content}")
string(REGEX REPLACE "\n%L%[^\n]*" "" file_content "${file_content}")
string(REGEX REPLACE "\n%W%([^\n]*)" "\n\\1" file_content "${file_content}")
else() # macOS FreeBSD OpenBSD
string(REGEX REPLACE "\n%W%[^\n]*" "" file_content "${file_content}")
string(REGEX REPLACE "\n%L%[^\n]*" "" file_content "${file_content}")
string(REGEX REPLACE "\n%M%([^\n]*)" "\n\\1" file_content "${file_content}")
endif()
# remove remark
string(REGEX REPLACE "\n%R%[^\n]*" "" file_content "${file_content}")
# clear common lines
string(REGEX REPLACE "\n%C%([^\n]*)" "\n\\1" file_content "${file_content}")
string(REGEX REPLACE "^%C%([^\n]*)" "\\1" file_content "${file_content}")
file(WRITE "${CMAKE_BINARY_DIR}/direwolf.conf" "${file_content}")
# install udev rules for CM108
if(LINUX)
install(FILES "${CUSTOM_CONF_DIR}/99-direwolf-cmedia.rules" DESTINATION /etc/udev/rules.d/)
endif()
install(FILES "${CMAKE_BINARY_DIR}/direwolf.conf" DESTINATION ${INSTALL_CONF_DIR})
install(FILES "${CUSTOM_CONF_DIR}/sdr.conf" DESTINATION ${INSTALL_CONF_DIR})
# Put sample configuration & startup files in home directory.
# This step would be done as ordinary user.
# Some people like to put the direwolf config file in /etc/ax25.
# Note that all of these are also in $(DESTDIR)/share/doc/direwolf/examples/.
if(NOT (WIN32 OR CYGWIN))
add_custom_target(install-conf
COMMAND ${CMAKE_COMMAND}
-DCUSTOM_BINARY_DIR="${CMAKE_BINARY_DIR}"
-DCUSTOM_CONF_DIR="${CUSTOM_CONF_DIR}"
-DCUSTOM_SCRIPTS_DIR="${CUSTOM_SCRIPTS_DIR}"
-DCUSTOM_TELEMETRY_DIR="${CUSTOM_TELEMETRY_DIR}"
-P "${CMAKE_SOURCE_DIR}/conf/install_conf.cmake"
)
endif()

586
conf/generic.conf Normal file
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%C%#############################################################
%C%# #
%C%# Configuration file for Dire Wolf #
%C%# #
%L%# Linux version #
%W%# Windows version #
%M%# Macintosh version #
%C%# #
%C%#############################################################
%R%
%R%
%R% The sample config file was getting pretty messy
%R% with the Windows and Linux differences.
%R% It would be a maintenance burden to keep most of
%R% two different versions in sync.
%R% This common source is now used to generate the
%R% two different variations while having only a single
%R% copy of the common parts.
%R%
%R% The first column contains one of the following:
%R%
%R% R remark which is discarded.
%R% C common to both versions.
%R% W Windows version only.
%R% L Linux version only.
%R% M Macintosh version and possibly others (portaudio used).
%R%
%C%#
%C%# Extensive documentation can be found here:
%C%# Stable release - https://github.com/wb2osz/direwolf/tree/master/doc
%C%# Latest development - https://github.com/wb2osz/direwolf/tree/dev/doc
%C%#
%W%# The complete documentation set can also be found in the doc folder.
%L%# The complete documentation set can also be found in
%L%# /usr/local/share/doc/direwolf/ or /usr/share/doc/direwolf/
%L%# Concise "man" pages are also available for Linux.
%M%# /usr/local/share/doc/direwolf/ or /usr/share/doc/direwolf/
%M%# Concise "man" pages are also available for Mac OSX.
%C%#
%C%# This sample file does not have examples for all of the possibilities.
%C%# Consult the User Guide for more details on configuration options.%C%#
%C%#
%C%# These are the most likely settings you might change:
%C%#
%C%# (1) MYCALL - call sign and SSID for your station.
%C%#
%C%# Look for lines starting with MYCALL and
%C%# change NOCALL to your own.
%C%#
%C%# (2) PBEACON - enable position beaconing.
%C%#
%C%# Look for lines starting with PBEACON and
%C%# modify for your call, location, etc.
%C%#
%C%# (3) DIGIPEATER - configure digipeating rules.
%C%#
%C%# Look for lines starting with DIGIPEATER.
%C%# Most people will probably use the given example.
%C%# Just remove the "#" from the start of the line
%C%# to enable it.
%C%#
%C%# (4) IGSERVER, IGLOGIN - IGate server and login
%C%#
%C%# Configure an IGate client to relay messages between
%C%# radio and internet servers.
%C%#
%C%#
%C%# The default location is "direwolf.conf" in the current working directory.
%L%# On Linux, the user's home directory will also be searched.
%C%# An alternate configuration file location can be specified with the "-c" command line option.
%C%#
%C%# As you probably guessed by now, # indicates a comment line.
%C%#
%C%# Remove the # at the beginning of a line if you want to use a sample
%C%# configuration that is currently commented out.
%C%#
%C%# Commands are a keyword followed by parameters.
%C%#
%C%# Command key words are case insensitive. i.e. upper and lower case are equivalent.
%C%#
%C%# Command parameters are generally case sensitive. i.e. upper and lower case are different.
%C%#
%C%
%C%
%C%#############################################################
%C%# #
%C%# FIRST AUDIO DEVICE PROPERTIES #
%C%# (Channel 0 + 1 if in stereo) #
%C%# #
%C%#############################################################
%C%
%C%#
%C%# Many people will simply use the default sound device.
%C%# Some might want to use an alternative device by choosing it here.
%C%#
%R% ---------- Windows ----------
%R%
%W%# When the Windows version starts up, it displays something like
%W%# this with the available sound devices and capabilities:
%W%#
%W%# Available audio input devices for receive (*=selected):
%W%# * 0: Microphone (C-Media USB Headpho (channel 2)
%W%# 1: Microphone (Bluetooth SCO Audio
%W%# 2: Microphone (Bluetooth AV Audio)
%W%# * 3: Microphone (Realtek High Defini (channels 0 & 1)
%W%# Available audio output devices for transmit (*=selected):
%W%# * 0: Speakers (C-Media USB Headphone (channel 2)
%W%# 1: Speakers (Bluetooth SCO Audio)
%W%# 2: Realtek Digital Output(Optical)
%W%# 3: Speakers (Bluetooth AV Audio)
%W%# * 4: Speakers (Realtek High Definiti (channels 0 & 1)
%W%# 5: Realtek Digital Output (Realtek
%W%#
%W%# Example: To use the microphone and speaker connections on the
%W%# system board, either of these forms can be used:
%W%
%W%#ADEVICE High
%W%#ADEVICE 3 4
%W%
%W%
%W%# Example: To use the USB Audio, use a command like this with
%W%# the input and output device numbers. (Remove the # comment character.)
%W%#ADEVICE USB
%W%
%W%# You can also use "-" or "stdin" to pipe stdout from
%W%# some other application such as a software defined radio.
%W%# "stdin" is not an audio device. Don't use this unless you
%W%# understand what this means. Read the User Guide.
%W%# You can also specify "UDP:" and an optional port for input.
%W%# Something different must be specified for output.
%W%
%W%# ADEVICE stdin 0
%W%# ADEVICE UDP:7355 0
%W%
%W%# The position in the list can change when devices (e.g. USB) are added and removed.
%W%# You can also specify devices by using part of the name.
%W%# Here is an example of specifying the USB Audio device.
%W%# This is case-sensitive. Upper and lower case are not treated the same.
%W%
%W%#ADEVICE USB
%W%
%W%
%R% ---------- Linux ----------
%R%
%L%# Linux ALSA is complicated. See User Guide for discussion.
%L%# To use something other than the default, generally use plughw
%L%# and a card number reported by "arecord -l" command. Example:
%L%
%L%# ADEVICE plughw:1,0
%L%
%L%# You can also use "-" or "stdin" to pipe stdout from
%L%# some other application such as a software defined radio.
%L%# "stdin" is not an audio device. Don't use this unless you
%L%# understand what this means. Read the User Guide.
%L%# You can also specify "UDP:" and an optional port for input.
%L%# Something different must be specified for output.
%L%
%L%# ADEVICE stdin plughw:1,0
%L%# ADEVICE UDP:7355 default
%L%
%R% ---------- Mac ----------
%R%
%M%# Macintosh Operating System uses portaudio driver for audio
%M%# input/output. Default device selection not available. User/OP
%M%# must configure the sound input/output option. Note that
%M%# the device names can contain spaces. In this case, the names
%M%# must be enclosed by quotes.
%M%#
%M%# Examples:
%M%#
%M%ADEVICE "Built-in Input" "Built-in Output"
%M%
%M%# ADEVICE "USB Audio Codec:6" "USB Audio Codec:5"
%M%#
%M%#
%M%# You can also use "-" or "stdin" to pipe stdout from
%M%# some other application such as a software defined radio.
%M%# "stdin" is not an audio device. Don't use this unless you
%M%# understand what this means. Read the User Guide.
%M%# You can also specify "UDP:" and an optional port for input.
%M%# Something different must be specified for output.
%M%
%M%# ADEVICE UDP:7355 default
%M%#
%C%
%C%#
%C%# Number of audio channels for this souncard: 1 (mono) or 2 (stereo).
%C%# 1 is the default so there is no need to specify it.
%C%#
%C%
%C%#ACHANNELS 2
%C%
%C%
%C%#############################################################
%C%# #
%C%# SECOND AUDIO DEVICE PROPERTIES #
%C%# (Channel 2 + 3 if in stereo) #
%C%# #
%C%#############################################################
%C%
%C%#ADEVICE1 ...
%C%
%C%
%C%#############################################################
%C%# #
%C%# THIRD AUDIO DEVICE PROPERTIES #
%C%# (Channel 4 + 5 if in stereo) #
%C%# #
%C%#############################################################
%C%
%C%#ADEVICE2 ...
%C%
%C%
%C%#############################################################
%C%# #
%C%# CHANNEL 0 PROPERTIES #
%C%# #
%C%#############################################################
%C%
%C%CHANNEL 0
%C%
%C%#
%C%# The following MYCALL, MODEM, PTT, etc. configuration items
%C%# apply to the most recent CHANNEL.
%C%#
%C%
%C%#
%C%# Station identifier for this channel.
%C%# Multiple channels can have the same or different names.
%C%#
%C%# It can be up to 6 letters and digits with an optional ssid.
%C%# The APRS specification requires that it be upper case.
%C%#
%C%# Example (don't use this unless you are me): MYCALL WB2OSZ-5
%C%#
%C%
%C%MYCALL N0CALL
%C%
%C%#
%C%# Pick a suitable modem speed based on your situation.
%C%# 1200 Most common for VHF/UHF. Default if not specified.
%C%# 2400 QPSK compatible with MFJ-2400, and probably PK232-2400 & KPC-2400.
%C%# 300 Low speed for HF SSB. Default tones 1600 & 1800.
%C%# EAS Emergency Alert System (EAS) Specific Area Message Encoding (SAME).
%C%# 9600 G3RUH style - Can't use Microphone and Speaker connections.
%C%# AIS International system for tracking ships on VHF.
%C%# Also uses 9600 bps so Speaker connection won't work.
%C%#
%C%# In most cases you can just specify the speed. Examples:
%C%#
%C%
%C%MODEM 1200
%C%#MODEM 9600
%C%
%C%#
%C%# Many options are available for great flexibility.
%C%# See User Guide for details.
%C%#
%C%
%C%#
%C%# Uncomment line below to enable the DTMF decoder for this channel.
%C%#
%C%
%C%#DTMF
%C%
%C%#
%C%# If not using a VOX circuit, the transmitter Push to Talk (PTT)
%C%# control is usually wired to a serial port with a suitable interface circuit.
%C%# DON'T connect it directly!
%C%#
%C%# For the PTT command, specify the device and either RTS or DTR.
%C%# RTS or DTR may be preceded by "-" to invert the signal.
%C%# Both can be used for interfaces that want them driven with opposite polarity.
%C%#
%L%# COM1 can be used instead of /dev/ttyS0, COM2 for /dev/ttyS1, and so on.
%L%#
%C%
%C%#PTT COM1 RTS
%C%#PTT COM1 RTS -DTR
%L%#PTT /dev/ttyUSB0 RTS
%C%
%L%#
%L%# On Linux, you can also use general purpose I/O pins if
%L%# your system is configured for user access to them.
%L%# This would apply mostly to microprocessor boards, not a regular PC.
%L%# See separate Raspberry Pi document for more details.
%L%# The number may be preceded by "-" to invert the signal.
%L%#
%L%
%L%#PTT GPIO 25
%L%
%C%# The Data Carrier Detect (DCD) signal can be sent to the same places
%C%# as the PTT signal. This could be used to light up an LED like a normal TNC.
%C%
%C%#DCD COM1 -DTR
%L%#DCD GPIO 24
%C%
%C%
%C%#############################################################
%C%# #
%C%# CHANNEL 1 PROPERTIES #
%C%# #
%C%#############################################################
%C%
%C%#CHANNEL 1
%C%
%C%#
%C%# Specify MYCALL, MODEM, PTT, etc. configuration items for
%C%# CHANNEL 1. Repeat for any other channels.
%C%
%C%
%C%#############################################################
%C%# #
%C%# TEXT TO SPEECH COMMAND FILE #
%C%# #
%C%#############################################################
%C%
%W%#SPEECH dwespeak.bat
%L%#SPEECH dwespeak.sh
%C%
%C%
%C%#############################################################
%C%# #
%C%# VIRTUAL TNC SERVER PROPERTIES #
%C%# #
%C%#############################################################
%C%
%C%#
%C%# Dire Wolf acts as a virtual TNC and can communicate with
%C%# client applications by different protocols:
%C%#
%C%# - the "AGW TCPIP Socket Interface" - default port 8000
%C%# - KISS protocol over TCP socket - default port 8001
%W%# - KISS TNC via serial port
%L%# - KISS TNC via pseudo terminal (-p command line option)
%C%#
%C%
%C%AGWPORT 8000
%C%KISSPORT 8001
%C%
%W%#
%W%# Some applications are designed to operate with only a physical
%W%# TNC attached to a serial port. For these, we provide a virtual serial
%W%# port that appears to be connected to a TNC.
%W%#
%W%# Take a look at the User Guide for instructions to set up
%W%# two virtual serial ports named COM3 and COM4 connected by
%W%# a null modem.
%W%#
%W%# Using the configuration described, Dire Wolf will connect to
%W%# COM3 and the client application will use COM4.
%W%#
%W%# Uncomment following line to use this feature.
%W%
%W%#NULLMODEM COM3
%W%
%W%
%C%#
%C%# It is sometimes possible to recover frames with a bad FCS.
%C%# This applies to all channels.
%C%#
%C%# 0 [NONE] - Don't try to repair.
%C%# 1 [SINGLE] - Attempt to fix single bit error. (default)
%C%# ... see User Guide for more values and in-depth discussion.
%C%#
%C%
%C%#FIX_BITS 0
%C%
%C%#
%C%#############################################################
%C%# #
%C%# FIXED POSIION BEACONING PROPERTIES #
%C%# #
%C%#############################################################
%C%
%C%
%C%#
%C%# Beaconing is configured with these two commands:
%C%#
%C%# PBEACON - for a position report (usually yourself)
%C%# OBEACON - for an object report (usually some other entity)
%C%#
%C%# Each has a series of keywords and values for options.
%C%# See User Guide for details.
%C%#
%C%# Example:
%C%#
%C%# This results in a broadcast once every 10 minutes.
%C%# Every half hour, it can travel via two digipeater hops.
%C%# The others are kept local.
%C%#
%C%
%C%#PBEACON delay=1 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA" via=WIDE1-1,WIDE2-1
%C%#PBEACON delay=11 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA"
%C%#PBEACON delay=21 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA"
%C%
%C%
%C%# With UTM coordinates instead of latitude and longitude.
%C%
%C%#PBEACON delay=1 every=10 overlay=S symbol="digi" zone=19T easting=307477 northing=4720178
%C%
%C%
%C%#
%C%# When the destination field is set to "SPEECH" the information part is
%C%# converted to speech rather than transmitted as a data frame.
%C%#
%C%
%C%#CBEACON dest="SPEECH" info="Club meeting tonight at 7 pm."
%C%
%C%# Similar for Morse code. If SSID is specified, it is multiplied
%C%# by 2 to get speed in words per minute (WPM).
%C%
%C%#CBEACON dest="MORSE-6" info="de MYCALL"
%C%
%C%
%C%#
%C%# Modify for your particular situation before removing
%C%# the # comment character from the beginning of appropriate lines above.
%C%#
%C%
%C%
%C%#############################################################
%C%# #
%C%# APRS DIGIPEATER PROPERTIES #
%C%# #
%C%#############################################################
%C%
%C%#
%C%# For most common situations, use something like this by removing
%C%# the "#" from the beginning of the line below.
%C%#
%C%
%C%#DIGIPEAT 0 0 ^WIDE[3-7]-[1-7]$|^TEST$ ^WIDE[12]-[12]$ TRACE
%C%
%C%# See User Guide for more explanation of what this means and how
%C%# it can be customized for your particular needs.
%C%
%C%# Filtering can be used to limit was is digipeated.
%C%# For example, only weather weather reports, received on channel 0,
%C%# will be retransmitted on channel 1.
%C%#
%C%
%C%#FILTER 0 1 t/wn
%C%
%C%# Traditional connected mode packet radio uses a different
%C%# type of digipeating. See User Guide for details.
%C%
%C%#############################################################
%C%# #
%C%# INTERNET GATEWAY #
%C%# #
%C%#############################################################
%C%
%C%# First you need to specify the name of a Tier 2 server.
%C%# The current preferred way is to use one of these regional rotate addresses:
%C%
%C%# noam.aprs2.net - for North America
%C%# soam.aprs2.net - for South America
%C%# euro.aprs2.net - for Europe and Africa
%C%# asia.aprs2.net - for Asia
%C%# aunz.aprs2.net - for Oceania
%C%
%C%#IGSERVER noam.aprs2.net
%C%
%C%# You also need to specify your login name and passcode.
%C%# Contact the author if you can't figure out how to generate the passcode.
%C%
%C%#IGLOGIN WB2OSZ-5 123456
%C%
%C%# That's all you need for a receive only IGate which relays
%C%# messages from the local radio channel to the global servers.
%C%
%C%# Some might want to send an IGate client position directly to a server
%C%# without sending it over the air and relying on someone else to
%C%# forward it to an IGate server. This is done by using sendto=IG rather
%C%# than a radio channel number. Overlay R for receive only, T for two way.
%C%
%C%#PBEACON sendto=IG delay=0:30 every=60:00 symbol="igate" overlay=R lat=42^37.14N long=071^20.83W
%C%#PBEACON sendto=IG delay=0:30 every=60:00 symbol="igate" overlay=T lat=42^37.14N long=071^20.83W
%C%
%C%
%C%# To relay messages from the Internet to radio, you need to add
%C%# one more option with the transmit channel number and a VIA path.
%C%
%C%#IGTXVIA 0 WIDE1-1
%C%
%C%
%C%# Finally, we don't want to flood the radio channel.
%C%# The IGate function will limit the number of packets transmitted
%C%# during 1 minute and 5 minute intervals. If a limit would
%C%# be exceeded, the packet is dropped and message is displayed in red.
%C%
%C%IGTXLIMIT 6 10
%C%
%C%
%C%#############################################################
%C%# #
%C%# APRStt GATEWAY #
%C%# #
%C%#############################################################
%C%
%C%#
%C%# Dire Wolf can receive DTMF (commonly known as Touch Tone)
%C%# messages and convert them to packet objects.
%C%#
%C%# See separate "APRStt-Implementation-Notes" document for details.
%C%#
%C%
%C%#
%C%# Sample gateway configuration based on:
%C%#
%C%# http://www.aprs.org/aprstt/aprstt-coding24.txt
%C%# http://www.aprs.org/aprs-jamboree-2013.html
%C%#
%C%
%C%# Define specific points.
%C%
%C%TTPOINT B01 37^55.37N 81^7.86W
%C%TTPOINT B7495088 42.605237 -71.34456
%C%TTPOINT B934 42.605237 -71.34456
%C%
%C%TTPOINT B901 42.661279 -71.364452
%C%TTPOINT B902 42.660411 -71.364419
%C%TTPOINT B903 42.659046 -71.364452
%C%TTPOINT B904 42.657578 -71.364602
%C%
%C%
%C%# For location at given bearing and distance from starting point.
%C%
%C%TTVECTOR B5bbbddd 37^55.37N 81^7.86W 0.01 mi
%C%
%C%# For location specified by x, y coordinates.
%C%
%C%TTGRID Byyyxxx 37^50.00N 81^00.00W 37^59.99N 81^09.99W
%C%
%C%# UTM location for Lowell-Dracut-Tyngsborough State Forest.
%C%
%C%TTUTM B6xxxyyy 19T 10 300000 4720000
%C%
%C%
%C%
%C%# Location for the corral.
%C%
%C%TTCORRAL 37^55.50N 81^7.00W 0^0.02N
%C%
%C%# Compact messages - Fixed locations xx and object yyy where
%C%# Object numbers 100 - 199 = bicycle
%C%# Object numbers 200 - 299 = fire truck
%C%# Others = dog
%C%
%C%TTMACRO xx1yy B9xx*AB166*AA2B4C5B3B0A1yy
%C%TTMACRO xx2yy B9xx*AB170*AA3C4C7C3B0A2yy
%C%TTMACRO xxyyy B9xx*AB180*AA3A6C4A0Ayyy
%C%
%C%TTMACRO z Cz
%C%
%C%# Receive on channel 0, Transmit object reports on channel 1 with optional via path.
%C%# You probably want to put in a transmit delay on the APRStt channel so it
%C%# it doesn't start sending a response before the user releases PTT.
%C%# This is in 10 ms units so 100 means 1000 ms = 1 second.
%C%
%C%#TTOBJ 0 1 WIDE1-1
%C%#CHANNEL 0
%C%#DWAIT 100
%C%
%C%# Advertise gateway position with beacon.
%C%
%C%# OBEACON DELAY=0:15 EVERY=10:00 VIA=WIDE1-1 OBJNAME=WB2OSZ-tt SYMBOL=APRStt LAT=42^37.14N LONG=71^20.83W COMMENT="APRStt Gateway"
%C%
%C%
%C%# Sample speech responses.
%C%# Default is Morse code "R" for received OK and "?" for all errors.
%C%
%C%#TTERR OK SPEECH Message Received.
%C%#TTERR D_MSG SPEECH D not implemented.
%C%#TTERR INTERNAL SPEECH Internal error.
%C%#TTERR MACRO_NOMATCH SPEECH No definition for digit sequence.
%C%#TTERR BAD_CHECKSUM SPEECH Bad checksum on call.
%C%#TTERR INVALID_CALL SPEECH Invalid callsign.
%C%#TTERR INVALID_OBJNAME SPEECH Invalid object name.
%C%#TTERR INVALID_SYMBOL SPEECH Invalid symbol.
%C%#TTERR INVALID_LOC SPEECH Invalid location.
%C%#TTERR NO_CALL SPEECH No call or object name.
%C%#TTERR SATSQ SPEECH Satellite square must be 4 digits.
%C%#TTERR SUFFIX_NO_CALL SPEECH Send full call before using suffix.
%C%

23
conf/install_conf.cmake Normal file
View File

@ -0,0 +1,23 @@
if(NOT EXISTS $ENV{HOME}/direwolf.conf)
configure_file("${CUSTOM_BINARY_DIR}/direwolf.conf" $ENV{HOME})
endif()
if(NOT EXISTS $ENV{HOME}/sdr.conf)
configure_file("${CUSTOM_CONF_DIR}/sdr.conf" $ENV{HOME})
endif()
if(NOT EXISTS $ENV{HOME}/dw-start.sh)
configure_file("${CUSTOM_SCRIPTS_DIR}/dw-start.sh" $ENV{HOME})
endif()
if(NOT EXISTS $ENV{HOME}/telem-m0xer-3.txt)
configure_file("${CUSTOM_TELEMETRY_DIR}/telem-m0xer-3.txt" $ENV{HOME})
endif()
if(NOT EXISTS $ENV{HOME}/telem-balloon.conf)
configure_file("${CUSTOM_TELEMETRY_DIR}/telem-balloon.conf" $ENV{HOME})
endif()
if(NOT EXISTS $ENV{HOME}/telem-volts.conf)
configure_file("${CUSTOM_TELEMETRY_DIR}/telem-volts.conf" $ENV{HOME})
endif()

0
sdr.conf → conf/sdr.conf
View File

94
data/CMakeLists.txt Normal file
View File

@ -0,0 +1,94 @@
#
# The destination field is often used to identify the manufacturer/model.
# These are not hardcoded into Dire Wolf. Instead they are read from
# a file called tocalls.txt at application start up time.
#
# The original permanent symbols are built in but the "new" symbols,
# using overlays, are often updated. These are also read from files.
#
# You can obtain an updated copy by typing "make data-update".
# This is not part of the normal build process. You have to do this explicitly.
#
# The locations below appear to be the most recent.
# The copy at http://www.aprs.org/tocalls.txt is out of date.
#
include(ExternalProject)
set(TOCALLS_TXT "tocalls.txt")
set(TOCALLS_TXT_BKP "tocalls.txt.old")
set(TOCALLS_URL "http://www.aprs.org/aprs11/tocalls.txt")
set(SYMBOLS-NEW_TXT "symbols-new.txt")
set(SYMBOLS-NEW_TXT_BKP "symbols-new.txt.old")
set(SYMBOLS-NEW_URL "http://www.aprs.org/symbols/symbols-new.txt")
set(SYMBOLSX_TXT "symbolsX.txt")
set(SYMBOLSX_TXT_BKP "symbolsX.txt.old")
set(SYMBOLSX_URL "http://www.aprs.org/symbols/symbolsX.txt")
set(CUSTOM_BINARY_DATA_DIR "${CMAKE_BINARY_DIR}/data")
# we can also move to a separate cmake file and use file(download)
# see conf/install_conf.cmake as example
file(COPY "${CUSTOM_DATA_DIR}/${TOCALLS_TXT}" DESTINATION "${CUSTOM_BINARY_DATA_DIR}")
file(COPY "${CUSTOM_DATA_DIR}/${SYMBOLS-NEW_TXT}" DESTINATION "${CUSTOM_BINARY_DATA_DIR}")
file(COPY "${CUSTOM_DATA_DIR}/${SYMBOLSX_TXT}" DESTINATION "${CUSTOM_BINARY_DATA_DIR}")
add_custom_target(data_rename
COMMAND ${CMAKE_COMMAND} -E rename "${CUSTOM_BINARY_DATA_DIR}/${TOCALLS_TXT}" "${CUSTOM_BINARY_DATA_DIR}/${TOCALLS_TXT_BKP}"
COMMAND ${CMAKE_COMMAND} -E rename "${CUSTOM_BINARY_DATA_DIR}/${SYMBOLS-NEW_TXT}" "${CUSTOM_BINARY_DATA_DIR}/${SYMBOLS-NEW_TXT_BKP}"
COMMAND ${CMAKE_COMMAND} -E rename "${CUSTOM_BINARY_DATA_DIR}/${SYMBOLSX_TXT}" "${CUSTOM_BINARY_DATA_DIR}/${SYMBOLSX_TXT_BKP}"
)
ExternalProject_Add(download_tocalls
DEPENDS data_rename
URL ${TOCALLS_URL}
PREFIX ""
DOWNLOAD_DIR "${CUSTOM_BINARY_DATA_DIR}"
DOWNLOAD_NAME "${TOCALLS_TXT}"
DOWNLOAD_NO_EXTRACT 0
EXCLUDE_FROM_ALL 1
UPDATE_COMMAND ""
PATCH_COMMAND ""
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
ExternalProject_Add(download_symbols-new
DEPENDS data_rename
URL ${SYMBOLS-NEW_URL}
PREFIX ""
DOWNLOAD_DIR "${CUSTOM_BINARY_DATA_DIR}"
DOWNLOAD_NAME "${SYMBOLS-NEW_TXT}"
DOWNLOAD_NO_EXTRACT 0
EXCLUDE_FROM_ALL 1
UPDATE_COMMAND ""
PATCH_COMMAND ""
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
ExternalProject_Add(download_symbolsx
DEPENDS data_rename
URL ${SYMBOLSX_URL}
PREFIX ""
DOWNLOAD_DIR "${CUSTOM_BINARY_DATA_DIR}"
DOWNLOAD_NAME "${SYMBOLSX_TXT}"
DOWNLOAD_NO_EXTRACT 0
EXCLUDE_FROM_ALL 1
UPDATE_COMMAND ""
PATCH_COMMAND ""
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
add_custom_target(update-data)
add_dependencies(update-data data_rename download_tocalls download_symbols-new download_symbolsx)
install(FILES "${CUSTOM_BINARY_DATA_DIR}/${TOCALLS_TXT}" DESTINATION ${INSTALL_DATA_DIR})
install(FILES "${CUSTOM_BINARY_DATA_DIR}/${SYMBOLS-NEW_TXT}" DESTINATION ${INSTALL_DATA_DIR})
install(FILES "${CUSTOM_BINARY_DATA_DIR}/${SYMBOLSX_TXT}" DESTINATION ${INSTALL_DATA_DIR})

53
symbols-new.txt → data/symbols-new.txt
View File

@ -1,11 +1,15 @@
APRS SYMBOL OVERLAY and EXTENSION TABLES in APRS 1.2 3 Apr 2017 APRS SYMBOL OVERLAY and EXTENSION TABLES in APRS 1.2 17 Jun 2018
--------------------------------------------------------------------- ------------------------------------------------------------------------
BACKGROUND: Since 1 October 2007, overlay characters (36 per symbol)
are allowed on all symbols. Since the master symbol document,
http://aprs.org/symbols/symbolsX.txt page only has one line per symbol
character this overlay list gives us thousands of new symbol codes.
BACKGROUND: Since October 2007, overlay characters (36/symbol) are
allowed on all symbols. This allows thousands of uniquely specified
symbols instead of the original 188 (94 primary and 94 alternate).
But the master symbol document, http://aprs.org/symbols/symbolsX.txt,
only has one line per symbol. So this added overlay list below gives
us thousands of new symbol codes.
17 Jun19: Added several overlays for RAIL symbol
03 Apr17: Added Methane Hazard symbol "MH" 03 Apr17: Added Methane Hazard symbol "MH"
13 Feb17: Added Ez = Emergency Power (shelter), Cars: P> = Plugin 13 Feb17: Added Ez = Emergency Power (shelter), Cars: P> = Plugin
S> = Solar powered. Moved Ham club C- to Buildings Ch. S> = Solar powered. Moved Ham club C- to Buildings Ch.
@ -54,8 +58,8 @@ of unique overlay definitions:
\u - Overlay Trucks. "Tu" is a tanker. "Gu" is a gas truck, etc \u - Overlay Trucks. "Tu" is a tanker. "Gu" is a gas truck, etc
\< - Advisories may now have overlays \< - Advisories may now have overlays
\8 - Nodes with overlays. "G8" would be 802.11G \8 - Nodes with overlays. "G8" would be 802.11G
\[ - \[ is wall cloud, but overlays are humans. S[ is a skier. \[ - \[ was wall cloud, but overlays are humans. S[ is a skier.
\h - Buildings. \h is a Ham store, "Hh" is Home Depot, etc. \h - Was Ham store, Now Overlays are buildings "Hh" Home Depot, etc.
4 Oct 2007. ORIGINAL EXPANSION to OVERLAYS ON ALL SYMBOLS 4 Oct 2007. ORIGINAL EXPANSION to OVERLAYS ON ALL SYMBOLS
@ -94,8 +98,9 @@ small subset of alternate symbols. Those original overlayable
alternate symbols were labeled with a "#" and called "numbered" alternate symbols were labeled with a "#" and called "numbered"
symbols. (UIview requires "No." in the symbols.ini file) symbols. (UIview requires "No." in the symbols.ini file)
STATUS OF OVERLAYS 1 OCTOBER 2007: the APRS symbol set only had a STATUS OF OVERLAYS 1 OCTOBER 2007: the APRS symbol set was limited
few remaining unused symbol codes that had not yet been defined: to about 94 symbols and only had a few remaining unused symbol
codes that had not yet been defined:
OF THE 94 Primary Symbols. The following were available: OF THE 94 Primary Symbols. The following were available:
10 symbols (/0 - /9) that mostly look like billiard balls now 10 symbols (/0 - /9) that mostly look like billiard balls now
@ -107,7 +112,7 @@ OF THE 94 Alternate Symbols. The following were available:
8 series \1 through \8 that can support 36 overlays each 8 series \1 through \8 that can support 36 overlays each
3 reserved series. 3 reserved series.
ADDITIONAL OVERLAY PROPOSAL: But any of the other 79 alternate BASIS FOR OVERLAY EXPANSION: But any of the other 79 alternate
symbols could all have multiple (36) overlays if they can make sense symbols could all have multiple (36) overlays if they can make sense
with the existing underlying basic symbol that we have been using for with the existing underlying basic symbol that we have been using for
that basic alternate symbol. That is, any new definition of a that basic alternate symbol. That is, any new definition of a
@ -128,7 +133,7 @@ letting that define a new graphic just for that combination.
The following tables will attempt to keep track of these and The following tables will attempt to keep track of these and
any other useful generic applications of overlay characters. any other useful generic applications of overlay characters.
AMPLIFIED some existing ALTERNATE SYMBOL Overlays: (new Aug 2014) AMPLIFIED some existing ALTERNATE SYMBOL Overlays: (Aug 2014)
change Flooding #W to include Avalanche, Mudslide/Landslide change Flooding #W to include Avalanche, Mudslide/Landslide
Update #' name to crash & incident sites Update #' name to crash & incident sites
Update \D (was available) to DEPOT family Update \D (was available) to DEPOT family
@ -178,6 +183,7 @@ MO = Manned Balloon (2015)
TO = Teathered (2015) TO = Teathered (2015)
CO = Constant Pressure - Long duration (2015) CO = Constant Pressure - Long duration (2015)
RO = Rocket bearing Balloon (Rockoon) (2015) RO = Rocket bearing Balloon (Rockoon) (2015)
WO = World-round balloon (2018)
BOX SYMBOL: #A (and other system inputted symbols) BOX SYMBOL: #A (and other system inputted symbols)
/A = Aid station /A = Aid station
@ -197,8 +203,9 @@ BUILDINGS: #h
/h = Hospital /h = Hospital
\h = Ham Store ** <= now used for HAMFESTS \h = Ham Store ** <= now used for HAMFESTS
Ch = Club (ham radio) Ch = Club (ham radio)
Eh = Electronics Store
Fh = HamFest (new Aug 2014) Fh = HamFest (new Aug 2014)
Hh = Home Depot etc.. Hh = Hardware Store etc..
CARS: #> (Vehicles) CARS: #> (Vehicles)
/> = normal car (side view) /> = normal car (side view)
@ -345,6 +352,26 @@ S% = Solar
T% = Turbine T% = Turbine
W% = Wind W% = Wind
RAIL Symbols: #=
/= = generic train (use steam engine shape for quick recognition)
\= = tbd (use same symbol for now)
B= = Bus-rail/trolley/streetcar/guiderail
C= = Commuter
D= = Diesel
E= = Electric
F= = Freight
G= = Gondola
H= = High Speed Rail (& Hyperloop?)
I= = Inclined Rail
L= = eLevated
M= = Monorail
P= = Passenger
S= = Steam
T= = Terminal (station)
U= = sUbway (& Hyperloop?)
X= = eXcursion
RESTAURANTS: #R RESTAURANTS: #R
\R = Restaurant (generic) \R = Restaurant (generic)
7R = 7/11 7R = 7/11

0
symbolsX.txt → data/symbolsX.txt
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138
tocalls.txt → data/tocalls.txt
View File

@ -1,34 +1,48 @@
APRS TO-CALL VERSION NUMBERS 12 Dec 2017 <title>
APRS TO-CALL VERSION NUMBERS 13 Oct 2020
------------------------------------------------------------------- -------------------------------------------------------------------
WB4APR WB4APR
12 Dec 17 Added APHWxx for use in "HamWAN </title>
11 Dec 17 Added APDVxx for OE6PLD's SSTV with APRS status exchange <version_notes>
20 Nov 17 added APPICO DB1NTO' PicoAPRS
18 Oct 17 Added APBMxx BrandMeister DMR Server for R3ABM 13 Oct 20 Added APIZCI hymTR IZCI Tracker by TA7W/OH2UDS and TA6AEU
25 Sep 17 added APP6xx for APRSlib 13 Aug 20 Added APLGxx for LoRa Gateway/Digipeater
05 Sep 17 Chged APTAxx to APTBxx for TinyAPRS by BG5HHP APLTxx for LoRa Tracker - OE5BPA
17 Aug 17 Added APOCSG for POCSAG - N0AGI's APRS to Pagers 02 Aug 20 Added APNVxx for SQ8L's VP digi and Nodes
21 Jun 17 Added APCSMS for Cosmos (used for sending commands @USNA 26 May 20 Added APY300 for Yaesu
08 Jun 17 Added APPMxx for DL1MX's RTL-SDR pytohon Igate 5 May 20 added APESPG ESP SmartBeacon APRS-IS Client
01 Jun 17 added APOFF digi off on PSAT,PSAT2 APESPW ESP Weather Station APRS-IS Client
and APDTMF digi off mode on QIKCOM2 and DTMF ON 17 Apr 20 Added APGDTx for VK4FAST's Graphic Data Terminal
and APRSON digi ON for PSAT 19 Mar 20 Added APOSW and APOSB for OpenSPOT2 and 3
and APDIGI digi ON for PSAT2 and QIKCOM-2 20 Jan 20 Added APBT62 for BTech DMR 6x2
and APSAT digi ON for QIKCOM-1 08 Jan 20 Added APCLUB for Brazil APRS network
20 Mar 17 added APTBxx for TinyAPRS by BG5HHP 06 Jan 20 Added APMQxx for Ham Radio of Things WB2OSZ
06 Feb 17 added APIExx for W7KMV's PiAPRS system 18 Dec 19 Added APTPNx: TARPN Packet Node Tracker by KN4ORB
25 Jan 17 added APSFxx F5OPV embedded devices - was APZ40 02 Dec 19 added APJ8xx For Jordan / KN4CRD JS8Call application
16 Dec 16 added APYSxx for W2GMD's Python APRS 8 Sep 19 Added APBSDx for OpenBSD or HamBSD https://hambsd.org/
14 Nov 16 Added APINxx for PinPoint by AB0WV 19 Aug 19 Added APNKMX for KAM-XL
09 Nov 16 added APNICx for SQ5EKU http://sq5eku.blogspot.com/ and Added APAT51 for Anytone AT-D578UV APRS radio
24 Oct 16 added APTKPT TrackPoint N0LP, removed APZTKP 16 Jul 19 expanded APMGxx to cover PiCrumbs and MiniGate
24 Aug 16 added APK004 for Kenwood THD-74 24 Jun 19 Added APTCMA for CAPI tracker - PU1CMA Brazil
29 Apr 16 added APFPRS for FreeDV by Jeroen PE1RXQ 4 Jun 19 added APATxx for Anytone
25 Feb 16 Added APCDS0 for Leon Lessing ZS6LMG's cell tracker 8 May 19 added APQTHx for W8WJB's QTH.app
21 Jan 16 added APDNOx for APRSduino by DO3SWW 12 Mar 19 added APLIGx for LightAPRS
In 2015 Added APSTPO,APAND1,APDRxx,APZ247,APHTxx,APMTxx,APZMAJ 3 Dec 18 added APRARX forVK5QI's radiosonde tracking
8 Nov 18 added APELKx for WB8ELK balloons
24 Oct 18 added APGBLN for NW5W's GoBalloon
18 Apr 18 added APBKxx for PY5BK Bravo Tracker in Brazil
7 Mar 18 added APERSx Runner tracking by Jason,KG7YKZ
8 Jan 18 added APTCHE PU3IKE in Brazil TcheTracker/Tcheduino
2017 Added APHWxx,APDVxx,APPICO,APBMxx,APP6xx,APTAxx,APOCSG,APCSMS,
APPMxx,APOFF,APDTMF,APRSON,APDIGI,APSAT,APTBxx,APIExx,
APSFxx
2016 added APYSxx,APINxx,APNICx,APTKPT,APK004,APFPRS,APCDS0,APDNOx
2015 Added APSTPO,APAND1,APDRxx,APZ247,APHTxx,APMTxx,APZMAJ
APB2MF,APR2MF,APAVT5 APB2MF,APR2MF,APAVT5
</version_notes>
<description>
In APRS, the AX.25 Destination address is not used for packet In APRS, the AX.25 Destination address is not used for packet
routing as is normally done in AX.25. So APRS uses it for two routing as is normally done in AX.25. So APRS uses it for two
things. The initial APxxxx is used as a group identifier to make things. The initial APxxxx is used as a group identifier to make
@ -38,6 +52,9 @@ bytes of the field are available to indicate the software version
number or application. The following applications have requested number or application. The following applications have requested
a TOCALL number series: a TOCALL number series:
</description>
<tocalls>
APn 3rd digit is a number APn 3rd digit is a number
AP1WWX TAPR T-238+ WX station AP1WWX TAPR T-238+ WX station
AP1MAJ Martyn M1MAJ DeLorme inReach Tracker AP1MAJ Martyn M1MAJ DeLorme inReach Tracker
@ -52,20 +69,26 @@ a TOCALL number series:
APAHxx AHub APAHxx AHub
APAND1 APRSdroid (pre-release) http://aprsdroid.org/ APAND1 APRSdroid (pre-release) http://aprsdroid.org/
APAMxx Altus Metrum GPS trackers APAMxx Altus Metrum GPS trackers
APATxx for Anytone. 81 for 878 HT
APAT51 for Anytone AT-D578UV APRS mobile radio
APAVT5 SainSonic AP510 which is a 1watt tracker APAVT5 SainSonic AP510 which is a 1watt tracker
APAWxx AGWPE APAWxx AGWPE
APB APBxxx Beacons or Rabbit TCPIP micros? APB APBxxx Beacons or Rabbit TCPIP micros?
APB2MF DL2MF - MF2APRS Radiosonde for balloons APB2MF DL2MF - MF2APRS Radiosonde for balloons
APBLxx BigRedBee BeeLine APBLxx BigRedBee BeeLine
APBLO MOdel Rocketry K7RKT APBLO MOdel Rocketry K7RKT
APBKxx PY5BK Bravo Tracker in Brazil
APBPQx John G8BPQ Digipeater/IGate APBPQx John G8BPQ Digipeater/IGate
APBMxx BrandMeister DMR Server for R3ABM APBMxx BrandMeister DMR Server for R3ABM
APBSDx HamBSD https://hambsd.org/
APBT62 BTech DMR 6x2
APC APCxxx Cellular applications APC APCxxx Cellular applications
APCBBx VE7UDP Blackberry Applications APCBBx VE7UDP Blackberry Applications
APCDS0 Leon Lessing ZS6LMG's cell tracker APCDS0 Leon Lessing ZS6LMG's cell tracker
APCLEY EYTraker GPRS/GSM tracker by ZS6EY APCLEY EYTraker GPRS/GSM tracker by ZS6EY
APCLWX EYWeather GPRS/GSM WX station by ZS6EY
APCLEZ Telit EZ10 GSM application ZS6CEY APCLEZ Telit EZ10 GSM application ZS6CEY
APCLUB Brazil APRS network
APCLWX EYWeather GPRS/GSM WX station by ZS6EY
APCSMS for Cosmos (used for sending commands @USNA) APCSMS for Cosmos (used for sending commands @USNA)
APCWP8 John GM7HHB, WinphoneAPRS APCWP8 John GM7HHB, WinphoneAPRS
APCYxx Cybiko applications APCYxx Cybiko applications
@ -90,13 +113,19 @@ a TOCALL number series:
APDWxx DireWolf, WB2OSZ APDWxx DireWolf, WB2OSZ
APE APExxx Telemetry devices APE APExxx Telemetry devices
APECAN Pecan Pico APRS Balloon Tracker APECAN Pecan Pico APRS Balloon Tracker
APELKx WB8ELK balloons
APERXQ Experimental tracker by PE1RXQ APERXQ Experimental tracker by PE1RXQ
APERSx Runner tracking by Jason,KG7YKZ
APESPG ESP SmartBeacon APRS-IS Client
APESPW ESP Weather Station APRS-IS Client
APF APFxxx Firenet APF APFxxx Firenet
APFGxx Flood Gage (KP4DJT) APFGxx Flood Gage (KP4DJT)
APFIxx for APRS.FI OH7LZB, Hessu APFIxx for APRS.FI OH7LZB, Hessu
APFPRS for FreeDV by Jeroen PE1RXQ APFPRS for FreeDV by Jeroen PE1RXQ
APG APGxxx Gates, etc APG APGxxx Gates, etc
APGOxx for AA3NJ PDA application APGOxx for AA3NJ PDA application
APGBLN for NW5W's GoBalloon
APGDTx for VK4FAST's Graphic Data Terminal
APH APHKxx for LA1BR tracker/digipeater APH APHKxx for LA1BR tracker/digipeater
APHAXn SM2APRS by PY2UEP APHAXn SM2APRS by PY2UEP
APHTxx HMTracker by IU0AAC APHTxx HMTracker by IU0AAC
@ -105,7 +134,9 @@ a TOCALL number series:
APICxx HA9MCQ's Pic IGate APICxx HA9MCQ's Pic IGate
APIExx W7KMV's PiAPRS system APIExx W7KMV's PiAPRS system
APINxx PinPoint by AB0WV APINxx PinPoint by AB0WV
APJ APJAxx JavAPRS APIZCI hymTR IZCI Tracker by TA7W/OH2UDS and TA6AEU
APJ APJ8xx Jordan / KN4CRD JS8Call application
APJAxx JavAPRS
APJExx JeAPRS APJExx JeAPRS
APJIxx jAPRSIgate APJIxx jAPRSIgate
APJSxx javAPRSSrvr APJSxx javAPRSSrvr
@ -116,11 +147,15 @@ a TOCALL number series:
APK1xx Kenwood D700's APK1xx Kenwood D700's
APK102 Kenwood D710 APK102 Kenwood D710
APKRAM KRAMstuff.com - Mark. G7LEU APKRAM KRAMstuff.com - Mark. G7LEU
APL APLQRU Charlie - QRU Server APL APLGxx LoRa Gateway/Digipeater OE5BPA
APLIGx LightAPRS - TA2MUN and TA9OHC
APLQRU Charlie - QRU Server
APLMxx WA0TQG transceiver controller APLMxx WA0TQG transceiver controller
APLTxx LoRa Tracker - OE5BPA
APM APMxxx MacAPRS, APM APMxxx MacAPRS,
APMGxx MiniGate - Alex, AB0TJ APMGxx PiCrumbs and MiniGate - Alex, AB0TJ
APMIxx SQ3PLX http://microsat.com.pl/ APMIxx SQ3PLX http://microsat.com.pl/
APMQxx Ham Radio of Things WB2OSZ
APMTxx LZ1PPL for tracker APMTxx LZ1PPL for tracker
APN APNxxx Network nodes, digis, etc APN APNxxx Network nodes, digis, etc
APN3xx Kantronics KPC-3 rom versions APN3xx Kantronics KPC-3 rom versions
@ -131,10 +166,12 @@ a TOCALL number series:
APNK01 Kenwood D700 (APK101) type APNK01 Kenwood D700 (APK101) type
APNK80 KAM version 8.0 APNK80 KAM version 8.0
APNKMP KAM+ APNKMP KAM+
APNKMX KAM-XL
APNMxx MJF TNC roms APNMxx MJF TNC roms
APNPxx Paccom TNC roms APNPxx Paccom TNC roms
APNTxx SV2AGW's TNT tnc as a digi APNTxx SV2AGW's TNT tnc as a digi
APNUxx UIdigi APNUxx UIdigi
APNVxx SQ8L's VP digi and Nodes
APNXxx TNC-X (K6DBG) APNXxx TNC-X (K6DBG)
APNWxx SQ3FYK.com WX/Digi and SQ3PLX http://microsat.com.pl/ APNWxx SQ3FYK.com WX/Digi and SQ3PLX http://microsat.com.pl/
APO APRSpoint APO APRSpoint
@ -142,8 +179,10 @@ a TOCALL number series:
APOLUx for OSCAR satellites for AMSAT-LU by LU9DO APOLUx for OSCAR satellites for AMSAT-LU by LU9DO
APOAxx OpenAPRS - Greg Carter APOAxx OpenAPRS - Greg Carter
APOCSG For N0AGI's APRS to POCSAG project APOCSG For N0AGI's APRS to POCSAG project
APOTxx Open Track
APOD1w Open Track with 1 wire WX APOD1w Open Track with 1 wire WX
APOSBx openSPOT3 by HA2NON at sharkrf.com
APOSWx openSPOT2
APOTxx Open Track
APOU2k Open Track for Ultimeter APOU2k Open Track for Ultimeter
APOZxx www.KissOZ.dk Tracker. OZ1EKD and OZ7HVO APOZxx www.KissOZ.dk Tracker. OZ1EKD and OZ7HVO
APP APP6xx for APRSlib APP APP6xx for APRSlib
@ -151,8 +190,10 @@ a TOCALL number series:
APPMxx DL1MX's RTL-SDR pytohon Igate APPMxx DL1MX's RTL-SDR pytohon Igate
APPTxx KetaiTracker by JF6LZE, Takeki (msg capable) APPTxx KetaiTracker by JF6LZE, Takeki (msg capable)
APQ APQxxx Earthquake data APQ APQxxx Earthquake data
APQTHx W8WJB's QTH.app
APR APR8xx APRSdos versions 800+ APR APR8xx APRSdos versions 800+
APR2MF DL2MF - MF2APRS Radiosonde WX reporting APR2MF DL2MF - MF2APRS Radiosonde WX reporting
APRARX VK5QI's radiosonde tracking
APRDxx APRSdata, APRSdr APRDxx APRSdata, APRSdr
APRGxx aprsg igate software, OH2GVE APRGxx aprsg igate software, OH2GVE
APRHH2 HamHud 2 APRHH2 HamHud 2
@ -180,8 +221,11 @@ a TOCALL number series:
APT3xx Tiny Track III APT3xx Tiny Track III
APTAxx K4ATM's tiny track APTAxx K4ATM's tiny track
APTBxx TinyAPRS by BG5HHP Was APTAxx till Sep 2017 APTBxx TinyAPRS by BG5HHP Was APTAxx till Sep 2017
APTCHE PU3IKE in Brazil TcheTracker/Tcheduino
APTCMA CAPI tracker - PU1CMA Brazil
APTIGR TigerTrack APTIGR TigerTrack
APTKPT TrackPoint N0LP APTKPT TrackPoint N0LP
APTPNx TARPN Packet Node Tracker by KN4ORB http://tarpn.net/
APTTxx Tiny Track APTTxx Tiny Track
APTWxx Byons WXTrac APTWxx Byons WXTrac
APTVxx for ATV/APRN and SSTV applications APTVxx for ATV/APRN and SSTV applications
@ -200,11 +244,15 @@ a TOCALL number series:
APWWxx APRSISCE win32 version APWWxx APRSISCE win32 version
APX APXnnn Xastir APX APXnnn Xastir
APXRnn Xrouter APXRnn Xrouter
APY APYxxx Yeasu APY APYxxx Yaesu Radios
APY008 Yaesu VX-8 series APY008 Yaesu VX-8 series
APY350 Yaesu FTM-350 series APY01D Yaesu FT1D series
APYTxx for YagTracker APY02D Yaesu FT2D series
APYSxx for W2GMD's Python APRS APY03D Yaesu FT3D series
APY100 Yaesu FTM-100D series
APY300 Yaesu FTM-300D series
APY350 Yaesu FTM-350 series
APY400 Yaesu FTM-400D series
APZ APZxxx Experimental APZ APZxxx Experimental
APZ247 for UPRS NR0Q APZ247 for UPRS NR0Q
APZ0xx Xastir (old versions. See APX) APZ0xx Xastir (old versions. See APX)
@ -214,11 +262,15 @@ a TOCALL number series:
APZTKP TrackPoint, Nick N0LP (Balloon tracking)(depricated) APZTKP TrackPoint, Nick N0LP (Balloon tracking)(depricated)
APZWIT MAP27 radio (Mountain Rescue) EI7IG APZWIT MAP27 radio (Mountain Rescue) EI7IG
APZWKR GM1WKR NetSked application APZWKR GM1WKR NetSked application
</tocalls>
<notes>
Authors with similar alphabetic requirements are encouraged to share Authors with similar alphabetic requirements are encouraged to share
their address space with other software. Work out agreements amongst their address space with other software. Work out agreements amongst
yourselves and keep me informed. yourselves and keep me informed.
</notes>
<altnets>
REGISTERED ALTNETS: REGISTERED ALTNETS:
------------------- -------------------
@ -244,9 +296,11 @@ The following is a list of ALTNETS that may be of interest to other
users. This list is by no means complete, since ANY combination of users. This list is by no means complete, since ANY combination of
characters other than APxxxx are considered an ALTNET. But this list characters other than APxxxx are considered an ALTNET. But this list
can give consisntecy to ALTNETS that may be using the global APRS-IS can give consisntecy to ALTNETS that may be using the global APRS-IS
and need some special recognition: and need some special recognition. Here are some ideas:
</altnets>
<altnet_list>
TEST - A generic ALTNET for use during testing SATERN - Salvation Army Altnet
PSKAPR - PSKmail . But it is not AX.25 anyway AFMARS - Airforce Mars
AMARS - Army Mars
de WB4APR, Bob </altnet_list>

5
debian/README.Debian vendored Normal file
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@ -0,0 +1,5 @@
In order to start direwolf as a service the configuration file
/etc/direwolf.conf needs to exist. Otherwise attempting to start the service
returns an 'Assertion failed' error. An example configuration file which may be
used as a model can be found in
/usr/share/doc/direwolf/examples/direwolf.conf.gz

1
debian/changelog vendored Symbolic link
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@ -0,0 +1 @@
../CHANGES.md

1
debian/compat vendored Normal file
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@ -0,0 +1 @@
10

30
debian/control vendored Normal file
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@ -0,0 +1,30 @@
Source: direwolf
Maintainer: Debian Hamradio Maintainers <debian-hams@lists.debian.org>
Uploaders: Iain R. Learmonth <irl@debian.org>
Section: hamradio
Priority: optional
Build-Depends: debhelper (>= 9),
libasound2-dev,
libgps-dev,
libhamlib-dev,
dh-systemd
Standards-Version: 4.1.0
Vcs-Browser: https://anonscm.debian.org/cgit/pkg-hamradio/direwolf.git/
Vcs-Git: https://anonscm.debian.org/git/pkg-hamradio/direwolf.git
Homepage: https://github.com/wb2osz/direwolf
Package: direwolf
Architecture: alpha amd64 arm64 armel armhf i386 mipsel ppc64el sh4 x32
Depends: ${shlibs:Depends},
${misc:Depends},
adduser,
libhamlib2
Suggests: gpsd, libhamlib-utils
Breaks: direwolf-docs (<< 1.1-1)
Replaces: direwolf-docs (<< 1.1-1)
Description: Soundcard TNC for APRS
Dire Wolf is a software "soundcard" modem/TNC and APRS encoder/decoder. It can
be used stand-alone to receive APRS messages, as a digipeater, APRStt gateway,
or Internet Gateway (IGate). It can also be used as a virtual TNC for other
applications such as APRSIS32, UI-View32, Xastir, APRS-TW, YAAC, UISS, Linux
AX25, SARTrack, and many others.

176
debian/copyright vendored Normal file
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@ -0,0 +1,176 @@
Format: http://www.debian.org/doc/packaging-manuals/copyright-format/1.0/
Upstream-Name: direwolf
Files-Excluded: doc/*.pdf
Source: https://github.com/wb2osz/direwolf
Comment:
The files in misc/ are copied directly from the Cygwin source code. These are
listed here as dual licensed as they are both part of the Cygwin distribution
and originally part of BSD. See misc/README-dire-wolf.txt for more information.
.
Please see ftp-master's comments on this here:
https://lists.debian.org/debian-hams/2014/09/msg00063.html
https://lists.debian.org/debian-hams/2014/10/msg00003.html
Files: *
Copyright: (C) 2011-2014 John Langner WB2OSZ
License: GPL-2+
Files: geotranz/*
Copyright: National Geospatial-Intelligence Agency
License: Permissive-NGA
Files: regex/*
Copyright: (C) 2002, 2003, 2005 Free Software Foundation, Inc.
License: LGPL-2.1+
Files: misc/strcasestr.c
Copyright:
(C) 1990, 1993 The Regents of the University of California
(C) RedHat
License: BSD-4-clause or GPL-2+
Files: misc/strtok_r.c misc/strsep.c
Copyright:
(C) 1988 Regents of the University of California
(C) RedHat
License: BSD-3-clause or GPL-2+
Files: debian/*
Copyright: (C) 2014 Iain R. Learmonth <irl@fsfe.org>
License: GPL-2+
License: BSD-3-clause
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
.
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
.
3. Neither the name of the University nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
.
THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE.
License: BSD-4-clause
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
.
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
.
3. All advertising materials mentioning features or use of this software
must display the following acknowledgement:
This product includes software developed by the University of
California, Berkeley and its contributors.
.
4. Neither the name of the University nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
.
THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE.
License: GPL-2+
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.
.
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, see <http://www.gnu.org/licenses/>.
.
On Debian systems, a copy of the full license text is available in
/usr/share/common-licenses/GPL-2.
License: LGPL-2.1+
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
.
This library 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
Lesser General Public License for more details.
.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
.
On Debian systems, a copy of the full license text is available in
/usr/share/common-licenses/LGPL-2.1.
License: Permissive-NGA
1. The GEOTRANS source code ("the software") is provided free of charge by the
National Geospatial-Intelligence Agency (NGA) of the United States Department
of Defense. Although NGA makes no copyright claim under Title 17 U.S.C., NGA
claims copyrights in the source code under other legal regimes. NGA hereby
grants to each user of the software a license to use and distribute the
software, and develop derivative works.
.
2. NGA requests that products developed using the software credit the source of
the software with the following statement, "The product was developed using
GEOTRANS, a product of the National Geospatial-Intelligence Agency (NGA) and
U.S. Army Engineering Research and Development Center." Do not use the name
GEOTRANS for any derived work.
.
3. Warranty Disclaimer: The software was developed to meet only the internal
requirements of the National Geospatial-Intelligence Agency (NGA). The software
is provided "as is," and no warranty, express or implied, including but not
limited to the implied warranties of merchantability and fitness for particular
purpose or arising by statute or otherwise in law or from a course of dealing
or usage in trade, is made by NGA as to the accuracy and functioning of the
software.
.
4. NGA and its personnel are not required to provide technical support or
general assistance with respect to public use of the software. Government
customers may contact NGA.
.
5. Neither NGA nor its personnel will be liable for any claims, losses, or
damages arising from or connected with the use of the software. The user agrees
to hold harmless the United States National Geospatial-Intelligence Agency
(NGA). The user's sole and exclusive remedy is to stop using the software.
.
6. Please be advised that pursuant to the United States Code, 10 U.S.C. 425,
the name of the National Geospatial-Intelligence Agency, the initials "NGA",
the seal of the National Geospatial-Intelligence Agency, or any colorable
imitation thereof shall not be used to imply approval, endorsement, or
authorization of a product without prior written permission from United States
Secretary of Defense. Do not create the impression that NGA, the Secretary of
Defense or the Director of National Intelligence has endorsed any product
derived from GEOTRANS.

33
debian/direwolf.postinst vendored Normal file
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@ -0,0 +1,33 @@
#!/bin/sh
set -e
. /usr/share/debconf/confmodule
add_group_if_missing() {
if ! getent group direwolf >/dev/null; then
addgroup --system --force-badname direwolf || true
fi
}
add_user_if_missing() {
if ! id -u direwolf > /dev/null 2>&1; then
mkdir -m 02750 -p /var/lib/direwolf
adduser --system --home /var/lib/direwolf \
--disabled-password \
--force-badname direwolf \
--ingroup direwolf
adduser direwolf dialout
chown direwolf:direwolf /var/lib/direwolf
fi
}
add_group_if_missing
add_user_if_missing
db_stop
#DEBHELPER#
exit 0

19
debian/direwolf.postrm vendored Normal file
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@ -0,0 +1,19 @@
#!/bin/sh
set -e
case "$1" in
purge)
rm -rf /var/lib/direwolf/
;;
remove|upgrade|failed-upgrade|abort-install|abort-upgrade|disappear)
;;
*)
echo "postrm called with unknown argument \`$1'" >&2
exit 1
esac
#DEBHELPER#
exit 0

7
debian/rules vendored Normal file
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@ -0,0 +1,7 @@
#!/usr/bin/make -f
%:
dh $@ --parallel
override_dh_auto_configure:
dh_auto_configure -- -DFORCE_SSE=1

1
debian/source/format vendored Normal file
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@ -0,0 +1 @@
3.0 (quilt)

7
demod_psk.h
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@ -1,7 +0,0 @@
/* demod_psk.h */
void demod_psk_init (enum modem_t modem_type, int samples_per_sec, int bps, char profile, struct demodulator_state_s *D);
void demod_psk_process_sample (int chan, int subchan, int sam, struct demodulator_state_s *D);

103
direwolf.spec
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@ -1,103 +0,0 @@
#%global git_commit b2548ec58f44f4b651626757a166b9f4f18d8000
%global git_commit 37179479caf0bf36adf8c9bc0fde641884edaeac
%global git_date 20171216
%global git_short_commit %(echo %{git_commit} | cut -c -8)
%global git_suffix %{git_date}git%{git_short_commit}
Name: direwolf
Version: 1.5Beta
Release: 1.%{git_suffix}%{?dist}
Summary: Soundcard based AX.25 TNC
Group: Applications/Communications
License: GPLv2
URL: https://github.com/wb2osz/direwolf
#Source0: https://github.com/wb2osz/direwolf/archive/%{name}-%{version}.tar.gz
Source: %{name}-%{version}-%{git_suffix}.tgz
Packager: David Ranch (KI6ZHD) <dranch@trinnet.net>
Distribution: RedHat Linux
Patch0: direwolf-1.5-makefile.patch
BuildRequires: automake
BuildRequires: alsa-lib-devel
#If the gpsd and gpsd-devel packages are installed, Direwolf will add gps support
%description
Dire Wolf is a software "soundcard" modem/TNC and APRS encoder/decoder. It can
be used stand-alone to receive APRS messages, as a digipeater, APRStt gateway,
or Internet Gateway (IGate). It can also be used as a virtual TNC for other
applications such as APRSIS32, UI-View32, Xastir, APRS-TW, YAAC, UISS,
Linux AX25, SARTrack, RMS Express, and many others.
%prep
%setup -q -n %{name}-%{version}
%patch0 -p0
%build
make -f Makefile.linux
#make -f Makefile.linux tocalls-symbols
make %{?_smp_mflags}
%install
make install INSTALLDIR=$RPM_BUILD_ROOT/usr
make install-conf INSTALLDIR=$RPM_BUILD_ROOT/usr
# Install icon
mkdir -p ${RPM_BUILD_ROOT}%{_datadir}/pixmaps/direwolf/
cp dw-icon.png ${RPM_BUILD_ROOT}%{_datadir}/pixmaps/direwolf/
mv symbols-new.txt ${RPM_BUILD_ROOT}%{_docdir}/%{name}/
mv symbolsX.txt ${RPM_BUILD_ROOT}%{_docdir}/%{name}/
mv tocalls.txt ${RPM_BUILD_ROOT}%{_docdir}/%{name}/
desktop-file-install \
--dir=${RPM_BUILD_ROOT}%{_datadir}/applications direwolf.desktop
#temp bug
#non echo "fixing $RPM_BUILD_ROOT/%{_bindir}/bin"
#non rm -f $RPM_BUILD_ROOT/usr/bin
%files
%{_sysconfdir}/ax25/direwolf.conf
%{_sysconfdir}/ax25/sdr.conf
%{_sysconfdir}/ax25/telemetry-toolkit/telem-balloon.conf
%{_sysconfdir}/ax25/telemetry-toolkit/telem-m0xer-3.txt
%{_sysconfdir}/ax25/telemetry-toolkit/telem-volts.conf
%{_sysconfdir}/udev/rules.d/99-direwolf-cmedia.rules
%{_bindir}/*
%{_datadir}/pixmaps/direwolf/dw-icon.png
%{_datadir}/applications/%{name}.desktop
%{_datadir}/direwolf/*
%{_docdir}/*
%{_mandir}/man1/*
%changelog
* Sat Dec 16 2017 David Ranch <dranch@trinnet.net> - 1.5-1
- New 1.5-Beta version from Git
* Sun Apr 2 2017 David Ranch <dranch@trinnet.net> - 1.4-1
- New 1.4-Beta1 version from Git
* Sun Mar 5 2017 David Ranch <dranch@trinnet.net> - 1.4-1
- New 1.4-H Alpha version from Git version
* Fri Aug 26 2016 David Ranch <dranch@trinnet.net> - 1.4-1
- New version
* Fri May 06 2016 David Ranch <dranch@trinnet.net> - 1.3-1
- New version
* Sat Sep 12 2015 David Ranch <dranch@trinnet.net> - 1.3F-1
- New version with new features
* Sun May 10 2015 David Ranch <dranch@trinnet.net> - 1.2E-1
- New version that supports a PASSALL function
- Updated the Makefile.linux patch
* Sat Mar 21 2015 David Ranch <dranch@trinnet.net> - 1.2C-1
- changed to support different make installation variable
* Sat Feb 14 2015 David Ranch <dranch@trinnet.net> - 1.2b-1
- new spec file
* Sat Dec 20 2014 David Ranch <dranch@trinnet.net> - 1.1b1-1
- new spec file

536
direwolf.txt
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@ -1,536 +0,0 @@
C#############################################################
C# #
C# Configuration file for Dire Wolf #
C# #
L# Linux version #
W# Windows version #
C# #
C#############################################################
R
R
R The sample config file was getting pretty messy
R with the Windows and Linux differences.
R It would be a maintenance burden to keep most of
R two different versions in sync.
R This common source is now used to generate the
R two different variations while having only a single
R copy of the common parts.
R
R The first column contains one of the following:
R
R R remark which is discarded.
R C common to both versions.
R W Windows version only.
R L Linux version only.
R
C#
C# Consult the User Guide for more details on configuration options.
C#
C#
C# These are the most likely settings you might change:
C#
C# (1) MYCALL - call sign and SSID for your station.
C#
C# Look for lines starting with MYCALL and
C# change NOCALL to your own.
C#
C# (2) PBEACON - enable position beaconing.
C#
C# Look for lines starting with PBEACON and
C# modify for your call, location, etc.
C#
C# (3) DIGIPEATER - configure digipeating rules.
C#
C# Look for lines starting with DIGIPEATER.
C# Most people will probably use the given example.
C# Just remove the "#" from the start of the line
C# to enable it.
C#
C# (4) IGSERVER, IGLOGIN - IGate server and login
C#
C# Configure an IGate client to relay messages between
C# radio and internet servers.
C#
C#
C# The default location is "direwolf.conf" in the current working directory.
L# On Linux, the user's home directory will also be searched.
C# An alternate configuration file location can be specified with the "-c" command line option.
C#
C# As you probably guessed by now, # indicates a comment line.
C#
C# Remove the # at the beginning of a line if you want to use a sample
C# configuration that is currently commented out.
C#
C# Commands are a keyword followed by parameters.
C#
C# Command key words are case insensitive. i.e. upper and lower case are equivalent.
C#
C# Command parameters are generally case sensitive. i.e. upper and lower case are different.
C#
C
C
C#############################################################
C# #
C# FIRST AUDIO DEVICE PROPERTIES #
C# (Channel 0 + 1 if in stereo) #
C# #
C#############################################################
C
C#
C# Many people will simply use the default sound device.
C# Some might want to use an alternative device by chosing it here.
C#
W# When the Windows version starts up, it displays something like
W# this with the available sound devices and capabilities:
W#
W# Available audio input devices for receive (*=selected):
W# * 0: Microphone (C-Media USB Headpho (channel 2)
W# 1: Microphone (Bluetooth SCO Audio
W# 2: Microphone (Bluetooth AV Audio)
W# * 3: Microphone (Realtek High Defini (channels 0 & 1)
W# Available audio output devices for transmit (*=selected):
W# * 0: Speakers (C-Media USB Headphone (channel 2)
W# 1: Speakers (Bluetooth SCO Audio)
W# 2: Realtek Digital Output(Optical)
W# 3: Speakers (Bluetooth AV Audio)
W# * 4: Speakers (Realtek High Definiti (channels 0 & 1)
W# 5: Realtek Digital Output (Realtek
W#
W# Example: To use the microphone and speaker connections on the
W# system board, either of these forms can be used:
W
W#ADEVICE High
W#ADEVICE 3 4
W
W
W# Example: To use the USB Audio, use a command like this with
W# the input and output device numbers. (Remove the # comment character.)
W#ADEVICE USB
W
W# The position in the list can change when devices (e.g. USB) are added and removed.
W# You can also specify devices by using part of the name.
W# Here is an example of specifying the USB Audio device.
W# This is case-sensitive. Upper and lower case are not treated the same.
W
W#ADEVICE USB
W
W
L# Linux ALSA is complicated. See User Guide for discussion.
L# To use something other than the default, generally use plughw
L# and a card number reported by "arecord -l" command. Example:
L
L# ADEVICE plughw:1,0
L
L# Starting with version 1.0, you can also use "-" or "stdin" to
L# pipe stdout from some other application such as a software defined
L# radio. You can also specify "UDP:" and an optional port for input.
L# Something different must be specified for output.
L
W# ADEVICE - 0
W# ADEVICE UDP:7355 0
L# ADEVICE - plughw:1,0
L# ADEVICE UDP:7355 default
L
L
C
C#
C# Number of audio channels for this souncard: 1 or 2.
C#
C
CACHANNELS 1
C#ACHANNELS 2
C
C
C#############################################################
C# #
C# SECOND AUDIO DEVICE PROPERTIES #
C# (Channel 2 + 3 if in stereo) #
C# #
C#############################################################
C
C#ADEVICE1 ...
C
C
C#############################################################
C# #
C# THIRD AUDIO DEVICE PROPERTIES #
C# (Channel 4 + 5 if in stereo) #
C# #
C#############################################################
C
C#ADEVICE2 ...
C
C
C#############################################################
C# #
C# CHANNEL 0 PROPERTIES #
C# #
C#############################################################
C
CCHANNEL 0
C
C#
C# The following MYCALL, MODEM, PTT, etc. configuration items
C# apply to the most recent CHANNEL.
C#
C
C#
C# Station identifier for this channel.
C# Multiple channels can have the same or different names.
C#
C# It can be up to 6 letters and digits with an optional ssid.
C# The APRS specification requires that it be upper case.
C#
C# Example (don't use this unless you are me): MYCALL WB2OSZ-5
C#
C
CMYCALL N0CALL
C
C#
C# Pick a suitable modem speed based on your situation.
C# 1200 Most common for VHF/UHF. Default if not specified.
C# 300 Low speed for HF SSB.
C# 9600 High speed - Can't use Microphone and Speaker connections.
C#
C# In the simplest form, just specify the speed.
C#
C
CMODEM 1200
C#MODEM 300
C#MODEM 9600
C
C#
C# These are the defaults should be fine for most cases. In special situations,
C# you might want to specify different AFSK tones or the baseband mode which does
C# not use AFSK.
C#
C#MODEM 1200 1200:2200
C#MODEM 300 1600:1800
C#MODEM 9600 0:0
C#
C#
C# On HF SSB, you might want to use multiple demodulators on slightly different
C# frequencies to compensate for stations off frequency. Here we have 7 different
C# demodulators at 30 Hz intervals. This takes a lot of CPU power so you will
C# probably need to reduce the audio sampling rate with the /n option.
C
C#MODEM 300 1600:1800 7@30 /4
C
C
C#
C# Uncomment line below to enable the DTMF decoder for this channel.
C#
C
C#DTMF
C
C#
C# If not using a VOX circuit, the transmitter Push to Talk (PTT)
C# control is usually wired to a serial port with a suitable interface circuit.
C# DON'T connect it directly!
C#
C# For the PTT command, specify the device and either RTS or DTR.
C# RTS or DTR may be preceded by "-" to invert the signal.
C# Both can be used for interfaces that want them driven with opposite polarity.
C#
L# COM1 can be used instead of /dev/ttyS0, COM2 for /dev/ttyS1, and so on.
L#
C
C#PTT COM1 RTS
C#PTT COM1 RTS -DTR
L#PTT /dev/ttyUSB0 RTS
C
L#
L# On Linux, you can also use general purpose I/O pins if
L# your system is configured for user access to them.
L# This would apply mostly to microprocessor boards, not a regular PC.
L# See separate Raspberry Pi document for more details.
L# The number may be preceded by "-" to invert the signal.
L#
L
L#PTT GPIO 25
L
C# The Data Carrier Detect (DCD) signal can be sent to the same places
C# as the PTT signal. This could be used to light up an LED like a normal TNC.
C
C#DCD COM1 -DTR
L#DCD GPIO 24
C
C
C#############################################################
C# #
C# CHANNEL 1 PROPERTIES #
C# #
C#############################################################
C
C#CHANNEL 1
C
C#
C# Specify MYCALL, MODEM, PTT, etc. configuration items for
C# CHANNEL 1. Repeat for any other channels.
C
C
C#############################################################
C# #
C# TEXT TO SPEECH COMMAND FILE #
C# #
C#############################################################
C
W#SPEECH dwespeak.bat
L#SPEECH dwespeak.sh
C
C
C#############################################################
C# #
C# VIRTUAL TNC SERVER PROPERTIES #
C# #
C#############################################################
C
C#
C# Dire Wolf acts as a virtual TNC and can communicate with
C# client applications by different protocols:
C#
C# - the "AGW TCPIP Socket Interface" - default port 8000
C# - KISS protocol over TCP socket - default port 8001
W# - KISS TNC via serial port
L# - KISS TNC via pseudo terminal (-p command line option)
C#
C
CAGWPORT 8000
CKISSPORT 8001
C
W#
W# Some applications are designed to operate with only a physical
W# TNC attached to a serial port. For these, we provide a virtual serial
W# port that appears to be connected to a TNC.
W#
W# Take a look at the User Guide for instructions to set up
W# two virtual serial ports named COM3 and COM4 connected by
W# a null modem.
W#
W# Using the configuration described, Dire Wolf will connect to
W# COM3 and the client application will use COM4.
W#
W# Uncomment following line to use this feature.
W
W#SERIALKISS COM3
W
W
C#
C# It is sometimes possible to recover frames with a bad FCS.
C# This applies to all channels.
C#
C# 0 [NONE] - Don't try to repair.
C# 1 [SINGLE] - Attempt to fix single bit error. (default)
C# 2 [DOUBLE] - Also attempt to fix two adjacent bits.
C# ... see User Guide for more values and in-depth discussion.
C#
C
C#FIX_BITS 0
C
C#
C#############################################################
C# #
C# BEACONING PROPERTIES #
C# #
C#############################################################
C
C
C#
C# Beaconing is configured with these two commands:
C#
C# PBEACON - for a position report (usually yourself)
C# OBEACON - for an object report (usually some other entity)
C#
C# Each has a series of keywords and values for options.
C# See User Guide for details.
C#
C# Example:
C#
C# This results in a broadcast once every 10 minutes.
C# Every half hour, it can travel via two digipeater hops.
C# The others are kept local.
C#
C
C#PBEACON delay=1 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA" via=WIDE1-1,WIDE2-1
C#PBEACON delay=11 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA"
C#PBEACON delay=21 every=30 overlay=S symbol="digi" lat=42^37.14N long=071^20.83W power=50 height=20 gain=4 comment="Chelmsford MA"
C
C
C# With UTM coordinates instead of latitude and longitude.
C
C#PBEACON delay=1 every=10 overlay=S symbol="digi" zone=19T easting=307477 northing=4720178
C
C
C#
C# When the destination field is set to "SPEECH" the information part is
C# converted to speech rather than transmitted as a data frame.
C#
C
C#CBEACON dest="SPEECH" info="Club meeting tonight at 7 pm."
C
C
C#
C# Modify for your particular situation before removing
C# the # comment character from the beginning of appropriate lines above.
C#
C
C
C#############################################################
C# #
C# DIGIPEATER PROPERTIES #
C# #
C#############################################################
C
C#
C# For most common situations, use something like this by removing
C# the "#" from the beginning of the line below.
C#
C
C#DIGIPEAT 0 0 ^WIDE[3-7]-[1-7]$|^TEST$ ^WIDE[12]-[12]$ TRACE
C
C# See User Guide for more explanation of what this means and how
C# it can be customized for your particular needs.
C
C# Filtering can be used to limit was is digipeated.
C# For example, only weather weather reports, received on channel 0,
C# will be retransmitted on channel 1.
C#
C
C#FILTER 0 1 t/wn
C
C
C#############################################################
C# #
C# INTERNET GATEWAY #
C# #
C#############################################################
C
C# First you need to specify the name of a Tier 2 server.
C# The current preferred way is to use one of these regional rotate addresses:
C
C# noam.aprs2.net - for North America
C# soam.aprs2.net - for South America
C# euro.aprs2.net - for Europe and Africa
C# asia.aprs2.net - for Asia
C# aunz.aprs2.net - for Oceania
C
C#IGSERVER noam.aprs2.net
C
C# You also need to specify your login name and passcode.
C# Contact the author if you can't figure out how to generate the passcode.
C
C#IGLOGIN WB2OSZ-5 123456
C
C# That's all you need for a receive only IGate which relays
C# messages from the local radio channel to the global servers.
C
C# Some might want to send an IGate client position directly to a server
C# without sending it over the air and relying on someone else to
C# forward it to an IGate server. This is done by using sendto=IG rather
C# than a radio channel number. Overlay R for receive only, T for two way.
C
C#PBEACON sendto=IG delay=0:30 every=60:00 symbol="igate" overlay=R lat=42^37.14N long=071^20.83W
C#PBEACON sendto=IG delay=0:30 every=60:00 symbol="igate" overlay=T lat=42^37.14N long=071^20.83W
C
C
C# To relay messages from the Internet to radio, you need to add
C# one more options with the transmit channel number and a VIA path.
C
C#IGTXVIA 0 WIDE1-1
C
C# The APRS Internet Server (APRS-IS) has its own idea about what you
C# should be transmitting. This includes "messages" addressed to stations
C# recently heard in your area. For special situations, you can subscribe
C# to
C# decrease what you are already subscribed to. This is known as a server
C# side filter. Read here: http://www.aprs-is.net/javaprsfilter.aspx
C# Example, positions and objects within 50 km of my location:
C
C#IGFILTER m/50
C
C# Sometimes the server will send you more than you want. You can also apply
C# local filtering to limit what will be transmitted on the RF side.
C# For example, transmit only "messages" (which is the default) on channel 0
C# and weather reports on channel 1.
C
C#FILTER IG 0 i/30
C#FILTER IG 1 t/wn
C
C# Finally, we don't want to flood the radio channel.
C# The IGate function will limit the number of packets transmitted
C# during 1 minute and 5 minute intervals. If a limit would
C# be exceeded, the packet is dropped and message is displayed in red.
C
CIGTXLIMIT 6 10
C
C
C#############################################################
C# #
C# APRStt GATEWAY #
C# #
C#############################################################
C
C#
C# Dire Wolf can receive DTMF (commonly known as Touch Tone)
C# messages and convert them to packet objects.
C#
C# See separate "APRStt-Implementation-Notes" document for details.
C#
C
C#
C# Sample gateway configuration based on:
C#
C# http://www.aprs.org/aprstt/aprstt-coding24.txt
C# http://www.aprs.org/aprs-jamboree-2013.html
C#
C
C# Define specific points.
C
CTTPOINT B01 37^55.37N 81^7.86W
CTTPOINT B7495088 42.605237 -71.34456
CTTPOINT B934 42.605237 -71.34456
C
CTTPOINT B901 42.661279 -71.364452
CTTPOINT B902 42.660411 -71.364419
CTTPOINT B903 42.659046 -71.364452
CTTPOINT B904 42.657578 -71.364602
C
C
C# For location at given bearing and distance from starting point.
C
CTTVECTOR B5bbbddd 37^55.37N 81^7.86W 0.01 mi
C
C# For location specified by x, y coordinates.
C
CTTGRID Byyyxxx 37^50.00N 81^00.00W 37^59.99N 81^09.99W
C
C# UTM location for Lowell-Dracut-Tyngsborough State Forest.
C
CTTUTM B6xxxyyy 19T 10 300000 4720000
C
C
C
C# Location for the corral.
C
CTTCORRAL 37^55.50N 81^7.00W 0^0.02N
C
C# Compact messages - Fixed locations xx and object yyy where
C# Object numbers 100 - 199 = bicycle
C# Object numbers 200 - 299 = fire truck
C# Others = dog
C
CTTMACRO xx1yy B9xx*AB166*AA2B4C5B3B0A1yy
CTTMACRO xx2yy B9xx*AB170*AA3C4C7C3B0A2yy
CTTMACRO xxyyy B9xx*AB180*AA3A6C4A0Ayyy
C
CTTMACRO z Cz
C
C# Receive on channel 0, Transmit object reports on channel 1 with optional via path.
C
C#TTOBJ 0 1 WIDE1-1
C
C# Advertise gateway position with beacon.
C
C# OBEACON DELAY=0:15 EVERY=10:00 VIA=WIDE1-1 OBJNAME=WB2OSZ-tt SYMBOL=APRStt LAT=42^37.14N LONG=71^20.83W COMMENT="APRStt Gateway"
C
C

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install(FILES "${CUSTOM_DOC_DIR}/README.md" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/2400-4800-PSK-for-APRS-Packet-Radio.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/A-Better-APRS-Packet-Demodulator-Part-2-9600-baud.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/A-Closer-Look-at-the-WA8LMF-TNC-Test-CD.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/AIS-Reception.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/APRS-Telemetry-Toolkit.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/APRStt-Implementation-Notes.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/APRStt-interface-for-SARTrack.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/APRStt-Listening-Example.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/AX25_plus_FEC_equals_FX25.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Bluetooth-KISS-TNC.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Going-beyond-9600-baud.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Raspberry-Pi-APRS.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Raspberry-Pi-APRS-Tracker.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Raspberry-Pi-SDR-IGate.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Successful-APRS-IGate-Operation.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/User-Guide.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/WA8LMF-TNC-Test-CD-Results.pdf" DESTINATION ${INSTALL_DOC_DIR})
install(FILES "${CUSTOM_DOC_DIR}/Why-is-9600-only-twice-as-fast-as-1200.pdf" DESTINATION ${INSTALL_DOC_DIR})

47
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@ -26,7 +26,26 @@ Brief summary of packet radio / APRS history and the capbilities of Dire Wolf.
These dive into more detail for specialized topics or typical usage scenarios. These dive into more detail for specialized topics or typical usage scenarios.
- [**Successful APRS IGate Operation**](Successful-APRS-IGate-Operation.pdf) [ [*download*](../../../raw/master/doc/Successful-APRS-IGate-Operation.pdf) ]
- [**AX.25 + FEC = FX.25**](AX25_plus_FEC_equals_FX25.pdf) [ [*download*](../../../raw/dev/doc/AX25_plus_FEC_equals_FX25.pdf) ]
What can you do if your radio signal isnt quite strong enough to get through reliably? Move to higher ground? Get a better antenna? More power? Use very narrow bandwidth and very slow data?
Sometimes those are not options. Another way to improve communication reliability is to add redundant information so the message will still get through even if small parts are missing. FX.25 adds forward error correction (FEC) which maintaining complete compatibility with older equipment.
- [**AX.25 Throughput: Why is 9600 bps Packet Radio only twice as fast as 1200?**](Why-is-9600-only-twice-as-fast-as-1200.pdf) [ [*download*](../../../raw/dev/doc/Why-is-9600-only-twice-as-fast-as-1200.pdf) ]
Simply switching to a higher data rate will probably result in great disappointment. You might expect it to be 8 times faster but it can turn out to be only twice as fast.
In this document, we look at why a large increase in data bit rate can produce a much smaller increase in throughput. We will explore techniques that can be used to make large improvements and drastically speed up large data transfer.
- [**Successful APRS IGate Operation**](Successful-APRS-IGate-Operation.pdf) [ [*download*](../../../raw/dev/doc/Successful-APRS-IGate-Operation.pdf) ]
Dire Wolf can serve as a gateway between the APRS radio network and APRS-IS servers on the Internet. Dire Wolf can serve as a gateway between the APRS radio network and APRS-IS servers on the Internet.
@ -79,9 +98,29 @@ These dive into more detail for specialized topics or typical usage scenarios.
Why stop at 9600 baud? Go faster if your soundcard and radio can handle it. Why stop at 9600 baud? Go faster if your soundcard and radio can handle it.
- [**AIS Reception**](AIS-Reception.pdf) [ [*download*](../../../raw/dev/doc/AIS-Reception.pdf) ]
AIS is an international tracking system for ships. Messages can contain position, speed, course, name, destination, status, vessel dimensions, and many other types of information. Learn how to receive these signals with an ordindary ham transceiver and display the ship locations with APRS applications or [OpenCPN](https://opencpn.org).
- **[EAS to APRS message converter](https://github.com/wb2osz/eas2aprs)**
The [U.S. National Weather Service](https://www.weather.gov/nwr/) (NWS) operates more than 1,000 VHF FM radio stations that continuously transmit weather information. These stations also transmit special warnings about severe weather, disasters (natural & manmade), and public safety.
Alerts are sent in a digital form known as Emergency Alert System (EAS) Specific Area Message Encoding (SAME). [You can hear a sample here](https://en.wikipedia.org/wiki/Specific_Area_Message_Encoding).
It is possible to buy radios that decode these messages but what fun is that? We are ham radio operators so we want to build our own from stuff that we already have sitting around.
## Miscellaneous ## ## Miscellaneous ##
- **[Ham Radio of Things (HRoT)](https://github.com/wb2osz/hrot)**
Now that billions of computers and mobile phones (which are handheld computers) are all connected by the Internet, the large growth is expected from the “Internet of Things.” What is a “thing?” It could be a temperature sensor, garage door opener, motion detector, flood water level, smoke alarm, antenna rotator, coffee maker, lights, home thermostat, …, just about anything you might want to monitor or control.
There have been other occasional mentions of merging Ham Radio with the Internet of Things but only ad hoc incompatible narrowly focused applications. Here is a proposal for a standardized more flexible method so different systems can communicate with each other.
- [**A Better APRS Packet Demodulator, part 1, 1200 baud**](A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf) [ [*download*](../../../raw/master/doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf) ] - [**A Better APRS Packet Demodulator, part 1, 1200 baud**](A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf) [ [*download*](../../../raw/master/doc/A-Better-APRS-Packet-Demodulator-Part-1-1200-baud.pdf) ]
@ -119,11 +158,11 @@ and a couple things that can be done about it.
Here are some good places to ask questions and share your experiences: Here are some good places to ask questions and share your experiences:
- [Dire Wolf packet TNC](https://groups.yahoo.com/neo/groups/direwolf_packet/info) - [Dire Wolf Software TNC](https://groups.io/g/direwolf)
- [Raspberry Pi 4 Ham Radio](https://groups.yahoo.com/neo/groups/Raspberry_Pi_4-Ham_RADIO/info) - [Raspberry Pi 4 Ham Radio](https://groups.io/g/RaspberryPi-4-HamRadio)
- [linuxham](https://groups.yahoo.com/neo/groups/linuxham/info) - [linuxham](https://groups.io/g/linuxham)
- [TAPR aprssig](http://www.tapr.org/pipermail/aprssig/) - [TAPR aprssig](http://www.tapr.org/pipermail/aprssig/)

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10
dsp.h
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@ -1,10 +0,0 @@
/* dsp.h */
// TODO: put prefixes on these names.
float window (bp_window_t type, int size, int j);
void gen_lowpass (float fc, float *lp_filter, int filter_size, bp_window_t wtype);
void gen_bandpass (float f1, float f2, float *bp_filter, int filter_size, bp_window_t wtype);

1
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MAINICON ICON "dw-icon.ico"

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external/geotranz/CMakeLists.txt vendored Normal file
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@ -0,0 +1,17 @@
# UTM, USNG, MGRS conversions
set(GEOTRANZ_LIBRARIES geotranz CACHE INTERNAL "geotranz")
list(APPEND geotranz_SOURCES
error_string.c
mgrs.c
polarst.c
tranmerc.c
ups.c
usng.c
utm.c
)
add_library(geotranz STATIC
${geotranz_SOURCES}
)

0
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2
geotranz/mgrs.c → external/geotranz/mgrs.c vendored
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@ -400,7 +400,7 @@ long Make_MGRS_String (char* MGRS,
if (Zone) if (Zone)
i = sprintf (MGRS+i,"%2.2ld",Zone); i = sprintf (MGRS+i,"%2.2ld",Zone);
else else
strncpy(MGRS, " ", 2); // 2 spaces strcpy(MGRS, " "); // 2 spaces - Should i be set to 2?
for (j=0;j<3;j++) for (j=0;j<3;j++)
MGRS[i++] = alphabet[Letters[j]]; MGRS[i++] = alphabet[Letters[j]];

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2
geotranz/usng.c → external/geotranz/usng.c vendored
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@ -367,7 +367,7 @@ long Make_USNG_String (char* USNG,
if (Zone) if (Zone)
i = sprintf (USNG+i,"%2.2ld",Zone); i = sprintf (USNG+i,"%2.2ld",Zone);
else else
strncpy(USNG, " ", 2); // 2 spaces strcpy(USNG, " "); // 2 spaces - Should i be set to 2?
for (j=0;j<3;j++) for (j=0;j<3;j++)
USNG[i++] = alphabet[Letters[j]]; USNG[i++] = alphabet[Letters[j]];

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41
external/misc/CMakeLists.txt vendored Normal file
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@ -0,0 +1,41 @@
set(MISC_LIBRARIES misc CACHE INTERNAL "misc")
include_directories(
${CMAKE_SOURCE_DIR}/src
)
if(LINUX)
list(APPEND misc_SOURCES
# Provide our own copy of strlcpy and strlcat
# because they are not included with Linux.
${CUSTOM_MISC_DIR}/strlcpy.c
${CUSTOM_MISC_DIR}/strlcat.c
)
add_library(misc STATIC
${misc_SOURCES}
)
elseif(WIN32 OR CYGWIN) # windows
list(APPEND misc_SOURCES
# There are several string functions found in Linux
# but not on Windows. Need to provide our own copy.
${CUSTOM_MISC_DIR}/strsep.c
${CUSTOM_MISC_DIR}/strtok_r.c
${CUSTOM_MISC_DIR}/strcasestr.c
${CUSTOM_MISC_DIR}/strlcpy.c
${CUSTOM_MISC_DIR}/strlcat.c
)
add_library(misc STATIC
${misc_SOURCES}
)
else()
# on macOS, OpenBSD and FreeBSD not misc is necessary
set(MISC_LIBRARIES "" CACHE INTERNAL "")
endif()

23
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@ -4,31 +4,24 @@ Files in this directory fill in the gaps missing for some operating systems.
-------------------------------------- --------------------------------------
These are part of the standard C library for Linux and similar operating systems. These are part of the standard C library for Linux, BSD Unix, and similar operating systems.
For the Windows version we need to include our own copy. They are not present for MS Windows so we need to supply our own copy.
They were copied from Cygwin source. From http://ftp.netbsd.org/pub/pkgsrc/current/pkgsrc/net/tnftp/files/libnetbsd/strsep.c
/usr/src/cygwin-1.7.10-1/newlib/libc/string/... and other BSD locations.
strsep.c strsep.c
strcasestr.c
strtok_r.c strtok_r.c
-------------------------------------- --------------------------------------
This was also missing on Windows but available everywhere else.
strcasestr.c These are needed for the Linux and Windows versions.
--------------------------------------
The are used for the Linux and Windows versions.
They should be part of the standard C library for OpenBSD, FreeBSD, Mac OS X. They should be part of the standard C library for OpenBSD, FreeBSD, Mac OS X.
These are from OpenBSD.
http://ftp.netbsd.org/pub/pkgsrc/current/pkgsrc/net/tnftp/files/libnetbsd/strlcpy.c http://ftp.netbsd.org/pub/pkgsrc/current/pkgsrc/net/tnftp/files/libnetbsd/strlcpy.c
http://ftp.netbsd.org/pub/pkgsrc/current/pkgsrc/net/tnftp/files/libnetbsd/strlcat.c http://ftp.netbsd.org/pub/pkgsrc/current/pkgsrc/net/tnftp/files/libnetbsd/strlcat.c
strlcpy.c strlcpy.c
strlcat.c strlcat.c

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external/misc/strsep.c vendored Normal file
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@ -0,0 +1,72 @@
/* $NetBSD: strsep.c,v 1.5 2014/10/31 18:59:32 spz Exp $ */
/* from NetBSD: strsep.c,v 1.14 2003/08/07 16:43:52 agc Exp */
/*-
* Copyright (c) 1990, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
//#include "tnftp.h"
#include <string.h>
/*
* Get next token from string *stringp, where tokens are possibly-empty
* strings separated by characters from delim.
*
* Writes NULs into the string at *stringp to end tokens.
* delim need not remain constant from call to call.
* On return, *stringp points past the last NUL written (if there might
* be further tokens), or is NULL (if there are definitely no more tokens).
*
* If *stringp is NULL, strsep returns NULL.
*/
char *
strsep(char **stringp, const char *delim)
{
char *s;
const char *spanp;
int c, sc;
char *tok;
if ((s = *stringp) == NULL)
return (NULL);
for (tok = s;;) {
c = *s++;
spanp = delim;
do {
if ((sc = *spanp++) == c) {
if (c == 0)
s = NULL;
else
s[-1] = 0;
*stringp = s;
return (tok);
}
} while (sc != 0);
}
/* NOTREACHED */
}

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24
external/regex/CMakeLists.txt vendored Normal file
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@ -0,0 +1,24 @@
set(REGEX_LIBRARIES "" CACHE INTERNAL "")
if(WIN32 OR CYGWIN) # windows
set(REGEX_LIBRARIES regex CACHE INTERNAL "regex")
list(APPEND regex_SOURCES
# When building for Linux, we use regular expression
# functions supplied by the gnu C library.
# For the native WIN32 version, we need to use our own copy.
# These were copied from http://gnuwin32.sourceforge.net/packages/regex.htm
# Consider upgrading from https://www.gnu.org/software/libc/sources.html
${CUSTOM_REGEX_DIR}/regex.c
)
add_library(regex STATIC
${regex_SOURCES}
)
set_target_properties(regex
PROPERTIES COMPILE_FLAGS "-Dbool=int -Dtrue=1 -Dfalse=0 -DUSE_REGEX_STATIC"
)
endif()

0
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0
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0
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0
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4
regex/regcomp.c → external/regex/regcomp.c vendored
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@ -2510,7 +2510,7 @@ parse_dup_op (bin_tree_t *elem, re_string_t *regexp, re_dfa_t *dfa,
old_tree = NULL; old_tree = NULL;
if (elem->token.type == SUBEXP) if (elem->token.type == SUBEXP)
postorder (elem, mark_opt_subexp, (void *) (long) elem->token.opr.idx); postorder (elem, mark_opt_subexp, (void *) (ptrdiff_t) elem->token.opr.idx);
tree = create_tree (dfa, elem, NULL, (end == -1 ? OP_DUP_ASTERISK : OP_ALT)); tree = create_tree (dfa, elem, NULL, (end == -1 ? OP_DUP_ASTERISK : OP_ALT));
if (BE (tree == NULL, 0)) if (BE (tree == NULL, 0))
@ -3725,7 +3725,7 @@ create_token_tree (re_dfa_t *dfa, bin_tree_t *left, bin_tree_t *right,
static reg_errcode_t static reg_errcode_t
mark_opt_subexp (void *extra, bin_tree_t *node) mark_opt_subexp (void *extra, bin_tree_t *node)
{ {
int idx = (int) (long) extra; int idx = (int) (ptrdiff_t) extra;
if (node->token.type == SUBEXP && node->token.opr.idx == idx) if (node->token.type == SUBEXP && node->token.opr.idx == idx)
node->token.opt_subexp = 1; node->token.opt_subexp = 1;

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