From 7f26a2d06410fd3a2768612b9c9daf869778e480 Mon Sep 17 00:00:00 2001 From: Scott Murray Date: Tue, 3 Jan 2023 00:51:50 -0500 Subject: Repurpose into gRPC service Repurpose repository into a spiritual successor of the previous binding. The backend code is retained behind a new gRPC API defined in protos/radio.proto. The simpler synchronous gRPC API had been used for expediency, this may warrant revisiting to rework into an async or callback API based server instead. As well, authentication has been left until some consensus on an approach can be worked out. Bug-AGL: SPEC-4665 Signed-off-by: Scott Murray Change-Id: I28b122ce6e0ecfc7504aa08b90394cb1b9e22976 (cherry picked from commit dd23c157bdba1b25bbb50cdb99a60aa597735f43) --- src/CMakeLists.txt | 73 ++ src/RadioImpl.cc | 326 ++++++ src/RadioImpl.h | 123 +++ src/convenience/convenience.c | 309 ++++++ src/convenience/convenience.h | 142 +++ src/main-grpc.cc | 83 ++ src/meson.build | 81 ++ src/radio-binding.c | 752 +++++++++++++ src/radio_impl.h | 128 +++ src/radio_impl_kingfisher.c | 522 +++++++++ src/radio_impl_kingfisher.h | 25 + src/radio_impl_null.c | 279 +++++ src/radio_impl_null.h | 25 + src/radio_impl_rtlsdr.c | 496 +++++++++ src/radio_impl_rtlsdr.h | 25 + src/radio_impl_tef665x.c | 2401 +++++++++++++++++++++++++++++++++++++++++ src/radio_impl_tef665x.h | 23 + src/radio_output.h | 31 + src/radio_output_gstreamer.c | 231 ++++ src/rtl_fm.c | 1275 ++++++++++++++++++++++ src/rtl_fm.h | 70 ++ src/rtl_fm_helper.c | 243 +++++ src/tef665x.h | 397 +++++++ 23 files changed, 8060 insertions(+) create mode 100644 src/CMakeLists.txt create mode 100644 src/RadioImpl.cc create mode 100644 src/RadioImpl.h create mode 100644 src/convenience/convenience.c create mode 100644 src/convenience/convenience.h create mode 100644 src/main-grpc.cc create mode 100644 src/meson.build create mode 100644 src/radio-binding.c create mode 100644 src/radio_impl.h create mode 100644 src/radio_impl_kingfisher.c create mode 100644 src/radio_impl_kingfisher.h create mode 100644 src/radio_impl_null.c create mode 100644 src/radio_impl_null.h create mode 100644 src/radio_impl_rtlsdr.c create mode 100644 src/radio_impl_rtlsdr.h create mode 100644 src/radio_impl_tef665x.c create mode 100644 src/radio_impl_tef665x.h create mode 100644 src/radio_output.h create mode 100644 src/radio_output_gstreamer.c create mode 100644 src/rtl_fm.c create mode 100644 src/rtl_fm.h create mode 100644 src/rtl_fm_helper.c create mode 100644 src/tef665x.h (limited to 'src') diff --git a/src/CMakeLists.txt b/src/CMakeLists.txt new file mode 100644 index 0000000..560dcaf --- /dev/null +++ b/src/CMakeLists.txt @@ -0,0 +1,73 @@ +########################################################################### +# Copyright 2015, 2016, 2017 IoT.bzh +# Copyright (C) 2018, 2019 Konsulko Group +# +# author: Fulup Ar Foll +# contrib: Romain Forlot +# +# Licensed under the Apache License, Version 2.0 (the "License"); +# you may not use this file except in compliance with the License. +# You may obtain a copy of the License at +# +# http://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, software +# distributed under the License is distributed on an "AS IS" BASIS, +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +# See the License for the specific language governing permissions and +# limitations under the License. +########################################################################### + +# Add target to project dependency list +PROJECT_TARGET_ADD(radio-binding) + + add_definitions(-DAFB_BINDING_VERSION=3) + + # Define project Targets + set(radio_SOURCES + radio-binding.c + radio_impl_kingfisher.c + radio_impl_null.c + radio_impl_rtlsdr.c + radio_impl_tef665x.c) + + PKG_CHECK_MODULES(SOUND REQUIRED gstreamer-1.0) + + add_library(${TARGET_NAME} MODULE ${radio_SOURCES}) + + # Binder exposes a unique public entry point + SET_TARGET_PROPERTIES(${TARGET_NAME} PROPERTIES + PREFIX "libafm-" + LABELS "BINDING" + LINK_FLAGS ${BINDINGS_LINK_FLAG} + OUTPUT_NAME ${TARGET_NAME} + ) + + # Library dependencies (include updates automatically) + TARGET_COMPILE_OPTIONS(${TARGET_NAME} PUBLIC ${SOUND_CFLAGS}) + TARGET_LINK_LIBRARIES(${TARGET_NAME} ${SOUND_LIBRARIES} ${link_libraries}) + +# Add helper program target +PROJECT_TARGET_ADD(rtl_fm_helper) + + # Define project targets + set(helper_SOURCES + ${TARGET_NAME}.c + radio_output_gstreamer.c + rtl_fm.c + convenience/convenience.c) + + PKG_CHECK_MODULES(helper_SOUND REQUIRED gstreamer-1.0) + PKG_CHECK_MODULES(helper_RTLSDR REQUIRED librtlsdr) + PKG_CHECK_MODULES(helper_LIBUSB REQUIRED libusb-1.0) + + add_executable(${TARGET_NAME} ${helper_SOURCES}) + + SET_TARGET_PROPERTIES(${TARGET_NAME} PROPERTIES + LABELS "EXECUTABLE" + OUTPUT_NAME ${TARGET_NAME} + ) + + TARGET_COMPILE_OPTIONS(${TARGET_NAME} PUBLIC ${helper_SOUND_CFLAGS}) + TARGET_LINK_LIBRARIES(${TARGET_NAME} + ${helper_RTLSDR_LIBRARIES} ${helper_LIBUSB_LIBRARIES} ${helper_SOUND_LIBRARIES} ${link_libraries} m) diff --git a/src/RadioImpl.cc b/src/RadioImpl.cc new file mode 100644 index 0000000..634f066 --- /dev/null +++ b/src/RadioImpl.cc @@ -0,0 +1,326 @@ +// SPDX-License-Identifier: Apache-2.0 +/* + * Copyright (C) 2022 Konsulko Group + */ + +#include "RadioImpl.h" + +// C backend implementations +extern "C" { +#include "radio_impl_null.h" +#include "radio_impl_rtlsdr.h" +#include "radio_impl_kingfisher.h" +#include "radio_impl_tef665x.h" +} + +using grpc::StatusCode; +using automotivegradelinux::Band; +using automotivegradelinux::BAND_UNSPECIFIED; +using automotivegradelinux::BAND_AM; +using automotivegradelinux::BAND_FM; +using automotivegradelinux::StereoMode; +using automotivegradelinux::STEREO_MODE_UNSPECIFIED; +using automotivegradelinux::STEREO_MODE_MONO; +using automotivegradelinux::STEREO_MODE_STEREO; +using automotivegradelinux::ScanDirection; +using automotivegradelinux::SCAN_DIRECTION_FORWARD; +using automotivegradelinux::SCAN_DIRECTION_BACKWARD; + +RadioImpl::RadioImpl() +{ +} + +bool RadioImpl::Detect() +{ + // Probe for radio backends + m_radio_impl_ops = &rtlsdr_impl_ops; + int rc = m_radio_impl_ops->probe(); + if(rc != 0) { + // Look for Kingfisher Si4689 + m_radio_impl_ops = &kf_impl_ops; + rc = m_radio_impl_ops->probe(); + } +#if 0 + if(rc != 0) { + m_radio_impl_ops = &tef665x_impl_ops; + rc = m_radio_impl_ops->probe(); + } +#endif + if (rc != 0) { + m_radio_impl_ops = &null_impl_ops; + rc = m_radio_impl_ops->probe(); + } + if (rc != 0) { + // We don't expect the null implementation to fail probe, but just in case... + std::cerr << "No radio device found, exiting" << std::endl; + return false; + } + // Try to initialize detected backend + rc = m_radio_impl_ops->init(); + if(rc < 0) { + std::cerr << m_radio_impl_ops->name << " initialization failed" << std::endl; + return false; + } + std::cout << m_radio_impl_ops->name << "found" << std::endl; + m_radio_impl_ops->set_frequency_callback(FrequencyCallback, this); + m_radio_impl_ops->set_frequency_callback(FrequencyCallback, this); +#if 0 + if(m_radio_impl_ops->set_rds_callback) { + m_radio_impl_ops->set_rds_callback(RDSCallback); + } +#endif + return true; +} + +Status RadioImpl::GetFrequency(ServerContext* context, const GetFrequencyRequest* request, GetFrequencyResponse* response) +{ + response->set_frequency(m_radio_impl_ops->get_frequency()); + return Status::OK; +} + +Status RadioImpl::SetFrequency(ServerContext* context, const SetFrequencyRequest* request, SetFrequencyResponse* response) +{ + radio_band_t band = m_radio_impl_ops->get_band(); + uint32_t min_frequency = m_radio_impl_ops->get_min_frequency(band); + uint32_t max_frequency = m_radio_impl_ops->get_max_frequency(band); + uint32_t step = m_radio_impl_ops->get_frequency_step(band); + + uint32_t frequency = request->frequency(); + if(frequency < min_frequency || + frequency > max_frequency || + (frequency - min_frequency) % step) { + //afb_req_reply(request, NULL, "failed", "Invalid frequency"); + return Status::OK; + } + m_radio_impl_ops->set_frequency(frequency); + return Status::OK; +} + +Status RadioImpl::GetBand(ServerContext* context, const GetBandRequest* request, GetBandResponse* response) +{ + Band band = BAND_UNSPECIFIED; + radio_band_t impl_band = m_radio_impl_ops->get_band(); + + if (impl_band == RADIO_BAND_AM) + band = BAND_AM; + else if (impl_band == RADIO_BAND_FM) + band = BAND_FM; + response->set_band(band); + return Status::OK; +} + +Status RadioImpl::SetBand(ServerContext* context, const SetBandRequest* request, SetBandResponse* response) +{ + radio_band_t impl_band = RADIO_BAND_UNSPECIFIED; + if (request->band() == BAND_AM) + impl_band = RADIO_BAND_AM; + else if (request->band() == BAND_FM) + impl_band = RADIO_BAND_FM; + + if (impl_band != RADIO_BAND_UNSPECIFIED) { + m_radio_impl_ops->set_band(impl_band); + } else { + // FIXME: Indicate error + return Status::OK; + } + + return Status::OK; +} + +Status RadioImpl::GetBandSupported(ServerContext* context, const GetBandSupportedRequest* request, GetBandSupportedResponse* response) +{ + radio_band_t impl_band = RADIO_BAND_UNSPECIFIED; + if (request->band() == BAND_AM) + impl_band = RADIO_BAND_AM; + else if (request->band() == BAND_FM) + impl_band = RADIO_BAND_FM; + + if (impl_band != RADIO_BAND_UNSPECIFIED) + response->set_supported(m_radio_impl_ops->band_supported(impl_band)); + else + response->set_supported(false); + + return Status::OK; +} + +Status RadioImpl::GetBandParameters(ServerContext* context, const GetBandParametersRequest* request, GetBandParametersResponse* response) +{ + radio_band_t impl_band = RADIO_BAND_UNSPECIFIED; + if (request->band() == BAND_AM) + impl_band = RADIO_BAND_AM; + else if (request->band() == BAND_FM) + impl_band = RADIO_BAND_FM; + + if (impl_band != RADIO_BAND_UNSPECIFIED) { + response->set_min(m_radio_impl_ops->get_min_frequency(impl_band)); + response->set_max(m_radio_impl_ops->get_max_frequency(impl_band)); + response->set_step(m_radio_impl_ops->get_frequency_step(impl_band)); + } else { + // FIXME: Indicate error + return Status::OK; + } + return Status::OK; +} + +Status RadioImpl::GetStereoMode(ServerContext* context, const GetStereoModeRequest* request, GetStereoModeResponse* response) +{ + StereoMode mode = STEREO_MODE_UNSPECIFIED; + radio_stereo_mode_t impl_mode = m_radio_impl_ops->get_stereo_mode(); + + if (impl_mode == RADIO_MODE_MONO) + mode = STEREO_MODE_MONO; + else if (impl_mode == RADIO_MODE_STEREO) + mode = STEREO_MODE_STEREO; + response->set_mode(mode); + return Status::OK; +} + +Status RadioImpl::SetStereoMode(ServerContext* context, const SetStereoModeRequest* request, SetStereoModeResponse* response) +{ + radio_stereo_mode_t impl_mode = RADIO_MODE_UNSPECIFIED; + if (request->mode() == STEREO_MODE_MONO) + impl_mode = RADIO_MODE_MONO; + else if (request->mode() == STEREO_MODE_STEREO) + impl_mode = RADIO_MODE_STEREO; + + if (impl_mode != RADIO_MODE_UNSPECIFIED) { + m_radio_impl_ops->set_stereo_mode(impl_mode); + } else { + // FIXME: Indicate error + return Status::OK; + } + return Status::OK; +} + +Status RadioImpl::Start(ServerContext* context, const StartRequest* request, StartResponse* response) +{ + m_radio_impl_ops->set_output(NULL); + m_radio_impl_ops->start(); + m_playing = true; + + StatusResponse status_response; + auto play_status = status_response.mutable_play(); + play_status->set_playing(true); + SendStatusResponse(status_response); + + return Status::OK; +} + +Status RadioImpl::Stop(ServerContext* context, const StopRequest* request, StopResponse* response) +{ + m_radio_impl_ops->stop(); + m_playing = false; + + StatusResponse status_response; + auto play_status = status_response.mutable_play(); + play_status->set_playing(false); + SendStatusResponse(status_response); + + return Status::OK; +} + +Status RadioImpl::ScanStart(ServerContext* context, const ScanStartRequest* request, ScanStartResponse* response) +{ + radio_scan_direction_t impl_direction = RADIO_SCAN_UNSPECIFIED; + if (request->direction() == SCAN_DIRECTION_FORWARD) + impl_direction = RADIO_SCAN_FORWARD; + else if (request->direction() == SCAN_DIRECTION_BACKWARD) + impl_direction = RADIO_SCAN_BACKWARD; + + if (impl_direction != RADIO_SCAN_UNSPECIFIED) { + m_radio_impl_ops->scan_start(impl_direction, ScanCallback, this); + } else { + // FIXME: Indicate error + return Status::OK; + } + + return Status::OK; +} + +Status RadioImpl::ScanStop(ServerContext* context, const ScanStopRequest* request, ScanStopResponse* response) +{ + m_radio_impl_ops->scan_stop(); + return Status::OK; +} + +Status RadioImpl::GetRDS(ServerContext* context, const GetRDSRequest* request, GetRDSResponse* response) +{ + return Status::OK; +} + +Status RadioImpl::GetQuality(ServerContext* context, const GetQualityRequest* request, GetQualityResponse* response) +{ + return Status::OK; +} + +Status RadioImpl::SetAlternativeFrequency(ServerContext* context, const SetAlternativeFrequencyRequest* request, SetAlternativeFrequencyResponse* response) +{ + return Status::OK; +} + +Status RadioImpl::GetStatusEvents(ServerContext* context, const StatusRequest* request, ServerWriter* writer) +{ + // Save client information + m_clients_mutex.lock(); + m_clients.push_back(std::pair(context, writer)); + m_clients_mutex.unlock(); + + // For now block until client disconnect / server shutdown + // A switch to the async or callback server APIs might be more elegant than + // holding the thread like this, and may be worth investigating at some point. + std::unique_lock lock(m_done_mutex); + m_done_cv.wait(lock, [context, this]{ return (context->IsCancelled() || m_done); }); + + return Status::OK; +} + +void RadioImpl::SendStatusResponse(StatusResponse &response) +{ + const std::lock_guard lock(m_clients_mutex); + + if (m_clients.empty()) + return; + + auto it = m_clients.begin(); + while (it != m_clients.end()) { + if (it->first->IsCancelled()) { + // Client has gone away, remove from list + std::cout << "Removing cancelled RPC client!" << std::endl; + it = m_clients.erase(it); + + // We're not exiting, but wake up blocked client RPC handlers so + // the canceled one will clean exit. + // Note that in practice this means the client RPC handler thread + // sticks around until the next status event is sent. + m_done_cv.notify_all(); + + continue; + } else { + it->second->Write(response); + ++it; + } + } +} + + +void RadioImpl::HandleFrequencyEvent(uint32_t frequency) +{ + StatusResponse response; + auto frequency_status = response.mutable_frequency(); + frequency_status->set_frequency(frequency); + SendStatusResponse(response); +} + +void RadioImpl::HandleScanEvent(uint32_t frequency) +{ + StatusResponse response; + auto scan_status = response.mutable_scan(); + scan_status->set_station_found(frequency); + SendStatusResponse(response); +} + +void RadioImpl::HandleRDSEvent(void *rds_data) +{ + // TODO +} + diff --git a/src/RadioImpl.h b/src/RadioImpl.h new file mode 100644 index 0000000..841c72b --- /dev/null +++ b/src/RadioImpl.h @@ -0,0 +1,123 @@ +// SPDX-License-Identifier: Apache-2.0 +/* + * Copyright (C) 2022 Konsulko Group + */ + +#ifndef RADIO_IMPL_H +#define RADIO_IMPL_H + +#include +#include +#include + +#include +#include +#include + +#include "radio.grpc.pb.h" +extern "C" { +#include "radio_impl.h" +} + +using grpc::Server; +using grpc::ServerBuilder; +using grpc::ServerContext; +using grpc::ServerWriter; +using grpc::Status; + +using automotivegradelinux::Radio; +using automotivegradelinux::GetFrequencyRequest; +using automotivegradelinux::GetFrequencyResponse; +using automotivegradelinux::SetFrequencyRequest; +using automotivegradelinux::SetFrequencyResponse; +using automotivegradelinux::GetBandRequest; +using automotivegradelinux::GetBandResponse; +using automotivegradelinux::SetBandRequest; +using automotivegradelinux::SetBandResponse; +using automotivegradelinux::GetBandSupportedRequest; +using automotivegradelinux::GetBandSupportedResponse; +using automotivegradelinux::GetBandParametersRequest; +using automotivegradelinux::GetBandParametersResponse; +using automotivegradelinux::GetStereoModeRequest; +using automotivegradelinux::GetStereoModeResponse; +using automotivegradelinux::SetStereoModeRequest; +using automotivegradelinux::SetStereoModeResponse; +using automotivegradelinux::GetStereoModeRequest; +using automotivegradelinux::StartRequest; +using automotivegradelinux::StartResponse; +using automotivegradelinux::StopRequest; +using automotivegradelinux::StopResponse; +using automotivegradelinux::ScanStartRequest; +using automotivegradelinux::ScanStartResponse; +using automotivegradelinux::ScanStopRequest; +using automotivegradelinux::ScanStopResponse; +using automotivegradelinux::GetRDSRequest; +using automotivegradelinux::GetRDSResponse; +using automotivegradelinux::GetQualityRequest; +using automotivegradelinux::GetQualityResponse; +using automotivegradelinux::SetAlternativeFrequencyRequest; +using automotivegradelinux::SetAlternativeFrequencyResponse; +using automotivegradelinux::StatusRequest; +using automotivegradelinux::StatusResponse; + + +class RadioImpl final : public Radio::Service +{ +public: + explicit RadioImpl(); + + bool Detect(); + + Status GetFrequency(ServerContext* context, const GetFrequencyRequest* request, GetFrequencyResponse* response) override; + Status SetFrequency(ServerContext* context, const SetFrequencyRequest* request, SetFrequencyResponse* response) override; + Status GetBand(ServerContext* context, const GetBandRequest* request, GetBandResponse* response) override; + Status SetBand(ServerContext* context, const SetBandRequest* request, SetBandResponse* response) override; + Status GetBandSupported(ServerContext* context, const GetBandSupportedRequest* request, GetBandSupportedResponse* response) override; + Status GetBandParameters(ServerContext* context, const GetBandParametersRequest* request, GetBandParametersResponse* response) override; + Status GetStereoMode(ServerContext* context, const GetStereoModeRequest* request, GetStereoModeResponse* response) override; + Status SetStereoMode(ServerContext* context, const SetStereoModeRequest* request, SetStereoModeResponse* response) override; + Status Start(ServerContext* context, const StartRequest* request, StartResponse* response) override; + Status Stop(ServerContext* context, const StopRequest* request, StopResponse* response) override; + Status ScanStart(ServerContext* context, const ScanStartRequest* request, ScanStartResponse* response) override; + Status ScanStop(ServerContext* context, const ScanStopRequest* request, ScanStopResponse* response) override; + Status GetRDS(ServerContext* context, const GetRDSRequest* request, GetRDSResponse* response) override; + Status GetQuality(ServerContext* context, const GetQualityRequest* request, GetQualityResponse* response) override; + Status SetAlternativeFrequency(ServerContext* context, const SetAlternativeFrequencyRequest* request, SetAlternativeFrequencyResponse* response) override; + Status GetStatusEvents(ServerContext* context, const StatusRequest* request, ServerWriter* writer) override; + + void Shutdown() { m_done = true; m_done_cv.notify_all(); } + + void SendStatusResponse(StatusResponse &response); + + static void FrequencyCallback(uint32_t frequency, void *data) { + if (data) + ((RadioImpl*) data)->HandleFrequencyEvent(frequency); + } + + static void ScanCallback(uint32_t frequency, void *data) { + if (data) + ((RadioImpl*) data)->HandleScanEvent(frequency); + } + + static void RDSCallback(void *rds_data, void *data) { + if (data) + ((RadioImpl*) data)->HandleRDSEvent(rds_data); + } + +private: + void HandleFrequencyEvent(uint32_t frequency); + void HandleScanEvent(uint32_t frequency); + void HandleRDSEvent(void *rds_data); + + std::mutex m_clients_mutex; + std::list*> > m_clients; + + std::mutex m_done_mutex; + std::condition_variable m_done_cv; + bool m_done = false; + + radio_impl_ops_t *m_radio_impl_ops = NULL; + bool m_playing = false; +}; + +#endif // RADIO_IMPL_H diff --git a/src/convenience/convenience.c b/src/convenience/convenience.c new file mode 100644 index 0000000..ae1e24b --- /dev/null +++ b/src/convenience/convenience.c @@ -0,0 +1,309 @@ +/* + * Copyright (C) 2014 by Kyle Keen + * + * 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 . + */ + +/* a collection of user friendly tools + * todo: use strtol for more flexible int parsing + * */ + +#include +#include +#include + +#ifndef _WIN32 +#include +#else +#include +#include +#include +#define _USE_MATH_DEFINES +#endif + +#include + +#include "rtl-sdr.h" + +double atofs(char *s) +/* standard suffixes */ +{ + char last; + size_t len; + double suff = 1.0; + len = strlen(s); + last = s[len-1]; + s[len-1] = '\0'; + switch (last) { + case 'g': + case 'G': + suff *= 1e3; + /*@fallthrough@*/ + case 'm': + case 'M': + suff *= 1e3; + /*@fallthrough@*/ + case 'k': + case 'K': + suff *= 1e3; + suff *= atof(s); + s[len-1] = last; + return suff; + } + s[len-1] = last; + return atof(s); +} + +double atoft(char *s) +/* time suffixes, returns seconds */ +{ + char last; + size_t len; + double suff = 1.0; + len = strlen(s); + last = s[len-1]; + s[len-1] = '\0'; + switch (last) { + case 'h': + case 'H': + suff *= 60; + /*@fallthrough@*/ + case 'm': + case 'M': + suff *= 60; + /*@fallthrough@*/ + case 's': + case 'S': + suff *= atof(s); + s[len-1] = last; + return suff; + } + s[len-1] = last; + return atof(s); +} + +double atofp(char *s) +/* percent suffixes */ +{ + char last; + size_t len; + double suff = 1.0; + len = strlen(s); + last = s[len-1]; + s[len-1] = '\0'; + switch (last) { + case '%': + suff *= 0.01; + suff *= atof(s); + s[len-1] = last; + return suff; + } + s[len-1] = last; + return atof(s); +} + +int nearest_gain(rtlsdr_dev_t *dev, int target_gain) +{ + int i, r, err1, err2, count, nearest; + int* gains; + r = rtlsdr_set_tuner_gain_mode(dev, 1); + if (r < 0) { + fprintf(stderr, "WARNING: Failed to enable manual gain.\n"); + return r; + } + count = rtlsdr_get_tuner_gains(dev, NULL); + if (count <= 0) { + return 0; + } + gains = malloc(sizeof(int) * count); + count = rtlsdr_get_tuner_gains(dev, gains); + nearest = gains[0]; + for (i=0; i= 0 && device < device_count) { + fprintf(stderr, "Using device %d: %s\n", + device, rtlsdr_get_device_name((uint32_t)device)); + return device; + } + /* does string exact match a serial */ + for (i = 0; i < device_count; i++) { + rtlsdr_get_device_usb_strings(i, vendor, product, serial); + if (strcmp(s, serial) != 0) { + continue;} + device = i; + fprintf(stderr, "Using device %d: %s\n", + device, rtlsdr_get_device_name((uint32_t)device)); + return device; + } + /* does string prefix match a serial */ + for (i = 0; i < device_count; i++) { + rtlsdr_get_device_usb_strings(i, vendor, product, serial); + if (strncmp(s, serial, strlen(s)) != 0) { + continue;} + device = i; + fprintf(stderr, "Using device %d: %s\n", + device, rtlsdr_get_device_name((uint32_t)device)); + return device; + } + /* does string suffix match a serial */ + for (i = 0; i < device_count; i++) { + rtlsdr_get_device_usb_strings(i, vendor, product, serial); + offset = strlen(serial) - strlen(s); + if (offset < 0) { + continue;} + if (strncmp(s, serial+offset, strlen(s)) != 0) { + continue;} + device = i; + fprintf(stderr, "Using device %d: %s\n", + device, rtlsdr_get_device_name((uint32_t)device)); + return device; + } + fprintf(stderr, "No matching devices found.\n"); + return -1; +} + +// vim: tabstop=8:softtabstop=8:shiftwidth=8:noexpandtab diff --git a/src/convenience/convenience.h b/src/convenience/convenience.h new file mode 100644 index 0000000..1faa2af --- /dev/null +++ b/src/convenience/convenience.h @@ -0,0 +1,142 @@ +/* + * Copyright (C) 2014 by Kyle Keen + * + * 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 . + */ + +/* a collection of user friendly tools */ + +/*! + * Convert standard suffixes (k, M, G) to double + * + * \param s a string to be parsed + * \return double + */ + +double atofs(char *s); + +/*! + * Convert time suffixes (s, m, h) to double + * + * \param s a string to be parsed + * \return seconds as double + */ + +double atoft(char *s); + +/*! + * Convert percent suffixe (%) to double + * + * \param s a string to be parsed + * \return double + */ + +double atofp(char *s); + +/*! + * Find nearest supported gain + * + * \param dev the device handle given by rtlsdr_open() + * \param target_gain in tenths of a dB + * \return 0 on success + */ + +int nearest_gain(rtlsdr_dev_t *dev, int target_gain); + +/*! + * Set device frequency and report status on stderr + * + * \param dev the device handle given by rtlsdr_open() + * \param frequency in Hz + * \return 0 on success + */ + +int verbose_set_frequency(rtlsdr_dev_t *dev, uint32_t frequency); + +/*! + * Set device sample rate and report status on stderr + * + * \param dev the device handle given by rtlsdr_open() + * \param samp_rate in samples/second + * \return 0 on success + */ + +int verbose_set_sample_rate(rtlsdr_dev_t *dev, uint32_t samp_rate); + +/*! + * Enable or disable the direct sampling mode and report status on stderr + * + * \param dev the device handle given by rtlsdr_open() + * \param on 0 means disabled, 1 I-ADC input enabled, 2 Q-ADC input enabled + * \return 0 on success + */ + +int verbose_direct_sampling(rtlsdr_dev_t *dev, int on); + +/*! + * Enable offset tuning and report status on stderr + * + * \param dev the device handle given by rtlsdr_open() + * \return 0 on success + */ + +int verbose_offset_tuning(rtlsdr_dev_t *dev); + +/*! + * Enable auto gain and report status on stderr + * + * \param dev the device handle given by rtlsdr_open() + * \return 0 on success + */ + +int verbose_auto_gain(rtlsdr_dev_t *dev); + +/*! + * Set tuner gain and report status on stderr + * + * \param dev the device handle given by rtlsdr_open() + * \param gain in tenths of a dB + * \return 0 on success + */ + +int verbose_gain_set(rtlsdr_dev_t *dev, int gain); + +/*! + * Set the frequency correction value for the device and report status on stderr. + * + * \param dev the device handle given by rtlsdr_open() + * \param ppm_error correction value in parts per million (ppm) + * \return 0 on success + */ + +int verbose_ppm_set(rtlsdr_dev_t *dev, int ppm_error); + +/*! + * Reset buffer + * + * \param dev the device handle given by rtlsdr_open() + * \return 0 on success + */ + +int verbose_reset_buffer(rtlsdr_dev_t *dev); + +/*! + * Find the closest matching device. + * + * \param s a string to be parsed + * \return dev_index int, -1 on error + */ + +int verbose_device_search(char *s); + diff --git a/src/main-grpc.cc b/src/main-grpc.cc new file mode 100644 index 0000000..29e01f1 --- /dev/null +++ b/src/main-grpc.cc @@ -0,0 +1,83 @@ +// SPDX-License-Identifier: Apache-2.0 +/* + * Copyright (C) 2023 Konsulko Group + */ + +#include +#include +#include +#include + +#include "RadioImpl.h" + +GMainLoop *main_loop = NULL; + +RadioImpl *g_service = NULL; + +static gboolean quit_cb(gpointer user_data) +{ + g_info("Quitting..."); + + if (main_loop) + g_idle_add(G_SOURCE_FUNC(g_main_loop_quit), main_loop); + else + exit(0); + + return G_SOURCE_REMOVE; +} + +void RunGrpcServer(std::shared_ptr &server) +{ + // Start server and wait for shutdown + server->Wait(); +} + +int main(int argc, char *argv[]) +{ + main_loop = g_main_loop_new(NULL, FALSE); + + grpc::EnableDefaultHealthCheckService(true); + grpc::reflection::InitProtoReflectionServerBuilderPlugin(); + ServerBuilder builder; + + // Listen on the given address without any authentication mechanism (for now) + std::string server_address("localhost:50053"); + builder.AddListeningPort(server_address, grpc::InsecureServerCredentials()); + + // Register "service" as the instance through which we'll communicate with + // clients. In this case it corresponds to a *synchronous* service. + RadioImpl *service = new RadioImpl(); + if (!service->Detect()) { + exit(1); + } + builder.RegisterService(service); + + // Finally assemble the server. + std::shared_ptr server(builder.BuildAndStart()); + if (!server) { + exit(1); + } + std::cout << "Server listening on " << server_address << std::endl; + + g_unix_signal_add(SIGTERM, quit_cb, (gpointer) &server); + g_unix_signal_add(SIGINT, quit_cb, (gpointer) &server); + + // Start gRPC API server on its own thread + std::thread grpc_thread(RunGrpcServer, std::ref(server)); + + g_main_loop_run(main_loop); + + // Service implementation may have threads blocked from client streaming + // RPCs, make sure those exit. + service->Shutdown(); + + // Need to set a deadline to avoid blocking on clients doing streaming + // RPC reads + server->Shutdown(std::chrono::system_clock::now() + std::chrono::milliseconds(500)); + + grpc_thread.join(); + + g_main_loop_unref(main_loop); + + return 0; +} diff --git a/src/meson.build b/src/meson.build new file mode 100644 index 0000000..6446066 --- /dev/null +++ b/src/meson.build @@ -0,0 +1,81 @@ +# +# Copyright (C) 2021 Collabora Ltd +# +# Licensed under the Apache License, Version 2.0 (the "License"); +# you may not use this file except in compliance with the License. +# You may obtain a copy of the License at +# +# http://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, software +# distributed under the License is distributed on an "AS IS" BASIS, +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +# See the License for the specific language governing permissions and +# limitations under the License. +# + +cpp = meson.get_compiler('cpp') +grpcpp_reflection_dep = cpp.find_library('grpc++_reflection') + +gstreamer_dep = dependency('gstreamer-1.0') + +radio_deps = [ + dependency('gobject-2.0'), + dependency('gio-unix-2.0'), + gstreamer_dep, + dependency('protobuf'), + dependency('grpc'), + dependency('grpc++'), + grpcpp_reflection_dep +] + +protoc = find_program('protoc') +grpc_cpp = find_program('grpc_cpp_plugin') + +protoc_gen = generator(protoc, \ + output : ['@BASENAME@.pb.cc', '@BASENAME@.pb.h'], + arguments : ['--proto_path=@CURRENT_SOURCE_DIR@/../protos', + '--cpp_out=@BUILD_DIR@', + '@INPUT@']) +generated_protoc_sources = protoc_gen.process('../protos/radio.proto') + +grpc_gen = generator(protoc, \ + output : ['@BASENAME@.grpc.pb.cc', '@BASENAME@.grpc.pb.h'], + arguments : ['--proto_path=@CURRENT_SOURCE_DIR@/../protos', + '--grpc_out=@BUILD_DIR@', + '--plugin=protoc-gen-grpc=' + grpc_cpp.path(), + '@INPUT@']) +generated_grpc_sources = grpc_gen.process('../protos/radio.proto') + +# FIXME: debug radio_impl_tef665x.c compile issues and add +executable ( + 'agl-service-radio', + [ + generated_protoc_sources, + generated_grpc_sources, + 'main-grpc.cc', + 'RadioImpl.cc', + 'radio_impl_null.c', + 'radio_impl_kingfisher.c', + 'radio_impl_rtlsdr.c' + ], + dependencies : radio_deps, + install : true, + install_dir : get_option('sbindir') +) + +cc = meson.get_compiler('c') +m_dep = cc.find_library('m', required : false) +helper_deps = [ gstreamer_dep, m_dep, dependency('librtlsdr'), dependency('libusb-1.0') ] +executable ( + 'rtl_fm_helper', + [ + 'rtl_fm_helper.c', + 'radio_output_gstreamer.c', + 'rtl_fm.c', + 'convenience/convenience.c' + ], + dependencies : helper_deps, + install : true, + install_dir : get_option('sbindir') +) diff --git a/src/radio-binding.c b/src/radio-binding.c new file mode 100644 index 0000000..8b5559c --- /dev/null +++ b/src/radio-binding.c @@ -0,0 +1,752 @@ +/* + * Copyright (C) 2017, 2019 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#define _GNU_SOURCE + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "radio_impl.h" +#include "radio_impl_null.h" +#include "radio_impl_rtlsdr.h" +#include "radio_impl_kingfisher.h" +#include "radio_impl_tef665x.h" + +static radio_impl_ops_t *radio_impl_ops; + +static afb_event_t freq_event; +static afb_event_t scan_event; +static afb_event_t status_event; +static afb_event_t rds_event; + +static bool playing; + +static const char *signalcomposer_events[] = { + "event.media.next", + "event.media.previous", + "event.media.mode", + NULL, +}; + +static void freq_callback(uint32_t frequency, void *data) +{ + json_object *jresp = json_object_new_object(); + json_object *value = json_object_new_int((int) frequency); + + json_object_object_add(jresp, "value", value); + afb_event_push(freq_event, json_object_get(jresp)); +} + +static void scan_callback(uint32_t frequency, void *data) +{ + json_object *jresp = json_object_new_object(); + json_object *value = json_object_new_int((int) frequency); + + json_object_object_add(jresp, "value", value); + afb_event_push(scan_event, json_object_get(jresp)); +} + +static void rds_callback(void *rds_data) +{ + //rds_data is a json object + afb_event_push(rds_event, json_object_get(rds_data)); +} + +/* + * Binding verb handlers + */ + +/* + * @brief Get (and optionally set) frequency + * + * @param afb_req_t : an afb request structure + * + */ +static void frequency(afb_req_t request) +{ + json_object *ret_json; + const char *value = afb_req_value(request, "value"); + uint32_t frequency; + + if(value) { + char *p; + radio_band_t band; + uint32_t min_frequency; + uint32_t max_frequency; + uint32_t step; + + frequency = (uint32_t) strtoul(value, &p, 10); + if(frequency && *p == '\0') { + band = radio_impl_ops->get_band(); + min_frequency = radio_impl_ops->get_min_frequency(band); + max_frequency = radio_impl_ops->get_max_frequency(band); + step = radio_impl_ops->get_frequency_step(band); + if(frequency < min_frequency || + frequency > max_frequency || + (frequency - min_frequency) % step) { + afb_req_reply(request, NULL, "failed", "Invalid frequency"); + return; + } + radio_impl_ops->set_frequency(frequency); + } else { + afb_req_reply(request, NULL, "failed", "Invalid frequency"); + return; + } + } + ret_json = json_object_new_object(); + frequency = radio_impl_ops->get_frequency(); + json_object_object_add(ret_json, "frequency", json_object_new_int((int32_t) frequency)); + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* + * @brief Get RDS information + * + * @param afb_req_t : an afb request structure + * + */ +static void rds(afb_req_t request) +{ + json_object *ret_json; + char * rds; + + if (radio_impl_ops->get_rds_info == NULL) { + afb_req_reply(request, NULL, "failed", "not supported"); + return; + } + + ret_json = json_object_new_object(); + rds = radio_impl_ops->get_rds_info(); + json_object_object_add(ret_json, "rds", json_object_new_string(rds?rds:"")); + free(rds); + + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* @brief Get quality information + * + * @param afb_req_t : an afb request structure + * + */ +static void quality(afb_req_t request) +{ + json_object *ret_json; + station_quality_t *quality_data; + + if (radio_impl_ops->get_quality_info == NULL) { + afb_req_reply(request, NULL, "failed", "Not supported"); + return; + } + + quality_data = radio_impl_ops->get_quality_info(); + ret_json=json_object_new_object(); + if(quality_data->af_update) + { + json_object_object_add(ret_json, "af_update", json_object_new_int((int) quality_data->af_update)); + } + if(quality_data->time_stamp){ + json_object_object_add(ret_json, "timestamp", json_object_new_int((int) quality_data->time_stamp)); + } + if(quality_data->rssi) + { + json_object_object_add(ret_json, "rssi", json_object_new_int((int) quality_data->rssi)); + } + if(quality_data->usn) + { + json_object_object_add(ret_json, "usn", json_object_new_int((int) quality_data->usn)); + } + if(quality_data->bandw) + { + json_object_object_add(ret_json, "bandwidth", json_object_new_int((int) quality_data->bandw)); + } + afb_req_reply(request, ret_json, NULL, NULL); + return; +} + +/* @brief Check alternative frequency + * + * @param afb_req_t : an afb request structure + * + */ +static void alternative_frequency(afb_req_t request) +{ + json_object *ret_json; + uint32_t alternative; + const char *value; + + if (radio_impl_ops->set_alternative_frequency == NULL) { + afb_req_reply(request, NULL, "failed", "Not supported"); + return; + } + + value = afb_req_value(request, "value"); + if(value) { + char *p; + radio_band_t band; + uint32_t min_frequency; + uint32_t max_frequency; + uint32_t step; + + alternative = (uint32_t) strtoul(value, &p, 10); + if(alternative && *p == '\0') { + band = radio_impl_ops->get_band(); + min_frequency = radio_impl_ops->get_min_frequency(band); + max_frequency = radio_impl_ops->get_max_frequency(band); + step = radio_impl_ops->get_frequency_step(band); + if(alternative < min_frequency || + alternative > max_frequency || + (alternative - min_frequency) % step) { + afb_req_reply(request, NULL, "failed", "Invalid alternative frequency"); + return; + } + radio_impl_ops->set_alternative_frequency(alternative); + ret_json = json_object_new_object(); + json_object_object_add(ret_json, "alternative", json_object_new_int((int32_t) alternative)); + afb_req_reply(request, ret_json, NULL, NULL); + } else { + afb_req_reply(request, NULL, "failed", "Invalid alternative frequency"); + return; + } + } + else { + afb_req_reply(request, NULL, "failed", "Invalid alternative frequency"); + return; + } +} + +/* + * @brief Get (and optionally set) frequency band + * + * @param afb_req_t : an afb request structure + * + */ +static void band(afb_req_t request) +{ + json_object *ret_json; + const char *value = afb_req_value(request, "value"); + int valid = 0; + radio_band_t band; + char band_name[4]; + + if(value) { + if(!strcasecmp(value, "AM")) { + band = BAND_AM; + valid = 1; + } else if(!strcasecmp(value, "FM")) { + band = BAND_FM; + valid = 1; + } else { + char *p; + band = strtoul(value, &p, 10); + if(p != value && *p == '\0') { + switch(band) { + case BAND_AM: + case BAND_FM: + valid = 1; + break; + default: + break; + } + } + } + if(valid) { + radio_impl_ops->set_band(band); + } else { + afb_req_reply(request, NULL, "failed", "Invalid band"); + return; + } + } + ret_json = json_object_new_object(); + band = radio_impl_ops->get_band(); + sprintf(band_name, "%s", band == BAND_AM ? "AM" : "FM"); + json_object_object_add(ret_json, "band", json_object_new_string(band_name)); + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* + * @brief Check if band is supported + * + * @param afb_req_t : an afb request structure + * + */ +static void band_supported(afb_req_t request) +{ + json_object *ret_json; + const char *value = afb_req_value(request, "band"); + int valid = 0; + radio_band_t band; + + if(value) { + if(!strcasecmp(value, "AM")) { + band = BAND_AM; + valid = 1; + } else if(!strcasecmp(value, "FM")) { + band = BAND_FM; + valid = 1; + } else { + char *p; + band = strtoul(value, &p, 10); + if(p != value && *p == '\0') { + switch(band) { + case BAND_AM: + case BAND_FM: + valid = 1; + break; + default: + break; + } + } + } + } + if(!valid) { + afb_req_reply(request, NULL, "failed", "Invalid band"); + return; + } + ret_json = json_object_new_object(); + json_object_object_add(ret_json, + "supported", + json_object_new_int(radio_impl_ops->band_supported(band))); + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* + * @brief Get frequency range for a band + * + * @param afb_req_t : an afb request structure + * + */ +static void frequency_range(afb_req_t request) +{ + json_object *ret_json; + const char *value = afb_req_value(request, "band"); + int valid = 0; + radio_band_t band; + uint32_t min_frequency; + uint32_t max_frequency; + + if(value) { + if(!strcasecmp(value, "AM")) { + band = BAND_AM; + valid = 1; + } else if(!strcasecmp(value, "FM")) { + band = BAND_FM; + valid = 1; + } else { + char *p; + band = strtoul(value, &p, 10); + if(p != value && *p == '\0') { + switch(band) { + case BAND_AM: + case BAND_FM: + valid = 1; + break; + default: + break; + } + } + } + } + if(!valid) { + afb_req_reply(request, NULL, "failed", "Invalid band"); + return; + } + ret_json = json_object_new_object(); + min_frequency = radio_impl_ops->get_min_frequency(band); + max_frequency = radio_impl_ops->get_max_frequency(band); + json_object_object_add(ret_json, "min", json_object_new_int((int32_t) min_frequency)); + json_object_object_add(ret_json, "max", json_object_new_int((int32_t) max_frequency)); + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* + * @brief Get frequency step size (Hz) for a band + * + * @param afb_req_t : an afb request structure + * + */ +static void frequency_step(afb_req_t request) +{ + json_object *ret_json; + const char *value = afb_req_value(request, "band"); + int valid = 0; + radio_band_t band; + uint32_t step; + + if(value) { + if(!strcasecmp(value, "AM")) { + band = BAND_AM; + valid = 1; + } else if(!strcasecmp(value, "FM")) { + band = BAND_FM; + valid = 1; + } else { + char *p; + band = strtoul(value, &p, 10); + if(p != value && *p == '\0') { + switch(band) { + case BAND_AM: + case BAND_FM: + valid = 1; + break; + default: + break; + } + } + } + } + if(!valid) { + afb_req_reply(request, NULL, "failed", "Invalid band"); + return; + } + ret_json = json_object_new_object(); + step = radio_impl_ops->get_frequency_step(band); + json_object_object_add(ret_json, "step", json_object_new_int((int32_t) step)); + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* + * @brief Start radio playback + * + * @param afb_req_t : an afb request structure + * + */ +static void start(afb_req_t request) +{ + radio_impl_ops->set_output(NULL); + radio_impl_ops->start(); + playing = true; + afb_req_reply(request, NULL, NULL, NULL); + + json_object *jresp = json_object_new_object(); + json_object *value = json_object_new_string("playing"); + json_object_object_add(jresp, "value", value); + afb_event_push(status_event, json_object_get(jresp)); +} + +/* + * @brief Stop radio playback + * + * @param afb_req_t : an afb request structure + * + */ +static void stop(afb_req_t request) +{ + radio_impl_ops->stop(); + playing = false; + afb_req_reply(request, NULL, NULL, NULL); + + json_object *jresp = json_object_new_object(); + json_object *value = json_object_new_string("stopped"); + json_object_object_add(jresp, "value", value); + afb_event_push(status_event, json_object_get(jresp)); +} + +/* + * @brief Scan for a station in the specified direction + * + * @param afb_req_t : an afb request structure + * + */ +static void scan_start(afb_req_t request) +{ + const char *value = afb_req_value(request, "direction"); + int valid = 0; + radio_scan_direction_t direction; + + if(value) { + if(!strcasecmp(value, "forward")) { + direction = SCAN_FORWARD; + valid = 1; + } else if(!strcasecmp(value, "backward")) { + direction = SCAN_BACKWARD; + valid = 1; + } else { + char *p; + direction = strtoul(value, &p, 10); + if(p != value && *p == '\0') { + switch(direction) { + case SCAN_FORWARD: + case SCAN_BACKWARD: + valid = 1; + break; + default: + break; + } + } + } + } + if(!valid) { + afb_req_reply(request, NULL, "failed", "Invalid direction"); + return; + } + radio_impl_ops->scan_start(direction, scan_callback, NULL); + afb_req_reply(request, NULL, NULL, NULL); +} + +/* + * @brief Stop station scan + * + * @param afb_req_t : an afb request structure + * + */ +static void scan_stop(afb_req_t request) +{ + radio_impl_ops->scan_stop(); + afb_req_reply(request, NULL, NULL, NULL); +} + +/* + * @brief Get (and optionally set) stereo mode + * + * @param afb_req_t : an afb request structure + * + */ +static void stereo_mode(afb_req_t request) +{ + json_object *ret_json; + const char *value = afb_req_value(request, "value"); + int valid = 0; + radio_stereo_mode_t mode; + + if(value) { + if(!strcasecmp(value, "mono")) { + mode = MONO; + valid = 1; + } else if(!strcasecmp(value, "stereo")) { + mode = STEREO; + valid = 1; + } else { + char *p; + mode = strtoul(value, &p, 10); + if(p != value && *p == '\0') { + switch(mode) { + case MONO: + case STEREO: + valid = 1; + break; + default: + break; + } + } + } + if(valid) { + radio_impl_ops->set_stereo_mode(mode); + } else { + afb_req_reply(request, NULL, "failed", "Invalid mode"); + return; + } + } + ret_json = json_object_new_object(); + mode = radio_impl_ops->get_stereo_mode(); + + json_object_object_add(ret_json, "mode", json_object_new_string(mode == MONO ? "mono" : "stereo")); + afb_req_reply(request, ret_json, NULL, NULL); +} + +/* + * @brief Subscribe for an event + * + * @param afb_req_t : an afb request structure + * + */ +static void subscribe(afb_req_t request) +{ + const char *value = afb_req_value(request, "value"); + if(value) { + if(!strcasecmp(value, "frequency")) { + afb_req_subscribe(request, freq_event); + } else if(!strcasecmp(value, "station_found")) { + afb_req_subscribe(request, scan_event); + } else if(!strcasecmp(value, "status")) { + afb_req_subscribe(request, status_event); + } else if(!strcasecmp(value, "rds")) { + afb_req_subscribe(request, rds_event); + } + else { + afb_req_reply(request, NULL, "failed", "Invalid event"); + return; + } + } + afb_req_reply(request, NULL, NULL, NULL); +} + +/* + * @brief Unsubscribe for an event + * + * @param afb_req_t : an afb request structure + * + */ +static void unsubscribe(afb_req_t request) +{ + const char *value = afb_req_value(request, "value"); + if(value) { + if(!strcasecmp(value, "frequency")) { + afb_req_unsubscribe(request, freq_event); + } else if(!strcasecmp(value, "station_found")) { + afb_req_unsubscribe(request, scan_event); + } else if(!strcasecmp(value, "status")) { + afb_req_unsubscribe(request, status_event); + + } else if(!strcasecmp(value, "rds")) { + afb_req_unsubscribe(request, rds_event); + + } else { + afb_req_reply(request, NULL, "failed", "Invalid event"); + return; + } + } + afb_req_reply(request, NULL, NULL, NULL); +} + +static const afb_verb_t verbs[]= { + { .verb = "frequency", .session = AFB_SESSION_NONE, .callback = frequency, .info = "Get/Set frequency" }, + { .verb = "band", .session = AFB_SESSION_NONE, .callback = band, .info = "Get/Set band" }, + { .verb = "rds", .session = AFB_SESSION_NONE, .callback = rds, .info = "Get RDS information" }, + { .verb = "quality", .session = AFB_SESSION_NONE, .callback = quality, .info = "Get station quality information" }, + { .verb = "alternative_frequency", .session = AFB_SESSION_NONE, .callback = alternative_frequency, .info = "Check an alternative frequency" }, + { .verb = "band_supported", .session = AFB_SESSION_NONE, .callback = band_supported, .info = "Check band support" }, + { .verb = "frequency_range", .session = AFB_SESSION_NONE, .callback = frequency_range, .info = "Get frequency range" }, + { .verb = "frequency_step", .session = AFB_SESSION_NONE, .callback = frequency_step, .info = "Get frequency step" }, + { .verb = "start", .session = AFB_SESSION_NONE, .callback = start, .info = "Start radio playback" }, + { .verb = "stop", .session = AFB_SESSION_NONE, .callback = stop, .info = "Stop radio playback" }, + { .verb = "scan_start", .session = AFB_SESSION_NONE, .callback = scan_start, .info = "Start station scan" }, + { .verb = "scan_stop", .session = AFB_SESSION_NONE, .callback = scan_stop, .info = "Stop station scan" }, + { .verb = "stereo_mode", .session = AFB_SESSION_NONE, .callback = stereo_mode, .info = "Get/Set stereo_mode" }, + { .verb = "subscribe", .session = AFB_SESSION_NONE, .callback = subscribe, .info = "Subscribe for an event" }, + { .verb = "unsubscribe", .session = AFB_SESSION_NONE, .callback = unsubscribe, .info = "Unsubscribe for an event" }, + { } +}; + +static void onevent(afb_api_t api, const char *event, struct json_object *object) +{ + json_object *tmp = NULL; + const char *uid; + const char *value; + + json_object_object_get_ex(object, "uid", &tmp); + if (tmp == NULL) + return; + + uid = json_object_get_string(tmp); + if (strncmp(uid, "event.media.", 12)) + return; + + if (!playing || + (radio_impl_ops->get_corking_state && + radio_impl_ops->get_corking_state())) { + return; + } + + json_object_object_get_ex(object, "value", &tmp); + if (tmp == NULL) + return; + + value = json_object_get_string(tmp); + if (strncmp(value, "true", 4)) + return; + + if (!strcmp(uid, "event.media.next")) { + radio_impl_ops->scan_start(SCAN_FORWARD, scan_callback, NULL); + } else if (!strcmp(uid, "event.media.previous")) { + radio_impl_ops->scan_start(SCAN_BACKWARD, scan_callback, NULL); + } else if (!strcmp(uid, "event.media.mode")) { + // Do nothing ATM + } else { + AFB_WARNING("Unhandled signal-composer uid '%s'", uid); + } +} + +static int init(afb_api_t api) +{ + // Probe for radio backends + radio_impl_ops = &rtlsdr_impl_ops; + int rc = radio_impl_ops->probe(); + if(rc != 0) { + // Look for Kingfisher Si4689 + radio_impl_ops = &kf_impl_ops; + rc = radio_impl_ops->probe(); + } + if(rc != 0) { + radio_impl_ops = &tef665x_impl_ops; + rc = radio_impl_ops->probe(); + } + if (rc != 0) { + radio_impl_ops = &null_impl_ops; + rc = radio_impl_ops->probe(); + } + if (rc != 0) { + // We don't expect the null implementation to fail probe, but just in case... + AFB_API_ERROR(afbBindingV3root, "No radio device found, exiting"); + return rc; + } + // Try to initialize detected backend + rc = radio_impl_ops->init(); + if(rc < 0) { + AFB_API_ERROR(afbBindingV3root, + "%s initialization failed\n", + radio_impl_ops->name); + return rc; + } + AFB_API_NOTICE(afbBindingV3root, "%s found\n", radio_impl_ops->name); + radio_impl_ops->set_frequency_callback(freq_callback, NULL); + radio_impl_ops->set_frequency_callback(freq_callback, NULL); + if(radio_impl_ops->set_rds_callback) { + radio_impl_ops->set_rds_callback(rds_callback); + } + + rc = afb_daemon_require_api("signal-composer", 1); + if (rc) { + AFB_WARNING("unable to initialize signal-composer binding"); + } else { + const char **tmp = signalcomposer_events; + json_object *args = json_object_new_object(); + json_object *signals = json_object_new_array(); + + while (*tmp) { + json_object_array_add(signals, json_object_new_string(*tmp++)); + } + json_object_object_add(args, "signal", signals); + if(json_object_array_length(signals)) { + afb_api_call_sync(api, "signal-composer", "subscribe", + args, NULL, NULL, NULL); + } else { + json_object_put(args); + } + } + + // Initialize event structures + freq_event = afb_daemon_make_event("frequency"); + scan_event = afb_daemon_make_event("station_found"); + status_event = afb_daemon_make_event("status"); + rds_event = afb_daemon_make_event("rds"); + return 0; +} + +const afb_binding_t afbBindingExport = { + .info = "radio service", + .api = "radio", + .specification = "Radio API", + .verbs = verbs, + .onevent = onevent, + .init = init, +}; diff --git a/src/radio_impl.h b/src/radio_impl.h new file mode 100644 index 0000000..96909f5 --- /dev/null +++ b/src/radio_impl.h @@ -0,0 +1,128 @@ +/* + * Copyright (C) 2017 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef _RADIO_IMPL_H +#define _RADIO_IMPL_H + +#include + +typedef enum { + RADIO_BAND_UNSPECIFIED = 0, + RADIO_BAND_AM, + RADIO_BAND_FM +} radio_band_t; + +typedef enum { + RADIO_SCAN_UNSPECIFIED = 0, + RADIO_SCAN_FORWARD, + RADIO_SCAN_BACKWARD +} radio_scan_direction_t; + +typedef void (*radio_scan_callback_t)(uint32_t frequency, void *data); + +typedef void (*radio_freq_callback_t)(uint32_t frequency, void *data); + +typedef void (*radio_rds_callback_t)(void *rds_data, void *dat); + +typedef enum { + RADIO_MODE_UNSPECIFIED = 0, + RADIO_MODE_MONO, + RADIO_MODE_STEREO +} radio_stereo_mode_t; + +/* + * AF_update + * true if quality belongs to an alternative frequency + * + * time_stamp + * if time_stamp is zero, quality data won't be valid + * reliability depending on time stamp + * it takes some time after tuning to get valid quality data + * + * rssi + * (signed) + * level detector result(RF input level) + * + * usn + * FM ultrasonic noise detector (relative usn detector result) + * + * bandwidth + * IF bandwidth + */ +typedef struct +{ + bool af_update; + uint16_t time_stamp; + int16_t rssi; + uint16_t usn; + uint16_t bandw; +} station_quality_t; + +typedef struct { + char *name; + + int (*probe)(void); + + /* NOTE: init should return -1 if called before probe has been called and returned success */ + int (*init)(void); + + void (*set_output)(const char *output); + + uint32_t (*get_frequency)(void); + + void (*set_frequency)(uint32_t frequency); + + void (*set_frequency_callback)(radio_freq_callback_t callback, + void *data); + + void (*set_rds_callback)(radio_rds_callback_t callback); + + radio_band_t (*get_band)(void); + + void (*set_band)(radio_band_t band); + + int (*band_supported)(radio_band_t band); + + uint32_t (*get_min_frequency)(radio_band_t band); + + uint32_t (*get_max_frequency)(radio_band_t band); + + uint32_t (*get_frequency_step)(radio_band_t band); + + bool (*get_corking_state)(void); + + void (*start)(void); + + void (*stop)(void); + + void (*scan_start)(radio_scan_direction_t direction, + radio_scan_callback_t callback, + void *data); + + void (*scan_stop)(void); + + radio_stereo_mode_t (*get_stereo_mode)(void); + + void (*set_stereo_mode)(radio_stereo_mode_t mode); + + char * (*get_rds_info)(void); + + station_quality_t * (*get_quality_info)(void); + + void (*set_alternative_frequency)(uint32_t frequency); +} radio_impl_ops_t; + +#endif /* _RADIO_IMPL_H */ diff --git a/src/radio_impl_kingfisher.c b/src/radio_impl_kingfisher.c new file mode 100644 index 0000000..a0b8449 --- /dev/null +++ b/src/radio_impl_kingfisher.c @@ -0,0 +1,522 @@ +/* + * Copyright (C) 2017-2019 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "radio_impl.h" + +#define SI_NODE "/sys/firmware/devicetree/base/si468x@0/compatible" +#define SI_CTL "/usr/bin/si_ctl" +#define SI_CTL_CMDLINE_MAXLEN 128 +#define SI_CTL_OUTPUT_MAXLEN 128 + +#define GST_PIPELINE_LEN 256 + +// Flag to enable using GST_STATE_READY instead of GST_STATE_PAUSED to trigger +// Wireplumber policy mechanism. Hopefully temporary. +#define WIREPLUMBER_WORKAROUND + +// Structure to describe FM band plans, all values in Hz. +typedef struct { + char *name; + uint32_t min; + uint32_t max; + uint32_t step; +} fm_band_plan_t; + +static fm_band_plan_t known_fm_band_plans[5] = { + { .name = "US", .min = 87900000, .max = 107900000, .step = 200000 }, + { .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 }, + { .name = "EU", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-1", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 } +}; + +static unsigned int bandplan = 0; +static bool corking; +static bool present; +static bool initialized; +static uint32_t current_frequency; +static int scan_valid_snr_threshold = 128; +static int scan_valid_rssi_threshold = 128; +static bool scanning; + +// stream state +static GstElement *pipeline; +static bool running; + +static void (*freq_callback)(uint32_t, void*); +static void *freq_callback_data; + +static uint32_t kf_get_min_frequency(radio_band_t band); +static void kf_scan_stop(void); + +static gboolean handle_message(GstBus *bus, GstMessage *msg, __attribute__((unused)) void *ptr) +{ + GstState state; + + if (GST_MESSAGE_TYPE(msg) == GST_MESSAGE_REQUEST_STATE) { + gst_message_parse_request_state(msg, &state); + + if (state == GST_STATE_PAUSED) { + corking = true; + + // NOTE: Explicitly using PAUSED here, this case currently + // is separate from the general PAUSED/READY issue wrt + // Wireplumber policy. + gst_element_set_state(pipeline, GST_STATE_PAUSED); + } else if (state == GST_STATE_PLAYING) { + corking = false; + + gst_element_set_state(pipeline, GST_STATE_PLAYING); + } + } + + return TRUE; +} + +static void *gstreamer_loop_thread(void *ptr) +{ + g_main_loop_run(g_main_loop_new(NULL, FALSE)); + return NULL; +} + +static int kf_probe(void) +{ + struct stat statbuf; + + if(present) + return 0; + + // Check for Kingfisher SI468x devicetree node + if(stat(SI_NODE, &statbuf) != 0) + return -1; + + // Check for Cogent's si_ctl utility + if(stat(SI_CTL, &statbuf) != 0) + return -1; + + present = true; + return 0; +} + +static int kf_init(void) +{ + GKeyFile* conf_file; + bool conf_file_present = false; + char *value_str; + char cmd[SI_CTL_CMDLINE_MAXLEN]; + int rc; + char gst_pipeline_str[GST_PIPELINE_LEN]; + pthread_t thread_id; + + if(!present) + return -1; + + if(initialized) + return 0; + + // Load settings from configuration file if it exists + conf_file = g_key_file_new(); + if(conf_file && + g_key_file_load_from_dirs(conf_file, + "AGL.conf", + (const gchar**) g_get_system_config_dirs(), + NULL, + G_KEY_FILE_KEEP_COMMENTS, + NULL) == TRUE) { + conf_file_present = true; + + // Set band plan if it is specified + value_str = g_key_file_get_string(conf_file, + "radio", + "fmbandplan", + NULL); + if(value_str) { + unsigned int i; + for(i = 0; + i < sizeof(known_fm_band_plans) / sizeof(fm_band_plan_t); + i++) { + if(!strcasecmp(value_str, known_fm_band_plans[i].name)) { + bandplan = i; + break; + } + } + } + } + + if(conf_file_present) { + GError *error = NULL; + int n; + + // Allow over-riding scanning parameters just in case a demo + // setup needs to do so to work reliably. + n = g_key_file_get_integer(conf_file, + "radio", + "scan_valid_snr_threshold", + &error); + if(!error) { + printf("Scan valid SNR level set to %d", n); + scan_valid_snr_threshold = n; + } + + error = NULL; + n = g_key_file_get_integer(conf_file, + "radio", + "scan_valid_rssi_threshold", + &error); + if(!error) { + printf("Scan valid SNR level set to %d", n); + scan_valid_rssi_threshold = n; + } + + g_key_file_free(conf_file); + } + + printf("Using FM Bandplan: %s", known_fm_band_plans[bandplan].name); + current_frequency = kf_get_min_frequency(RADIO_BAND_FM); + snprintf(cmd, + sizeof(cmd), + "%s /dev/i2c-12 0x65 -b fm -p %s -t %d -u %d -c %d", + SI_CTL, + known_fm_band_plans[bandplan].name, + scan_valid_snr_threshold, + scan_valid_rssi_threshold, + current_frequency / 1000); + rc = system(cmd); + if(rc != 0) { + fprintf(stderr, "%s failed, rc = %d", SI_CTL, rc); + return -1; + } + + // Initialize GStreamer + gst_init(NULL, NULL); + + // Use PipeWire output + rc = snprintf(gst_pipeline_str, + GST_PIPELINE_LEN, + "pipewiresrc stream-properties=\"p,node.target=alsa:pcm:radio:0:capture\" ! " + "audio/x-raw,format=F32LE,channels=2 ! " + "pipewiresink stream-properties=\"p,media.role=Multimedia\""); + if(rc >= GST_PIPELINE_LEN) { + fprintf(stderr, "pipeline string too long"); + return -1; + } + pipeline = gst_parse_launch(gst_pipeline_str, NULL); + if(!pipeline) { + fprintf(stderr, "pipeline construction failed!"); + return -1; + } + + // Start pipeline in paused state +#ifdef WIREPLUMBER_WORKAROUND + gst_element_set_state(pipeline, GST_STATE_READY); +#else + gst_element_set_state(pipeline, GST_STATE_PAUSED); +#endif + + gst_bus_add_watch(gst_element_get_bus(pipeline), (GstBusFunc) handle_message, NULL); + + rc = pthread_create(&thread_id, NULL, gstreamer_loop_thread, NULL); + if(rc != 0) + return rc; + + initialized = true; + return 0; +} + +static void kf_set_output(const char *output) +{ +} + +static uint32_t kf_get_frequency(void) +{ + return current_frequency; +} + +static void kf_set_frequency(uint32_t frequency) +{ + char cmd[SI_CTL_CMDLINE_MAXLEN]; + int rc; + + if(!initialized) + return; + + if(scanning) + return; + + if(frequency < known_fm_band_plans[bandplan].min || + frequency > known_fm_band_plans[bandplan].max) + return; + + kf_scan_stop(); + snprintf(cmd, sizeof(cmd), "%s /dev/i2c-12 0x65 -c %d", SI_CTL, frequency / 1000); + rc = system(cmd); + if(rc == 0) + current_frequency = frequency; + + if(freq_callback) + freq_callback(current_frequency, freq_callback_data); +} + +static void kf_set_frequency_callback(radio_freq_callback_t callback, + void *data) +{ + freq_callback = callback; + freq_callback_data = data; +} + +static char * kf_get_rds_info(void) { + char cmd[SI_CTL_CMDLINE_MAXLEN]; + char line[SI_CTL_OUTPUT_MAXLEN]; + char * rds = NULL; + FILE *fp; + + if (scanning) + goto done; + + snprintf(cmd, sizeof(cmd), "%s /dev/i2c-12 0x65 -m", SI_CTL); + fp = popen(cmd, "r"); + if(fp == NULL) { + fprintf(stderr, "Could not run: %s!\n", cmd); + goto done; + } + /* Look for "Name:" in output */ + while (fgets(line, sizeof(line), fp) != NULL) { + + char* nS = strstr(line, "Name:"); + char * end; + if (!nS) + continue; + + end = nS+strlen("Name:"); + /* remove the trailing '\n' */ + end[strlen(end)-1] = '\0'; + + rds = strdup(end); + break; + } + + /* Make sure si_ctl has finished */ + pclose(fp); + +done: + return rds; +} + +static radio_band_t kf_get_band(void) +{ + return RADIO_BAND_FM; +} + +static void kf_set_band(radio_band_t band) +{ + // We only support FM, so do nothing +} + +static int kf_band_supported(radio_band_t band) +{ + if(band == RADIO_BAND_FM) + return 1; + return 0; +} + +static uint32_t kf_get_min_frequency(radio_band_t band) +{ + return known_fm_band_plans[bandplan].min; +} + +static uint32_t kf_get_max_frequency(radio_band_t band) +{ + return known_fm_band_plans[bandplan].max; +} + +static uint32_t kf_get_frequency_step(radio_band_t band) +{ + uint32_t ret = 0; + + switch (band) { + case RADIO_BAND_AM: + ret = 1000; // 1 kHz + break; + case RADIO_BAND_FM: + ret = known_fm_band_plans[bandplan].step; + break; + default: + break; + } + return ret; +} + +static bool kf_get_corking_state(void) +{ + return corking; +} + +static void kf_start(void) +{ + if(!initialized) + return; + + if(!running || corking) { + // Start pipeline + gst_element_set_state(pipeline, GST_STATE_PLAYING); + running = true; + corking = false; + } +} + +static void kf_stop(void) +{ + GstEvent *event; + + if(initialized && running) { + // Stop pipeline + running = false; + +#ifdef WIREPLUMBER_WORKAROUND + // NOTE: Using NULL here instead of READY, as it seems to trigger + // some odd behavior in the pipeline; alsasrc does not seem to + // stop, and things get hung up on restart as there are a bunch + // of "old" samples that seemingly confuse pipewiresink. Going + // to NULL state seems to tear down things enough to avoid + // whatever happens. + gst_element_set_state(pipeline, GST_STATE_NULL); +#else + gst_element_set_state(pipeline, GST_STATE_PAUSED); +#endif + corking = false; + +#ifndef WIREPLUMBER_WORKAROUND + // Flush pipeline + // This seems required to avoid stutters on starts after a stop + event = gst_event_new_flush_start(); + gst_element_send_event(GST_ELEMENT(pipeline), event); + event = gst_event_new_flush_stop(TRUE); + gst_element_send_event(GST_ELEMENT(pipeline), event); +#endif + } +} + +static void kf_scan_start(radio_scan_direction_t direction, + radio_scan_callback_t callback, + void *data) +{ + int rc; + char cmd[SI_CTL_CMDLINE_MAXLEN]; + char line[SI_CTL_OUTPUT_MAXLEN]; + uint32_t new_frequency = 0; + FILE *fp; + + if(!initialized) + return; + + if(!running || scanning) + return; + + scanning = true; + snprintf(cmd, + SI_CTL_CMDLINE_MAXLEN, + "%s /dev/i2c-12 0x65 -l %s", + SI_CTL, direction == RADIO_SCAN_FORWARD ? "up" : "down"); + fp = popen(cmd, "r"); + if(fp == NULL) { + fprintf(stderr, "Could not run: %s!", cmd); + return; + } + // Look for "Frequency:" in output + while(fgets(line, SI_CTL_OUTPUT_MAXLEN, fp) != NULL) { + if(strncmp("Frequency:", line, 10) == 0) { + new_frequency = atoi(line + 10); + break; + } + } + + // Make sure si_ctl has finished + rc = pclose(fp); + if(rc != 0) { + // Make sure we reset to original frequency, the Si4689 seems + // to auto-mute sometimes on failed scans, this hopefully works + // around that. + new_frequency = 0; + } + + if(new_frequency) { + current_frequency = new_frequency * 1000; + + // Push up the new frequency + // This is more efficient than calling kf_set_frequency and calling + // out to si_ctl again. + if(freq_callback) + freq_callback(current_frequency, freq_callback_data); + } else { + // Assume no station found, go back to starting frequency + kf_set_frequency(current_frequency); + } + + // Push up scan state + if(callback) + callback(current_frequency, data); + + scanning = false; +} + +static void kf_scan_stop(void) +{ + // ATM, it's not straightforward to stop a scan since we're using the si_ctl utility... +} + +static radio_stereo_mode_t kf_get_stereo_mode(void) +{ + return RADIO_MODE_STEREO; +} + +static void kf_set_stereo_mode(radio_stereo_mode_t mode) +{ + // We only support stereo, so do nothing +} + +radio_impl_ops_t kf_impl_ops = { + .name = "Kingfisher Si4689", + .probe = kf_probe, + .init = kf_init, + .set_output = kf_set_output, + .get_frequency = kf_get_frequency, + .set_frequency = kf_set_frequency, + .set_frequency_callback = kf_set_frequency_callback, + .get_band = kf_get_band, + .set_band = kf_set_band, + .band_supported = kf_band_supported, + .get_min_frequency = kf_get_min_frequency, + .get_max_frequency = kf_get_max_frequency, + .get_frequency_step = kf_get_frequency_step, + .get_corking_state = kf_get_corking_state, + .start = kf_start, + .stop = kf_stop, + .scan_start = kf_scan_start, + .scan_stop = kf_scan_stop, + .get_stereo_mode = kf_get_stereo_mode, + .set_stereo_mode = kf_set_stereo_mode, + .get_rds_info = kf_get_rds_info +}; diff --git a/src/radio_impl_kingfisher.h b/src/radio_impl_kingfisher.h new file mode 100644 index 0000000..5d4f064 --- /dev/null +++ b/src/radio_impl_kingfisher.h @@ -0,0 +1,25 @@ +/* + * Copyright (C) 2017 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef _RADIO_IMPL_KINGFISHER_H +#define _RADIO_IMPL_KINGFISHER_H + +#include "radio_impl.h" + +extern radio_impl_ops_t kf_impl_ops; + +#endif /* _RADIO_IMPL_KINGFISHER_H */ + diff --git a/src/radio_impl_null.c b/src/radio_impl_null.c new file mode 100644 index 0000000..60dbab2 --- /dev/null +++ b/src/radio_impl_null.c @@ -0,0 +1,279 @@ +/* + * Copyright (C) 2017,2018,2020 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +/* + * NOTE: Some locking around frequency and scanning state may be + * required if this null implementation ever needs to be used + * beyond basic functionality testing. + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "radio_impl.h" + +// Structure to describe FM band plans, all values in Hz. +typedef struct { + char *name; + uint32_t min; + uint32_t max; + uint32_t step; +} fm_band_plan_t; + +static fm_band_plan_t known_fm_band_plans[5] = { + { .name = "US", .min = 87900000, .max = 107900000, .step = 200000 }, + { .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 }, + { .name = "EU", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-1", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 } +}; + +static unsigned int bandplan; +static bool present; +static bool initialized; +static bool active; +static bool scanning; +static uint32_t current_frequency; +static radio_freq_callback_t freq_callback; +static void *freq_callback_data; + +static uint32_t null_get_min_frequency(radio_band_t band); +static void null_set_frequency(uint32_t frequency); + +static int null_probe(void) +{ + present = true; + return 0; +} + +static int null_init(void) +{ + GKeyFile *conf_file; + char *value_str; + + if(!present) + return -1; + + if(initialized) + return 0; + + // Load settings from configuration file if it exists + conf_file = g_key_file_new(); + if(conf_file && + g_key_file_load_from_dirs(conf_file, + "AGL.conf", + (const gchar**) g_get_system_config_dirs(), + NULL, + G_KEY_FILE_KEEP_COMMENTS, + NULL) == TRUE) { + + // Set band plan if it is specified + value_str = g_key_file_get_string(conf_file, + "radio", + "fmbandplan", + NULL); + if(value_str) { + unsigned int i; + for(i = 0; + i < sizeof(known_fm_band_plans) / sizeof(fm_band_plan_t); + i++) { + if(!strcasecmp(value_str, known_fm_band_plans[i].name)) { + bandplan = i; + break; + } + } + } + } + + // Start off with minimum bandplan frequency + current_frequency = null_get_min_frequency(RADIO_BAND_FM); + + initialized = true; + null_set_frequency(current_frequency); + + return 0; +} + +static void null_set_output(const char *output) +{ +} + +static uint32_t null_get_frequency(void) +{ + return current_frequency; +} + +static void null_set_frequency(uint32_t frequency) +{ + if(frequency < known_fm_band_plans[bandplan].min || + frequency > known_fm_band_plans[bandplan].max) + return; + + current_frequency = frequency; + + if(freq_callback) + freq_callback(current_frequency, freq_callback_data); +} + +static void null_set_frequency_callback(radio_freq_callback_t callback, + void *data) +{ + freq_callback = callback; + freq_callback_data = data; +} + +static radio_band_t null_get_band(void) +{ + // We only support FM + return RADIO_BAND_FM; +} + +static void null_set_band(radio_band_t band) +{ + // We only support FM, so do nothing +} + +static int null_band_supported(radio_band_t band) +{ + if(band == RADIO_BAND_FM) + return 1; + return 0; +} + +static uint32_t null_get_min_frequency(radio_band_t band) +{ + return known_fm_band_plans[bandplan].min; +} + +static uint32_t null_get_max_frequency(radio_band_t band) +{ + return known_fm_band_plans[bandplan].max; +} + +static uint32_t null_get_frequency_step(radio_band_t band) +{ + uint32_t ret = 0; + + switch (band) { + case RADIO_BAND_AM: + ret = 1000; // 1 kHz + break; + case RADIO_BAND_FM: + ret = known_fm_band_plans[bandplan].step; + break; + default: + break; + } + return ret; +} + +static void null_start(void) +{ + if(!initialized) + return; + + if(active) + return; + + active = true; +} + +static void null_stop(void) +{ + if(!initialized) + return; + + if (!active) + return; + + active = false; +} + +static void null_scan_start(radio_scan_direction_t direction, + radio_scan_callback_t callback, + void *data) +{ + int frequency; + + if(!active || scanning) + return; + + scanning = true; + + // Just go to the next frequency step up or down + frequency = current_frequency; + if(direction == RADIO_SCAN_FORWARD) { + frequency += known_fm_band_plans[bandplan].step; + } else { + frequency -= known_fm_band_plans[bandplan].step; + } + if(frequency < known_fm_band_plans[bandplan].min) + frequency = known_fm_band_plans[bandplan].max; + else if(frequency > known_fm_band_plans[bandplan].max) + frequency = known_fm_band_plans[bandplan].min; + + scanning = false; + null_set_frequency(frequency); + if(callback) + callback(frequency, data); +} + +static void null_scan_stop(void) +{ + scanning = false; +} + +static radio_stereo_mode_t null_get_stereo_mode(void) +{ + // We only support stereo + return RADIO_MODE_STEREO; +} + +static void null_set_stereo_mode(radio_stereo_mode_t mode) +{ + // We only support stereo, so do nothing +} + +radio_impl_ops_t null_impl_ops = { + .name = "null/mock radio", + .probe = null_probe, + .init = null_init, + .set_output = null_set_output, + .get_frequency = null_get_frequency, + .set_frequency = null_set_frequency, + .set_frequency_callback = null_set_frequency_callback, + .get_band = null_get_band, + .set_band = null_set_band, + .band_supported = null_band_supported, + .get_min_frequency = null_get_min_frequency, + .get_max_frequency = null_get_max_frequency, + .get_frequency_step = null_get_frequency_step, + .start = null_start, + .stop = null_stop, + .scan_start = null_scan_start, + .scan_stop = null_scan_stop, + .get_stereo_mode = null_get_stereo_mode, + .set_stereo_mode = null_set_stereo_mode +}; diff --git a/src/radio_impl_null.h b/src/radio_impl_null.h new file mode 100644 index 0000000..16bd5e6 --- /dev/null +++ b/src/radio_impl_null.h @@ -0,0 +1,25 @@ +/* + * Copyright (C) 2020 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef _RADIO_IMPL_NULL_H +#define _RADIO_IMPL_NULL_H + +#include "radio_impl.h" + +extern radio_impl_ops_t null_impl_ops; + +#endif /* _RADIO_IMPL_NULL_H */ + diff --git a/src/radio_impl_rtlsdr.c b/src/radio_impl_rtlsdr.c new file mode 100644 index 0000000..d978605 --- /dev/null +++ b/src/radio_impl_rtlsdr.c @@ -0,0 +1,496 @@ +/* + * Copyright (C) 2017,2018,2020 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "radio_impl.h" + +#define HELPER_NAME "rtl_fm_helper" +#define HELPER_MAX PATH_MAX + 64 + +#define HELPER_CMD_MAXLEN 64 +#define HELPER_RSP_MAXLEN 128 + +// Structure to describe FM band plans, all values in Hz. +typedef struct { + char *name; + uint32_t min; + uint32_t max; + uint32_t step; +} fm_band_plan_t; + +static fm_band_plan_t known_fm_band_plans[5] = { + { .name = "US", .min = 87900000, .max = 107900000, .step = 200000 }, + { .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 }, + { .name = "EU", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-1", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 } +}; + +static unsigned int bandplan; +static char *helper_output; +static pid_t helper_pid; +static int helper_in; +static int helper_out; +static pthread_mutex_t helper_mutex = PTHREAD_MUTEX_INITIALIZER; +static bool present; +static bool initialized; +static bool active; +static bool scanning; +static uint32_t current_frequency; +static radio_freq_callback_t freq_callback; +static void *freq_callback_data; + +static uint32_t rtlsdr_get_min_frequency(radio_band_t band); +static void rtlsdr_set_frequency(uint32_t frequency); +static void rtlsdr_scan_stop(void); + +/* + * Bi-directional popen implementation + * Based on one of the versions given in: + * + * https://stackoverflow.com/questions/12778672/killing-process-that-has-been-created-with-popen2 + */ +static pid_t popen2(char *command, int *in_fd, int *out_fd) +{ + int pin[2], pout[2]; + pid_t pid; + + if(out_fd != NULL) { + if(pipe(pin) != 0) + return -1; + } + if(in_fd != NULL) { + if (pipe(pout) != 0) { + if(out_fd != NULL) { + close(pin[0]); + close(pin[1]); + } + return -1; + } + } + + pid = fork(); + if(pid < 0) { + if(out_fd != NULL) { + close(pin[0]); + close(pin[1]); + } + if(in_fd != NULL) { + close(pout[0]); + close(pout[1]); + } + return pid; + } + if(pid == 0) { + if(out_fd != NULL) { + close(pin[1]); + dup2(pin[0], 0); + } + if(in_fd != NULL) { + close(pout[0]); + dup2(pout[1], 1); + } + execlp(command, command, NULL); + perror("Error:"); + exit(1); + } + if(in_fd != NULL) { + close(pout[1]); + *in_fd = pout[0]; + } + if(out_fd != NULL) { + close(pin[0]); + *out_fd = pin[1]; + } + return pid; +} + +static int rtlsdr_probe(void) +{ + const char *bindir = "/usr/sbin"; + char *helper_path; + + // Run helper to detect adapter + helper_path = malloc(HELPER_MAX); + if(!helper_path) + return -ENOMEM; + if(snprintf(helper_path, HELPER_MAX, "%s/%s --detect", bindir, HELPER_NAME) == HELPER_MAX) { + fprintf(stderr, "Could not create command for \"%s --detect\"", HELPER_NAME); + return -EINVAL; + } + if(system(helper_path) != 0) { + free(helper_path); + return -1; + } + + present = true; + return 0; +} + +static int rtlsdr_start_helper(void) +{ + const char *bindir = "/usr/sbin"; + char *helper_path; + static bool helper_started = false; + + if(!present || initialized) + return -1; + + if(helper_started) + return 0; + + if(helper_output) { + // Indicate desired output to helper + printf("Setting RADIO_OUTPUT=%s", helper_output); + setenv("RADIO_OUTPUT", helper_output, 1); + } + + // Run helper + helper_path = malloc(HELPER_MAX); + if(!helper_path) + return -ENOMEM; + if(snprintf(helper_path, PATH_MAX, "%s/%s", bindir, HELPER_NAME) == PATH_MAX) { + fprintf(stderr, "Could not create path to %s", HELPER_NAME); + return -EINVAL; + } + helper_pid = popen2(helper_path, &helper_out, &helper_in); + if(helper_pid < 0) { + fprintf(stderr, "Could not run %s!", HELPER_NAME); + return -1; + } + printf("%s started", HELPER_NAME); + helper_started = true; + free(helper_path); + + return 0; +} + +static int rtlsdr_init(void) +{ + GKeyFile *conf_file; + char *value_str; + int rc; + + if(!present) + return -1; + + if(initialized) + return 0; + + // Load settings from configuration file if it exists + conf_file = g_key_file_new(); + if(conf_file && + g_key_file_load_from_dirs(conf_file, + "AGL.conf", + (const gchar**) g_get_system_config_dirs(), + NULL, + G_KEY_FILE_KEEP_COMMENTS, + NULL) == TRUE) { + + // Set band plan if it is specified + value_str = g_key_file_get_string(conf_file, + "radio", + "fmbandplan", + NULL); + if(value_str) { + unsigned int i; + for(i = 0; + i < sizeof(known_fm_band_plans) / sizeof(fm_band_plan_t); + i++) { + if(!strcasecmp(value_str, known_fm_band_plans[i].name)) { + bandplan = i; + break; + } + } + } + } + + // Start off with minimum bandplan frequency + current_frequency = rtlsdr_get_min_frequency(RADIO_BAND_FM); + rc = rtlsdr_start_helper(); + if(rc != 0) { + return rc; + } + + initialized = true; + rtlsdr_set_frequency(current_frequency); + + return 0; +} + +static void rtlsdr_set_output(const char *output) +{ + // Save output for later use + free(helper_output); + helper_output = output ? strdup(output) : NULL; +} + +static uint32_t rtlsdr_get_frequency(void) +{ + return current_frequency; +} + +static void rtlsdr_set_frequency(uint32_t frequency) +{ + char cmd[HELPER_CMD_MAXLEN]; + char output[HELPER_RSP_MAXLEN]; + bool found = false; + ssize_t rc; + uint32_t n; + + if(!initialized) + return; + + if(frequency < known_fm_band_plans[bandplan].min || + frequency > known_fm_band_plans[bandplan].max) + return; + + if(scanning) + rtlsdr_scan_stop(); + + current_frequency = frequency; + snprintf(cmd, sizeof(cmd), "F=%u\n", frequency); + pthread_mutex_lock(&helper_mutex); + rc = write(helper_in, cmd, strlen(cmd)); + if(rc < 0) { + pthread_mutex_unlock(&helper_mutex); + return; + } + while(!found) { + rc = read(helper_out, output, sizeof(output)-1); + if(rc <= 0) + break; + output[rc] = '\0'; + if(output[0] == 'F') { + if(sscanf(output, "F=%u\n", &n) == 1) { + if(freq_callback) + freq_callback(n, freq_callback_data); + found = true; + } + } + } + pthread_mutex_unlock(&helper_mutex); +} + +static void rtlsdr_set_frequency_callback(radio_freq_callback_t callback, + void *data) +{ + freq_callback = callback; + freq_callback_data = data; +} + +static radio_band_t rtlsdr_get_band(void) +{ + // We only support FM + return RADIO_BAND_FM; +} + +static void rtlsdr_set_band(radio_band_t band) +{ + // We only support FM, so do nothing +} + +static int rtlsdr_band_supported(radio_band_t band) +{ + if(band == RADIO_BAND_FM) + return 1; + return 0; +} + +static uint32_t rtlsdr_get_min_frequency(radio_band_t band) +{ + return known_fm_band_plans[bandplan].min; +} + +static uint32_t rtlsdr_get_max_frequency(radio_band_t band) +{ + return known_fm_band_plans[bandplan].max; +} + +static uint32_t rtlsdr_get_frequency_step(radio_band_t band) +{ + uint32_t ret = 0; + + switch (band) { + case RADIO_BAND_AM: + ret = 1000; // 1 kHz + break; + case RADIO_BAND_FM: + ret = known_fm_band_plans[bandplan].step; + break; + default: + break; + } + return ret; +} + +static void rtlsdr_start(void) +{ + ssize_t rc; + char cmd[HELPER_CMD_MAXLEN]; + + if(!initialized) + return; + + if(active) + return; + + snprintf(cmd, sizeof(cmd), "START\n"); + pthread_mutex_lock(&helper_mutex); + rc = write(helper_in, cmd, strlen(cmd)); + pthread_mutex_unlock(&helper_mutex); + if (rc < 0) { + fprintf(stderr, "Failed to ask \"%s\" to start", HELPER_NAME); + return; + } + active = true; +} + +static void rtlsdr_stop(void) +{ + ssize_t rc; + if(!initialized) + return; + + if (!active) + return; + + char cmd[HELPER_CMD_MAXLEN]; + + snprintf(cmd, sizeof(cmd), "STOP\n"); + pthread_mutex_lock(&helper_mutex); + rc = write(helper_in, cmd, strlen(cmd)); + pthread_mutex_unlock(&helper_mutex); + if (rc < 0) { + fprintf(stderr, "Failed to ask \"%s\" to stop", HELPER_NAME); + return; + } + active = false; +} + +static void rtlsdr_scan_start(radio_scan_direction_t direction, + radio_scan_callback_t callback, + void *data) +{ + ssize_t rc; + char cmd[HELPER_CMD_MAXLEN]; + char output[HELPER_RSP_MAXLEN]; + bool found = false; + uint32_t n; + + if(!active || scanning) + return; + + scanning = true; + snprintf(cmd, + sizeof(cmd), + "S=%s\n", direction == RADIO_SCAN_FORWARD ? "UP" : "DOWN"); + pthread_mutex_lock(&helper_mutex); + if(!scanning) { + pthread_mutex_unlock(&helper_mutex); + return; + } + rc = write(helper_in, cmd, strlen(cmd)); + pthread_mutex_unlock(&helper_mutex); + if(rc < 0) + return; + while(!found) { + pthread_mutex_lock(&helper_mutex); + if(!scanning) { + pthread_mutex_unlock(&helper_mutex); + break; + } + rc = read(helper_out, output, sizeof(output)-1); + pthread_mutex_unlock(&helper_mutex); + if(rc <= 0) + break; + + output[rc] = '\0'; + if(output[0] == 'F') { + if(sscanf(output, "F=%u\n", &n) == 1) { + current_frequency = n; + if(freq_callback) + freq_callback(n, freq_callback_data); + } + } + if(output[0] == 'S') { + if(sscanf(output, "S=%u\n", &n) == 1) { + if(callback) + callback(n, data); + found = true; + scanning = false; + } + } + } +} + +static void rtlsdr_scan_stop(void) +{ + char cmd[HELPER_CMD_MAXLEN]; + ssize_t rc; + + snprintf(cmd, sizeof(cmd), "S=STOP\n"); + pthread_mutex_lock(&helper_mutex); + scanning = false; + rc = write(helper_in, cmd, strlen(cmd)); + pthread_mutex_unlock(&helper_mutex); + if (rc < 0) + fprintf(stderr, "Failed to ask \"%s\" to stop scan", HELPER_NAME); +} + +static radio_stereo_mode_t rtlsdr_get_stereo_mode(void) +{ + // We only support stereo + return RADIO_MODE_STEREO; +} + +static void rtlsdr_set_stereo_mode(radio_stereo_mode_t mode) +{ + // We only support stereo, so do nothing +} + +radio_impl_ops_t rtlsdr_impl_ops = { + .name = "RTL-SDR USB adapter", + .probe = rtlsdr_probe, + .init = rtlsdr_init, + .set_output = rtlsdr_set_output, + .get_frequency = rtlsdr_get_frequency, + .set_frequency = rtlsdr_set_frequency, + .set_frequency_callback = rtlsdr_set_frequency_callback, + .get_band = rtlsdr_get_band, + .set_band = rtlsdr_set_band, + .band_supported = rtlsdr_band_supported, + .get_min_frequency = rtlsdr_get_min_frequency, + .get_max_frequency = rtlsdr_get_max_frequency, + .get_frequency_step = rtlsdr_get_frequency_step, + .start = rtlsdr_start, + .stop = rtlsdr_stop, + .scan_start = rtlsdr_scan_start, + .scan_stop = rtlsdr_scan_stop, + .get_stereo_mode = rtlsdr_get_stereo_mode, + .set_stereo_mode = rtlsdr_set_stereo_mode +}; diff --git a/src/radio_impl_rtlsdr.h b/src/radio_impl_rtlsdr.h new file mode 100644 index 0000000..6c83338 --- /dev/null +++ b/src/radio_impl_rtlsdr.h @@ -0,0 +1,25 @@ +/* + * Copyright (C) 2017 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef _RADIO_IMPL_RTLSDR_H +#define _RADIO_IMPL_RTLSDR_H + +#include "radio_impl.h" + +extern radio_impl_ops_t rtlsdr_impl_ops; + +#endif /* _RADIO_IMPL_RTLSDR_H */ + diff --git a/src/radio_impl_tef665x.c b/src/radio_impl_tef665x.c new file mode 100644 index 0000000..7cca710 --- /dev/null +++ b/src/radio_impl_tef665x.c @@ -0,0 +1,2401 @@ +/* + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +/* + TODO: + at this point: + - complete the set stereo_mode verb. + - find a way to tell the service which i2c chanel is used. + - separate the functions of driver from the verbs by creating new c file. + - find a way of monitoring the quality of tuning and correct it time by time. + - use Interupt for getting RDS data +*/ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "radio_impl.h" +#include "tef665x.h" + +#define I2C_ADDRESS 0x64 +#define I2C_DEV "/dev/i2c-3" +#define VERSION "0.1" + +#define TEF665x_CMD_LEN_MAX 20 +#define SET_SUCCESS 1 +#define TEF665X_SPLIT_SIZE 24 + +#define TEF665x_REF_CLK 9216000 //reference clock frequency +#define TEF665x_IS_CRYSTAL_CLK 0 //crstal +#define TEF665x_IS_EXT_CLK 1 //external clock input + +#define High_16bto8b(a) ((uint8_t)((a) >> 8)) +#define Low_16bto8b(a) ((uint8_t)(a)) +#define Convert8bto16b(a) ((uint16_t)(((uint16_t)(*(a))) << 8 |((uint16_t)(*(a+1))))) + +#define GST_PIPELINE_LEN 256 + +const uint8_t tef665x_patch_cmdTab1[] = {3, 0x1c,0x00,0x00}; +const uint8_t tef665x_patch_cmdTab2[] = {3, 0x1c,0x00,0x74}; +const uint8_t tef665x_patch_cmdTab3[] = {3, 0x1c,0x00,0x75}; + + +typedef struct { + char *name; + uint32_t min; + uint32_t max; + uint32_t step; +} band_plan_t; + +typedef struct{ + radio_scan_callback_t callback; + radio_scan_direction_t direction; + void* data; +}scan_data_t; +typedef struct rds_data +{ + bool Text_Changed; + bool TrafficAnnouncement; + bool TrafficProgram; + bool Music_Speech; + + uint32_t Alternative_Freq[25]; + uint8_t Alternative_Freq_Counter; + uint8_t Num_AlterFreq; + + uint16_t PICode; + uint8_t DI_Seg; + uint8_t PTY_Code; + + uint8_t Year; + uint8_t Month; + uint8_t Day; + uint8_t Hour; + uint8_t Min; + + uint8_t PTYN_Size; + uint8_t raw_data[12]; + + char PS_Name[16]; + char RT[128]; + char PTYN[16]; +} rds_data_t; + +//thread for handling RDS and Mutex +pthread_t rds_thread; +rds_data_t RDS_Message; +pthread_mutex_t RDS_Mutex; + +station_quality_t quality; + +//Threads for handling Scan +pthread_t scan_thread; + +pthread_mutex_t scan_mutex; + +char _Temp[64]={0}; + +static band_plan_t known_fm_band_plans[5] = { + { .name = "US", .min = 87900000, .max = 107900000, .step = 200000 }, + { .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 }, + { .name = "EU", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-1", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 } +}; +static band_plan_t known_am_band_plans[1] = { + { .name = "W-ASIA", .min = 522000, .max = 1620000, .step = 9000 } +}; + +static unsigned int fm_bandplan = 2; +static unsigned int am_bandplan = 0; +static bool corking; +static bool present; +static bool initialized; +static bool scanning; + +// stream state +static GstElement *pipeline; +static bool running; + + +uint32_t AlterFreqOffset=0; + +static void (*freq_callback)(uint32_t, void*); +static void (*rds_callback) (void*); +static void *freq_callback_data; + +int tef665x_set_rds (uint32_t i2c_file_desc); +#define DEBUG 0 + +#if DEBUG == 1 +#define _debug(x, y) printf("function: %s, %s : %d\n", __FUNCTION__, #x, y) +#else +#define _debug(x, y) +#endif + +static uint32_t file_desc; + +static radio_band_t current_band; +static uint32_t current_am_frequency; +static uint32_t current_fm_frequency; + +static void tef665x_scan_stop (void); +static void tef665x_set_frequency (uint32_t); +static void tef665x_search_frequency (uint32_t); + +static uint32_t tef665x_get_min_frequency (radio_band_t); +static uint32_t tef665x_get_max_frequency (radio_band_t); +static uint32_t tef665x_get_frequency_step (radio_band_t); + +static station_quality_t *tef665x_get_quality_info (void); + +static gboolean handle_message(GstBus *bus, GstMessage *msg, __attribute__((unused)) void *ptr) +{ + GstState state; + + if (GST_MESSAGE_TYPE(msg) == GST_MESSAGE_REQUEST_STATE) { + + gst_message_parse_request_state(msg, &state); + + if (state == GST_STATE_PAUSED) + corking = true; + else if (state == GST_STATE_PLAYING) + corking = false; + + } + + return TRUE; +} + +static int tef665x_set_cmd(int i2c_file_desc, TEF665x_MODULE module, uint8_t cmd, int len, ...) +{ + int i, ret; + uint8_t buf[TEF665x_CMD_LEN_MAX]; + uint16_t temp; + va_list vArgs; + + va_start(vArgs, len); + + buf[0] = module; //module, FM/AM/APP + buf[1] = cmd; //cmd, 1,2,10,... + buf[2] = 0x01; //index, always 1 + + for(i = 3; i < len; i++) + { + temp = va_arg(vArgs,int); + + buf[i++] = High_16bto8b(temp); + buf[i] = Low_16bto8b(temp); + } + + va_end(vArgs); + + ret = write(i2c_file_desc, buf, len); + + temp = (ret == len) ? 1 : 0; + _debug("return value", temp); + return temp; +} + +static int tef665x_get_cmd(int i2c_file_desc, TEF665x_MODULE module, uint8_t cmd, uint8_t *receive, int len) +{ + uint8_t temp; + uint8_t buf[3]; + int ret; + + buf[0]= module; //module, FM/AM/APP + buf[1]= cmd; //cmd, 1,2,10,... + buf[2]= 1; //index, always 1 + + write(i2c_file_desc, buf, 3); + + ret = read(i2c_file_desc, receive, len); + temp = (ret == len) ? 1 : 0; + _debug("return value", temp); + if(temp==0) + fprintf(stderr, "Error Number: %d: %s",errno,strerror(errno)); + return temp; +} + +/* +module 64 APPL +cmd 128 Get_Operation_Status | status +index +1 status + Device operation status + 0 = boot state; no command support + 1 = idle state + 2 = active state; radio standby + 3 = active state; FM + 4 = active state; AM +*/ +static int appl_get_operation_status(int i2c_file_desc ,uint8_t *status) +{ + uint8_t buf[2]; + int ret; + + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_APPL, + TEF665X_Cmd_Get_Operation_Status, + buf, sizeof(buf)); + + if(ret == SET_SUCCESS) + { + *status = Convert8bto16b(buf); + _debug("return value", 1); + return 1; + } + _debug("return value", 0); + return 0; +} + +static int get_operation_status(int i2c_file_desc, TEF665x_STATE *status) +{ + TEF665x_STATE data; + int ret; + if(SET_SUCCESS ==(ret = appl_get_operation_status(i2c_file_desc, &data))) + { + //printk( "appl_get_operation_status1 data= %d \n",data); + _debug("got status", ret); + switch(data) + { + case 0: + _debug("status: boot", ret); + *status = eDevTEF665x_Boot_state; + break; + case 1: + _debug("status: idle", ret); + *status = eDevTEF665x_Idle_state; + break; + default: + _debug("status: active", ret); + *status = eDevTEF665x_Active_state; + break; + } + } + return ret; +} + +static int tef665x_power_on(int i2c_file_desc) +{ + int ret; + TEF665x_STATE status; + usleep(5000); + if(SET_SUCCESS == (ret = get_operation_status(i2c_file_desc, &status))) //[ w 40 80 01 [ r 0000 ] + { + _debug("Powered ON", ret); + } + else + { + _debug("Powered ON FAILED!", ret); + } + + return ret; +} + +static int tef665x_writeTab(int i2c_file_desc,const uint8_t *tab) +{ + int ret; + ret = write(i2c_file_desc, tab + 1, tab[0]); + return (ret != tab[0]) ? 0 : 1; +} + +static int tef665x_patch_load(int i2c_file_desc, const uint8_t *bytes, uint16_t size) +{ + uint8_t buf[25]; //the size which we break the data into, is 24 bytes. + int ret, i; + + uint16_t num = size / 24; + uint16_t rem = size % 24; + + buf[0] = 0x1b; + + usleep(10000); + + for(i = 0; i < num; i++) + { + memcpy(buf + 1, bytes + (24 * i), 24); + + ret = write(i2c_file_desc, buf, 25); + + if(ret != 25) + { + _debug("FAILED, send patch error! in pack no", i); + return false; + } + usleep(50); + } + + memcpy(buf + 1, bytes + (num * 24), rem); + + ret = write(i2c_file_desc, buf, rem); + if(ret != rem) + { + _debug("FAILED, send patch error at the end!", 0); + return false; + } + usleep(50); + + _debug("return value", 1); + return true; +} + +static int tef665x_patch_init(int i2c_file_desc) +{ + int ret = 0; + ret = tef665x_writeTab(i2c_file_desc, tef665x_patch_cmdTab1); //[ w 1C 0000 ] + if(!ret) + { + _debug("1- tab1 load FAILED", ret); + return ret; + } + + ret = tef665x_writeTab(i2c_file_desc, tef665x_patch_cmdTab2); //[ w 1C 0074 ] + if(!ret) + { + _debug("2- tab2 load FAILED", ret); + return ret; + } + + ret = tef665x_patch_load(i2c_file_desc, pPatchBytes, patchSize); //table1 + if(!ret) + { + _debug("3- pPatchBytes load FAILED", ret); + return ret; + } + + ret = tef665x_writeTab(i2c_file_desc, tef665x_patch_cmdTab1); //[ w 1C 0000 ] + if(!ret) + { + _debug("4- tab1 load FAILED", ret); + return ret; + } + + ret = tef665x_writeTab(i2c_file_desc, tef665x_patch_cmdTab3); //[ w 1C 0075 ] + if(!ret) + { + _debug("5- tab3 load FAILED", ret); + return ret; + } + + ret = tef665x_patch_load(i2c_file_desc, pLutBytes, lutSize); //table2 + if(!ret) + { + _debug("6- pLutBytes load FAILED", ret); + return ret; + } + + ret = tef665x_writeTab(i2c_file_desc, tef665x_patch_cmdTab1); //[ w 1C 0000 ] + if(!ret) + { + _debug("7- tab1 load FAILED", ret); + return ret; + } + _debug("patch loaded", ret); + return ret; +} + +//Command start will bring the device into? idle state�: [ w 14 0001 ] +static int tef665x_start_cmd(int i2c_file_desc) +{ + + int ret; + unsigned char buf[3]; + + buf[0] = 0x14; + buf[1] = 0; + buf[2] = 1; + + ret = write(i2c_file_desc, buf, 3); + + if (ret != 3) + { + _debug("start cmd FAILED", 0); + return 0; + } + _debug("return true", 1); + return 1; +} + +static int tef665x_boot_state(int i2c_file_desc) +{ + int ret=0; + if(1 == tef665x_patch_init(i2c_file_desc)) + { + _debug("return true", 1); + } + else + { + _debug("return value", 0); + return 0; + } + + usleep(50000); + + if(1 == tef665x_start_cmd(i2c_file_desc)) + { + _debug("'start cmd'return true", 1); + } + else + { + _debug("return value", 0); + return 0; + } + + usleep(50000); + + return ret; +} + +/* +module 64 APPL +cmd 4 Set_ReferenceClock frequency + +index +1 frequency_high + [ 15:0 ] + MSB part of the reference clock frequency + [ 31:16 ] +2 frequency_low + [ 15:0 ] + LSB part of the reference clock frequency + [ 15:0 ] + frequency [*1 Hz] (default = 9216000) +3 type + [ 15:0 ] + clock type + 0 = crystal oscillator operation (default) + 1 = external clock input operation +*/ +static int tef665x_appl_set_referenceClock(uint32_t i2c_file_desc, uint16_t frequency_high, uint16_t frequency_low, uint16_t type) +{ + return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_APPL, + TEF665X_Cmd_Set_ReferenceClock, + 9, + frequency_high, frequency_low, type); +} + +static int appl_set_referenceClock(uint32_t i2c_file_desc, uint32_t frequency, bool is_ext_clk) //0x3d 0x900 +{ + return tef665x_appl_set_referenceClock(i2c_file_desc,(uint16_t)(frequency >> 16), (uint16_t)frequency, is_ext_clk); +} + +/* +module 64 APPL +cmd 5 Activate mode + +index +1 mode + [ 15:0 ] + 1 = goto �active� state with operation mode of �radio standby� +*/ +static int tef665x_appl_activate(uint32_t i2c_file_desc ,uint16_t mode) +{ + return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_APPL, + TEF665X_Cmd_Activate, + 5, + mode); +} + +static int appl_activate(uint32_t i2c_file_desc) +{ + return tef665x_appl_activate(i2c_file_desc, 1); +} +/* +module 48 AUDIO +cmd 22 set_dig_io signal, format, operation, samplerate + +index +1 signal +[ 15:0 ] + digital audio input / output + 32 = I²S digital audio IIS_SD_0 (input) + 33 = I²S digital audio IIS_SD_1 (output) +(2) mode + 0 = off (default) + 1 = input (only available for signal = 32) + 2 = output (only available for signal = 33) +(3) format + [ 15:0 ] + digital audio format select + 16 = I²S 16 bits (fIIS_BCK = 32 * samplerate) + 32 = I²S 32 bits (fIIS_BCK = 64 * samplerate) (default) + 272 = lsb aligned 16 bit (fIIS_BCK = 64 * samplerate) + 274 = lsb aligned 18 bit (fIIS_BCK = 64 * samplerate) + 276 = lsb aligned 20 bit (fIIS_BCK = 64 * samplerate) + 280 = lsb aligned 24 bit (fIIS_BCK = 64 * samplerate) +(4) operation + [ 15:0 ] + operation mode + 0 = slave mode; IIS_BCK and IIS_WS input defined by source (default) + 256 = master mode; IIS_BCK and IIS_WS output defined by device +(5) samplerate + [ 15:0 ] 3200 = 32.0 kHz + 4410 = 44.1 kHz (default) + 4800 = 48.0 kHz +*/ +static int tef665x_audio_set_dig_io(uint8_t i2c_file_desc, uint16_t signal, uint16_t mode, uint16_t format, uint16_t operation, uint16_t samplerate) +{ + int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO, + TEF665X_Cmd_Set_Dig_IO, + 13, + signal, mode, format, operation, samplerate); + if(ret) + { + _debug("Digital In/Out is set ", signal); + } + else + { + _debug("FAILED, return", 0); + return 0; + } + return 1; +} + +/* +module 32 / 33 FM / AM +cmd 85 Set_Specials ana_out, dig_out + +index +1 signal + [ 15:0 ] + analog audio output + 128 = DAC L/R output +2 mode + [ 15:0 ] + output mode + 0 = off (power down) + 1 = output enabled (default) +*/ + +static int tef665x_audio_set_ana_out(uint32_t i2c_file_desc, uint16_t signal,uint16_t mode) +{ + int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO, + TEF665X_Cmd_Set_Ana_Out, + 7, + signal, mode); + if(ret) + { + _debug("analog output is set to ", mode); + } + else + { + _debug("FAILED, return", 0); + return 0; + } + return 1; + +} + +/* +module 48 AUDIO +cmd 13 Set_Output_Source + +index +1 signal + [ 15:0 ] + audio output + 33 = I2S Digital audio + 128 = DAC L/R output (default) +2 source + [ 15:0 ] + source + 4 = analog radio + 32 = i2s digital audio input + 224 = audio processor (default) + 240 = sin wave generator +*/ +static int tef665x_set_output_src(uint32_t i2c_file_desc, uint8_t signal, uint8_t src) +{ + int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO, + TEF665X_Cmd_Set_Output_Source, + 7, + signal, src); + if(ret) + { + _debug("Output is set ", signal); + } + else + { + _debug("FAILED, return", 0); + return 0; + } + return 1; +} + +static int tef665x_idle_state(int i2c_file_desc) +{ + TEF665x_STATE status; + + //mdelay(50); + + if(SET_SUCCESS == get_operation_status(i2c_file_desc, &status)) + { + _debug("got operation status", 1); + if(status != eDevTEF665x_Boot_state) + { + _debug("not in boot status", 1); + + if(SET_SUCCESS == appl_set_referenceClock(i2c_file_desc, TEF665x_REF_CLK, TEF665x_IS_CRYSTAL_CLK)) //TEF665x_IS_EXT_CLK + { + _debug("set the clock", TEF665x_REF_CLK); + if(SET_SUCCESS == appl_activate(i2c_file_desc))// APPL_Activate mode = 1.[ w 40 05 01 0001 ] + { + //usleep(100000); //Wait 100 ms + _debug("activate succeed", 1); + return 1; + } + else + { + _debug("activate FAILED", 1); + } + } + else + { + _debug("set the clock FAILED", TEF665x_REF_CLK); + } + + } + else + { + _debug("did not get operation status", 0); + } + + } + _debug("return value", 0); + return 0; +} + +static int tef665x_para_load(uint32_t i2c_file_desc) +{ + int i; + int r; + const uint8_t *p = init_para; + + for(i = 0; i < sizeof(init_para); i += (p[i]+1)) + { + if(SET_SUCCESS != (r = tef665x_writeTab(i2c_file_desc, p + i))) + { + break; + } + } + + //Initiate RDS + tef665x_set_rds(i2c_file_desc); + + _debug("return value", r); + return r; +} + +/* +module 32 / 33 FM / AM +cmd 1 Tune_To mode, frequency + +index +1 mode + [ 15:0 ] + tuning actions + 0 = no action (radio mode does not change as function of module band) + 1 = Preset Tune to new program with short mute time + 2 = Search Tune to new program and stay muted + FM 3 = AF-Update Tune to alternative frequency, store quality + and tune back with inaudible mute + 4 = Jump Tune to alternative frequency with short + inaudible mute + 5 = Check Tune to alternative frequency and stay + muted + AM 3 � 5 = reserved + 6 = reserved + 7 = End Release the mute of a Search or Check action + (frequency is not required and ignored) +2 frequency +[ 15:0 ] + tuning frequency + FM 6500 � 10800 65.00 � 108.00 MHz / 10 kHz step size + AM LW 144 � 288 144 � 288 kHz / 1 kHz step size + MW 522 � 1710 522 � 1710 kHz / 1 kHz step size + SW 2300 � 27000 2.3 � 27 MHz / 1 kHz step size +*/ +static int tef665x_radio_tune_to (uint32_t i2c_file_desc, bool fm, uint16_t mode,uint16_t frequency ) +{ + return tef665x_set_cmd(i2c_file_desc, fm ? TEF665X_MODULE_FM: TEF665X_MODULE_AM, + TEF665X_Cmd_Tune_To, + ( mode <= 5 ) ? 7 : 5, + mode, frequency); +} + +static int FM_tune_to(uint32_t i2c_file_desc, AR_TuningAction_t mode, uint16_t frequency) +{ + int ret = tef665x_radio_tune_to(i2c_file_desc, 1, (uint16_t)mode, frequency); + _debug("return value", ret); + return ret; +} + +static int AM_tune_to(uint32_t i2c_file_desc, AR_TuningAction_t mode,uint16_t frequency) +{ + int ret = tef665x_radio_tune_to(i2c_file_desc, 0, (uint16_t)mode, frequency); + _debug("return value", ret); + return ret; +} + +/* +module 48 AUDIO +cmd 11 Set_Mute mode + +index +1 mode + [ 15:0 ] + audio mute + 0 = mute disabled + 1 = mute active (default) +*/ +int tef665x_audio_set_mute(uint32_t i2c_file_desc, uint16_t mode) +{ + int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO, + TEF665X_Cmd_Set_Mute, + 5, + mode); + if(ret) + { + _debug("mute state changed , mode", mode); + } + else + { + _debug("FAILED, return", 0); + return 0; + } + return 1; +} + +/* +module 48 AUDIO +cmd 10 Set_Volume volume + +index +1 volume + [ 15:0 ] (signed) + audio volume + -599 � +240 = -60 � +24 dB volume + 0 = 0 dB (default)f665x_patch_init function: "3"t,int16_t volume) +*/ +static int tef665x_audio_set_volume(uint32_t i2c_file_desc, uint16_t volume) +{ + return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_AUDIO, + TEF665X_Cmd_Set_Volume, + 5, + volume*10); +} +/* +module 64 APPL +cmd 130 Get_Identification +index +1 device +2 hw_version +3 sw_version +*/ +int appl_get_identification(int i2c_file_desc) +{ + uint8_t buf[6]; + int ret; + + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_APPL, + TEF665X_Cmd_Get_Identification, + buf, sizeof(buf)); +// should be completed for further use +// extracting chip versions ... + if(ret == SET_SUCCESS) + { + for(int i = 0; i<6;i++) + printf("buf[%i] = %x\n", i, buf[i]); + return 1; + } + _debug("return value", 0); + return 0; +} + + +//mute=1, unmute=0 +int audio_set_mute(uint32_t i2c_file_desc, bool mute) +{ + return tef665x_audio_set_mute(i2c_file_desc, mute);//AUDIO_Set_Mute mode = 0 : disable mute +} + +//-60 � +24 dB volume +int audio_set_volume(uint32_t i2c_file_desc, int vol) +{ + return tef665x_audio_set_volume(i2c_file_desc, (uint16_t)vol); +} + +/* +module 64 APPL +cmd 1 Set_OperationMode mode + +index +1 mode + [ 15:0 ] + device operation mode + 0 = normal operation + 1 = radio standby mode (low-power mode without radio functionality) + (default) +*/ + +static int tef665x_audio_set_operationMode(uint32_t i2c_file_desc, uint16_t mode) +{ + _debug("normal: 0 standby: 1 requested", 1); + int ret = tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_APPL, + TEF665X_Cmd_Set_OperationMode, + 5, + mode); + if(ret) + { + _debug("was able to set the mode", ret); + } + else + { + _debug("FAILED, return", 0); + return 0; + } + return 1; +} + + + +//TRUE = ON; +//FALSE = OFF +static void radio_powerSwitch(uint32_t i2c_file_desc, bool OnOff) +{ + tef665x_audio_set_operationMode(i2c_file_desc, OnOff? 0 : 1);//standby mode = 1 +} + +static void radio_modeSwitch(uint32_t i2c_file_desc, bool mode_switch, AR_TuningAction_t mode, uint16_t frequency) +{ + + if(mode_switch) //FM + { + FM_tune_to(i2c_file_desc, mode, frequency); + } + else //AM + { + AM_tune_to(i2c_file_desc, mode, frequency); + } +} + +/* +module 32 FM +cmd 81 Set_RDS + +index +1 mode + [ 15:0 ] + RDS operation mode + 0 = OFF + 1 = decoder mode (default), output of RDS groupe data (Block A, B, C, D) + from get_rds_status, get_rds_data FM cmd 130/131 + +2 restart + [ 15:0 ] + RDS decoder restart + 0 = no control + 1 = manual restart, starlooking for new RDS data immidiately + 2 = automatic restart after tuning (default) + 3 = flush, empty RDS output buffer. + +3 interface + [ 15:0 ] + 0 = no pin interface. + 2 = data available status output; active low (GPIO feature 'DAVN') + 4 = legecy 2-wire demodulator data and clock output ('RDDA' and 'RDCL') +*/ +int tef665x_set_rds(uint32_t i2c_file_desc) +{ + return tef665x_set_cmd(i2c_file_desc, TEF665X_MODULE_FM, + TEF665X_Cmd_Set_RDS, + 9,//Total Bytes to be sent + TEF665X_Cmd_Set_RDS_mode, // default + TEF665X_Cmd_Set_RDS_autorestart, // restart after tune + 0x002 // no interface + ); +} + + +/* + * @brief Adding Alternative Frequencies to RDS Data Structure + * + * @param uint8_t* : raw data of alternative frequency (Group 0A of RDS) + * @param rds_data_t* : Pointer to RDS Data Structure + * @return void + */ +void Extract_Alt_Freqs(uint8_t* buf,rds_data_t *Rds_STU) +{ + for(int Buffer_Index=6;Buffer_Index<8;Buffer_Index++) + { + if(buf[Buffer_Index]>204){ + if(250>buf[Buffer_Index]&&buf[Buffer_Index]>224) + { + Rds_STU->Num_AlterFreq=buf[Buffer_Index]-224; + + if(Rds_STU->Alternative_Freq_Counter == Rds_STU->Num_AlterFreq) + { + Rds_STU->Alternative_Freq_Counter = 0; + } + AlterFreqOffset=87500000; + } + else if(buf[Buffer_Index]==205) + { + fprintf(stderr, "Filler Code"); + } + else if(buf[Buffer_Index]==224) + { + fprintf(stderr, "No AF Exists"); + } + else if(buf[Buffer_Index]==250) + { + fprintf(stderr, "An LF/MF Frequency Follows"); + AlterFreqOffset=144000; + } + else if(buf[Buffer_Index]>250) + { + printf("Alternative Frequency Not Assigned"); + } + } + else if(buf[Buffer_Index]>0) + { + if(AlterFreqOffset == 87500000) + { + Rds_STU->Alternative_Freq[Rds_STU->Alternative_Freq_Counter]= + buf[Buffer_Index] * 100000 + AlterFreqOffset; + + Rds_STU->Alternative_Freq_Counter++; + + if(Rds_STU->Alternative_Freq_Counter == Rds_STU->Num_AlterFreq) + { + Rds_STU->Alternative_Freq_Counter = 0; + } + } + else if(AlterFreqOffset == 144000) + { + Rds_STU->Alternative_Freq[Rds_STU->Alternative_Freq_Counter]= + ((uint32_t)buf[Buffer_Index]) * 9000 + AlterFreqOffset; + + Rds_STU->Alternative_Freq_Counter++; + + if(Rds_STU->Alternative_Freq_Counter == Rds_STU->Num_AlterFreq) + { + Rds_STU->Alternative_Freq_Counter = 0; + } + } + else + { + printf("Alternative Frequency is not defined"); + } + } + else + { + fprintf(stderr, "Alternative Frequency- Not to be used"); + } + } +} + +/* + * @brief Checking rds error code (determined by decoder) + * + * 0 : no error; block data was received with matching data and syndrome + * 1 : small error; possible 1 bit reception error detected; data is corrected + * 2 : large error; theoretical correctable error detected; data is corrected + * 3 : uncorrectable error; no data correction possible + * + * @param Errors : Error Code of blocks A,B,C and D of RDS + * @return void + */ +void Check_RDS_Error(uint8_t Errors[]) +{ + for (int i=0;i<4;i++){ + if(Errors[i]==1){ + printf("RDS Block %d Reception Error; small error; possible 1 bit reception error detected; data is corrected",i+1); + } + else if(Errors[i]==2){ + printf("RDS Block %d Reception Error; large error; theoretical correctable error detected; data is corrected",i+1); + } + else if(Errors[i]==3){ + fprintf(stderr, "RDS Block %d Reception Error; uncorrectable error; no data correction possible",i+1); + } + } +} + +/* + * @brief Getting rds_data_t and Process its raw_data + * + * @param rds_data_t * : Pointer to latest RDS Data Structure + */ +void *Process_RDS_Words(void* rds_words){ + pthread_detach(pthread_self()); + + rds_data_t *Rds_STU = rds_words; + uint8_t *raw_data = Rds_STU->raw_data; + int8_t group_Ver = -1; + uint8_t GType0 = 0; + bool DI_Seg = 0; + bool M_S = 0; + bool TA = 0; + + //Parse 1st Section + bool DataAvailable = (raw_data[0] >> 7) & 1; + bool DataLoss = (raw_data[0] >> 6) & 1 == 1; + bool DataAvailType = (raw_data[0] >> 5) & 1 == 0; + bool GroupType = (raw_data[0] >> 4) & 1; + bool SyncStatus = (raw_data[0] >> 1) & 1; + + //Parse Last Section(Error Codes) + uint8_t Error_A = raw_data[10] >> 6; + uint8_t Error_B = raw_data[10] >> 4 & 3; + uint8_t Error_C = raw_data[10] >> 2 & 3; + uint8_t Error_D = raw_data[10] & 3; + uint8_t Errors[]={Error_A,Error_B,Error_C,Error_D}; + + //Inform user about Error Blocks Status Codes + Check_RDS_Error(Errors); + + if(Error_A==0){ + //Bytes 2 and 3 are inside Block A + //raw_data[2]and raw_data[3] Contains PI Code + Rds_STU->PICode=Convert8bto16b(&raw_data[2]); + } + else{ + fprintf(stderr, "Error_A=%d",Error_A); + } + + bool GTypeVer=GType0; + uint16_t GType=raw_data[4]>>4; + //Bytes 4 and 5 are inside Block B + if(Error_B==0){ + GTypeVer=raw_data[4]>>3 & 1; + GType=raw_data[4]>>4; + Rds_STU->TrafficProgram=raw_data[4]>>2&1; + Rds_STU->PTY_Code= (raw_data[4] & 3) << 3 | raw_data[5] >> 5; + } + + //Position Of Character + uint8_t CharPos=0; + + //Extract Data based on Group Type values + switch (GType) + { + case 0: + { + if(Error_B==0) + { + CharPos = raw_data[5] & 3; + + Rds_STU->TrafficAnnouncement = raw_data[5] >> 4 & 1; + Rds_STU->Music_Speech = raw_data[5] >> 3 & 1; + Rds_STU->DI_Seg = (raw_data[5] >> 2 & 1) * (2 ^ (3 - CharPos)); + } + + if(Error_C==0) + { + //Group Type 0A + if (GType==0) + { + Extract_Alt_Freqs(raw_data,Rds_STU); + } + + //Group Type 0B + else + { + Rds_STU->PICode=Convert8bto16b(&raw_data[6]); + } + } + + if(Error_D == 0 && Error_B == 0) + { + if(raw_data[8] != 0x7f) + { + Rds_STU->PS_Name[CharPos*2] = raw_data[8]; + } + else + { + Rds_STU->PS_Name[CharPos*2] = (char)'\0'; + } + if(raw_data[9] != 0x7f) + { + Rds_STU->PS_Name[CharPos*2+1] = raw_data[9]; + } + else + { + Rds_STU->PS_Name[CharPos*2+1] = (char)'\0'; + } + } + } + break; + case 1: + { + //Group Type 1A + if(GTypeVer == 0) + { + if(Error_D == 0) + { + Rds_STU->Day = raw_data[8] >> 3; + Rds_STU->Hour = raw_data[8] >> 3; + Rds_STU->Min = ((raw_data[8] & 7) << 2) | (raw_data[9] >> 6) ; + } + } + } + break; + case 2: + { + //Group Type 2A: + if(GTypeVer == 0) + { + uint8_t Text_pos = raw_data[5] & 15; + + if(Error_B == 0 && Error_C == 0) + { + + if(raw_data[6] !=0x7f && raw_data[6] != '\n') + { + Rds_STU->RT[Text_pos*4] = raw_data[6]; + } + else{ + Rds_STU->RT[Text_pos*4] = (char)'\0'; + } + if(raw_data[7]!=0x7f&&raw_data[7]!='\n') + { + Rds_STU->RT[Text_pos*4+1] = raw_data[7]; + } + else + { + Rds_STU->RT[Text_pos*4+1] = (char)'\0'; + } + } + if(Error_B == 0 && Error_D == 0) + { + if(raw_data[8] != 0x7f && raw_data[8] != '\n') + { + Rds_STU->RT[Text_pos*4+2] = raw_data[8]; + } + else{ + Rds_STU->RT[Text_pos*4+2] = (char)'\0'; + } + if(raw_data[9] != 0x7f && raw_data[9] != '\n') + { + Rds_STU->RT[Text_pos*4+3] = raw_data[9]; + } + else + { + Rds_STU->RT[Text_pos*4+3] = (char)'\0'; + } + } + } + + //Group Type 2B: + else{ + if(Error_B==0 && Error_D==0) + { + //Clear All Radio Text if flag was changed + if(raw_data[5] >> 4 & 1 != Rds_STU->Text_Changed) + { + memcpy(Rds_STU->RT, _Temp , 64); + } + + uint8_t Text_pos = raw_data[5] & 15; + if(raw_data[8] != 0x7f && raw_data[8] != '\n') + { + + Rds_STU->RT[Text_pos*2] = raw_data[8]; + } + else{ + Rds_STU->RT[Text_pos*2] = (char)'\0'; + } + if(raw_data[9] != 0x7f && raw_data[9] != '\n') + { + Rds_STU->RT[Text_pos*2+1] = raw_data[9]; + } + else + { + Rds_STU->RT[Text_pos*2+1] = (char)'\0'; + } + } + } + } + break; + case 4: + { + //Group Type 4A + if(GTypeVer == 0) + { + if(Error_B == 0 && Error_C == 0 && Error_D == 0) + { + //Following caclulations are based on RDS Standard + uint32_t Modified_Julian_Day = ((raw_data[5] & 3) << 15) | (raw_data[6] << 7) | (raw_data[7]>>1); + int y2 = (int)((((double)Modified_Julian_Day)-15078.2)/365.25); + int m2 = (int)((((double)Modified_Julian_Day)-14956.1-((double)y2*365.25))/30.6001); + int d2 = (double)Modified_Julian_Day-14956-(int)(y2*365.25)-(int)(m2*30.6001); + int k = 0; + + if(m2 == 14 || m2 == 15) + { + k = 1; + } + + Rds_STU->Day = d2; + Rds_STU->Month = m2 - 1 + k * 12; + Rds_STU->Year = y2 + k; + + uint8_t UTCHour = ((raw_data[7] & 1) << 4) | (raw_data[8] >> 4); + uint8_t UTCMinute = ((raw_data[8] & 15) << 2) | (raw_data[9] >> 6); + + //Check Negative Offset + bool NegOff = raw_data[9] & 32; + uint8_t LocTimeOff = raw_data[9] & 31; + + if(!NegOff) + { + Rds_STU->Min = UTCMinute + LocTimeOff % 2; + while(UTCMinute > 60) + { + UTCHour++; + UTCMinute = UTCMinute - 60; + } + + Rds_STU->Hour = UTCHour + LocTimeOff / 2; + while(Rds_STU->Hour > 24){ + Rds_STU->Hour = Rds_STU->Hour - 24; + } + + + } + else{ + Rds_STU->Min = UTCMinute + LocTimeOff % 2; + while(UTCMinute < 0) + { + UTCHour--; + UTCMinute = UTCMinute + 60; + } + Rds_STU->Hour = UTCHour + LocTimeOff / 2; + while(Rds_STU->Hour<0) + { + Rds_STU->Hour = Rds_STU->Hour + 24; + + } + } + } + } + //Group Type 4B + else + { + printf("Groupe Type 4B are not supported yet"); + } + } + case 8: + { + printf("Groupe Type 8A and 8B are not supported yet"); + + } + case 10: + { + printf("Groupe Type 10A and 10B are not supported yet"); + /* + if(Error_B == 0){ + uint8_t pos = 0; + pos=(raw_data[5] & 1) * 4; + + if(Error_C == 0){ + Rds_STU->PTYN[pos] = raw_data[6]; + Rds_STU->PTYN[pos+1] = raw_data[7]; + Rds_STU->PTYN_Size = pos + 2; + } + if(Error_D == 0){ + Rds_STU->PTYN[pos+2] = raw_data[8]; + Rds_STU->PTYN[pos+3] = raw_data[9]; + Rds_STU->PTYN_Size = pos + 4; + } + } + /**/ + } + break; + default: + fprintf(stderr, "Unsupported Group %d",GType); + break; + } + + if(!DataAvailable) + { + fprintf(stderr, "RDS Data is not available"); + } + + if(DataLoss) + { + fprintf(stderr, "previous data was not read, replaced by newer data"); + } + + if(GroupType == 0) + { + group_Ver = 0; + } + else + { + group_Ver = 1; + } + + if(!SyncStatus) + { + fprintf(stderr, " RDS decoder not synchronized; no RDS data found"); + } + + if(GroupType != GTypeVer) + { + fprintf(stderr, "Version is not Correct?"); + } +} + +/* +module 32 FM +cmd 131 get RDS data + +index +1 status + [ 15:0 ] + FM RDS reception status. + [15] = dta availableflag + 0 = no data + 1 = data available + [14] = data loss flag + 0 = no data loss + 1 = previose data not read, replaced by newer data. + [13] = data available type + 0 = group data; continuos operation. + 1 = first PI data;data with PI code following decoder sync. + [12] = groupe type. + 0 = type A; A-B-C-D group (with PI code in the block A) + 1 = type B; A-B-C'-D group (with PI code in the block A and C') + [ 8:0 ] reserved + +2 A_Block + [ 15:0 ] = A block data + +3 B_Block + [ 15:0 ] = B block data + +4 C_Block + [ 15:0 ] = C block data + +5 D_Block + [ 15:0 ] = D block data + +6 dec error + [ 15:0 ] + error code determined by decoder + [ 15:14 ] = A block error + [ 13:12 ] = B block error + [ 11:10 ] = C block error + [ 9:8 ] = D block error + 0 = no error found + 1 = small error, correctable. data is corrected. + 2 = larg error, correctable. data is corrected. + 3 = uncorrectable error. + [ 7:0 ] = reserved. +*/ +/* + * @brief Get RDS Data fron Tef-665 + * + * Getting RDS Data From I2C and Calling a thread to process raw data + * + * @param i2c_file_desc : I2C File Descriptor + * @param Rds_STU : RDS Data Structure + * + */ +int tef665x_get_rds_data(uint32_t i2c_file_desc, rds_data_t *Rds_STU) +{ + + int ret; + uint8_t buf[12]; + + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM, + TEF665X_Cmd_Get_RDS_Data, + buf, sizeof(buf)); + + if(ret == 1) { + memcpy(Rds_STU->raw_data,buf,12); + pthread_t t0; + pthread_create(&t0, NULL,Process_RDS_Words ,(void *) (Rds_STU)); + } + return ret; +} + +void Clear_RDS_Data(rds_data_t *Rds_STU){ + + Rds_STU-> Text_Changed=0; + Rds_STU-> TrafficAnnouncement=0; + Rds_STU-> TrafficProgram=0; + Rds_STU-> Music_Speech=0; + + Rds_STU-> DI_Seg=0; + Rds_STU-> PTY_Code=0; + Rds_STU-> Num_AlterFreq=0; + Rds_STU->PTYN_Size=0; + + Rds_STU-> Day=0; + Rds_STU-> Month=0; + Rds_STU-> Year=0; + + Rds_STU-> Hour=0; + Rds_STU-> Min=0; + + /*memcpy(Rds_STU->Alternative_Freq,_Temp,25);/**/ + for(uint8_t i=0;i<25;i++){ + Rds_STU->Alternative_Freq[i]=0; + } + memcpy(Rds_STU-> PS_Name,_Temp,8); + Rds_STU-> PS_Name[0]='\0'; + memcpy(Rds_STU-> RT,_Temp,64); + Rds_STU-> RT[0]='\0'; + memcpy(Rds_STU-> PTYN,_Temp,8); + Rds_STU-> PTYN[0]='\0'; + + Rds_STU-> PICode=0; + Rds_STU->Alternative_Freq_Counter=0; + Rds_STU->PTYN_Size=0; +} + +//Check if RDS is available +int tef665x_get_rds_status(uint32_t i2c_file_desc, uint16_t *status) +{ + int ret = 0; + uint8_t buf[2]; + + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM, + TEF665X_Cmd_Get_RDS_Status, + buf, sizeof(buf)); + + if(ret == 1){ + status[0] =buf[0]; + status[1] =buf[1]; + } + + return ret; +} + +static int tef665x_wait_active(uint32_t i2c_file_desc) +{ + TEF665x_STATE status; + //usleep(50000); + if(SET_SUCCESS == appl_get_operation_status(i2c_file_desc, &status)) + { + printf("got status", 1); + if((status != eDevTEF665x_Boot_state) && (status != eDevTEF665x_Idle_state)) + { + printf("active status", 1); + + if(SET_SUCCESS == tef665x_para_load(i2c_file_desc)) + { + _debug("parameters loaded", 1); + } + else + { + _debug("parameters not loaded", 0); + return 0; + } + + if(current_band == RADIO_BAND_FM){ + FM_tune_to(i2c_file_desc, eAR_TuningAction_Preset, current_fm_frequency / 10000);// tune to min + } else { + AM_tune_to(i2c_file_desc, eAR_TuningAction_Preset, current_am_frequency / 1000);// tune to min + } + + if(SET_SUCCESS == audio_set_mute(i2c_file_desc, 1))//unmute=0 + { + _debug("muted", 1); + } + else + { + _debug("not muted", 0); + return 0; + } + + // //if(SET_SUCCESS == audio_set_volume(i2c_file_desc, 35))//set to -10db + // { + // _debug("set vol to", 25); + // } + + // else + // { + // _debug("vol not set", 0); + // return 0; + // } + return 1; + } + } + + return 0; +} + +static void tef665x_chip_init(int i2c_file_desc) +{ + if(1 == tef665x_power_on(i2c_file_desc)) _debug("tef665x_power_on", 1); + usleep(50000); + if(1 == tef665x_boot_state(i2c_file_desc)) _debug("tef665x_boot_state", 1); + usleep(100000); + if(1 == tef665x_idle_state(i2c_file_desc)) _debug("tef665x_idle_state", 1); + usleep(200000); + if(1 == tef665x_wait_active(i2c_file_desc)) _debug("tef665x_wait_active", 1); + //if you want to use analog output comment below command, or pass 1 to it. + if(SET_SUCCESS != tef665x_audio_set_ana_out(i2c_file_desc, TEF665X_Cmd_Set_Output_signal_dac, 0)) + { + _debug("Set DAC to OFF failed", 0); + //return 0; + } + + if(SET_SUCCESS != tef665x_set_output_src(i2c_file_desc, TEF665X_Cmd_Set_Output_signal_i2s, + TEF665X_Cmd_Set_Output_source_aProcessor)) + { + _debug("Set output failed", 0); + //return 0; + } + //this is needed to use digital output + if(SET_SUCCESS != tef665x_audio_set_dig_io(i2c_file_desc, TEF665X_AUDIO_CMD_22_SIGNAL_i2s1, + TEF665X_AUDIO_CMD_22_MODE_voltage, + TEF665X_AUDIO_CMD_22_FORMAT_16, + TEF665X_AUDIO_CMD_22_OPERATION_slave, + TEF665X_AUDIO_CMD_22_SAMPLERATE_48K)) + { + _debug("Setup i2s failed", 0); + //return 0; + } + + +} + + +static int i2c_init(const char *i2c, int state, uint32_t *i2c_file_desc) +{ + int fd = 0, t; + + if(state == _open) + { + fd = open(i2c, O_RDWR); + + if(fd < 0) + { + _debug("could not open %s", i2c); + return fd; + } + + t = ioctl(fd, I2C_SLAVE, I2C_ADDRESS); + if (t < 0) + { + _debug("could not set up slave ", 0); + return t; + } + *i2c_file_desc = fd; + } + else + { + close(*i2c_file_desc); + } + + return 0; +} + +static void tef665x_start(void) +{ + int ret; + + if(!initialized) + return; + + _debug("file_desc ", file_desc); + + audio_set_mute(file_desc, 0); + + if(!running) { + + // Start pipeline + ret = gst_element_set_state(pipeline, GST_STATE_PLAYING); + _debug("gst_element_set_state to play", ret); + running = true; + } + } + +/* + * @brief Send_Rds_Result to rds subscribers + * + * @param rds_data_t : a rds message structure + * @return The JsonObject of rds info + */ +void *Send_Rds_Result(rds_data_t* RDS_Message){ + //Kill the thread when it was over + pthread_detach(pthread_self()); + + json_object *ret_json; + json_object *Alternative_Freqs; + + + ret_json = json_object_new_object(); + Alternative_Freqs=json_object_new_array(); + + + + for(uint8_t af=0 ; af<25 ; af++) + { + if(RDS_Message->Alternative_Freq[af]!=NULL&&RDS_Message->Alternative_Freq[af]!=0) + { + json_object_array_add(Alternative_Freqs,json_object_new_int(RDS_Message->Alternative_Freq[af])); + } + } + + //Prepare JSon Object + json_object_object_add(ret_json, "name" , json_object_new_string(RDS_Message->PS_Name)); + json_object_object_add(ret_json, "radiotext" , json_object_new_string(RDS_Message->RT)); + json_object_object_add(ret_json, "alternatives" , (Alternative_Freqs)); + json_object_object_add(ret_json, "minute" , json_object_new_int (RDS_Message->Min)); + json_object_object_add(ret_json, "hour" , json_object_new_int (RDS_Message->Hour)); + json_object_object_add(ret_json, "day" , json_object_new_int (RDS_Message->Day)); + json_object_object_add(ret_json, "month" , json_object_new_int (RDS_Message->Month)); + json_object_object_add(ret_json, "year" , json_object_new_int (RDS_Message->Year)); + json_object_object_add(ret_json, "pi" , json_object_new_int (RDS_Message->PICode)); + json_object_object_add(ret_json, "pty" , json_object_new_int (RDS_Message->PTY_Code)); + json_object_object_add(ret_json, "ta" , json_object_new_int (RDS_Message->TrafficAnnouncement)); + json_object_object_add(ret_json, "tp" , json_object_new_int (RDS_Message->TrafficProgram)); + json_object_object_add(ret_json, "ms" , json_object_new_int (RDS_Message->Music_Speech)); + + //Send JsonObject to rds Subscribers + if(rds_callback){ + rds_callback(ret_json); + } + + return ret_json; +} + +/* + * @brief Create an infinit Loop to get RDS Packets and Send them to subscribers + * + * RDS data will be available every 85 ms; + * Currently availability of RDS is checkes by tef665x_get_rds_status function + * + * @param rds_data_t : a rds message structure + * @return The JsonObject of latest rds info + */ +void *Get_RDS_Packets(rds_data_t *StuRDS){ + pthread_detach(pthread_self()); + uint32_t fd = 0; + + int ret = i2c_init(I2C_DEV, _open, &fd); + uint8_t status[2]; + + ret=tef665x_get_rds_status(fd, status); + + if(ret==1){ + if(status[0]>7){ + //RDS must update all the time, except the times we are scanning or changing frequency + //when scanning or changing frequncy, we unlock RDS_Mutex and it will end this thread + for (int ref_cnt=0; pthread_mutex_trylock(&RDS_Mutex) != 0;ref_cnt++){ + //Get New RDS Data + tef665x_get_rds_data(fd,StuRDS); + + //Send RDS Data after rexeiving 22 Packets + if(ref_cnt%22==0){ + pthread_t t0; + pthread_create(&t0, NULL,Send_Rds_Result ,(void *) (&RDS_Message)); + } + + //Wait for 85ms before reading available rds data + usleep(85000); + } + pthread_mutex_unlock (&RDS_Mutex); + } + + else{ + fprintf(stderr, "RDS is Not Valid0"); + } + } + + else{ + fprintf(stderr, "RDS is Not Valid1"); + } + i2c_init(I2C_DEV, _close, &fd); +} + +/* + * @brief Free Allocated Memory for Scan Thread and Unlock Scan Mutex + * + * @param scan_data : scan_data_t contains direction of search and callback + * for station_found event + */ +static void scan_cleanup_handler(void *scan_data) +{ + pthread_mutex_unlock(&scan_mutex); + free(scan_data); + scanning=false; +} + +/* + * @brief Create a loop to scan from current frequency to find a valid frequency + * + * If found a valid frequency, send station_found to subscribers and break the loop; + * If the direction was forward and reach the maximum frequency, Search Must continue + * from minimum frequency + * If the direction was backward and reach the minimum frequency, Search Must continue + * from maximum frequency + * If no valid frequency found, scan will stop at the begining point + * If stop_scan called, scan_mutex will be unlocked and thread must be stopped + * + * @param scan_data : scan_data_t contains direction of search and callback + * for station_found event + */ +void *scan_frequencies(scan_data_t* scan_data){ + pthread_cleanup_push(scan_cleanup_handler, (void *)scan_data); + + //Kill the thread when it was over + pthread_detach(pthread_self()); + + //Set Scan Flag + scanning=true; + + //"Unlock Mutex" Flag + bool unlck_mtx = false; + uint32_t new_freq = 0; + uint32_t init_freq = 0; + + init_freq = current_band == RADIO_BAND_FM ? current_fm_frequency : current_am_frequency; + + //First Mute Current Frequency + tef665x_search_frequency(init_freq); + + //freq_step will be negative if direction was backward and positive if direction was forward + uint32_t freq_step = tef665x_get_frequency_step(current_band) * (scan_data->direction==RADIO_SCAN_FORWARD?1:-1); + + //Continue loop until reaching the initial frequency + while(init_freq != new_freq) + { + //Check Status of scan_mutex + unlck_mtx = pthread_mutex_trylock(&scan_mutex)==0; + + //break the loop if scan_mutex was unlocked + if(unlck_mtx) + { + break; + } + + if(current_band==RADIO_BAND_FM) + { + new_freq = current_fm_frequency + freq_step; + + //Searching Step is 100 KHz + //If frequency reached to initial point, the search must stop + while (((new_freq/10000)%10)!=0 && init_freq != new_freq){ + new_freq = new_freq+freq_step; + } + } + else + { + new_freq = current_am_frequency + freq_step; + } + + //Set Freq to min when it was more than Max Value + if(new_freq>tef665x_get_max_frequency(current_band)) + { + new_freq=tef665x_get_min_frequency(current_band); + } + + //Set Freq to max when it was less than Min Value + if(new_freq260 /*&& ->.usn<100/**/) || quality.bandw>1200) + { + //Send frequency value + if(scan_data->callback) + { + scan_data->callback(new_freq,NULL); + } + + break; + } + usleep(100); + } + + //Calling last pthread_cleanup_push + pthread_cleanup_pop(1); +} + +/* + * @brief Get latest RDS Info and send rds jsonObject as response + * + * @return: cast rds_json(json_object) to (char *) and return result as response + */ +static char *tef665x_get_rds_info(void) +{ + //If Getting RDS Result wasn't already started, Start it now + if(pthread_mutex_trylock(&RDS_Mutex) == 0) + { + //AFB_DEBUG("Create the thread."); + pthread_create(&rds_thread, NULL,Get_RDS_Packets ,(void *) (&RDS_Message)); + } + + //Send latest available rds data + json_object *rds_json=(json_object *)Send_Rds_Result(&RDS_Message); + + //Convert json_object to char* and send it as response + return (char *)json_object_to_json_string(rds_json); +} + +/* + * @brief Get latest quality Info and send quality parameters as response + * + * module 32/33 FM/AM + * cmd 129 Get_Quality_Data + * + * index + * 1 status + * [ 15:0 ] + * quality detector status + * [15] = AF_update flag + * 0 = continuous quality data with time stamp + * 1 = AF_Update sampled data + * [14:10] = reserved + * 0 = no data loss + * 1 = previose data not read, replaced by newer data. + * [9:0] = quality time stamp + * 0 = tuning is in progress, no quality data available + * 1 … 320 (* 0.1 ms) = 0.1 … 32 ms after tuning, + * quality data available, reliability depending on time stamp + * 1000 = > 32 ms after tuning + * quality data continuously updated + * + * 2 level + * [ 15:0 ] (signed) + * level detector result + * -200 … 1200 (0.1 * dBuV) = -20 … 120 dBuV RF input level + * actual range and accuracy is limited by noise and agc + * + * 3 usn + * [ 15:0 ] = noise detector + * FM ultrasonic noise detector + * 0 … 1000 (*0.1 %) = 0 … 100% relative usn detector result + * + * 4 wam + * [ 15:0 ] = radio frequency offset + * FM ‘wideband-AM’ multipath detector + * 0 … 1000 (*0.1 %) = 0 … 100% relative wam detector result + * + * 5 offset + * [ 15:0 ] (signed) = radio frequency offset + * -1200 … 1200 (*0.1 kHz) = -120 kHz … 120 kHz radio frequency error + * actual range and accuracy is limited by noise and bandwidth + * + * 6 bandwidth + * [ 15:0 ] = IF bandwidth + * FM 560 … 3110 [*0.1 kHz] = IF bandwidth 56 … 311 kHz; narrow … wide + * AM 30 … 80 [*0.1 kHz] = IF bandwidth 3 … 8 kHz; narrow … wide + * + * 7 modulation + * [ 15:0 ] = modulation detector + * FM 0 … 1000 [*0.1 %] = 0 … 100% modulation = 0 … 75 kHz FM dev. + * + * @return: cast station_quality_t pointer as response + * + */ + +static station_quality_t *tef665x_get_quality_info(void) +{ + uint32_t i2c_file_desc=0; + uint8_t data[14]; + + int ret = i2c_init(I2C_DEV, _open, &i2c_file_desc); + if(current_band==RADIO_BAND_FM) + { + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM, + TEF665X_Cmd_Get_Quality_Data, + data, sizeof(data)); + } + else + { + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_AM, + TEF665X_Cmd_Get_Quality_Data, + data, sizeof(data)); + } + i2c_init(I2C_DEV, _close, &i2c_file_desc); + + quality.af_update = data[0]&0b10000000; + quality.time_stamp = ((data[0]&0b00000011)<<8 | data[1]); + quality.rssi = (data[2] << 8 | data[3] ); + quality.usn = (data[4] << 8 | data[5] ); + quality.bandw = (data[10]<< 8 | data[11]); + + return &quality; +} + +/* + * @brief Start Scan + * + * @param radio_scan_direction_t direction which is the scan direction and can be + * RADIO_SCAN_FORWARD or RADIO_SCAN_BACKWARD + * @param radio_scan_callback_t callback which is the callback for sending result of search to + * station_found ecent subscribers + * @return void + */ +static void tef665x_scan_start(radio_scan_direction_t direction, + radio_scan_callback_t callback, + void *data) +{ + //Stop RDS if enabled + pthread_mutex_unlock (&RDS_Mutex); + + //Stop current scan: + if(scanning) + { + tef665x_scan_stop(); + } + + scan_data_t *inputs; + + //Clean RDS Message since frequency will change + Clear_RDS_Data(&RDS_Message); + usleep(10000); + + //AFB_DEBUG("check Mutex Condition"); + + //check if is there any activated search + if(pthread_mutex_trylock(&scan_mutex)==0&&!scanning) + { + //AFB_DEBUG("Start Scanning..."); + + inputs=malloc(sizeof(*inputs)); + if(!inputs) + return -ENOMEM; + + inputs->direction= direction; + inputs->callback= callback; + inputs->data=data; + + pthread_create(&scan_thread, NULL,scan_frequencies ,(void *) inputs); + } +} + +/* + * @brief Stop Scan + * + * By unlocking scan_mutex, Scan thread will be stopped safely and update scanning flag + * + * @return void + */ +static void tef665x_scan_stop(void) +{ + pthread_mutex_unlock(&scan_mutex); + while(scanning) + { + usleep(100); + //AFB_DEBUG(" Wait for unlocking scan Thread"); + } +} + +/* +module 32 / 33 FM / AM +cmd 133 Get_Signal_Status | status +index +1 status + [ 15:0 ] = Radio signal information + [15] = 0 : mono signal + [15] = 1 : FM stereo signal (stereo pilot detected) + + [14] = 0 : analog signal + [14] = 1 : digital signal (blend input activated by digital processor or control) + (TEF6659 only) +*/ +radio_stereo_mode_t tef665x_get_stereo_mode(void) +{ + uint32_t i2c_file_desc = 0; + int ret = i2c_init(I2C_DEV, _open, &i2c_file_desc); + uint8_t data[2]; + if(current_band==RADIO_BAND_FM){ + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_FM, + TEF665X_Cmd_Get_Signal_Status, + data, sizeof(data)); + } + else{ + ret = tef665x_get_cmd(i2c_file_desc, TEF665X_MODULE_AM, + TEF665X_Cmd_Get_Signal_Status, + data, sizeof(data)); + } + i2c_init(I2C_DEV, _close, &i2c_file_desc); + return data[0]>>7 ==1 ? RADIO_MODE_STEREO:RADIO_MODE_MONO; +} + +static void tef665x_stop(void) +{ + int ret; + GstEvent *event; + audio_set_mute(file_desc, 1); + + if(initialized && running) { + // Stop pipeline + running = false; + ret = gst_element_set_state(pipeline, GST_STATE_PAUSED); + _debug("gst_element_set_state to pause", ret); + + // Flush pipeline + // This seems required to avoidstatic stutters on starts after a stop + event = gst_event_new_flush_start(); + gst_element_send_event(GST_ELEMENT(pipeline), event); + event = gst_event_new_flush_stop(TRUE); + gst_element_send_event(GST_ELEMENT(pipeline), event); + } +} + +static int tef665x_probe() +{ + int rc; + + if(present) + return 0; + + rc = i2c_init(I2C_DEV, _open, &file_desc); + if(rc < 0) { + fprintf(stderr, "tef665x not present"); + return -1; + } + _debug("file_desc= ", file_desc); + + rc = appl_get_identification(file_desc); + if(rc != 1){ + fprintf(stderr, "no tef665x!"); + return -1; + } + + present = true; + return 0; +} + +static int tef665x_init() +{ + char gst_pipeline_str[GST_PIPELINE_LEN]; + int rc; + + if(!present) + return -1; + + if(initialized) + return 0; + + current_am_frequency = known_am_band_plans[am_bandplan].min; + current_fm_frequency = known_fm_band_plans[fm_bandplan].min; + + current_band = RADIO_BAND_AM; + + radio_powerSwitch(file_desc, 1); + + tef665x_chip_init(file_desc); + + // Initialize GStreamer + gst_init(NULL, NULL); + + // Use PipeWire output + // This pipeline is working on imx6solo, the important thing, up to now, is that it gets xrun error every few seconds. + // I believe it's related to wireplumber on imx6. + rc = snprintf(gst_pipeline_str, + GST_PIPELINE_LEN, + "alsasrc device=hw:1,0 ! audioconvert ! audioresample ! audio/x-raw, rate=48000, channels=2 \ + ! pipewiresink stream-properties=\"p,media.role=Multimedia\""); + + if(rc >= GST_PIPELINE_LEN) { + fprintf(stderr, "pipeline string too long"); + return -1; + } + printf("pipeline: , %s\n", gst_pipeline_str); + + pipeline = gst_parse_launch(gst_pipeline_str, NULL); + if(!pipeline) { + fprintf(stderr, "pipeline construction failed!"); + return -1; + } + + // Start pipeline in paused state + rc = gst_element_set_state(pipeline, GST_STATE_PAUSED); + _debug("gst_element_set_state to pause (at the begining)", rc); + + rc = gst_bus_add_watch(gst_element_get_bus(pipeline), (GstBusFunc) handle_message, NULL); + _debug("gst_bus_add_watch rc", rc); + + //Initialize Mutex Lock for Scan and RDS + pthread_mutex_init(&scan_mutex, NULL); + pthread_mutex_init (&RDS_Mutex, NULL); + + initialized = true; + + tef665x_start(); + return 0; +} + +static void tef665x_set_frequency_callback(radio_freq_callback_t callback, + void *data) +{ + freq_callback = callback; + freq_callback_data = data; +} +static void tef665x_set_rds_callback(radio_rds_callback_t callback) +{ + rds_callback = callback; + +} +static void tef665x_set_output(const char *output) +{ +} + +static radio_band_t tef665x_get_band(void) +{ + _debug("band", current_band); + return current_band; +} + +static void tef665x_set_band(radio_band_t band) +{ + uint32_t fd = 0; + int ret = i2c_init(I2C_DEV, _open, &fd); + + _debug("i2c_init ret value", ret); + + if(band == RADIO_BAND_FM){ + current_band = band; + FM_tune_to(fd, eAR_TuningAction_Preset, current_fm_frequency / 10000); + } else { + current_band = band; + AM_tune_to(fd, eAR_TuningAction_Preset, current_am_frequency / 1000); + } + + i2c_init(I2C_DEV, _close, &fd); + + _debug("band", current_band); +} + +static uint32_t tef665x_get_frequency(void) +{ + if(current_band == RADIO_BAND_FM){ + return current_fm_frequency; + } else { + return current_am_frequency; + } +} + +static void tef665x_set_alternative_frequency(uint32_t frequency) +{ + uint32_t fd = 0; + int ret = i2c_init(I2C_DEV, _open, &fd); + + if(current_band == RADIO_BAND_FM) + { + FM_tune_to(fd, eAR_TuningAction_AF_Update, frequency / 10000); + } + + i2c_init(I2C_DEV, _close, &fd); +} + +static void tef665x_set_frequency(uint32_t frequency) +{ + uint32_t fd = 0; + + if(!initialized) + return; + + if(scanning) + return; + + if(current_band == RADIO_BAND_FM) { + if(frequency < known_fm_band_plans[fm_bandplan].min || + frequency > known_fm_band_plans[fm_bandplan].max ) { + _debug("invalid FM frequency", frequency); + return; + } + } else { + if(frequency < known_am_band_plans[am_bandplan].min || + frequency > known_am_band_plans[am_bandplan].max ) { + _debug("invalid AM frequency", frequency); + return; + } + } + + int ret = i2c_init(I2C_DEV, _open, &fd); + + if(current_band == RADIO_BAND_FM){ + current_fm_frequency = frequency; + _debug("frequency set to FM :", frequency); + FM_tune_to(fd, eAR_TuningAction_Preset, frequency / 10000); + } else { + current_am_frequency = frequency; + _debug("frequency set to AM :", frequency); + AM_tune_to(fd, eAR_TuningAction_Preset, frequency / 1000); + } + i2c_init(I2C_DEV, _close, &fd); + + //Send Frequency data to subscribers + if(freq_callback) + { + freq_callback(frequency, freq_callback_data); + } + + //Start RDS if the band was FM + if(current_band==RADIO_BAND_FM){ + //Unlock Mutex + pthread_mutex_unlock (&RDS_Mutex); + + //Clean RDS Message + Clear_RDS_Data(&RDS_Message); + + //Wait to make sure rds thread is finished + usleep(300000); + + //Restart RDS + tef665x_get_rds_info(); + } +} + +/* + * @brief Tune to a frequency in search mode + * + * Tune to new program and stay muted + * Sending new frequency to subscribers + * + * @param uint32_t which is the frequecy to be tuned + * @return void + */ +static void tef665x_search_frequency(uint32_t frequency) +{ + uint32_t fd = 0; + int ret = i2c_init(I2C_DEV, _open, &fd); + if(current_band == RADIO_BAND_FM) + { + current_fm_frequency = frequency; + _debug("frequency set to FM :", frequency); + FM_tune_to(fd, eAR_TuningAction_Search, frequency / 10000); + + } + else + { + current_am_frequency = frequency; + _debug("frequency set to AM :", frequency); + AM_tune_to(fd, eAR_TuningAction_Search, frequency / 1000); + } + i2c_init(I2C_DEV, _close, &fd); + + //Send Frequency data to subscribers + if(freq_callback) + { + freq_callback(frequency, freq_callback_data); + } +} + +static int tef665x_band_supported(radio_band_t band) +{ + if(band == RADIO_BAND_FM || band == RADIO_BAND_AM) + return 1; + return 0; +} + +static uint32_t tef665x_get_min_frequency(radio_band_t band) +{ + if(band == RADIO_BAND_FM) { + return known_fm_band_plans[fm_bandplan].min; + } else { + return known_am_band_plans[am_bandplan].min; + } +} + +static uint32_t tef665x_get_max_frequency(radio_band_t band) +{ + if(band == RADIO_BAND_FM) { + return known_fm_band_plans[fm_bandplan].max; + } else { + return known_am_band_plans[am_bandplan].max; + } +} + +static uint32_t tef665x_get_frequency_step(radio_band_t band) +{ + uint32_t ret = 0; + + switch (band) { + case RADIO_BAND_AM: + ret = known_am_band_plans[am_bandplan].step; + break; + case RADIO_BAND_FM: + ret = known_fm_band_plans[fm_bandplan].step; + break; + default: + break; + } + return ret; +} + +radio_impl_ops_t tef665x_impl_ops = { + .name = "TEF665x", + .probe = tef665x_probe, + .init = tef665x_init, + .start = tef665x_start, + .stop = tef665x_stop, + .set_output = tef665x_set_output, + .get_frequency = tef665x_get_frequency, + .set_frequency = tef665x_set_frequency, + .set_frequency_callback = tef665x_set_frequency_callback, + .set_rds_callback=tef665x_set_rds_callback, + .get_band = tef665x_get_band, + .set_band = tef665x_set_band, + .band_supported = tef665x_band_supported, + .get_min_frequency = tef665x_get_min_frequency, + .get_max_frequency = tef665x_get_max_frequency, + .get_frequency_step = tef665x_get_frequency_step, + .scan_start = tef665x_scan_start, + .scan_stop = tef665x_scan_stop, + .get_stereo_mode = tef665x_get_stereo_mode, + //.set_stereo_mode = tef665x_set_stereo_mode,*/ + .get_rds_info = tef665x_get_rds_info, + .get_quality_info = tef665x_get_quality_info, + .set_alternative_frequency = tef665x_set_alternative_frequency +}; diff --git a/src/radio_impl_tef665x.h b/src/radio_impl_tef665x.h new file mode 100644 index 0000000..a95fd99 --- /dev/null +++ b/src/radio_impl_tef665x.h @@ -0,0 +1,23 @@ +/* + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ +#ifndef _RADIO_IMPL_TEF665X_H +#define _RADIO_IMPL_TEF665X_H + +#include "radio_impl.h" + +extern radio_impl_ops_t tef665x_impl_ops; + + +#endif /* _RADIO_IMPL_TEF665X_H */ + diff --git a/src/radio_output.h b/src/radio_output.h new file mode 100644 index 0000000..bfa13cd --- /dev/null +++ b/src/radio_output.h @@ -0,0 +1,31 @@ +/* + * Copyright (C) 2017 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef _RADIO_OUTPUT_H +#define _RADIO_OUTPUT_H + +int radio_output_open(void); + +int radio_output_start(void); + +void radio_output_stop(void); + +void radio_output_close(void); + +ssize_t radio_output_write(void *buf, int len); + +#endif /* _RADIO_OUTPUT_H */ + diff --git a/src/radio_output_gstreamer.c b/src/radio_output_gstreamer.c new file mode 100644 index 0000000..e098d2d --- /dev/null +++ b/src/radio_output_gstreamer.c @@ -0,0 +1,231 @@ +/* + * Copyright (C) 2018, 2019 Konsulko Group + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#include +#include +#include +#include +#include +#include + +#include "radio_output.h" +#include "rtl_fm.h" + +// Flag to enable using GST_STATE_READY instead of GST_STATE_PAUSED to trigger +// Wireplumber policy mechanism. Hopefully temporary. +#define WIREPLUMBER_WORKAROUND + +// Output buffer +static unsigned int extra; +static int16_t extra_buf[1]; +static unsigned char *output_buf; + +// GStreamer state +static GstElement *pipeline, *appsrc; +static bool running; + +int radio_output_open() +{ + unsigned int rate = 24000; + GstElement *queue, *convert, *sink, *resample; + char *p; + + if(pipeline) + return 0; + + // Initialize GStreamer +#ifdef DEBUG + unsigned int argc = 2; + char **argv = malloc(2 * sizeof(char*)); + argv[0] = strdup("test"); + argv[1] = strdup("--gst-debug-level=5"); + gst_init(&argc, &argv); +#else + gst_init(NULL, NULL); +#endif + + // Setup pipeline + // NOTE: With our use of the simple buffer pushing mode, there seems to + // be no need for a mainloop, so currently not instantiating one. + pipeline = gst_pipeline_new("pipeline"); + appsrc = gst_element_factory_make("appsrc", "source"); + queue = gst_element_factory_make("queue", "queue"); + convert = gst_element_factory_make("audioconvert", "convert"); + resample = gst_element_factory_make("audioresample", "resample"); + sink = gst_element_factory_make("pipewiresink", "sink"); + if(!(pipeline && appsrc && queue && convert && resample && sink)) { + fprintf(stderr, "pipeline element construction failed!\n"); + } + g_object_set(G_OBJECT(appsrc), "caps", + gst_caps_new_simple("audio/x-raw", + "format", G_TYPE_STRING, "S16LE", + "rate", G_TYPE_INT, rate, + "channels", G_TYPE_INT, 2, + "layout", G_TYPE_STRING, "interleaved", + "channel-mask", G_TYPE_UINT64, 3, + NULL), NULL); + gst_util_set_object_arg(sink, "stream-properties", "p,media.role=Multimedia"); + + if((p = getenv("RADIO_OUTPUT"))) { + fprintf(stderr, "Using output device %s\n", p); + g_object_set(sink, "device", p, NULL); + } + gst_bin_add_many(GST_BIN(pipeline), appsrc, queue, convert, resample, sink, NULL); + gst_element_link_many(appsrc, queue, convert, resample, sink, NULL); + //gst_bin_add_many(GST_BIN(pipeline), appsrc, convert, resample, sink, NULL); + //gst_element_link_many(appsrc, convert, resample, sink, NULL); + + // Set up appsrc + // NOTE: Radio seems like it matches the use case the "is-live" property + // is for, but setting it seems to require a lot more work with + // respect to latency settings to make the pipeline work smoothly. + // For now, leave it unset since the result seems to work + // reasonably well. + g_object_set(G_OBJECT(appsrc), + "stream-type", 0, + "format", GST_FORMAT_TIME, + NULL); + + // Start pipeline in paused state +#ifdef WIREPLUMBER_WORKAROUND + gst_element_set_state(pipeline, GST_STATE_READY); +#else + gst_element_set_state(pipeline, GST_STATE_PAUSED); +#endif + + // Set up output buffer + extra = 0; + output_buf = malloc(sizeof(unsigned char) * RTL_FM_MAXIMUM_BUF_LENGTH); + + return 0; +} + +int radio_output_start(void) +{ + int rc = 0; + + if(!pipeline) { + rc = radio_output_open(); + if(rc) + return rc; + } + + // Start pipeline + running = true; + gst_element_set_state(pipeline, GST_STATE_PLAYING); + + return rc; +} + +void radio_output_stop(void) +{ + GstEvent *event; + + if(pipeline && running) { + // Stop pipeline + running = false; +#ifdef WIREPLUMBER_WORKAROUND + gst_element_set_state(pipeline, GST_STATE_READY); +#else + gst_element_set_state(pipeline, GST_STATE_PAUSED); +#endif + + // Flush pipeline + // This seems required to avoid stutters on starts after a stop + event = gst_event_new_flush_start(); + gst_element_send_event(GST_ELEMENT(pipeline), event); + event = gst_event_new_flush_stop(TRUE); + gst_element_send_event(GST_ELEMENT(pipeline), event); + } +} + +void radio_output_suspend(int state) +{ + // Placeholder +} + +void radio_output_close(void) +{ + radio_output_stop(); + + if(pipeline) { + // Tear down pipeline + gst_element_set_state(pipeline, GST_STATE_NULL); + gst_object_unref(GST_OBJECT(pipeline)); + pipeline = NULL; + running = false; + } + + free(output_buf); + output_buf = NULL; +} + +ssize_t radio_output_write(void *buf, int len) +{ + ssize_t rc = -EINVAL; + size_t n = len; + int samples = len / 2; + unsigned char *p; + GstBuffer *buffer; + GstFlowReturn ret; + + if(!(pipeline && buf)) { + return rc; + } + + // Don't bother pushing samples if output hasn't started + if(!running) + return 0; + + /* + * Handle the rtl_fm code giving us an odd number of samples. + * This extra buffer copying approach is not particularly efficient, + * but works for now. It looks feasible to hack in something in the + * demod and output thread routines in rtl_fm.c to handle it there + * if more performance is required. + */ + p = output_buf; + if(extra) { + memcpy(output_buf, extra_buf, sizeof(int16_t)); + if((extra + samples) % 2) { + // We still have an extra sample, n remains the same, store the extra + memcpy(output_buf + sizeof(int16_t), buf, n - 2); + memcpy(extra_buf, ((unsigned char*) buf) + n - 2, sizeof(int16_t)); + } else { + // We have an even number of samples, no extra + memcpy(output_buf + sizeof(int16_t), buf, n); + n += 2; + extra = 0; + } + } else if(samples % 2) { + // We have an extra sample, store it, and decrease n + n -= 2; + memcpy(output_buf + sizeof(int16_t), buf, n); + memcpy(extra_buf, ((unsigned char*) buf) + n, sizeof(int16_t)); + extra = 1; + } else { + p = buf; + } + + // Push buffer into pipeline + buffer = gst_buffer_new_allocate(NULL, n, NULL); + gst_buffer_fill(buffer, 0, p, n); + g_signal_emit_by_name(appsrc, "push-buffer", buffer, &ret); + gst_buffer_unref(buffer); + rc = n; + + return rc; +} diff --git a/src/rtl_fm.c b/src/rtl_fm.c new file mode 100644 index 0000000..cfbd487 --- /dev/null +++ b/src/rtl_fm.c @@ -0,0 +1,1275 @@ +/* + * rtl-sdr, turns your Realtek RTL2832 based DVB dongle into a SDR receiver + * Copyright (C) 2012 by Steve Markgraf + * Copyright (C) 2012 by Hoernchen + * Copyright (C) 2012 by Kyle Keen + * Copyright (C) 2013 by Elias Oenal + * Copyright (C) 2016, 2017 Konsulko Group + * + * 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 . + */ + +/* + * Note that this version replaces the standalone main() with separate + * init/start/stop API calls to allow building into another application. + * Other than removing the separate controller thread and adding an output + * function callback, other changes have been kept to a minimum to + * potentially allow using other rtl_fm features by modifying rtl_fm_init. + * + * December 2016, Scott Murray + */ + +/* + * written because people could not do real time + * FM demod on Atom hardware with GNU radio + * based on rtl_sdr.c and rtl_tcp.c + * + * lots of locks, but that is okay + * (no many-to-many locks) + * + * todo: + * sanity checks + * scale squelch to other input parameters + * test all the demodulations + * pad output on hop + * frequency ranges could be stored better + * scaled AM demod amplification + * auto-hop after time limit + * peak detector to tune onto stronger signals + * fifo for active hop frequency + * clips + * noise squelch + * merge stereo patch + * merge soft agc patch + * merge udp patch + * testmode to detect overruns + * watchdog to reset bad dongle + * fix oversampling + */ + +#include +#include +#include +#include +#include +#include +#include +#include + +#include "rtl-sdr.h" +#include "rtl_fm.h" +#include "convenience/convenience.h" + +#define DEFAULT_SAMPLE_RATE 24000 +#define DEFAULT_BUF_LENGTH RTL_FM_DEFAULT_BUF_LENGTH +#define MAXIMUM_OVERSAMPLE RTL_FM_MAXIMUM_OVERSAMPLE +#define MAXIMUM_BUF_LENGTH RTL_FM_MAXIMUM_BUF_LENGTH +#define AUTO_GAIN -100 +#define BUFFER_DUMP 4096 + +#define FREQUENCIES_LIMIT 1000 + +#define DEFAULT_SQUELCH_LEVEL 140 +#define DEFAULT_CONSEQ_SQUELCH 10 + +static volatile int do_exit = 0; +static int lcm_post[17] = {1,1,1,3,1,5,3,7,1,9,5,11,3,13,7,15,1}; +static int ACTUAL_BUF_LENGTH; + +static int *atan_lut = NULL; +static int atan_lut_size = 131072; /* 512 KB */ +static int atan_lut_coef = 8; + +struct dongle_state +{ + int exit_flag; + pthread_t thread; + rtlsdr_dev_t *dev; + int dev_index; + uint32_t freq; + uint32_t rate; + int gain; + uint16_t buf16[MAXIMUM_BUF_LENGTH]; + uint32_t buf_len; + int ppm_error; + int offset_tuning; + int direct_sampling; + int mute; + struct demod_state *demod_target; +}; + +struct demod_state +{ + int exit_flag; + pthread_t thread; + int16_t lowpassed[MAXIMUM_BUF_LENGTH]; + int lp_len; + int16_t lp_i_hist[10][6]; + int16_t lp_q_hist[10][6]; + int16_t result[MAXIMUM_BUF_LENGTH]; + int16_t droop_i_hist[9]; + int16_t droop_q_hist[9]; + int result_len; + int rate_in; + int rate_out; + int rate_out2; + int now_r, now_j; + int pre_r, pre_j; + int prev_index; + int downsample; /* min 1, max 256 */ + int post_downsample; + int output_scale; + int squelch_level, conseq_squelch, squelch_hits, terminate_on_squelch; + int downsample_passes; + int comp_fir_size; + int custom_atan; + int deemph, deemph_a; + int now_lpr; + int prev_lpr_index; + int dc_block, dc_avg; + void (*mode_demod)(struct demod_state*); + pthread_rwlock_t rw; + pthread_cond_t ready; + pthread_mutex_t ready_m; + struct output_state *output_target; +}; + +struct output_state +{ + int exit_flag; + pthread_t thread; + rtl_fm_output_fn_t output_fn; + void *output_fn_data; + int16_t result[MAXIMUM_BUF_LENGTH]; + int result_len; + int rate; + pthread_rwlock_t rw; + pthread_cond_t ready; + pthread_mutex_t ready_m; +}; + +struct controller_state +{ + int exit_flag; + pthread_t thread; + uint32_t freqs[FREQUENCIES_LIMIT]; + int freq_len; + int freq_now; + int edge; + int wb_mode; + pthread_cond_t hop; + pthread_mutex_t hop_m; + + void (*freq_callback)(uint32_t, void*); + void *freq_callback_data; + + int scanning; + int scan_direction; + void (*scan_callback)(uint32_t, void*); + void *scan_callback_data; + uint32_t scan_step; + uint32_t scan_min; + uint32_t scan_max; + int scan_squelch_level; + int scan_squelch_count; +}; + +// multiple of these, eventually +struct dongle_state dongle; +struct demod_state demod; +struct output_state output; +struct controller_state controller; + +#if 0 +static void sighandler(int signum) +{ + fprintf(stderr, "Signal caught, exiting!\n"); + do_exit = 1; + rtlsdr_cancel_async(dongle.dev); +} +#endif + +/* more cond dumbness */ +#define safe_cond_signal(n, m) pthread_mutex_lock(m); pthread_cond_signal(n); pthread_mutex_unlock(m) +#define safe_cond_wait(n, m) pthread_mutex_lock(m); pthread_cond_wait(n, m); pthread_mutex_unlock(m) + +/* {length, coef, coef, coef} and scaled by 2^15 + for now, only length 9, optimal way to get +85% bandwidth */ +#define CIC_TABLE_MAX 10 +int cic_9_tables[][10] = { + {0,}, + {9, -156, -97, 2798, -15489, 61019, -15489, 2798, -97, -156}, + {9, -128, -568, 5593, -24125, 74126, -24125, 5593, -568, -128}, + {9, -129, -639, 6187, -26281, 77511, -26281, 6187, -639, -129}, + {9, -122, -612, 6082, -26353, 77818, -26353, 6082, -612, -122}, + {9, -120, -602, 6015, -26269, 77757, -26269, 6015, -602, -120}, + {9, -120, -582, 5951, -26128, 77542, -26128, 5951, -582, -120}, + {9, -119, -580, 5931, -26094, 77505, -26094, 5931, -580, -119}, + {9, -119, -578, 5921, -26077, 77484, -26077, 5921, -578, -119}, + {9, -119, -577, 5917, -26067, 77473, -26067, 5917, -577, -119}, + {9, -199, -362, 5303, -25505, 77489, -25505, 5303, -362, -199}, +}; + +void rotate_90(unsigned char *buf, uint32_t len) +/* 90 rotation is 1+0j, 0+1j, -1+0j, 0-1j + or [0, 1, -3, 2, -4, -5, 7, -6] */ +{ + uint32_t i; + uint8_t tmp; + + for (i=0; ilp_len) { + d->now_r += d->lowpassed[i]; + d->now_j += d->lowpassed[i+1]; + i += 2; + d->prev_index++; + if (d->prev_index < d->downsample) { + continue; + } + d->lowpassed[i2] = (int16_t)d->now_r; // * d->output_scale; + d->lowpassed[i2+1] = (int16_t)d->now_j; // * d->output_scale; + d->prev_index = 0; + d->now_r = 0; + d->now_j = 0; + i2 += 2; + } + d->lp_len = i2; +} + +int low_pass_simple(int16_t *signal2, int len, int step) +// no wrap around, length must be multiple of step +{ + int i, i2, sum; + for(i=0; i < len; i+=step) { + sum = 0; + for(i2=0; i2rate_out; + int slow = s->rate_out2; + while (i < s->result_len) { + s->now_lpr += s->result[i]; + i++; + s->prev_lpr_index += slow; + if (s->prev_lpr_index < fast) { + continue; + } + s->result[i2] = (int16_t)(s->now_lpr / (fast/slow)); + s->prev_lpr_index -= fast; + s->now_lpr = 0; + i2 += 1; + } + s->result_len = i2; +} + +void fifth_order(int16_t *data, int length, int16_t *hist) +/* for half of interleaved data */ +{ + int i; + int16_t a, b, c, d, e, f; + a = hist[1]; + b = hist[2]; + c = hist[3]; + d = hist[4]; + e = hist[5]; + f = data[0]; + /* a downsample should improve resolution, so don't fully shift */ + data[0] = (int16_t) ((a + (b+e)*5 + (c+d)*10 + f) >> 4); + for (i=4; i> 4); + } + /* archive */ + hist[0] = a; + hist[1] = b; + hist[2] = c; + hist[3] = d; + hist[4] = e; + hist[5] = f; +} + +void generic_fir(int16_t *data, int length, int *fir, int16_t *hist) +/* Okay, not at all generic. Assumes length 9, fix that eventually. */ +{ + int16_t temp; + int sum; + int d; + for (d=0; d> 15); + hist[0] = hist[1]; + hist[1] = hist[2]; + hist[2] = hist[3]; + hist[3] = hist[4]; + hist[4] = hist[5]; + hist[5] = hist[6]; + hist[6] = hist[7]; + hist[7] = hist[8]; + hist[8] = temp; + } +} + +/* define our own complex math ops + because ARMv5 has no hardware float */ + +void multiply(int ar, int aj, int br, int bj, int *cr, int *cj) +{ + *cr = ar*br - aj*bj; + *cj = aj*br + ar*bj; +} + +int polar_discriminant(int ar, int aj, int br, int bj) +{ + int cr, cj; + double angle; + multiply(ar, aj, br, -bj, &cr, &cj); + angle = atan2((double)cj, (double)cr); + return (int)(angle / 3.14159 * (1<<14)); +} + +int fast_atan2(int y, int x) +/* pre scaled for int16 */ +{ + int yabs, angle; + int pi4=(1<<12), pi34=3*(1<<12); // note pi = 1<<14 + if (x==0 && y==0) { + return 0; + } + yabs = y; + if (yabs < 0) { + yabs = -yabs; + } + if (x >= 0) { + angle = pi4 - pi4 * (x-yabs) / (x+yabs); + } else { + angle = pi34 - pi4 * (x+yabs) / (yabs-x); + } + if (y < 0) { + return -angle; + } + return angle; +} + +int polar_disc_fast(int ar, int aj, int br, int bj) +{ + int cr, cj; + multiply(ar, aj, br, -bj, &cr, &cj); + return fast_atan2(cj, cr); +} + +int atan_lut_init(void) +{ + int i = 0; + + atan_lut = malloc(atan_lut_size * sizeof(int)); + + for (i = 0; i < atan_lut_size; i++) { + atan_lut[i] = (int) (atan((double) i / (1< 0) + {return 1 << 13;} + if (cr == 0 && cj < 0) + {return -(1 << 13);} + if (cj == 0 && cr > 0) + {return 0;} + if (cj == 0 && cr < 0) + {return 1 << 14;} + } + + /* real range -32768 - 32768 use 64x range -> absolute maximum: 2097152 */ + x = (cj << atan_lut_coef) / cr; + x_abs = abs(x); + + if (x_abs >= atan_lut_size) { + /* we can use linear range, but it is not necessary */ + const int ret = 1<<13; + return (cj > 0) ? ret : -ret; + } + + if (x > 0) { + return (cj > 0) ? atan_lut[x] : atan_lut[x] - (1<<14); + } else { + return (cj > 0) ? (1<<14) - atan_lut[-x] : -atan_lut[-x]; + } + + return 0; +} + +void fm_demod(struct demod_state *fm) +{ + int i, pcm; + int16_t *lp = fm->lowpassed; + pcm = polar_discriminant(lp[0], lp[1], + fm->pre_r, fm->pre_j); + fm->result[0] = (int16_t)pcm; + for (i = 2; i < (fm->lp_len-1); i += 2) { + switch (fm->custom_atan) { + case 0: + pcm = polar_discriminant(lp[i], lp[i+1], + lp[i-2], lp[i-1]); + break; + case 1: + pcm = polar_disc_fast(lp[i], lp[i+1], + lp[i-2], lp[i-1]); + break; + case 2: + pcm = polar_disc_lut(lp[i], lp[i+1], + lp[i-2], lp[i-1]); + break; + } + fm->result[i/2] = (int16_t)pcm; + } + fm->pre_r = lp[fm->lp_len - 2]; + fm->pre_j = lp[fm->lp_len - 1]; + fm->result_len = fm->lp_len/2; +} + +void am_demod(struct demod_state *fm) +// todo, fix this extreme laziness +{ + int i, pcm; + int16_t *lp = fm->lowpassed; + int16_t *r = fm->result; + for (i = 0; i < fm->lp_len; i += 2) { + // hypot uses floats but won't overflow + //r[i/2] = (int16_t)hypot(lp[i], lp[i+1]); + pcm = lp[i] * lp[i]; + pcm += lp[i+1] * lp[i+1]; + r[i/2] = (int16_t) ((int16_t)sqrt(pcm) * fm->output_scale); + } + fm->result_len = fm->lp_len/2; + // lowpass? (3khz) highpass? (dc) +} + +void usb_demod(struct demod_state *fm) +{ + int i, pcm; + int16_t *lp = fm->lowpassed; + int16_t *r = fm->result; + for (i = 0; i < fm->lp_len; i += 2) { + pcm = lp[i] + lp[i+1]; + r[i/2] = (int16_t)((int16_t)pcm * fm->output_scale); + } + fm->result_len = fm->lp_len/2; +} + +void lsb_demod(struct demod_state *fm) +{ + int i, pcm; + int16_t *lp = fm->lowpassed; + int16_t *r = fm->result; + for (i = 0; i < fm->lp_len; i += 2) { + pcm = lp[i] - lp[i+1]; + r[i/2] = (int16_t)((int16_t)pcm * fm->output_scale); + } + fm->result_len = fm->lp_len/2; +} + +void raw_demod(struct demod_state *fm) +{ + int i; + for (i = 0; i < fm->lp_len; i++) { + fm->result[i] = (int16_t)fm->lowpassed[i]; + } + fm->result_len = fm->lp_len; +} + +void deemph_filter(struct demod_state *fm) +{ + static int avg; // cheating... + int i, d; + // de-emph IIR + // avg = avg * (1 - alpha) + sample * alpha; + for (i = 0; i < fm->result_len; i++) { + d = fm->result[i] - avg; + if (d > 0) { + avg += (d + fm->deemph_a/2) / fm->deemph_a; + } else { + avg += (d - fm->deemph_a/2) / fm->deemph_a; + } + fm->result[i] = (int16_t)avg; + } +} + +void dc_block_filter(struct demod_state *fm) +{ + int i, avg; + int64_t sum = 0; + for (i=0; i < fm->result_len; i++) { + sum += fm->result[i]; + } + avg = (int)(sum / fm->result_len); + avg = (avg + fm->dc_avg * 9) / 10; + for (i=0; i < fm->result_len; i++) { + fm->result[i] = (int16_t)(fm->result[i] - avg); + } + fm->dc_avg = avg; +} + +int mad(int16_t *samples, int len, int step) +/* mean average deviation */ +{ + int i=0, sum=0, ave=0; + if (len == 0) + {return 0;} + for (i=0; i len2) { + tick -= len2; + i++; + } + if (i >= len1) { + i = len1 - 1; + tick = len2; + } + } +} + +void arbitrary_downsample(int16_t *buf1, int16_t *buf2, int len1, int len2) +/* fractional boxcar lowpass, len1 > len2 */ +{ + int i = 1; + int j = 0; + int tick = 0; + double remainder = 0; + double frac; // use integers... + buf2[0] = 0; + while (j < len2) { + frac = 1.0; + if ((tick + len2) > len1) { + frac = (double)(len1 - tick) / (double)len2;} + buf2[j] = (int16_t)(buf2[j] + (double)buf1[i] * frac + remainder); + remainder = (double)buf1[i] * (1.0-frac); + tick += len2; + i++; + if (tick > len1) { + j++; + buf2[j] = 0; + tick -= len1; + } + if (i >= len1) { + i = len1 - 1; + tick = len1; + } + } + for (j=0; jdownsample_passes; + if (ds_p) { + for (i=0; i < ds_p; i++) { + fifth_order(d->lowpassed, (d->lp_len >> i), d->lp_i_hist[i]); + fifth_order(d->lowpassed+1, (d->lp_len >> i) - 1, d->lp_q_hist[i]); + } + d->lp_len = d->lp_len >> ds_p; + /* droop compensation */ + if (d->comp_fir_size == 9 && ds_p <= CIC_TABLE_MAX) { + generic_fir(d->lowpassed, d->lp_len, + cic_9_tables[ds_p], d->droop_i_hist); + generic_fir(d->lowpassed+1, d->lp_len-1, + cic_9_tables[ds_p], d->droop_q_hist); + } + } else { + low_pass(d); + } + /* power squelch */ + if (d->squelch_level) { + sr = rms(d->lowpassed, d->lp_len, 1); + if (sr < d->squelch_level) { + d->squelch_hits++; + for (i=0; i< d->lp_len; i++) { + d->lowpassed[i] = 0; + } + } else { + d->squelch_hits = 0; + } + } + d->mode_demod(d); /* lowpassed -> result */ + if (d->mode_demod == &raw_demod) { + return; + } + /* todo, fm noise squelch */ + // use nicer filter here too? + if (d->post_downsample > 1) { + d->result_len = low_pass_simple(d->result, d->result_len, d->post_downsample);} + if (d->deemph) { + deemph_filter(d);} + if (d->dc_block) { + dc_block_filter(d);} + if (d->rate_out2 > 0) { + low_pass_real(d); + //arbitrary_resample(d->result, d->result, d->result_len, d->result_len * d->rate_out2 / d->rate_out); + } +} + +static void rtlsdr_callback(unsigned char *buf, uint32_t len, void *ctx) +{ + int i; + struct dongle_state *s = ctx; + struct demod_state *d = s->demod_target; + + if (do_exit) { + return;} + if (!ctx) { + return;} + if (s->mute) { + for (i=0; imute; i++) { + buf[i] = 127;} + s->mute = 0; + } + if (!s->offset_tuning) { + rotate_90(buf, len);} + for (i=0; i<(int)len; i++) { + s->buf16[i] = (int16_t)(buf[i] - 127); + } + pthread_rwlock_wrlock(&d->rw); + memcpy(d->lowpassed, s->buf16, 2*len); + d->lp_len = len; + pthread_rwlock_unlock(&d->rw); + safe_cond_signal(&d->ready, &d->ready_m); +} + +static void *dongle_thread_fn(void *arg) +{ + struct dongle_state *s = arg; + fprintf(stderr, "dongle_thread_fn running\n"); + rtlsdr_read_async(s->dev, rtlsdr_callback, s, 0, s->buf_len); + fprintf(stderr, "dongle_thread_fn exited!\n"); + return 0; +} + +static void rtl_fm_scan_callback(void) +{ + struct controller_state *s = &controller; + uint32_t frequency = rtl_fm_get_freq(); + + if(!s->scanning) + return; + + if(!s->scan_direction) { + frequency += s->scan_step; + if(frequency > s->scan_max) + frequency = s->scan_min; + } else { + frequency -= s->scan_step; + if(frequency < s->scan_min) + frequency = s->scan_max; + } + + rtl_fm_set_freq(frequency); +} + +static void rtl_fm_scan_end_callback(void) +{ + struct controller_state *s = &controller; + + if(!s->scanning) + return; + + rtl_fm_scan_stop(); + + if(s->scan_callback) + s->scan_callback(rtl_fm_get_freq(), s->scan_callback_data); +} + +static void *demod_thread_fn(void *arg) +{ + struct demod_state *d = arg; + struct output_state *o = d->output_target; + fprintf(stderr, "demod_thread_fn running\n"); + while (!do_exit) { + safe_cond_wait(&d->ready, &d->ready_m); + pthread_rwlock_wrlock(&d->rw); + full_demod(d); + pthread_rwlock_unlock(&d->rw); + if (d->exit_flag) { + do_exit = 1; + } + if (d->squelch_level) { + if(d->squelch_hits > d->conseq_squelch) { + d->squelch_hits = d->conseq_squelch + 1; /* hair trigger */ + //safe_cond_signal(&controller.hop, &controller.hop_m); + rtl_fm_scan_callback(); + continue; + } else if(!d->squelch_hits) { + rtl_fm_scan_end_callback(); + } + } + pthread_rwlock_wrlock(&o->rw); + memcpy(o->result, d->result, 2*d->result_len); + o->result_len = d->result_len; + pthread_rwlock_unlock(&o->rw); + safe_cond_signal(&o->ready, &o->ready_m); + } + fprintf(stderr, "demod_thread_fn exited!\n"); + return 0; +} + +static void *output_thread_fn(void *arg) +{ + struct output_state *s = arg; + fprintf(stderr, "output_thread_fn running\n"); + while (!do_exit) { + // use timedwait and pad out under runs + safe_cond_wait(&s->ready, &s->ready_m); + pthread_rwlock_rdlock(&s->rw); + if(s->output_fn) { + s->output_fn(s->result, s->result_len, s->output_fn_data); + } + pthread_rwlock_unlock(&s->rw); + } + fprintf(stderr, "output_thread_fn exited!\n"); + return 0; +} + +static void optimal_settings(int freq, int rate) +{ + // giant ball of hacks + // seems unable to do a single pass, 2:1 + int capture_freq, capture_rate; + struct dongle_state *d = &dongle; + struct demod_state *dm = &demod; + struct controller_state *cs = &controller; + dm->downsample = (1000000 / dm->rate_in) + 1; + if (dm->downsample_passes) { + dm->downsample_passes = (int)log2(dm->downsample) + 1; + dm->downsample = 1 << dm->downsample_passes; + } + capture_freq = freq; + capture_rate = dm->downsample * dm->rate_in; + if (!d->offset_tuning) { + capture_freq = freq + capture_rate/4;} + capture_freq += cs->edge * dm->rate_in / 2; + dm->output_scale = (1<<15) / (128 * dm->downsample); + if (dm->output_scale < 1) { + dm->output_scale = 1;} + if (dm->mode_demod == &fm_demod) { + dm->output_scale = 1;} + d->freq = (uint32_t)capture_freq; + d->rate = (uint32_t)capture_rate; +} + + +void frequency_range(struct controller_state *s, char *arg) +{ + char *start, *stop, *step; + int i; + start = arg; + stop = strchr(start, ':') + 1; + stop[-1] = '\0'; + step = strchr(stop, ':') + 1; + step[-1] = '\0'; + for(i=(int)atofs(start); i<=(int)atofs(stop); i+=(int)atofs(step)) + { + s->freqs[s->freq_len] = (uint32_t)i; + s->freq_len++; + if (s->freq_len >= FREQUENCIES_LIMIT) { + break;} + } + stop[-1] = ':'; + step[-1] = ':'; +} + +void dongle_init(struct dongle_state *s) +{ + s->rate = DEFAULT_SAMPLE_RATE; + s->gain = AUTO_GAIN; // tenths of a dB + s->mute = 0; + s->direct_sampling = 0; + s->offset_tuning = 0; + s->demod_target = &demod; +} + +void demod_init(struct demod_state *s) +{ + s->rate_in = DEFAULT_SAMPLE_RATE; + s->rate_out = DEFAULT_SAMPLE_RATE; + s->squelch_level = 0; + s->conseq_squelch = DEFAULT_CONSEQ_SQUELCH; + s->terminate_on_squelch = 0; + s->squelch_hits = DEFAULT_CONSEQ_SQUELCH + 1; + s->downsample_passes = 0; + s->comp_fir_size = 0; + s->prev_index = 0; + s->post_downsample = 1; // once this works, default = 4 + s->custom_atan = 0; + s->deemph = 0; + s->rate_out2 = -1; // flag for disabled + s->mode_demod = &fm_demod; + s->pre_j = s->pre_r = s->now_r = s->now_j = 0; + s->prev_lpr_index = 0; + s->deemph_a = 0; + s->now_lpr = 0; + s->dc_block = 0; + s->dc_avg = 0; + pthread_rwlock_init(&s->rw, NULL); + pthread_cond_init(&s->ready, NULL); + pthread_mutex_init(&s->ready_m, NULL); + s->output_target = &output; +} + +void demod_cleanup(struct demod_state *s) +{ + pthread_rwlock_destroy(&s->rw); + pthread_cond_destroy(&s->ready); + pthread_mutex_destroy(&s->ready_m); +} + +void output_init(struct output_state *s) +{ + s->rate = DEFAULT_SAMPLE_RATE; + s->output_fn = NULL; + s->output_fn_data = NULL; + pthread_rwlock_init(&s->rw, NULL); + pthread_cond_init(&s->ready, NULL); + pthread_mutex_init(&s->ready_m, NULL); +} + +void output_cleanup(struct output_state *s) +{ + pthread_rwlock_destroy(&s->rw); + pthread_cond_destroy(&s->ready); + pthread_mutex_destroy(&s->ready_m); +} + +void controller_init(struct controller_state *s) +{ + s->freqs[0] = 100000000; + s->freq_len = 0; + s->edge = 0; + s->wb_mode = 0; + pthread_cond_init(&s->hop, NULL); + pthread_mutex_init(&s->hop_m, NULL); +} + +void controller_cleanup(struct controller_state *s) +{ + pthread_cond_destroy(&s->hop); + pthread_mutex_destroy(&s->hop_m); +} + +int sanity_checks(void) +{ + int r = 1; + if (controller.freq_len == 0) { + fprintf(stderr, "Please specify a frequency.\n"); + r = 0; + } + + if (controller.freq_len >= FREQUENCIES_LIMIT) { + fprintf(stderr, "Too many channels, maximum %i.\n", FREQUENCIES_LIMIT); + r = 0; + } + + if (controller.freq_len > 1 && demod.squelch_level == 0) { + fprintf(stderr, "Please specify a squelch level. Required for scanning multiple frequencies.\n"); + r = 0; + } + return r; +} + +int rtl_fm_init(uint32_t freq, + uint32_t sample_rate, + uint32_t resample_rate, + rtl_fm_output_fn_t output_fn, + void *output_fn_data) +{ + int r = 0; + + dongle_init(&dongle); + demod_init(&demod); + output_init(&output); + controller_init(&controller); + + /* + * Simulate the effects of command line arguments: + * + * -W wbfm -s -r + */ + + /* Set initial frequency */ + controller.freqs[0] = freq; + controller.freq_len++; + + /* Set mode to wbfm */ + controller.wb_mode = 1; + demod.mode_demod = &fm_demod; + demod.rate_in = 170000; + demod.rate_out = 170000; + demod.rate_out2 = 32000; + demod.custom_atan = 1; + //demod.post_downsample = 4; + demod.deemph = 1; + controller.scan_squelch_count = DEFAULT_CONSEQ_SQUELCH; + controller.scan_squelch_level = DEFAULT_SQUELCH_LEVEL; + demod.squelch_level = 0; + + /* Adjust frequency for wb mode */ + controller.freqs[0] += 16000; + + /* Set sample rate */ + demod.rate_in = sample_rate; + demod.rate_out = sample_rate; + + /* Set resample rate */ + output.rate = (int) resample_rate; + demod.rate_out2 = (int) resample_rate; + + /* Set output function pointer */ + if(output_fn) { + output.output_fn = output_fn; + output.output_fn_data = output_fn_data; + } + + /* quadruple sample_rate to limit to Δθ to ±π/2 */ + demod.rate_in *= demod.post_downsample; + + if (!output.rate) { + output.rate = demod.rate_out; + } + + if (!sanity_checks()) + return -1; + + if (controller.freq_len > 1) { + demod.terminate_on_squelch = 0; + } + + ACTUAL_BUF_LENGTH = lcm_post[demod.post_downsample] * DEFAULT_BUF_LENGTH; + + dongle.dev_index = verbose_device_search("0"); + if (dongle.dev_index < 0) { + return -1; + } + + r = rtlsdr_open(&dongle.dev, (uint32_t)dongle.dev_index); + if (r < 0) { + fprintf(stderr, "Failed to open rtlsdr device #%d.\n", dongle.dev_index); + return r; + } + + if (demod.deemph) { + demod.deemph_a = (int)round(1.0/((1.0-exp(-1.0/(demod.rate_out * 75e-6))))); + } + + /* Set the tuner gain */ + if (dongle.gain == AUTO_GAIN) { + verbose_auto_gain(dongle.dev); + } else { + dongle.gain = nearest_gain(dongle.dev, dongle.gain); + verbose_gain_set(dongle.dev, dongle.gain); + } + + verbose_ppm_set(dongle.dev, dongle.ppm_error); + + //r = rtlsdr_set_testmode(dongle.dev, 1); + + return r; +} + +void rtl_fm_start(void) +{ + struct controller_state *s = &controller; + + /* + * A bunch of the following is pulled from the controller_thread_fn, + * which has been removed. + */ + + /* Reset endpoint before we start reading from it (mandatory) */ + verbose_reset_buffer(dongle.dev); + + /* set up primary channel */ + optimal_settings(s->freqs[0], demod.rate_in); + if (dongle.direct_sampling) { + verbose_direct_sampling(dongle.dev, 1);} + if (dongle.offset_tuning) { + verbose_offset_tuning(dongle.dev);} + + /* Set the frequency */ + verbose_set_frequency(dongle.dev, dongle.freq); + fprintf(stderr, "Oversampling input by: %ix.\n", demod.downsample); + fprintf(stderr, "Oversampling output by: %ix.\n", demod.post_downsample); + fprintf(stderr, "Buffer size: %0.2fms\n", + 1000 * 0.5 * (float)ACTUAL_BUF_LENGTH / (float)dongle.rate); + + /* Set the sample rate */ + verbose_set_sample_rate(dongle.dev, dongle.rate); + fprintf(stderr, "Output at %u Hz.\n", demod.rate_in/demod.post_downsample); + usleep(100000); + + rtl_fm_scan_stop(); + + do_exit = 0; + pthread_create(&output.thread, NULL, output_thread_fn, (void *)(&output)); + pthread_create(&demod.thread, NULL, demod_thread_fn, (void *)(&demod)); + pthread_create(&dongle.thread, NULL, dongle_thread_fn, (void *)(&dongle)); +} + +void rtl_fm_set_freq(uint32_t freq) +{ + struct controller_state *s = &controller; + + if(s->freqs[0] == freq) + return; + + s->freqs[0] = freq; + s->freq_len = 1; + + if (s->wb_mode) { + s->freqs[0] += 16000; + } + + optimal_settings(s->freqs[0], demod.rate_in); + if (dongle.offset_tuning) { + verbose_offset_tuning(dongle.dev); + } + rtlsdr_set_center_freq(dongle.dev, dongle.freq); + + // It does not look like refreshing the sample rate is desirable + // (e.g. the scanning code in the removed controller thread function + // did not do it), and behavior seemed a bit less robust with it + // present. However, I am leaving this here as a reminder to revisit + // via some more testing. + //rtlsdr_set_sample_rate(dongle.dev, dongle.rate); + + // This triggers a mute during the frequency change + dongle.mute = BUFFER_DUMP; + + if(s->freq_callback) + s->freq_callback(freq, s->freq_callback_data); +} + +void rtl_fm_set_freq_callback(void (*callback)(uint32_t, void *), + void *data) +{ + struct controller_state *s = &controller; + + s->freq_callback = callback; + s->freq_callback_data = data; +} + +uint32_t rtl_fm_get_freq(void) +{ + struct controller_state *s = &controller; + uint32_t frequency = s->freqs[0]; + + if (s->wb_mode) + frequency -= 16000; + + return frequency; +} + +void rtl_fm_stop(void) +{ + rtl_fm_scan_stop(); + + rtlsdr_cancel_async(dongle.dev); + do_exit = 1; + pthread_join(dongle.thread, NULL); + safe_cond_signal(&demod.ready, &demod.ready_m); + pthread_join(demod.thread, NULL); + safe_cond_signal(&output.ready, &output.ready_m); + pthread_join(output.thread, NULL); +} + +void rtl_fm_scan_start(int direction, + void (*callback)(uint32_t, void *), + void *data, + uint32_t step, + uint32_t min, + uint32_t max) +{ + struct controller_state *s = &controller; + struct demod_state *dm = &demod; + uint32_t frequency = rtl_fm_get_freq(); + + if(s->scanning && s->scan_direction == direction) + return; + + s->scanning = 1; + s->scan_direction = direction; + s->scan_callback = callback; + s->scan_callback_data = data; + s->scan_step = step; + s->scan_min = min; + s->scan_max = max; + + /* Start scan by stepping in the desired direction */ + if(!direction) { + frequency += s->scan_step; + if(frequency > s->scan_max) + frequency = s->scan_min; + } else { + frequency -= s->scan_step; + if(frequency < s->scan_min) + frequency = s->scan_max; + } + + rtl_fm_set_freq(frequency); + + dm->conseq_squelch = s->scan_squelch_count; + dm->squelch_hits = s->scan_squelch_count + 1; + dm->squelch_level = s->scan_squelch_level; +} + +void rtl_fm_scan_stop(void) +{ + struct controller_state *s = &controller; + struct demod_state *dm = &demod; + + s->scanning = 0; + + dm->squelch_hits = s->scan_squelch_count + 1; + dm->squelch_level = 0; +} + +void rtl_fm_scan_set_squelch_level(int level) +{ + struct controller_state *s = &controller; + + s->scan_squelch_level = level; +} + +void rtl_fm_scan_set_squelch_limit(int count) +{ + struct controller_state *s = &controller; + + s->scan_squelch_count = count; +} + +void rtl_fm_cleanup(void) +{ + //dongle_cleanup(&dongle); + demod_cleanup(&demod); + output_cleanup(&output); + controller_cleanup(&controller); + + rtlsdr_close(dongle.dev); +} + +// vim: tabstop=8:softtabstop=8:shiftwidth=8:noexpandtab diff --git a/src/rtl_fm.h b/src/rtl_fm.h new file mode 100644 index 0000000..f5b2a86 --- /dev/null +++ b/src/rtl_fm.h @@ -0,0 +1,70 @@ +/* + * rtl-sdr, turns your Realtek RTL2832 based DVB dongle into a SDR receiver + * Copyright (C) 2016, 2017 Konsulko Group + * + * 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 . + */ + +#ifndef RTL_FM_H +#define RTL_FM_H + +#include + +#define RTL_FM_DEFAULT_BUF_LENGTH (1 * 16384) +#define RTL_FM_MAXIMUM_OVERSAMPLE 16 +#define RTL_FM_MAXIMUM_BUF_LENGTH (RTL_FM_MAXIMUM_OVERSAMPLE * RTL_FM_DEFAULT_BUF_LENGTH) + +#ifdef __cplusplus +extern "C" { +#endif + +typedef void (*rtl_fm_output_fn_t)(int16_t *result, int result_len, void *data); + +int rtl_fm_init(uint32_t freq, + uint32_t sample_rate, + uint32_t resample_rate, + rtl_fm_output_fn_t output_fn, + void *output_fn_data); + +void rtl_fm_start(void); + +void rtl_fm_set_freq(uint32_t freq); + +void rtl_fm_set_freq_callback(void (*callback)(uint32_t, void *), + void *data); + +uint32_t rtl_fm_get_freq(void); + +void rtl_fm_stop(void); + +void rtl_fm_scan_start(int direction, + void (*callback)(uint32_t, void *), + void *data, + uint32_t step, + uint32_t min, + uint32_t max); + +void rtl_fm_scan_stop(void); + +void rtl_fm_scan_set_squelch_level(int level); + +void rtl_fm_scan_set_squelch_limit(int count); + +void rtl_fm_cleanup(void); + +#ifdef __cplusplus +} +#endif + +#endif /* RTL_FM_H */ diff --git a/src/rtl_fm_helper.c b/src/rtl_fm_helper.c new file mode 100644 index 0000000..c7df4b9 --- /dev/null +++ b/src/rtl_fm_helper.c @@ -0,0 +1,243 @@ +/* + * Copyright (C) 2018 Konsulko Group + * + * 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, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +#include +#include +#include +#include +#include +#include + +#include "rtl_fm.h" +#include "radio_output.h" + +#ifdef DEBUG +#define LOG_FILE "/tmp/helper.log" +FILE *_log; +#define LOG(...) \ + do { \ + if(!_log) _log = fopen(LOG_FILE, "w"); \ + fprintf(_log, __VA_ARGS__); \ + fflush(_log); \ + } while(0) +#else +#define LOG(...) do { } while(0) +#endif + +// Structure to describe FM band plans, all values in Hz. +typedef struct { + const char *name; + uint32_t min; + uint32_t max; + uint32_t step; +} fm_band_plan_t; + +static fm_band_plan_t known_fm_band_plans[5] = { + { .name = "US", .min = 87900000, .max = 107900000, .step = 200000 }, + { .name = "JP", .min = 76000000, .max = 95000000, .step = 100000 }, + { .name = "EU", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-1", .min = 87500000, .max = 108000000, .step = 50000 }, + { .name = "ITU-2", .min = 87900000, .max = 107900000, .step = 50000 } +}; + +static unsigned int bandplan; +static char line[64]; + +static void rtl_output_callback(int16_t *result, int result_len, void *ctx) +{ + radio_output_write((char*) result, result_len * 2); +} + +static void rtl_freq_callback(uint32_t freq, void *ctx) +{ + // Note, need to flush output to ensure parent sees it + printf("F=%u\n", freq); + fflush(stdout); + LOG("F=%u\n", freq); +} + +static void rtl_scan_callback(uint32_t freq, void *ctx) +{ + // Note, need to flush output to ensure parent sees it + printf("S=%u\n", freq); + fflush(stdout); + LOG("S=%u\n", freq); +} + +static void read_config(void) +{ + GKeyFile* conf_file; + int conf_file_present = 0; + char *value_str; + + // Load settings from configuration file if it exists + conf_file = g_key_file_new(); + if(conf_file && + g_key_file_load_from_dirs(conf_file, + "AGL.conf", + (const gchar**) g_get_system_config_dirs(), + NULL, + G_KEY_FILE_KEEP_COMMENTS, + NULL) == TRUE) { + conf_file_present = 1; + + // Set band plan if it is specified + value_str = g_key_file_get_string(conf_file, + "radio", + "fmbandplan", + NULL); + if(value_str) { + unsigned int i; + for(i = 0; + i < sizeof(known_fm_band_plans) / sizeof(fm_band_plan_t); + i++) { + if(!strcasecmp(value_str, known_fm_band_plans[i].name)) { + bandplan = i; + break; + } + } + } + } + fprintf(stderr, "Using FM Bandplan: %s\n", known_fm_band_plans[bandplan].name); + + if(conf_file_present) { + GError *error = NULL; + int n; + + // Allow over-riding scanning parameters just in case a demo + // setup needs to do so to work reliably. + n = g_key_file_get_integer(conf_file, + "radio", + "scan_squelch_level", + &error); + if(!error) { + fprintf(stderr, "Scanning squelch level set to %d\n", n); + rtl_fm_scan_set_squelch_level(n); + } + + error = NULL; + n = g_key_file_get_integer(conf_file, + "radio", + "scan_squelch_limit", + &error); + if(!error) { + fprintf(stderr, "Scanning squelch limit set to %d\n", n); + rtl_fm_scan_set_squelch_limit(n); + } + + g_key_file_free(conf_file); + } +} + +int main(int argc, char *argv[]) +{ + int rc; + bool detect = false; + bool done = false; + bool started = false; + uint32_t frequency; + + LOG("started\n"); + + read_config(); + frequency = known_fm_band_plans[bandplan].min; + + if(argc == 2 && strcmp(argv[1], "--detect") == 0) { + detect = true; + } + + rc = rtl_fm_init(frequency, 200000, 48000, rtl_output_callback, NULL); + if(rc < 0) { + fprintf(stderr, "No RTL USB adapter?\n"); + exit(1); + } + if(detect) { + rtl_fm_cleanup(); + exit(0); + } + + rtl_fm_set_freq_callback(rtl_freq_callback, NULL); + + while(!done) { + LOG("Reading command\n"); + if (fgets(line, sizeof(line), stdin) == NULL) + break; + if(line[0] == '\0' || line[0] == '\n') + continue; + if(strcmp(line, "START\n") == 0) { + LOG("START received\n"); + if(!started) { + LOG("Starting\n"); + radio_output_start(); + rtl_fm_start(); + started = true; + } + } else if(strcmp(line, "STOP\n") == 0) { + LOG("STOP received\n"); + if(started) { + LOG("Stopping\n"); + radio_output_stop(); + rtl_fm_stop(); + started = false; + } + } else if(strncmp(line, "F=", 2) == 0) { + uint32_t n; + if(sscanf(line, "F=%u\n", &n) == 1) { + LOG("F=%d received\n", n); + rtl_fm_scan_stop(); + rtl_fm_set_freq(n); + } + } else if(strcmp(line, "S=UP\n") == 0) { + LOG("S=UP received\n"); + if(!started) + continue; + LOG("Calling rtl_fm_scan_start\n"); + rtl_fm_scan_start(0, + rtl_scan_callback, + NULL, + known_fm_band_plans[bandplan].step, + known_fm_band_plans[bandplan].min, + known_fm_band_plans[bandplan].max); + } else if(strcmp(line, "S=DOWN\n") == 0) { + LOG("S=DOWN received\n"); + if(!started) + continue; + LOG("Calling rtl_fm_scan_start\n"); + rtl_fm_scan_start(1, + rtl_scan_callback, + NULL, + known_fm_band_plans[bandplan].step, + known_fm_band_plans[bandplan].min, + known_fm_band_plans[bandplan].max); + } else if(strcmp(line, "S=STOP\n") == 0) { + LOG("S=STOP received\n"); + if(started) { + LOG("Calling rtl_fm_scan_stop\n"); + rtl_fm_scan_stop(); + } + } else if(line[0] == 'q' || line[0] == 'Q') + break; + } + if(started) { + radio_output_stop(); + rtl_fm_stop(); + } + rtl_fm_cleanup(); + LOG("done"); + return 0; +} diff --git a/src/tef665x.h b/src/tef665x.h new file mode 100644 index 0000000..10874e8 --- /dev/null +++ b/src/tef665x.h @@ -0,0 +1,397 @@ +/* + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +#ifndef TEF665X_H +#define TEF665X_H + +typedef uint8_t u8; +typedef uint16_t ushort; +typedef uint32_t uint; + +typedef enum +{ +_close = 0, +_open +} I2C_STATE; + +typedef enum +{ + TEF665X_MODULE_FM = 0x20, //32 + TEF665X_MODULE_AM = 0x21, //31 + TEF665X_MODULE_AUDIO = 0x30, //48 + TEF665X_MODULE_APPL = 0x40 //64 +} TEF665x_MODULE; + +enum { + TEF6657_CMD_tune = 0, + TEF6657_CMD_open = 1, + TEF6657_CMD_close = 2, + TEF6657_CMD_am = 3, + TEF6657_CMD_fm = 4, + TEF6657_CMD_GETamSTAUS = 5, + TEF6657_CMD_GETfmSTAUS = 6, + TEF6657_CMD_GEToirtSTAUS +}; + +enum +{ + RADIO_BOOT_STATE = 0, + RADIO_IDLE_STATE, + RADIO_STANBDY_STATE, + RADIO_FM_STATE, + RADIO_AM_STATE + +}; + +typedef enum +{ + TEF665X_Cmd_Set_OperationMode = 0x01, + TEF665X_Cmd_Set_GPIO = 0x03, + TEF665X_Cmd_Set_ReferenceClock = 0x04, + TEF665X_Cmd_Activate = 0x05, + + TEF665X_Cmd_Get_Operation_Status = 0x80, //128, + TEF665X_Cmd_Get_GPIO_Status = 0x81, //129, + TEF665X_Cmd_Get_Identification = 0x82, //130, + TEF665X_Cmd_Get_LastWrite = 0x83, //131 +} TEF665x_APPL_COMMAND; + +typedef enum +{ + TEF665X_Cmd_Set_RDS_mode = 0x01, // default + TEF665X_Cmd_Set_RDS_autorestart= 0x02, // restart after tune + TEF665X_Cmd_Set_RDS_interface = 0, // no interface +} TEF665x_FM_COMMAND; + +typedef enum +{ + TEF665X_Cmd_Tune_To = 0x01, + TEF665X_Cmd_Set_Tune_Options =0x02, + TEF665X_Cmd_Set_Bandwidth =0x0A, //10, + TEF665X_Cmd_Set_RFAGC =0x0B, //11, + TEF665X_Cmd_Set_Antenna =0x0C, //12, + + TEF665X_Cmd_Set_MphSuppression =0x14, //20, + TEF665X_Cmd_Set_NoiseBlanker =0x17, //23, + TEF665X_Cmd_Set_NoiseBlanker_Audio =0x18, //24, + + TEF665X_Cmd_Set_DigitalRadio =0x1E, //30, + TEF665X_Cmd_Set_Deemphasis =0x1F, //31, + + TEF665X_Cmd_Set_LevelStep = 0x26, //38, + TEF665X_Cmd_Set_LevelOffset = 0x27, //39, + + TEF665X_Cmd_Set_Softmute_Time =0x28, //40, + TEF665X_Cmd_Set_Softmute_Mod = 0x29, //41, + TEF665X_Cmd_Set_Softmute_Level =0x2A, //42, + TEF665X_Cmd_Set_Softmute_Noise =0x2B, //43, + TEF665X_Cmd_Set_Softmute_Mph =0x2C, //44, + TEF665X_Cmd_Set_Softmute_Max =0x2D, //45, + + TEF665X_Cmd_Set_Highcut_Time =0x32, //50, + TEF665X_Cmd_Set_Highcut_Mod = 0x33, //51, + TEF665X_Cmd_Set_Highcut_Level =0x34, //52, + TEF665X_Cmd_Set_Highcut_Noise = 0x35, //53, + TEF665X_Cmd_Set_Highcut_Mph =0x36, //54, + TEF665X_Cmd_Set_Highcut_Max =0x37, //55, + TEF665X_Cmd_Set_Highcut_Min =0x38, //56, + TEF665X_Cmd_Set_Lowcut_Min =0x3A, //58, + + TEF665X_Cmd_Set_Stereo_Time =0x3C, //60, + TEF665X_Cmd_Set_Stereo_Mod =0x3D, //61, + TEF665X_Cmd_Set_Stereo_Level =0x3E, //62, + TEF665X_Cmd_Set_Stereo_Noise = 0x3F, //63, + TEF665X_Cmd_Set_Stereo_Mph =0x40, //64, + TEF665X_Cmd_Set_Stereo_Max = 0x41, //65, + TEF665X_Cmd_Set_Stereo_Min = 0x42, //66, + + TEF665X_Cmd_Set_Scaler = 0x50, //80, + TEF665X_Cmd_Set_RDS = 0x51, //81, + TEF665X_Cmd_Set_QualityStatus = 0x52, //82, + TEF665X_Cmd_Set_DR_Blend = 0x53, //83, + TEF665X_Cmd_Set_DR_Options = 0x54, //84, + TEF665X_Cmd_Set_Specials = 0x55, //85, + + TEF665X_Cmd_Get_Quality_Status = 0x80, //128, + TEF665X_Cmd_Get_Quality_Data = 0x81, //129, + TEF665X_Cmd_Get_RDS_Status = 0x82, //130, + TEF665X_Cmd_Get_RDS_Data = 0x83, //131, + TEF665X_Cmd_Get_AGC = 0x84, //132, + TEF665X_Cmd_Get_Signal_Status = 0x85, //133, + TEF665X_Cmd_Get_Processing_Status = 0x86, //134, + TEF665X_Cmd_Get_Interface_Status = 0x87, //135, + + TEF665X_Cmd_Set_Output_signal_i2s = 0x21, //33, + TEF665X_Cmd_Set_Output_signal_dac = 0x80, //128, + TEF665X_Cmd_Set_Output_source_aRadio = 0x04, //4, + TEF665X_Cmd_Set_Output_source_dInput = 0x20, //32, + TEF665X_Cmd_Set_Output_source_aProcessor = 0xe0, //224, + TEF665X_Cmd_Set_Output_source_SinWave = 0xf0, //240, + } TEF665x_RADIO_COMMAND; + +typedef enum +{ + TEF665X_Cmd_Set_Volume = 0x0A, //10, + TEF665X_Cmd_Set_Mute = 0x0B, //11, + TEF665X_Cmd_Set_Input = 0x0C, //12, + TEF665X_Cmd_Set_Output_Source = 0x0D, //13, + + TEF665X_Cmd_Set_Ana_Out = 0x15, //21, + TEF665X_Cmd_Set_Dig_IO = 0x16, //22, + TEF665X_Cmd_Set_Input_Scaler = 0x17, //23, + TEF665X_Cmd_Set_WaveGen = 0x18, //24 +} TEF665x_AUDIO_COMMAND; + +typedef enum +{ + TEF665X_AUDIO_CMD_22_SIGNAL_i2s1 = 0x21, //33, + TEF665X_AUDIO_CMD_22_MODE_voltage = 0x02, //2, + TEF665X_AUDIO_CMD_22_FORMAT_16 = 0x10, //16, + TEF665X_AUDIO_CMD_22_FORMAT_32 = 0x20, //32, + TEF665X_AUDIO_CMD_22_OPERATION_slave = 0, //0, + TEF665X_AUDIO_CMD_22_OPERATION_master = 0x0100,//256, + TEF665X_AUDIO_CMD_22_SAMPLERATE_48K = 0x12c0 //4800 +} TEF665x_AUDIO_CMD_22; + +typedef enum{ + eDevTEF665x_Boot_state , + eDevTEF665x_Idle_state, + eDevTEF665x_Wait_Active, + eDevTEF665x_Active_state, + + eDevTEF665x_Power_on, + + eDevTEF665x_Not_Exist, + + eDevTEF665x_Last +}TEF665x_STATE; + +const u8 patchByteValues[]= +{ + 0xF0, 0x00, 0x38, 0x16, 0xD0, 0x80, 0x43, 0xB2, 0x38, 0x1D, 0xD0, 0x80, 0xF0, 0x00, 0x70, 0x00, 0xC2, 0xF7, 0xF0, 0x00, 0x38, 0x4E, 0xD0, 0x80, + 0xF0, 0x00, 0x38, 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0x00, + 0x82, 0xC4, 0x27, 0x1C, 0xD1, 0x80, 0xF0, 0x00, 0x70, 0x00, 0x97, 0xFC, 0x91, 0x46, 0x27, 0x20, 0xD0, 0x80, 0xF0, 0x00, 0x29, 0x15, 0xD2, 0x80, + 0xF0, 0x00, 0x39, 0x86, 0xD2, 0x80, 0xF0, 0x00, 0x28, 0x88, 0xD0, 0x80, 0x01, 0x52, 0x60, 0x00, 0xF0, 0x00, 0xF0, 0x00, 0x28, 0xDC, 0xD2, 0x80, + 0xF0, 0x00, 0x28, 0xD5, 0xD0, 0x80, 0xF0, 0x00, 0x70, 0x00, 0xD0, 0x08, 0xF0, 0x00, 0x16, 0xC3, 0x60, 0x08, 0xF0, 0x00, 0x00, 0x9A, 0x60, 0x00, + 0xF0, 0x00, 0x02, 0xE3, 0x60, 0x00, 0x10, 0x00, 0x04, 0xF4, 0x60, 0x00, 0x10, 0x00, 0x06, 0xFF, 0x60, 0x00, 0x10, 0x00, 0x09, 0x07, 0x60, 0x00, + 0x10, 0x00, 0x0B, 0x10, 0x60, 0x00, 0x10, 0x00, 0x0D, 0x1F, 0x60, 0x00, 0x10, 0x00, 0x0F, 0x65, 0x60, 0x00, 0x10, 0x00, 0x0F, 0x65, 0x60, 0x00, + 0x10, 0x00, 0x0D, 0x1F, 0x60, 0x00, 0x10, 0x00, 0x0B, 0x10, 0x60, 0x00, 0x10, 0x00, 0x09, 0x07, 0x60, 0x00, 0x10, 0x00, 0x06, 0xFF, 0x60, 0x00, + 0x10, 0x00, 0x04, 0xF4, 0x60, 0x00, 0x10, 0x00, 0x02, 0xE3, 0x60, 0x00, 0x10, 0x00, 0x00, 0x9A, 0x60, 0x00, 0xF0, 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0x28, 0x60, 0x00, 0x10, 0x00, 0x01, 0x2F, 0x60, 0x00, + 0x10, 0x00, 0xFD, 0x23, 0x60, 0x00, 0x10, 0x00, 0xFD, 0xA1, 0x60, 0x00, 0x10, 0x00, 0x03, 0x89, 0x60, 0x00, 0x10, 0x00, 0x02, 0x54, 0x60, 0x00, + 0x10, 0x00, 0x0E, 0xA2, 0x60, 0x00, 0x10, 0x00, 0x0C, 0x47, 0x60, 0x00, 0x10, 0x00, 0xF9, 0x42, 0x60, 0x00, 0x10, 0x00, 0xFB, 0xE1, 0x60, 0x00, + 0x10, 0x00, 0x00, 0x8C, 0x60, 0x00, 0x10, 0x00, 0xFE, 0x7D, 0x60, 0x00, 0x10, 0x00, 0x02, 0x54, 0x60, 0x00, 0x10, 0x00, 0x03, 0x89, 0x60, 0x00, + 0x10, 0x00, 0xFD, 0xA1, 0x60, 0x00, 0x10, 0x00, 0xFD, 0x23, 0x60, 0x00, 0x10, 0x00, 0x01, 0x2F, 0x60, 0x00, 0x10, 0x00, 0x01, 0x28, 0x60, 0x00, + 0x10, 0x00, 0x00, 0x01, 0x60, 0x00, 0x10, 0x00, 0xFF, 0xDF, 0x60, 0x00, 0x10, 0x00, 0xFF, 0xA6, 0x60, 0x00, 0x10, 0x00, 0xFF, 0xA8, 0x60, 0x00, + 0x10, 0x00, 0x00, 0x64, 0x60, 0x00, 0xF0, 0x00, 0x10, 0x00, 0xF0, 0x00, 0xF0, 0x00, 0x10, 0x00, 0xF0, 0x00, 0xF0, 0x00, 0x17, 0x0B, 0x60, 0x08, + 0xF0, 0x00, 0x00, 0x03, 0x60, 0x00, 0xF0, 0x00, 0x54, 0xC0, 0x60, 0x00, 0x10, 0x00, 0x00, 0x05, 0x60, 0x00, 0x10, 0x00, 0x00, 0x05, 0x60, 0x00, + 0x10, 0x00, 0x00, 0x0F, 0x60, 0x00, 0x10, 0x00, 0x00, 0x0F, 0x60, 0x00, 0x10, 0x00, 0x09, 0xC0, 0x60, 0x00, 0x10, 0x00, 0x0A, 0x20, 0x60, 0x00, + 0x10, 0x00, 0x1D, 0x40, 0x60, 0x00, 0x10, 0x00, 0x1E, 0x60, 0x60, 0x00, 0xF0, 0x00, 0x10, 0x00, 0xF0, 0x00, 0xF0, 0x00, 0x10, 0x00, 0xF0, 0x00, + 0xF0, 0x00, 0x70, 0x00, 0xD0, 0x08 +}; + +unsigned char lutByteValues[]= +{ + /* + 0x40, 0x13, 0x41, 0x68, 0x41, 0xC1, 0x42, 0x14, + 0x47, 0xC5, 0x4D, 0x83, 0x4E, 0x49, 0x4E, 0x53, + 0x4F, 0x92, 0x4F, 0xEA, 0x50, 0x80, 0x56, 0x60, + 0x56, 0xD4, 0x56, 0xD9, 0x61, 0x9F, 0x61, 0xB6, + 0x64, 0x3B, 0x66, 0x09, 0x67, 0x0B, 0x67, 0x1A, + 0x68, 0x87, 0x68, 0xD4 + */ + 0x80, 0x17, 0x80, 0x45, 0x80, 0x96, 0x81, 0x5B, + 0x82, 0xD6, 0x88, 0x0B, 0x88, 0x10, 0x88, 0xDB, + 0x89, 0x48, 0x8B, 0x0A, 0x8B, 0x12, 0x8B, 0x13, + 0x8B, 0x21, 0x8B, 0x26, 0x8C, 0x6F, 0x94, 0xD0, + 0x95, 0x20, 0x95, 0x33, 0x95, 0x6F, 0x95, 0xA8, + 0x95, 0xAC, 0x95, 0xC3, 0x95, 0xE1, 0x97, 0xC9, + 0x97, 0xF6, 0x98, 0x8D, 0x99, 0x00, 0x9A, 0x00, + 0x9E, 0x73, 0xA0, 0x12, 0xA1, 0x03, 0xA2, 0xF0, + 0xA3, 0x0D, 0xA3, 0x4C, 0xA3, 0x52, 0xA3, 0xED, + 0xA8, 0x31, 0xAB, 0x01, 0xAB, 0x1F, 0xAB, 0x4C, + 0xAC, 0x76, 0xAC, 0x88, 0xAD, 0xB0, 0xAD, 0xB7, + 0xB0, 0xE2, 0xB1, 0x01, 0xB1, 0x0B, 0xB1, 0x35, + 0xB1, 0x3B, 0xB1, 0x97, 0xB3, 0x03 +}; + +const uint32_t patchSize = sizeof(patchByteValues); +const uint8_t *pPatchBytes = &patchByteValues[0]; + +const uint32_t lutSize = sizeof(lutByteValues); +const uint8_t *pLutBytes = &lutByteValues[0]; + +static const u8 init_para[] = { +//Set the Band related API settings... +11, 0x20, 0x0A, 0x01, 0x00, 0x01, 0x09, 0x38, 0x05, 0xDC, 0x05, 0xDC, //FM_BandWidth Auto, FM_Set_Bandwidth (1, 1, 2360, 1500, 1200) +5, 0x20, 0x14, 0x01, 0x00, 0x01, //FM_MphSuppression, FM_Set_MphSuppression (1, 1) +//5, 0x20, 0x16, 0x01, 0x00, 0x01, +7, 0x20, 0x17, 0x01, 0x00, 0x01, 0x05, 0xDC, //FM_NoiseBlanker, FM_Set_NoiseBlanker (1, 1, 1200) + +//Set all Weaksignal API settings (LevelOffset)... +//Set the SoftMute API settings... +9, 0x20, 0x2A, 0x01, 0x00, 0x03, 0x00, 0x64, 0x00, 0xFA, //FM_SmlMode, FM_Set_SoftMute_Level (1, 3, 100, 250) +11, 0x20, 0x28, 0x01, 0x00, 0x3C, 0x00, 0x78, 0x00, 0x0A, 0x00, 0x14, //FM_SmSlowAttack,FM_Set_SoftMute_Time (1, 60, 120, 10, 20) +9, 0x20, 0x2C, 0x01, 0x00, 0x03, 0x01, 0x90, 0x03, 0xE8, //FM_Smm,FM_Set_SoftMute_Mph (1, 3, 400, 1000) +9, 0x20, 0x2B, 0x01, 0x00, 0x03, 0x01, 0x90, 0x03, 0xE8, //FM_Smn,FM_Set_SoftMute_Noise (1, 3, 400, 1000) +7, 0x20, 0x2D, 0x01, 0x00, 0x01, 0x00, 0x64, //FM_SmMaximum,FM_Set_SoftMute_Max (1, 1, 100) + +//Set the HighCut API settings... +9, 0x20, 0x34, 0x01, 0x00, 0x01, 0x01, 0xF4, 0x00, 0xC8, //FM_HclMode,FM_Set_HighCut_Level (1, 1, 500, 200) +11, 0x20, 0x32, 0x01, 0x00, 0x3C, 0x00, 0x78, 0x00, 0x14, 0x00, 0x14, //FM_HcSlowAttack,FM_Set_HighCut_Time (1, 60, 120, 20, 20) +11, 0x20, 0x33, 0x01, 0x00, 0x01, 0x01, 0x90, 0x00, 0xC8, 0x03, 0x20, //FM_Hco,FM_Set_HighCut_Mod (1, 1, 400, 200, 800) +9, 0x20, 0x36, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Hcm,FM_Set_HighCut_Mph (1, 1, 100, 100) +9, 0x20, 0x35, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Hcn,FM_Set_HighCut_Noise (1, 1, 100, 100) +7, 0x20, 0x38, 0x01, 0x00, 0x01, 0x3A, 0x98, //FM_HcMinimum,FM_Set_HighCut_Min (1, 1, 15000) +7, 0x20, 0x3A, 0x01, 0x00, 0x01, 0x00, 0x0A, //FM_HcLowCutMinimum,FM_Set_LowCut_Min (1, 1, 100) +7, 0x20, 0x37, 0x01, 0x00, 0x01, 0x05, 0xDC, //FM_HcMaximum,FM_Set_HighCut_Max (1, 1, 1500) + +//Set the Stereo API settings... +9, 0x20, 0x3E, 0x01, 0x00, 0x01, 0x01, 0xF4, 0x00, 0xFA, //FM_StlMode,FM_Set_Stereo_Level (1, 1, 500, 250) +11, 0x20, 0x3C, 0x01, 0x00, 0x3C, 0x00, 0x78, 0x00, 0x0A, 0x00, 0x14, //FM_StSlowAttack,FM_Set_Stereo_Time (1, 60, 120, 10, 20) +11, 0x20, 0x3D, 0x01, 0x00, 0x01, 0x00, 0xC8, 0x00, 0xC8, 0x03, 0xE8, //FM_Sto,FM_Set_Stereo_Mod (1, 1, 200, 200, 1000) +9, 0x20, 0x40, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Stm,FM_Set_Stereo_Mph (1, 1, 100, 100) +9, 0x20, 0x3F, 0x01, 0x00, 0x01, 0x00, 0x64, 0x00, 0x64, //FM_Stn,FM_Set_Stereo_Noise (1, 1, 100, 100) +7, 0x20, 0x39, 0x01, 0x00, 0x01, 0x00, 0x50, +9, 0x20, 0x4A, 0x01, 0x00, 0x03, 0x00, 0x50, 0x00, 0x80, +9, 0x20, 0x49, 0x01, 0x00, 0x03, 0x00, 0x50, 0x00, 0x80, + +//Set_Deemphasis +5, 0x20, 0x1F, 0x01, 0x02, 0xEE, + +//Set RDS +9, 0x20, 0x51, 0x01, 0x00, 0x01, 0x00, 0x02, 0x00, 0x02, + +//Set the Audio and Application related API settings... +9, 0x40, 0x03, 0x01, 0x00, 0x00, 0x00, 0x21, 0x00, 0x03, //AM_GPIO 0 Feature +9, 0x40, 0x03, 0x01, 0x00, 0x01, 0x00, 0x21, 0x00, 0x00, //AM_GPIO 1 Feature +9, 0x40, 0x03, 0x01, 0x00, 0x02, 0x00, 0x21, 0x00, 0x00, //AM_GPIO 2 Feature +9, 0x40, 0x03, 0x01, 0x00, 0x00, 0x00, 0x20, 0x01, 0x01, //FM_GPIO 0 Feature set for RDS +9, 0x40, 0x03, 0x01, 0x00, 0x01, 0x00, 0x20, 0x00, 0x00, //FM_GPIO 1 Feature +9, 0x40, 0x03, 0x01, 0x00, 0x02, 0x00, 0x20, 0x00, 0x00, //FM_GPIO 2 Feature + +5, 0x20, 0x1E, 0x01, 0x00, 0x01 , +5, 0x20, 0x54, 0x01, 0x00, 0x00 , +7, 0x20, 0x0B, 0x01, 0x03, 0x7A, 0x00, 0x00 +//13, 0x30, 0x16, 0x01, 0x00, 0x21, 0x00, 0x00, 0x00, 0x20, 0x00, 0x00, 0x11, 0x3A, //Dig_IO_IIS_SD_1 Mode +//5, 0x30, 0x0B, 0x01, 0x00, 0x00, //Mute +//5, 0x30, 0x0A, 0x01, 0xFF, 0xf0, //Volume +//7, 0x30, 0x0D, 0x01, 0x00, 0x80, 0x00, 0xE0,//Audio Output Source DAC L/R +}; + +typedef enum +{ + eAR_TuningAction_Standby = 0, + eAR_TuningAction_Preset = 1, /*!< Tune to new program with short mute time */ + eAR_TuningAction_Search = 2, /*!< Tune to new program and stay muted */ + eAR_TuningAction_AF_Update = 3, /*!< Tune to alternative frequency, store quality and tune back with inaudible mute */ + eAR_TuningAction_Jump = 4, /*!< Tune to alternative frequency with short inaudible mute */ + eAR_TuningAction_Check = 5, /*!< Tune to alternative frequency and stay muted */ + eAR_TuningAction_End = 7 /*!< Release the mute of a Search/Check action (frequency is ignored) */ +} AR_TuningAction_t, *pAR_TuningAction_t; +#endif -- cgit 1.2.3-korg