From 43a1bc0445809bf59d9ec616c0ba951b1cc766f6 Mon Sep 17 00:00:00 2001 From: RocketGod <57732082+RocketGod-git@users.noreply.github.com> Date: Mon, 19 May 2025 10:16:28 -0700 Subject: [PATCH] Jammer app add modes (#2659) * Add new jammer modes Overview This PR enhances the PortaPack Jammer app by introducing eight new signal types, ported from my Flipper Zero RF Jammer app (https://github.com/RocketGod-git/flipper-zero-rf-jammer). These modes expand the app's capability to disrupt a wide range of RF communication protocols, from analog radios to modern digital systems. The implementation preserves the original app structure, resolves namespace conflicts, and ensures compatibility with the Mayhem firmware. New Modes The following modes have been added to the options_type in ui_jammer.hpp, with corresponding signal generation in proc_jammer.cpp: Noise: Generates broadband white noise to interfere with analog and digital signals (e.g., Wi-Fi, Bluetooth, key fobs). Highly effective for overwhelming receivers across a frequency range. Sine: Produces a continuous, unmodulated sine wave to jam narrowband receivers, ideal for analog FM/AM radios or telemetry systems. Square: Emits a harmonic-rich square wave, disrupting digital protocols (e.g., OOK, ASK) and systems sensitive to sharp transitions, such as remote keyless entry. Sawtooth (Experimental): Generates a sawtooth wave with a unique harmonic profile, useful for testing interference against PWM-based or niche analog systems. Triangle (Experimental): Creates a triangle wave with minimal harmonics, suitable for exploratory jamming of narrowband systems or receiver linearity testing. Chirp: Outputs a rapid frequency-sweeping chirp signal, effective against frequency-hopping and spread-spectrum systems (e.g., some Wi-Fi, Bluetooth, or military radios). Gauss: Generates Gaussian noise to mimic natural interference, targeting digital systems like GPS or data links by degrading signal-to-noise ratios. Brute (Experimental): Transmits a constant maximum-amplitude signal to saturate simple receiver front-ends, useful for brute-force jamming of basic analog devices. * Add new jammer modes Overview This PR enhances the PortaPack Jammer app by introducing eight new signal types, ported from my Flipper Zero RF Jammer app (https://github.com/RocketGod-git/flipper-zero-rf-jammer). These modes expand the app's capability to disrupt a wide range of RF communication protocols, from analog radios to modern digital systems. The implementation preserves the original app structure, resolves namespace conflicts, and ensures compatibility with the Mayhem firmware. New Modes The following modes have been added to the options_type in ui_jammer.hpp, with corresponding signal generation in proc_jammer.cpp: Noise: Generates broadband white noise to interfere with analog and digital signals (e.g., Wi-Fi, Bluetooth, key fobs). Highly effective for overwhelming receivers across a frequency range. Sine: Produces a continuous, unmodulated sine wave to jam narrowband receivers, ideal for analog FM/AM radios or telemetry systems. Square: Emits a harmonic-rich square wave, disrupting digital protocols (e.g., OOK, ASK) and systems sensitive to sharp transitions, such as remote keyless entry. Sawtooth (Experimental): Generates a sawtooth wave with a unique harmonic profile, useful for testing interference against PWM-based or niche analog systems. Triangle (Experimental): Creates a triangle wave with minimal harmonics, suitable for exploratory jamming of narrowband systems or receiver linearity testing. Chirp: Outputs a rapid frequency-sweeping chirp signal, effective against frequency-hopping and spread-spectrum systems (e.g., some Wi-Fi, Bluetooth, or military radios). Gauss: Generates Gaussian noise to mimic natural interference, targeting digital systems like GPS or data links by degrading signal-to-noise ratios. Brute (Experimental): Transmits a constant maximum-amplitude signal to saturate simple receiver front-ends, useful for brute-force jamming of basic analog devices. --- .../application/external/jammer/ui_jammer.hpp | 18 +++-- firmware/baseband/proc_jammer.cpp | 66 ++++++++++++++----- firmware/baseband/proc_jammer.hpp | 7 +- firmware/common/jammer.hpp | 17 +++-- 4 files changed, 82 insertions(+), 26 deletions(-) diff --git a/firmware/application/external/jammer/ui_jammer.hpp b/firmware/application/external/jammer/ui_jammer.hpp index 3a34dbf2c..73b2d9dcd 100644 --- a/firmware/application/external/jammer/ui_jammer.hpp +++ b/firmware/application/external/jammer/ui_jammer.hpp @@ -1,6 +1,7 @@ /* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek + * Copyright (C) 2025 RocketGod - Added modes from my Flipper Zero RF Jammer App - https://betaskynet.com * * This file is part of PortaPack. * @@ -150,12 +151,17 @@ class JammerView : public View { OptionsField options_type{ {7 * 8, 23 * 8}, 8, - { - {"Rand FSK", 0}, - {"FM tone", 1}, - {"CW sweep", 2}, - {"Rand CW", 3}, - }}; + {{"Rand FSK", 0}, + {"FM tone", 1}, + {"CW sweep", 2}, + {"Noise", 3}, + {"Sine", 4}, + {"Square", 5}, + {"Sawtooth", 6}, + {"Triangle", 7}, + {"Chirp", 8}, + {"Gauss", 9}, + {"Brute", 10}}}; Text text_range_number{ {16 * 8, 23 * 8, 2 * 8, 16}, diff --git a/firmware/baseband/proc_jammer.cpp b/firmware/baseband/proc_jammer.cpp index 893e49035..cce46029a 100644 --- a/firmware/baseband/proc_jammer.cpp +++ b/firmware/baseband/proc_jammer.cpp @@ -1,6 +1,7 @@ /* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek + * Copyright (C) 2025 RocketGod - Added modes from my Flipper Zero RF Jammer App - https://betaskynet.com * * This file is part of PortaPack. * @@ -26,22 +27,26 @@ #include "event_m4.hpp" #include +#include +#include + +#ifndef M_PI +#define M_PI 3.14159265358979323846f +#endif void JammerProcessor::execute(const buffer_c8_t& buffer) { if (!configured) return; for (size_t i = 0; i < buffer.count; i++) { if (!jammer_duration) { - // Find next enabled range do { current_range++; if (current_range == JAMMER_MAX_CH) current_range = 0; } while (!jammer_channels[current_range].enabled); jammer_duration = jammer_channels[current_range].duration; - jammer_bw = jammer_channels[current_range].width / 2; // TODO: Exact value + jammer_bw = jammer_channels[current_range].width / 2; - // Ask for retune message.freq = jammer_channels[current_range].center; message.range = current_range; shared_memory.application_queue.push(message); @@ -49,26 +54,51 @@ void JammerProcessor::execute(const buffer_c8_t& buffer) { jammer_duration--; } - // Phase noise if (!period_counter) { period_counter = noise_period; - if (noise_type == JammerType::TYPE_FSK) { + if (noise_type == jammer::JammerType::TYPE_FSK) { sample = (sample + lfsr) >> 1; - } else if (noise_type == JammerType::TYPE_TONE) { - tone_delta = 150000 + (lfsr >> 9); // Approx 100Hz to 6kHz - } else if (noise_type == JammerType::TYPE_SWEEP) { - sample++; // This is like saw wave FM + } else if (noise_type == jammer::JammerType::TYPE_TONE) { + tone_delta = 150000 + (lfsr >> 9); + } else if (noise_type == jammer::JammerType::TYPE_SWEEP) { + sample++; + } else if (noise_type == jammer::JammerType::TYPE_RANDOM) { + sample = lfsr & 0xFF; + } else if (noise_type == jammer::JammerType::TYPE_SINE) { + wave_phase += 0x01000000; + sample = sine_table_i8[(wave_phase >> 24) & 0xFF]; + } else if (noise_type == jammer::JammerType::TYPE_SQUARE) { + wave_index = (wave_index + 1) % 2; + sample = wave_index ? 127 : -128; + } else if (noise_type == jammer::JammerType::TYPE_SAWTOOTH) { + wave_index = (wave_index + 1) % 256; + sample = (wave_index * 127) / 255 - 128; + } else if (noise_type == jammer::JammerType::TYPE_TRIANGLE) { + wave_index = (wave_index + 1) % 256; + sample = (wave_index < 128 ? wave_index : (255 - wave_index)) * 127 / 127 - 128; + } else if (noise_type == jammer::JammerType::TYPE_CHIRP) { + chirp_freq += 0.01f; + if (chirp_freq > 1.0f) chirp_freq = 0.0f; + wave_phase += static_cast(0x01000000 * (1.0f + chirp_freq)); + sample = sine_table_i8[(wave_phase >> 24) & 0xFF]; + } else if (noise_type == jammer::JammerType::TYPE_GAUSSIAN) { + float u1 = static_cast(lfsr & 0xFFFF) / 0x10000; + float u2 = static_cast((lfsr >> 16) & 0xFFFF) / 0x10000; + float gaussian = std::sqrt(-2.0f * std::log(u1)) * std::cos(2 * M_PI * u2); + sample = static_cast(gaussian * 32); + } else if (noise_type == jammer::JammerType::TYPE_BRUTEFORCE) { + sample = 127; } feedback = ((lfsr >> 31) ^ (lfsr >> 29) ^ (lfsr >> 15) ^ (lfsr >> 11)) & 1; lfsr = (lfsr << 1) | feedback; - if (!lfsr) lfsr = 0x1337; // Shouldn't do this :( + if (!lfsr) lfsr = 0x1337; } else { period_counter--; } - if (noise_type == JammerType::TYPE_TONE) { + if (noise_type == jammer::JammerType::TYPE_TONE) { aphase += tone_delta; sample = sine_table_i8[(aphase & 0xFF000000) >> 24]; } @@ -78,12 +108,12 @@ void JammerProcessor::execute(const buffer_c8_t& buffer) { phase += delta; sphase = phase + (64 << 24); - re = (sine_table_i8[(sphase & 0xFF000000) >> 24]); - im = (sine_table_i8[(phase & 0xFF000000) >> 24]); + re = sine_table_i8[(sphase & 0xFF000000) >> 24]; + im = sine_table_i8[(phase & 0xFF000000) >> 24]; buffer.p[i] = {re, im}; } -}; +} void JammerProcessor::on_message(const Message* const msg) { if (msg->id == Message::ID::JammerConfigure) { @@ -93,12 +123,18 @@ void JammerProcessor::on_message(const Message* const msg) { jammer_channels = (JammerChannel*)shared_memory.bb_data.data; noise_type = message.type; noise_period = 3072000 / message.speed; - if (noise_type == JammerType::TYPE_SWEEP) + if (noise_type == jammer::JammerType::TYPE_SWEEP || noise_type == jammer::JammerType::TYPE_SINE || + noise_type == jammer::JammerType::TYPE_SQUARE || noise_type == jammer::JammerType::TYPE_SAWTOOTH || + noise_type == jammer::JammerType::TYPE_TRIANGLE || noise_type == jammer::JammerType::TYPE_CHIRP || + noise_type == jammer::JammerType::TYPE_GAUSSIAN || noise_type == jammer::JammerType::TYPE_BRUTEFORCE) noise_period >>= 8; period_counter = 0; jammer_duration = 0; current_range = 0; lfsr = 0xDEAD0012; + wave_phase = 0; + wave_index = 0; + chirp_freq = 0.0f; configured = true; } else { diff --git a/firmware/baseband/proc_jammer.hpp b/firmware/baseband/proc_jammer.hpp index e9fa45c5d..2919bae21 100644 --- a/firmware/baseband/proc_jammer.hpp +++ b/firmware/baseband/proc_jammer.hpp @@ -1,6 +1,7 @@ /* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek + * Copyright (C) 2025 RocketGod - Added modes from my Flipper Zero RF Jammer App - https://betaskynet.com * * This file is part of PortaPack. * @@ -27,6 +28,8 @@ #include "baseband_thread.hpp" #include "portapack_shared_memory.hpp" #include "jammer.hpp" +#include +#include using namespace jammer; @@ -50,9 +53,11 @@ class JammerProcessor : public BasebandProcessor { uint32_t aphase{0}, phase{0}, delta{0}, sphase{0}; int8_t sample{0}; int8_t re{0}, im{0}; + uint32_t wave_phase{0}; + uint32_t wave_index{0}; + float chirp_freq{0.0f}; RetuneMessage message{}; - /* NB: Threads should be the last members in the class definition. */ BasebandThread baseband_thread{3072000, this, baseband::Direction::Transmit}; }; diff --git a/firmware/common/jammer.hpp b/firmware/common/jammer.hpp index 29fadde8d..3c3072b66 100644 --- a/firmware/common/jammer.hpp +++ b/firmware/common/jammer.hpp @@ -1,6 +1,7 @@ /* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek + * Copyright (C) 2025 RocketGod - Added modes from my Flipper Zero RF Jammer App - https://betaskynet.com * * This file is part of PortaPack. * @@ -20,12 +21,12 @@ * Boston, MA 02110-1301, USA. */ -#define JAMMER_CH_WIDTH 1000000 -#define JAMMER_MAX_CH 24 - #ifndef __JAMMER_H__ #define __JAMMER_H__ +#define JAMMER_CH_WIDTH 1000000 +#define JAMMER_MAX_CH 24 + namespace jammer { typedef struct jammer_range { @@ -37,7 +38,15 @@ typedef struct jammer_range { enum JammerType : uint32_t { TYPE_FSK = 0, TYPE_TONE = 1, - TYPE_SWEEP = 2 + TYPE_SWEEP = 2, + TYPE_RANDOM = 3, + TYPE_SINE = 4, + TYPE_SQUARE = 5, + TYPE_SAWTOOTH = 6, + TYPE_TRIANGLE = 7, + TYPE_CHIRP = 8, + TYPE_GAUSSIAN = 9, + TYPE_BRUTEFORCE = 10 }; } /* namespace jammer */