/* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc. * * This file is part of PortaPack. * * 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, 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; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "portapack.hpp" #include "portapack_hal.hpp" #include "portapack_dma.hpp" #include "portapack_cpld_data.hpp" #include "portapack_persistent_memory.hpp" #include "hackrf_hal.hpp" #include "hackrf_gpio.hpp" using namespace hackrf::one; #include "jtag_target_gpio.hpp" #include "clock_manager.hpp" #include "event_m0.hpp" #include "backlight.hpp" #include "touch_adc.hpp" #include "audio.hpp" #include "wm8731.hpp" using wolfson::wm8731::WM8731; #include "ak4951.hpp" using asahi_kasei::ak4951::AK4951; #include "cpld_update.hpp" #include "optional.hpp" #include "irq_controls.hpp" #include "file.hpp" #include "sd_card.hpp" #include "string_format.hpp" #include "bitmap.hpp" #include "ui_widget.hpp" #include "i2cdevmanager.hpp" #include "battery.hpp" namespace portapack { const char* init_error = nullptr; portapack::IO io{ portapack::gpio_dir, portapack::gpio_lcd_rdx, portapack::gpio_lcd_wrx, portapack::gpio_io_stbx, portapack::gpio_addr, portapack::gpio_lcd_te, portapack::gpio_dfu, }; portapack::BacklightCAT4004 backlight_cat4004; portapack::BacklightOnOff backlight_on_off; lcd::ILI9341 display; I2C i2c0(&I2CD0); SPI ssp1(&SPID2); portapack::USBSerial usb_serial; si5351::Si5351 clock_generator{ i2c0, hackrf::one::si5351_i2c_address}; ClockManager clock_manager{ i2c0, clock_generator}; WM8731 audio_codec_wm8731{i2c0, 0x1a}; AK4951 audio_codec_ak4951{i2c0, 0x12}; ReceiverModel receiver_model; TransmitterModel transmitter_model; TemperatureLogger temperature_logger; bool antenna_bias{false}; uint32_t bl_tick_counter{0}; void set_antenna_bias(const bool v) { antenna_bias = v; } bool get_antenna_bias() { return antenna_bias; } static constexpr uint32_t systick_count(const uint32_t clock_source_f) { return clock_source_f / CH_FREQUENCY; } static constexpr uint32_t systick_load(const uint32_t clock_source_f) { return systick_count(clock_source_f) - 1; } constexpr uint32_t i2c0_bus_f = 400000; constexpr uint32_t i2c0_high_period_ns = 900; typedef struct { uint32_t clock_f; uint32_t systick_count; uint32_t idivb; uint32_t idivc; } clock_config_t; static constexpr uint32_t idiv_config(const cgu::CLK_SEL clk_sel, const uint32_t idiv) { return cgu::IDIV_CTRL{0, idiv - 1, 1, clk_sel}; } constexpr clock_config_t clock_config_irc{ 12000000, systick_load(12000000), idiv_config(cgu::CLK_SEL::IRC, 1), idiv_config(cgu::CLK_SEL::IRC, 1), }; constexpr clock_config_t clock_config_pll1_boot{ 96000000, systick_load(96000000), idiv_config(cgu::CLK_SEL::PLL1, 9), idiv_config(cgu::CLK_SEL::PLL1, 3), }; constexpr clock_config_t clock_config_pll1_step{ 100000000, systick_load(100000000), idiv_config(cgu::CLK_SEL::PLL1, 1), idiv_config(cgu::CLK_SEL::PLL1, 1), }; constexpr clock_config_t clock_config_pll1{ 200000000, systick_load(200000000), idiv_config(cgu::CLK_SEL::PLL1, 2), idiv_config(cgu::CLK_SEL::PLL1, 1), }; constexpr I2CClockConfig i2c_clock_config_400k_boot_clock{ .clock_source_f = clock_config_pll1_boot.clock_f, .bus_f = i2c0_bus_f, .high_period_ns = i2c0_high_period_ns, }; constexpr I2CClockConfig i2c_clock_config_400k_fast_clock{ .clock_source_f = clock_config_pll1.clock_f, .bus_f = i2c0_bus_f, .high_period_ns = i2c0_high_period_ns, }; constexpr I2CConfig i2c_config_boot_clock{ .high_count = i2c_clock_config_400k_boot_clock.i2c_high_count(), .low_count = i2c_clock_config_400k_boot_clock.i2c_low_count(), }; constexpr I2CConfig i2c_config_fast_clock{ .high_count = i2c_clock_config_400k_fast_clock.i2c_high_count(), .low_count = i2c_clock_config_400k_fast_clock.i2c_low_count(), }; enum class PortaPackModel { R1_20150901, R2_20170522, AGM, AUTODETECT, }; static bool save_config(int8_t value) { persistent_memory::set_config_cpld(value); portapack::persistent_memory::cache::persist(); return true; } static int load_config() { static Optional config_value; if (!config_value.is_valid()) { int8_t value = portapack::persistent_memory::config_cpld(); config_value = value; } return config_value.value(); } static PortaPackModel portapack_model() { static Optional model; if (!model.is_valid()) { jtag::GPIOTarget target{ portapack::gpio_cpld_tck, portapack::gpio_cpld_tms, portapack::gpio_cpld_tdi, portapack::gpio_cpld_tdo}; jtag::JTAG jtag{target}; portapack::cpld::CPLD cpld{jtag}; cpld.reset(); cpld.run_test_idle(); uint32_t idcode = cpld.get_idcode(); if (idcode == 0x25610) { model = PortaPackModel::AGM; } else { const auto switches_state = swizzled_switches(); // chDbgPanic(to_string_hex((uint32_t)switches_state.count(), 8).c_str()); // Only save config if no other multi key boot action is triggered (like pmem reset) if (((switches_state >> (size_t)ui::KeyEvent::Up) & 1) == 1) { save_config(1); // model = PortaPackModel::R2_20170522; // Commented these out as they should be set down below anyway } else if (((switches_state >> (size_t)ui::KeyEvent::Down) & 1) == 1) { save_config(2); // model = PortaPackModel::R1_20150901; } else if (((switches_state >> (size_t)ui::KeyEvent::Left) & 1) == 1) { save_config(3); // model = PortaPackModel::R1_20150901; } else if (((switches_state >> (size_t)ui::KeyEvent::Right) & 1) == 1) { save_config(4); // model = PortaPackModel::R2_20170522; } else if (((switches_state >> (size_t)ui::KeyEvent::Select) & 1) == 1) { save_config(0); } if (load_config() == 1) { model = PortaPackModel::R2_20170522; } else if (load_config() == 2) { model = PortaPackModel::R1_20150901; } else if (load_config() == 3) { model = PortaPackModel::R1_20150901; } else if (load_config() == 4) { model = PortaPackModel::R2_20170522; } else { model = PortaPackModel::AUTODETECT; } } } return model.value(); } // audio_codec_wm8731 = H1R1 & H2+ // audio_codec_ak4951 = H1R2 static audio::Codec* portapack_audio_codec() { /* I2C ready OK, Automatic recognition of audio chip */ return (audio_codec_wm8731.detected()) ? static_cast(&audio_codec_wm8731) : static_cast(&audio_codec_ak4951); } static const portapack::cpld::Config& portapack_cpld_config() { return (portapack_model() == PortaPackModel::R2_20170522) ? portapack::cpld::rev_20170522::config : portapack::cpld::rev_20150901::config; } Backlight* backlight() { return (portapack_model() == PortaPackModel::R2_20170522) ? static_cast(&backlight_cat4004) // R2_20170522 : static_cast(&backlight_on_off); // R1_20150901 } #define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0])) static LPC_CGU_BASE_CLK_Type* const base_clocks_idivc[] = { &LPC_CGU->BASE_PERIPH_CLK, &LPC_CGU->BASE_M4_CLK, &LPC_CGU->BASE_APB1_CLK, &LPC_CGU->BASE_APB3_CLK, &LPC_CGU->BASE_SDIO_CLK, &LPC_CGU->BASE_SSP1_CLK, }; static void set_idivc_base_clocks(const cgu::CLK_SEL clock_source) { for (uint32_t i = 0; i < ARRAY_SIZE(base_clocks_idivc); i++) { base_clocks_idivc[i]->AUTOBLOCK = 1; base_clocks_idivc[i]->CLK_SEL = toUType(clock_source); } } static void set_clock_config(const clock_config_t& config) { LPC_CGU->IDIVB_CTRL.word = config.idivb; LPC_CGU->IDIVC_CTRL.word = config.idivc; systick_adjust_period(config.systick_count); halLPCSetSystemClock(config.clock_f); } static void shutdown_base() { i2c0.stop(); set_clock_config(clock_config_irc); cgu::pll1::disable(); set_idivc_base_clocks(cgu::CLK_SEL::IRC); cgu::pll1::ctrl({ .pd = 1, .bypass = 0, .fbsel = 0, .direct = 1, .psel = 0, .autoblock = 1, .nsel = 0, .msel = 23, .clk_sel = cgu::CLK_SEL::IRC, }); cgu::pll1::enable(); while (!cgu::pll1::is_locked()) ; set_clock_config(clock_config_pll1_boot); i2c0.start(i2c_config_boot_clock); clock_manager.shutdown(); } static void set_cpu_clock_speed() { /* Incantation from LPC43xx UM10503 section 12.2.1.1, to bring the M4 * core clock speed to the 110 - 204MHz range. */ /* Step into the 90-110MHz M4 clock range */ /* OG: * Fclkin = 40M * /N=2 = 20M = PFDin * Fcco = PFDin * (M=10) = 200M * r9: * Fclkin = 10M * /N=1 = 10M = PFDin * Fcco = PFDin * (M=20) = 200M * Fclk = Fcco / (2*(P=1)) = 100M */ cgu::pll1::ctrl({ .pd = 1, .bypass = 0, .fbsel = 0, .direct = 0, .psel = 0, .autoblock = 1, .nsel = hackrf_r9 ? 0UL : 1UL, .msel = hackrf_r9 ? 19UL : 9UL, .clk_sel = cgu::CLK_SEL::GP_CLKIN, }); cgu::pll1::enable(); while (!cgu::pll1::is_locked()) ; set_clock_config(clock_config_pll1_step); /* Delay >50us at 90-110MHz clock speed */ volatile uint32_t delay = 1400; while (delay--) ; set_clock_config(clock_config_pll1); /* Remove /2P divider from PLL1 output to achieve full speed */ cgu::pll1::direct(); } static void draw_splash_screen_icon(int16_t n, const ui::Bitmap& bitmap) { ui::Painter painter; painter.draw_bitmap( {portapack::display.width() / 2 - 8 - 40 + (n * 20), portapack::display.height() / 2 - 8 + 40}, bitmap, Theme::getInstance()->bg_darkest->foreground, Theme::getInstance()->bg_darkest->background); } static bool is_portapack_present() { systime_t timeout = 50; uint8_t wm8731_reset_command[] = {0x0f, 0x00}; if (i2c0.transmit(0x1a /* wm8731 */, wm8731_reset_command, 2, timeout) == false) { audio_codec_ak4951.reset(); uint8_t ak4951_init_command[] = {0x00, 0x00}; i2c0.transmit(0x12 /* ak4951 */, ak4951_init_command, 2, timeout); chThdSleepMilliseconds(10); if (i2c0.transmit(0x12 /* ak4951 */, ak4951_init_command, 2, timeout) == false) { shutdown_base(); return false; } } return true; } static bool check_portapack_cpld() { switch (portapack_model()) { case PortaPackModel::AUTODETECT: { portapack::cpld::CpldUpdateStatus result = portapack::cpld::update_autodetect( portapack::cpld::rev_20150901::config, portapack::cpld::rev_20170522::config); if (result != portapack::cpld::CpldUpdateStatus::Success) { shutdown_base(); return false; } } break; case PortaPackModel::R1_20150901: case PortaPackModel::R2_20170522: { portapack::cpld::CpldUpdateStatus result = portapack::cpld::update_if_necessary(portapack_cpld_config()); if (result == portapack::cpld::CpldUpdateStatus::Program_failed) { chThdSleepMilliseconds(10); // Mode left (R1) and right (R2,H2,H2+) bypass going into hackrf mode after failing CPLD update // Mode center (autodetect), up (R1) and down (R2,H2,H2+) will go into hackrf mode after failing CPLD update if (load_config() != 3 /* left */ && load_config() != 4 /* right */) { shutdown_base(); return false; } } } break; case PortaPackModel::AGM: // the AGM devices are always factory flashed. so do nothing break; } return true; } static void initialize_boot_splash_screen() { ui::Painter painter; portapack::display.init(); painter.fill_rectangle( {0, 0, portapack::display.width(), portapack::display.height()}, Theme::getInstance()->bg_darkest->background); chThdSleepMilliseconds(17); portapack::backlight()->on(); painter.draw_bitmap( {portapack::display.width() / 2 - 40, portapack::display.height() / 2 - 8}, ui::bitmap_titlebar_image, Theme::getInstance()->bg_darkest->foreground, Theme::getInstance()->bg_darkest->background); } /* Clock scheme after exiting bootloader in SPIFI mode: * * XTAL_OSC = powered down * * PLL0USB = powered down * PLL0AUDIO = powered down * PLL1 = IRC * 24 = 288 MHz * * IDIVA = IRC / 1 = 12 MHz * IDIVB = PLL1 / 9 = 32 MHz * IDIVC = PLL1 / 3 = 96 MHz * IDIVD = IRC / 1 = 12 MHz * IDIVE = IRC / 1 = 12 MHz * * BASE_USB0_CLK = PLL0USB * BASE_PERIPH_CLK = IRC * BASE_M4_CLK = IDIVC (96 MHz) * BASE_SPIFI_CLK = IDIVB (32 MHZ) * * everything else = IRC */ /* Clock scheme during PortaPack operation: * * XTAL_OSC = powered down * * PLL0USB = XTAL, 480 MHz * PLL0AUDIO = GP_CLKIN, Fcco=491.52 MHz, Fout=12.288 MHz * PLL1 = * OG: GP_CLKIN * 10 = 200 MHz * r9: GP_CLKIN * 20 = 200 MHz * IDIVA = IRC / 1 = 12 MHz * IDIVB = PLL1 / 2 = 100 MHz * IDIVC = PLL1 / 1 = 200 MHz * IDIVD = PLL0AUDIO / N (where N is varied depending on decimation factor) * IDIVE = IRC / 1 = 12 MHz * * BASE_USB0_CLK = PLL0USB * BASE_PERIPH_CLK = IRC * BASE_M4_CLK = IDIVC (200 MHz) * BASE_SPIFI_CLK = IDIVB (100 MHZ) * BASE_AUDIO_CLK = IDIVD * * everything else = IRC */ init_status_t init() { set_idivc_base_clocks(cgu::CLK_SEL::IDIVC); i2c0.start(i2c_config_boot_clock); chThdSleepMilliseconds(100); configure_pins_portapack(); portapack::io.init(); persistent_memory::cache::init(); const auto switches_state = swizzled_switches() & (~(0xC0 | 0x80)); bool lcd_fast_setup = switches_state == 0 && portapack::display.read_display_status(); if (lcd_fast_setup) { initialize_boot_splash_screen(); } else { if (check_portapack_cpld() == false) return init_status_t::INIT_PORTAPACK_CPLD_FAILED; } /* Cache some configuration data from persistent memory. */ rtc_time::dst_init(); chThdSleepMilliseconds(10); clock_manager.init_clock_generator(); i2c0.stop(); chThdSleepMilliseconds(10); set_clock_config(clock_config_irc); cgu::pll1::disable(); set_cpu_clock_speed(); if (persistent_memory::config_lcd_inverted_mode()) display.set_inverted(true); if (lcd_fast_setup) draw_splash_screen_icon(0, ui::bitmap_icon_memory); usb_serial.initialize(); i2c0.start(i2c_config_fast_clock); chThdSleepMilliseconds(10); /* Check if portapack is attached by checking if any of the two audio chips is present. */ if (lcd_fast_setup == false && is_portapack_present() == false) return init_status_t::INIT_NO_PORTAPACK; if (lcd_fast_setup) draw_splash_screen_icon(1, ui::bitmap_icon_remote); touch::adc::init(); controls_init(); chThdSleepMilliseconds(10); clock_manager.set_reference_ppb(persistent_memory::correction_ppb()); clock_manager.enable_if_clocks(); clock_manager.enable_codec_clocks(); radio::init(); sdcStart(&SDCD1, nullptr); sd_card::poll_inserted(); chThdSleepMilliseconds(10); if (lcd_fast_setup) draw_splash_screen_icon(2, ui::bitmap_icon_sd); init_status_t return_code = init_status_t::INIT_SUCCESS; if (!hackrf::cpld::load_sram()) { if (lcd_fast_setup) chDbgPanic("HACKRF CPLD FAILED"); return_code = init_status_t::INIT_HACKRF_CPLD_FAILED; } if (lcd_fast_setup) draw_splash_screen_icon(3, ui::bitmap_icon_hackrf); chThdSleepMilliseconds(10); // This delay seems to solve white noise audio issues LPC_CREG->DMAMUX = portapack::gpdma_mux; gpdma::controller.enable(); chThdSleepMilliseconds(10); audio::init(portapack_audio_codec()); battery::BatteryManagement::set_calc_override(persistent_memory::ui_override_batt_calc()); i2cdev::I2CDevManager::init(); if (lcd_fast_setup) draw_splash_screen_icon(4, ui::bitmap_icon_speaker); else { portapack::display.init(); portapack::backlight()->on(); } return return_code; } void shutdown(const bool leave_screen_on) { gpdma::controller.disable(); if (!leave_screen_on) { backlight()->off(); display.shutdown(); } receiver_model.disable(); transmitter_model.disable(); audio::shutdown(); hackrf::cpld::init_from_eeprom(); shutdown_base(); } void setEventDispatcherToUSBSerial(EventDispatcher* evt) { usb_serial.setEventDispatcher(evt); } bool async_tx_enabled = false; // this is for serial tx things, globally } /* namespace portapack */