// // kernel.cpp // // MiniDexed - Dexed FM synthesizer for bare metal Raspberry Pi // Copyright (C) 2022 The MiniDexed Team // // 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 3 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 . // #include "kernel.h" #include #include #include #include #include #include "usbminidexedmidigadget.h" #define NET_DEVICE_TYPE NetDeviceTypeWLAN // or: NetDeviceTypeWLAN LOGMODULE ("kernel"); CKernel *CKernel::s_pThis = 0; CKernel::CKernel (void) : CStdlibAppStdio ("minidexed"), m_Config (&mFileSystem), m_GPIOManager (&mInterrupt), m_I2CMaster (CMachineInfo::Get ()->GetDevice (DeviceI2CMaster), TRUE), m_pSPIMaster (nullptr), m_pDexed (0) { s_pThis = this; // mActLED.Blink (5); // show we are alive } CKernel::~CKernel(void) { s_pThis = 0; } bool CKernel::Initialize (void) { if (!CStdlibAppStdio::Initialize ()) { return FALSE; } mLogger.RegisterPanicHandler (PanicHandler); if (!m_GPIOManager.Initialize ()) { return FALSE; } if (!m_I2CMaster.Initialize ()) { return FALSE; } m_Config.Load (); unsigned nSPIMaster = m_Config.GetSPIBus(); unsigned nSPIMode = m_Config.GetSPIMode(); unsigned long nSPIClock = 1000 * m_Config.GetSPIClockKHz(); #if RASPPI<4 // By default older RPI versions use SPI 0. // It is possible to build circle to support SPI 1 for // devices that use the 40-pin header, but that isn't // enabled at present... if (nSPIMaster == 0) #else // RPI 4+ has several possible SPI Bus Configurations. // As mentioned above, SPI 1 is not built by default. // See circle/include/circle/spimaster.h if (nSPIMaster == 0 || nSPIMaster == 3 || nSPIMaster == 4 || nSPIMaster == 5 || nSPIMaster == 6) #endif { unsigned nCPHA = (nSPIMode & 1) ? 1 : 0; unsigned nCPOL = (nSPIMode & 2) ? 1 : 0; m_pSPIMaster = new CSPIMaster (nSPIClock, nCPOL, nCPHA, nSPIMaster); if (!m_pSPIMaster->Initialize()) { delete (m_pSPIMaster); m_pSPIMaster = nullptr; } } bool bUSBGadgetMode = false; if (m_Config.GetUSBGadget()) { unsigned nUSBGadgetPin = m_Config.GetUSBGadgetPin(); if (nUSBGadgetPin == 0) { // No hardware config option bUSBGadgetMode = true; } else { // State of USB Gadget Mode determined by state of the pin. // Pulled down = enable USB Gadget mode CGPIOPin usbGadgetPin(nUSBGadgetPin, GPIOModeInputPullUp); if (usbGadgetPin.Read() == 0) { bUSBGadgetMode = true; } } } if (bUSBGadgetMode) { #if RASPPI==5 #warning No support for USB Gadget Mode on RPI 5 yet #else // Run the USB stack in USB Gadget (device) mode m_pUSB = new CUSBMiniDexedMIDIGadget (&mInterrupt); #endif } else { // Run the USB stack in USB Host (default) mode m_pUSB = new CUSBHCIDevice (&mInterrupt, &mTimer, TRUE); } m_Config.SetUSBGadgetMode(bUSBGadgetMode); if (!m_pUSB->Initialize ()) { return FALSE; } m_pDexed = new CMiniDexed (&m_Config, &mInterrupt, &m_GPIOManager, &m_I2CMaster, m_pSPIMaster, &mFileSystem); assert (m_pDexed); if (!m_pDexed->Initialize ()) { return FALSE; } return TRUE; } CStdlibApp::TShutdownMode CKernel::Run (void) { assert (m_pDexed); while (42 == 42) { boolean bUpdated = m_pUSB->UpdatePlugAndPlay (); m_pDexed->Process(bUpdated); if (mbScreenAvailable) { mScreen.Update (); } m_CPUThrottle.Update (); } return ShutdownHalt; } void CKernel::PanicHandler (void) { EnableIRQs (); if (s_pThis->mbScreenAvailable) { s_pThis->mScreen.Update (4096); } }