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MiniDexed/src/circle_stdlib_app.h

304 lines
8.5 KiB

/**
* This file has been taken from the circle-stdlib project:
* https://github.com/smuehlst/circle-stdlib
*
* Convenience classes that package different levels
* of functionality of Circle applications.
*
* Derive the kernel class of the application from one of
* the CStdlibApp* classes and implement at least the
* Run () method. Extend the Initalize () and Cleanup ()
* methods if necessary.
*/
#ifndef _circle_stdlib_app_h
#define _circle_stdlib_app_h
#include <circle/actled.h>
#include <circle/string.h>
#include <circle/koptions.h>
#include <circle/devicenameservice.h>
#include <circle/nulldevice.h>
#include <circle/exceptionhandler.h>
#include <circle/interrupt.h>
#include <circle/screen.h>
#include <circle/serial.h>
#include <circle/timer.h>
#include <circle/logger.h>
#include <circle/usb/usbhcidevice.h>
#include <SDCard/emmc.h>
#include <circle/input/console.h>
#include <circle/sched/scheduler.h>
#include <circle/net/netsubsystem.h>
#include <wlan/bcm4343.h>
#include <wlan/hostap/wpa_supplicant/wpasupplicant.h>
#include <circle_glue.h>
#include <string.h>
/**
* Basic Circle Stdlib application that supports GPIO access.
*/
class CStdlibApp
{
public:
enum TShutdownMode
{
ShutdownNone,
ShutdownHalt,
ShutdownReboot
};
CStdlibApp (const char *kernel) :
FromKernel (kernel)
{
}
virtual ~CStdlibApp (void)
{
}
virtual bool Initialize (void)
{
return mInterrupt.Initialize ();
}
virtual void Cleanup (void)
{
}
virtual TShutdownMode Run (void) = 0;
const char *GetKernelName(void) const
{
return FromKernel;
}
protected:
CActLED mActLED;
CKernelOptions mOptions;
CDeviceNameService mDeviceNameService;
CNullDevice mNullDevice;
CExceptionHandler mExceptionHandler;
CInterruptSystem mInterrupt;
private:
char const *FromKernel;
};
/**
* Stdlib application that adds screen support
* to the basic CStdlibApp features.
*/
class CStdlibAppScreen : public CStdlibApp
{
public:
CStdlibAppScreen(const char *kernel)
: CStdlibApp (kernel),
mScreen (mOptions.GetWidth (), mOptions.GetHeight ()),
mTimer (&mInterrupt),
mLogger (mOptions.GetLogLevel (), &mTimer)
{
}
virtual bool Initialize (void)
{
if (!CStdlibApp::Initialize ())
{
return false;
}
if (!mScreen.Initialize ())
{
return false;
}
#if 0
if (!mSerial.Initialize (115200))
{
return false;
}
#endif
CDevice *pTarget =
mDeviceNameService.GetDevice (mOptions.GetLogDevice (), false);
if (pTarget == 0)
{
pTarget = &mScreen;
}
if (!mLogger.Initialize (pTarget))
{
return false;
}
return mTimer.Initialize ();
}
protected:
CScreenDevice mScreen;
//CSerialDevice mSerial;
CTimer mTimer;
CLogger mLogger;
};
/**
* Stdlib application that adds stdio support
* to the CStdlibAppScreen functionality.
*/
class CStdlibAppStdio: public CStdlibAppScreen
{
private:
char const *mpPartitionName;
public:
// TODO transform to constexpr
// constexpr char static DefaultPartition[] = "emmc1-1";
#define CSTDLIBAPP_LEGACY_DEFAULT_PARTITION "emmc1-1"
#define CSTDLIBAPP_DEFAULT_PARTITION "SD:"
CStdlibAppStdio (const char *kernel,
const char *pPartitionName = CSTDLIBAPP_DEFAULT_PARTITION)
: CStdlibAppScreen (kernel),
mpPartitionName (pPartitionName),
mUSBHCI (&mInterrupt, &mTimer, TRUE),
mEMMC (&mInterrupt, &mTimer, &mActLED),
#if !defined(__aarch64__) || !defined(LEAVE_QEMU_ON_HALT)
mConsole (0, TRUE)
#else
mConsole (&mScreen)
#endif
{
}
virtual bool Initialize (void)
{
if (!CStdlibAppScreen::Initialize ())
{
return false;
}
if (!mEMMC.Initialize ())
{
return false;
}
char const *partitionName = mpPartitionName;
// Recognize the old default partion name
if (strcmp(partitionName, CSTDLIBAPP_LEGACY_DEFAULT_PARTITION) == 0)
{
partitionName = CSTDLIBAPP_DEFAULT_PARTITION;
}
if (f_mount (&mFileSystem, partitionName, 1) != FR_OK)
{
mLogger.Write (GetKernelName (), LogError,
"Cannot mount partition: %s", partitionName);
return false;
}
#if !defined(__aarch64__) || !defined(LEAVE_QEMU_ON_HALT)
// The USB driver is not supported under 64-bit QEMU, so
// the initialization must be skipped in this case, or an
// exit happens here under 64-bit QEMU.
if (!mUSBHCI.Initialize ())
{
return false;
}
#endif
if (!mConsole.Initialize ())
{
return false;
}
// Initialize newlib stdio with a reference to Circle's file system and console
CGlueStdioInit (mFileSystem, mConsole);
mLogger.Write (GetKernelName (), LogNotice, "Compile time: " __DATE__ " " __TIME__);
return true;
}
virtual void Cleanup (void)
{
f_mount(0, "", 0);
CStdlibAppScreen::Cleanup ();
}
protected:
CUSBHCIDevice mUSBHCI;
CEMMCDevice mEMMC;
FATFS mFileSystem;
CConsole mConsole;
};
/**
* Stdlib application that adds network functionality
* to the CStdlibAppStdio features.
*/
class CStdlibAppNetwork: public CStdlibAppStdio
{
public:
#define CSTDLIBAPP_WLAN_FIRMWARE_PATH CSTDLIBAPP_DEFAULT_PARTITION "/firmware/"
#define CSTDLIBAPP_WLAN_CONFIG_FILE CSTDLIBAPP_DEFAULT_PARTITION "/wpa_supplicant.conf"
CStdlibAppNetwork (const char *kernel,
const char *pPartitionName = CSTDLIBAPP_DEFAULT_PARTITION,
const u8 *pIPAddress = 0, // use DHCP if pIPAddress == 0
const u8 *pNetMask = 0,
const u8 *pDefaultGateway = 0,
const u8 *pDNSServer = 0,
TNetDeviceType DeviceType = NetDeviceTypeEthernet)
: CStdlibAppStdio(kernel, pPartitionName),
mDeviceType (DeviceType),
mWLAN (CSTDLIBAPP_WLAN_FIRMWARE_PATH),
mNet(pIPAddress, pNetMask, pDefaultGateway, pDNSServer, DEFAULT_HOSTNAME, DeviceType),
mWPASupplicant (CSTDLIBAPP_WLAN_CONFIG_FILE)
{
}
virtual bool Initialize (bool const bWaitForActivate = true)
{
if (!CStdlibAppStdio::Initialize ())
{
return false;
}
if (mDeviceType == NetDeviceTypeWLAN)
{
if (!mWLAN.Initialize ())
{
return false;
}
}
if (!mNet.Initialize (false))
{
return false;
}
if (mDeviceType == NetDeviceTypeWLAN)
{
if (!mWPASupplicant.Initialize ())
{
return false;
}
}
while (bWaitForActivate && !mNet.IsRunning ())
{
mScheduler.Yield ();
}
return true;
}
protected:
CScheduler mScheduler;
TNetDeviceType mDeviceType;
CBcm4343Device mWLAN;
CNetSubSystem mNet;
CWPASupplicant mWPASupplicant;
};
#endif