AVR/AVR Working Controller/AVRInterface.cpp

//
//
//
#ifdef _DEBUG
#include <stdio.h>
#endif
#include <memory.h>
#include <string.h>
#include <malloc.h>
#include <ctype.h>

#include "AVRInterface.h"
#include "AVRCommandDecoder.h"

#define LONGESTTEXT 150

typedef enum {
	eReady,
	ePowerOn,
	ePowerOff,
	eVolumeUp,
	eVolumeDown,
	eMute,
	eUnMute,
} AVRCommands_E;

typedef struct {
	AVRCommands_E MsgID;
	const char *pMsg;
	uint16_t MsgLen;
} Message_T;

typedef struct {
	//uint8_t type;	// 0 to 4, and 0xFF for don't care
	//uint8_t guard;	// 0 to 2, and 0xFF for don't care
	uint8_t rCmd;
	uint8_t configOffset;	// offset into the Config DT0 - DT155 array, or 0xFF for no action
	uint8_t numToTransfer;	// number of bytes to transfer into the Config array, or 0 for no action
	bool showAll;			// true to call ShowAllStatusInfo after processing
	const char *TextFormatter;	// used primarily for development printf(TextFormatter, value)
	const char *(*fncValueToText)(uint8_t rDat);
} MessageHandler_T;


static const char * StateText[] = {
	"Powering Up",
	"Awaiting Ready Response",
	"Initializing",
	"Retry Initializing",
	"Ready",
	"Awaiting Response",
	"Unknown State"
};

static const Message_T AVRCommands[] = {
	{ eReady,	"\x11" "000" "\x03", 5 },
	{ ePowerOn, "\x02" "07A1D" "\x03", 7 },
	{ ePowerOff,"\x02" "07A1E" "\x03", 7 },
	{ eVolumeUp,"\x02" "07A1A" "\x03", 7 },
	{ eVolumeDown,"\x02" "07A1B" "\x03", 7 },
	{ eMute,	"\x02" "07EA2" "\x03", 7 },
	{ eUnMute,	"\x02" "07EA3" "\x03", 7 },
};

// This is based on the longest thing from the MessageHandlers text field and the generated text
// "MultiCh Surround" "Surround"
const char *PCMessageFormat = "%18s %-20s";
const uint8_t LengthCheck = 40;

// rCmd: 2-ASCII Hex Bytes converted to uint8_t
// configOffset: offset into avrStatus.config.DTxx
// numToTransfer: number of bytes to transfer from message to config (0 = none)
// show all status 
// fncHelper: optional function to call upon receipt
//
static const MessageHandler_T MessageHandlers[] = {
	//
	// Configuration Map for Response Messages
	// 
	//   +--------------------------- rCmd
	//   |    +----------------------- DT Block Offset
	//   |    |  +-------------------- Number of Bytes to transfer into the DT Block
	//   |    |  |  +----------------- Force a 'show all' status screen update
	//   |    |  |  |  
	//   |    |  |  |  +-------- sprintf format string for the following Helper
	//   |    |  |  |  |                    +--- Helper to convert numeric value to text
	//   |    |  |  |  |                    |
	{ 0x00,   7, 1, 1, "System Report: %s", BusyToText },
	{ 0x01,   0, 0, 0, "Warning Report: %s", WarnToText },
	{ 0x10,  31, 1, 1, "Playback Report: %s", PlaybackToText },
	{ 0x11,  32, 1, 1, "Fs Report: %s", FsToText },
	{ 0x12,  33, 1, 1, "Ex/Ex: %s", OffMatrixDiscreteText },	// EX/EX
	{ 0x13,  34, 1, 1, "Thr Bypass: %s", OffOnText },	// Thr / Bypass
	{ 0x14,  35, 1, 1, "RED dts: %s", ReleaseWaitText},	// RED dts
	{ 0x15,  38, 1, 1, "Tuner tuned: %s", NotTunedTunedText},	// Tuner tuned
	{ 0x16,  43, 1, 1, "DTS 96/24: %s", OffOnText},	// Dts 96/24
	{ 0x20,   8, 0, 1, "Zone Power: %s", ZonePower },
	{ 0x21,   9, 1, 1, "Input: %s", InputText},	// Input Source
	{ 0x22,  11, 1, 1, "Input Mode: %s", InputModeText},	// Input Mode
	{ 0x23,  12, 1, 1, "Mute: %s", OffOnText },
	{ 0x24,  13, 1, 1, "Zone 2 Input: %s", InputText},	// Zone 2 Input Source
	{ 0x25,  14, 1, 1, "Zone 2 Mute: %s", OffOnText },
	{ 0x26,  15, 2, 1, "Volume: %s", VolumeDB },
	{ 0x27,  17, 2, 1, "Zone 2 Vol: %s", VolumeDB},	// Zone 2 Vol
	{ 0x28,  19, 2, 1, "Program: %s", ProgramName },	// Program
	{ 0x29,  25, 1, 1, "Tuner Page: %s", PresetLabelText},	// Tuner Page
	{ 0x2A,  26, 1, 1, "Tuner Preset: %s", PresetNumberText},	// Tuner Preset Number
	{ 0x2B,  23, 1, 1, "OSD: %s", OSDFullShortOffText},	// OSD
	{ 0x2C,  24, 1, 1, "Sleep: %s", SleepTimerText},	// Sleep Timer
	{ 0x2D,  22, 1, 1, "EX/ES(Key): %s", OffMatrixDiscreteAutoText},	// EX/ES(Key)
	{ 0x2E,  29, 1, 1, "SP Relay A: ", OffOnText},	// Speaker Relay A
	{ 0x2F,  30, 1, 1, "SP Relay B: ", OffOnText},	// Speaker Relay B
	{ 0x30,   0, 0, 0, "Home Preset:%s", PresetLabelText },		// Preset A, B, ... F
	{ 0x31,   0, 0, 0, "Home Memory:%s", PresetLabelText },		// Preset A, B, ... F
	{ 0x32,   0, 0, 0, "Home Vol Preset: %s", PresetLabelText },		// Preset A, B, ... F
	{ 0x33,   0, 0, 0, "Home Vol Memory: %s", PresetLabelText },		// Preset A, B, ... F
	{ 0x34,  36, 1, 1, "Headphone: %s", OffOnText },
	{ 0x35,  37, 1, 1, "FM/AM: %s", FMAMText },
	{ 0x36,  39, 1, 1, "DC1 Trigger Out: %s", OffOnText },
	{ 0x37,   0, 0, 0, "Home Zone 2 Vol Preset: %s", PresetLabelText },
	{ 0x38,   0, 0, 0, "Home Zone 2 Vol: %s", PresetLabelText },
	{ 0x39,   0, 0, 0, "Dual Mono: %s", MainSubAllText },
	{ 0x3A,  42, 1, 1, "DC1 Trigger Control: %s", WhichZoneText },
	{ 0x3B,  44, 1, 1, "DC2 Trigger Control: %s", WhichZoneText },
	{ 0x3C,  45, 1, 1, "DC2 Trigger Out: %s", OffOnText },
	{ 0x3D, 104, 0, 0, "Main Level: %s", Norm10dbDownText },
	{ 0x3E,  46, 1, 1, "SP B Set: %s", Zone1Zone2Text },
	{ 0x3F,  47, 1, 1, "Zone 2 Speaker: %s", OffOnText },

	{ 0x40,  48, 2, 1, "Level Main R: %s", PM10dbText },
	{ 0x41,  50, 2, 1, "Level Main L: %s", PM10dbText },
	{ 0x42,  52, 2, 1, "Level Center: %s", PM10dbText },
	{ 0x43,  54, 2, 1, "Level Rear R: %s", PM10dbText },
	{ 0x44,  56, 2, 1, "Level Rear L: %s", PM10dbText },
	{ 0x45,  58, 2, 1, "Level Sur Back R: %s", PM10dbText },
	{ 0x46,  60, 2, 1, "Level Sur Back L: %s", PM10dbText },
	{ 0x47,  62, 2, 1, "Level Front R: %s", PM10dbText },
	{ 0x48,  64, 2, 1, "Level Front L: %s", PM10dbText },
	{ 0x49,  66, 2, 1, "Level Swfr 1: %s", PM10dbText },
	{ 0x4A,   0, 0, 0, "Level Swfr 2: %s", PM10dbText },

	{ 0x50,   0, 0, 0, "Main L/R Bal: %s", BalanceText },
	{ 0x51,  74, 2, 1, "LFE Level SP: %s", M20P0dbText },
	{ 0x52,  76, 2, 1, "LFE Level HP: %s", M20P0dbText },
	{ 0x53,  78, 2, 1, "Audio Delay: %s", ZeroTo160msText },
	{ 0x54,   0, 0, 0, "SP Delay Center: %s", ZeroTo5msText },
	{ 0x55,   0, 0, 0, "SP Delay Rear CT: %s", ZeroTo30msText },

	{ 0x60,  84, 1, 1, "Input Mode: %s", AutoLastText },
	{ 0x61,  85, 1, 1, "Dimmer: %s", M4To0Text },
	{ 0x62,  87, 2, 1, "OSD Shift: %s", M5toP5Text },
	{ 0x63,  89, 1, 1, "Gray Back: %s", OffAutoText },
	{ 0x64,  91, 1, 1, "Dynamic Range SP: %s", MaxStdMinText },
	{ 0x65,  92, 1, 1, "Dynamic Range HP: %s", MaxStdMinText },
	{ 0x66,  93, 0, 0, "Zone 2 Vol out: %s", VarFixText },
	{ 0x67,   0, 0, 0, "Zone 2 Mode: %s", Mode1Mode2Text },
	{ 0x68,  95, 1, 1, "Mem Guard: %s", OffOnText },
	{ 0x69,  90, 1, 1, "Video Conv: %s", OffOnText },
	{ 0x6A, 136, 1, 1, "Comp OSD: %s", OffOnText },
	{ 0x6B,   0, 0, 0, "Zone 3 Vol out: %s", VarFixText },
	{ 0x70,  96, 1, 1, "Center Sp Size: %s", LSNText },
	{ 0x71,  97, 1, 1, "Main Sp Size: %s", LSNText },
	{ 0x72,  98, 1, 1, "Rear LR Sp Size: %s", LSNText },
	{ 0x73,  99, 1, 1, "Sur Back Size: %s", LLSSNText },
	{ 0x74, 100, 1, 1, "Front Sp: %s", YesNoneText },
	{ 0x75, 101, 1, 1, "LFE Bass Out: %s", SwfrMainBothText },
	{ 0x76, 134, 1, 1, "SW1: %s", LrFrNoneText },

	{ 0x78, 102, 1, 1, "6 Ch Center: %s", CenterMainText },
	{ 0x79, 103, 1, 1, "6 Ch Swfr: %s", SwfrMainText },
	{ 0x7A, 133, 1, 1, "6 Ch Surround: %s", SurrMainText },
	{ 0x7B,   0, 0, 0, "Multi Ch Select: %s", SixEightText },
	{ 0x7E, 135, 1, 1, "SW Crossover", CrossOverText },

	{ 0x80, 105, 1, 1, "Test Mode: %s", OffDolbyDspText },
	{ 0x81,   0, 0, 0, "Analog Special: %s", OffOn2OnMultiText },
	{ 0x82,  27, 1, 1, "Night Mode: %s", OffOnText },

	{ 0x90,   0, 0, 0, "Multi Ch Level Main R: %s", M10P10dbText  },
	{ 0x91,   0, 0, 0, "Multi Ch Level Main L: %s", M10P10dbText  },
	{ 0x92,   0, 0, 0, "Multi Ch Level Center: %s", M10P10dbText  },
	{ 0x93,   0, 0, 0, "Multi Ch Level Rear R: %s", M10P10dbText  },
	{ 0x94,   0, 0, 0, "Multi Ch Level Rear L: %s", M10P10dbText  },
	{ 0x95,   0, 0, 0, "Multi Ch Level Sur B R: %s", M10P10dbText  },
	{ 0x96,   0, 0, 0, "Multi Ch Level Sur B L: %s", M10P10dbText  },
	{ 0x97,   0, 0, 0, "Multi Ch Level Front R: %s", M10P10dbText  },
	{ 0x98,   0, 0, 0, "Multi Ch Level Front L: %s", M10P10dbText  },
	{ 0x99,   0, 0, 0, "Multi Ch Level Swfr 1: %s", M20P0dbText  },
	{ 0x9A,   0, 0, 0, "Multi Ch Level Swfr 2: %s", M20P0dbText  },

	{ 0xA1,   0, 0, 0, "Zone 3 Mute: %s\n", OffOnText },
};



AVRInterface::AVRInterface(bool (*SendMessage)(const uint8_t *buffer, uint16_t len)) {
	SendMethod = SendMessage;
	IsSanityCheckOK();
	MessageHandlerSanityCheck();
	Initialize();
}
AVRInterface::~AVRInterface() {
	FreeMemory();
}

bool AVRInterface::IsSanityCheckOK() {
	static bool checked = false;
	if (!checked) {
		checked = true;
		if (sizeof(AVRCommands) / sizeof(Message_T) != AVRState_T::stMaxStates + 1) {
			#ifdef _DEBUG
			printf("AVRCommands array size mismatch!\n");
			#endif
			return false;
		}
	}
	return true;
}


// MessageReport
// 
// Generate a text record to provide buffer to the console, translating non-printable
// characters into hex codes enclosed in square brackets.
//
// Consider line-wrapping to align the next line
//
void AVRInterface::MessageReport(const char *prefix, const void *buf, size_t len) {
	int i = 0;
	const char *p = (const char *)buf;
	uint32_t now_ms = lastTick_ms;
	char txtBuf[LONGESTTEXT] = "";
	char smallBuf[10] = "";
	char *pTxtAppend = txtBuf;

	if (len == 0) len = strlen(p);
	pTxtAppend += sprintf_s(txtBuf, LONGESTTEXT, "%9.3f: [%3d]%s", (float)(now_ms - firstTick_ms) / 1000.0f, (int)strlen(p), prefix);
	while (*p && ((unsigned)(p - (const char *)buf) < len)) {
		if (isprint(*p)) {
			*pTxtAppend++ = *p;
			*pTxtAppend = 0;	// Keep it null-terminated
			i++;
		} else if (*p == '\r') {
			(*ReportInformation)(mtInfo, txtBuf);
			txtBuf[0] = 0;		// clear it
		} else if (*p == '\n') {
			// skip it
		} else {
			sprintf_s(smallBuf, 10, "[%02X]", (unsigned char)*p);
			strcat_s(txtBuf, LONGESTTEXT, smallBuf);
			pTxtAppend = txtBuf + strlen(txtBuf);
		}
		if ((i & 3) == 0) {
			if (strlen(txtBuf) > 100) {
				(*ReportInformation)(mtInfo, txtBuf);
				sprintf_s(txtBuf, LONGESTTEXT, "                      ");	// new line
				pTxtAppend = txtBuf + strlen(txtBuf);
			} else {
				strcat_s(txtBuf, LONGESTTEXT, " ");
				pTxtAppend++;
			}
			i = 0;
		}
		p++;
	}
	if (strlen(txtBuf)) {
		(*ReportInformation)(mtInfo, txtBuf);
	}
}


void AVRInterface::Tick(uint32_t now_ms) {
	lastTick_ms = now_ms;
	uint32_t elapsed_ms = now_ms - sentAtTime_ms;
	char buf[LONGESTTEXT] = "";

	if (oldState != state && ReportInformation) {
		oldState = state;
		(*ReportInformation)(mtStatus, StateText[state]);
	}
	switch (state) {
	default:
	case AVRState_T::stPoweringUp:
		readyResponsReceived = false;
		ProcessSerialQueue(AVRCommands[eReady].pMsg, AVRCommands[eReady].MsgLen);
		sentAtTime_ms = now_ms;
		readyTries++;
		state = stAwaitingReadyResponse;
		break;
	case stAwaitingReadyResponse:
		if (readyResponsReceived) {
			state = stReady;
		} else if (elapsed_ms > RETRY_INTERVAL_ms) {
			if (readyTries > MAXTRIES) {
				// fail

			} else {
				state = stPoweringUp;
			}
		}
		break;
	case AVRState_T::stInitializing:
		break;
	case AVRState_T::stRetryInitializing:
		break;
	case AVRState_T::stAwaitingResponse:
		if (commandResponseReceived) {
			state = stReady;
		} else if (elapsed_ms > RETRY_INTERVAL_ms) {
			ProcessSerialQueue();
			state = stAwaitingResponse;
		}
		break;
	case AVRState_T::stReady:
		ProcessSerialQueue();
		break;
	}
}

/// @brief Handle a just received message by parsing it
/// 
/// Given a response string, typically of the form:
///		[02] .... [03]				// Command Responses from the AVR
///		[11] .... [03]				// Commands to 
///		[12] .... [03]
/// 	[14] ............ [03]
///
/// @param buffer contains the message
/// @param len of the message
/// @return true, if data was accepted and the overall status changed, so might be shown
/// 
bool AVRInterface::HandleMessage(const uint8_t *buffer, uint16_t len) {
	bool showAllFlag = false;

	MessageReport("<", buffer, len);
	switch (state) {
	case stAwaitingReadyResponse:
		switch (buffer[0]) {
		case 0x02:	// STX <msg> ETX
			commandResponseReceived = true;
			showAllFlag = ProcessReportResponse(buffer, len);
			break;
		case 0x11:	// DC1 <msg> ETX
			// AVR does not send any DC1 messages, these are for commands to the AVR
			break;
		case 0x12:	// DC2 <msg> ETX
			if (CheckTheChecksum(buffer, len)) {
				if (len == 21) {					// Short message when power is off
					memcpy(&avrStatus.header, &buffer[1], sizeof(AVR_StatusHeader_T));
					len = Hex2Dec(&avrStatus.header.length[0], 2);
					memcpy(&avrStatus.config.DT0, &buffer[9], len);	// Copy bits of the config
					avrStatus.headerValid = true;
					showAllFlag = true;
				} else if (len == 150) {			// Long message when power is on
					memcpy(&avrStatus.header, &buffer[1], sizeof(AVR_StatusHeader_T));
					len = Hex2Dec(&avrStatus.header.length[0], 2);
					memcpy(&avrStatus.config.DT0, &buffer[9], len);	// Copy the config
					avrStatus.headerValid = true;
					avrStatus.configValid = true;
					showAllFlag = true;
				} else {
					printf("***** Received message of unexpected length [%u]\n", len);
				}
				readyResponsReceived = true;
			}
			break;
		case 0x14:	// DC4 <extended response> ETX
			// DecodeExtendedResponse(buffer, len);		// once I figure out what is in here...
			break;
		default:
			break;
		}
		break;
	case stAwaitingResponse:
		// @TODO Process the message here... 
		commandResponseReceived = true;
		break;
	case stReady:
		switch (buffer[0]) {
		case 0x02:	// STX <msg> ETX
			commandResponseReceived = true;
			showAllFlag = ProcessReportResponse(buffer, len);
			break;
		case 0x11:	// DC1 <msg> ETX
			break;
		case 0x12:	// DC2 <msg> ETX
			if (CheckTheChecksum(buffer, len)) {
				if (len == 21) {					// Short message when power is off
					memcpy(&avrStatus.header, &buffer[1], sizeof(AVR_StatusHeader_T));
					len = Hex2Dec(&avrStatus.header.length[0], 2);
					memcpy(&avrStatus.config.DT0, &buffer[9], len);	// Copy bits of the config
					avrStatus.headerValid = true;
					showAllFlag = true;
				} else if (len == 150) {			// Long message when power is on
					memcpy(&avrStatus.header, &buffer[1], sizeof(AVR_StatusHeader_T));
					len = Hex2Dec(&avrStatus.header.length[0], 2);
					memcpy(&avrStatus.config.DT0, &buffer[9], len);	// Copy the config
					avrStatus.headerValid = true;
					avrStatus.configValid = true;
					showAllFlag = true;
				} else {
					printf("***** Received message of unexpected length [%u]\n", len);
				}
				readyResponsReceived = true;
			}
			break;
		case 0x14:	// DC4 <extended response> ETX
			// DecodeExtendedResponse(buffer, len);		// once I figure out what is in here...
			break;
		default:
			break;
		}
		break;
	}
	return showAllFlag;
}

bool AVRInterface::Initialize() {
	state = AVRState_T::stPoweringUp;
	return true;
}

bool AVRInterface::IsOnline() {
	return true;
}
bool AVRInterface::Power(AVROnOff_E cmd) {
	commandResponseReceived = false;
	if (cmd == eOn)
		ProcessSerialQueue(AVRCommands[ePowerOn].pMsg, AVRCommands[ePowerOn].MsgLen);
	else
		ProcessSerialQueue(AVRCommands[ePowerOff].pMsg, AVRCommands[ePowerOff].MsgLen);
	state = stAwaitingResponse;
	return true;
}

bool AVRInterface::VolumeButton(AVRVolume_E cmd) {
	switch (cmd) {
	case eVolumeUp:
		break;
	case eVolumeDown:
		break;
	case eMuteOn:
		break;
	case eMuteOff:
		break;
	default:
		return false;
	}
	return true;
}

bool AVRInterface::RegisterInformationCallback(void(*StatusChangeCallback)(AVRMessageType_T type, const char *msg)) {
	ReportInformation = StatusChangeCallback;
	return false;
}

bool AVRInterface::ProcessSerialQueue(const void *msg, uint16_t len) {
	const char *p = (const char *)msg;
	bool retVal = false;	// assume fail
	static bool freshData = false;

	if (p && len) {
		if (serialQueueCount < SERIALQUEUESIZE) {
			MessageReport(">", msg, len);
			serialQueue[serialQueueCount].messageToSend = (uint8_t *)malloc(len + 1);
			if (serialQueue[serialQueueCount].messageToSend) {
				memcpy(serialQueue[serialQueueCount].messageToSend, p, len);
				*(serialQueue[serialQueueCount].messageToSend + len) = '\0';
				serialQueue[serialQueueCount].len = len;
				serialQueueCount++;
				retVal = true;
				freshData = true;
			}
		}
	}
	if (serialQueueCount) {
		if ((*SendMethod)((const uint8_t *)serialQueue[0].messageToSend, serialQueue[0].len)) {
			--serialQueueCount;
			free(serialQueue[0].messageToSend);
			serialQueue[0].messageToSend = NULL;
			for (int i = 0; i < serialQueueCount; i++) {
				serialQueue[i] = serialQueue[i + 1];
			}
			retVal = true;
		}
	}
	return retVal;
}

void AVRInterface::FreeMemory() {
	for (int i = 0; i < serialQueueCount; i++) {
		if (serialQueue[0].messageToSend)
			free(serialQueue[0].messageToSend);
	}
}


bool AVRInterface::CheckTheChecksum(const uint8_t *szBuffer, uint32_t num) {
	uint8_t sum = 0;
	for (uint16_t i = 1; i < num - 3; i++) {
		sum += szBuffer[i];
	}
	uint8_t cksum = (uint8_t)Hex2Dec(&szBuffer[num - 3], 2);
	//printf("CheckSum: %02X v. %c%c\n", sum, szBuffer[num - 3], szBuffer[num - 2]);
	return (sum == cksum);
}

// Hex2Dec
//
//	All responses are pretty much Hex-ASCII, so
//	we sometimes want to convert it to decimal
//	This takes a buffer and converts the specified
//	number of characters.
//
uint16_t AVRInterface::Hex2Dec(const uint8_t *p, int dig) {
	uint16_t x = 0;
	while (dig--) {
		if (*p >= '0' && *p <= '9')
			x = x * 16 + *p - '0';
		else if (*p >= 'a' && *p <= 'f')
			x = x * 16 + 0x0a + *p - 'a';
		else if (*p >= 'A' && *p <= 'F')
			x = x * 16 + 0x0a + *p - 'A';
		p++;
	}
	return x;
}

// ProcessReportResponse
//
// @param[in] szBuffer is the received message
// @param[in] len is the null terminated string length of the message
//
// Typical Message:
//	'\x02'	'type'	'guard'	'rcmd0'	'rcmd1'	'rdat0'	'rdat1'	'\x03'
//	[0]		[1]		[2]		[3]		[4]		[5]		[6]		[7]
//
bool AVRInterface::ProcessReportResponse(const uint8_t *szBuffer, uint32_t len) {
	// These don't have a checksum ...
	// Example: [02] 4026 66[03]
	//		4 - controlled by encoder
	//		0 - guard status 0 = no guard
	//		26 - master vol
	//		66 - volume setting (-54.6db)
	uint8_t type = (uint8_t)Hex2Dec(&szBuffer[1], 1);
	uint8_t guard = (uint8_t)Hex2Dec(&szBuffer[2], 1);
	uint8_t rcmd = (uint8_t)Hex2Dec(&szBuffer[3], 2);
	uint8_t rdat = (uint8_t)Hex2Dec(&szBuffer[5], 2);
	char buf[LONGESTTEXT];
	(void)len;	// not used
	bool showAllFlag = false;

	bool found = false;
	for (int i = 0; i < sizeof(MessageHandlers) / sizeof(MessageHandlers[0]); i++) {
		if (MessageHandlers[i].rCmd == rcmd) {
			found = true;
			if (MessageHandlers[i].numToTransfer == 1) {
				memcpy(&avrStatus.config.DT0 + MessageHandlers[i].configOffset, &szBuffer[6], 1);
			}
			if (MessageHandlers[i].numToTransfer == 2) {
				memcpy(&avrStatus.config.DT0 + MessageHandlers[i].configOffset, &szBuffer[5], 2);
			}
			if (MessageHandlers[i].TextFormatter && MessageHandlers[i].fncValueToText) {
				sprintf_s(buf, LONGESTTEXT, MessageHandlers[i].TextFormatter, MessageHandlers[i].fncValueToText(rdat));
				(*ReportInformation)(mtInfo, buf);
			}
			if (MessageHandlers[i].showAll) {
				showAllFlag = true; //  ShowAllStatusInfo();
			}
			break;	// no need to scan more
		}
	}
	if (!found) {
		sprintf_s(buf, LONGESTTEXT, "***** type: %X, guard: %X, cmd: %02X, data: %02X", type, guard, rcmd, rdat);
		(*ReportInformation)(mtInfo, buf); 
		//Console_Write(buf);
		//Console_ScrollBottomRegion();
	}
	return showAllFlag;
}

void AVRInterface::MessageHandlerSanityCheck() {
	uint8_t usedCommands[256] = { 0 };
	uint8_t blockOffset[256] = { 0 };

	bool fail = false;
	// Ensure that the MessageHandlers table is correct
	for (int i = 0; i < sizeof(MessageHandlers) / sizeof(MessageHandlers[0]); i++) {
		usedCommands[MessageHandlers[i].rCmd]++;
		if (usedCommands[MessageHandlers[i].rCmd] > 1) {
			printf("***** MessageHandler entry %d has duplicate rCmd of 0x%02X\n", i, MessageHandlers[i].rCmd);
			fail = true;
		}
		blockOffset[MessageHandlers[i].configOffset]++;
		if (MessageHandlers[i].configOffset != 0 && blockOffset[MessageHandlers[i].configOffset] > 1) {
			printf("***** MessageHandler entry %d has duplicate configOffset of %d\n", i, MessageHandlers[i].configOffset);
			fail = true;
		}

		if (MessageHandlers[i].numToTransfer > 2) {
			printf("***** MessageHandler entry %d has invalid numToTransfer of %d\n", i, MessageHandlers[i].numToTransfer);
		}
		if (MessageHandlers[i].configOffset + MessageHandlers[i].numToTransfer > sizeof(AVR_Configuration_T)) {
			printf("***** MessageHandler entry %d has invalid configOffset of %d\n", i, MessageHandlers[i].configOffset);
		}
	}
	if (fail) {
		printf("***** MessageHandler table sanity check failed. Exiting.\n");
	}
	return;
}

// PCMessage
//
//	Various responses need to be formatted and shown on screen
//	The last param will allow resetting the column counter
//	and pre and post-pending \n
//
void AVRInterface::PCMessage(const char *msg, int len, uint8_t **src, const char *(fncHelper)(uint8_t val)) {
	char buf[LONGESTTEXT] = "";
	const char *p = buf;

	if (fncHelper) {
		// Get the binary value if we need it
		uint8_t val = (uint8_t)Hex2Dec(*src, len);
		p = (*fncHelper)(val);
		*src += len;
	} else {
		// Create a string value when we need that
		strncpy_s(buf, LONGESTTEXT, (char *)*src, len);	// s/w
		*src += len;
		buf[len] = '\0';
	}

	char outBuf[LONGESTTEXT] = "";
	sprintf_s(outBuf, LONGESTTEXT, PCMessageFormat,
		msg,
		p
	);
	(*ReportInformation)(mtStream, outBuf);
}

/// ReportAllStatus
///
/// This emits (via a callback) all the status, in DT0 to DT137 order.
/// You cannot rearrange the sequence to make grouping more logical.
/// 
void AVRInterface::ReportAllStatus() {
	if (avrStatus.headerValid) {
		char buf[LONGESTTEXT];
		sprintf_s(buf, LONGESTTEXT, "Model ID: %c%c%c%c%c, ver: %c\n", avrStatus.header.type[0], avrStatus.header.type[1],
			avrStatus.header.type[2], avrStatus.header.type[3], avrStatus.header.type[4],
			avrStatus.header.version);
		(*ReportInformation)(mtModelInfo, buf);

		uint8_t *p = (uint8_t *)&avrStatus.config;
		(*ReportInformation)(mtStreamStart, "---- AVR Status Report ----\n");
		PCMessage("Baud Rate", 1, &p);
		PCMessage("Rx Buffer", 2, &p);
		PCMessage("Cmd Timeout", 3, &p);
		PCMessage("Handshake", 1, &p);
		PCMessage("Busy", 1, &p, BusyToText);
		PCMessage("Power", 1, &p, OffOnText);
		if (avrStatus.configValid) {
			PCMessage("Input", 1, &p, InputText);
			PCMessage("6 ch", 1, &p, OffOnText);
			PCMessage("Inp mode", 1, &p, InputModeText);
			PCMessage("Mute", 1, &p, OffOnText);
			PCMessage("Zone 2", 1, &p, InputText);
			PCMessage("Mute 2", 1, &p, OffOnText);
			PCMessage("Volume", 2, &p, VolumeDB);
			PCMessage("Volume 2", 2, &p, VolumeDB);
			PCMessage("Prog", 2, &p, ProgramName);
			PCMessage("Effect", 1, &p, OffOnText);
			PCMessage("6.1/es status", 1, &p, OffMatrixDiscreteAutoText);
			PCMessage("OSD", 1, &p, OSDFullShortOffText);
			PCMessage("Sleep", 1, &p, SleepTimerText);
			PCMessage("Tuner Pg", 1, &p, PresetLabelText);
			PCMessage("Tuner #", 1, &p, PresetNumberText);
			PCMessage("Night", 1, &p, OffOnText);
			PCMessage("?????", 1, &p);
			PCMessage("Spkr A", 1, &p, OffOnText);
			PCMessage("Spkr B", 1, &p, OffOnText);
			PCMessage("Playback", 1, &p, PlaybackToText);
			PCMessage("Fs", 1, &p, FsToText);
			PCMessage("Ex/Es", 1, &p, OffMatrixDiscreteText);
			PCMessage("Thr Bypass", 1, &p, OffOnText);
			PCMessage("Red DTS", 1, &p, ReleaseWaitText);
			PCMessage("Headphone", 1, &p, OffOnText);
			PCMessage("Tuner Band", 1, &p, FMAMText);
			PCMessage("Tuner Tuned", 1, &p, NotTunedTunedText);
			PCMessage("DC1 Control Out", 1, &p, OffOnText);
			PCMessage("?????", 2, &p);
			PCMessage("DC1 Trig Ctrl", 1, &p);
			PCMessage("DTS 96/24", 1, &p, OffOnText);
			PCMessage("DC2 Trig Ctrl", 1, &p, WhichZoneText);
			PCMessage("DC2 Trig Out", 1, &p, OffOnText);
			PCMessage("Spkr B Set", 1, &p, Zone1Zone2Text);
			PCMessage("Zone 2 SP out", 1, &p, OffOnText);
			PCMessage("Main R", 2, &p, PM10dbText);
			PCMessage("Main L", 2, &p, PM10dbText);
			PCMessage("Center", 2, &p, PM10dbText);
			PCMessage("Rear R", 2, &p, PM10dbText);
			PCMessage("Rear L", 2, &p, PM10dbText);
			PCMessage("Sur Bk R", 2, &p, PM10dbText);
			PCMessage("Sur Bk L", 2, &p, PM10dbText);
			PCMessage("Front R", 2, &p, PM10dbText);
			PCMessage("Front L", 2, &p, PM10dbText);
			PCMessage("Subwfr 1", 2, &p, PM10dbText);
			PCMessage("?????", 6, &p);
			PCMessage("LFE SP", 2, &p, M20P0dbText);
			PCMessage("LFE HP", 2, &p, M20P0dbText);
			PCMessage("Audio Delay", 2, &p, ZeroTo160msText);
			PCMessage("?????", 4, &p);
			PCMessage("Inp Mode Set", 1, &p, AutoLastText);
			PCMessage("Dimmer", 1, &p, M4To0Text);
			PCMessage("OSD Msg", 1, &p);
			PCMessage("OSD Shift", 2, &p, M5toP5Text);
			PCMessage("Gray Back", 1, &p, OffAutoText);
			PCMessage("Video Conv", 1, &p, OffOnText);
			PCMessage("D Range SP", 1, &p, MaxStdMinText);
			PCMessage("D Range HP", 1, &p, MaxStdMinText);
			PCMessage("Zone 2 Vol out", 1, &p, VarFixText);
			PCMessage("?????", 1, &p);		// "Zone 2 Mode: %s", Mode1Mode2Text ???
			PCMessage("Memory Guard", 1, &p, OffOnText);
			PCMessage("SP set center", 1, &p);
			PCMessage("SP set main", 1, &p);
			PCMessage("SP set rear L/R", 1, &p);
			PCMessage("SP set rear ct", 1, &p);
			PCMessage("SP set front", 1, &p);
			PCMessage("SP set LFE/Bass", 1, &p, SwfrMainBothText);
			PCMessage("6 ch center", 1, &p);
			PCMessage("6 ch sub", 1, &p);
			PCMessage("Main level", 1, &p);
			PCMessage("Test Mode", 1, &p, OffDolbyDspText);
			PCMessage("?????", 1, &p);
			PCMessage("Lvl 6 Ch main L",	2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch main R",	2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch center",	2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch sl",		2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch sr",		2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch sbl",		2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch sbr",		2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch F L",	2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch F R",	2, &p, M10P10dbText);
			PCMessage("Lvl 6 Ch swfr",		2, &p, M20P0dbText );
			PCMessage("Zone 3 Inp", 1, &p, PlaybackToText);
			PCMessage("Zone 3 Mute", 1, &p, OffOnText);
			PCMessage("Zone 3 Vol", 2, &p, VolumeDB);
			PCMessage("?????", 1, &p);
			PCMessage("MultiCh Select", 1, &p, SixEightText);
			PCMessage("MultiCh Surround", 1, &p, SurrMainText);
			PCMessage("SP Set SW1", 1, &p, LrFrNoneText);
			PCMessage("SP Set Crossover", 1, &p, CrossOverText);
			PCMessage("Component OSD", 1, &p, OffOnText);
			PCMessage("PB/SB Select", 1, &p, PRSBText);
		}
	}
}