mcr20_connectivity_test - The MCR20A Connectivity Test application is an SM…

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NXP / Mbed 2 deprecated mcr20_connectivity_test

The MCR20A Connectivity Test application is an SMAC based demo application which provides the user with means to test basic transmission-reception functionalities along with several advanced testing features based on the ASP and SMAC APIs.

Dependencies: fsl_phy_mcr20a fsl_smac mbed-rtos mbed

Fork of mcr20_connectivity_test by Freescale

Modes of Operation

The MCR20A Connectivity Test application has five main features:

Continuous Tests

This menu option displays several test suites

IDLE: This option sets the transceiver and all the state machines to idle.
Burst PRBS Transmission using packet mode: This option continuously sends packets which contain a pseudo-random payload of fixed length.
Continuous Modulated Transmission: This option allows the user to select between modulating 1’s, 0’s, or a pseudo-random sequence (PN) and sending them OTA continuously (in continuous mode).
Continuous Unmodulated Transmission: This option allows the user to send an unmodulated signal OTA having the frequency equal to the central frequency of the currently selected channel.
Continuous Reception: This test places the transceiver in reception and dumps the payload bytes of the received packets to the TERM in ASCII-converted hexadecimal characters.
Continuous Energy Detect: This option launches consecutive energy detect requests at fixed hard-coded intervals for the current channel, and prints their values to the TERM.
Continuous Scan: This option is similar to the previous one, except that at each iteration it obtains the energy values on all channels.
Continuous CCA: This option launches consecutive CCA requests for the currently selected channel at a fixed. hard-coded interval, and prints “Idle” or “Busy” depending on the CCA result.

Packet Error Rate

This menu option displays a configuration menu for testing the packet error rate. The menu displayed also depends on the ‘r’ or ‘t’ shortcut key. If ‘r’ is pressed, the following menu is for PER RX, otherwise it is for PER TX. For example, if two MCR20A platforms have Connectivity Test loaded, one of the boards can be set in RX and the other in TX as in the following figures.

Range Test

This test displays a configuration menu that performs a ‘ping-pong’ test to aid the user in determining the range (as distance between two platforms) in which the MCR20A platform can function properly. The sub-menu also depends on the ‘r’ and ‘t’ shortcuts so that one of the platforms can be the initializer (first to start a TX) and the other can respond to requests. The test is started and stopped only by user intervention and during its execution it will display the signal strength for each received packet. At the end of the test, the platform configured as the initializer (TX) displays a summary of how many packets were lost and what was the average RSSI.

Radio Registers Edit

This menu allows the user to read-write transceiver registers and to dump all address-value pairs from the transceiver registers to the TERM. The described features are accessible through the entries of this menu. For each access request (read or write) to a certain register, the register address is validated partially, and it is the responsibility of the user to access an existing register. For example, if the last accessible register is at 0xFD, the application only validates that the address is in the unsigned char range, but the user has the possibility to request register 0xFF. To ensure that a proper range is used, the user should first use the dump register feature to see the valid address ranges.

Carrier Sense and Transmission Control

This menu allows the user to choose between two tests. The former is the Carrier Sense test, which performs ED continuously until the ED value is above the CCA threshold (configured using ‘k’ and ‘l’ shortcuts) and then transmits a packet which contains pseudo-random data with the payload size configured using ‘n’ and ‘m’ shortcuts. The latter is the Transmission Control test, which displays a selection menu for number of packets identical with the one in PER TX test, then prompts the user to enter a decimal value resembling the inter-packet delay in milliseconds. After that, the application starts sending the selected number of packets with the selected inter-packet delay, using pseudo-random data for the payload with the size configured with ‘n’ and ‘m’ shortcuts.

Keys Usage

The following keys have the effect described below:

‘t’ : Brings up the configuration menu for the transmitter in both PER and Range tests.
‘r’ : Brings up the configuration menu for the receiver in both PER and Range tests.
‘q’ : Increments channel number. If pressed when the current channel is 26, the channel number changes to 11.
‘w’ : Decrements channel number. If pressed when the current channel is 11, the channel number will change to 26.
‘a’ : Increments output power value. If output power is at maximum and this key is pressed, the output power goes to the minimum (in this case 0x03).
‘s’ : Decrements output power value. If output power is at minimum and this key is pressed, the output power goes to the maximum (in this case 0x1F). These are not directly mapped to dBm values. Instead the output power value is written to the appropriate register. The user should consult the reference manual to determine the relationship between selected value and power in dBm.
‘n’ : Increments the length of the payload. This value is used in both PER TX test to build-up the payload and in Transmission Control test for the same reason.
‘m’ : Decrements the length of the payload. Incrementation and decrementation are performed in the [17, 116] interval. All overflows at one end lead to setting the other end’s value.
‘k’ : Increments the CCA threshold for the Carrier Sense test. In this test the CCA before TX algorithm is implemented at application level, and the channel idle threshold is established using this parameter.
‘l’ : Decrements the CCA threshold for the Carrier Sense test.

Documentation

SMAC Demo Applications User Guide

Source/Connectivity_TestApp.cpp@7:34047de4992b, 2015-08-18 (annotated)

Committer:: andreikovacs
Date:: Tue Aug 18 12:52:15 2015 +0000
Revision:: 7:34047de4992b
Parent:: 6:85e288fb2556

Included fsl_phy_mcr20a and fsl_smac libraries

Who changed what in which revision?

User	Revision	Line number	New contents of line
andreikovacs	0:4eb2240dbd22	1	/*!
andreikovacs	0:4eb2240dbd22	2	* Copyright (c) 2015, Freescale Semiconductor, Inc.
andreikovacs	0:4eb2240dbd22	3	* All rights reserved.
andreikovacs	0:4eb2240dbd22	4	*
andreikovacs	0:4eb2240dbd22	5	* \file Connectivity_TestApp.c
andreikovacs	0:4eb2240dbd22	6	*
andreikovacs	0:4eb2240dbd22	7	* Redistribution and use in source and binary forms, with or without modification,
andreikovacs	0:4eb2240dbd22	8	* are permitted provided that the following conditions are met:
andreikovacs	0:4eb2240dbd22	9	*
andreikovacs	0:4eb2240dbd22	10	* o Redistributions of source code must retain the above copyright notice, this list
andreikovacs	0:4eb2240dbd22	11	* of conditions and the following disclaimer.
andreikovacs	0:4eb2240dbd22	12	*
andreikovacs	0:4eb2240dbd22	13	* o Redistributions in binary form must reproduce the above copyright notice, this
andreikovacs	0:4eb2240dbd22	14	* list of conditions and the following disclaimer in the documentation and/or
andreikovacs	0:4eb2240dbd22	15	* other materials provided with the distribution.
andreikovacs	0:4eb2240dbd22	16	*
andreikovacs	0:4eb2240dbd22	17	* o Neither the name of Freescale Semiconductor, Inc. nor the names of its
andreikovacs	0:4eb2240dbd22	18	* contributors may be used to endorse or promote products derived from this
andreikovacs	0:4eb2240dbd22	19	* software without specific prior written permission.
andreikovacs	0:4eb2240dbd22	20	*
andreikovacs	0:4eb2240dbd22	21	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
andreikovacs	0:4eb2240dbd22	22	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
andreikovacs	0:4eb2240dbd22	23	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
andreikovacs	0:4eb2240dbd22	24	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
andreikovacs	0:4eb2240dbd22	25	* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
andreikovacs	0:4eb2240dbd22	26	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
andreikovacs	0:4eb2240dbd22	27	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
andreikovacs	0:4eb2240dbd22	28	* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
andreikovacs	0:4eb2240dbd22	29	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
andreikovacs	0:4eb2240dbd22	30	* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
andreikovacs	0:4eb2240dbd22	31	*/
andreikovacs	0:4eb2240dbd22	32
andreikovacs	0:4eb2240dbd22	33	/************************************************************************************
andreikovacs	0:4eb2240dbd22	34	*************************************************************************************
andreikovacs	0:4eb2240dbd22	35	* Include
andreikovacs	0:4eb2240dbd22	36	*************************************************************************************
andreikovacs	0:4eb2240dbd22	37	************************************************************************************/
andreikovacs	0:4eb2240dbd22	38
andreikovacs	0:4eb2240dbd22	39	#include "Application_Interface.h"
andreikovacs	0:4eb2240dbd22	40	#include "Connectivity_Test_Platform.h"
andreikovacs	0:4eb2240dbd22	41	/************************************************************************************
andreikovacs	0:4eb2240dbd22	42	*************************************************************************************
andreikovacs	0:4eb2240dbd22	43	* Private type definitions
andreikovacs	0:4eb2240dbd22	44	*************************************************************************************
andreikovacs	0:4eb2240dbd22	45	************************************************************************************/
andreikovacs	0:4eb2240dbd22	46
andreikovacs	0:4eb2240dbd22	47	/************************************************************************************
andreikovacs	0:4eb2240dbd22	48	*************************************************************************************
andreikovacs	0:4eb2240dbd22	49	* Macros
andreikovacs	0:4eb2240dbd22	50	*************************************************************************************
andreikovacs	0:4eb2240dbd22	51	************************************************************************************/
andreikovacs	0:4eb2240dbd22	52	#define gPrbs9BufferLength_c ( 65 )
andreikovacs	0:4eb2240dbd22	53	#define gContTxModSelectPN9_c ( 2 )
andreikovacs	0:4eb2240dbd22	54	#define gContTxModSelectOnes_c ( 1 )
andreikovacs	0:4eb2240dbd22	55	#define gContTxModSelectZeros_c ( 0 )
andreikovacs	2:aaffc5d91884	56	#define SelfNotificationEvent() \
andreikovacs	2:aaffc5d91884	57	do \
andreikovacs	2:aaffc5d91884	58	{ \
andreikovacs	2:aaffc5d91884	59	gTaskEventFlags \|= gCTSelf_EVENT_c; \
andreikovacs	2:aaffc5d91884	60	mainTask->signal_set(gEventsAny_c); \
andreikovacs	2:aaffc5d91884	61	}while(0);
andreikovacs	1:1eb1eccc81c2	62	#define ResetMCU() NVIC_SystemReset()
andreikovacs	0:4eb2240dbd22	63
andreikovacs	0:4eb2240dbd22	64	#define gUART_RX_EVENT_c (1<<0)
andreikovacs	0:4eb2240dbd22	65	#define gMcps_Cnf_EVENT_c (1<<1)
andreikovacs	0:4eb2240dbd22	66	#define gMcps_Ind_EVENT_c (1<<2)
andreikovacs	0:4eb2240dbd22	67	#define gMlme_EdCnf_EVENT_c (1<<3)
andreikovacs	0:4eb2240dbd22	68	#define gMlme_CcaCnf_EVENT_c (1<<4)
andreikovacs	0:4eb2240dbd22	69	#define gMlme_TimeoutInd_EVENT_c (1<<5)
andreikovacs	0:4eb2240dbd22	70	#define gRangeTest_EVENT_c (1<<6)
andreikovacs	0:4eb2240dbd22	71	#define gCTSelf_EVENT_c (1<<7)
andreikovacs	0:4eb2240dbd22	72	#define gTimePassed_EVENT_c (1<<8)
andreikovacs	0:4eb2240dbd22	73
andreikovacs	2:aaffc5d91884	74	#define gEventsAny_c (1<<9)
andreikovacs	0:4eb2240dbd22	75
andreikovacs	0:4eb2240dbd22	76	#define Delay_ms(a)
andreikovacs	3:b9e209eca377	77	#define FlaggedDelay_ms(a) ConnTestTimeout.attach_us(DelayTimeElapsed, (a) * 1000)
andreikovacs	0:4eb2240dbd22	78
andreikovacs	0:4eb2240dbd22	79	#ifdef gPHY_802_15_4g_d
andreikovacs	0:4eb2240dbd22	80	#define GetTimestampUS() PhyTime_GetTimestampUs()
andreikovacs	0:4eb2240dbd22	81	#define GetTransmissionTime(payload, bitrate) ((((gPhyFSKPreambleLength_c + \
andreikovacs	0:4eb2240dbd22	82	gPhyMRFSKPHRLength_c + gPhyMRFSKSFDLength_c + \
andreikovacs	0:4eb2240dbd22	83	sizeof(smacHeader_t) + payload + gPhyFCSSize_c )*8000 )/ bitrate))
andreikovacs	0:4eb2240dbd22	84	#else
andreikovacs	0:4eb2240dbd22	85	#define GetTimestampUS() (16*PhyTime_GetTimestamp())
andreikovacs	0:4eb2240dbd22	86	#define GetTransmissionTime(payload, bitrate) (((6 + sizeof(smacHeader_t) + payload + 2)*32))
andreikovacs	0:4eb2240dbd22	87	//bitrate is fixed for 2.4 GHz
andreikovacs	0:4eb2240dbd22	88	#define crtBitrate (0)
andreikovacs	0:4eb2240dbd22	89	#endif
andreikovacs	0:4eb2240dbd22	90	/************************************************************************************
andreikovacs	0:4eb2240dbd22	91	*************************************************************************************
andreikovacs	0:4eb2240dbd22	92	* Public memory declarations
andreikovacs	0:4eb2240dbd22	93	*************************************************************************************
andreikovacs	0:4eb2240dbd22	94	************************************************************************************/
andreikovacs	0:4eb2240dbd22	95
andreikovacs	0:4eb2240dbd22	96	uint32_t gTaskEventFlags;
andreikovacs	0:4eb2240dbd22	97
andreikovacs	0:4eb2240dbd22	98	/smac related variables/
andreikovacs	0:4eb2240dbd22	99	bool_t bTxDone;
andreikovacs	0:4eb2240dbd22	100	bool_t bRxDone;
andreikovacs	0:4eb2240dbd22	101	bool_t bScanDone;
andreikovacs	0:4eb2240dbd22	102	bool_t gCCaGotResult;
andreikovacs	0:4eb2240dbd22	103	bool_t gIsChannelIdle;
andreikovacs	0:4eb2240dbd22	104	bool_t bEdDone;
andreikovacs	0:4eb2240dbd22	105	bool_t failedPRBS9;
andreikovacs	0:4eb2240dbd22	106	uint8_t u8LastRxRssiValue;
andreikovacs	0:4eb2240dbd22	107	bool_t evTestParameters;
andreikovacs	0:4eb2240dbd22	108	uint8_t au8ScanResults[129];
andreikovacs	0:4eb2240dbd22	109
andreikovacs	0:4eb2240dbd22	110	/serial manager related variables/
andreikovacs	0:4eb2240dbd22	111	uint8_t gu8UartData;
andreikovacs	0:4eb2240dbd22	112	bool_t evDataFromUART;
andreikovacs	0:4eb2240dbd22	113	uint8_t mAppSer;
andreikovacs	0:4eb2240dbd22	114
andreikovacs	0:4eb2240dbd22	115	/connectivity test state machine variables/
andreikovacs	0:4eb2240dbd22	116	operationModes_t testOpMode;
andreikovacs	0:4eb2240dbd22	117	operationModes_t prevOpMode;
andreikovacs	0:4eb2240dbd22	118
andreikovacs	0:4eb2240dbd22	119	channels_t testChannel;
andreikovacs	0:4eb2240dbd22	120	uint8_t testPower;
andreikovacs	0:4eb2240dbd22	121	uint8_t testPayloadLen;
andreikovacs	0:4eb2240dbd22	122	uint8_t contTxModBitValue;
andreikovacs	0:4eb2240dbd22	123	uint8_t ccaThresh;
andreikovacs	0:4eb2240dbd22	124	bool_t shortCutsEnabled;
andreikovacs	0:4eb2240dbd22	125	ConnectivityStates_t connState;
andreikovacs	0:4eb2240dbd22	126	ContinuousTxRxTestStates_t cTxRxState;
andreikovacs	0:4eb2240dbd22	127	PerTxStates_t perTxState;
andreikovacs	0:4eb2240dbd22	128	PerRxStates_t perRxState;
andreikovacs	0:4eb2240dbd22	129	RangeTxStates_t rangeTxState;
andreikovacs	0:4eb2240dbd22	130	RangeRxStates_t rangeRxState;
andreikovacs	0:4eb2240dbd22	131	EditRegsStates_t eRState;
andreikovacs	0:4eb2240dbd22	132	oRStates_t oRState;
andreikovacs	0:4eb2240dbd22	133	rRStates_t rRState;
andreikovacs	0:4eb2240dbd22	134	dRStates_t dRState;
andreikovacs	0:4eb2240dbd22	135	CSenseTCtrlStates_t cstcState;
andreikovacs	0:4eb2240dbd22	136	uint8_t ChannelToScan;
andreikovacs	0:4eb2240dbd22	137	smacTestMode_t contTestRunning;
andreikovacs	0:4eb2240dbd22	138
andreikovacs	0:4eb2240dbd22	139	/asp related variables/
andreikovacs	0:4eb2240dbd22	140	AppToAspMessage_t aspTestRequestMsg;
andreikovacs	0:4eb2240dbd22	141
andreikovacs	0:4eb2240dbd22	142	extern uint8_t u8Prbs9Buffer[gPrbs9BufferLength_c];
andreikovacs	0:4eb2240dbd22	143
andreikovacs	0:4eb2240dbd22	144	Serial uart(USBTX,USBRX);
andreikovacs	0:4eb2240dbd22	145	Thread *mainTask;
andreikovacs	4:fb5e683a878c	146	Thread *uartTask;
andreikovacs	0:4eb2240dbd22	147
andreikovacs	0:4eb2240dbd22	148	/************************************************************************************
andreikovacs	0:4eb2240dbd22	149	*************************************************************************************
andreikovacs	0:4eb2240dbd22	150	* Private memory declarations
andreikovacs	0:4eb2240dbd22	151	*************************************************************************************
andreikovacs	0:4eb2240dbd22	152	************************************************************************************/
andreikovacs	0:4eb2240dbd22	153	static uint8_t gau8RxDataBuffer[gMaxSmacSDULength_c + sizeof(txPacket_t)];
andreikovacs	0:4eb2240dbd22	154	static uint8_t gau8TxDataBuffer[gMaxSmacSDULength_c + sizeof(rxPacket_t)];
andreikovacs	0:4eb2240dbd22	155
andreikovacs	0:4eb2240dbd22	156	static txPacket_t * gAppTxPacket;
andreikovacs	0:4eb2240dbd22	157	static rxPacket_t * gAppRxPacket;
andreikovacs	0:4eb2240dbd22	158
andreikovacs	0:4eb2240dbd22	159	static uint8_t timePassed;
andreikovacs	3:b9e209eca377	160	Timeout RangeTestTmr;
andreikovacs	3:b9e209eca377	161	Timeout ConnTestTimeout;
andreikovacs	0:4eb2240dbd22	162	Timer AppDelayTmr;
andreikovacs	0:4eb2240dbd22	163	/************************************************************************************
andreikovacs	0:4eb2240dbd22	164	*************************************************************************************
andreikovacs	0:4eb2240dbd22	165	* Private prototypes
andreikovacs	0:4eb2240dbd22	166	*************************************************************************************
andreikovacs	0:4eb2240dbd22	167	************************************************************************************/
andreikovacs	0:4eb2240dbd22	168	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	169	extern void StoreTrimValueToFlash (uint32_t trimValue, CalibrationOptionSelect_t option);
andreikovacs	0:4eb2240dbd22	170	#endif
andreikovacs	0:4eb2240dbd22	171
andreikovacs	0:4eb2240dbd22	172	/platform independent functions/
andreikovacs	0:4eb2240dbd22	173	static void SerialUIStateMachine(void);
andreikovacs	0:4eb2240dbd22	174	static bool_t SerialContinuousTxRxTest(void);
andreikovacs	0:4eb2240dbd22	175	static bool_t PacketErrorRateTx(void);
andreikovacs	0:4eb2240dbd22	176	static bool_t PacketErrorRateRx(void);
andreikovacs	0:4eb2240dbd22	177	static void SetRadioRxOnNoTimeOut(void);
andreikovacs	0:4eb2240dbd22	178	static void HandleEvents(int32_t evSignals);
andreikovacs	0:4eb2240dbd22	179	static void PrintTestParameters(bool_t bEraseLine);
andreikovacs	0:4eb2240dbd22	180
andreikovacs	0:4eb2240dbd22	181	static void PrintPerRxFinalLine(uint16_t u16Received, uint16_t u16Total);
andreikovacs	0:4eb2240dbd22	182	extern uint32_t HexString2Dec(uint8_t * au8String);
andreikovacs	0:4eb2240dbd22	183	static bool_t stringComp(uint8_t * au8leftString, uint8_t * au8RightString, uint8_t bytesToCompare);
andreikovacs	0:4eb2240dbd22	184	/********************************/
andreikovacs	0:4eb2240dbd22	185
andreikovacs	0:4eb2240dbd22	186	static void RangeTest_Timer_CallBack ();
andreikovacs	0:4eb2240dbd22	187	static bool_t RangeTx(void);
andreikovacs	0:4eb2240dbd22	188	static bool_t RangeRx(void);
andreikovacs	0:4eb2240dbd22	189
andreikovacs	0:4eb2240dbd22	190	static bool_t EditRegisters(void);
andreikovacs	0:4eb2240dbd22	191	#if CT_Feature_Direct_Registers \|\| CT_Feature_Indirect_Registers
andreikovacs	0:4eb2240dbd22	192	bool_t OverrideRegisters(void);
andreikovacs	0:4eb2240dbd22	193	bool_t ReadRegisters(void);
andreikovacs	0:4eb2240dbd22	194	bool_t DumpRegisters(void);
andreikovacs	0:4eb2240dbd22	195	bool_t bIsRegisterDirect = TRUE;
andreikovacs	0:4eb2240dbd22	196	#endif
andreikovacs	0:4eb2240dbd22	197
andreikovacs	0:4eb2240dbd22	198	static bool_t CSenseAndTCtrl(void);
andreikovacs	0:4eb2240dbd22	199	static void TransmissionControlHandler(void);
andreikovacs	0:4eb2240dbd22	200	static void CarrierSenseHandler(void);
andreikovacs	0:4eb2240dbd22	201	static smacErrors_t TestMode ( smacTestMode_t mode);
andreikovacs	0:4eb2240dbd22	202	static void PacketHandler_Prbs9(void);
andreikovacs	0:4eb2240dbd22	203	static void DelayTimeElapsed();
andreikovacs	0:4eb2240dbd22	204	static void IncrementChannelOnEdEvent();
andreikovacs	0:4eb2240dbd22	205	extern void ReadRFRegs(registerAddressSize_t, registerAddressSize_t);
andreikovacs	0:4eb2240dbd22	206	extern void PrintTestParameters(bool_t bEraseLine);
andreikovacs	0:4eb2240dbd22	207
andreikovacs	0:4eb2240dbd22	208	/*************************************/
andreikovacs	0:4eb2240dbd22	209	/************************************************************************************
andreikovacs	0:4eb2240dbd22	210	*************************************************************************************
andreikovacs	0:4eb2240dbd22	211	* Public functions
andreikovacs	0:4eb2240dbd22	212	*************************************************************************************
andreikovacs	0:4eb2240dbd22	213	************************************************************************************/
andreikovacs	0:4eb2240dbd22	214	void InitProject(void);
andreikovacs	0:4eb2240dbd22	215	void InitSmac(void);
andreikovacs	0:4eb2240dbd22	216	void main_task(void const *argument);
andreikovacs	2:aaffc5d91884	217	void UartRxCallBack(void);
andreikovacs	0:4eb2240dbd22	218	void PrintMenu(char * const pu8Menu[], uint8_t port);
andreikovacs	0:4eb2240dbd22	219
andreikovacs	0:4eb2240dbd22	220	/************************************************************************************
andreikovacs	0:4eb2240dbd22	221	*
andreikovacs	0:4eb2240dbd22	222	* InitProject
andreikovacs	0:4eb2240dbd22	223	*
andreikovacs	0:4eb2240dbd22	224	************************************************************************************/
andreikovacs	0:4eb2240dbd22	225	void InitProject(void)
andreikovacs	0:4eb2240dbd22	226	{
andreikovacs	0:4eb2240dbd22	227	/Global Data init/
andreikovacs	0:4eb2240dbd22	228	testPayloadLen = gMaxSmacSDULength_c;
andreikovacs	0:4eb2240dbd22	229
andreikovacs	0:4eb2240dbd22	230	testOpMode = gDefaultOperationMode_c;
andreikovacs	0:4eb2240dbd22	231	testChannel = gDefaultChannelNumber_c;
andreikovacs	0:4eb2240dbd22	232	testPower = gDefaultOutputPower_c;
andreikovacs	0:4eb2240dbd22	233	testPayloadLen = gDefaultPayload_c;
andreikovacs	0:4eb2240dbd22	234	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	235	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	236	connState = gConnInitState_c;
andreikovacs	0:4eb2240dbd22	237	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	238	perTxState = gPerTxStateInit_c;
andreikovacs	0:4eb2240dbd22	239	perRxState = gPerRxStateInit_c;
andreikovacs	0:4eb2240dbd22	240	rangeTxState = gRangeTxStateInit_c;
andreikovacs	0:4eb2240dbd22	241	rangeRxState = gRangeRxStateInit_c;
andreikovacs	0:4eb2240dbd22	242	prevOpMode = gDefaultOperationMode_c;
andreikovacs	0:4eb2240dbd22	243	oRState = gORStateInit_c;
andreikovacs	0:4eb2240dbd22	244	rRState = gRRStateInit_c;
andreikovacs	0:4eb2240dbd22	245	dRState = gDRStateInit_c;
andreikovacs	0:4eb2240dbd22	246	ccaThresh = gDefaultCCAThreshold_c;
andreikovacs	0:4eb2240dbd22	247	bEdDone = FALSE;
andreikovacs	0:4eb2240dbd22	248	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	249
andreikovacs	0:4eb2240dbd22	250	InitProject_custom();
andreikovacs	0:4eb2240dbd22	251	}
andreikovacs	0:4eb2240dbd22	252
andreikovacs	0:4eb2240dbd22	253	/************************************************************************************
andreikovacs	0:4eb2240dbd22	254	*************************************************************************************
andreikovacs	0:4eb2240dbd22	255	* SAP functions
andreikovacs	0:4eb2240dbd22	256	*************************************************************************************
andreikovacs	0:4eb2240dbd22	257	************************************************************************************/
andreikovacs	0:4eb2240dbd22	258
andreikovacs	0:4eb2240dbd22	259	//(Management) Sap handler for managing timeout indication and ED confirm
andreikovacs	0:4eb2240dbd22	260	smacErrors_t smacToAppMlmeSap(smacToAppMlmeMessage_t* pMsg, instanceId_t instance)
andreikovacs	0:4eb2240dbd22	261	{
andreikovacs	0:4eb2240dbd22	262	switch(pMsg->msgType)
andreikovacs	0:4eb2240dbd22	263	{
andreikovacs	0:4eb2240dbd22	264	case gMlmeEdCnf_c:
andreikovacs	0:4eb2240dbd22	265	au8ScanResults[pMsg->msgData.edCnf.scannedChannel] = pMsg->msgData.edCnf.energyLeveldB;
andreikovacs	0:4eb2240dbd22	266	gTaskEventFlags \|= gMlme_EdCnf_EVENT_c;
andreikovacs	2:aaffc5d91884	267	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	268	break;
andreikovacs	0:4eb2240dbd22	269	case gMlmeCcaCnf_c:
andreikovacs	0:4eb2240dbd22	270	gTaskEventFlags \|= gMlme_CcaCnf_EVENT_c;
andreikovacs	2:aaffc5d91884	271	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	272	if(pMsg->msgData.ccaCnf.status == gErrorNoError_c)
andreikovacs	0:4eb2240dbd22	273	gIsChannelIdle = TRUE;
andreikovacs	0:4eb2240dbd22	274	else
andreikovacs	0:4eb2240dbd22	275	gIsChannelIdle = FALSE;
andreikovacs	0:4eb2240dbd22	276	break;
andreikovacs	0:4eb2240dbd22	277	case gMlmeTimeoutInd_c:
andreikovacs	0:4eb2240dbd22	278	gTaskEventFlags \|= gMlme_TimeoutInd_EVENT_c;
andreikovacs	2:aaffc5d91884	279	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	280	break;
andreikovacs	0:4eb2240dbd22	281	default:
andreikovacs	0:4eb2240dbd22	282	break;
andreikovacs	0:4eb2240dbd22	283	}
andreikovacs	0:4eb2240dbd22	284	MEM_BufferFree(pMsg);
andreikovacs	0:4eb2240dbd22	285	return gErrorNoError_c;
andreikovacs	0:4eb2240dbd22	286	}
andreikovacs	0:4eb2240dbd22	287	//(Data) Sap handler for managing data confirm and data indication
andreikovacs	0:4eb2240dbd22	288	smacErrors_t smacToAppMcpsSap(smacToAppDataMessage_t* pMsg, instanceId_t instance)
andreikovacs	0:4eb2240dbd22	289	{
andreikovacs	0:4eb2240dbd22	290	switch(pMsg->msgType)
andreikovacs	0:4eb2240dbd22	291	{
andreikovacs	0:4eb2240dbd22	292	case gMcpsDataInd_c:
andreikovacs	0:4eb2240dbd22	293	if(pMsg->msgData.dataInd.pRxPacket->rxStatus == rxSuccessStatus_c)
andreikovacs	0:4eb2240dbd22	294	{
andreikovacs	0:4eb2240dbd22	295	u8LastRxRssiValue = pMsg->msgData.dataInd.u8LastRxRssi;
andreikovacs	0:4eb2240dbd22	296	gTaskEventFlags \|= gMcps_Ind_EVENT_c;
andreikovacs	2:aaffc5d91884	297	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	298	}
andreikovacs	0:4eb2240dbd22	299	break;
andreikovacs	0:4eb2240dbd22	300	case gMcpsDataCnf_c:
andreikovacs	0:4eb2240dbd22	301	if(pMsg->msgData.dataCnf.status == gErrorNoError_c)
andreikovacs	0:4eb2240dbd22	302	{
andreikovacs	0:4eb2240dbd22	303	gTaskEventFlags \|= gMcps_Cnf_EVENT_c;
andreikovacs	2:aaffc5d91884	304	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	305	}
andreikovacs	0:4eb2240dbd22	306	break;
andreikovacs	0:4eb2240dbd22	307	default:
andreikovacs	0:4eb2240dbd22	308	break;
andreikovacs	0:4eb2240dbd22	309	}
andreikovacs	0:4eb2240dbd22	310
andreikovacs	0:4eb2240dbd22	311	MEM_BufferFree(pMsg);
andreikovacs	0:4eb2240dbd22	312	return gErrorNoError_c;
andreikovacs	0:4eb2240dbd22	313	}
andreikovacs	0:4eb2240dbd22	314
andreikovacs	0:4eb2240dbd22	315	static void HandleEvents(int32_t evSignals)
andreikovacs	0:4eb2240dbd22	316	{
andreikovacs	0:4eb2240dbd22	317	if(evSignals & gUART_RX_EVENT_c)
andreikovacs	0:4eb2240dbd22	318	{
andreikovacs	0:4eb2240dbd22	319	if(shortCutsEnabled)
andreikovacs	0:4eb2240dbd22	320	{
andreikovacs	0:4eb2240dbd22	321	ShortCutsParser(gu8UartData);
andreikovacs	0:4eb2240dbd22	322	}
andreikovacs	0:4eb2240dbd22	323	else
andreikovacs	0:4eb2240dbd22	324	{
andreikovacs	0:4eb2240dbd22	325	evDataFromUART = TRUE;
andreikovacs	0:4eb2240dbd22	326	}
andreikovacs	0:4eb2240dbd22	327	}
andreikovacs	0:4eb2240dbd22	328	if(evSignals & gMcps_Cnf_EVENT_c)
andreikovacs	0:4eb2240dbd22	329	{
andreikovacs	0:4eb2240dbd22	330	bTxDone = TRUE;
andreikovacs	0:4eb2240dbd22	331	}
andreikovacs	0:4eb2240dbd22	332	if(evSignals & gMcps_Ind_EVENT_c)
andreikovacs	0:4eb2240dbd22	333	{
andreikovacs	0:4eb2240dbd22	334	bRxDone = TRUE;
andreikovacs	0:4eb2240dbd22	335	}
andreikovacs	0:4eb2240dbd22	336	if(evSignals & gMlme_TimeoutInd_EVENT_c)
andreikovacs	0:4eb2240dbd22	337	{
andreikovacs	0:4eb2240dbd22	338	}
andreikovacs	0:4eb2240dbd22	339	if(evSignals & gRangeTest_EVENT_c)
andreikovacs	0:4eb2240dbd22	340	{
andreikovacs	0:4eb2240dbd22	341	bRxDone=TRUE;
andreikovacs	0:4eb2240dbd22	342	}
andreikovacs	0:4eb2240dbd22	343	if(evSignals & gMlme_EdCnf_EVENT_c)
andreikovacs	0:4eb2240dbd22	344	{
andreikovacs	0:4eb2240dbd22	345	if (cTxRxState == gCTxRxStateRunnigScanTest_c)
andreikovacs	0:4eb2240dbd22	346	{
andreikovacs	0:4eb2240dbd22	347	IncrementChannelOnEdEvent();
andreikovacs	0:4eb2240dbd22	348	}
andreikovacs	0:4eb2240dbd22	349	if (cTxRxState == gCTxRxStateRunnigEdTest_c)
andreikovacs	0:4eb2240dbd22	350	{
andreikovacs	0:4eb2240dbd22	351	cTxRxState = gCTxRxStateRunningEdTestGotResult_c;
andreikovacs	0:4eb2240dbd22	352	}
andreikovacs	0:4eb2240dbd22	353	if (connState == gConnCSenseAndTCtrl_c)
andreikovacs	0:4eb2240dbd22	354	{
andreikovacs	0:4eb2240dbd22	355	bScanDone = TRUE;
andreikovacs	0:4eb2240dbd22	356	}
andreikovacs	0:4eb2240dbd22	357	bEdDone = TRUE;
andreikovacs	0:4eb2240dbd22	358	}
andreikovacs	0:4eb2240dbd22	359	if(evSignals & gMlme_CcaCnf_EVENT_c)
andreikovacs	0:4eb2240dbd22	360	{
andreikovacs	0:4eb2240dbd22	361	gCCaGotResult = TRUE;
andreikovacs	6:85e288fb2556	362	uart.printf("Channel %d is ", (uint32_t)testChannel);
andreikovacs	0:4eb2240dbd22	363	if(gIsChannelIdle)
andreikovacs	0:4eb2240dbd22	364	uart.printf("Idle\r\n");
andreikovacs	0:4eb2240dbd22	365	else
andreikovacs	0:4eb2240dbd22	366	uart.printf("Busy\r\n");
andreikovacs	0:4eb2240dbd22	367	}
andreikovacs	0:4eb2240dbd22	368	if(evSignals & gCTSelf_EVENT_c)
andreikovacs	0:4eb2240dbd22	369	{
andreikovacs	0:4eb2240dbd22	370	}
andreikovacs	0:4eb2240dbd22	371	}
andreikovacs	0:4eb2240dbd22	372
andreikovacs	0:4eb2240dbd22	373
andreikovacs	0:4eb2240dbd22	374	/*************************************************************************/
andreikovacs	0:4eb2240dbd22	375	/Main Task: Application entry point/
andreikovacs	0:4eb2240dbd22	376	/*************************************************************************/
andreikovacs	0:4eb2240dbd22	377	void main_task(void const *argument)
andreikovacs	0:4eb2240dbd22	378	{
andreikovacs	0:4eb2240dbd22	379	static bool_t bIsInitialized = FALSE;
andreikovacs	0:4eb2240dbd22	380	static bool_t bUserInteraction = FALSE;
andreikovacs	0:4eb2240dbd22	381	//Initialize Memory Manager, Timer Manager and LEDs.
andreikovacs	0:4eb2240dbd22	382	if( !bIsInitialized )
andreikovacs	0:4eb2240dbd22	383	{
andreikovacs	0:4eb2240dbd22	384
andreikovacs	0:4eb2240dbd22	385	MEM_Init();
andreikovacs	0:4eb2240dbd22	386	//initialize PHY
andreikovacs	0:4eb2240dbd22	387	Phy_Init();
andreikovacs	0:4eb2240dbd22	388
andreikovacs	0:4eb2240dbd22	389	InitApp();
andreikovacs	5:ad78d222bbcd	390
andreikovacs	0:4eb2240dbd22	391	/Prints the Welcome screens in the terminal/
andreikovacs	0:4eb2240dbd22	392	PrintMenu(cu8FreescaleLogo, mAppSer);
andreikovacs	0:4eb2240dbd22	393
andreikovacs	0:4eb2240dbd22	394	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	395	bIsInitialized = TRUE;
andreikovacs	0:4eb2240dbd22	396	}
andreikovacs	0:4eb2240dbd22	397	if(!bUserInteraction)
andreikovacs	0:4eb2240dbd22	398	{
andreikovacs	0:4eb2240dbd22	399	while(1)
andreikovacs	2:aaffc5d91884	400	{
andreikovacs	2:aaffc5d91884	401	Thread::signal_wait(gEventsAny_c);
andreikovacs	2:aaffc5d91884	402	if(gu8UartData == '\r')
andreikovacs	0:4eb2240dbd22	403	{
andreikovacs	2:aaffc5d91884	404	SelfNotificationEvent();
andreikovacs	2:aaffc5d91884	405	bUserInteraction = TRUE;
andreikovacs	2:aaffc5d91884	406	break;
andreikovacs	2:aaffc5d91884	407	}
andreikovacs	2:aaffc5d91884	408	else
andreikovacs	2:aaffc5d91884	409	{
andreikovacs	2:aaffc5d91884	410	PrintMenu(cu8FreescaleLogo, mAppSer);
andreikovacs	0:4eb2240dbd22	411	}
andreikovacs	0:4eb2240dbd22	412	}
andreikovacs	0:4eb2240dbd22	413	}
andreikovacs	0:4eb2240dbd22	414	if(bUserInteraction)
andreikovacs	0:4eb2240dbd22	415	{
andreikovacs	0:4eb2240dbd22	416	while(1)
andreikovacs	0:4eb2240dbd22	417	{
andreikovacs	2:aaffc5d91884	418	Thread::signal_wait(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	419	HandleEvents(gTaskEventFlags);
andreikovacs	5:ad78d222bbcd	420	gTaskEventFlags = 0;
andreikovacs	0:4eb2240dbd22	421	SerialUIStateMachine();
andreikovacs	0:4eb2240dbd22	422	}
andreikovacs	0:4eb2240dbd22	423	}
andreikovacs	0:4eb2240dbd22	424	}
andreikovacs	0:4eb2240dbd22	425
andreikovacs	0:4eb2240dbd22	426	/*************************************************************************/
andreikovacs	0:4eb2240dbd22	427	/InitApp: Initializes application mdoules and data/
andreikovacs	0:4eb2240dbd22	428	/*************************************************************************/
andreikovacs	0:4eb2240dbd22	429	void InitApp()
andreikovacs	0:4eb2240dbd22	430	{
andreikovacs	0:4eb2240dbd22	431
andreikovacs	0:4eb2240dbd22	432	gAppTxPacket = (txPacket_t*)gau8TxDataBuffer; //Map TX packet to buffer
andreikovacs	0:4eb2240dbd22	433	gAppRxPacket = (rxPacket_t*)gau8RxDataBuffer; //Map Rx packet to buffer
andreikovacs	0:4eb2240dbd22	434	gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
andreikovacs	0:4eb2240dbd22	435
andreikovacs	0:4eb2240dbd22	436	uart.baud(115200);
andreikovacs	0:4eb2240dbd22	437
andreikovacs	0:4eb2240dbd22	438	//Initialise SMAC
andreikovacs	0:4eb2240dbd22	439	InitSmac();
andreikovacs	0:4eb2240dbd22	440	//Tell SMAC who to call when it needs to pass a message to the application thread.
andreikovacs	0:4eb2240dbd22	441	Smac_RegisterSapHandlers((SMAC_APP_MCPS_SapHandler_t)smacToAppMcpsSap,(SMAC_APP_MLME_SapHandler_t)smacToAppMlmeSap,0);
andreikovacs	0:4eb2240dbd22	442
andreikovacs	0:4eb2240dbd22	443	InitProject();
andreikovacs	0:4eb2240dbd22	444
andreikovacs	0:4eb2240dbd22	445	InitApp_custom();
andreikovacs	0:4eb2240dbd22	446
andreikovacs	0:4eb2240dbd22	447	ASP_Init(0, mAppSer);
andreikovacs	0:4eb2240dbd22	448
andreikovacs	0:4eb2240dbd22	449	SMACFillHeader(&(gAppTxPacket->smacHeader), gBroadcastAddress_c); //@CMA, Conn Test. Start with broadcast address default
andreikovacs	0:4eb2240dbd22	450	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	451	(void)MLMESetChannelRequest(testChannel); //@CMA, Conn Test. Start Foperation at default channel
andreikovacs	0:4eb2240dbd22	452	}
andreikovacs	0:4eb2240dbd22	453
andreikovacs	0:4eb2240dbd22	454	/************************************************************************************
andreikovacs	0:4eb2240dbd22	455	*
andreikovacs	0:4eb2240dbd22	456	* Connectivity Test State Machine
andreikovacs	0:4eb2240dbd22	457	*
andreikovacs	0:4eb2240dbd22	458	************************************************************************************/
andreikovacs	0:4eb2240dbd22	459	void SerialUIStateMachine(void)
andreikovacs	0:4eb2240dbd22	460	{
andreikovacs	0:4eb2240dbd22	461	if((gConnSelectTest_c == connState) && evTestParameters)
andreikovacs	0:4eb2240dbd22	462	{
andreikovacs	0:4eb2240dbd22	463	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	464	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	465	#endif
andreikovacs	0:4eb2240dbd22	466	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	467	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	468	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	469	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	470	}
andreikovacs	0:4eb2240dbd22	471	switch(connState)
andreikovacs	0:4eb2240dbd22	472	{
andreikovacs	0:4eb2240dbd22	473	case gConnIdleState_c:
andreikovacs	0:4eb2240dbd22	474	PrintMenu(cu8MainMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	475	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	476	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	477	connState = gConnSelectTest_c;
andreikovacs	0:4eb2240dbd22	478	break;
andreikovacs	0:4eb2240dbd22	479	case gConnSelectTest_c:
andreikovacs	0:4eb2240dbd22	480	if(evDataFromUART){
andreikovacs	0:4eb2240dbd22	481	if('1' == gu8UartData)
andreikovacs	0:4eb2240dbd22	482	{
andreikovacs	0:4eb2240dbd22	483	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	484	connState = gConnContinuousTxRxState_c;
andreikovacs	0:4eb2240dbd22	485	}
andreikovacs	0:4eb2240dbd22	486	else if('2' == gu8UartData)
andreikovacs	0:4eb2240dbd22	487	{
andreikovacs	0:4eb2240dbd22	488	perTxState = gPerTxStateInit_c;
andreikovacs	0:4eb2240dbd22	489	perRxState = gPerRxStateInit_c;
andreikovacs	0:4eb2240dbd22	490	connState = gConnPerState_c;
andreikovacs	0:4eb2240dbd22	491	}
andreikovacs	0:4eb2240dbd22	492	else if('3' == gu8UartData)
andreikovacs	0:4eb2240dbd22	493	{
andreikovacs	0:4eb2240dbd22	494	rangeTxState = gRangeTxStateInit_c;
andreikovacs	0:4eb2240dbd22	495	rangeRxState = gRangeRxStateInit_c;
andreikovacs	0:4eb2240dbd22	496	connState = gConnRangeState_c;
andreikovacs	0:4eb2240dbd22	497	}
andreikovacs	0:4eb2240dbd22	498	else if('4' == gu8UartData)
andreikovacs	0:4eb2240dbd22	499	{
andreikovacs	0:4eb2240dbd22	500	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	501	connState = gConnCSenseAndTCtrl_c;
andreikovacs	0:4eb2240dbd22	502	}
andreikovacs	0:4eb2240dbd22	503	#if CT_Feature_Direct_Registers \|\| CT_Feature_Indirect_Registers
andreikovacs	0:4eb2240dbd22	504	else if('5' == gu8UartData)
andreikovacs	0:4eb2240dbd22	505	{
andreikovacs	0:4eb2240dbd22	506	eRState = gERStateInit_c;
andreikovacs	0:4eb2240dbd22	507	connState = gConnRegEditState_c;
andreikovacs	0:4eb2240dbd22	508	}
andreikovacs	0:4eb2240dbd22	509	#endif
andreikovacs	0:4eb2240dbd22	510	#if CT_Feature_Bitrate_Select
andreikovacs	0:4eb2240dbd22	511	else if('6' == gu8UartData)
andreikovacs	0:4eb2240dbd22	512	{
andreikovacs	0:4eb2240dbd22	513	bsState = gBSStateInit_c;
andreikovacs	0:4eb2240dbd22	514	connState = gConnBitrateSelectState_c;
andreikovacs	0:4eb2240dbd22	515	}
andreikovacs	0:4eb2240dbd22	516	#endif
andreikovacs	0:4eb2240dbd22	517	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	518	else if('7' == gu8UartData)
andreikovacs	0:4eb2240dbd22	519	{
andreikovacs	0:4eb2240dbd22	520	connState = gConnEDMeasCalib_c;
andreikovacs	0:4eb2240dbd22	521	edCalState= gEdCalStateInit_c;
andreikovacs	0:4eb2240dbd22	522	}
andreikovacs	0:4eb2240dbd22	523	#endif
andreikovacs	5:ad78d222bbcd	524	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	525	{
andreikovacs	0:4eb2240dbd22	526	ResetMCU();
andreikovacs	0:4eb2240dbd22	527	}
andreikovacs	0:4eb2240dbd22	528	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	529	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	530	}
andreikovacs	0:4eb2240dbd22	531	break;
andreikovacs	0:4eb2240dbd22	532	case gConnContinuousTxRxState_c:
andreikovacs	0:4eb2240dbd22	533	if(SerialContinuousTxRxTest())
andreikovacs	0:4eb2240dbd22	534	{
andreikovacs	0:4eb2240dbd22	535	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	536	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	537	}
andreikovacs	0:4eb2240dbd22	538	break;
andreikovacs	0:4eb2240dbd22	539	case gConnPerState_c:
andreikovacs	0:4eb2240dbd22	540	if(mTxOperation_c == testOpMode)
andreikovacs	0:4eb2240dbd22	541	{
andreikovacs	0:4eb2240dbd22	542	if(PacketErrorRateTx())
andreikovacs	0:4eb2240dbd22	543	{
andreikovacs	0:4eb2240dbd22	544	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	545	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	546	}
andreikovacs	0:4eb2240dbd22	547	}
andreikovacs	0:4eb2240dbd22	548	else
andreikovacs	0:4eb2240dbd22	549	{
andreikovacs	0:4eb2240dbd22	550	if(PacketErrorRateRx())
andreikovacs	0:4eb2240dbd22	551	{
andreikovacs	0:4eb2240dbd22	552	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	553	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	554	}
andreikovacs	0:4eb2240dbd22	555	}
andreikovacs	0:4eb2240dbd22	556	break;
andreikovacs	0:4eb2240dbd22	557	case gConnRangeState_c:
andreikovacs	0:4eb2240dbd22	558	if(mTxOperation_c == testOpMode)
andreikovacs	0:4eb2240dbd22	559	{
andreikovacs	0:4eb2240dbd22	560	if(RangeTx())
andreikovacs	0:4eb2240dbd22	561	{
andreikovacs	0:4eb2240dbd22	562	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	563	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	564	}
andreikovacs	0:4eb2240dbd22	565	}
andreikovacs	0:4eb2240dbd22	566	else
andreikovacs	0:4eb2240dbd22	567	{
andreikovacs	0:4eb2240dbd22	568	if(RangeRx())
andreikovacs	0:4eb2240dbd22	569	{
andreikovacs	0:4eb2240dbd22	570	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	571	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	572	}
andreikovacs	0:4eb2240dbd22	573	}
andreikovacs	0:4eb2240dbd22	574	break;
andreikovacs	0:4eb2240dbd22	575	case gConnRegEditState_c:
andreikovacs	0:4eb2240dbd22	576	if(EditRegisters())
andreikovacs	0:4eb2240dbd22	577	{
andreikovacs	0:4eb2240dbd22	578	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	579	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	580	}
andreikovacs	0:4eb2240dbd22	581	break;
andreikovacs	0:4eb2240dbd22	582	#if CT_Feature_Bitrate_Select
andreikovacs	0:4eb2240dbd22	583	case gConnBitrateSelectState_c:
andreikovacs	0:4eb2240dbd22	584	if(Bitrate_Select())
andreikovacs	0:4eb2240dbd22	585	{
andreikovacs	0:4eb2240dbd22	586	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	587	}
andreikovacs	0:4eb2240dbd22	588	break;
andreikovacs	0:4eb2240dbd22	589	#endif
andreikovacs	0:4eb2240dbd22	590	case gConnCSenseAndTCtrl_c:
andreikovacs	0:4eb2240dbd22	591	if(CSenseAndTCtrl())
andreikovacs	0:4eb2240dbd22	592	{
andreikovacs	0:4eb2240dbd22	593	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	594	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	595	}
andreikovacs	0:4eb2240dbd22	596	break;
andreikovacs	0:4eb2240dbd22	597	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	598	case gConnEDMeasCalib_c:
andreikovacs	0:4eb2240dbd22	599	if(EDCalibrationMeasurement())
andreikovacs	0:4eb2240dbd22	600	{
andreikovacs	0:4eb2240dbd22	601	connState = gConnIdleState_c;
andreikovacs	0:4eb2240dbd22	602	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	603	}
andreikovacs	0:4eb2240dbd22	604	break;
andreikovacs	0:4eb2240dbd22	605	#endif
andreikovacs	0:4eb2240dbd22	606	default:
andreikovacs	0:4eb2240dbd22	607	break;
andreikovacs	0:4eb2240dbd22	608
andreikovacs	0:4eb2240dbd22	609	}
andreikovacs	0:4eb2240dbd22	610	if(prevOpMode != testOpMode)
andreikovacs	0:4eb2240dbd22	611	{
andreikovacs	0:4eb2240dbd22	612	perTxState = gPerTxStateInit_c;
andreikovacs	0:4eb2240dbd22	613	perRxState = gPerRxStateInit_c;
andreikovacs	0:4eb2240dbd22	614	rangeTxState = gRangeTxStateInit_c;
andreikovacs	0:4eb2240dbd22	615	rangeRxState = gRangeRxStateInit_c;
andreikovacs	0:4eb2240dbd22	616	prevOpMode = testOpMode;
andreikovacs	0:4eb2240dbd22	617	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	618	}
andreikovacs	0:4eb2240dbd22	619	}
andreikovacs	0:4eb2240dbd22	620
andreikovacs	0:4eb2240dbd22	621	/************************************************************************************
andreikovacs	0:4eb2240dbd22	622	*
andreikovacs	0:4eb2240dbd22	623	* Continuous Tests State Machine
andreikovacs	0:4eb2240dbd22	624	*
andreikovacs	0:4eb2240dbd22	625	************************************************************************************/
andreikovacs	0:4eb2240dbd22	626	bool_t SerialContinuousTxRxTest(void)
andreikovacs	0:4eb2240dbd22	627	{
andreikovacs	0:4eb2240dbd22	628	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	629	uint8_t u8Index, u8TempEnergyValue, u8TempScanValue;
andreikovacs	0:4eb2240dbd22	630
andreikovacs	0:4eb2240dbd22	631	if(evTestParameters)
andreikovacs	0:4eb2240dbd22	632	{
andreikovacs	0:4eb2240dbd22	633	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	634	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	635	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	636	#endif
andreikovacs	0:4eb2240dbd22	637	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	638	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	639
andreikovacs	0:4eb2240dbd22	640	if(gTestModePRBS9_c == contTestRunning)
andreikovacs	0:4eb2240dbd22	641	{
andreikovacs	0:4eb2240dbd22	642	cTxRxState = gCTxRxStateRunningPRBS9Test_c;
andreikovacs	0:4eb2240dbd22	643	}
andreikovacs	0:4eb2240dbd22	644	(void)TestMode(contTestRunning);
andreikovacs	0:4eb2240dbd22	645
andreikovacs	0:4eb2240dbd22	646	if(gCTxRxStateSelectTest_c == cTxRxState)
andreikovacs	0:4eb2240dbd22	647	{
andreikovacs	0:4eb2240dbd22	648	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	649	}
andreikovacs	0:4eb2240dbd22	650	else
andreikovacs	0:4eb2240dbd22	651	{
andreikovacs	0:4eb2240dbd22	652	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	653	uart.printf("\r\n");
andreikovacs	0:4eb2240dbd22	654	}
andreikovacs	0:4eb2240dbd22	655
andreikovacs	0:4eb2240dbd22	656	if(gCTxRxStateRunnigRxTest_c == cTxRxState)
andreikovacs	0:4eb2240dbd22	657	{
andreikovacs	0:4eb2240dbd22	658	bRxDone = FALSE;
andreikovacs	0:4eb2240dbd22	659	gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
andreikovacs	0:4eb2240dbd22	660	(void)MLMERXEnableRequest(gAppRxPacket, 0);
andreikovacs	0:4eb2240dbd22	661	}
andreikovacs	0:4eb2240dbd22	662	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	663	}
andreikovacs	0:4eb2240dbd22	664
andreikovacs	0:4eb2240dbd22	665	switch(cTxRxState)
andreikovacs	0:4eb2240dbd22	666	{
andreikovacs	0:4eb2240dbd22	667	case gCTxRxStateIdle_c:
andreikovacs	0:4eb2240dbd22	668	if((evDataFromUART) && ('\r' == gu8UartData))
andreikovacs	0:4eb2240dbd22	669	{
andreikovacs	0:4eb2240dbd22	670	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	671	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	672	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	673	}
andreikovacs	0:4eb2240dbd22	674	break;
andreikovacs	0:4eb2240dbd22	675	case gCTxRxStateInit_c:
andreikovacs	0:4eb2240dbd22	676	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	677	PrintMenu(cu8ContinuousTestMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	678	//Phy in StandBy, smacstate in Idle.
andreikovacs	0:4eb2240dbd22	679	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	680	while(MLMESetChannelRequest(testChannel));
andreikovacs	0:4eb2240dbd22	681	uart.printf(cu8ContinuousTestTags[contTestRunning]);
andreikovacs	0:4eb2240dbd22	682	if(contTestRunning == gTestModeContinuousTxModulated_c)
andreikovacs	0:4eb2240dbd22	683	{
andreikovacs	0:4eb2240dbd22	684	uart.printf(cu8TxModTestTags[contTxModBitValue]);
andreikovacs	0:4eb2240dbd22	685	}
andreikovacs	0:4eb2240dbd22	686	(void)TestMode(contTestRunning);
andreikovacs	0:4eb2240dbd22	687	uart.printf("\r\n\r\n");
andreikovacs	0:4eb2240dbd22	688	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	689	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	690	cTxRxState = gCTxRxStateSelectTest_c;
andreikovacs	0:4eb2240dbd22	691	break;
andreikovacs	0:4eb2240dbd22	692	case gCTxRxStateSelectTest_c:
andreikovacs	0:4eb2240dbd22	693	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	694	{
andreikovacs	0:4eb2240dbd22	695	if('1' == gu8UartData)
andreikovacs	0:4eb2240dbd22	696	{
andreikovacs	0:4eb2240dbd22	697	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	698	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	699	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	700	}
andreikovacs	0:4eb2240dbd22	701	else if('2' == gu8UartData)
andreikovacs	0:4eb2240dbd22	702	{
andreikovacs	0:4eb2240dbd22	703	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	704	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	705	contTestRunning = gTestModePRBS9_c;
andreikovacs	0:4eb2240dbd22	706	MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	707	uart.printf("\f\r\nPress [p] to stop the Continuous PRBS9 test\r\n");
andreikovacs	0:4eb2240dbd22	708	(void)TestMode(contTestRunning);
andreikovacs	0:4eb2240dbd22	709	cTxRxState = gCTxRxStateRunningPRBS9Test_c;
andreikovacs	0:4eb2240dbd22	710	}
andreikovacs	0:4eb2240dbd22	711	else if('3' == gu8UartData)
andreikovacs	0:4eb2240dbd22	712	{
andreikovacs	0:4eb2240dbd22	713	contTestRunning = gTestModeContinuousTxModulated_c;
andreikovacs	0:4eb2240dbd22	714	cTxRxState = gCTxRxStateRunningTXModSelectOpt;
andreikovacs	0:4eb2240dbd22	715	// uart.printf( "\f\r\n To use this mode shunt pins 3-4 on J18");
andreikovacs	0:4eb2240dbd22	716	uart.printf("\f\r\nPress 2 for PN9, 1 to modulate values of 1 and 0 to modulate values of 0");
andreikovacs	0:4eb2240dbd22	717
andreikovacs	0:4eb2240dbd22	718	}
andreikovacs	0:4eb2240dbd22	719	else if('4' == gu8UartData)
andreikovacs	0:4eb2240dbd22	720	{
andreikovacs	0:4eb2240dbd22	721	if(gTestModeContinuousTxUnmodulated_c != contTestRunning)
andreikovacs	0:4eb2240dbd22	722	{
andreikovacs	0:4eb2240dbd22	723	contTestRunning = gTestModeContinuousTxUnmodulated_c;
andreikovacs	0:4eb2240dbd22	724	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	725	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	726	}
andreikovacs	0:4eb2240dbd22	727	}
andreikovacs	0:4eb2240dbd22	728	else if('5' == gu8UartData)
andreikovacs	0:4eb2240dbd22	729	{
andreikovacs	0:4eb2240dbd22	730	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	731	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	732	MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	733	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	734	uart.printf("\f\r\nPress [p] to stop receiving broadcast packets \r\n");
andreikovacs	0:4eb2240dbd22	735	bRxDone = FALSE;
andreikovacs	0:4eb2240dbd22	736	gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
andreikovacs	0:4eb2240dbd22	737	(void)MLMERXEnableRequest(gAppRxPacket, 0);
andreikovacs	0:4eb2240dbd22	738	cTxRxState = gCTxRxStateRunnigRxTest_c;
andreikovacs	0:4eb2240dbd22	739	}
andreikovacs	0:4eb2240dbd22	740	else if('6' == gu8UartData)
andreikovacs	0:4eb2240dbd22	741	{
andreikovacs	0:4eb2240dbd22	742	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	743	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	744	uart.printf("\f\r\nPress [p] to stop the Continuous ED test\r\n");
andreikovacs	0:4eb2240dbd22	745	cTxRxState = gCTxRxStateRunnigEdTest_c;
andreikovacs	3:b9e209eca377	746	FlaggedDelay_ms(200);
andreikovacs	0:4eb2240dbd22	747	}
andreikovacs	0:4eb2240dbd22	748	else if('7' == gu8UartData)
andreikovacs	0:4eb2240dbd22	749	{
andreikovacs	0:4eb2240dbd22	750	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	751	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	752	ChannelToScan= gDefaultChannelNumber_c;
andreikovacs	0:4eb2240dbd22	753	uart.printf("\f\r\nPress [p] to stop the Continuous SCAN test\r\n");
andreikovacs	0:4eb2240dbd22	754	bScanDone = FALSE;
andreikovacs	0:4eb2240dbd22	755	cTxRxState = gCTxRxStateRunnigScanTest_c;
andreikovacs	0:4eb2240dbd22	756	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	757	}
andreikovacs	0:4eb2240dbd22	758	else if('8' == gu8UartData)
andreikovacs	0:4eb2240dbd22	759	{
andreikovacs	0:4eb2240dbd22	760	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	761	uart.printf("\f\r\nPress [p] to stop the Continuous CCA test\r\n");
andreikovacs	0:4eb2240dbd22	762	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	763	cTxRxState = gCTxRxStateRunnigCcaTest_c;
andreikovacs	3:b9e209eca377	764	FlaggedDelay_ms(100);
andreikovacs	0:4eb2240dbd22	765	MLMECcaRequest();
andreikovacs	0:4eb2240dbd22	766	}
andreikovacs	0:4eb2240dbd22	767	#if CT_Feature_BER_Test
andreikovacs	0:4eb2240dbd22	768	else if ('9' == gu8UartData)
andreikovacs	0:4eb2240dbd22	769	{
andreikovacs	0:4eb2240dbd22	770	uart.printf( "\f\r\nPress [p] to stop the Continuous BER test\r\n");
andreikovacs	0:4eb2240dbd22	771	contTestRunning = gTestModeContinuousRxBER_c;
andreikovacs	0:4eb2240dbd22	772	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	773	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	774	}
andreikovacs	0:4eb2240dbd22	775	#endif
andreikovacs	0:4eb2240dbd22	776	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	777	{
andreikovacs	0:4eb2240dbd22	778	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	779	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	780	AppDelayTmr.stop();
andreikovacs	0:4eb2240dbd22	781	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	782	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	783	}
andreikovacs	0:4eb2240dbd22	784	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	785	}
andreikovacs	0:4eb2240dbd22	786	break;
andreikovacs	0:4eb2240dbd22	787	case gCTxRxStateRunningTXModSelectOpt:
andreikovacs	0:4eb2240dbd22	788	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	789	{
andreikovacs	0:4eb2240dbd22	790	if(gu8UartData == '2')
andreikovacs	0:4eb2240dbd22	791	contTxModBitValue = gContTxModSelectPN9_c;
andreikovacs	0:4eb2240dbd22	792	else
andreikovacs	0:4eb2240dbd22	793	if(gu8UartData == '1')
andreikovacs	0:4eb2240dbd22	794	contTxModBitValue = gContTxModSelectOnes_c;
andreikovacs	0:4eb2240dbd22	795	else
andreikovacs	0:4eb2240dbd22	796	if(gu8UartData == '0')
andreikovacs	0:4eb2240dbd22	797	contTxModBitValue = gContTxModSelectZeros_c;
andreikovacs	0:4eb2240dbd22	798
andreikovacs	0:4eb2240dbd22	799	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	800	cTxRxState = gCTxRxStateInit_c;
andreikovacs	0:4eb2240dbd22	801	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	802	}
andreikovacs	0:4eb2240dbd22	803	break;
andreikovacs	0:4eb2240dbd22	804	case gCTxRxStateRunningPRBS9Test_c:
andreikovacs	0:4eb2240dbd22	805	if(bTxDone \|\| failedPRBS9)
andreikovacs	0:4eb2240dbd22	806	{
andreikovacs	0:4eb2240dbd22	807	failedPRBS9 = FALSE;
andreikovacs	0:4eb2240dbd22	808	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	809	PacketHandler_Prbs9();
andreikovacs	0:4eb2240dbd22	810	}
andreikovacs	0:4eb2240dbd22	811	if(evDataFromUART && 'p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	812	{
andreikovacs	0:4eb2240dbd22	813	contTestRunning = gTestModeForceIdle_c;
andreikovacs	0:4eb2240dbd22	814	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	815	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	816	AppDelayTmr.stop();
andreikovacs	0:4eb2240dbd22	817	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	818	uart.printf("\r\n\r\n Press [enter] to go back to the Continuous test menu ");
andreikovacs	0:4eb2240dbd22	819	cTxRxState = gCTxRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	820	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	821	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	822	}
andreikovacs	0:4eb2240dbd22	823	break;
andreikovacs	0:4eb2240dbd22	824	case gCTxRxStateRunnigRxTest_c:
andreikovacs	0:4eb2240dbd22	825	if(bRxDone)
andreikovacs	0:4eb2240dbd22	826	{
andreikovacs	0:4eb2240dbd22	827	if (gAppRxPacket->rxStatus == rxSuccessStatus_c)
andreikovacs	0:4eb2240dbd22	828	{
andreikovacs	6:85e288fb2556	829	uart.printf("New Packet: 0x");
andreikovacs	0:4eb2240dbd22	830	for(u8Index = 0; u8Index < (gAppRxPacket->u8DataLength); u8Index++){
andreikovacs	6:85e288fb2556	831	uart.printf( "%02X",(gAppRxPacket->smacPdu.smacPdu[u8Index]));
andreikovacs	0:4eb2240dbd22	832	}
andreikovacs	0:4eb2240dbd22	833	uart.printf(" \r\n");
andreikovacs	0:4eb2240dbd22	834	}
andreikovacs	0:4eb2240dbd22	835	bRxDone = FALSE;
andreikovacs	0:4eb2240dbd22	836	gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
andreikovacs	0:4eb2240dbd22	837	(void)MLMERXEnableRequest(gAppRxPacket, 0);
andreikovacs	0:4eb2240dbd22	838	}
andreikovacs	0:4eb2240dbd22	839	if((evDataFromUART) && ('p' == gu8UartData))
andreikovacs	0:4eb2240dbd22	840	{
andreikovacs	0:4eb2240dbd22	841	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	842	(void)TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	843	uart.printf("\r\n\r\n Press [enter] to go back to the Continuous test menu ");
andreikovacs	0:4eb2240dbd22	844	cTxRxState = gCTxRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	845	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	846	}
andreikovacs	0:4eb2240dbd22	847	break;
andreikovacs	0:4eb2240dbd22	848	case gCTxRxStateRunnigEdTest_c:
andreikovacs	0:4eb2240dbd22	849	if(timePassed)
andreikovacs	0:4eb2240dbd22	850	{
andreikovacs	0:4eb2240dbd22	851	timePassed = FALSE;
andreikovacs	3:b9e209eca377	852	FlaggedDelay_ms(100);
andreikovacs	0:4eb2240dbd22	853	MLMEScanRequest(testChannel);
andreikovacs	0:4eb2240dbd22	854	}
andreikovacs	0:4eb2240dbd22	855	if((evDataFromUART) && ('p' == gu8UartData))
andreikovacs	0:4eb2240dbd22	856	{
andreikovacs	0:4eb2240dbd22	857	uart.printf("\r\n\r\n Press [enter] to go back to the Continuous test menu ");
andreikovacs	0:4eb2240dbd22	858	cTxRxState = gCTxRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	859	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	860	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	861	AppDelayTmr.stop();
andreikovacs	0:4eb2240dbd22	862	}
andreikovacs	0:4eb2240dbd22	863
andreikovacs	0:4eb2240dbd22	864	break;
andreikovacs	0:4eb2240dbd22	865	case gCTxRxStateRunningEdTestGotResult_c:
andreikovacs	0:4eb2240dbd22	866	uart.printf("Energy on the Channel %d : ", (uint32_t)testChannel);
andreikovacs	0:4eb2240dbd22	867	u8TempEnergyValue = au8ScanResults[testChannel];
andreikovacs	0:4eb2240dbd22	868	if(u8TempEnergyValue != 0)
andreikovacs	0:4eb2240dbd22	869	uart.printf( "-");
andreikovacs	4:fb5e683a878c	870	uart.printf("%d dBm\r\n ",(uint32_t)u8TempEnergyValue);
andreikovacs	0:4eb2240dbd22	871	cTxRxState = gCTxRxStateRunnigEdTest_c;
andreikovacs	0:4eb2240dbd22	872	break;
andreikovacs	0:4eb2240dbd22	873	case gCTxRxStateRunnigCcaTest_c:
andreikovacs	0:4eb2240dbd22	874	if(timePassed && gCCaGotResult)
andreikovacs	0:4eb2240dbd22	875	{
andreikovacs	0:4eb2240dbd22	876	gCCaGotResult = FALSE;
andreikovacs	0:4eb2240dbd22	877	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	878	MLMECcaRequest();
andreikovacs	3:b9e209eca377	879	FlaggedDelay_ms(100);
andreikovacs	0:4eb2240dbd22	880	}
andreikovacs	0:4eb2240dbd22	881	if((evDataFromUART) && ('p' == gu8UartData))
andreikovacs	0:4eb2240dbd22	882	{
andreikovacs	0:4eb2240dbd22	883	uart.printf("\r\n\r\n Press [enter] to go back to the Continuous test menu ");
andreikovacs	0:4eb2240dbd22	884	cTxRxState = gCTxRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	885	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	886	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	887	AppDelayTmr.stop();
andreikovacs	0:4eb2240dbd22	888	}
andreikovacs	0:4eb2240dbd22	889	break;
andreikovacs	0:4eb2240dbd22	890	case gCTxRxStateRunnigScanTest_c:
andreikovacs	0:4eb2240dbd22	891	if(bScanDone && timePassed)
andreikovacs	0:4eb2240dbd22	892	{
andreikovacs	0:4eb2240dbd22	893	//Enters here until all channels have been scanned. Then starts to print.
andreikovacs	0:4eb2240dbd22	894	uart.printf("Results : ");
andreikovacs	0:4eb2240dbd22	895	for(u8Index = gMinChannel_c; u8Index <= gMaxChannel_c ; u8Index++)
andreikovacs	0:4eb2240dbd22	896	{
andreikovacs	0:4eb2240dbd22	897	u8TempScanValue= au8ScanResults[u8Index];
andreikovacs	0:4eb2240dbd22	898	if(u8TempScanValue != 0)
andreikovacs	0:4eb2240dbd22	899	uart.printf("-");
andreikovacs	0:4eb2240dbd22	900	uart.printf("%d, ", (uint32_t) u8TempScanValue);
andreikovacs	0:4eb2240dbd22	901	}
andreikovacs	0:4eb2240dbd22	902	uart.printf("\b \r\n");
andreikovacs	0:4eb2240dbd22	903	bScanDone = FALSE;
andreikovacs	0:4eb2240dbd22	904	ChannelToScan = gDefaultChannelNumber_c; // Restart channel count
andreikovacs	0:4eb2240dbd22	905	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	906	}
andreikovacs	0:4eb2240dbd22	907
andreikovacs	0:4eb2240dbd22	908	if((evDataFromUART) && ('p' == gu8UartData))
andreikovacs	0:4eb2240dbd22	909	{
andreikovacs	0:4eb2240dbd22	910	uart.printf("\r\n\r\n Press [enter] to go back to the Continuous test menu ");
andreikovacs	0:4eb2240dbd22	911	cTxRxState = gCTxRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	912	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	913	}
andreikovacs	0:4eb2240dbd22	914	else
andreikovacs	0:4eb2240dbd22	915	{
andreikovacs	0:4eb2240dbd22	916	if(ChannelToScan == gDefaultChannelNumber_c)
andreikovacs	0:4eb2240dbd22	917	{
andreikovacs	0:4eb2240dbd22	918	smacErrors_t err = MLMEScanRequest((channels_t)ChannelToScan);
andreikovacs	0:4eb2240dbd22	919	if(err == gErrorNoError_c)
andreikovacs	0:4eb2240dbd22	920	ChannelToScan++;
andreikovacs	0:4eb2240dbd22	921	}
andreikovacs	0:4eb2240dbd22	922	//Each of the other channels is scanned after SMAC notifies us that
andreikovacs	0:4eb2240dbd22	923	//it has obtained the energy value on the currently scanned channel
andreikovacs	0:4eb2240dbd22	924	//(channel scanning is performed asynchronously). See IncrementChannelOnEdEvent().
andreikovacs	0:4eb2240dbd22	925	}
andreikovacs	0:4eb2240dbd22	926	break;
andreikovacs	0:4eb2240dbd22	927	default:
andreikovacs	0:4eb2240dbd22	928	break;
andreikovacs	0:4eb2240dbd22	929	}
andreikovacs	0:4eb2240dbd22	930	return bBackFlag;
andreikovacs	0:4eb2240dbd22	931	}
andreikovacs	0:4eb2240dbd22	932
andreikovacs	0:4eb2240dbd22	933	/************************************************************************************
andreikovacs	0:4eb2240dbd22	934	*
andreikovacs	0:4eb2240dbd22	935	* PER Handler for board that is performing TX
andreikovacs	0:4eb2240dbd22	936	*
andreikovacs	0:4eb2240dbd22	937	************************************************************************************/
andreikovacs	0:4eb2240dbd22	938	bool_t PacketErrorRateTx(void)
andreikovacs	0:4eb2240dbd22	939	{
andreikovacs	0:4eb2240dbd22	940	const uint16_t u16TotalPacketsOptions[] = {1,25,100,500,1000,2000,5000,10000,65535};
andreikovacs	0:4eb2240dbd22	941	static uint16_t u16TotalPackets;
andreikovacs	0:4eb2240dbd22	942	static uint16_t u16SentPackets;
andreikovacs	0:4eb2240dbd22	943	static uint32_t miliSecDelay;
andreikovacs	0:4eb2240dbd22	944	static uint32_t u32MinDelay = 4;
andreikovacs	0:4eb2240dbd22	945	uint8_t u8Index;
andreikovacs	0:4eb2240dbd22	946	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	947
andreikovacs	0:4eb2240dbd22	948	if(evTestParameters)
andreikovacs	0:4eb2240dbd22	949	{
andreikovacs	0:4eb2240dbd22	950	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	951	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	952	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	953	#endif
andreikovacs	0:4eb2240dbd22	954	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	955	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	956	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	957	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	958	}
andreikovacs	0:4eb2240dbd22	959
andreikovacs	0:4eb2240dbd22	960	switch(perTxState)
andreikovacs	0:4eb2240dbd22	961	{
andreikovacs	0:4eb2240dbd22	962	case gPerTxStateInit_c:
andreikovacs	0:4eb2240dbd22	963	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	964	PrintMenu(cu8PerTxTestMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	965	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	966	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	967	perTxState = gPerTxStateSelectPacketNum_c;
andreikovacs	0:4eb2240dbd22	968	miliSecDelay = 0;
andreikovacs	0:4eb2240dbd22	969	u32MinDelay = 4;
andreikovacs	0:4eb2240dbd22	970	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	971	break;
andreikovacs	0:4eb2240dbd22	972	case gPerTxStateSelectPacketNum_c:
andreikovacs	0:4eb2240dbd22	973	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	974	{
andreikovacs	0:4eb2240dbd22	975	if((gu8UartData >= '0') && (gu8UartData <= '8'))
andreikovacs	0:4eb2240dbd22	976	{
andreikovacs	0:4eb2240dbd22	977	u16TotalPackets = u16TotalPacketsOptions[gu8UartData - '0'];
andreikovacs	0:4eb2240dbd22	978	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	979	u32MinDelay += (GetTransmissionTime(testPayloadLen, crtBitrate) / 1000);
andreikovacs	0:4eb2240dbd22	980	uart.printf("\r\n\r\n Please type TX interval in miliseconds ( > %d ms ) and press [ENTER]\r\n", u32MinDelay);
andreikovacs	0:4eb2240dbd22	981	perTxState = gPerTxStateInputPacketDelay_c;
andreikovacs	0:4eb2240dbd22	982	}
andreikovacs	0:4eb2240dbd22	983	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	984	{
andreikovacs	0:4eb2240dbd22	985	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	986	}
andreikovacs	0:4eb2240dbd22	987	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	988	}
andreikovacs	0:4eb2240dbd22	989	break;
andreikovacs	0:4eb2240dbd22	990	case gPerTxStateInputPacketDelay_c:
andreikovacs	0:4eb2240dbd22	991	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	992	{
andreikovacs	0:4eb2240dbd22	993	if(gu8UartData == '\r')
andreikovacs	0:4eb2240dbd22	994	{
andreikovacs	0:4eb2240dbd22	995	if(miliSecDelay < u32MinDelay)
andreikovacs	0:4eb2240dbd22	996	{
andreikovacs	0:4eb2240dbd22	997	uart.printf("\r\n\tError: TX Interval too small\r\n");
andreikovacs	0:4eb2240dbd22	998	perTxState = gPerTxStateInit_c;
andreikovacs	0:4eb2240dbd22	999	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1000	}
andreikovacs	0:4eb2240dbd22	1001	else
andreikovacs	0:4eb2240dbd22	1002	{
andreikovacs	0:4eb2240dbd22	1003	perTxState = gPerTxStateStartTest_c;
andreikovacs	0:4eb2240dbd22	1004	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1005	}
andreikovacs	0:4eb2240dbd22	1006	}
andreikovacs	0:4eb2240dbd22	1007	else if((gu8UartData >= '0') && (gu8UartData <='9'))
andreikovacs	0:4eb2240dbd22	1008	{
andreikovacs	0:4eb2240dbd22	1009	miliSecDelay = miliSecDelay*10 + (gu8UartData - '0');
andreikovacs	0:4eb2240dbd22	1010	uart.printf("%d", (uint32_t)(gu8UartData - '0'));
andreikovacs	0:4eb2240dbd22	1011	}
andreikovacs	0:4eb2240dbd22	1012	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1013	{
andreikovacs	0:4eb2240dbd22	1014	perTxState = gPerTxStateInit_c;
andreikovacs	0:4eb2240dbd22	1015	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1016	}
andreikovacs	0:4eb2240dbd22	1017	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1018	}
andreikovacs	0:4eb2240dbd22	1019	break;
andreikovacs	0:4eb2240dbd22	1020	case gPerTxStateStartTest_c:
andreikovacs	0:4eb2240dbd22	1021	gAppTxPacket->u8DataLength = testPayloadLen;
andreikovacs	0:4eb2240dbd22	1022	u16SentPackets = 0;
andreikovacs	0:4eb2240dbd22	1023
andreikovacs	0:4eb2240dbd22	1024	gAppTxPacket->smacPdu.smacPdu[0] = (u16TotalPackets >> 8);
andreikovacs	0:4eb2240dbd22	1025	gAppTxPacket->smacPdu.smacPdu[1] = (uint8_t)u16TotalPackets;
andreikovacs	0:4eb2240dbd22	1026	gAppTxPacket->smacPdu.smacPdu[2] = ((u16SentPackets+1) >> 8);
andreikovacs	0:4eb2240dbd22	1027	gAppTxPacket->smacPdu.smacPdu[3] = (uint8_t)(u16SentPackets+1);
andreikovacs	0:4eb2240dbd22	1028	FLib_MemCpy(&(gAppTxPacket->smacPdu.smacPdu[4]), (void*)"SMAC PER Demo",13);
andreikovacs	0:4eb2240dbd22	1029	if(17 < testPayloadLen)
andreikovacs	0:4eb2240dbd22	1030	{
andreikovacs	0:4eb2240dbd22	1031	for(u8Index=17;u8Index<testPayloadLen;u8Index++)
andreikovacs	0:4eb2240dbd22	1032	{
andreikovacs	0:4eb2240dbd22	1033	gAppTxPacket->smacPdu.smacPdu[u8Index] = (u8Index%10)+'0';
andreikovacs	0:4eb2240dbd22	1034	}
andreikovacs	0:4eb2240dbd22	1035	}
andreikovacs	0:4eb2240dbd22	1036	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	1037	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	1038	u16SentPackets++;
andreikovacs	0:4eb2240dbd22	1039	uart.printf("\f\r\n Running PER Tx, Sending %d Packets",(uint32_t)u16TotalPackets);
andreikovacs	0:4eb2240dbd22	1040	perTxState = gPerTxStateRunningTest_c;
andreikovacs	3:b9e209eca377	1041	FlaggedDelay_ms(miliSecDelay);
andreikovacs	0:4eb2240dbd22	1042	break;
andreikovacs	0:4eb2240dbd22	1043	case gPerTxStateRunningTest_c:
andreikovacs	0:4eb2240dbd22	1044	if(bTxDone && timePassed)
andreikovacs	0:4eb2240dbd22	1045	{
andreikovacs	0:4eb2240dbd22	1046	uart.printf("\r\n Packet %d ",(uint32_t)u16SentPackets);
andreikovacs	0:4eb2240dbd22	1047	if(u16SentPackets == u16TotalPackets)
andreikovacs	0:4eb2240dbd22	1048	{
andreikovacs	0:4eb2240dbd22	1049	uart.printf("\r\n\r\nSending last %d frames \r\n",(uint32_t)mTotalFinalFrames_c);
andreikovacs	0:4eb2240dbd22	1050	FLib_MemCpy(&(gAppTxPacket->smacPdu.smacPdu[4]), (void *)"DONE",4);
andreikovacs	0:4eb2240dbd22	1051	gAppTxPacket->u8DataLength = 8;
andreikovacs	0:4eb2240dbd22	1052	u16SentPackets = 0;
andreikovacs	0:4eb2240dbd22	1053	u16TotalPackets = mTotalFinalFrames_c;
andreikovacs	0:4eb2240dbd22	1054	gAppTxPacket->u8DataLength = 8;
andreikovacs	0:4eb2240dbd22	1055	perTxState = gPerTxStateSendingLastFrames_c;
andreikovacs	0:4eb2240dbd22	1056	}
andreikovacs	0:4eb2240dbd22	1057	else
andreikovacs	0:4eb2240dbd22	1058	{
andreikovacs	0:4eb2240dbd22	1059	gAppTxPacket->smacPdu.smacPdu[2] = ((u16SentPackets+1) >> 8);
andreikovacs	0:4eb2240dbd22	1060	gAppTxPacket->smacPdu.smacPdu[3] = (uint8_t)(u16SentPackets+1);
andreikovacs	0:4eb2240dbd22	1061	gAppTxPacket->u8DataLength = testPayloadLen;
andreikovacs	0:4eb2240dbd22	1062	}
andreikovacs	0:4eb2240dbd22	1063	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	1064	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	1065	u16SentPackets++;
andreikovacs	0:4eb2240dbd22	1066	timePassed = FALSE;
andreikovacs	3:b9e209eca377	1067	FlaggedDelay_ms(miliSecDelay);
andreikovacs	0:4eb2240dbd22	1068	}
andreikovacs	0:4eb2240dbd22	1069	if(evDataFromUART && gu8UartData == ' ')
andreikovacs	0:4eb2240dbd22	1070	{
andreikovacs	0:4eb2240dbd22	1071	uart.printf("\r\n\r\n-Test interrupted by user. Press [ENTER] to continue\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1072	perTxState = gPerTxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1073	}
andreikovacs	0:4eb2240dbd22	1074	break;
andreikovacs	0:4eb2240dbd22	1075	case gPerTxStateSendingLastFrames_c:
andreikovacs	0:4eb2240dbd22	1076	if(bTxDone && timePassed)
andreikovacs	0:4eb2240dbd22	1077	{
andreikovacs	0:4eb2240dbd22	1078	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	1079	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	1080	uart.printf("\r\n Final Packet %d",(uint32_t)u16SentPackets);
andreikovacs	0:4eb2240dbd22	1081	if(u16SentPackets == u16TotalPackets)
andreikovacs	0:4eb2240dbd22	1082	{
andreikovacs	0:4eb2240dbd22	1083	uart.printf( "\r\n PER Tx DONE \r\n");
andreikovacs	0:4eb2240dbd22	1084	uart.printf( "\r\n\r\n Press [enter] to go back to the PER Tx test menu ");
andreikovacs	0:4eb2240dbd22	1085	perTxState = gPerTxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1086	AppDelayTmr.stop();
andreikovacs	0:4eb2240dbd22	1087	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	1088	}
andreikovacs	0:4eb2240dbd22	1089	else
andreikovacs	0:4eb2240dbd22	1090	{
andreikovacs	0:4eb2240dbd22	1091	gAppTxPacket->u8DataLength = 8;
andreikovacs	0:4eb2240dbd22	1092	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	1093	u16SentPackets++;
andreikovacs	3:b9e209eca377	1094	FlaggedDelay_ms(miliSecDelay);
andreikovacs	0:4eb2240dbd22	1095	}
andreikovacs	0:4eb2240dbd22	1096	}
andreikovacs	0:4eb2240dbd22	1097	if(evDataFromUART && gu8UartData == ' ')
andreikovacs	0:4eb2240dbd22	1098	{
andreikovacs	0:4eb2240dbd22	1099	uart.printf("\r\n\r\n-Test interrupted by user. Press [ENTER] to continue\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1100	perTxState = gPerTxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1101	}
andreikovacs	0:4eb2240dbd22	1102	break;
andreikovacs	0:4eb2240dbd22	1103	case gPerTxStateIdle_c:
andreikovacs	0:4eb2240dbd22	1104	if((evDataFromUART) && ('\r' == gu8UartData))
andreikovacs	0:4eb2240dbd22	1105	{
andreikovacs	0:4eb2240dbd22	1106	perTxState = gPerTxStateInit_c;
andreikovacs	0:4eb2240dbd22	1107	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1108	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1109	}
andreikovacs	0:4eb2240dbd22	1110	break;
andreikovacs	0:4eb2240dbd22	1111	default:
andreikovacs	0:4eb2240dbd22	1112	break;
andreikovacs	0:4eb2240dbd22	1113	}
andreikovacs	0:4eb2240dbd22	1114
andreikovacs	0:4eb2240dbd22	1115	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1116	}
andreikovacs	0:4eb2240dbd22	1117
andreikovacs	0:4eb2240dbd22	1118	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1119	*
andreikovacs	0:4eb2240dbd22	1120	* PER Handler for board that is performing RX
andreikovacs	0:4eb2240dbd22	1121	*
andreikovacs	0:4eb2240dbd22	1122	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1123	bool_t PacketErrorRateRx(void)
andreikovacs	0:4eb2240dbd22	1124	{
andreikovacs	0:4eb2240dbd22	1125	static uint16_t u16ReceivedPackets;
andreikovacs	0:4eb2240dbd22	1126	static uint16_t u16PacketsIndex;
andreikovacs	0:4eb2240dbd22	1127	static uint16_t u16TotalPackets;
andreikovacs	0:4eb2240dbd22	1128	static uint16_t u16FinalPacketsCount;
andreikovacs	0:4eb2240dbd22	1129	static uint32_t u32RssiSum;
andreikovacs	0:4eb2240dbd22	1130	static uint8_t u8AverageRssi;
andreikovacs	0:4eb2240dbd22	1131	uint8_t u8TempRssivalue;
andreikovacs	0:4eb2240dbd22	1132
andreikovacs	0:4eb2240dbd22	1133	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1134	if(evTestParameters)
andreikovacs	0:4eb2240dbd22	1135	{
andreikovacs	0:4eb2240dbd22	1136	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	1137	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	1138	#endif
andreikovacs	0:4eb2240dbd22	1139	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	1140	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	1141	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	1142	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	1143	}
andreikovacs	0:4eb2240dbd22	1144	switch(perRxState)
andreikovacs	0:4eb2240dbd22	1145	{
andreikovacs	0:4eb2240dbd22	1146	case gPerRxStateInit_c:
andreikovacs	0:4eb2240dbd22	1147	u16TotalPackets = 0;
andreikovacs	0:4eb2240dbd22	1148	u16ReceivedPackets = 0;
andreikovacs	0:4eb2240dbd22	1149	u16PacketsIndex = 0;
andreikovacs	0:4eb2240dbd22	1150	u32RssiSum = 0;
andreikovacs	0:4eb2240dbd22	1151	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	1152	PrintMenu(cu8PerRxTestMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	1153	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	1154	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	1155	perRxState = gPerRxWaitStartTest_c;
andreikovacs	0:4eb2240dbd22	1156	break;
andreikovacs	0:4eb2240dbd22	1157	case gPerRxWaitStartTest_c:
andreikovacs	0:4eb2240dbd22	1158	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1159	{
andreikovacs	0:4eb2240dbd22	1160	if(' ' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1161	{
andreikovacs	0:4eb2240dbd22	1162	uart.printf("\f\n\rPER Test Rx Running\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1163	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1164	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	1165	perRxState = gPerRxStateStartTest_c;
andreikovacs	0:4eb2240dbd22	1166	}
andreikovacs	0:4eb2240dbd22	1167	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1168	{
andreikovacs	0:4eb2240dbd22	1169	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1170	}
andreikovacs	0:4eb2240dbd22	1171	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1172	}
andreikovacs	0:4eb2240dbd22	1173	break;
andreikovacs	0:4eb2240dbd22	1174	case gPerRxStateStartTest_c:
andreikovacs	0:4eb2240dbd22	1175	if(bRxDone)
andreikovacs	0:4eb2240dbd22	1176	{
andreikovacs	0:4eb2240dbd22	1177	if (gAppRxPacket->rxStatus == rxSuccessStatus_c)
andreikovacs	0:4eb2240dbd22	1178	{
andreikovacs	0:4eb2240dbd22	1179	if(stringComp((uint8_t*)"SMAC PER Demo",&gAppRxPacket->smacPdu.smacPdu[4],13))
andreikovacs	0:4eb2240dbd22	1180	{
andreikovacs	0:4eb2240dbd22	1181	u16TotalPackets = ((uint16_t)gAppRxPacket->smacPdu.smacPdu[0] <<8) + gAppRxPacket->smacPdu.smacPdu[1];
andreikovacs	0:4eb2240dbd22	1182	u16PacketsIndex = ((uint16_t)gAppRxPacket->smacPdu.smacPdu[2] <<8) + gAppRxPacket->smacPdu.smacPdu[3];
andreikovacs	0:4eb2240dbd22	1183	u16ReceivedPackets++;
andreikovacs	0:4eb2240dbd22	1184	u8TempRssivalue= u8LastRxRssiValue; //@CMA, Conn Test. New line
andreikovacs	0:4eb2240dbd22	1185	u32RssiSum += u8TempRssivalue;
andreikovacs	0:4eb2240dbd22	1186	u8AverageRssi = (uint8_t)(u32RssiSum/u16ReceivedPackets);
andreikovacs	0:4eb2240dbd22	1187	uart.printf("Packet %d . Packet index: %d . Rssi during RX: - %d\r\n",(uint32_t)u16ReceivedPackets, (uint32_t)u16PacketsIndex, (uint32_t)u8LastRxRssiValue);
andreikovacs	0:4eb2240dbd22	1188	if(u16PacketsIndex == u16TotalPackets)
andreikovacs	0:4eb2240dbd22	1189	{
andreikovacs	0:4eb2240dbd22	1190	u16FinalPacketsCount = 0;
andreikovacs	0:4eb2240dbd22	1191	perRxState = gPerRxStateReceivingLastFrames_c;
andreikovacs	0:4eb2240dbd22	1192	}
andreikovacs	0:4eb2240dbd22	1193	}
andreikovacs	0:4eb2240dbd22	1194	else if(stringComp((uint8_t*)"DONE",&gAppRxPacket->smacPdu.smacPdu[4],4))
andreikovacs	0:4eb2240dbd22	1195	{
andreikovacs	0:4eb2240dbd22	1196	u16FinalPacketsCount = 0;
andreikovacs	0:4eb2240dbd22	1197	perRxState = gPerRxStateReceivingLastFrames_c;
andreikovacs	0:4eb2240dbd22	1198	}
andreikovacs	0:4eb2240dbd22	1199	}
andreikovacs	0:4eb2240dbd22	1200	else
andreikovacs	0:4eb2240dbd22	1201	{
andreikovacs	0:4eb2240dbd22	1202	if(u16TotalPackets)
andreikovacs	0:4eb2240dbd22	1203	{
andreikovacs	0:4eb2240dbd22	1204	u16PacketsIndex++;
andreikovacs	0:4eb2240dbd22	1205	if(u16PacketsIndex == u16TotalPackets)
andreikovacs	0:4eb2240dbd22	1206	{
andreikovacs	0:4eb2240dbd22	1207	u16FinalPacketsCount = 0;
andreikovacs	0:4eb2240dbd22	1208	perRxState = gPerRxStateReceivingLastFrames_c;
andreikovacs	0:4eb2240dbd22	1209	}
andreikovacs	0:4eb2240dbd22	1210	}
andreikovacs	0:4eb2240dbd22	1211	}
andreikovacs	0:4eb2240dbd22	1212
andreikovacs	0:4eb2240dbd22	1213	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1214	}
andreikovacs	0:4eb2240dbd22	1215	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1216	{
andreikovacs	0:4eb2240dbd22	1217	if(' ' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1218	{
andreikovacs	0:4eb2240dbd22	1219	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	1220	uart.printf("\r\nAverage Rssi during PER: -");
andreikovacs	0:4eb2240dbd22	1221	uart.printf("%d",(uint32_t)u8AverageRssi);
andreikovacs	0:4eb2240dbd22	1222	uart.printf(" dBm\r\n");
andreikovacs	0:4eb2240dbd22	1223	uart.printf( "\n\rPER Test Rx Stopped\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1224	PrintPerRxFinalLine(u16ReceivedPackets,u16TotalPackets);
andreikovacs	0:4eb2240dbd22	1225	perRxState = gPerRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1226	}
andreikovacs	0:4eb2240dbd22	1227	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1228	}
andreikovacs	0:4eb2240dbd22	1229	break;
andreikovacs	0:4eb2240dbd22	1230	case gPerRxStateReceivingLastFrames_c:
andreikovacs	0:4eb2240dbd22	1231	if(bRxDone)
andreikovacs	0:4eb2240dbd22	1232	{
andreikovacs	0:4eb2240dbd22	1233	u16FinalPacketsCount++;
andreikovacs	0:4eb2240dbd22	1234	if(mTotalFinalFrames_c == u16FinalPacketsCount)
andreikovacs	0:4eb2240dbd22	1235	{
andreikovacs	0:4eb2240dbd22	1236	uart.printf("\r\nAverage Rssi during PER: -");
andreikovacs	0:4eb2240dbd22	1237	uart.printf("%d",(uint32_t)u8AverageRssi);
andreikovacs	0:4eb2240dbd22	1238	uart.printf(" dBm\r\n");
andreikovacs	0:4eb2240dbd22	1239	uart.printf( "\n\rPER Test Finished\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1240	PrintPerRxFinalLine(u16ReceivedPackets,u16TotalPackets);
andreikovacs	0:4eb2240dbd22	1241	perRxState = gPerRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1242	}
andreikovacs	0:4eb2240dbd22	1243	else
andreikovacs	0:4eb2240dbd22	1244	{
andreikovacs	0:4eb2240dbd22	1245	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1246	}
andreikovacs	0:4eb2240dbd22	1247	}
andreikovacs	0:4eb2240dbd22	1248	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1249	{
andreikovacs	0:4eb2240dbd22	1250	if(' ' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1251	{
andreikovacs	0:4eb2240dbd22	1252	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	1253	uart.printf("\r\nAverage Rssi during PER: -");
andreikovacs	0:4eb2240dbd22	1254	uart.printf("%d",(uint32_t)u8AverageRssi);
andreikovacs	0:4eb2240dbd22	1255	uart.printf(" dBm\r\n");
andreikovacs	0:4eb2240dbd22	1256	uart.printf( "\n\rPER Test Rx Stopped\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1257	PrintPerRxFinalLine(u16ReceivedPackets,u16TotalPackets);
andreikovacs	0:4eb2240dbd22	1258	perRxState = gPerRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1259	}
andreikovacs	0:4eb2240dbd22	1260	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1261	}
andreikovacs	0:4eb2240dbd22	1262	break;
andreikovacs	0:4eb2240dbd22	1263	case gPerRxStateIdle_c:
andreikovacs	0:4eb2240dbd22	1264	if((evDataFromUART) && ('\r' == gu8UartData))
andreikovacs	0:4eb2240dbd22	1265	{
andreikovacs	0:4eb2240dbd22	1266	perRxState = gPerRxStateInit_c;
andreikovacs	0:4eb2240dbd22	1267	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1268	}
andreikovacs	0:4eb2240dbd22	1269	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1270	break;
andreikovacs	0:4eb2240dbd22	1271	default:
andreikovacs	0:4eb2240dbd22	1272	break;
andreikovacs	0:4eb2240dbd22	1273	}
andreikovacs	0:4eb2240dbd22	1274	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1275	}
andreikovacs	0:4eb2240dbd22	1276
andreikovacs	0:4eb2240dbd22	1277	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1278	*
andreikovacs	0:4eb2240dbd22	1279	* Range Test Handler for board that is performing TX
andreikovacs	0:4eb2240dbd22	1280	*
andreikovacs	0:4eb2240dbd22	1281	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1282	bool_t RangeTx(void)
andreikovacs	0:4eb2240dbd22	1283	{
andreikovacs	0:4eb2240dbd22	1284	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1285	static uint32_t u32RSSISum;
andreikovacs	0:4eb2240dbd22	1286	static uint16_t u16ReceivedPackets;
andreikovacs	0:4eb2240dbd22	1287	static uint16_t u16PacketsDropped;
andreikovacs	0:4eb2240dbd22	1288	uint8_t u8AverageRSSI;
andreikovacs	0:4eb2240dbd22	1289	uint8_t u8CurrentRSSI;
andreikovacs	0:4eb2240dbd22	1290
andreikovacs	0:4eb2240dbd22	1291	if(evTestParameters)
andreikovacs	0:4eb2240dbd22	1292	{
andreikovacs	0:4eb2240dbd22	1293	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	1294	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	1295	#endif
andreikovacs	0:4eb2240dbd22	1296	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	1297	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	1298	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	1299	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	1300	}
andreikovacs	0:4eb2240dbd22	1301
andreikovacs	0:4eb2240dbd22	1302	switch(rangeTxState)
andreikovacs	0:4eb2240dbd22	1303	{
andreikovacs	0:4eb2240dbd22	1304	case gRangeTxStateInit_c:
andreikovacs	0:4eb2240dbd22	1305	u32RSSISum = 0;
andreikovacs	0:4eb2240dbd22	1306	u16ReceivedPackets = 0;
andreikovacs	0:4eb2240dbd22	1307	u16PacketsDropped = 0;
andreikovacs	0:4eb2240dbd22	1308	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	1309	PrintMenu(cu8RangeTxTestMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	1310	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	1311	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	1312	rangeTxState = gRangeTxWaitStartTest_c;
andreikovacs	0:4eb2240dbd22	1313	break;
andreikovacs	0:4eb2240dbd22	1314	case gRangeTxWaitStartTest_c:
andreikovacs	0:4eb2240dbd22	1315	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1316	{
andreikovacs	0:4eb2240dbd22	1317	if(' ' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1318	{
andreikovacs	0:4eb2240dbd22	1319	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	1320	uart.printf( "\f\r\nRange Test Tx Running\r\n");
andreikovacs	0:4eb2240dbd22	1321	rangeTxState = gRangeTxStateStartTest_c;
andreikovacs	3:b9e209eca377	1322	FlaggedDelay_ms(200);
andreikovacs	0:4eb2240dbd22	1323	}
andreikovacs	0:4eb2240dbd22	1324	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1325	{
andreikovacs	0:4eb2240dbd22	1326	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1327	}
andreikovacs	0:4eb2240dbd22	1328	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1329	}
andreikovacs	0:4eb2240dbd22	1330	break;
andreikovacs	0:4eb2240dbd22	1331	case gRangeTxStateStartTest_c:
andreikovacs	0:4eb2240dbd22	1332	if(!timePassed) //waiting 200 ms
andreikovacs	0:4eb2240dbd22	1333	break;
andreikovacs	0:4eb2240dbd22	1334	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	1335	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	1336	gAppTxPacket->u8DataLength = 16;
andreikovacs	0:4eb2240dbd22	1337	gAppTxPacket->smacPdu.smacPdu[0] = 0;
andreikovacs	0:4eb2240dbd22	1338	FLib_MemCpy(&(gAppTxPacket->smacPdu.smacPdu[1]), (void*)"SMAC Range Demo",15);
andreikovacs	0:4eb2240dbd22	1339	MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	1340	//RangeTestTmr.stop(); //@CMA, Conn Test. Stop Rx timer
andreikovacs	0:4eb2240dbd22	1341	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	1342	rangeTxState = gRangeTxStateRunningTest_c;
andreikovacs	0:4eb2240dbd22	1343	break;
andreikovacs	0:4eb2240dbd22	1344	case gRangeTxStateRunningTest_c:
andreikovacs	0:4eb2240dbd22	1345	if(bTxDone)
andreikovacs	0:4eb2240dbd22	1346	{
andreikovacs	0:4eb2240dbd22	1347	RangeTestTmr.attach_us(RangeTest_Timer_CallBack, 80000); //@CMA, Conn Test. Start Timer
andreikovacs	0:4eb2240dbd22	1348	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1349	rangeTxState = gRangeTxStatePrintTestResults_c;
andreikovacs	0:4eb2240dbd22	1350	}
andreikovacs	0:4eb2240dbd22	1351	break;
andreikovacs	0:4eb2240dbd22	1352	case gRangeTxStatePrintTestResults_c:
andreikovacs	0:4eb2240dbd22	1353	if(bRxDone)
andreikovacs	0:4eb2240dbd22	1354	{
andreikovacs	0:4eb2240dbd22	1355	if(gAppRxPacket->rxStatus == rxSuccessStatus_c)
andreikovacs	0:4eb2240dbd22	1356	{
andreikovacs	0:4eb2240dbd22	1357	if(stringComp((uint8_t*)"SMAC Range Demo",&gAppRxPacket->smacPdu.smacPdu[1],15))
andreikovacs	0:4eb2240dbd22	1358	{
andreikovacs	0:4eb2240dbd22	1359	u8CurrentRSSI = (gAppRxPacket->smacPdu.smacPdu[0]);
andreikovacs	0:4eb2240dbd22	1360	u32RSSISum += u8CurrentRSSI;
andreikovacs	0:4eb2240dbd22	1361	u16ReceivedPackets++;
andreikovacs	0:4eb2240dbd22	1362	u8AverageRSSI = (uint8_t)(u32RSSISum/u16ReceivedPackets);
andreikovacs	0:4eb2240dbd22	1363	uart.printf( "\r\n RSSI = -");
andreikovacs	0:4eb2240dbd22	1364	uart.printf("%d", (uint32_t)u8CurrentRSSI);
andreikovacs	0:4eb2240dbd22	1365	uart.printf(" dBm");
andreikovacs	0:4eb2240dbd22	1366	}
andreikovacs	0:4eb2240dbd22	1367	else
andreikovacs	0:4eb2240dbd22	1368	{
andreikovacs	0:4eb2240dbd22	1369	RangeTestTmr.attach_us(RangeTest_Timer_CallBack, 80000); //@CMA, Conn Test. Start Timer
andreikovacs	0:4eb2240dbd22	1370	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1371	}
andreikovacs	0:4eb2240dbd22	1372	}
andreikovacs	0:4eb2240dbd22	1373	else
andreikovacs	0:4eb2240dbd22	1374	{
andreikovacs	0:4eb2240dbd22	1375	u16PacketsDropped++;
andreikovacs	0:4eb2240dbd22	1376	uart.printf( "\r\nPacket Dropped");
andreikovacs	0:4eb2240dbd22	1377	bRxDone= FALSE; //@CMA, Conn Test. Added
andreikovacs	0:4eb2240dbd22	1378	}
andreikovacs	0:4eb2240dbd22	1379	if(evDataFromUART && (' ' == gu8UartData))
andreikovacs	0:4eb2240dbd22	1380	{
andreikovacs	0:4eb2240dbd22	1381	uart.printf( "\n\r\n\rRange Test Tx Stopped\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1382	u8AverageRSSI = (uint8_t)(u32RSSISum/u16ReceivedPackets);
andreikovacs	0:4eb2240dbd22	1383	uart.printf( "Average RSSI -");
andreikovacs	0:4eb2240dbd22	1384	uart.printf("%d", (uint32_t)u8AverageRSSI);
andreikovacs	0:4eb2240dbd22	1385	uart.printf(" dBm");
andreikovacs	0:4eb2240dbd22	1386	uart.printf( "\r\nPackets dropped ");
andreikovacs	0:4eb2240dbd22	1387	uart.printf("%d", (uint32_t)u16PacketsDropped);
andreikovacs	0:4eb2240dbd22	1388	uart.printf( "\r\n\r\n Press [enter] to go back to the Range Tx test menu");
andreikovacs	0:4eb2240dbd22	1389	rangeTxState = gRangeTxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1390	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	1391	AppDelayTmr.stop();
andreikovacs	0:4eb2240dbd22	1392	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	1393	}
andreikovacs	0:4eb2240dbd22	1394	else
andreikovacs	0:4eb2240dbd22	1395	{
andreikovacs	0:4eb2240dbd22	1396	rangeTxState = gRangeTxStateStartTest_c;
andreikovacs	3:b9e209eca377	1397	FlaggedDelay_ms(200);
andreikovacs	0:4eb2240dbd22	1398	}
andreikovacs	0:4eb2240dbd22	1399	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1400	}
andreikovacs	0:4eb2240dbd22	1401
andreikovacs	0:4eb2240dbd22	1402	break;
andreikovacs	0:4eb2240dbd22	1403	case gRangeTxStateIdle_c:
andreikovacs	0:4eb2240dbd22	1404	if((evDataFromUART) && ('\r' == gu8UartData))
andreikovacs	0:4eb2240dbd22	1405	{
andreikovacs	0:4eb2240dbd22	1406	rangeTxState = gRangeTxStateInit_c;
andreikovacs	0:4eb2240dbd22	1407	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1408	}
andreikovacs	0:4eb2240dbd22	1409	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1410	break;
andreikovacs	0:4eb2240dbd22	1411	default:
andreikovacs	0:4eb2240dbd22	1412	break;
andreikovacs	0:4eb2240dbd22	1413	}
andreikovacs	0:4eb2240dbd22	1414	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1415	}
andreikovacs	0:4eb2240dbd22	1416
andreikovacs	0:4eb2240dbd22	1417	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1418	*
andreikovacs	0:4eb2240dbd22	1419	* Range Test Handler for board that is performing RX
andreikovacs	0:4eb2240dbd22	1420	*
andreikovacs	0:4eb2240dbd22	1421	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1422	bool_t RangeRx(void)
andreikovacs	0:4eb2240dbd22	1423	{
andreikovacs	0:4eb2240dbd22	1424	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1425	static uint32_t u32RSSISum;
andreikovacs	0:4eb2240dbd22	1426	static uint16_t u16ReceivedPackets;
andreikovacs	0:4eb2240dbd22	1427	uint8_t u8AverageRSSI, u8TempRSSIvalue;
andreikovacs	0:4eb2240dbd22	1428	uint8_t u8CurrentRSSI;
andreikovacs	0:4eb2240dbd22	1429
andreikovacs	0:4eb2240dbd22	1430	if(evTestParameters)
andreikovacs	0:4eb2240dbd22	1431	{
andreikovacs	0:4eb2240dbd22	1432	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	1433	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	1434	#endif
andreikovacs	0:4eb2240dbd22	1435	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	1436	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	1437	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	1438	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	1439	}
andreikovacs	0:4eb2240dbd22	1440
andreikovacs	0:4eb2240dbd22	1441	switch(rangeRxState)
andreikovacs	0:4eb2240dbd22	1442	{
andreikovacs	0:4eb2240dbd22	1443	case gRangeRxStateInit_c:
andreikovacs	0:4eb2240dbd22	1444	u32RSSISum = 0;
andreikovacs	0:4eb2240dbd22	1445	u16ReceivedPackets = 0;
andreikovacs	0:4eb2240dbd22	1446	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	1447	PrintMenu(cu8RangeRxTestMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	1448	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	1449	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	1450	rangeRxState = gRangeRxWaitStartTest_c;
andreikovacs	0:4eb2240dbd22	1451	break;
andreikovacs	0:4eb2240dbd22	1452	case gRangeRxWaitStartTest_c:
andreikovacs	0:4eb2240dbd22	1453	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1454	{
andreikovacs	0:4eb2240dbd22	1455	if(' ' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1456	{
andreikovacs	0:4eb2240dbd22	1457	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	1458	uart.printf( "\f\r\nRange Test Rx Running\r\n");
andreikovacs	0:4eb2240dbd22	1459	rangeRxState = gRangeRxStateStartTest_c;
andreikovacs	0:4eb2240dbd22	1460	}
andreikovacs	0:4eb2240dbd22	1461	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1462	{
andreikovacs	0:4eb2240dbd22	1463	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1464	}
andreikovacs	0:4eb2240dbd22	1465	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1466	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1467	}
andreikovacs	0:4eb2240dbd22	1468	break;
andreikovacs	0:4eb2240dbd22	1469	case gRangeRxStateStartTest_c:
andreikovacs	0:4eb2240dbd22	1470	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1471	rangeRxState = gRangeRxStateRunningTest_c;
andreikovacs	0:4eb2240dbd22	1472	break;
andreikovacs	0:4eb2240dbd22	1473	case gRangeRxStateRunningTest_c:
andreikovacs	0:4eb2240dbd22	1474	if(evDataFromUART && (' ' == gu8UartData))
andreikovacs	0:4eb2240dbd22	1475	{
andreikovacs	0:4eb2240dbd22	1476	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	1477	uart.printf( "\n\r\n\rRange Test Rx Stopped\r\n\r\n");
andreikovacs	0:4eb2240dbd22	1478	u8AverageRSSI = (uint8_t)(u32RSSISum/u16ReceivedPackets);
andreikovacs	0:4eb2240dbd22	1479	uart.printf( "Average RSSI ");
andreikovacs	0:4eb2240dbd22	1480	if(u8AverageRSSI != 0)
andreikovacs	0:4eb2240dbd22	1481	{
andreikovacs	0:4eb2240dbd22	1482	uart.printf("-");
andreikovacs	0:4eb2240dbd22	1483	}
andreikovacs	0:4eb2240dbd22	1484	uart.printf("%d", (uint32_t)u8AverageRSSI);
andreikovacs	0:4eb2240dbd22	1485	uart.printf(" dBm");
andreikovacs	0:4eb2240dbd22	1486	uart.printf( "\r\n\r\n Press [enter] to go back to the Range Rx test menu");
andreikovacs	0:4eb2240dbd22	1487	rangeRxState = gRangeRxStateIdle_c;
andreikovacs	0:4eb2240dbd22	1488	}
andreikovacs	0:4eb2240dbd22	1489	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1490	if(bRxDone)
andreikovacs	0:4eb2240dbd22	1491	{
andreikovacs	0:4eb2240dbd22	1492	if(gAppRxPacket->rxStatus == rxSuccessStatus_c)
andreikovacs	0:4eb2240dbd22	1493	{
andreikovacs	0:4eb2240dbd22	1494	if(stringComp((uint8_t*)"SMAC Range Demo",&gAppRxPacket->smacPdu.smacPdu[1],15))
andreikovacs	0:4eb2240dbd22	1495	{
andreikovacs	0:4eb2240dbd22	1496	bRxDone = FALSE;
andreikovacs	3:b9e209eca377	1497	FlaggedDelay_ms(4);
andreikovacs	0:4eb2240dbd22	1498	}
andreikovacs	0:4eb2240dbd22	1499	else
andreikovacs	0:4eb2240dbd22	1500	{
andreikovacs	0:4eb2240dbd22	1501	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1502	}
andreikovacs	0:4eb2240dbd22	1503	}
andreikovacs	0:4eb2240dbd22	1504	else
andreikovacs	0:4eb2240dbd22	1505	{
andreikovacs	0:4eb2240dbd22	1506	SetRadioRxOnNoTimeOut();
andreikovacs	0:4eb2240dbd22	1507	}
andreikovacs	0:4eb2240dbd22	1508	}
andreikovacs	0:4eb2240dbd22	1509	if(timePassed)
andreikovacs	0:4eb2240dbd22	1510	{
andreikovacs	0:4eb2240dbd22	1511	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	1512	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	1513	u8TempRSSIvalue= u8LastRxRssiValue;
andreikovacs	0:4eb2240dbd22	1514	gAppTxPacket->smacPdu.smacPdu[0] = u8TempRSSIvalue;
andreikovacs	0:4eb2240dbd22	1515	FLib_MemCpy(&(gAppTxPacket->smacPdu.smacPdu[1]), (void *)"SMAC Range Demo",15);
andreikovacs	0:4eb2240dbd22	1516	gAppTxPacket->u8DataLength = 16;
andreikovacs	0:4eb2240dbd22	1517	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	1518	rangeRxState = gRangeRxStatePrintTestResults_c;
andreikovacs	0:4eb2240dbd22	1519	}
andreikovacs	0:4eb2240dbd22	1520	break;
andreikovacs	0:4eb2240dbd22	1521	case gRangeRxStatePrintTestResults_c:
andreikovacs	0:4eb2240dbd22	1522	if(bTxDone)
andreikovacs	0:4eb2240dbd22	1523	{
andreikovacs	0:4eb2240dbd22	1524	u8CurrentRSSI= u8LastRxRssiValue;
andreikovacs	0:4eb2240dbd22	1525	u32RSSISum += u8CurrentRSSI;
andreikovacs	0:4eb2240dbd22	1526	u16ReceivedPackets++;
andreikovacs	0:4eb2240dbd22	1527	u8AverageRSSI = (uint8_t)(u32RSSISum/u16ReceivedPackets);
andreikovacs	0:4eb2240dbd22	1528	uart.printf( "\r\n RSSI = -");
andreikovacs	0:4eb2240dbd22	1529	uart.printf("%d", (uint32_t)u8CurrentRSSI);
andreikovacs	0:4eb2240dbd22	1530	uart.printf(" dBm");
andreikovacs	0:4eb2240dbd22	1531	rangeRxState = gRangeRxStateStartTest_c;
andreikovacs	0:4eb2240dbd22	1532	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1533	}
andreikovacs	0:4eb2240dbd22	1534	break;
andreikovacs	0:4eb2240dbd22	1535	case gRangeRxStateIdle_c:
andreikovacs	0:4eb2240dbd22	1536	if((evDataFromUART) && ('\r' == gu8UartData))
andreikovacs	0:4eb2240dbd22	1537	{
andreikovacs	0:4eb2240dbd22	1538	rangeRxState = gRangeRxStateInit_c;
andreikovacs	0:4eb2240dbd22	1539	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1540	}
andreikovacs	0:4eb2240dbd22	1541	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1542	break;
andreikovacs	0:4eb2240dbd22	1543	default:
andreikovacs	0:4eb2240dbd22	1544	break;
andreikovacs	0:4eb2240dbd22	1545	}
andreikovacs	0:4eb2240dbd22	1546	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1547	}
andreikovacs	0:4eb2240dbd22	1548
andreikovacs	0:4eb2240dbd22	1549	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1550	*
andreikovacs	0:4eb2240dbd22	1551	* Handler for viewing/modifying XCVR registers
andreikovacs	0:4eb2240dbd22	1552	*
andreikovacs	0:4eb2240dbd22	1553	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1554	bool_t EditRegisters(void)
andreikovacs	0:4eb2240dbd22	1555	{
andreikovacs	0:4eb2240dbd22	1556	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1557	if(evTestParameters)
andreikovacs	0:4eb2240dbd22	1558	{
andreikovacs	0:4eb2240dbd22	1559	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	1560	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	1561	#endif
andreikovacs	0:4eb2240dbd22	1562	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	1563	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	1564	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	1565	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	1566	}
andreikovacs	0:4eb2240dbd22	1567
andreikovacs	0:4eb2240dbd22	1568	switch(eRState)
andreikovacs	0:4eb2240dbd22	1569	{
andreikovacs	0:4eb2240dbd22	1570	case gERStateInit_c:
andreikovacs	0:4eb2240dbd22	1571	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	1572	PrintMenu(cu8RadioRegistersEditMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	1573	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	1574	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	1575	eRState = gERWaitSelection_c;
andreikovacs	0:4eb2240dbd22	1576	break;
andreikovacs	0:4eb2240dbd22	1577	case gERWaitSelection_c:
andreikovacs	0:4eb2240dbd22	1578	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1579	{
andreikovacs	0:4eb2240dbd22	1580	#if CT_Feature_Direct_Registers
andreikovacs	0:4eb2240dbd22	1581	if('1' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1582	{
andreikovacs	0:4eb2240dbd22	1583	bIsRegisterDirect = TRUE;
andreikovacs	0:4eb2240dbd22	1584	oRState = gORStateInit_c;
andreikovacs	0:4eb2240dbd22	1585	eRState = gERStateOverrideReg_c;
andreikovacs	0:4eb2240dbd22	1586	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1587	}
andreikovacs	0:4eb2240dbd22	1588	else if('2' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1589	{
andreikovacs	0:4eb2240dbd22	1590	bIsRegisterDirect = TRUE;
andreikovacs	0:4eb2240dbd22	1591	rRState = gRRStateInit_c;
andreikovacs	0:4eb2240dbd22	1592	eRState = gERStateReadReg_c;
andreikovacs	0:4eb2240dbd22	1593	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1594	}
andreikovacs	0:4eb2240dbd22	1595	#if CT_Feature_Indirect_Registers
andreikovacs	0:4eb2240dbd22	1596	else if('3' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1597	{
andreikovacs	0:4eb2240dbd22	1598	bIsRegisterDirect = FALSE;
andreikovacs	0:4eb2240dbd22	1599	oRState = gORStateInit_c;
andreikovacs	0:4eb2240dbd22	1600	eRState = gERStateOverrideReg_c;
andreikovacs	0:4eb2240dbd22	1601	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1602	}
andreikovacs	0:4eb2240dbd22	1603	else if('4' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1604	{
andreikovacs	0:4eb2240dbd22	1605	bIsRegisterDirect = FALSE;
andreikovacs	0:4eb2240dbd22	1606	rRState = gRRStateInit_c;
andreikovacs	0:4eb2240dbd22	1607	eRState = gERStateReadReg_c;
andreikovacs	0:4eb2240dbd22	1608	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1609	}
andreikovacs	0:4eb2240dbd22	1610	else if('5' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1611	{
andreikovacs	0:4eb2240dbd22	1612	dRState = gDRStateInit_c;
andreikovacs	0:4eb2240dbd22	1613	eRState = gERStateDumpAllRegs_c;
andreikovacs	0:4eb2240dbd22	1614	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1615	}
andreikovacs	0:4eb2240dbd22	1616	#else
andreikovacs	0:4eb2240dbd22	1617	else if('3' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1618	{
andreikovacs	0:4eb2240dbd22	1619	dRState = gDRStateInit_c;
andreikovacs	0:4eb2240dbd22	1620	eRState = gERStateDumpAllRegs_c;
andreikovacs	0:4eb2240dbd22	1621	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1622	}
andreikovacs	0:4eb2240dbd22	1623	#endif
andreikovacs	0:4eb2240dbd22	1624	else
andreikovacs	0:4eb2240dbd22	1625	#endif
andreikovacs	0:4eb2240dbd22	1626	if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1627	{
andreikovacs	0:4eb2240dbd22	1628	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1629	}
andreikovacs	0:4eb2240dbd22	1630	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1631	}
andreikovacs	0:4eb2240dbd22	1632	break;
andreikovacs	0:4eb2240dbd22	1633	case gERStateOverrideReg_c:
andreikovacs	0:4eb2240dbd22	1634	if(OverrideRegisters())
andreikovacs	0:4eb2240dbd22	1635	{
andreikovacs	0:4eb2240dbd22	1636	eRState = gERStateInit_c;
andreikovacs	0:4eb2240dbd22	1637	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1638	}
andreikovacs	0:4eb2240dbd22	1639	break;
andreikovacs	0:4eb2240dbd22	1640	case gERStateReadReg_c:
andreikovacs	0:4eb2240dbd22	1641	if(ReadRegisters())
andreikovacs	0:4eb2240dbd22	1642	{
andreikovacs	0:4eb2240dbd22	1643	eRState = gERStateInit_c;
andreikovacs	0:4eb2240dbd22	1644	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1645	}
andreikovacs	0:4eb2240dbd22	1646	break;
andreikovacs	0:4eb2240dbd22	1647	case gERStateDumpAllRegs_c:
andreikovacs	0:4eb2240dbd22	1648	if(DumpRegisters()) {
andreikovacs	0:4eb2240dbd22	1649	eRState = gERStateInit_c;
andreikovacs	0:4eb2240dbd22	1650	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1651	}
andreikovacs	0:4eb2240dbd22	1652	break;
andreikovacs	0:4eb2240dbd22	1653	default:
andreikovacs	0:4eb2240dbd22	1654	break;
andreikovacs	0:4eb2240dbd22	1655	}
andreikovacs	0:4eb2240dbd22	1656	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1657	}
andreikovacs	0:4eb2240dbd22	1658
andreikovacs	0:4eb2240dbd22	1659	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1660	*
andreikovacs	0:4eb2240dbd22	1661	* Dump registers
andreikovacs	0:4eb2240dbd22	1662	*
andreikovacs	0:4eb2240dbd22	1663	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1664	bool_t DumpRegisters(void)
andreikovacs	0:4eb2240dbd22	1665	{
andreikovacs	0:4eb2240dbd22	1666	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1667
andreikovacs	0:4eb2240dbd22	1668	switch(dRState)
andreikovacs	0:4eb2240dbd22	1669	{
andreikovacs	0:4eb2240dbd22	1670	case gDRStateInit_c:
andreikovacs	0:4eb2240dbd22	1671	uart.printf( "\f\r\rDump Registers\r\n");
andreikovacs	0:4eb2240dbd22	1672	uart.printf( "\r\n-Press [space] to dump registers\r\n");
andreikovacs	0:4eb2240dbd22	1673	uart.printf( "\r\n-Press [p] Previous Menu\r\n");
andreikovacs	0:4eb2240dbd22	1674	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	1675	dRState = gDRStateDumpRegs_c;
andreikovacs	0:4eb2240dbd22	1676	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1677	break;
andreikovacs	0:4eb2240dbd22	1678	case gDRStateDumpRegs_c:
andreikovacs	0:4eb2240dbd22	1679	if(evDataFromUART){
andreikovacs	0:4eb2240dbd22	1680	if(gu8UartData == 'p')
andreikovacs	0:4eb2240dbd22	1681	{
andreikovacs	0:4eb2240dbd22	1682	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1683	}
andreikovacs	0:4eb2240dbd22	1684	else if (gu8UartData == ' ')
andreikovacs	0:4eb2240dbd22	1685	{
andreikovacs	0:4eb2240dbd22	1686	uart.printf( "\r\n -Dumping registers... \r\n");
andreikovacs	0:4eb2240dbd22	1687	const registerLimits_t* interval = registerIntervals;
andreikovacs	0:4eb2240dbd22	1688
andreikovacs	0:4eb2240dbd22	1689	while(!((interval).regStart == 0 && (interval).regEnd == 0))
andreikovacs	0:4eb2240dbd22	1690	{
andreikovacs	0:4eb2240dbd22	1691	uart.printf( "\r\n -Access type: ");
andreikovacs	0:4eb2240dbd22	1692	if( (*interval).bIsRegisterDirect )
andreikovacs	0:4eb2240dbd22	1693	uart.printf("direct\r\n");
andreikovacs	0:4eb2240dbd22	1694	else
andreikovacs	0:4eb2240dbd22	1695	uart.printf("indirect\r\n");
andreikovacs	0:4eb2240dbd22	1696	bIsRegisterDirect = (*interval).bIsRegisterDirect;
andreikovacs	0:4eb2240dbd22	1697	ReadRFRegs((interval).regStart, (interval).regEnd);
andreikovacs	0:4eb2240dbd22	1698	interval++;
andreikovacs	0:4eb2240dbd22	1699	}
andreikovacs	0:4eb2240dbd22	1700	dRState = gDRStateInit_c;
andreikovacs	0:4eb2240dbd22	1701	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1702	}
andreikovacs	0:4eb2240dbd22	1703	}
andreikovacs	0:4eb2240dbd22	1704	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1705	break;
andreikovacs	0:4eb2240dbd22	1706	default:
andreikovacs	0:4eb2240dbd22	1707	break;
andreikovacs	0:4eb2240dbd22	1708	}
andreikovacs	0:4eb2240dbd22	1709	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1710	}
andreikovacs	0:4eb2240dbd22	1711
andreikovacs	0:4eb2240dbd22	1712	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1713	*
andreikovacs	0:4eb2240dbd22	1714	* Read and print register values with addresses from u8RegStartAddress
andreikovacs	0:4eb2240dbd22	1715	* to u8RegStopAddress
andreikovacs	0:4eb2240dbd22	1716	*
andreikovacs	0:4eb2240dbd22	1717	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1718	void ReadRFRegs(registerAddressSize_t rasRegStartAddress, registerAddressSize_t rasRegStopAddress)
andreikovacs	0:4eb2240dbd22	1719	{
andreikovacs	0:4eb2240dbd22	1720
andreikovacs	0:4eb2240dbd22	1721	static uint16_t rasRegAddress;
andreikovacs	0:4eb2240dbd22	1722	registerSize_t rsRegValue;
andreikovacs	0:4eb2240dbd22	1723	uart.printf( " --------------------------------------- ");
andreikovacs	0:4eb2240dbd22	1724	for(rasRegAddress = rasRegStartAddress; rasRegAddress <= rasRegStopAddress; rasRegAddress+=(gRegisterSize_c))
andreikovacs	0:4eb2240dbd22	1725	{
andreikovacs	0:4eb2240dbd22	1726	uart.printf( "\r\n\| Address : 0x");
andreikovacs	6:85e288fb2556	1727	uart.printf("%x", (uint8_t*)rasRegAddress);
andreikovacs	0:4eb2240dbd22	1728	aspTestRequestMsg.msgType = aspMsgTypeXcvrReadReq_c;
andreikovacs	0:4eb2240dbd22	1729	aspTestRequestMsg.msgData.aspXcvrData.addr = (uint16_t)rasRegAddress;
andreikovacs	0:4eb2240dbd22	1730	aspTestRequestMsg.msgData.aspXcvrData.len = gRegisterSize_c;
andreikovacs	0:4eb2240dbd22	1731	aspTestRequestMsg.msgData.aspXcvrData.mode = !bIsRegisterDirect;
andreikovacs	0:4eb2240dbd22	1732
andreikovacs	0:4eb2240dbd22	1733	APP_ASP_SapHandler(&aspTestRequestMsg, 0);
andreikovacs	0:4eb2240dbd22	1734	rsRegValue = ((registerSize_t)aspTestRequestMsg.msgData.aspXcvrData.data);
andreikovacs	0:4eb2240dbd22	1735	uart.printf( " Data value : 0x");
andreikovacs	6:85e288fb2556	1736	uart.printf("%x", (uint8_t*)rsRegValue);
andreikovacs	0:4eb2240dbd22	1737	uart.printf( " \|");
andreikovacs	0:4eb2240dbd22	1738	}
andreikovacs	0:4eb2240dbd22	1739	uart.printf( "\r\n --------------------------------------- \r\n");
andreikovacs	0:4eb2240dbd22	1740	}
andreikovacs	0:4eb2240dbd22	1741
andreikovacs	0:4eb2240dbd22	1742	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1743	*
andreikovacs	0:4eb2240dbd22	1744	* Read register
andreikovacs	0:4eb2240dbd22	1745	*
andreikovacs	0:4eb2240dbd22	1746	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1747	bool_t ReadRegisters(void)
andreikovacs	0:4eb2240dbd22	1748	{
andreikovacs	0:4eb2240dbd22	1749	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1750	static uint8_t au8RxString[5];
andreikovacs	0:4eb2240dbd22	1751	static uint8_t u8Index;
andreikovacs	0:4eb2240dbd22	1752	static registerAddressSize_t rasRegAddress;
andreikovacs	0:4eb2240dbd22	1753	static registerSize_t rsRegValue;
andreikovacs	0:4eb2240dbd22	1754	static char auxToPrint[2];
andreikovacs	0:4eb2240dbd22	1755
andreikovacs	0:4eb2240dbd22	1756	switch(rRState)
andreikovacs	0:4eb2240dbd22	1757	{
andreikovacs	0:4eb2240dbd22	1758	case gRRStateInit_c:
andreikovacs	0:4eb2240dbd22	1759	uart.printf( "\f\r\rRead Registers\r\n");
andreikovacs	0:4eb2240dbd22	1760	uart.printf( "\r\n-Press [p] Previous Menu\r\n");
andreikovacs	0:4eb2240dbd22	1761	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	1762	rRState = gRRStateStart_c;
andreikovacs	0:4eb2240dbd22	1763	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1764	break;
andreikovacs	0:4eb2240dbd22	1765	case gRRStateStart_c:
andreikovacs	0:4eb2240dbd22	1766	uart.printf( "\r\n -write the Register address in Hex and [enter]: 0x");
andreikovacs	0:4eb2240dbd22	1767	u8Index = 0;
andreikovacs	0:4eb2240dbd22	1768	rRState = gRRWaitForTheAddress_c;
andreikovacs	0:4eb2240dbd22	1769	break;
andreikovacs	0:4eb2240dbd22	1770	case gRRWaitForTheAddress_c:
andreikovacs	0:4eb2240dbd22	1771	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1772	{
andreikovacs	0:4eb2240dbd22	1773	if((!isAsciiHex(gu8UartData)) && ('\r' != gu8UartData))
andreikovacs	0:4eb2240dbd22	1774	{
andreikovacs	0:4eb2240dbd22	1775	if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1776	{
andreikovacs	0:4eb2240dbd22	1777	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1778	}
andreikovacs	0:4eb2240dbd22	1779	else
andreikovacs	0:4eb2240dbd22	1780	{
andreikovacs	0:4eb2240dbd22	1781	uart.printf( "\r\n -Invalid Character!! ");
andreikovacs	0:4eb2240dbd22	1782	rRState = gRRStateStart_c;
andreikovacs	0:4eb2240dbd22	1783	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1784	}
andreikovacs	0:4eb2240dbd22	1785	}
andreikovacs	0:4eb2240dbd22	1786	else if((gRegisterAddressASCII_c == u8Index) && ('\r' != gu8UartData))
andreikovacs	0:4eb2240dbd22	1787	{
andreikovacs	0:4eb2240dbd22	1788	uart.printf( "\r\n -Value out of Range!! ");
andreikovacs	0:4eb2240dbd22	1789	rRState = gRRStateStart_c;
andreikovacs	0:4eb2240dbd22	1790	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1791	}
andreikovacs	0:4eb2240dbd22	1792	else if(isAsciiHex(gu8UartData))
andreikovacs	0:4eb2240dbd22	1793	{
andreikovacs	0:4eb2240dbd22	1794	au8RxString[u8Index++] = gu8UartData;
andreikovacs	0:4eb2240dbd22	1795	auxToPrint[0] = gu8UartData;
andreikovacs	0:4eb2240dbd22	1796	auxToPrint[1] = '\0';
andreikovacs	0:4eb2240dbd22	1797	uart.printf( auxToPrint);
andreikovacs	0:4eb2240dbd22	1798	}
andreikovacs	0:4eb2240dbd22	1799	else
andreikovacs	0:4eb2240dbd22	1800	{
andreikovacs	0:4eb2240dbd22	1801	au8RxString[u8Index] = 0;
andreikovacs	0:4eb2240dbd22	1802	rasRegAddress = (registerAddressSize_t)HexString2Dec(au8RxString);
andreikovacs	0:4eb2240dbd22	1803	aspTestRequestMsg.msgType = aspMsgTypeXcvrReadReq_c;
andreikovacs	0:4eb2240dbd22	1804	aspTestRequestMsg.msgData.aspXcvrData.addr = (uint16_t)rasRegAddress;
andreikovacs	0:4eb2240dbd22	1805	aspTestRequestMsg.msgData.aspXcvrData.len = gRegisterSize_c;
andreikovacs	0:4eb2240dbd22	1806	aspTestRequestMsg.msgData.aspXcvrData.mode = !bIsRegisterDirect;
andreikovacs	0:4eb2240dbd22	1807	APP_ASP_SapHandler(&aspTestRequestMsg, 0);
andreikovacs	0:4eb2240dbd22	1808	rsRegValue = ((registerSize_t)aspTestRequestMsg.msgData.aspXcvrData.data);
andreikovacs	0:4eb2240dbd22	1809
andreikovacs	0:4eb2240dbd22	1810	uart.printf( "\r\n -Register value : 0x");
andreikovacs	6:85e288fb2556	1811	uart.printf("%x", (uint8_t*)rsRegValue);
andreikovacs	0:4eb2240dbd22	1812	uart.printf( "\r\n");
andreikovacs	0:4eb2240dbd22	1813
andreikovacs	0:4eb2240dbd22	1814	rRState = gRRStateStart_c;
andreikovacs	0:4eb2240dbd22	1815	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1816	}
andreikovacs	0:4eb2240dbd22	1817	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1818	}
andreikovacs	0:4eb2240dbd22	1819	break;
andreikovacs	0:4eb2240dbd22	1820	default:
andreikovacs	0:4eb2240dbd22	1821	break;
andreikovacs	0:4eb2240dbd22	1822	}
andreikovacs	0:4eb2240dbd22	1823	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1824	}
andreikovacs	0:4eb2240dbd22	1825
andreikovacs	0:4eb2240dbd22	1826	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1827	*
andreikovacs	0:4eb2240dbd22	1828	* Override Register
andreikovacs	0:4eb2240dbd22	1829	*
andreikovacs	0:4eb2240dbd22	1830	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1831	bool_t OverrideRegisters(void)
andreikovacs	0:4eb2240dbd22	1832	{
andreikovacs	0:4eb2240dbd22	1833	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1834	static uint8_t au8RxString[5];
andreikovacs	0:4eb2240dbd22	1835	static uint8_t u8Index;
andreikovacs	0:4eb2240dbd22	1836	static registerAddressSize_t rasRegAddress;
andreikovacs	0:4eb2240dbd22	1837	static registerSize_t rsRegValue;
andreikovacs	0:4eb2240dbd22	1838	static char auxToPrint[2];
andreikovacs	0:4eb2240dbd22	1839
andreikovacs	0:4eb2240dbd22	1840	switch(oRState)
andreikovacs	0:4eb2240dbd22	1841	{
andreikovacs	0:4eb2240dbd22	1842	case gORStateInit_c:
andreikovacs	0:4eb2240dbd22	1843	uart.printf("\f\r\nWrite Registers\r\n");
andreikovacs	0:4eb2240dbd22	1844	uart.printf("\r\n-Press [p] Previous Menu\r\n");
andreikovacs	0:4eb2240dbd22	1845	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	1846	oRState = gORStateStart_c;
andreikovacs	0:4eb2240dbd22	1847	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1848	break;
andreikovacs	0:4eb2240dbd22	1849	case gORStateStart_c:
andreikovacs	0:4eb2240dbd22	1850	uart.printf("\r\n -write the Register address in Hex and [enter]: 0x");
andreikovacs	0:4eb2240dbd22	1851	u8Index = 0;
andreikovacs	0:4eb2240dbd22	1852	oRState = gORWaitForTheAddress_c;
andreikovacs	0:4eb2240dbd22	1853	break;
andreikovacs	0:4eb2240dbd22	1854	case gORWaitForTheAddress_c:
andreikovacs	0:4eb2240dbd22	1855	if(evDataFromUART){
andreikovacs	0:4eb2240dbd22	1856	if((!isAsciiHex(gu8UartData)) && ('\r' != gu8UartData))
andreikovacs	0:4eb2240dbd22	1857	{
andreikovacs	0:4eb2240dbd22	1858	if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1859	{
andreikovacs	0:4eb2240dbd22	1860	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1861	}
andreikovacs	0:4eb2240dbd22	1862	else
andreikovacs	0:4eb2240dbd22	1863	{
andreikovacs	0:4eb2240dbd22	1864	uart.printf("\r\n -Invalid Character!! ");
andreikovacs	0:4eb2240dbd22	1865	oRState = gORStateStart_c;
andreikovacs	0:4eb2240dbd22	1866	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1867	}
andreikovacs	0:4eb2240dbd22	1868	}
andreikovacs	0:4eb2240dbd22	1869	else if((gRegisterAddressASCII_c == u8Index) && ('\r' != gu8UartData))
andreikovacs	0:4eb2240dbd22	1870	{
andreikovacs	0:4eb2240dbd22	1871	uart.printf("\r\n -Value out of Range!! ");
andreikovacs	0:4eb2240dbd22	1872	oRState = gORStateStart_c;
andreikovacs	0:4eb2240dbd22	1873	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1874	}
andreikovacs	0:4eb2240dbd22	1875	else if(isAsciiHex(gu8UartData))
andreikovacs	0:4eb2240dbd22	1876	{
andreikovacs	0:4eb2240dbd22	1877	au8RxString[u8Index++] = gu8UartData;
andreikovacs	0:4eb2240dbd22	1878	auxToPrint[0] = gu8UartData;
andreikovacs	0:4eb2240dbd22	1879	auxToPrint[1] = '\0';
andreikovacs	0:4eb2240dbd22	1880	uart.printf(auxToPrint);
andreikovacs	0:4eb2240dbd22	1881	}
andreikovacs	0:4eb2240dbd22	1882	else
andreikovacs	0:4eb2240dbd22	1883	{
andreikovacs	0:4eb2240dbd22	1884	au8RxString[u8Index] = 0;
andreikovacs	0:4eb2240dbd22	1885	rasRegAddress = (registerAddressSize_t)HexString2Dec(au8RxString);
andreikovacs	0:4eb2240dbd22	1886	uart.printf("\r\n -write the Register value to override in Hex and [enter]: 0x");
andreikovacs	0:4eb2240dbd22	1887	u8Index = 0;
andreikovacs	0:4eb2240dbd22	1888	oRState = gORWaitForTheValue_c;
andreikovacs	0:4eb2240dbd22	1889	}
andreikovacs	0:4eb2240dbd22	1890	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1891	}
andreikovacs	0:4eb2240dbd22	1892	break;
andreikovacs	0:4eb2240dbd22	1893	case gORWaitForTheValue_c:
andreikovacs	0:4eb2240dbd22	1894	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1895	{
andreikovacs	0:4eb2240dbd22	1896	if((!isAsciiHex(gu8UartData)) && ('\r' != gu8UartData))
andreikovacs	0:4eb2240dbd22	1897	{
andreikovacs	0:4eb2240dbd22	1898	if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1899	{
andreikovacs	0:4eb2240dbd22	1900	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	1901	}
andreikovacs	0:4eb2240dbd22	1902	else
andreikovacs	0:4eb2240dbd22	1903	{
andreikovacs	0:4eb2240dbd22	1904	uart.printf("\r\n -Invalid Character!! ");
andreikovacs	0:4eb2240dbd22	1905	oRState = gORStateStart_c;
andreikovacs	0:4eb2240dbd22	1906	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1907	}
andreikovacs	0:4eb2240dbd22	1908	}
andreikovacs	0:4eb2240dbd22	1909	else if((2 == u8Index) && ('\r' != gu8UartData))
andreikovacs	0:4eb2240dbd22	1910	{
andreikovacs	0:4eb2240dbd22	1911	uart.printf("\r\n -Value out of Range!! ");
andreikovacs	0:4eb2240dbd22	1912	oRState = gORStateStart_c;
andreikovacs	0:4eb2240dbd22	1913	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1914	}
andreikovacs	0:4eb2240dbd22	1915	else if(isAsciiHex(gu8UartData))
andreikovacs	0:4eb2240dbd22	1916	{
andreikovacs	0:4eb2240dbd22	1917	au8RxString[u8Index++] = gu8UartData;
andreikovacs	0:4eb2240dbd22	1918	auxToPrint[0] = gu8UartData;
andreikovacs	0:4eb2240dbd22	1919	auxToPrint[1] = '\0';
andreikovacs	0:4eb2240dbd22	1920	uart.printf(auxToPrint);
andreikovacs	0:4eb2240dbd22	1921	}
andreikovacs	0:4eb2240dbd22	1922	else
andreikovacs	0:4eb2240dbd22	1923	{
andreikovacs	0:4eb2240dbd22	1924	au8RxString[u8Index] = 0;
andreikovacs	0:4eb2240dbd22	1925	rsRegValue = (registerSize_t)HexString2Dec(au8RxString);
andreikovacs	0:4eb2240dbd22	1926	aspTestRequestMsg.msgType = aspMsgTypeXcvrWriteReq_c;
andreikovacs	0:4eb2240dbd22	1927	aspTestRequestMsg.msgData.aspXcvrData.addr = (uint16_t)rasRegAddress;
andreikovacs	0:4eb2240dbd22	1928	aspTestRequestMsg.msgData.aspXcvrData.len = gRegisterAddress_c;
andreikovacs	0:4eb2240dbd22	1929	aspTestRequestMsg.msgData.aspXcvrData.mode = !bIsRegisterDirect;
andreikovacs	0:4eb2240dbd22	1930	FLib_MemCpy(aspTestRequestMsg.msgData.aspXcvrData.data, &rsRegValue, gRegisterSize_c);
andreikovacs	0:4eb2240dbd22	1931	APP_ASP_SapHandler(&aspTestRequestMsg, 0);
andreikovacs	0:4eb2240dbd22	1932
andreikovacs	0:4eb2240dbd22	1933	uart.printf("\r\n Register overridden \r\n");
andreikovacs	0:4eb2240dbd22	1934	u8Index = 0;
andreikovacs	0:4eb2240dbd22	1935	oRState = gORStateStart_c;
andreikovacs	0:4eb2240dbd22	1936	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1937	}
andreikovacs	0:4eb2240dbd22	1938	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	1939	}
andreikovacs	0:4eb2240dbd22	1940	break;
andreikovacs	0:4eb2240dbd22	1941	default:
andreikovacs	0:4eb2240dbd22	1942	break;
andreikovacs	0:4eb2240dbd22	1943	}
andreikovacs	0:4eb2240dbd22	1944	return bBackFlag;
andreikovacs	0:4eb2240dbd22	1945	}
andreikovacs	0:4eb2240dbd22	1946
andreikovacs	0:4eb2240dbd22	1947	/************************************************************************************
andreikovacs	0:4eb2240dbd22	1948	*
andreikovacs	0:4eb2240dbd22	1949	* Handler for Carrier Sense Test and Transmission Control Test
andreikovacs	0:4eb2240dbd22	1950	*
andreikovacs	0:4eb2240dbd22	1951	************************************************************************************/
andreikovacs	0:4eb2240dbd22	1952	bool_t CSenseAndTCtrl(void)
andreikovacs	0:4eb2240dbd22	1953	{
andreikovacs	0:4eb2240dbd22	1954	bool_t bBackFlag = FALSE;
andreikovacs	0:4eb2240dbd22	1955	static uint8_t testSelector = 0;
andreikovacs	0:4eb2240dbd22	1956
andreikovacs	0:4eb2240dbd22	1957	if(evTestParameters){
andreikovacs	0:4eb2240dbd22	1958	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	1959	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	1960	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	1961	#endif
andreikovacs	0:4eb2240dbd22	1962	(void)MLMEPAOutputAdjust(testPower);
andreikovacs	0:4eb2240dbd22	1963	PrintTestParameters(TRUE);
andreikovacs	0:4eb2240dbd22	1964	evTestParameters = FALSE;
andreikovacs	0:4eb2240dbd22	1965	}
andreikovacs	0:4eb2240dbd22	1966
andreikovacs	0:4eb2240dbd22	1967	switch(cstcState)
andreikovacs	0:4eb2240dbd22	1968	{
andreikovacs	0:4eb2240dbd22	1969	case gCsTcStateInit_c:
andreikovacs	0:4eb2240dbd22	1970	TestMode(gTestModeForceIdle_c);
andreikovacs	0:4eb2240dbd22	1971	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	1972	PrintMenu(cu8RadioCSTCSelectMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	1973	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	1974	shortCutsEnabled = TRUE;
andreikovacs	0:4eb2240dbd22	1975	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	1976	bScanDone = FALSE;
andreikovacs	0:4eb2240dbd22	1977	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	1978
andreikovacs	0:4eb2240dbd22	1979	cstcState = gCsTcStateSelectTest_c;
andreikovacs	0:4eb2240dbd22	1980	break;
andreikovacs	0:4eb2240dbd22	1981	case gCsTcStateSelectTest_c:
andreikovacs	0:4eb2240dbd22	1982	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	1983	{
andreikovacs	0:4eb2240dbd22	1984	if('1' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1985	{
andreikovacs	0:4eb2240dbd22	1986	cstcState = gCsTcStateCarrierSenseStart_c;
andreikovacs	0:4eb2240dbd22	1987	testSelector = 1;
andreikovacs	0:4eb2240dbd22	1988	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1989	}
andreikovacs	0:4eb2240dbd22	1990	else if ('2' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1991	{
andreikovacs	0:4eb2240dbd22	1992	cstcState = gCsTcStateTransmissionControlStart_c;
andreikovacs	0:4eb2240dbd22	1993	testSelector = 2;
andreikovacs	0:4eb2240dbd22	1994	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	1995	}
andreikovacs	0:4eb2240dbd22	1996	else if( 'p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	1997	{
andreikovacs	0:4eb2240dbd22	1998	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	1999	testSelector = 0;
andreikovacs	0:4eb2240dbd22	2000	bBackFlag = TRUE;
andreikovacs	0:4eb2240dbd22	2001	}
andreikovacs	0:4eb2240dbd22	2002	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	2003	}
andreikovacs	0:4eb2240dbd22	2004	break;
andreikovacs	0:4eb2240dbd22	2005	default:
andreikovacs	0:4eb2240dbd22	2006	if(testSelector == 1)
andreikovacs	0:4eb2240dbd22	2007	CarrierSenseHandler();
andreikovacs	0:4eb2240dbd22	2008	else if(testSelector == 2)
andreikovacs	0:4eb2240dbd22	2009	TransmissionControlHandler();
andreikovacs	0:4eb2240dbd22	2010	break;
andreikovacs	0:4eb2240dbd22	2011	}
andreikovacs	0:4eb2240dbd22	2012	return bBackFlag;
andreikovacs	0:4eb2240dbd22	2013	}
andreikovacs	0:4eb2240dbd22	2014
andreikovacs	0:4eb2240dbd22	2015	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2016	*
andreikovacs	0:4eb2240dbd22	2017	* Handler for Transmission Control Test called by above function
andreikovacs	0:4eb2240dbd22	2018	*
andreikovacs	0:4eb2240dbd22	2019	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2020	void TransmissionControlHandler(void)
andreikovacs	0:4eb2240dbd22	2021	{
andreikovacs	0:4eb2240dbd22	2022	const uint16_t u16TotalPacketsOptions[] = {1,25,100,500,1000,2000,5000,10000,65535};
andreikovacs	0:4eb2240dbd22	2023	static uint16_t u16TotalPackets;
andreikovacs	0:4eb2240dbd22	2024	static uint16_t u16PacketCounter = 0;
andreikovacs	0:4eb2240dbd22	2025	static uint16_t miliSecDelay = 0;
andreikovacs	0:4eb2240dbd22	2026	static phyTime_t startTime;
andreikovacs	0:4eb2240dbd22	2027	int8_t fillIndex = 0;
andreikovacs	0:4eb2240dbd22	2028	uint8_t* smacPduPtr;
andreikovacs	0:4eb2240dbd22	2029	uint32_t totalTimeMs;
andreikovacs	0:4eb2240dbd22	2030
andreikovacs	0:4eb2240dbd22	2031	switch(cstcState)
andreikovacs	0:4eb2240dbd22	2032	{
andreikovacs	0:4eb2240dbd22	2033	case gCsTcStateTransmissionControlStart_c:
andreikovacs	0:4eb2240dbd22	2034	PrintMenu(cu8ShortCutsBar, mAppSer);
andreikovacs	0:4eb2240dbd22	2035	PrintMenu(cu8CsTcTestMenu, mAppSer);
andreikovacs	0:4eb2240dbd22	2036	PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	2037	miliSecDelay = 0;
andreikovacs	0:4eb2240dbd22	2038	u16TotalPackets = 0;
andreikovacs	0:4eb2240dbd22	2039	u16PacketCounter = 0;
andreikovacs	0:4eb2240dbd22	2040	fillIndex = testPayloadLen / gPrbs9BufferLength_c;
andreikovacs	0:4eb2240dbd22	2041
andreikovacs	0:4eb2240dbd22	2042	while(fillIndex > 0)
andreikovacs	0:4eb2240dbd22	2043	{
andreikovacs	0:4eb2240dbd22	2044	fillIndex--;
andreikovacs	0:4eb2240dbd22	2045	smacPduPtr = gAppTxPacket->smacPdu.smacPdu + fillIndex * gPrbs9BufferLength_c;
andreikovacs	0:4eb2240dbd22	2046	FLib_MemCpy(smacPduPtr, u8Prbs9Buffer, gPrbs9BufferLength_c);
andreikovacs	0:4eb2240dbd22	2047	}
andreikovacs	0:4eb2240dbd22	2048	smacPduPtr = gAppTxPacket->smacPdu.smacPdu + ((testPayloadLen / gPrbs9BufferLength_c)*gPrbs9BufferLength_c);
andreikovacs	0:4eb2240dbd22	2049	FLib_MemCpy(smacPduPtr, u8Prbs9Buffer, (testPayloadLen % gPrbs9BufferLength_c));
andreikovacs	0:4eb2240dbd22	2050
andreikovacs	0:4eb2240dbd22	2051	gAppTxPacket->u8DataLength = testPayloadLen;
andreikovacs	0:4eb2240dbd22	2052
andreikovacs	0:4eb2240dbd22	2053	cstcState = gCsTcStateTransmissionControlSelectNumOfPackets_c;
andreikovacs	0:4eb2240dbd22	2054	break;
andreikovacs	0:4eb2240dbd22	2055	case gCsTcStateTransmissionControlSelectNumOfPackets_c:
andreikovacs	0:4eb2240dbd22	2056	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	2057	{
andreikovacs	0:4eb2240dbd22	2058	if((gu8UartData >= '0') && (gu8UartData <= '8'))
andreikovacs	0:4eb2240dbd22	2059	{
andreikovacs	0:4eb2240dbd22	2060	u16TotalPackets = u16TotalPacketsOptions[gu8UartData - '0'];
andreikovacs	0:4eb2240dbd22	2061	cstcState = gCsTcStateTransmissionControlSelectInterpacketDelay_c;
andreikovacs	0:4eb2240dbd22	2062	uart.printf("\r\n\r\n Please type InterPacket delay in miliseconds and press [ENTER]");
andreikovacs	0:4eb2240dbd22	2063	uart.printf("\r\n(During test, exit by pressing [SPACE])\r\n\r\n");
andreikovacs	0:4eb2240dbd22	2064	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2065	}
andreikovacs	0:4eb2240dbd22	2066	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	2067	{
andreikovacs	0:4eb2240dbd22	2068	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	2069	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2070	}
andreikovacs	0:4eb2240dbd22	2071	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	2072	}
andreikovacs	0:4eb2240dbd22	2073	break;
andreikovacs	0:4eb2240dbd22	2074	case gCsTcStateTransmissionControlSelectInterpacketDelay_c:
andreikovacs	0:4eb2240dbd22	2075	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	2076	{
andreikovacs	0:4eb2240dbd22	2077	if(gu8UartData == '\r' && miliSecDelay != 0)
andreikovacs	0:4eb2240dbd22	2078	{
andreikovacs	0:4eb2240dbd22	2079	cstcState = gCsTcStateTransmissionControlPerformingTest_c;
andreikovacs	0:4eb2240dbd22	2080	startTime = GetTimestampUS();
andreikovacs	0:4eb2240dbd22	2081	(void)MLMEScanRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2082	}
andreikovacs	0:4eb2240dbd22	2083	else if((gu8UartData >= '0') && (gu8UartData <='9'))
andreikovacs	0:4eb2240dbd22	2084	{
andreikovacs	0:4eb2240dbd22	2085	miliSecDelay = miliSecDelay*10 + (gu8UartData - '0');
andreikovacs	0:4eb2240dbd22	2086	uart.printf("%d",(uint32_t)(gu8UartData - '0'));
andreikovacs	0:4eb2240dbd22	2087	}
andreikovacs	0:4eb2240dbd22	2088	else if('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	2089	{
andreikovacs	0:4eb2240dbd22	2090	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	2091	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2092	}
andreikovacs	0:4eb2240dbd22	2093	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	2094	}
andreikovacs	0:4eb2240dbd22	2095	break;
andreikovacs	0:4eb2240dbd22	2096	case gCsTcStateTransmissionControlPerformingTest_c:
andreikovacs	0:4eb2240dbd22	2097	if(bScanDone)
andreikovacs	0:4eb2240dbd22	2098	{
andreikovacs	0:4eb2240dbd22	2099	bScanDone = FALSE;
andreikovacs	0:4eb2240dbd22	2100	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	2101	}
andreikovacs	0:4eb2240dbd22	2102	if(bTxDone)
andreikovacs	0:4eb2240dbd22	2103	{
andreikovacs	0:4eb2240dbd22	2104	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	2105	u16PacketCounter++;
andreikovacs	0:4eb2240dbd22	2106	uart.printf("\r\n\tPacket number: ");
andreikovacs	0:4eb2240dbd22	2107	uart.printf("%d", (uint32_t)(u16PacketCounter));
andreikovacs	0:4eb2240dbd22	2108	uart.printf("; RSSI value: -");
andreikovacs	0:4eb2240dbd22	2109	uart.printf("%d",(uint32_t)au8ScanResults[testChannel]);
andreikovacs	0:4eb2240dbd22	2110	uart.printf(" dBm\r\n");
andreikovacs	0:4eb2240dbd22	2111	if(u16PacketCounter < u16TotalPackets)
andreikovacs	0:4eb2240dbd22	2112	{
andreikovacs	0:4eb2240dbd22	2113	totalTimeMs = (uint32_t)(GetTimestampUS() - startTime);
andreikovacs	0:4eb2240dbd22	2114	totalTimeMs -= GetTransmissionTime(testPayloadLen, crtBitrate);
andreikovacs	0:4eb2240dbd22	2115	totalTimeMs = (totalTimeMs % 1000 < 500) ? totalTimeMs/1000 : (totalTimeMs/1000)+1;
andreikovacs	0:4eb2240dbd22	2116	if(totalTimeMs > miliSecDelay)
andreikovacs	0:4eb2240dbd22	2117	{
andreikovacs	0:4eb2240dbd22	2118	uart.printf( " Overhead + Transmission + ED = ~");
andreikovacs	0:4eb2240dbd22	2119	uart.printf("%d", totalTimeMs);
andreikovacs	0:4eb2240dbd22	2120	uart.printf("ms\r\n Interpacket delay too small (Press [ENTER] to continue)\r\n");
andreikovacs	0:4eb2240dbd22	2121	cstcState = gCsTcStateTransmissionControlEndTest_c;
andreikovacs	0:4eb2240dbd22	2122	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2123	break;
andreikovacs	0:4eb2240dbd22	2124	}
andreikovacs	3:b9e209eca377	2125	FlaggedDelay_ms(miliSecDelay - totalTimeMs);
andreikovacs	0:4eb2240dbd22	2126	}
andreikovacs	0:4eb2240dbd22	2127	else
andreikovacs	0:4eb2240dbd22	2128	{
andreikovacs	0:4eb2240dbd22	2129	uart.printf("\r\n\r\nFinished transmitting ");
andreikovacs	0:4eb2240dbd22	2130	uart.printf("%d", (uint32_t)u16TotalPackets);
andreikovacs	0:4eb2240dbd22	2131	uart.printf(" packets!\r\n\r\n");
andreikovacs	0:4eb2240dbd22	2132	uart.printf("\r\n -Press [ENTER] to end Transmission Control Test");
andreikovacs	0:4eb2240dbd22	2133	cstcState = gCsTcStateTransmissionControlEndTest_c;
andreikovacs	0:4eb2240dbd22	2134	}
andreikovacs	0:4eb2240dbd22	2135	}
andreikovacs	0:4eb2240dbd22	2136	if(timePassed)
andreikovacs	0:4eb2240dbd22	2137	{
andreikovacs	0:4eb2240dbd22	2138	timePassed = FALSE;
andreikovacs	0:4eb2240dbd22	2139	startTime = GetTimestampUS();
andreikovacs	0:4eb2240dbd22	2140	(void)MLMEScanRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2141	}
andreikovacs	0:4eb2240dbd22	2142	if(evDataFromUART && gu8UartData == ' ')
andreikovacs	0:4eb2240dbd22	2143	{
andreikovacs	0:4eb2240dbd22	2144	uart.printf("\r\n\r\n-Test interrupted by user. Press [ENTER] to continue\r\n\r\n");
andreikovacs	0:4eb2240dbd22	2145	cstcState = gCsTcStateTransmissionControlEndTest_c;
andreikovacs	0:4eb2240dbd22	2146	}
andreikovacs	0:4eb2240dbd22	2147	break;
andreikovacs	0:4eb2240dbd22	2148	case gCsTcStateTransmissionControlEndTest_c:
andreikovacs	0:4eb2240dbd22	2149	if(evDataFromUART && gu8UartData == '\r')
andreikovacs	0:4eb2240dbd22	2150	{
andreikovacs	0:4eb2240dbd22	2151	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	2152	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2153	}
andreikovacs	0:4eb2240dbd22	2154	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	2155	break;
andreikovacs	0:4eb2240dbd22	2156	}
andreikovacs	0:4eb2240dbd22	2157	}
andreikovacs	0:4eb2240dbd22	2158	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2159	*
andreikovacs	0:4eb2240dbd22	2160	* Handler for Carrier Sense Test
andreikovacs	0:4eb2240dbd22	2161	*
andreikovacs	0:4eb2240dbd22	2162	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2163	void CarrierSenseHandler(void)
andreikovacs	0:4eb2240dbd22	2164	{
andreikovacs	0:4eb2240dbd22	2165	int8_t fillIndex = 0;
andreikovacs	0:4eb2240dbd22	2166	uint8_t* smacPduPtr;
andreikovacs	0:4eb2240dbd22	2167	switch(cstcState)
andreikovacs	0:4eb2240dbd22	2168	{
andreikovacs	0:4eb2240dbd22	2169	case gCsTcStateCarrierSenseStart_c:
andreikovacs	0:4eb2240dbd22	2170	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	2171	if( gMode1Bitrate_c == crtBitrate )
andreikovacs	0:4eb2240dbd22	2172	{
andreikovacs	0:4eb2240dbd22	2173	(void)MLMESetAdditionalRFOffset(gOffsetIncrement + 30);
andreikovacs	0:4eb2240dbd22	2174	}
andreikovacs	0:4eb2240dbd22	2175	else
andreikovacs	0:4eb2240dbd22	2176	{
andreikovacs	0:4eb2240dbd22	2177	(void)MLMESetAdditionalRFOffset(gOffsetIncrement + 60);
andreikovacs	0:4eb2240dbd22	2178	}
andreikovacs	0:4eb2240dbd22	2179	#endif
andreikovacs	0:4eb2240dbd22	2180	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2181
andreikovacs	0:4eb2240dbd22	2182	uart.printf( "\r\n\r\n Press [SPACE] to begin/interrupt test");
andreikovacs	0:4eb2240dbd22	2183	uart.printf( "\r\n Press [p] to return to previous menu");
andreikovacs	0:4eb2240dbd22	2184	// PrintTestParameters(FALSE);
andreikovacs	0:4eb2240dbd22	2185	shortCutsEnabled = FALSE;
andreikovacs	0:4eb2240dbd22	2186	uart.printf("\r\n");
andreikovacs	0:4eb2240dbd22	2187
andreikovacs	0:4eb2240dbd22	2188	fillIndex = testPayloadLen / gPrbs9BufferLength_c;
andreikovacs	0:4eb2240dbd22	2189	while(fillIndex > 0)
andreikovacs	0:4eb2240dbd22	2190	{
andreikovacs	0:4eb2240dbd22	2191	fillIndex--;
andreikovacs	0:4eb2240dbd22	2192	smacPduPtr = gAppTxPacket->smacPdu.smacPdu + fillIndex * gPrbs9BufferLength_c;
andreikovacs	0:4eb2240dbd22	2193	FLib_MemCpy(smacPduPtr, u8Prbs9Buffer, gPrbs9BufferLength_c);
andreikovacs	0:4eb2240dbd22	2194	}
andreikovacs	0:4eb2240dbd22	2195	smacPduPtr = gAppTxPacket->smacPdu.smacPdu + ((testPayloadLen / gPrbs9BufferLength_c)*gPrbs9BufferLength_c);
andreikovacs	0:4eb2240dbd22	2196	FLib_MemCpy(smacPduPtr, u8Prbs9Buffer, (testPayloadLen % gPrbs9BufferLength_c));
andreikovacs	0:4eb2240dbd22	2197
andreikovacs	0:4eb2240dbd22	2198	gAppTxPacket->u8DataLength = testPayloadLen;
andreikovacs	0:4eb2240dbd22	2199
andreikovacs	0:4eb2240dbd22	2200	cstcState = gCsTcStateCarrierSenseSelectType_c;
andreikovacs	0:4eb2240dbd22	2201	break;
andreikovacs	0:4eb2240dbd22	2202	case gCsTcStateCarrierSenseSelectType_c:
andreikovacs	0:4eb2240dbd22	2203	if(evDataFromUART)
andreikovacs	0:4eb2240dbd22	2204	{
andreikovacs	0:4eb2240dbd22	2205	if(' ' == gu8UartData)
andreikovacs	0:4eb2240dbd22	2206	{
andreikovacs	0:4eb2240dbd22	2207	cstcState = gCsTcStateCarrierSensePerformingTest_c;
andreikovacs	0:4eb2240dbd22	2208	(void)MLMEScanRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2209	}
andreikovacs	0:4eb2240dbd22	2210	else if ('p' == gu8UartData)
andreikovacs	0:4eb2240dbd22	2211	{
andreikovacs	0:4eb2240dbd22	2212	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	2213	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	2214	#endif
andreikovacs	0:4eb2240dbd22	2215	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2216	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	2217	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2218	}
andreikovacs	0:4eb2240dbd22	2219	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	2220	}
andreikovacs	0:4eb2240dbd22	2221	break;
andreikovacs	0:4eb2240dbd22	2222	case gCsTcStateCarrierSensePerformingTest_c:
andreikovacs	0:4eb2240dbd22	2223	if(bScanDone)
andreikovacs	0:4eb2240dbd22	2224	{
andreikovacs	0:4eb2240dbd22	2225	bScanDone = FALSE;
andreikovacs	0:4eb2240dbd22	2226	uart.printf( "\r\n\tSampling done. RSSI value: -");
andreikovacs	0:4eb2240dbd22	2227	uart.printf("%d", (uint32_t) au8ScanResults[testChannel]);
andreikovacs	0:4eb2240dbd22	2228	uart.printf( "dBm");
andreikovacs	0:4eb2240dbd22	2229	if(au8ScanResults[testChannel] > ccaThresh)
andreikovacs	0:4eb2240dbd22	2230	{
andreikovacs	0:4eb2240dbd22	2231	(void)MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	2232	}
andreikovacs	0:4eb2240dbd22	2233	else
andreikovacs	0:4eb2240dbd22	2234	{
andreikovacs	0:4eb2240dbd22	2235	(void)MLMEScanRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2236	}
andreikovacs	0:4eb2240dbd22	2237	}
andreikovacs	0:4eb2240dbd22	2238	if(bTxDone)
andreikovacs	0:4eb2240dbd22	2239	{
andreikovacs	0:4eb2240dbd22	2240	bTxDone = FALSE;
andreikovacs	0:4eb2240dbd22	2241
andreikovacs	0:4eb2240dbd22	2242	uart.printf("\r\n Transmission Performed\r\n");
andreikovacs	0:4eb2240dbd22	2243	uart.printf("\r\n -Press [ENTER] to end Carrier Sense Test");
andreikovacs	0:4eb2240dbd22	2244	cstcState = gCsTcStateCarrierSenseEndTest_c;
andreikovacs	0:4eb2240dbd22	2245	}
andreikovacs	0:4eb2240dbd22	2246	if(evDataFromUART && gu8UartData == ' ')
andreikovacs	0:4eb2240dbd22	2247	{
andreikovacs	0:4eb2240dbd22	2248	uart.printf("\r\n\r\n-Test interrupted by user. Press [ENTER] to continue\r\n\r\n");
andreikovacs	0:4eb2240dbd22	2249	cstcState = gCsTcStateCarrierSenseEndTest_c;
andreikovacs	0:4eb2240dbd22	2250	}
andreikovacs	0:4eb2240dbd22	2251	break;
andreikovacs	0:4eb2240dbd22	2252	case gCsTcStateCarrierSenseEndTest_c:
andreikovacs	0:4eb2240dbd22	2253	if(evDataFromUART && gu8UartData == '\r')
andreikovacs	0:4eb2240dbd22	2254	{
andreikovacs	0:4eb2240dbd22	2255	#if CT_Feature_Calibration
andreikovacs	0:4eb2240dbd22	2256	(void)MLMESetAdditionalRFOffset(gOffsetIncrement);
andreikovacs	0:4eb2240dbd22	2257	#endif
andreikovacs	0:4eb2240dbd22	2258	(void)MLMESetChannelRequest(testChannel);
andreikovacs	0:4eb2240dbd22	2259	cstcState = gCsTcStateInit_c;
andreikovacs	0:4eb2240dbd22	2260	SelfNotificationEvent();
andreikovacs	0:4eb2240dbd22	2261	}
andreikovacs	0:4eb2240dbd22	2262	evDataFromUART = FALSE;
andreikovacs	0:4eb2240dbd22	2263	break;
andreikovacs	0:4eb2240dbd22	2264	}
andreikovacs	0:4eb2240dbd22	2265	}
andreikovacs	0:4eb2240dbd22	2266
andreikovacs	0:4eb2240dbd22	2267	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2268	*
andreikovacs	0:4eb2240dbd22	2269	* Auxiliary Functions
andreikovacs	0:4eb2240dbd22	2270	*
andreikovacs	0:4eb2240dbd22	2271	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2272
andreikovacs	0:4eb2240dbd22	2273	/**************************************************************************************/
andreikovacs	0:4eb2240dbd22	2274	void SetRadioRxOnNoTimeOut(void)
andreikovacs	0:4eb2240dbd22	2275	{
andreikovacs	0:4eb2240dbd22	2276	bRxDone = FALSE;
andreikovacs	0:4eb2240dbd22	2277	gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
andreikovacs	0:4eb2240dbd22	2278	(void)MLMERXEnableRequest(gAppRxPacket, 0);
andreikovacs	0:4eb2240dbd22	2279	}
andreikovacs	0:4eb2240dbd22	2280
andreikovacs	0:4eb2240dbd22	2281	/**************************************************************************************/
andreikovacs	0:4eb2240dbd22	2282	void PrintPerRxFinalLine(uint16_t u16Received, uint16_t u16Total)
andreikovacs	0:4eb2240dbd22	2283	{
andreikovacs	0:4eb2240dbd22	2284	uart.printf("Received ");
andreikovacs	0:4eb2240dbd22	2285	uart.printf("%d",(uint32_t)u16Received);
andreikovacs	0:4eb2240dbd22	2286	uart.printf(" of ");
andreikovacs	0:4eb2240dbd22	2287	uart.printf("%d",(uint32_t)u16Total);
andreikovacs	0:4eb2240dbd22	2288	uart.printf(" packets transmitted \r\n");
andreikovacs	0:4eb2240dbd22	2289	uart.printf("\r\n Press [enter] to go back to the Per Rx test menu");
andreikovacs	0:4eb2240dbd22	2290	}
andreikovacs	0:4eb2240dbd22	2291
andreikovacs	0:4eb2240dbd22	2292	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2293	*
andreikovacs	0:4eb2240dbd22	2294	*
andreikovacs	0:4eb2240dbd22	2295	* By employing this function, users can execute a test of the radio. Test mode
andreikovacs	0:4eb2240dbd22	2296	* implements the following:
andreikovacs	0:4eb2240dbd22	2297	* -PRBS9 Mode,
andreikovacs	0:4eb2240dbd22	2298	* -Force_idle,
andreikovacs	0:4eb2240dbd22	2299	* -Continuos TX without modulation,
andreikovacs	0:4eb2240dbd22	2300	* -Continuos TX with modulation.(0's,1's and PN patterns)
andreikovacs	0:4eb2240dbd22	2301	*
andreikovacs	0:4eb2240dbd22	2302	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2303	smacErrors_t TestMode
andreikovacs	0:4eb2240dbd22	2304	(
andreikovacs	0:4eb2240dbd22	2305	smacTestMode_t mode /IN: The test mode to start./
andreikovacs	0:4eb2240dbd22	2306	)
andreikovacs	0:4eb2240dbd22	2307	{
andreikovacs	0:4eb2240dbd22	2308	aspTestRequestMsg.msgType = aspMsgTypeTelecTest_c;
andreikovacs	0:4eb2240dbd22	2309
andreikovacs	0:4eb2240dbd22	2310	#if(TRUE == smacParametersValidation_d)
andreikovacs	0:4eb2240dbd22	2311	if(gMaxTestMode_c <= mode)
andreikovacs	0:4eb2240dbd22	2312	{
andreikovacs	0:4eb2240dbd22	2313	return gErrorOutOfRange_c;
andreikovacs	0:4eb2240dbd22	2314	}
andreikovacs	0:4eb2240dbd22	2315	#endif
andreikovacs	0:4eb2240dbd22	2316
andreikovacs	0:4eb2240dbd22	2317	if(gTestModeForceIdle_c == mode)
andreikovacs	0:4eb2240dbd22	2318	{
andreikovacs	0:4eb2240dbd22	2319	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestForceIdle_c;
andreikovacs	0:4eb2240dbd22	2320	}
andreikovacs	0:4eb2240dbd22	2321	else if(gTestModeContinuousTxModulated_c == mode)
andreikovacs	0:4eb2240dbd22	2322	{
andreikovacs	4:fb5e683a878c	2323	if(contTxModBitValue==gContTxModSelectOnes_c)
andreikovacs	0:4eb2240dbd22	2324	{
andreikovacs	4:fb5e683a878c	2325	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestContinuousTxNoModOne_c;
andreikovacs	0:4eb2240dbd22	2326	}
andreikovacs	0:4eb2240dbd22	2327	else if(contTxModBitValue == gContTxModSelectZeros_c)
andreikovacs	0:4eb2240dbd22	2328	{
andreikovacs	4:fb5e683a878c	2329	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestContinuousTxNoModZero_c;
andreikovacs	0:4eb2240dbd22	2330	}
andreikovacs	4:fb5e683a878c	2331	else if(contTxModBitValue == gContTxModSelectPN9_c)
andreikovacs	0:4eb2240dbd22	2332	{
andreikovacs	0:4eb2240dbd22	2333	#ifdef gPHY_802_15_4g_d
andreikovacs	0:4eb2240dbd22	2334	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestContinuousTxContPN9_c;
andreikovacs	0:4eb2240dbd22	2335	#else
andreikovacs	0:4eb2240dbd22	2336	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestPulseTxPrbs9_c;
andreikovacs	0:4eb2240dbd22	2337	#endif
andreikovacs	0:4eb2240dbd22	2338	}
andreikovacs	0:4eb2240dbd22	2339	}
andreikovacs	0:4eb2240dbd22	2340	else if(gTestModeContinuousTxUnmodulated_c == mode)
andreikovacs	0:4eb2240dbd22	2341	{
andreikovacs	0:4eb2240dbd22	2342	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestContinuousTxNoMod_c;
andreikovacs	0:4eb2240dbd22	2343	}
andreikovacs	0:4eb2240dbd22	2344	else if(gTestModeContinuousRxBER_c == mode)
andreikovacs	0:4eb2240dbd22	2345	{
andreikovacs	0:4eb2240dbd22	2346	aspTestRequestMsg.msgData.aspTelecTest.mode = gTestContinuousRx_c;
andreikovacs	0:4eb2240dbd22	2347	}
andreikovacs	0:4eb2240dbd22	2348	else if(gTestModePRBS9_c == mode)
andreikovacs	0:4eb2240dbd22	2349	{
andreikovacs	0:4eb2240dbd22	2350	/Set Data Mode/
andreikovacs	0:4eb2240dbd22	2351	gAppTxPacket->u8DataLength = gPrbs9BufferLength_c;
andreikovacs	0:4eb2240dbd22	2352	FLib_MemCpy(gAppTxPacket->smacPdu.smacPdu, u8Prbs9Buffer, gPrbs9BufferLength_c);
andreikovacs	0:4eb2240dbd22	2353	PacketHandler_Prbs9();
andreikovacs	0:4eb2240dbd22	2354	}
andreikovacs	0:4eb2240dbd22	2355	if(gTestModePRBS9_c != mode)
andreikovacs	0:4eb2240dbd22	2356	(void)APP_ASP_SapHandler(&aspTestRequestMsg, 0);
andreikovacs	0:4eb2240dbd22	2357
andreikovacs	0:4eb2240dbd22	2358	return gErrorNoError_c;
andreikovacs	0:4eb2240dbd22	2359	}
andreikovacs	0:4eb2240dbd22	2360
andreikovacs	0:4eb2240dbd22	2361	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2362	* PacketHandler_Prbs9
andreikovacs	0:4eb2240dbd22	2363	*
andreikovacs	0:4eb2240dbd22	2364	* This function sends OTA the content of a PRBS9 polynomial of 65 bytes of payload.
andreikovacs	0:4eb2240dbd22	2365	*
andreikovacs	0:4eb2240dbd22	2366	*
andreikovacs	0:4eb2240dbd22	2367	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2368
andreikovacs	0:4eb2240dbd22	2369	void PacketHandler_Prbs9(void)
andreikovacs	0:4eb2240dbd22	2370	{
andreikovacs	0:4eb2240dbd22	2371	smacErrors_t err;
andreikovacs	0:4eb2240dbd22	2372	/@CMA, Need to set Smac to Idle in order to get PRBS9 to work after a second try on the Conn Test menu/
andreikovacs	0:4eb2240dbd22	2373	(void)MLMERXDisableRequest();
andreikovacs	0:4eb2240dbd22	2374	(void)MLMETXDisableRequest();
andreikovacs	0:4eb2240dbd22	2375	err = MCPSDataRequest(gAppTxPacket);
andreikovacs	0:4eb2240dbd22	2376	if(err != gErrorNoError_c)
andreikovacs	0:4eb2240dbd22	2377	{
andreikovacs	0:4eb2240dbd22	2378	failedPRBS9 = TRUE;
andreikovacs	0:4eb2240dbd22	2379	SelfNotificationEvent(); //in case data isn't sent, no confirm event will fire.
andreikovacs	0:4eb2240dbd22	2380	//this way we need to make sure the application will not freeze.
andreikovacs	0:4eb2240dbd22	2381	}
andreikovacs	0:4eb2240dbd22	2382	}
andreikovacs	0:4eb2240dbd22	2383
andreikovacs	0:4eb2240dbd22	2384	/*****************************************************************************
andreikovacs	0:4eb2240dbd22	2385	* UartRxCallBack function
andreikovacs	0:4eb2240dbd22	2386	*
andreikovacs	0:4eb2240dbd22	2387	* Interface assumptions:
andreikovacs	0:4eb2240dbd22	2388	* This callback is triggered when a new byte is received over the UART
andreikovacs	0:4eb2240dbd22	2389	*
andreikovacs	0:4eb2240dbd22	2390	* Return Value:
andreikovacs	0:4eb2240dbd22	2391	* None
andreikovacs	0:4eb2240dbd22	2392	*****************************************************************************/
andreikovacs	2:aaffc5d91884	2393	void UartRxCallBack(void)
andreikovacs	0:4eb2240dbd22	2394	{
andreikovacs	0:4eb2240dbd22	2395	gu8UartData = uart.getc();
andreikovacs	0:4eb2240dbd22	2396	gTaskEventFlags \|= gUART_RX_EVENT_c;
andreikovacs	2:aaffc5d91884	2397	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	2398	}
andreikovacs	0:4eb2240dbd22	2399
andreikovacs	0:4eb2240dbd22	2400	/@CMA, Conn Test. Range Test CallBack/
andreikovacs	0:4eb2240dbd22	2401	void RangeTest_Timer_CallBack ()
andreikovacs	0:4eb2240dbd22	2402	{
andreikovacs	0:4eb2240dbd22	2403	gTaskEventFlags \|= gRangeTest_EVENT_c;
andreikovacs	2:aaffc5d91884	2404	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	2405	}
andreikovacs	0:4eb2240dbd22	2406
andreikovacs	0:4eb2240dbd22	2407
andreikovacs	0:4eb2240dbd22	2408
andreikovacs	0:4eb2240dbd22	2409	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2410	*
andreikovacs	0:4eb2240dbd22	2411	* Increments channel on the ED Confirm event and fires a new ED measurement request
andreikovacs	0:4eb2240dbd22	2412	*
andreikovacs	0:4eb2240dbd22	2413	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2414	void IncrementChannelOnEdEvent()
andreikovacs	0:4eb2240dbd22	2415	{
andreikovacs	0:4eb2240dbd22	2416	bScanDone = FALSE;
andreikovacs	0:4eb2240dbd22	2417	smacErrors_t err;
andreikovacs	0:4eb2240dbd22	2418	if (ChannelToScan <= gMaxChannel_c)
andreikovacs	0:4eb2240dbd22	2419	{
andreikovacs	0:4eb2240dbd22	2420	err = MLMEScanRequest((channels_t)ChannelToScan);
andreikovacs	0:4eb2240dbd22	2421	if(err == gErrorNoError_c)
andreikovacs	0:4eb2240dbd22	2422	ChannelToScan++; //Increment channel to scan
andreikovacs	0:4eb2240dbd22	2423	}
andreikovacs	0:4eb2240dbd22	2424	else
andreikovacs	0:4eb2240dbd22	2425	{
andreikovacs	0:4eb2240dbd22	2426	bScanDone = TRUE; //PRINT ALL CHANNEL RESULTS
andreikovacs	3:b9e209eca377	2427	FlaggedDelay_ms(300); //Add delay between channel scanning series.
andreikovacs	0:4eb2240dbd22	2428	}
andreikovacs	0:4eb2240dbd22	2429	}
andreikovacs	0:4eb2240dbd22	2430
andreikovacs	0:4eb2240dbd22	2431	/***********************************************************************
andreikovacs	0:4eb2240dbd22	2432	*******************Utilities Software******************************
andreikovacs	0:4eb2240dbd22	2433	************************************************************************/
andreikovacs	0:4eb2240dbd22	2434
andreikovacs	0:4eb2240dbd22	2435	bool_t stringComp(uint8_t * au8leftString, uint8_t * au8RightString, uint8_t bytesToCompare)
andreikovacs	0:4eb2240dbd22	2436	{
andreikovacs	0:4eb2240dbd22	2437	do
andreikovacs	0:4eb2240dbd22	2438	{
andreikovacs	0:4eb2240dbd22	2439	}while((au8leftString++ == au8RightString++) && --bytesToCompare);
andreikovacs	0:4eb2240dbd22	2440	return(0 == bytesToCompare);
andreikovacs	0:4eb2240dbd22	2441	}
andreikovacs	0:4eb2240dbd22	2442
andreikovacs	0:4eb2240dbd22	2443	uint32_t HexString2Dec(uint8_t* au8String)
andreikovacs	0:4eb2240dbd22	2444	{
andreikovacs	0:4eb2240dbd22	2445	uint8_t u8LocIndex=0;
andreikovacs	0:4eb2240dbd22	2446	uint8_t u8LocIndex2=0;
andreikovacs	0:4eb2240dbd22	2447	uint32_t u32DecValue = 0;
andreikovacs	0:4eb2240dbd22	2448
andreikovacs	0:4eb2240dbd22	2449	while(au8String[u8LocIndex]){
andreikovacs	0:4eb2240dbd22	2450	u8LocIndex++;
andreikovacs	0:4eb2240dbd22	2451	}
andreikovacs	0:4eb2240dbd22	2452
andreikovacs	0:4eb2240dbd22	2453	while(u8LocIndex--){
andreikovacs	0:4eb2240dbd22	2454	if((au8String[u8LocIndex] >= '0') && (au8String[u8LocIndex] <= '9'))
andreikovacs	0:4eb2240dbd22	2455	u32DecValue \|= ((uint32_t)(au8String[u8LocIndex] - '0'))<<(u8LocIndex2*4);
andreikovacs	0:4eb2240dbd22	2456	else if((au8String[u8LocIndex] >= 'A') && (au8String[u8LocIndex] <= 'F')){
andreikovacs	0:4eb2240dbd22	2457	u32DecValue \|= ((uint32_t)(au8String[u8LocIndex] - 'A' + 0x0A))<<(u8LocIndex2*4);
andreikovacs	0:4eb2240dbd22	2458	}else{
andreikovacs	0:4eb2240dbd22	2459	u32DecValue \|= ((uint32_t)(au8String[u8LocIndex] - 'a' + 0x0A))<<(u8LocIndex2*4);
andreikovacs	0:4eb2240dbd22	2460	}
andreikovacs	0:4eb2240dbd22	2461	u8LocIndex2++;
andreikovacs	0:4eb2240dbd22	2462	}
andreikovacs	0:4eb2240dbd22	2463
andreikovacs	0:4eb2240dbd22	2464	return u32DecValue;
andreikovacs	0:4eb2240dbd22	2465	}
andreikovacs	0:4eb2240dbd22	2466
andreikovacs	0:4eb2240dbd22	2467	static void DelayTimeElapsed()
andreikovacs	0:4eb2240dbd22	2468	{
andreikovacs	0:4eb2240dbd22	2469	timePassed = TRUE;
andreikovacs	0:4eb2240dbd22	2470	gTaskEventFlags \|= gTimePassed_EVENT_c;
andreikovacs	2:aaffc5d91884	2471	mainTask->signal_set(gEventsAny_c);
andreikovacs	0:4eb2240dbd22	2472	}
andreikovacs	0:4eb2240dbd22	2473
andreikovacs	0:4eb2240dbd22	2474	/***********************************************************************************
andreikovacs	0:4eb2240dbd22	2475	*
andreikovacs	0:4eb2240dbd22	2476	* PrintMenu
andreikovacs	0:4eb2240dbd22	2477	*
andreikovacs	0:4eb2240dbd22	2478	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2479	void PrintMenu(char * const pu8Menu[], uint8_t port)
andreikovacs	0:4eb2240dbd22	2480	{
andreikovacs	0:4eb2240dbd22	2481	uint8_t u8Index = 0;
andreikovacs	0:4eb2240dbd22	2482	(void)port;
andreikovacs	0:4eb2240dbd22	2483	while(pu8Menu[u8Index]){
andreikovacs	0:4eb2240dbd22	2484	uart.printf(pu8Menu[u8Index]);
andreikovacs	0:4eb2240dbd22	2485	u8Index++;
andreikovacs	0:4eb2240dbd22	2486	}
andreikovacs	0:4eb2240dbd22	2487	}
andreikovacs	0:4eb2240dbd22	2488
andreikovacs	0:4eb2240dbd22	2489	/***********************************************************************
andreikovacs	0:4eb2240dbd22	2490	************************************************************************/
andreikovacs	0:4eb2240dbd22	2491
andreikovacs	0:4eb2240dbd22	2492	/************************************************************************************
andreikovacs	0:4eb2240dbd22	2493	*
andreikovacs	0:4eb2240dbd22	2494	* PrintTestParameters
andreikovacs	0:4eb2240dbd22	2495	*
andreikovacs	0:4eb2240dbd22	2496	************************************************************************************/
andreikovacs	0:4eb2240dbd22	2497	void PrintTestParameters(bool_t bEraseLine)
andreikovacs	0:4eb2240dbd22	2498	{
andreikovacs	0:4eb2240dbd22	2499	uint8_t u8lineLen = 63;
andreikovacs	0:4eb2240dbd22	2500	uint8_t u8Index;
andreikovacs	0:4eb2240dbd22	2501
andreikovacs	0:4eb2240dbd22	2502	if(bEraseLine)
andreikovacs	0:4eb2240dbd22	2503	{
andreikovacs	0:4eb2240dbd22	2504	for(u8Index = 0;u8Index<u8lineLen;u8Index++)
andreikovacs	0:4eb2240dbd22	2505	{
andreikovacs	0:4eb2240dbd22	2506	uart.printf("\b");
andreikovacs	0:4eb2240dbd22	2507	}
andreikovacs	0:4eb2240dbd22	2508	}
andreikovacs	0:4eb2240dbd22	2509
andreikovacs	0:4eb2240dbd22	2510	uart.printf("Mode ");
andreikovacs	0:4eb2240dbd22	2511	if(mTxOperation_c == testOpMode)
andreikovacs	0:4eb2240dbd22	2512	{
andreikovacs	0:4eb2240dbd22	2513	uart.printf("Tx");
andreikovacs	0:4eb2240dbd22	2514	}
andreikovacs	0:4eb2240dbd22	2515	else
andreikovacs	0:4eb2240dbd22	2516	{
andreikovacs	0:4eb2240dbd22	2517	uart.printf("Rx");
andreikovacs	0:4eb2240dbd22	2518	}
andreikovacs	0:4eb2240dbd22	2519	uart.printf(", Channel ");
andreikovacs	0:4eb2240dbd22	2520	uart.printf("%d", (uint32_t)testChannel);
andreikovacs	0:4eb2240dbd22	2521	uart.printf(", Power ");
andreikovacs	0:4eb2240dbd22	2522	uart.printf("%d",(uint32_t)testPower);
andreikovacs	0:4eb2240dbd22	2523	uart.printf(", Payload ");
andreikovacs	0:4eb2240dbd22	2524	uart.printf("%d", (uint32_t)testPayloadLen);
andreikovacs	0:4eb2240dbd22	2525	uart.printf(", CCA Thresh ");
andreikovacs	0:4eb2240dbd22	2526	if(ccaThresh != 0)
andreikovacs	0:4eb2240dbd22	2527	{
andreikovacs	0:4eb2240dbd22	2528	uart.printf("-");
andreikovacs	0:4eb2240dbd22	2529	}
andreikovacs	0:4eb2240dbd22	2530	uart.printf("%d", (uint32_t)ccaThresh);
andreikovacs	0:4eb2240dbd22	2531	uart.printf("dBm");
andreikovacs	0:4eb2240dbd22	2532	uart.printf(" >");
andreikovacs	0:4eb2240dbd22	2533	}
andreikovacs	0:4eb2240dbd22	2534	/*****************************************************************************/
andreikovacs	0:4eb2240dbd22	2535
andreikovacs	4:fb5e683a878c	2536	void uart_task(void const *args)
andreikovacs	4:fb5e683a878c	2537	{
andreikovacs	4:fb5e683a878c	2538	while(1)
andreikovacs	4:fb5e683a878c	2539	{
andreikovacs	4:fb5e683a878c	2540	if(uart.readable())
andreikovacs	4:fb5e683a878c	2541	{
andreikovacs	4:fb5e683a878c	2542	UartRxCallBack();
andreikovacs	4:fb5e683a878c	2543	}
andreikovacs	4:fb5e683a878c	2544	}
andreikovacs	4:fb5e683a878c	2545	}
andreikovacs	4:fb5e683a878c	2546
andreikovacs	0:4eb2240dbd22	2547	int main()
andreikovacs	0:4eb2240dbd22	2548	{
andreikovacs	0:4eb2240dbd22	2549	mainTask = new Thread(main_task);
andreikovacs	4:fb5e683a878c	2550	uartTask = new Thread(uart_task);
andreikovacs	0:4eb2240dbd22	2551	while(1)
andreikovacs	0:4eb2240dbd22	2552	{
andreikovacs	5:ad78d222bbcd	2553
andreikovacs	0:4eb2240dbd22	2554	}
andreikovacs	0:4eb2240dbd22	2555	return 0;
andreikovacs	0:4eb2240dbd22	2556	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	04 Apr 2016
Imports:	85
Forks:	0
Commits:	8
Dependents:	0
Dependencies:	4
Followers:	88