firmware - firmware update from USB stick, does not work pro…

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Markus Paar / Mbed 2 deprecated firmware

firmware update from USB stick, does not work properly. If someone can get it work, please inform me.

USBHostLite/usbhost_lpc17xx.c@0:dad421e28e26, 2011-04-01 (annotated)

Committer:: Markus_Paar
Date:: Fri Apr 01 07:51:52 2011 +0000
Revision:: 0:dad421e28e26

0.1

Who changed what in which revision?

User	Revision	Line number	New contents of line
Markus_Paar	0:dad421e28e26	1	/*
Markus_Paar	0:dad421e28e26	2	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	3	* NXP USB Host Stack
Markus_Paar	0:dad421e28e26	4	*
Markus_Paar	0:dad421e28e26	5	* (c) Copyright 2008, NXP SemiConductors
Markus_Paar	0:dad421e28e26	6	* (c) Copyright 2008, OnChip Technologies LLC
Markus_Paar	0:dad421e28e26	7	* All Rights Reserved
Markus_Paar	0:dad421e28e26	8	*
Markus_Paar	0:dad421e28e26	9	* www.nxp.com
Markus_Paar	0:dad421e28e26	10	* www.onchiptech.com
Markus_Paar	0:dad421e28e26	11	*
Markus_Paar	0:dad421e28e26	12	* File : usbhost_lpc17xx.c
Markus_Paar	0:dad421e28e26	13	* Programmer(s) : Ravikanth.P
Markus_Paar	0:dad421e28e26	14	* Version :
Markus_Paar	0:dad421e28e26	15	*
Markus_Paar	0:dad421e28e26	16	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	17	*/
Markus_Paar	0:dad421e28e26	18
Markus_Paar	0:dad421e28e26	19	/*
Markus_Paar	0:dad421e28e26	20	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	21	* INCLUDE HEADER FILES
Markus_Paar	0:dad421e28e26	22	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	23	*/
Markus_Paar	0:dad421e28e26	24
Markus_Paar	0:dad421e28e26	25	#include "usbhost_lpc17xx.h"
Markus_Paar	0:dad421e28e26	26
Markus_Paar	0:dad421e28e26	27	/*
Markus_Paar	0:dad421e28e26	28	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	29	* GLOBAL VARIABLES
Markus_Paar	0:dad421e28e26	30	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	31	*/
Markus_Paar	0:dad421e28e26	32	int gUSBConnected;
Markus_Paar	0:dad421e28e26	33
Markus_Paar	0:dad421e28e26	34	volatile USB_INT32U HOST_RhscIntr = 0; /* Root Hub Status Change interrupt */
Markus_Paar	0:dad421e28e26	35	volatile USB_INT32U HOST_WdhIntr = 0; /* Semaphore to wait until the TD is submitted */
Markus_Paar	0:dad421e28e26	36	volatile USB_INT08U HOST_TDControlStatus = 0;
Markus_Paar	0:dad421e28e26	37	volatile HCED EDCtrl; / Control endpoint descriptor structure */
Markus_Paar	0:dad421e28e26	38	volatile HCED EDBulkIn; / BulkIn endpoint descriptor structure */
Markus_Paar	0:dad421e28e26	39	volatile HCED EDBulkOut; / BulkOut endpoint descriptor structure */
Markus_Paar	0:dad421e28e26	40	volatile HCTD TDHead; / Head transfer descriptor structure */
Markus_Paar	0:dad421e28e26	41	volatile HCTD TDTail; / Tail transfer descriptor structure */
Markus_Paar	0:dad421e28e26	42	volatile HCCA Hcca; / Host Controller Communications Area structure */
Markus_Paar	0:dad421e28e26	43	USB_INT16U TDBufNonVol; / Identical to TDBuffer just to reduce compiler warnings */
Markus_Paar	0:dad421e28e26	44	volatile USB_INT08U TDBuffer; / Current Buffer Pointer of transfer descriptor */
Markus_Paar	0:dad421e28e26	45
Markus_Paar	0:dad421e28e26	46	// USB host structures
Markus_Paar	0:dad421e28e26	47	// AHB SRAM block 1
Markus_Paar	0:dad421e28e26	48	#define HOSTBASEADDR 0x2007C000
Markus_Paar	0:dad421e28e26	49	// reserve memory for the linker
Markus_Paar	0:dad421e28e26	50	static USB_INT08U HostBuf[0x200] __attribute__((at(HOSTBASEADDR)));
Markus_Paar	0:dad421e28e26	51	/*
Markus_Paar	0:dad421e28e26	52	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	53	* DELAY IN MILLI SECONDS
Markus_Paar	0:dad421e28e26	54	*
Markus_Paar	0:dad421e28e26	55	* Description: This function provides a delay in milli seconds
Markus_Paar	0:dad421e28e26	56	*
Markus_Paar	0:dad421e28e26	57	* Arguments : delay The delay required
Markus_Paar	0:dad421e28e26	58	*
Markus_Paar	0:dad421e28e26	59	* Returns : None
Markus_Paar	0:dad421e28e26	60	*
Markus_Paar	0:dad421e28e26	61	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	62	*/
Markus_Paar	0:dad421e28e26	63
Markus_Paar	0:dad421e28e26	64	void Host_DelayMS (USB_INT32U delay)
Markus_Paar	0:dad421e28e26	65	{
Markus_Paar	0:dad421e28e26	66	volatile USB_INT32U i;
Markus_Paar	0:dad421e28e26	67
Markus_Paar	0:dad421e28e26	68
Markus_Paar	0:dad421e28e26	69	for (i = 0; i < delay; i++) {
Markus_Paar	0:dad421e28e26	70	Host_DelayUS(1000);
Markus_Paar	0:dad421e28e26	71	}
Markus_Paar	0:dad421e28e26	72	}
Markus_Paar	0:dad421e28e26	73
Markus_Paar	0:dad421e28e26	74	/*
Markus_Paar	0:dad421e28e26	75	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	76	* DELAY IN MICRO SECONDS
Markus_Paar	0:dad421e28e26	77	*
Markus_Paar	0:dad421e28e26	78	* Description: This function provides a delay in micro seconds
Markus_Paar	0:dad421e28e26	79	*
Markus_Paar	0:dad421e28e26	80	* Arguments : delay The delay required
Markus_Paar	0:dad421e28e26	81	*
Markus_Paar	0:dad421e28e26	82	* Returns : None
Markus_Paar	0:dad421e28e26	83	*
Markus_Paar	0:dad421e28e26	84	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	85	*/
Markus_Paar	0:dad421e28e26	86
Markus_Paar	0:dad421e28e26	87	void Host_DelayUS (USB_INT32U delay)
Markus_Paar	0:dad421e28e26	88	{
Markus_Paar	0:dad421e28e26	89	volatile USB_INT32U i;
Markus_Paar	0:dad421e28e26	90
Markus_Paar	0:dad421e28e26	91
Markus_Paar	0:dad421e28e26	92	for (i = 0; i < (4 * delay); i++) { /* This logic was tested. It gives app. 1 micro sec delay */
Markus_Paar	0:dad421e28e26	93	;
Markus_Paar	0:dad421e28e26	94	}
Markus_Paar	0:dad421e28e26	95	}
Markus_Paar	0:dad421e28e26	96
Markus_Paar	0:dad421e28e26	97	// bits of the USB/OTG clock control register
Markus_Paar	0:dad421e28e26	98	#define HOST_CLK_EN (1<<0)
Markus_Paar	0:dad421e28e26	99	#define DEV_CLK_EN (1<<1)
Markus_Paar	0:dad421e28e26	100	#define PORTSEL_CLK_EN (1<<3)
Markus_Paar	0:dad421e28e26	101	#define AHB_CLK_EN (1<<4)
Markus_Paar	0:dad421e28e26	102
Markus_Paar	0:dad421e28e26	103	// bits of the USB/OTG clock status register
Markus_Paar	0:dad421e28e26	104	#define HOST_CLK_ON (1<<0)
Markus_Paar	0:dad421e28e26	105	#define DEV_CLK_ON (1<<1)
Markus_Paar	0:dad421e28e26	106	#define PORTSEL_CLK_ON (1<<3)
Markus_Paar	0:dad421e28e26	107	#define AHB_CLK_ON (1<<4)
Markus_Paar	0:dad421e28e26	108
Markus_Paar	0:dad421e28e26	109	// we need host clock, OTG/portsel clock and AHB clock
Markus_Paar	0:dad421e28e26	110	#define CLOCK_MASK (HOST_CLK_EN \| PORTSEL_CLK_EN \| AHB_CLK_EN)
Markus_Paar	0:dad421e28e26	111
Markus_Paar	0:dad421e28e26	112	/*
Markus_Paar	0:dad421e28e26	113	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	114	* INITIALIZE THE HOST CONTROLLER
Markus_Paar	0:dad421e28e26	115	*
Markus_Paar	0:dad421e28e26	116	* Description: This function initializes lpc17xx host controller
Markus_Paar	0:dad421e28e26	117	*
Markus_Paar	0:dad421e28e26	118	* Arguments : None
Markus_Paar	0:dad421e28e26	119	*
Markus_Paar	0:dad421e28e26	120	* Returns :
Markus_Paar	0:dad421e28e26	121	*
Markus_Paar	0:dad421e28e26	122	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	123	*/
Markus_Paar	0:dad421e28e26	124	void Host_Init (void)
Markus_Paar	0:dad421e28e26	125	{
Markus_Paar	0:dad421e28e26	126	PRINT_Log("In Host_Init\n");
Markus_Paar	0:dad421e28e26	127	NVIC_DisableIRQ(USB_IRQn); /* Disable the USB interrupt source */
Markus_Paar	0:dad421e28e26	128
Markus_Paar	0:dad421e28e26	129	// turn on power for USB
Markus_Paar	0:dad421e28e26	130	LPC_SC->PCONP \|= (1UL<<31);
Markus_Paar	0:dad421e28e26	131	// Enable USB host clock, port selection and AHB clock
Markus_Paar	0:dad421e28e26	132	LPC_USB->USBClkCtrl \|= CLOCK_MASK;
Markus_Paar	0:dad421e28e26	133	// Wait for clocks to become available
Markus_Paar	0:dad421e28e26	134	while ((LPC_USB->USBClkSt & CLOCK_MASK) != CLOCK_MASK)
Markus_Paar	0:dad421e28e26	135	;
Markus_Paar	0:dad421e28e26	136
Markus_Paar	0:dad421e28e26	137	// it seems the bits[0:1] mean the following
Markus_Paar	0:dad421e28e26	138	// 0: U1=device, U2=host
Markus_Paar	0:dad421e28e26	139	// 1: U1=host, U2=host
Markus_Paar	0:dad421e28e26	140	// 2: reserved
Markus_Paar	0:dad421e28e26	141	// 3: U1=host, U2=device
Markus_Paar	0:dad421e28e26	142	// NB: this register is only available if OTG clock (aka "port select") is enabled!!
Markus_Paar	0:dad421e28e26	143	// since we don't care about port 2, set just bit 0 to 1 (U1=host)
Markus_Paar	0:dad421e28e26	144	LPC_USB->OTGStCtrl \|= 1;
Markus_Paar	0:dad421e28e26	145
Markus_Paar	0:dad421e28e26	146	// now that we've configured the ports, we can turn off the portsel clock
Markus_Paar	0:dad421e28e26	147	LPC_USB->USBClkCtrl &= ~PORTSEL_CLK_EN;
Markus_Paar	0:dad421e28e26	148
Markus_Paar	0:dad421e28e26	149	// power pins are not connected on mbed, so we can skip them
Markus_Paar	0:dad421e28e26	150	/* P1[18] = USB_UP_LED, 01 */
Markus_Paar	0:dad421e28e26	151	/* P1[19] = /USB_PPWR, 10 */
Markus_Paar	0:dad421e28e26	152	/* P1[22] = USB_PWRD, 10 */
Markus_Paar	0:dad421e28e26	153	/* P1[27] = /USB_OVRCR, 10 */
Markus_Paar	0:dad421e28e26	154	/*LPC_PINCON->PINSEL3 &= ~((3<<4) \| (3<<6) \| (3<<12) \| (3<<22));
Markus_Paar	0:dad421e28e26	155	LPC_PINCON->PINSEL3 \|= ((1<<4)\|(2<<6) \| (2<<12) \| (2<<22)); // 0x00802080
Markus_Paar	0:dad421e28e26	156	*/
Markus_Paar	0:dad421e28e26	157
Markus_Paar	0:dad421e28e26	158	// configure USB D+/D- pins
Markus_Paar	0:dad421e28e26	159	/* P0[29] = USB_D+, 01 */
Markus_Paar	0:dad421e28e26	160	/* P0[30] = USB_D-, 01 */
Markus_Paar	0:dad421e28e26	161	LPC_PINCON->PINSEL1 &= ~((3<<26) \| (3<<28));
Markus_Paar	0:dad421e28e26	162	LPC_PINCON->PINSEL1 \|= ((1<<26)\|(1<<28)); // 0x14000000
Markus_Paar	0:dad421e28e26	163
Markus_Paar	0:dad421e28e26	164	PRINT_Log("Initializing Host Stack\n");
Markus_Paar	0:dad421e28e26	165
Markus_Paar	0:dad421e28e26	166	Hcca = (volatile HCCA *)(HostBuf+0x000);
Markus_Paar	0:dad421e28e26	167	TDHead = (volatile HCTD *)(HostBuf+0x100);
Markus_Paar	0:dad421e28e26	168	TDTail = (volatile HCTD *)(HostBuf+0x110);
Markus_Paar	0:dad421e28e26	169	EDCtrl = (volatile HCED *)(HostBuf+0x120);
Markus_Paar	0:dad421e28e26	170	EDBulkIn = (volatile HCED *)(HostBuf+0x130);
Markus_Paar	0:dad421e28e26	171	EDBulkOut = (volatile HCED *)(HostBuf+0x140);
Markus_Paar	0:dad421e28e26	172	TDBuffer = (volatile USB_INT08U *)(HostBuf+0x150);
Markus_Paar	0:dad421e28e26	173
Markus_Paar	0:dad421e28e26	174	/* Initialize all the TDs, EDs and HCCA to 0 */
Markus_Paar	0:dad421e28e26	175	Host_EDInit(EDCtrl);
Markus_Paar	0:dad421e28e26	176	Host_EDInit(EDBulkIn);
Markus_Paar	0:dad421e28e26	177	Host_EDInit(EDBulkOut);
Markus_Paar	0:dad421e28e26	178	Host_TDInit(TDHead);
Markus_Paar	0:dad421e28e26	179	Host_TDInit(TDTail);
Markus_Paar	0:dad421e28e26	180	Host_HCCAInit(Hcca);
Markus_Paar	0:dad421e28e26	181
Markus_Paar	0:dad421e28e26	182	Host_DelayMS(50); /* Wait 50 ms before apply reset */
Markus_Paar	0:dad421e28e26	183	LPC_USB->HcControl = 0; /* HARDWARE RESET */
Markus_Paar	0:dad421e28e26	184	LPC_USB->HcControlHeadED = 0; /* Initialize Control list head to Zero */
Markus_Paar	0:dad421e28e26	185	LPC_USB->HcBulkHeadED = 0; /* Initialize Bulk list head to Zero */
Markus_Paar	0:dad421e28e26	186
Markus_Paar	0:dad421e28e26	187	/* SOFTWARE RESET */
Markus_Paar	0:dad421e28e26	188	LPC_USB->HcCommandStatus = OR_CMD_STATUS_HCR;
Markus_Paar	0:dad421e28e26	189	LPC_USB->HcFmInterval = DEFAULT_FMINTERVAL; /* Write Fm Interval and Largest Data Packet Counter */
Markus_Paar	0:dad421e28e26	190
Markus_Paar	0:dad421e28e26	191	/* Put HC in operational state */
Markus_Paar	0:dad421e28e26	192	LPC_USB->HcControl = (LPC_USB->HcControl & (~OR_CONTROL_HCFS)) \| OR_CONTROL_HC_OPER;
Markus_Paar	0:dad421e28e26	193	LPC_USB->HcRhStatus = OR_RH_STATUS_LPSC; /* Set Global Power */
Markus_Paar	0:dad421e28e26	194
Markus_Paar	0:dad421e28e26	195	LPC_USB->HcHCCA = (USB_INT32U)Hcca;
Markus_Paar	0:dad421e28e26	196	LPC_USB->HcInterruptStatus \|= LPC_USB->HcInterruptStatus; /* Clear Interrrupt Status */
Markus_Paar	0:dad421e28e26	197
Markus_Paar	0:dad421e28e26	198
Markus_Paar	0:dad421e28e26	199	LPC_USB->HcInterruptEnable = OR_INTR_ENABLE_MIE \|
Markus_Paar	0:dad421e28e26	200	OR_INTR_ENABLE_WDH \|
Markus_Paar	0:dad421e28e26	201	OR_INTR_ENABLE_RHSC;
Markus_Paar	0:dad421e28e26	202
Markus_Paar	0:dad421e28e26	203	NVIC_SetPriority(USB_IRQn, 0); /* highest priority */
Markus_Paar	0:dad421e28e26	204	/* Enable the USB Interrupt */
Markus_Paar	0:dad421e28e26	205	NVIC_EnableIRQ(USB_IRQn);
Markus_Paar	0:dad421e28e26	206	PRINT_Log("Host Initialized\n");
Markus_Paar	0:dad421e28e26	207	}
Markus_Paar	0:dad421e28e26	208
Markus_Paar	0:dad421e28e26	209	/*
Markus_Paar	0:dad421e28e26	210	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	211	* INTERRUPT SERVICE ROUTINE
Markus_Paar	0:dad421e28e26	212	*
Markus_Paar	0:dad421e28e26	213	* Description: This function services the interrupt caused by host controller
Markus_Paar	0:dad421e28e26	214	*
Markus_Paar	0:dad421e28e26	215	* Arguments : None
Markus_Paar	0:dad421e28e26	216	*
Markus_Paar	0:dad421e28e26	217	* Returns : None
Markus_Paar	0:dad421e28e26	218	*
Markus_Paar	0:dad421e28e26	219	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	220	*/
Markus_Paar	0:dad421e28e26	221
Markus_Paar	0:dad421e28e26	222	void USB_IRQHandler (void) __irq
Markus_Paar	0:dad421e28e26	223	{
Markus_Paar	0:dad421e28e26	224	USB_INT32U int_status;
Markus_Paar	0:dad421e28e26	225	USB_INT32U ie_status;
Markus_Paar	0:dad421e28e26	226
Markus_Paar	0:dad421e28e26	227	int_status = LPC_USB->HcInterruptStatus; /* Read Interrupt Status */
Markus_Paar	0:dad421e28e26	228	ie_status = LPC_USB->HcInterruptEnable; /* Read Interrupt enable status */
Markus_Paar	0:dad421e28e26	229
Markus_Paar	0:dad421e28e26	230	if (!(int_status & ie_status)) {
Markus_Paar	0:dad421e28e26	231	return;
Markus_Paar	0:dad421e28e26	232	} else {
Markus_Paar	0:dad421e28e26	233
Markus_Paar	0:dad421e28e26	234	int_status = int_status & ie_status;
Markus_Paar	0:dad421e28e26	235	if (int_status & OR_INTR_STATUS_RHSC) { /* Root hub status change interrupt */
Markus_Paar	0:dad421e28e26	236	if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_CSC) {
Markus_Paar	0:dad421e28e26	237	if (LPC_USB->HcRhStatus & OR_RH_STATUS_DRWE) {
Markus_Paar	0:dad421e28e26	238	/*
Markus_Paar	0:dad421e28e26	239	* When DRWE is on, Connect Status Change
Markus_Paar	0:dad421e28e26	240	* means a remote wakeup event.
Markus_Paar	0:dad421e28e26	241	*/
Markus_Paar	0:dad421e28e26	242	HOST_RhscIntr = 1;// JUST SOMETHING FOR A BREAKPOINT
Markus_Paar	0:dad421e28e26	243	}
Markus_Paar	0:dad421e28e26	244	else {
Markus_Paar	0:dad421e28e26	245	/*
Markus_Paar	0:dad421e28e26	246	* When DRWE is off, Connect Status Change
Markus_Paar	0:dad421e28e26	247	* is NOT a remote wakeup event
Markus_Paar	0:dad421e28e26	248	*/
Markus_Paar	0:dad421e28e26	249	if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_CCS) {
Markus_Paar	0:dad421e28e26	250	if (!gUSBConnected) {
Markus_Paar	0:dad421e28e26	251	HOST_TDControlStatus = 0;
Markus_Paar	0:dad421e28e26	252	HOST_WdhIntr = 0;
Markus_Paar	0:dad421e28e26	253	HOST_RhscIntr = 1;
Markus_Paar	0:dad421e28e26	254	gUSBConnected = 1;
Markus_Paar	0:dad421e28e26	255	}
Markus_Paar	0:dad421e28e26	256	else
Markus_Paar	0:dad421e28e26	257	PRINT_Log("Spurious status change (connected)?\n");
Markus_Paar	0:dad421e28e26	258	} else {
Markus_Paar	0:dad421e28e26	259	if (gUSBConnected) {
Markus_Paar	0:dad421e28e26	260	LPC_USB->HcInterruptEnable = 0; // why do we get multiple disc. rupts???
Markus_Paar	0:dad421e28e26	261	HOST_RhscIntr = 0;
Markus_Paar	0:dad421e28e26	262	gUSBConnected = 0;
Markus_Paar	0:dad421e28e26	263	}
Markus_Paar	0:dad421e28e26	264	else
Markus_Paar	0:dad421e28e26	265	PRINT_Log("Spurious status change (disconnected)?\n");
Markus_Paar	0:dad421e28e26	266	}
Markus_Paar	0:dad421e28e26	267	}
Markus_Paar	0:dad421e28e26	268	LPC_USB->HcRhPortStatus1 = OR_RH_PORT_CSC;
Markus_Paar	0:dad421e28e26	269	}
Markus_Paar	0:dad421e28e26	270	if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_PRSC) {
Markus_Paar	0:dad421e28e26	271	LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRSC;
Markus_Paar	0:dad421e28e26	272	}
Markus_Paar	0:dad421e28e26	273	}
Markus_Paar	0:dad421e28e26	274	if (int_status & OR_INTR_STATUS_WDH) { /* Writeback Done Head interrupt */
Markus_Paar	0:dad421e28e26	275	HOST_WdhIntr = 1;
Markus_Paar	0:dad421e28e26	276	HOST_TDControlStatus = (TDHead->Control >> 28) & 0xf;
Markus_Paar	0:dad421e28e26	277	}
Markus_Paar	0:dad421e28e26	278	LPC_USB->HcInterruptStatus = int_status; /* Clear interrupt status register */
Markus_Paar	0:dad421e28e26	279	}
Markus_Paar	0:dad421e28e26	280	return;
Markus_Paar	0:dad421e28e26	281	}
Markus_Paar	0:dad421e28e26	282
Markus_Paar	0:dad421e28e26	283	/*
Markus_Paar	0:dad421e28e26	284	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	285	* PROCESS TRANSFER DESCRIPTOR
Markus_Paar	0:dad421e28e26	286	*
Markus_Paar	0:dad421e28e26	287	* Description: This function processes the transfer descriptor
Markus_Paar	0:dad421e28e26	288	*
Markus_Paar	0:dad421e28e26	289	* Arguments : ed Endpoint descriptor that contains this transfer descriptor
Markus_Paar	0:dad421e28e26	290	* token SETUP, IN, OUT
Markus_Paar	0:dad421e28e26	291	* buffer Current Buffer Pointer of the transfer descriptor
Markus_Paar	0:dad421e28e26	292	* buffer_len Length of the buffer
Markus_Paar	0:dad421e28e26	293	*
Markus_Paar	0:dad421e28e26	294	* Returns : OK if TD submission is successful
Markus_Paar	0:dad421e28e26	295	* ERROR if TD submission fails
Markus_Paar	0:dad421e28e26	296	*
Markus_Paar	0:dad421e28e26	297	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	298	*/
Markus_Paar	0:dad421e28e26	299
Markus_Paar	0:dad421e28e26	300	USB_INT32S Host_ProcessTD (volatile HCED *ed,
Markus_Paar	0:dad421e28e26	301	volatile USB_INT32U token,
Markus_Paar	0:dad421e28e26	302	volatile USB_INT08U *buffer,
Markus_Paar	0:dad421e28e26	303	USB_INT32U buffer_len)
Markus_Paar	0:dad421e28e26	304	{
Markus_Paar	0:dad421e28e26	305	volatile USB_INT32U td_toggle;
Markus_Paar	0:dad421e28e26	306
Markus_Paar	0:dad421e28e26	307
Markus_Paar	0:dad421e28e26	308	if (ed == EDCtrl) {
Markus_Paar	0:dad421e28e26	309	if (token == TD_SETUP) {
Markus_Paar	0:dad421e28e26	310	td_toggle = TD_TOGGLE_0;
Markus_Paar	0:dad421e28e26	311	} else {
Markus_Paar	0:dad421e28e26	312	td_toggle = TD_TOGGLE_1;
Markus_Paar	0:dad421e28e26	313	}
Markus_Paar	0:dad421e28e26	314	} else {
Markus_Paar	0:dad421e28e26	315	td_toggle = 0;
Markus_Paar	0:dad421e28e26	316	}
Markus_Paar	0:dad421e28e26	317	TDHead->Control = (TD_ROUNDING \|
Markus_Paar	0:dad421e28e26	318	token \|
Markus_Paar	0:dad421e28e26	319	TD_DELAY_INT(0) \|
Markus_Paar	0:dad421e28e26	320	td_toggle \|
Markus_Paar	0:dad421e28e26	321	TD_CC);
Markus_Paar	0:dad421e28e26	322	TDTail->Control = 0;
Markus_Paar	0:dad421e28e26	323	TDHead->CurrBufPtr = (USB_INT32U) buffer;
Markus_Paar	0:dad421e28e26	324	TDTail->CurrBufPtr = 0;
Markus_Paar	0:dad421e28e26	325	TDHead->Next = (USB_INT32U) TDTail;
Markus_Paar	0:dad421e28e26	326	TDTail->Next = 0;
Markus_Paar	0:dad421e28e26	327	TDHead->BufEnd = (USB_INT32U)(buffer + (buffer_len - 1));
Markus_Paar	0:dad421e28e26	328	TDTail->BufEnd = 0;
Markus_Paar	0:dad421e28e26	329
Markus_Paar	0:dad421e28e26	330	ed->HeadTd = (USB_INT32U)TDHead \| ((ed->HeadTd) & 0x00000002);
Markus_Paar	0:dad421e28e26	331	ed->TailTd = (USB_INT32U)TDTail;
Markus_Paar	0:dad421e28e26	332	ed->Next = 0;
Markus_Paar	0:dad421e28e26	333
Markus_Paar	0:dad421e28e26	334	if (ed == EDCtrl) {
Markus_Paar	0:dad421e28e26	335	LPC_USB->HcControlHeadED = (USB_INT32U)ed;
Markus_Paar	0:dad421e28e26	336	LPC_USB->HcCommandStatus = LPC_USB->HcCommandStatus \| OR_CMD_STATUS_CLF;
Markus_Paar	0:dad421e28e26	337	LPC_USB->HcControl = LPC_USB->HcControl \| OR_CONTROL_CLE;
Markus_Paar	0:dad421e28e26	338	} else {
Markus_Paar	0:dad421e28e26	339	LPC_USB->HcBulkHeadED = (USB_INT32U)ed;
Markus_Paar	0:dad421e28e26	340	LPC_USB->HcCommandStatus = LPC_USB->HcCommandStatus \| OR_CMD_STATUS_BLF;
Markus_Paar	0:dad421e28e26	341	LPC_USB->HcControl = LPC_USB->HcControl \| OR_CONTROL_BLE;
Markus_Paar	0:dad421e28e26	342	}
Markus_Paar	0:dad421e28e26	343
Markus_Paar	0:dad421e28e26	344	Host_WDHWait();
Markus_Paar	0:dad421e28e26	345
Markus_Paar	0:dad421e28e26	346	// if (!(TDHead->Control & 0xF0000000)) {
Markus_Paar	0:dad421e28e26	347	if (!HOST_TDControlStatus) {
Markus_Paar	0:dad421e28e26	348	return (OK);
Markus_Paar	0:dad421e28e26	349	} else {
Markus_Paar	0:dad421e28e26	350	return (ERR_TD_FAIL);
Markus_Paar	0:dad421e28e26	351	}
Markus_Paar	0:dad421e28e26	352	}
Markus_Paar	0:dad421e28e26	353
Markus_Paar	0:dad421e28e26	354	/*
Markus_Paar	0:dad421e28e26	355	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	356	* ENUMERATE THE DEVICE
Markus_Paar	0:dad421e28e26	357	*
Markus_Paar	0:dad421e28e26	358	* Description: This function is used to enumerate the device connected
Markus_Paar	0:dad421e28e26	359	*
Markus_Paar	0:dad421e28e26	360	* Arguments : None
Markus_Paar	0:dad421e28e26	361	*
Markus_Paar	0:dad421e28e26	362	* Returns : None
Markus_Paar	0:dad421e28e26	363	*
Markus_Paar	0:dad421e28e26	364	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	365	*/
Markus_Paar	0:dad421e28e26	366
Markus_Paar	0:dad421e28e26	367	USB_INT32S Host_EnumDev (void)
Markus_Paar	0:dad421e28e26	368	{
Markus_Paar	0:dad421e28e26	369	USB_INT32S rc;
Markus_Paar	0:dad421e28e26	370
Markus_Paar	0:dad421e28e26	371	PRINT_Log("Connect a Mass Storage device\n");
Markus_Paar	0:dad421e28e26	372	while (!HOST_RhscIntr)
Markus_Paar	0:dad421e28e26	373	__WFI();
Markus_Paar	0:dad421e28e26	374	Host_DelayMS(100); /* USB 2.0 spec says atleast 50ms delay beore port reset */
Markus_Paar	0:dad421e28e26	375	LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRS; // Initiate port reset
Markus_Paar	0:dad421e28e26	376	while (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_PRS)
Markus_Paar	0:dad421e28e26	377	__WFI(); // Wait for port reset to complete...
Markus_Paar	0:dad421e28e26	378	LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRSC; // ...and clear port reset signal
Markus_Paar	0:dad421e28e26	379	Host_DelayMS(200); /* Wait for 100 MS after port reset */
Markus_Paar	0:dad421e28e26	380
Markus_Paar	0:dad421e28e26	381	EDCtrl->Control = 8 << 16; /* Put max pkt size = 8 */
Markus_Paar	0:dad421e28e26	382	/* Read first 8 bytes of device desc */
Markus_Paar	0:dad421e28e26	383	rc = HOST_GET_DESCRIPTOR(USB_DESCRIPTOR_TYPE_DEVICE, 0, TDBuffer, 8);
Markus_Paar	0:dad421e28e26	384	if (rc != OK) {
Markus_Paar	0:dad421e28e26	385	PRINT_Err(rc);
Markus_Paar	0:dad421e28e26	386	return (rc);
Markus_Paar	0:dad421e28e26	387	}
Markus_Paar	0:dad421e28e26	388	EDCtrl->Control = TDBuffer[7] << 16; /* Get max pkt size of endpoint 0 */
Markus_Paar	0:dad421e28e26	389	rc = HOST_SET_ADDRESS(1); /* Set the device address to 1 */
Markus_Paar	0:dad421e28e26	390	if (rc != OK) {
Markus_Paar	0:dad421e28e26	391	PRINT_Err(rc);
Markus_Paar	0:dad421e28e26	392	return (rc);
Markus_Paar	0:dad421e28e26	393	}
Markus_Paar	0:dad421e28e26	394	Host_DelayMS(2);
Markus_Paar	0:dad421e28e26	395	EDCtrl->Control = (EDCtrl->Control) \| 1; /* Modify control pipe with address 1 */
Markus_Paar	0:dad421e28e26	396	/* Get the configuration descriptor */
Markus_Paar	0:dad421e28e26	397	rc = HOST_GET_DESCRIPTOR(USB_DESCRIPTOR_TYPE_CONFIGURATION, 0, TDBuffer, 9);
Markus_Paar	0:dad421e28e26	398	if (rc != OK) {
Markus_Paar	0:dad421e28e26	399	PRINT_Err(rc);
Markus_Paar	0:dad421e28e26	400	return (rc);
Markus_Paar	0:dad421e28e26	401	}
Markus_Paar	0:dad421e28e26	402	/* Get the first configuration data */
Markus_Paar	0:dad421e28e26	403	rc = HOST_GET_DESCRIPTOR(USB_DESCRIPTOR_TYPE_CONFIGURATION, 0, TDBuffer, ReadLE16U(&TDBuffer[2]));
Markus_Paar	0:dad421e28e26	404	if (rc != OK) {
Markus_Paar	0:dad421e28e26	405	PRINT_Err(rc);
Markus_Paar	0:dad421e28e26	406	return (rc);
Markus_Paar	0:dad421e28e26	407	}
Markus_Paar	0:dad421e28e26	408	rc = MS_ParseConfiguration(); /* Parse the configuration */
Markus_Paar	0:dad421e28e26	409	if (rc != OK) {
Markus_Paar	0:dad421e28e26	410	PRINT_Err(rc);
Markus_Paar	0:dad421e28e26	411	return (rc);
Markus_Paar	0:dad421e28e26	412	}
Markus_Paar	0:dad421e28e26	413	rc = USBH_SET_CONFIGURATION(1); /* Select device configuration 1 */
Markus_Paar	0:dad421e28e26	414	if (rc != OK) {
Markus_Paar	0:dad421e28e26	415	PRINT_Err(rc);
Markus_Paar	0:dad421e28e26	416	}
Markus_Paar	0:dad421e28e26	417	Host_DelayMS(100); /* Some devices may require this delay */
Markus_Paar	0:dad421e28e26	418	return (rc);
Markus_Paar	0:dad421e28e26	419	}
Markus_Paar	0:dad421e28e26	420
Markus_Paar	0:dad421e28e26	421	/*
Markus_Paar	0:dad421e28e26	422	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	423	* RECEIVE THE CONTROL INFORMATION
Markus_Paar	0:dad421e28e26	424	*
Markus_Paar	0:dad421e28e26	425	* Description: This function is used to receive the control information
Markus_Paar	0:dad421e28e26	426	*
Markus_Paar	0:dad421e28e26	427	* Arguments : bm_request_type
Markus_Paar	0:dad421e28e26	428	* b_request
Markus_Paar	0:dad421e28e26	429	* w_value
Markus_Paar	0:dad421e28e26	430	* w_index
Markus_Paar	0:dad421e28e26	431	* w_length
Markus_Paar	0:dad421e28e26	432	* buffer
Markus_Paar	0:dad421e28e26	433	*
Markus_Paar	0:dad421e28e26	434	* Returns : OK if Success
Markus_Paar	0:dad421e28e26	435	* ERROR if Failed
Markus_Paar	0:dad421e28e26	436	*
Markus_Paar	0:dad421e28e26	437	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	438	*/
Markus_Paar	0:dad421e28e26	439
Markus_Paar	0:dad421e28e26	440	USB_INT32S Host_CtrlRecv ( USB_INT08U bm_request_type,
Markus_Paar	0:dad421e28e26	441	USB_INT08U b_request,
Markus_Paar	0:dad421e28e26	442	USB_INT16U w_value,
Markus_Paar	0:dad421e28e26	443	USB_INT16U w_index,
Markus_Paar	0:dad421e28e26	444	USB_INT16U w_length,
Markus_Paar	0:dad421e28e26	445	volatile USB_INT08U *buffer)
Markus_Paar	0:dad421e28e26	446	{
Markus_Paar	0:dad421e28e26	447	USB_INT32S rc;
Markus_Paar	0:dad421e28e26	448
Markus_Paar	0:dad421e28e26	449
Markus_Paar	0:dad421e28e26	450	Host_FillSetup(bm_request_type, b_request, w_value, w_index, w_length);
Markus_Paar	0:dad421e28e26	451	rc = Host_ProcessTD(EDCtrl, TD_SETUP, TDBuffer, 8);
Markus_Paar	0:dad421e28e26	452	if (rc == OK) {
Markus_Paar	0:dad421e28e26	453	if (w_length) {
Markus_Paar	0:dad421e28e26	454	rc = Host_ProcessTD(EDCtrl, TD_IN, TDBuffer, w_length);
Markus_Paar	0:dad421e28e26	455	}
Markus_Paar	0:dad421e28e26	456	if (rc == OK) {
Markus_Paar	0:dad421e28e26	457	rc = Host_ProcessTD(EDCtrl, TD_OUT, NULL, 0);
Markus_Paar	0:dad421e28e26	458	}
Markus_Paar	0:dad421e28e26	459	}
Markus_Paar	0:dad421e28e26	460	return (rc);
Markus_Paar	0:dad421e28e26	461	}
Markus_Paar	0:dad421e28e26	462
Markus_Paar	0:dad421e28e26	463	/*
Markus_Paar	0:dad421e28e26	464	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	465	* SEND THE CONTROL INFORMATION
Markus_Paar	0:dad421e28e26	466	*
Markus_Paar	0:dad421e28e26	467	* Description: This function is used to send the control information
Markus_Paar	0:dad421e28e26	468	*
Markus_Paar	0:dad421e28e26	469	* Arguments : None
Markus_Paar	0:dad421e28e26	470	*
Markus_Paar	0:dad421e28e26	471	* Returns : OK if Success
Markus_Paar	0:dad421e28e26	472	* ERR_INVALID_BOOTSIG if Failed
Markus_Paar	0:dad421e28e26	473	*
Markus_Paar	0:dad421e28e26	474	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	475	*/
Markus_Paar	0:dad421e28e26	476
Markus_Paar	0:dad421e28e26	477	USB_INT32S Host_CtrlSend ( USB_INT08U bm_request_type,
Markus_Paar	0:dad421e28e26	478	USB_INT08U b_request,
Markus_Paar	0:dad421e28e26	479	USB_INT16U w_value,
Markus_Paar	0:dad421e28e26	480	USB_INT16U w_index,
Markus_Paar	0:dad421e28e26	481	USB_INT16U w_length,
Markus_Paar	0:dad421e28e26	482	volatile USB_INT08U *buffer)
Markus_Paar	0:dad421e28e26	483	{
Markus_Paar	0:dad421e28e26	484	USB_INT32S rc;
Markus_Paar	0:dad421e28e26	485
Markus_Paar	0:dad421e28e26	486
Markus_Paar	0:dad421e28e26	487	Host_FillSetup(bm_request_type, b_request, w_value, w_index, w_length);
Markus_Paar	0:dad421e28e26	488
Markus_Paar	0:dad421e28e26	489	rc = Host_ProcessTD(EDCtrl, TD_SETUP, TDBuffer, 8);
Markus_Paar	0:dad421e28e26	490	if (rc == OK) {
Markus_Paar	0:dad421e28e26	491	if (w_length) {
Markus_Paar	0:dad421e28e26	492	rc = Host_ProcessTD(EDCtrl, TD_OUT, TDBuffer, w_length);
Markus_Paar	0:dad421e28e26	493	}
Markus_Paar	0:dad421e28e26	494	if (rc == OK) {
Markus_Paar	0:dad421e28e26	495	rc = Host_ProcessTD(EDCtrl, TD_IN, NULL, 0);
Markus_Paar	0:dad421e28e26	496	}
Markus_Paar	0:dad421e28e26	497	}
Markus_Paar	0:dad421e28e26	498	return (rc);
Markus_Paar	0:dad421e28e26	499	}
Markus_Paar	0:dad421e28e26	500
Markus_Paar	0:dad421e28e26	501	/*
Markus_Paar	0:dad421e28e26	502	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	503	* FILL SETUP PACKET
Markus_Paar	0:dad421e28e26	504	*
Markus_Paar	0:dad421e28e26	505	* Description: This function is used to fill the setup packet
Markus_Paar	0:dad421e28e26	506	*
Markus_Paar	0:dad421e28e26	507	* Arguments : None
Markus_Paar	0:dad421e28e26	508	*
Markus_Paar	0:dad421e28e26	509	* Returns : OK if Success
Markus_Paar	0:dad421e28e26	510	* ERR_INVALID_BOOTSIG if Failed
Markus_Paar	0:dad421e28e26	511	*
Markus_Paar	0:dad421e28e26	512	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	513	*/
Markus_Paar	0:dad421e28e26	514
Markus_Paar	0:dad421e28e26	515	void Host_FillSetup (USB_INT08U bm_request_type,
Markus_Paar	0:dad421e28e26	516	USB_INT08U b_request,
Markus_Paar	0:dad421e28e26	517	USB_INT16U w_value,
Markus_Paar	0:dad421e28e26	518	USB_INT16U w_index,
Markus_Paar	0:dad421e28e26	519	USB_INT16U w_length)
Markus_Paar	0:dad421e28e26	520	{
Markus_Paar	0:dad421e28e26	521	int i;
Markus_Paar	0:dad421e28e26	522	for (i=0;i<w_length;i++)
Markus_Paar	0:dad421e28e26	523	TDBuffer[i] = 0;
Markus_Paar	0:dad421e28e26	524
Markus_Paar	0:dad421e28e26	525	TDBuffer[0] = bm_request_type;
Markus_Paar	0:dad421e28e26	526	TDBuffer[1] = b_request;
Markus_Paar	0:dad421e28e26	527	WriteLE16U(&TDBuffer[2], w_value);
Markus_Paar	0:dad421e28e26	528	WriteLE16U(&TDBuffer[4], w_index);
Markus_Paar	0:dad421e28e26	529	WriteLE16U(&TDBuffer[6], w_length);
Markus_Paar	0:dad421e28e26	530	}
Markus_Paar	0:dad421e28e26	531
Markus_Paar	0:dad421e28e26	532
Markus_Paar	0:dad421e28e26	533
Markus_Paar	0:dad421e28e26	534	/*
Markus_Paar	0:dad421e28e26	535	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	536	* INITIALIZE THE TRANSFER DESCRIPTOR
Markus_Paar	0:dad421e28e26	537	*
Markus_Paar	0:dad421e28e26	538	* Description: This function initializes transfer descriptor
Markus_Paar	0:dad421e28e26	539	*
Markus_Paar	0:dad421e28e26	540	* Arguments : Pointer to TD structure
Markus_Paar	0:dad421e28e26	541	*
Markus_Paar	0:dad421e28e26	542	* Returns : None
Markus_Paar	0:dad421e28e26	543	*
Markus_Paar	0:dad421e28e26	544	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	545	*/
Markus_Paar	0:dad421e28e26	546
Markus_Paar	0:dad421e28e26	547	void Host_TDInit (volatile HCTD *td)
Markus_Paar	0:dad421e28e26	548	{
Markus_Paar	0:dad421e28e26	549
Markus_Paar	0:dad421e28e26	550	td->Control = 0;
Markus_Paar	0:dad421e28e26	551	td->CurrBufPtr = 0;
Markus_Paar	0:dad421e28e26	552	td->Next = 0;
Markus_Paar	0:dad421e28e26	553	td->BufEnd = 0;
Markus_Paar	0:dad421e28e26	554	}
Markus_Paar	0:dad421e28e26	555
Markus_Paar	0:dad421e28e26	556	/*
Markus_Paar	0:dad421e28e26	557	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	558	* INITIALIZE THE ENDPOINT DESCRIPTOR
Markus_Paar	0:dad421e28e26	559	*
Markus_Paar	0:dad421e28e26	560	* Description: This function initializes endpoint descriptor
Markus_Paar	0:dad421e28e26	561	*
Markus_Paar	0:dad421e28e26	562	* Arguments : Pointer to ED strcuture
Markus_Paar	0:dad421e28e26	563	*
Markus_Paar	0:dad421e28e26	564	* Returns : None
Markus_Paar	0:dad421e28e26	565	*
Markus_Paar	0:dad421e28e26	566	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	567	*/
Markus_Paar	0:dad421e28e26	568
Markus_Paar	0:dad421e28e26	569	void Host_EDInit (volatile HCED *ed)
Markus_Paar	0:dad421e28e26	570	{
Markus_Paar	0:dad421e28e26	571
Markus_Paar	0:dad421e28e26	572	ed->Control = 0;
Markus_Paar	0:dad421e28e26	573	ed->TailTd = 0;
Markus_Paar	0:dad421e28e26	574	ed->HeadTd = 0;
Markus_Paar	0:dad421e28e26	575	ed->Next = 0;
Markus_Paar	0:dad421e28e26	576	}
Markus_Paar	0:dad421e28e26	577
Markus_Paar	0:dad421e28e26	578	/*
Markus_Paar	0:dad421e28e26	579	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	580	* INITIALIZE HOST CONTROLLER COMMUNICATIONS AREA
Markus_Paar	0:dad421e28e26	581	*
Markus_Paar	0:dad421e28e26	582	* Description: This function initializes host controller communications area
Markus_Paar	0:dad421e28e26	583	*
Markus_Paar	0:dad421e28e26	584	* Arguments : Pointer to HCCA
Markus_Paar	0:dad421e28e26	585	*
Markus_Paar	0:dad421e28e26	586	* Returns :
Markus_Paar	0:dad421e28e26	587	*
Markus_Paar	0:dad421e28e26	588	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	589	*/
Markus_Paar	0:dad421e28e26	590
Markus_Paar	0:dad421e28e26	591	void Host_HCCAInit (volatile HCCA *hcca)
Markus_Paar	0:dad421e28e26	592	{
Markus_Paar	0:dad421e28e26	593	USB_INT32U i;
Markus_Paar	0:dad421e28e26	594
Markus_Paar	0:dad421e28e26	595
Markus_Paar	0:dad421e28e26	596	for (i = 0; i < 32; i++) {
Markus_Paar	0:dad421e28e26	597
Markus_Paar	0:dad421e28e26	598	hcca->IntTable[i] = 0;
Markus_Paar	0:dad421e28e26	599	hcca->FrameNumber = 0;
Markus_Paar	0:dad421e28e26	600	hcca->DoneHead = 0;
Markus_Paar	0:dad421e28e26	601	}
Markus_Paar	0:dad421e28e26	602
Markus_Paar	0:dad421e28e26	603	}
Markus_Paar	0:dad421e28e26	604
Markus_Paar	0:dad421e28e26	605	/*
Markus_Paar	0:dad421e28e26	606	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	607	* WAIT FOR WDH INTERRUPT
Markus_Paar	0:dad421e28e26	608	*
Markus_Paar	0:dad421e28e26	609	* Description: This function is infinite loop which breaks when ever a WDH interrupt rises
Markus_Paar	0:dad421e28e26	610	*
Markus_Paar	0:dad421e28e26	611	* Arguments : None
Markus_Paar	0:dad421e28e26	612	*
Markus_Paar	0:dad421e28e26	613	* Returns : None
Markus_Paar	0:dad421e28e26	614	*
Markus_Paar	0:dad421e28e26	615	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	616	*/
Markus_Paar	0:dad421e28e26	617
Markus_Paar	0:dad421e28e26	618	void Host_WDHWait (void)
Markus_Paar	0:dad421e28e26	619	{
Markus_Paar	0:dad421e28e26	620	while (!HOST_WdhIntr)
Markus_Paar	0:dad421e28e26	621	__WFI();
Markus_Paar	0:dad421e28e26	622
Markus_Paar	0:dad421e28e26	623	HOST_WdhIntr = 0;
Markus_Paar	0:dad421e28e26	624	}
Markus_Paar	0:dad421e28e26	625
Markus_Paar	0:dad421e28e26	626	/*
Markus_Paar	0:dad421e28e26	627	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	628	* READ LE 32U
Markus_Paar	0:dad421e28e26	629	*
Markus_Paar	0:dad421e28e26	630	* Description: This function is used to read an unsigned integer from a character buffer in the platform
Markus_Paar	0:dad421e28e26	631	* containing little endian processor
Markus_Paar	0:dad421e28e26	632	*
Markus_Paar	0:dad421e28e26	633	* Arguments : pmem Pointer to the character buffer
Markus_Paar	0:dad421e28e26	634	*
Markus_Paar	0:dad421e28e26	635	* Returns : val Unsigned integer
Markus_Paar	0:dad421e28e26	636	*
Markus_Paar	0:dad421e28e26	637	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	638	*/
Markus_Paar	0:dad421e28e26	639
Markus_Paar	0:dad421e28e26	640	USB_INT32U ReadLE32U (volatile USB_INT08U *pmem)
Markus_Paar	0:dad421e28e26	641	{
Markus_Paar	0:dad421e28e26	642	USB_INT32U val = (USB_INT32U)pmem;
Markus_Paar	0:dad421e28e26	643	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	644	return __REV(val);
Markus_Paar	0:dad421e28e26	645	#else
Markus_Paar	0:dad421e28e26	646	return val;
Markus_Paar	0:dad421e28e26	647	#endif
Markus_Paar	0:dad421e28e26	648	}
Markus_Paar	0:dad421e28e26	649
Markus_Paar	0:dad421e28e26	650	/*
Markus_Paar	0:dad421e28e26	651	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	652	* WRITE LE 32U
Markus_Paar	0:dad421e28e26	653	*
Markus_Paar	0:dad421e28e26	654	* Description: This function is used to write an unsigned integer into a charecter buffer in the platform
Markus_Paar	0:dad421e28e26	655	* containing little endian processor.
Markus_Paar	0:dad421e28e26	656	*
Markus_Paar	0:dad421e28e26	657	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	658	* val Integer value to be placed in the charecter buffer
Markus_Paar	0:dad421e28e26	659	*
Markus_Paar	0:dad421e28e26	660	* Returns : None
Markus_Paar	0:dad421e28e26	661	*
Markus_Paar	0:dad421e28e26	662	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	663	*/
Markus_Paar	0:dad421e28e26	664
Markus_Paar	0:dad421e28e26	665	void WriteLE32U (volatile USB_INT08U *pmem,
Markus_Paar	0:dad421e28e26	666	USB_INT32U val)
Markus_Paar	0:dad421e28e26	667	{
Markus_Paar	0:dad421e28e26	668	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	669	(USB_INT32U)pmem = __REV(val);
Markus_Paar	0:dad421e28e26	670	#else
Markus_Paar	0:dad421e28e26	671	(USB_INT32U)pmem = val;
Markus_Paar	0:dad421e28e26	672	#endif
Markus_Paar	0:dad421e28e26	673	}
Markus_Paar	0:dad421e28e26	674
Markus_Paar	0:dad421e28e26	675	/*
Markus_Paar	0:dad421e28e26	676	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	677	* READ LE 16U
Markus_Paar	0:dad421e28e26	678	*
Markus_Paar	0:dad421e28e26	679	* Description: This function is used to read an unsigned short integer from a charecter buffer in the platform
Markus_Paar	0:dad421e28e26	680	* containing little endian processor
Markus_Paar	0:dad421e28e26	681	*
Markus_Paar	0:dad421e28e26	682	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	683	*
Markus_Paar	0:dad421e28e26	684	* Returns : val Unsigned short integer
Markus_Paar	0:dad421e28e26	685	*
Markus_Paar	0:dad421e28e26	686	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	687	*/
Markus_Paar	0:dad421e28e26	688
Markus_Paar	0:dad421e28e26	689	USB_INT16U ReadLE16U (volatile USB_INT08U *pmem)
Markus_Paar	0:dad421e28e26	690	{
Markus_Paar	0:dad421e28e26	691	USB_INT16U val = (USB_INT16U)pmem;
Markus_Paar	0:dad421e28e26	692	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	693	return __REV16(val);
Markus_Paar	0:dad421e28e26	694	#else
Markus_Paar	0:dad421e28e26	695	return val;
Markus_Paar	0:dad421e28e26	696	#endif
Markus_Paar	0:dad421e28e26	697	}
Markus_Paar	0:dad421e28e26	698
Markus_Paar	0:dad421e28e26	699	/*
Markus_Paar	0:dad421e28e26	700	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	701	* WRITE LE 16U
Markus_Paar	0:dad421e28e26	702	*
Markus_Paar	0:dad421e28e26	703	* Description: This function is used to write an unsigned short integer into a charecter buffer in the
Markus_Paar	0:dad421e28e26	704	* platform containing little endian processor
Markus_Paar	0:dad421e28e26	705	*
Markus_Paar	0:dad421e28e26	706	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	707	* val Value to be placed in the charecter buffer
Markus_Paar	0:dad421e28e26	708	*
Markus_Paar	0:dad421e28e26	709	* Returns : None
Markus_Paar	0:dad421e28e26	710	*
Markus_Paar	0:dad421e28e26	711	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	712	*/
Markus_Paar	0:dad421e28e26	713
Markus_Paar	0:dad421e28e26	714	void WriteLE16U (volatile USB_INT08U *pmem,
Markus_Paar	0:dad421e28e26	715	USB_INT16U val)
Markus_Paar	0:dad421e28e26	716	{
Markus_Paar	0:dad421e28e26	717	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	718	(USB_INT16U)pmem = (__REV16(val) & 0xFFFF);
Markus_Paar	0:dad421e28e26	719	#else
Markus_Paar	0:dad421e28e26	720	(USB_INT16U)pmem = val;
Markus_Paar	0:dad421e28e26	721	#endif
Markus_Paar	0:dad421e28e26	722	}
Markus_Paar	0:dad421e28e26	723
Markus_Paar	0:dad421e28e26	724	/*
Markus_Paar	0:dad421e28e26	725	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	726	* READ BE 32U
Markus_Paar	0:dad421e28e26	727	*
Markus_Paar	0:dad421e28e26	728	* Description: This function is used to read an unsigned integer from a charecter buffer in the platform
Markus_Paar	0:dad421e28e26	729	* containing big endian processor
Markus_Paar	0:dad421e28e26	730	*
Markus_Paar	0:dad421e28e26	731	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	732	*
Markus_Paar	0:dad421e28e26	733	* Returns : val Unsigned integer
Markus_Paar	0:dad421e28e26	734	*
Markus_Paar	0:dad421e28e26	735	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	736	*/
Markus_Paar	0:dad421e28e26	737
Markus_Paar	0:dad421e28e26	738	USB_INT32U ReadBE32U (volatile USB_INT08U *pmem)
Markus_Paar	0:dad421e28e26	739	{
Markus_Paar	0:dad421e28e26	740	USB_INT32U val = (USB_INT32U)pmem;
Markus_Paar	0:dad421e28e26	741	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	742	return val;
Markus_Paar	0:dad421e28e26	743	#else
Markus_Paar	0:dad421e28e26	744	return __REV(val);
Markus_Paar	0:dad421e28e26	745	#endif
Markus_Paar	0:dad421e28e26	746	}
Markus_Paar	0:dad421e28e26	747
Markus_Paar	0:dad421e28e26	748	/*
Markus_Paar	0:dad421e28e26	749	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	750	* WRITE BE 32U
Markus_Paar	0:dad421e28e26	751	*
Markus_Paar	0:dad421e28e26	752	* Description: This function is used to write an unsigned integer into a charecter buffer in the platform
Markus_Paar	0:dad421e28e26	753	* containing big endian processor
Markus_Paar	0:dad421e28e26	754	*
Markus_Paar	0:dad421e28e26	755	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	756	* val Value to be placed in the charecter buffer
Markus_Paar	0:dad421e28e26	757	*
Markus_Paar	0:dad421e28e26	758	* Returns : None
Markus_Paar	0:dad421e28e26	759	*
Markus_Paar	0:dad421e28e26	760	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	761	*/
Markus_Paar	0:dad421e28e26	762
Markus_Paar	0:dad421e28e26	763	void WriteBE32U (volatile USB_INT08U *pmem,
Markus_Paar	0:dad421e28e26	764	USB_INT32U val)
Markus_Paar	0:dad421e28e26	765	{
Markus_Paar	0:dad421e28e26	766	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	767	(USB_INT32U)pmem = val;
Markus_Paar	0:dad421e28e26	768	#else
Markus_Paar	0:dad421e28e26	769	(USB_INT32U)pmem = __REV(val);
Markus_Paar	0:dad421e28e26	770	#endif
Markus_Paar	0:dad421e28e26	771	}
Markus_Paar	0:dad421e28e26	772
Markus_Paar	0:dad421e28e26	773	/*
Markus_Paar	0:dad421e28e26	774	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	775	* READ BE 16U
Markus_Paar	0:dad421e28e26	776	*
Markus_Paar	0:dad421e28e26	777	* Description: This function is used to read an unsigned short integer from a charecter buffer in the platform
Markus_Paar	0:dad421e28e26	778	* containing big endian processor
Markus_Paar	0:dad421e28e26	779	*
Markus_Paar	0:dad421e28e26	780	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	781	*
Markus_Paar	0:dad421e28e26	782	* Returns : val Unsigned short integer
Markus_Paar	0:dad421e28e26	783	*
Markus_Paar	0:dad421e28e26	784	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	785	*/
Markus_Paar	0:dad421e28e26	786
Markus_Paar	0:dad421e28e26	787	USB_INT16U ReadBE16U (volatile USB_INT08U *pmem)
Markus_Paar	0:dad421e28e26	788	{
Markus_Paar	0:dad421e28e26	789	USB_INT16U val = (USB_INT16U)pmem;
Markus_Paar	0:dad421e28e26	790	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	791	return val;
Markus_Paar	0:dad421e28e26	792	#else
Markus_Paar	0:dad421e28e26	793	return __REV16(val);
Markus_Paar	0:dad421e28e26	794	#endif
Markus_Paar	0:dad421e28e26	795	}
Markus_Paar	0:dad421e28e26	796
Markus_Paar	0:dad421e28e26	797	/*
Markus_Paar	0:dad421e28e26	798	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	799	* WRITE BE 16U
Markus_Paar	0:dad421e28e26	800	*
Markus_Paar	0:dad421e28e26	801	* Description: This function is used to write an unsigned short integer into the charecter buffer in the
Markus_Paar	0:dad421e28e26	802	* platform containing big endian processor
Markus_Paar	0:dad421e28e26	803	*
Markus_Paar	0:dad421e28e26	804	* Arguments : pmem Pointer to the charecter buffer
Markus_Paar	0:dad421e28e26	805	* val Value to be placed in the charecter buffer
Markus_Paar	0:dad421e28e26	806	*
Markus_Paar	0:dad421e28e26	807	* Returns : None
Markus_Paar	0:dad421e28e26	808	*
Markus_Paar	0:dad421e28e26	809	**************************************************************************************************************
Markus_Paar	0:dad421e28e26	810	*/
Markus_Paar	0:dad421e28e26	811
Markus_Paar	0:dad421e28e26	812	void WriteBE16U (volatile USB_INT08U *pmem,
Markus_Paar	0:dad421e28e26	813	USB_INT16U val)
Markus_Paar	0:dad421e28e26	814	{
Markus_Paar	0:dad421e28e26	815	#ifdef __BIG_ENDIAN
Markus_Paar	0:dad421e28e26	816	(USB_INT16U)pmem = val;
Markus_Paar	0:dad421e28e26	817	#else
Markus_Paar	0:dad421e28e26	818	(USB_INT16U)pmem = (__REV16(val) & 0xFFFF);
Markus_Paar	0:dad421e28e26	819	#endif
Markus_Paar	0:dad421e28e26	820	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	01 Apr 2011
Imports:	13
Forks:	0
Commits:	1
Dependents:	0
Dependencies:	1
Followers:	1

USBHostLite/usbhost_lpc17xx.c@0:dad421e28e26, 2011-04-01 (annotated)

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