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NetTribute library with debug turned on in FShandler Donatien Garner -> Segundo Equipo -> this version

drv/usb/UsbEndpoint.cpp@0:281d6ff68967, 2010-11-19 (annotated)

Committer:: hexley
Date:: Fri Nov 19 01:54:45 2010 +0000
Revision:: 0:281d6ff68967

Who changed what in which revision?

User	Revision	Line number	New contents of line
hexley	0:281d6ff68967	1
hexley	0:281d6ff68967	2	/*
hexley	0:281d6ff68967	3	Copyright (c) 2010 Donatien Garnier (donatiengar [at] gmail [dot] com)
hexley	0:281d6ff68967	4
hexley	0:281d6ff68967	5	Permission is hereby granted, free of charge, to any person obtaining a copy
hexley	0:281d6ff68967	6	of this software and associated documentation files (the "Software"), to deal
hexley	0:281d6ff68967	7	in the Software without restriction, including without limitation the rights
hexley	0:281d6ff68967	8	to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
hexley	0:281d6ff68967	9	copies of the Software, and to permit persons to whom the Software is
hexley	0:281d6ff68967	10	furnished to do so, subject to the following conditions:
hexley	0:281d6ff68967	11
hexley	0:281d6ff68967	12	The above copyright notice and this permission notice shall be included in
hexley	0:281d6ff68967	13	all copies or substantial portions of the Software.
hexley	0:281d6ff68967	14
hexley	0:281d6ff68967	15	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
hexley	0:281d6ff68967	16	IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
hexley	0:281d6ff68967	17	FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
hexley	0:281d6ff68967	18	AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
hexley	0:281d6ff68967	19	LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
hexley	0:281d6ff68967	20	OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
hexley	0:281d6ff68967	21	THE SOFTWARE.
hexley	0:281d6ff68967	22	*/
hexley	0:281d6ff68967	23
hexley	0:281d6ff68967	24	#include "UsbEndpoint.h"
hexley	0:281d6ff68967	25
hexley	0:281d6ff68967	26	#include "UsbDevice.h"
hexley	0:281d6ff68967	27
hexley	0:281d6ff68967	28	#include "usb_mem.h"
hexley	0:281d6ff68967	29
hexley	0:281d6ff68967	30	#include "netCfg.h"
hexley	0:281d6ff68967	31	#if NET_USB
hexley	0:281d6ff68967	32
hexley	0:281d6ff68967	33	//#define __DEBUG
hexley	0:281d6ff68967	34	#include "dbg/dbg.h"
hexley	0:281d6ff68967	35
hexley	0:281d6ff68967	36	UsbEndpoint::UsbEndpoint( UsbDevice* pDevice, uint8_t ep, bool dir, UsbEndpointType type, uint16_t size, int addr /= -1/ ) : m_pDevice(pDevice), m_result(true), m_status((int)USBERR_OK), m_len(0), m_pBufStartPtr(NULL),
hexley	0:281d6ff68967	37	m_pCbItem(NULL), m_pCbMeth(NULL), m_pNextEp(NULL)
hexley	0:281d6ff68967	38	{
hexley	0:281d6ff68967	39	//Insert into Eps list
hexley	0:281d6ff68967	40	//FIXME: Assert that no USB interrupt is triggered meanwhile
hexley	0:281d6ff68967	41	if(m_pHeadEp)
hexley	0:281d6ff68967	42	{
hexley	0:281d6ff68967	43	m_pNextEp = m_pHeadEp;
hexley	0:281d6ff68967	44	m_pHeadEp = this;
hexley	0:281d6ff68967	45	}
hexley	0:281d6ff68967	46	else
hexley	0:281d6ff68967	47	{
hexley	0:281d6ff68967	48	m_pNextEp = NULL;
hexley	0:281d6ff68967	49	m_pHeadEp = this;
hexley	0:281d6ff68967	50	}
hexley	0:281d6ff68967	51
hexley	0:281d6ff68967	52	m_pEd = (volatile HCED*)usb_get_ed();
hexley	0:281d6ff68967	53
hexley	0:281d6ff68967	54	m_pTdHead = (volatile HCTD*)usb_get_td();
hexley	0:281d6ff68967	55	m_pTdTail = (volatile HCTD*)usb_get_td();
hexley	0:281d6ff68967	56
hexley	0:281d6ff68967	57	//printf("\r\n--m_pEd = %p--\r\n", m_pEd);
hexley	0:281d6ff68967	58	DBG("m_pEd = %p\n", m_pEd);
hexley	0:281d6ff68967	59	DBG("m_pTdHead = %p\n", m_pTdHead);
hexley	0:281d6ff68967	60	DBG("m_pTdTail = %p\n", m_pTdTail);
hexley	0:281d6ff68967	61
hexley	0:281d6ff68967	62	//Init Ed & Td
hexley	0:281d6ff68967	63	//printf("\r\n--Ep Init--\r\n");
hexley	0:281d6ff68967	64	memset((void*)m_pEd, 0, sizeof(HCED));
hexley	0:281d6ff68967	65	//printf("\r\n--Td Init--\r\n");
hexley	0:281d6ff68967	66
hexley	0:281d6ff68967	67	memset((void*)m_pTdHead, 0, sizeof(HCTD));
hexley	0:281d6ff68967	68	memset((void*)m_pTdTail, 0, sizeof(HCTD));
hexley	0:281d6ff68967	69
hexley	0:281d6ff68967	70	if(addr == -1)
hexley	0:281d6ff68967	71	addr = pDevice->m_addr;
hexley	0:281d6ff68967	72
hexley	0:281d6ff68967	73	//Setup Ed
hexley	0:281d6ff68967	74	//printf("\r\n--Ep Setup--\r\n");
hexley	0:281d6ff68967	75	m_pEd->Control = addr \| /* USB address */
hexley	0:281d6ff68967	76	((ep & 0x7F) << 7) \| /* Endpoint address */
hexley	0:281d6ff68967	77	(type!=USB_CONTROL?((dir?2:1) << 11):0) \| /* direction : Out = 1, 2 = In */
hexley	0:281d6ff68967	78	(size << 16); /* MaxPkt Size */
hexley	0:281d6ff68967	79
hexley	0:281d6ff68967	80	m_dir = dir;
hexley	0:281d6ff68967	81	m_setup = false;
hexley	0:281d6ff68967	82	m_type = type;
hexley	0:281d6ff68967	83
hexley	0:281d6ff68967	84	m_pEd->TailTd = m_pEd->HeadTd = (uint32_t) m_pTdTail; //Empty TD list
hexley	0:281d6ff68967	85
hexley	0:281d6ff68967	86	DBG("Before link\n");
hexley	0:281d6ff68967	87
hexley	0:281d6ff68967	88	//printf("\r\n--Ep Reg--\r\n");
hexley	0:281d6ff68967	89	//Append Ed to Ed list
hexley	0:281d6ff68967	90	volatile HCED* prevEd;
hexley	0:281d6ff68967	91	switch( m_type )
hexley	0:281d6ff68967	92	{
hexley	0:281d6ff68967	93	case USB_CONTROL:
hexley	0:281d6ff68967	94	prevEd = (volatile HCED*) LPC_USB->HcControlHeadED;
hexley	0:281d6ff68967	95	break;
hexley	0:281d6ff68967	96	case USB_BULK:
hexley	0:281d6ff68967	97	default:
hexley	0:281d6ff68967	98	prevEd = (volatile HCED*) LPC_USB->HcBulkHeadED;
hexley	0:281d6ff68967	99	break;
hexley	0:281d6ff68967	100	}
hexley	0:281d6ff68967	101
hexley	0:281d6ff68967	102	DBG("prevEd is %p\n", prevEd);
hexley	0:281d6ff68967	103
hexley	0:281d6ff68967	104	if(prevEd)
hexley	0:281d6ff68967	105	{
hexley	0:281d6ff68967	106	DBG("prevEd set\n")
hexley	0:281d6ff68967	107
hexley	0:281d6ff68967	108	while(prevEd->Next)
hexley	0:281d6ff68967	109	{
hexley	0:281d6ff68967	110	DBG("prevEd->Next = %08x\n", prevEd->Next);
hexley	0:281d6ff68967	111	prevEd = (volatile HCED*) prevEd->Next;
hexley	0:281d6ff68967	112	}
hexley	0:281d6ff68967	113	prevEd->Next = (uint32_t) m_pEd;
hexley	0:281d6ff68967	114
hexley	0:281d6ff68967	115	}
hexley	0:281d6ff68967	116	else
hexley	0:281d6ff68967	117	{
hexley	0:281d6ff68967	118	switch( m_type )
hexley	0:281d6ff68967	119	{
hexley	0:281d6ff68967	120	case USB_CONTROL:
hexley	0:281d6ff68967	121	LPC_USB->HcControlHeadED = (uint32_t) m_pEd;
hexley	0:281d6ff68967	122	break;
hexley	0:281d6ff68967	123	case USB_BULK:
hexley	0:281d6ff68967	124	default:
hexley	0:281d6ff68967	125	LPC_USB->HcBulkHeadED = (uint32_t) m_pEd;
hexley	0:281d6ff68967	126	break;
hexley	0:281d6ff68967	127	}
hexley	0:281d6ff68967	128	}
hexley	0:281d6ff68967	129
hexley	0:281d6ff68967	130	DBG("Ep init\n");
hexley	0:281d6ff68967	131	}
hexley	0:281d6ff68967	132
hexley	0:281d6ff68967	133	UsbEndpoint::~UsbEndpoint()
hexley	0:281d6ff68967	134	{
hexley	0:281d6ff68967	135	//Remove from Eps list
hexley	0:281d6ff68967	136	//FIXME: Assert that no USB interrupt is triggered meanwhile
hexley	0:281d6ff68967	137	if(m_pHeadEp != this)
hexley	0:281d6ff68967	138	{
hexley	0:281d6ff68967	139	UsbEndpoint* prevEp = m_pHeadEp;
hexley	0:281d6ff68967	140	while(prevEp->m_pNextEp != this)
hexley	0:281d6ff68967	141	prevEp = prevEp->m_pNextEp;
hexley	0:281d6ff68967	142	prevEp->m_pNextEp = m_pNextEp;
hexley	0:281d6ff68967	143	}
hexley	0:281d6ff68967	144	else
hexley	0:281d6ff68967	145	{
hexley	0:281d6ff68967	146	m_pHeadEp = m_pNextEp;
hexley	0:281d6ff68967	147	}
hexley	0:281d6ff68967	148
hexley	0:281d6ff68967	149	m_pEd->Control \|= ED_SKIP; //Skip this Ep in queue
hexley	0:281d6ff68967	150
hexley	0:281d6ff68967	151	//Remove from queue
hexley	0:281d6ff68967	152	volatile HCED* prevEd;
hexley	0:281d6ff68967	153	switch( m_type )
hexley	0:281d6ff68967	154	{
hexley	0:281d6ff68967	155	case USB_CONTROL:
hexley	0:281d6ff68967	156	prevEd = (volatile HCED*) LPC_USB->HcControlHeadED;
hexley	0:281d6ff68967	157	break;
hexley	0:281d6ff68967	158	case USB_BULK:
hexley	0:281d6ff68967	159	default:
hexley	0:281d6ff68967	160	prevEd = (volatile HCED*) LPC_USB->HcBulkHeadED;
hexley	0:281d6ff68967	161	break;
hexley	0:281d6ff68967	162	}
hexley	0:281d6ff68967	163	if( m_pEd == prevEd )
hexley	0:281d6ff68967	164	{
hexley	0:281d6ff68967	165	switch( m_type )
hexley	0:281d6ff68967	166	{
hexley	0:281d6ff68967	167	case USB_CONTROL:
hexley	0:281d6ff68967	168	LPC_USB->HcControlHeadED = m_pEd->Next;
hexley	0:281d6ff68967	169	break;
hexley	0:281d6ff68967	170	case USB_BULK:
hexley	0:281d6ff68967	171	default:
hexley	0:281d6ff68967	172	LPC_USB->HcBulkHeadED = m_pEd->Next;
hexley	0:281d6ff68967	173	break;
hexley	0:281d6ff68967	174	}
hexley	0:281d6ff68967	175	LPC_USB->HcBulkHeadED = m_pEd->Next;
hexley	0:281d6ff68967	176	}
hexley	0:281d6ff68967	177	else
hexley	0:281d6ff68967	178	{
hexley	0:281d6ff68967	179	while( prevEd->Next != (uint32_t) m_pEd )
hexley	0:281d6ff68967	180	{
hexley	0:281d6ff68967	181	prevEd = (volatile HCED*) prevEd->Next;
hexley	0:281d6ff68967	182	}
hexley	0:281d6ff68967	183	prevEd->Next = m_pEd->Next;
hexley	0:281d6ff68967	184	}
hexley	0:281d6ff68967	185
hexley	0:281d6ff68967	186	//
hexley	0:281d6ff68967	187	usb_free_ed((volatile byte*)m_pEd);
hexley	0:281d6ff68967	188
hexley	0:281d6ff68967	189	usb_free_td((volatile byte*)m_pTdHead);
hexley	0:281d6ff68967	190	usb_free_td((volatile byte*)m_pTdTail);
hexley	0:281d6ff68967	191	}
hexley	0:281d6ff68967	192
hexley	0:281d6ff68967	193	void UsbEndpoint::setNextToken(uint32_t token) //Only for control Eps
hexley	0:281d6ff68967	194	{
hexley	0:281d6ff68967	195	switch(token)
hexley	0:281d6ff68967	196	{
hexley	0:281d6ff68967	197	case TD_SETUP:
hexley	0:281d6ff68967	198	m_dir = false;
hexley	0:281d6ff68967	199	m_setup = true;
hexley	0:281d6ff68967	200	break;
hexley	0:281d6ff68967	201	case TD_IN:
hexley	0:281d6ff68967	202	m_dir = true;
hexley	0:281d6ff68967	203	m_setup = false;
hexley	0:281d6ff68967	204	break;
hexley	0:281d6ff68967	205	case TD_OUT:
hexley	0:281d6ff68967	206	m_dir = false;
hexley	0:281d6ff68967	207	m_setup = false;
hexley	0:281d6ff68967	208	break;
hexley	0:281d6ff68967	209	}
hexley	0:281d6ff68967	210	}
hexley	0:281d6ff68967	211
hexley	0:281d6ff68967	212	UsbErr UsbEndpoint::transfer(volatile uint8_t* buf, uint32_t len)
hexley	0:281d6ff68967	213	{
hexley	0:281d6ff68967	214	if(!m_result)
hexley	0:281d6ff68967	215	return USBERR_BUSY; //The previous trasnfer is not completed
hexley	0:281d6ff68967	216	//FIXME: We should be able to queue the next transfer, still needs to be implemented
hexley	0:281d6ff68967	217
hexley	0:281d6ff68967	218	if( !m_pDevice->connected() )
hexley	0:281d6ff68967	219	return USBERR_DISCONNECTED;
hexley	0:281d6ff68967	220
hexley	0:281d6ff68967	221	m_result = false;
hexley	0:281d6ff68967	222
hexley	0:281d6ff68967	223	volatile uint32_t token = (m_setup?TD_SETUP:(m_dir?TD_IN:TD_OUT));
hexley	0:281d6ff68967	224
hexley	0:281d6ff68967	225	volatile uint32_t td_toggle;
hexley	0:281d6ff68967	226	if (m_type == USB_CONTROL)
hexley	0:281d6ff68967	227	{
hexley	0:281d6ff68967	228	if (m_setup)
hexley	0:281d6ff68967	229	{
hexley	0:281d6ff68967	230	td_toggle = TD_TOGGLE_0;
hexley	0:281d6ff68967	231	}
hexley	0:281d6ff68967	232	else
hexley	0:281d6ff68967	233	{
hexley	0:281d6ff68967	234	td_toggle = TD_TOGGLE_1;
hexley	0:281d6ff68967	235	}
hexley	0:281d6ff68967	236	}
hexley	0:281d6ff68967	237	else
hexley	0:281d6ff68967	238	{
hexley	0:281d6ff68967	239	td_toggle = 0;
hexley	0:281d6ff68967	240	}
hexley	0:281d6ff68967	241
hexley	0:281d6ff68967	242	//Swap Tds
hexley	0:281d6ff68967	243	volatile HCTD* pTdSwap;
hexley	0:281d6ff68967	244	pTdSwap = m_pTdTail;
hexley	0:281d6ff68967	245	m_pTdTail = m_pTdHead;
hexley	0:281d6ff68967	246	m_pTdHead = pTdSwap;
hexley	0:281d6ff68967	247
hexley	0:281d6ff68967	248	m_pTdHead->Control = (TD_ROUNDING \|
hexley	0:281d6ff68967	249	token \|
hexley	0:281d6ff68967	250	TD_DELAY_INT(0) \|//7
hexley	0:281d6ff68967	251	td_toggle \|
hexley	0:281d6ff68967	252	TD_CC);
hexley	0:281d6ff68967	253
hexley	0:281d6ff68967	254	m_pTdTail->Control = 0;
hexley	0:281d6ff68967	255	m_pTdHead->CurrBufPtr = (uint32_t) buf;
hexley	0:281d6ff68967	256	m_pBufStartPtr = buf;
hexley	0:281d6ff68967	257	m_pTdTail->CurrBufPtr = 0;
hexley	0:281d6ff68967	258	m_pTdHead->Next = (uint32_t) m_pTdTail;
hexley	0:281d6ff68967	259	m_pTdTail->Next = 0;
hexley	0:281d6ff68967	260	m_pTdHead->BufEnd = (uint32_t)(buf + (len - 1));
hexley	0:281d6ff68967	261	m_pTdTail->BufEnd = 0;
hexley	0:281d6ff68967	262
hexley	0:281d6ff68967	263	m_pEd->HeadTd = (uint32_t)m_pTdHead \| ((m_pEd->HeadTd) & 0x00000002); //Carry bit
hexley	0:281d6ff68967	264	m_pEd->TailTd = (uint32_t)m_pTdTail;
hexley	0:281d6ff68967	265
hexley	0:281d6ff68967	266	//DBG("m_pEd->HeadTd = %08x\n", m_pEd->HeadTd);
hexley	0:281d6ff68967	267
hexley	0:281d6ff68967	268	if(m_type == USB_CONTROL)
hexley	0:281d6ff68967	269	{
hexley	0:281d6ff68967	270	LPC_USB->HcCommandStatus = LPC_USB->HcCommandStatus \| OR_CMD_STATUS_CLF;
hexley	0:281d6ff68967	271	LPC_USB->HcControl = LPC_USB->HcControl \| OR_CONTROL_CLE; //Enable control list
hexley	0:281d6ff68967	272	}
hexley	0:281d6ff68967	273	else //USB_BULK
hexley	0:281d6ff68967	274	{
hexley	0:281d6ff68967	275	LPC_USB->HcCommandStatus = LPC_USB->HcCommandStatus \| OR_CMD_STATUS_BLF;
hexley	0:281d6ff68967	276	LPC_USB->HcControl = LPC_USB->HcControl \| OR_CONTROL_BLE; //Enable bulk list
hexley	0:281d6ff68967	277	}
hexley	0:281d6ff68967	278
hexley	0:281d6ff68967	279	//m_done = false;
hexley	0:281d6ff68967	280	m_len = len;
hexley	0:281d6ff68967	281
hexley	0:281d6ff68967	282	return USBERR_PROCESSING;
hexley	0:281d6ff68967	283
hexley	0:281d6ff68967	284	}
hexley	0:281d6ff68967	285
hexley	0:281d6ff68967	286	int UsbEndpoint::status()
hexley	0:281d6ff68967	287	{
hexley	0:281d6ff68967	288	if( !m_pDevice->connected() )
hexley	0:281d6ff68967	289	{
hexley	0:281d6ff68967	290	if(!m_result)
hexley	0:281d6ff68967	291	onCompletion();
hexley	0:281d6ff68967	292	m_result = true;
hexley	0:281d6ff68967	293	return (int)USBERR_DISCONNECTED;
hexley	0:281d6ff68967	294	}
hexley	0:281d6ff68967	295	else if( !m_result )
hexley	0:281d6ff68967	296	{
hexley	0:281d6ff68967	297	return (int)USBERR_PROCESSING;
hexley	0:281d6ff68967	298	}
hexley	0:281d6ff68967	299	/*else if( m_done )
hexley	0:281d6ff68967	300	{
hexley	0:281d6ff68967	301	return (int)USBERR_OK;
hexley	0:281d6ff68967	302	}*/
hexley	0:281d6ff68967	303	else
hexley	0:281d6ff68967	304	{
hexley	0:281d6ff68967	305	return m_status;
hexley	0:281d6ff68967	306	}
hexley	0:281d6ff68967	307	}
hexley	0:281d6ff68967	308
hexley	0:281d6ff68967	309	void UsbEndpoint::updateAddr(int addr)
hexley	0:281d6ff68967	310	{
hexley	0:281d6ff68967	311	DBG("m_pEd->Control = %08x\n", m_pEd->Control);
hexley	0:281d6ff68967	312	m_pEd->Control &= ~0x7F;
hexley	0:281d6ff68967	313	m_pEd->Control \|= addr;
hexley	0:281d6ff68967	314	DBG("m_pEd->Control = %08x\n", m_pEd->Control);
hexley	0:281d6ff68967	315	}
hexley	0:281d6ff68967	316
hexley	0:281d6ff68967	317	void UsbEndpoint::updateSize(uint16_t size)
hexley	0:281d6ff68967	318	{
hexley	0:281d6ff68967	319	DBG("m_pEd->Control = %08x\n", m_pEd->Control);
hexley	0:281d6ff68967	320	m_pEd->Control &= ~0x3FF0000;
hexley	0:281d6ff68967	321	m_pEd->Control \|= (size << 16);
hexley	0:281d6ff68967	322	DBG("m_pEd->Control = %08x\n", m_pEd->Control);
hexley	0:281d6ff68967	323	}
hexley	0:281d6ff68967	324
hexley	0:281d6ff68967	325	#if 0 //For doc only
hexley	0:281d6ff68967	326	template <class T>
hexley	0:281d6ff68967	327	void UsbEndpoint::setOnCompletion( T* pCbItem, void (T::*pCbMeth)() )
hexley	0:281d6ff68967	328	{
hexley	0:281d6ff68967	329	m_pCbItem = (CDummy*) pCbItem;
hexley	0:281d6ff68967	330	m_pCbMeth = (void (CDummy::*)()) pCbMeth;
hexley	0:281d6ff68967	331	}
hexley	0:281d6ff68967	332	#endif
hexley	0:281d6ff68967	333
hexley	0:281d6ff68967	334	void UsbEndpoint::onCompletion()
hexley	0:281d6ff68967	335	{
hexley	0:281d6ff68967	336	//DBG("Transfer completed\n");
hexley	0:281d6ff68967	337	if( m_pTdHead->Control >> 28 )
hexley	0:281d6ff68967	338	{
hexley	0:281d6ff68967	339	DBG("TD Failed with condition code %01x\n", m_pTdHead->Control >> 28 );
hexley	0:281d6ff68967	340	m_status = (int)USBERR_TDFAIL;
hexley	0:281d6ff68967	341	}
hexley	0:281d6ff68967	342	else if( m_pEd->HeadTd & 0x1 )
hexley	0:281d6ff68967	343	{
hexley	0:281d6ff68967	344	m_pEd->HeadTd = m_pEd->HeadTd & ~0x1;
hexley	0:281d6ff68967	345	DBG("\r\nHALTED!!\r\n");
hexley	0:281d6ff68967	346	m_status = (int)USBERR_HALTED;
hexley	0:281d6ff68967	347	}
hexley	0:281d6ff68967	348	else if( (m_pEd->HeadTd & ~0xF) == (uint32_t) m_pTdTail )
hexley	0:281d6ff68967	349	{
hexley	0:281d6ff68967	350	//Done
hexley	0:281d6ff68967	351	int len;
hexley	0:281d6ff68967	352	//DBG("m_pTdHead->CurrBufPtr = %08x, m_pBufStartPtr=%08x\n", m_pTdHead->CurrBufPtr, (uint32_t) m_pBufStartPtr);
hexley	0:281d6ff68967	353	if(m_pTdHead->CurrBufPtr)
hexley	0:281d6ff68967	354	len = m_pTdHead->CurrBufPtr - (uint32_t) m_pBufStartPtr;
hexley	0:281d6ff68967	355	else
hexley	0:281d6ff68967	356	len = m_len;
hexley	0:281d6ff68967	357	/*if(len == 0) //Packet transfered completely
hexley	0:281d6ff68967	358	len = m_len;*/
hexley	0:281d6ff68967	359	//m_done = true;
hexley	0:281d6ff68967	360	DBG("Transfered %d bytes\n", len);
hexley	0:281d6ff68967	361	m_status = len;
hexley	0:281d6ff68967	362	}
hexley	0:281d6ff68967	363	else
hexley	0:281d6ff68967	364	{
hexley	0:281d6ff68967	365	DBG("Unknown error...\n");
hexley	0:281d6ff68967	366	m_status = (int)USBERR_ERROR;
hexley	0:281d6ff68967	367	}
hexley	0:281d6ff68967	368	m_result = true;
hexley	0:281d6ff68967	369	if(m_pCbItem && m_pCbMeth)
hexley	0:281d6ff68967	370	(m_pCbItem->*m_pCbMeth)();
hexley	0:281d6ff68967	371	}
hexley	0:281d6ff68967	372
hexley	0:281d6ff68967	373	void UsbEndpoint::sOnCompletion(uint32_t pTd)
hexley	0:281d6ff68967	374	{
hexley	0:281d6ff68967	375	if(!m_pHeadEp)
hexley	0:281d6ff68967	376	return;
hexley	0:281d6ff68967	377	do
hexley	0:281d6ff68967	378	{
hexley	0:281d6ff68967	379	//DBG("sOnCompletion (pTd = %08x)\n", pTd);
hexley	0:281d6ff68967	380	UsbEndpoint* pEp = m_pHeadEp;
hexley	0:281d6ff68967	381	do
hexley	0:281d6ff68967	382	{
hexley	0:281d6ff68967	383	if((uint32_t)pEp->m_pTdHead == pTd)
hexley	0:281d6ff68967	384	{
hexley	0:281d6ff68967	385	pEp->onCompletion();
hexley	0:281d6ff68967	386	break;
hexley	0:281d6ff68967	387	}
hexley	0:281d6ff68967	388	} while(pEp = pEp->m_pNextEp);
hexley	0:281d6ff68967	389	} while( pTd = (uint32_t)( ((HCTD*)pTd)->Next ) ); //Go around the Done queue
hexley	0:281d6ff68967	390	}
hexley	0:281d6ff68967	391
hexley	0:281d6ff68967	392	UsbEndpoint* UsbEndpoint::m_pHeadEp = NULL;
hexley	0:281d6ff68967	393
hexley	0:281d6ff68967	394	#endif

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Type:	Library
Created:	19 Nov 2010
Imports:	44
Forks:	0
Commits:	1
Dependents:	0
Dependencies:	0
Followers:	1

drv/usb/UsbEndpoint.cpp@0:281d6ff68967, 2010-11-19 (annotated)

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