Added TARGET_DISCO_F469NI in USBHOST\USBHost\TARGET_STM\USBHALHost_STM_TARGET.h
Dependents: DISCO-F469NI_USB_Disk STM32F4xx_USB_Memory
Fork of USBHOST by
Diff: USBHost/USBHost.cpp
- Revision:
- 1:ab240722d7ef
- Child:
- 5:fc157e6bd5a5
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/USBHost/USBHost.cpp Wed Feb 15 10:49:44 2017 +0100 @@ -0,0 +1,1186 @@ +/* mbed USBHost Library + * Copyright (c) 2006-2013 ARM Limited + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + + +#include "USBHost.h" +#include "USBHostHub.h" + +USBHost * USBHost::instHost = NULL; + +#define DEVICE_CONNECTED_EVENT (1 << 0) +#define DEVICE_DISCONNECTED_EVENT (1 << 1) +#define TD_PROCESSED_EVENT (1 << 2) + +#define MAX_TRY_ENUMERATE_HUB 3 + +#define MIN(a, b) ((a > b) ? b : a) + +/** +* How interrupts are processed: +* - new device connected: +* - a message is queued in queue_usb_event with the id DEVICE_CONNECTED_EVENT +* - when the usb_thread receives the event, it: +* - resets the device +* - reads the device descriptor +* - sets the address of the device +* - if it is a hub, enumerates it +* - device disconnected: +* - a message is queued in queue_usb_event with the id DEVICE_DISCONNECTED_EVENT +* - when the usb_thread receives the event, it: +* - free the device and all its children (hub) +* - td processed +* - a message is queued in queue_usb_event with the id TD_PROCESSED_EVENT +* - when the usb_thread receives the event, it: +* - call the callback attached to the endpoint where the td is attached +*/ +void USBHost::usb_process() { + + bool controlListState; + bool bulkListState; + bool interruptListState; + USBEndpoint * ep; + uint8_t i, j, res, timeout_set_addr = 10; + uint8_t buf[8]; + bool too_many_hub; + int idx; + +#if DEBUG_TRANSFER + uint8_t * buf_transfer; +#endif + +#if MAX_HUB_NB + uint8_t k; +#endif + + while(1) { + osEvent evt = mail_usb_event.get(); + + if (evt.status == osEventMail) { + + message_t * usb_msg = (message_t*)evt.value.p; + + switch (usb_msg->event_id) { + + // a new device has been connected + case DEVICE_CONNECTED_EVENT: + too_many_hub = false; + buf[4] = 0; + + do + { + Lock lock(this); + + for (i = 0; i < MAX_DEVICE_CONNECTED; i++) { + if (!deviceInUse[i]) { + USB_DBG_EVENT("new device connected: %p\r\n", &devices[i]); + devices[i].init(usb_msg->hub, usb_msg->port, usb_msg->lowSpeed); + deviceReset[i] = false; + deviceInited[i] = true; + break; + } + } + + if (i == MAX_DEVICE_CONNECTED) { + USB_ERR("Too many device connected!!\r\n"); + continue; + } + + if (!controlEndpointAllocated) { + control = newEndpoint(CONTROL_ENDPOINT, OUT, 0x08, 0x00); + addEndpoint(NULL, 0, (USBEndpoint*)control); + controlEndpointAllocated = true; + } + + #if MAX_HUB_NB + if (usb_msg->hub_parent) + devices[i].setHubParent((USBHostHub *)(usb_msg->hub_parent)); + #endif + + for (j = 0; j < timeout_set_addr; j++) { + + resetDevice(&devices[i]); + + // set size of control endpoint + devices[i].setSizeControlEndpoint(8); + + devices[i].activeAddress(false); + + // get first 8 bit of device descriptor + // and check if we deal with a hub + USB_DBG("usb_thread read device descriptor on dev: %p\r\n", &devices[i]); + res = getDeviceDescriptor(&devices[i], buf, 8); + + if (res != USB_TYPE_OK) { + USB_ERR("usb_thread could not read dev descr"); + continue; + } + + // set size of control endpoint + devices[i].setSizeControlEndpoint(buf[7]); + + // second step: set an address to the device + res = setAddress(&devices[i], devices[i].getAddress()); + + if (res != USB_TYPE_OK) { + USB_ERR("SET ADDR FAILED"); + continue; + } + devices[i].activeAddress(true); + USB_DBG("Address of %p: %d", &devices[i], devices[i].getAddress()); + + // try to read again the device descriptor to check if the device + // answers to its new address + res = getDeviceDescriptor(&devices[i], buf, 8); + + if (res == USB_TYPE_OK) { + break; + } + + Thread::wait(100); + } + + USB_INFO("New device connected: %p [hub: %d - port: %d]", &devices[i], usb_msg->hub, usb_msg->port); + + #if MAX_HUB_NB + if (buf[4] == HUB_CLASS) { + for (k = 0; k < MAX_HUB_NB; k++) { + if (hub_in_use[k] == false) { + for (uint8_t j = 0; j < MAX_TRY_ENUMERATE_HUB; j++) { + if (hubs[k].connect(&devices[i])) { + devices[i].hub = &hubs[k]; + hub_in_use[k] = true; + break; + } + } + if (hub_in_use[k] == true) + break; + } + } + + if (k == MAX_HUB_NB) { + USB_ERR("Too many hubs connected!!\r\n"); + too_many_hub = true; + } + } + + if (usb_msg->hub_parent) + ((USBHostHub *)(usb_msg->hub_parent))->deviceConnected(&devices[i]); + #endif + + if ((i < MAX_DEVICE_CONNECTED) && !too_many_hub) { + deviceInUse[i] = true; + } + + } while(0); + + break; + + // a device has been disconnected + case DEVICE_DISCONNECTED_EVENT: + + do + { + Lock lock(this); + + controlListState = disableList(CONTROL_ENDPOINT); + bulkListState = disableList(BULK_ENDPOINT); + interruptListState = disableList(INTERRUPT_ENDPOINT); + + idx = findDevice(usb_msg->hub, usb_msg->port, (USBHostHub *)(usb_msg->hub_parent)); + if (idx != -1) { + freeDevice((USBDeviceConnected*)&devices[idx]); + } + + if (controlListState) enableList(CONTROL_ENDPOINT); + if (bulkListState) enableList(BULK_ENDPOINT); + if (interruptListState) enableList(INTERRUPT_ENDPOINT); + + } while(0); + + break; + + // a td has been processed + // call callback on the ed associated to the td + // we are not in ISR -> users can use printf in their callback method + case TD_PROCESSED_EVENT: + ep = (USBEndpoint *) ((HCTD *)usb_msg->td_addr)->ep; + if (usb_msg->td_state == USB_TYPE_IDLE) { + USB_DBG_EVENT("call callback on td %p [ep: %p state: %s - dev: %p - %s]", usb_msg->td_addr, ep, ep->getStateString(), ep->dev, ep->dev->getName(ep->getIntfNb())); + +#if DEBUG_TRANSFER + if (ep->getDir() == IN) { + buf_transfer = ep->getBufStart(); + printf("READ SUCCESS [%d bytes transferred - td: 0x%08X] on ep: [%p - addr: %02X]: ", ep->getLengthTransferred(), usb_msg->td_addr, ep, ep->getAddress()); + for (int i = 0; i < ep->getLengthTransferred(); i++) + printf("%02X ", buf_transfer[i]); + printf("\r\n\r\n"); + } +#endif + ep->call(); + } else { + idx = findDevice(ep->dev); + if (idx != -1) { + if (deviceInUse[idx]) { + USB_WARN("td %p processed but not in idle state: %s [ep: %p - dev: %p - %s]", usb_msg->td_addr, ep->getStateString(), ep, ep->dev, ep->dev->getName(ep->getIntfNb())); + ep->setState(USB_TYPE_IDLE); + } + } + } + break; + } + + mail_usb_event.free(usb_msg); + } + } +} + +USBHost::USBHost() : usbThread(osPriorityNormal, USB_THREAD_STACK) +{ +#ifndef USBHOST_OTHER + headControlEndpoint = NULL; + headBulkEndpoint = NULL; + headInterruptEndpoint = NULL; + tailControlEndpoint = NULL; + tailBulkEndpoint = NULL; + tailInterruptEndpoint = NULL; +#endif + lenReportDescr = 0; + + controlEndpointAllocated = false; + + for (uint8_t i = 0; i < MAX_DEVICE_CONNECTED; i++) { + deviceInUse[i] = false; + devices[i].setAddress(i + 1); + deviceReset[i] = false; + deviceInited[i] = false; + for (uint8_t j = 0; j < MAX_INTF; j++) + deviceAttachedDriver[i][j] = false; + } + +#if MAX_HUB_NB + for (uint8_t i = 0; i < MAX_HUB_NB; i++) { + hubs[i].setHost(this); + hub_in_use[i] = false; + } +#endif + + usbThread.start(this, &USBHost::usb_process); +} + +USBHost::Lock::Lock(USBHost* pHost) : m_pHost(pHost) +{ + m_pHost->usb_mutex.lock(); +} + +USBHost::Lock::~Lock() +{ + m_pHost->usb_mutex.unlock(); +} + +void USBHost::transferCompleted(volatile uint32_t addr) +{ + uint8_t state; + + if(addr == 0) + return; + + volatile HCTD* tdList = NULL; + + //First we must reverse the list order and dequeue each TD + do { + volatile HCTD* td = (volatile HCTD*)addr; + addr = (uint32_t)td->nextTD; //Dequeue from physical list + td->nextTD = (hcTd*)tdList; //Enqueue into reversed list + tdList = td; + } while(addr); + + while(tdList != NULL) { + volatile HCTD* td = tdList; + tdList = (volatile HCTD*)td->nextTD; //Dequeue element now as it could be modified below + if (td->ep != NULL) { + USBEndpoint * ep = (USBEndpoint *)(td->ep); + +#ifdef USBHOST_OTHER + state = ((HCTD *)td)->state; + if (state == USB_TYPE_IDLE) + ep->setLengthTransferred((uint32_t)td->currBufPtr - (uint32_t)ep->getBufStart()); + +#else + if (((HCTD *)td)->control >> 28) { + state = ((HCTD *)td)->control >> 28; + } else { + if (td->currBufPtr) + ep->setLengthTransferred((uint32_t)td->currBufPtr - (uint32_t)ep->getBufStart()); + state = 16 /*USB_TYPE_IDLE*/; + } +#endif + if (state == USB_TYPE_IDLE) + ep->setLengthTransferred((uint32_t)td->currBufPtr - (uint32_t)ep->getBufStart()); + + ep->unqueueTransfer(td); + + if (ep->getType() != CONTROL_ENDPOINT) { + // callback on the processed td will be called from the usb_thread (not in ISR) + message_t * usb_msg = mail_usb_event.alloc(); + usb_msg->event_id = TD_PROCESSED_EVENT; + usb_msg->td_addr = (void *)td; + usb_msg->td_state = state; + mail_usb_event.put(usb_msg); + } + ep->setState(state); + ep->ep_queue.put((uint8_t*)1); + } + } +} + +USBHost * USBHost::getHostInst() +{ + if (instHost == NULL) { + instHost = new USBHost(); + instHost->init(); + } + return instHost; +} + + +/* + * Called when a device has been connected + * Called in ISR!!!! (no printf) + */ +/* virtual */ void USBHost::deviceConnected(int hub, int port, bool lowSpeed, USBHostHub * hub_parent) +{ + // be sure that the new device connected is not already connected... + int idx = findDevice(hub, port, hub_parent); + if (idx != -1) { + if (deviceInited[idx]) + return; + } + + message_t * usb_msg = mail_usb_event.alloc(); + usb_msg->event_id = DEVICE_CONNECTED_EVENT; + usb_msg->hub = hub; + usb_msg->port = port; + usb_msg->lowSpeed = lowSpeed; + usb_msg->hub_parent = hub_parent; + mail_usb_event.put(usb_msg); +} + +/* + * Called when a device has been disconnected + * Called in ISR!!!! (no printf) + */ +/* virtual */ void USBHost::deviceDisconnected(int hub, int port, USBHostHub * hub_parent, volatile uint32_t addr) +{ + // be sure that the device disconnected is connected... + int idx = findDevice(hub, port, hub_parent); + if (idx != -1) { + if (!deviceInUse[idx]) + return; + } else { + return; + } + + message_t * usb_msg = mail_usb_event.alloc(); + usb_msg->event_id = DEVICE_DISCONNECTED_EVENT; + usb_msg->hub = hub; + usb_msg->port = port; + usb_msg->hub_parent = hub_parent; + mail_usb_event.put(usb_msg); +} + +void USBHost::freeDevice(USBDeviceConnected * dev) +{ + USBEndpoint * ep = NULL; + HCED * ed = NULL; + +#if MAX_HUB_NB + if (dev->getClass() == HUB_CLASS) { + if (dev->hub == NULL) { + USB_ERR("HUB NULL!!!!!\r\n"); + } else { + dev->hub->hubDisconnected(); + for (uint8_t i = 0; i < MAX_HUB_NB; i++) { + if (dev->hub == &hubs[i]) { + hub_in_use[i] = false; + break; + } + } + } + } + + // notify hub parent that this device has been disconnected + if (dev->getHubParent()) + dev->getHubParent()->deviceDisconnected(dev); + +#endif + + int idx = findDevice(dev); + if (idx != -1) { + deviceInUse[idx] = false; + deviceReset[idx] = false; + + for (uint8_t j = 0; j < MAX_INTF; j++) { + deviceAttachedDriver[idx][j] = false; + if (dev->getInterface(j) != NULL) { + USB_DBG("FREE INTF %d on dev: %p, %p, nb_endpot: %d, %s", j, (void *)dev->getInterface(j), dev, dev->getInterface(j)->nb_endpoint, dev->getName(j)); + for (int i = 0; i < dev->getInterface(j)->nb_endpoint; i++) { + if ((ep = dev->getEndpoint(j, i)) != NULL) { +#ifndef USBHOST_OTHER + ed = (HCED *)ep->getHCED(); + ed->control |= (1 << 14); //sKip bit +#endif + unqueueEndpoint(ep); + + freeTD((volatile uint8_t*)ep->getTDList()[0]); + freeTD((volatile uint8_t*)ep->getTDList()[1]); + + freeED((uint8_t *)ep->getHCED()); + } + printList(BULK_ENDPOINT); + printList(INTERRUPT_ENDPOINT); + } + USB_INFO("Device disconnected [%p - %s - hub: %d - port: %d]", dev, dev->getName(j), dev->getHub(), dev->getPort()); + } + } + dev->disconnect(); + } +} + + +void USBHost::unqueueEndpoint(USBEndpoint * ep) +{ +#ifdef USBHOST_OTHER + ep->setState(USB_TYPE_FREE); +#else + USBEndpoint * prec = NULL; + USBEndpoint * current = NULL; + + for (int i = 0; i < 2; i++) { + current = (i == 0) ? (USBEndpoint*)headBulkEndpoint : (USBEndpoint*)headInterruptEndpoint; + prec = current; + while (current != NULL) { + if (current == ep) { + if (current->nextEndpoint() != NULL) { + prec->queueEndpoint(current->nextEndpoint()); + if (current == headBulkEndpoint) { + updateBulkHeadED((uint32_t)current->nextEndpoint()->getHCED()); + headBulkEndpoint = current->nextEndpoint(); + } else if (current == headInterruptEndpoint) { + updateInterruptHeadED((uint32_t)current->nextEndpoint()->getHCED()); + headInterruptEndpoint = current->nextEndpoint(); + } + } + // here we are dequeuing the queue of ed + // we need to update the tail pointer + else { + prec->queueEndpoint(NULL); + if (current == headBulkEndpoint) { + updateBulkHeadED(0); + headBulkEndpoint = current->nextEndpoint(); + } else if (current == headInterruptEndpoint) { + updateInterruptHeadED(0); + headInterruptEndpoint = current->nextEndpoint(); + } + + // modify tail + switch (current->getType()) { + case BULK_ENDPOINT: + tailBulkEndpoint = prec; + break; + case INTERRUPT_ENDPOINT: + tailInterruptEndpoint = prec; + break; + default: + break; + } + } + current->setState(USB_TYPE_FREE); + return; + } + prec = current; + current = current->nextEndpoint(); + } + } +#endif +} + + +USBDeviceConnected * USBHost::getDevice(uint8_t index) +{ + if ((index >= MAX_DEVICE_CONNECTED) || (!deviceInUse[index])) { + return NULL; + } + return (USBDeviceConnected*)&devices[index]; +} + +// create an USBEndpoint descriptor. the USBEndpoint is not linked +USBEndpoint * USBHost::newEndpoint(ENDPOINT_TYPE type, ENDPOINT_DIRECTION dir, uint32_t size, uint8_t addr) +{ + int i = 0; + HCED * ed = (HCED *)getED(); + HCTD* td_list[2] = { (HCTD*)getTD(), (HCTD*)getTD() }; + + memset((void *)td_list[0], 0x00, sizeof(HCTD)); + memset((void *)td_list[1], 0x00, sizeof(HCTD)); + + // search a free USBEndpoint + for (i = 0; i < MAX_ENDPOINT; i++) { + if (endpoints[i].getState() == USB_TYPE_FREE) { + endpoints[i].init(ed, type, dir, size, addr, td_list); + USB_DBG("USBEndpoint created (%p): type: %d, dir: %d, size: %d, addr: %d, state: %s", &endpoints[i], type, dir, size, addr, endpoints[i].getStateString()); + return &endpoints[i]; + } + } + USB_ERR("could not allocate more endpoints!!!!"); + return NULL; +} + + +USB_TYPE USBHost::resetDevice(USBDeviceConnected * dev) +{ + int index = findDevice(dev); + if (index != -1) { + USB_DBG("Resetting hub %d, port %d\n", dev->getHub(), dev->getPort()); + Thread::wait(100); + if (dev->getHub() == 0) { + resetRootHub(); + } +#if MAX_HUB_NB + else { + dev->getHubParent()->portReset(dev->getPort()); + } +#endif + Thread::wait(100); + deviceReset[index] = true; + return USB_TYPE_OK; + } + + return USB_TYPE_ERROR; +} + +// link the USBEndpoint to the linked list and attach an USBEndpoint to a device +bool USBHost::addEndpoint(USBDeviceConnected * dev, uint8_t intf_nb, USBEndpoint * ep) +{ + + if (ep == NULL) { + return false; + } + +#ifndef USBHOST_OTHER + HCED * prevEd; + +#endif + // set device address in the USBEndpoint descriptor + if (dev == NULL) { + ep->setDeviceAddress(0); + } else { + ep->setDeviceAddress(dev->getAddress()); + } + + if ((dev != NULL) && dev->getSpeed()) { + ep->setSpeed(dev->getSpeed()); + } + + ep->setIntfNb(intf_nb); + +#ifndef USBHOST_OTHER + // queue the new USBEndpoint on the ED list + switch (ep->getType()) { + + case CONTROL_ENDPOINT: + prevEd = ( HCED*) controlHeadED(); + if (!prevEd) { + updateControlHeadED((uint32_t) ep->getHCED()); + USB_DBG_TRANSFER("First control USBEndpoint: %08X", (uint32_t) ep->getHCED()); + headControlEndpoint = ep; + tailControlEndpoint = ep; + return true; + } + tailControlEndpoint->queueEndpoint(ep); + tailControlEndpoint = ep; + return true; + + case BULK_ENDPOINT: + prevEd = ( HCED*) bulkHeadED(); + if (!prevEd) { + updateBulkHeadED((uint32_t) ep->getHCED()); + USB_DBG_TRANSFER("First bulk USBEndpoint: %08X\r\n", (uint32_t) ep->getHCED()); + headBulkEndpoint = ep; + tailBulkEndpoint = ep; + break; + } + USB_DBG_TRANSFER("Queue BULK Ed %p after %p\r\n",ep->getHCED(), prevEd); + tailBulkEndpoint->queueEndpoint(ep); + tailBulkEndpoint = ep; + break; + + case INTERRUPT_ENDPOINT: + prevEd = ( HCED*) interruptHeadED(); + if (!prevEd) { + updateInterruptHeadED((uint32_t) ep->getHCED()); + USB_DBG_TRANSFER("First interrupt USBEndpoint: %08X\r\n", (uint32_t) ep->getHCED()); + headInterruptEndpoint = ep; + tailInterruptEndpoint = ep; + break; + } + USB_DBG_TRANSFER("Queue INTERRUPT Ed %p after %p\r\n",ep->getHCED(), prevEd); + tailInterruptEndpoint->queueEndpoint(ep); + tailInterruptEndpoint = ep; + break; + default: + return false; + } + +#endif + ep->dev = dev; + dev->addEndpoint(intf_nb, ep); + + return true; +} + + +int USBHost::findDevice(USBDeviceConnected * dev) +{ + for (int i = 0; i < MAX_DEVICE_CONNECTED; i++) { + if (dev == &devices[i]) { + return i; + } + } + return -1; +} + +int USBHost::findDevice(uint8_t hub, uint8_t port, USBHostHub * hub_parent) +{ + for (int i = 0; i < MAX_DEVICE_CONNECTED; i++) { + if (devices[i].getHub() == hub && devices[i].getPort() == port) { + if (hub_parent != NULL) { + if (hub_parent == devices[i].getHubParent()) + return i; + } else { + return i; + } + } + } + return -1; +} + +void USBHost::printList(ENDPOINT_TYPE type) +{ +#if defined(DEBUG_EP_STATE) && !defined(USBHOST_OTHER) + volatile HCED * hced; + switch(type) { + case CONTROL_ENDPOINT: + hced = (HCED *)controlHeadED(); + break; + case BULK_ENDPOINT: + hced = (HCED *)bulkHeadED(); + break; + case INTERRUPT_ENDPOINT: + hced = (HCED *)interruptHeadED(); + break; + } + volatile HCTD * hctd = NULL; + const char * type_str = (type == BULK_ENDPOINT) ? "BULK" : + ((type == INTERRUPT_ENDPOINT) ? "INTERRUPT" : + ((type == CONTROL_ENDPOINT) ? "CONTROL" : "ISOCHRONOUS")); + printf("State of %s:\r\n", type_str); + while (hced != NULL) { + uint8_t dir = ((hced->control & (3 << 11)) >> 11); + printf("hced: %p [ADDR: %d, DIR: %s, EP_NB: 0x%X]\r\n", hced, + hced->control & 0x7f, + (dir == 1) ? "OUT" : ((dir == 0) ? "FROM_TD":"IN"), + (hced->control & (0xf << 7)) >> 7); + hctd = (HCTD *)((uint32_t)(hced->headTD) & ~(0xf)); + while (hctd != hced->tailTD) { + printf("\thctd: %p [DIR: %s]\r\n", hctd, ((hctd->control & (3 << 19)) >> 19) == 1 ? "OUT" : "IN"); + hctd = hctd->nextTD; + } + printf("\thctd: %p\r\n", hctd); + hced = hced->nextED; + } + printf("\r\n\r\n"); +#endif +} + + +// add a transfer on the TD linked list +USB_TYPE USBHost::addTransfer(USBEndpoint * ed, uint8_t * buf, uint32_t len) +{ + USB_TYPE ret=USB_TYPE_PROCESSING; + td_mutex.lock(); + + // allocate a TD which will be freed in TDcompletion + volatile HCTD * td = ed->getNextTD(); + if (td == NULL) { + return USB_TYPE_ERROR; + } + +#ifndef USBHOST_OTHER + uint32_t token = (ed->isSetup() ? TD_SETUP : ( (ed->getDir() == IN) ? TD_IN : TD_OUT )); + + uint32_t td_toggle; + + if (ed->getType() == CONTROL_ENDPOINT) { + if (ed->isSetup()) { + td_toggle = TD_TOGGLE_0; + } else { + td_toggle = TD_TOGGLE_1; + } + } else { + td_toggle = 0; + } + + td->control = (TD_ROUNDING | token | TD_DELAY_INT(0) | td_toggle | TD_CC); + td->currBufPtr = buf; + td->bufEnd = (buf + (len - 1)); + + ENDPOINT_TYPE type = ed->getType(); + + disableList(type); + ed->queueTransfer(); + printList(type); + enableList(type); +#else + /* call method specific for endpoint */ + td->currBufPtr = buf; + td->size = len; + ret = ed->queueTransfer(); +#endif + + td_mutex.unlock(); + + return ret; +} + + + +USB_TYPE USBHost::getDeviceDescriptor(USBDeviceConnected * dev, uint8_t * buf, uint16_t max_len_buf, uint16_t * len_dev_descr) +{ + USB_TYPE t = controlRead( dev, + USB_DEVICE_TO_HOST | USB_RECIPIENT_DEVICE, + GET_DESCRIPTOR, + (DEVICE_DESCRIPTOR << 8) | (0), + 0, buf, MIN(DEVICE_DESCRIPTOR_LENGTH, max_len_buf)); + if (len_dev_descr) + *len_dev_descr = MIN(DEVICE_DESCRIPTOR_LENGTH, max_len_buf); + + return t; +} + +USB_TYPE USBHost::getConfigurationDescriptor(USBDeviceConnected * dev, uint8_t * buf, uint16_t max_len_buf, uint16_t * len_conf_descr) +{ + USB_TYPE res; + uint16_t total_conf_descr_length = 0; + + // fourth step: get the beginning of the configuration descriptor to have the total length of the conf descr + res = controlRead( dev, + USB_DEVICE_TO_HOST | USB_RECIPIENT_DEVICE, + GET_DESCRIPTOR, + (CONFIGURATION_DESCRIPTOR << 8) | (0), + 0, buf, CONFIGURATION_DESCRIPTOR_LENGTH); + + if (res != USB_TYPE_OK) { + USB_ERR("GET CONF 1 DESCR FAILED"); + return res; + } + total_conf_descr_length = buf[2] | (buf[3] << 8); + total_conf_descr_length = MIN(max_len_buf, total_conf_descr_length); + + if (len_conf_descr) + *len_conf_descr = total_conf_descr_length; + + USB_DBG("TOTAL_LENGTH: %d \t NUM_INTERF: %d", total_conf_descr_length, buf[4]); + + return controlRead( dev, + USB_DEVICE_TO_HOST | USB_RECIPIENT_DEVICE, + GET_DESCRIPTOR, + (CONFIGURATION_DESCRIPTOR << 8) | (0), + 0, buf, total_conf_descr_length); +} + + +USB_TYPE USBHost::setAddress(USBDeviceConnected * dev, uint8_t address) { + return controlWrite( dev, + USB_HOST_TO_DEVICE | USB_RECIPIENT_DEVICE, + SET_ADDRESS, + address, + 0, NULL, 0); + +} + +USB_TYPE USBHost::setConfiguration(USBDeviceConnected * dev, uint8_t conf) +{ + return controlWrite( dev, + USB_HOST_TO_DEVICE | USB_RECIPIENT_DEVICE, + SET_CONFIGURATION, + conf, + 0, NULL, 0); +} + +uint8_t USBHost::numberDriverAttached(USBDeviceConnected * dev) { + int index = findDevice(dev); + uint8_t cnt = 0; + if (index == -1) + return 0; + for (uint8_t i = 0; i < MAX_INTF; i++) { + if (deviceAttachedDriver[index][i]) + cnt++; + } + return cnt; +} + +// enumerate a device with the control USBEndpoint +USB_TYPE USBHost::enumerate(USBDeviceConnected * dev, IUSBEnumerator* pEnumerator) +{ + uint16_t total_conf_descr_length = 0; + USB_TYPE res; + + do + { + Lock lock(this); + + // don't enumerate a device which all interfaces are registered to a specific driver + int index = findDevice(dev); + + if (index == -1) { + return USB_TYPE_ERROR; + } + + uint8_t nb_intf_attached = numberDriverAttached(dev); + USB_DBG("dev: %p nb_intf: %d", dev, dev->getNbIntf()); + USB_DBG("dev: %p nb_intf_attached: %d", dev, nb_intf_attached); + if ((nb_intf_attached != 0) && (dev->getNbIntf() == nb_intf_attached)) { + USB_DBG("Don't enumerate dev: %p because all intf are registered with a driver", dev); + return USB_TYPE_OK; + } + + USB_DBG("Enumerate dev: %p", dev); + + // third step: get the whole device descriptor to see vid, pid + res = getDeviceDescriptor(dev, data, DEVICE_DESCRIPTOR_LENGTH); + + if (res != USB_TYPE_OK) { + USB_DBG("GET DEV DESCR FAILED"); + return res; + } + + dev->setClass(data[4]); + dev->setSubClass(data[5]); + dev->setProtocol(data[6]); + dev->setVid(data[8] | (data[9] << 8)); + dev->setPid(data[10] | (data[11] << 8)); + USB_DBG("CLASS: %02X \t VID: %04X \t PID: %04X", data[4], data[8] | (data[9] << 8), data[10] | (data[11] << 8)); + + pEnumerator->setVidPid( data[8] | (data[9] << 8), data[10] | (data[11] << 8) ); + + res = getConfigurationDescriptor(dev, data, sizeof(data), &total_conf_descr_length); + if (res != USB_TYPE_OK) { + return res; + } + + #if (DEBUG > 3) + USB_DBG("CONFIGURATION DESCRIPTOR:\r\n"); + for (int i = 0; i < total_conf_descr_length; i++) + printf("%02X ", data[i]); + printf("\r\n\r\n"); + #endif + + // Parse the configuration descriptor + parseConfDescr(dev, data, total_conf_descr_length, pEnumerator); + + // only set configuration if not enumerated before + if (!dev->isEnumerated()) { + + USB_DBG("Set configuration 1 on dev: %p", dev); + // sixth step: set configuration (only 1 supported) + res = setConfiguration(dev, 1); + + if (res != USB_TYPE_OK) { + USB_DBG("SET CONF FAILED"); + return res; + } + } + + dev->setEnumerated(); + + // Now the device is enumerated! + USB_DBG("dev %p is enumerated\r\n", dev); + + } while(0); + + // Some devices may require this delay + Thread::wait(100); + + return USB_TYPE_OK; +} +// this method fills the USBDeviceConnected object: class,.... . It also add endpoints found in the descriptor. +void USBHost::parseConfDescr(USBDeviceConnected * dev, uint8_t * conf_descr, uint32_t len, IUSBEnumerator* pEnumerator) +{ + uint32_t index = 0; + uint32_t len_desc = 0; + uint8_t id = 0; + int nb_endpoints_used = 0; + USBEndpoint * ep = NULL; + uint8_t intf_nb = 0; + bool parsing_intf = false; + uint8_t current_intf = 0; + + while (index < len) { + len_desc = conf_descr[index]; + id = conf_descr[index+1]; + switch (id) { + case CONFIGURATION_DESCRIPTOR: + USB_DBG("dev: %p has %d intf", dev, conf_descr[4]); + dev->setNbIntf(conf_descr[4]); + break; + case INTERFACE_DESCRIPTOR: + if(pEnumerator->parseInterface(conf_descr[index + 2], conf_descr[index + 5], conf_descr[index + 6], conf_descr[index + 7])) { + if (intf_nb++ <= MAX_INTF) { + current_intf = conf_descr[index + 2]; + dev->addInterface(current_intf, conf_descr[index + 5], conf_descr[index + 6], conf_descr[index + 7]); + nb_endpoints_used = 0; + USB_DBG("ADD INTF %d on device %p: class: %d, subclass: %d, proto: %d", current_intf, dev, conf_descr[index + 5],conf_descr[index + 6],conf_descr[index + 7]); + } else { + USB_DBG("Drop intf..."); + } + parsing_intf = true; + } else { + parsing_intf = false; + } + break; + case ENDPOINT_DESCRIPTOR: + if (parsing_intf && (intf_nb <= MAX_INTF) ) { + if (nb_endpoints_used < MAX_ENDPOINT_PER_INTERFACE) { + if( pEnumerator->useEndpoint(current_intf, (ENDPOINT_TYPE)(conf_descr[index + 3] & 0x03), (ENDPOINT_DIRECTION)((conf_descr[index + 2] >> 7) + 1)) ) { + // if the USBEndpoint is isochronous -> skip it (TODO: fix this) + if ((conf_descr[index + 3] & 0x03) != ISOCHRONOUS_ENDPOINT) { + ep = newEndpoint((ENDPOINT_TYPE)(conf_descr[index+3] & 0x03), + (ENDPOINT_DIRECTION)((conf_descr[index + 2] >> 7) + 1), + conf_descr[index + 4] | (conf_descr[index + 5] << 8), + conf_descr[index + 2] & 0x0f); + USB_DBG("ADD USBEndpoint %p, on interf %d on device %p", ep, current_intf, dev); + if (ep != NULL && dev != NULL) { + addEndpoint(dev, current_intf, ep); + } else { + USB_DBG("EP NULL"); + } + nb_endpoints_used++; + } else { + USB_DBG("ISO USBEndpoint NOT SUPPORTED"); + } + } + } + } + break; + case HID_DESCRIPTOR: + lenReportDescr = conf_descr[index + 7] | (conf_descr[index + 8] << 8); + break; + default: + break; + } + index += len_desc; + } +} + + +USB_TYPE USBHost::bulkWrite(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) +{ + return generalTransfer(dev, ep, buf, len, blocking, BULK_ENDPOINT, true); +} + +USB_TYPE USBHost::bulkRead(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) +{ + return generalTransfer(dev, ep, buf, len, blocking, BULK_ENDPOINT, false); +} + +USB_TYPE USBHost::interruptWrite(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) +{ + return generalTransfer(dev, ep, buf, len, blocking, INTERRUPT_ENDPOINT, true); +} + +USB_TYPE USBHost::interruptRead(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) +{ + return generalTransfer(dev, ep, buf, len, blocking, INTERRUPT_ENDPOINT, false); +} + +USB_TYPE USBHost::generalTransfer(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking, ENDPOINT_TYPE type, bool write) { + +#if DEBUG_TRANSFER + const char * type_str = (type == BULK_ENDPOINT) ? "BULK" : ((type == INTERRUPT_ENDPOINT) ? "INTERRUPT" : "ISOCHRONOUS"); + USB_DBG_TRANSFER("----- %s %s [dev: %p - %s - hub: %d - port: %d - addr: %d - ep: %02X]------", type_str, (write) ? "WRITE" : "READ", dev, dev->getName(ep->getIntfNb()), dev->getHub(), dev->getPort(), dev->getAddress(), ep->getAddress()); +#endif + + Lock lock(this); + + USB_TYPE res; + ENDPOINT_DIRECTION dir = (write) ? OUT : IN; + + if (dev == NULL) { + USB_ERR("dev NULL"); + return USB_TYPE_ERROR; + } + + if (ep == NULL) { + USB_ERR("ep NULL"); + return USB_TYPE_ERROR; + } + + if (ep->getState() != USB_TYPE_IDLE) { + USB_WARN("[ep: %p - dev: %p - %s] NOT IDLE: %s", ep, ep->dev, ep->dev->getName(ep->getIntfNb()), ep->getStateString()); + return ep->getState(); + } + + if ((ep->getDir() != dir) || (ep->getType() != type)) { + USB_ERR("[ep: %p - dev: %p] wrong dir or bad USBEndpoint type", ep, ep->dev); + return USB_TYPE_ERROR; + } + + if (dev->getAddress() != ep->getDeviceAddress()) { + USB_ERR("[ep: %p - dev: %p] USBEndpoint addr and device addr don't match", ep, ep->dev); + return USB_TYPE_ERROR; + } + +#if DEBUG_TRANSFER + if (write) { + USB_DBG_TRANSFER("%s WRITE buffer", type_str); + for (int i = 0; i < ep->getLengthTransferred(); i++) + printf("%02X ", buf[i]); + printf("\r\n\r\n"); + } +#endif + res = addTransfer(ep, buf, len); + + if ((blocking)&& (res == USB_TYPE_PROCESSING)) { + + ep->ep_queue.get(); + res = ep->getState(); + + USB_DBG_TRANSFER("%s TRANSFER res: %s on ep: %p\r\n", type_str, ep->getStateString(), ep); + + if (res != USB_TYPE_IDLE) { + return res; + } + + return USB_TYPE_OK; + } + + return res; + +} + + +USB_TYPE USBHost::controlRead(USBDeviceConnected * dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len) { + return controlTransfer(dev, requestType, request, value, index, buf, len, false); +} + +USB_TYPE USBHost::controlWrite(USBDeviceConnected * dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len) { + return controlTransfer(dev, requestType, request, value, index, buf, len, true); +} + +USB_TYPE USBHost::controlTransfer(USBDeviceConnected * dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len, bool write) +{ + Lock lock(this); + USB_DBG_TRANSFER("----- CONTROL %s [dev: %p - hub: %d - port: %d] ------", (write) ? "WRITE" : "READ", dev, dev->getHub(), dev->getPort()); + + int length_transfer = len; + USB_TYPE res; + uint32_t token; + + control->setSpeed(dev->getSpeed()); + control->setSize(dev->getSizeControlEndpoint()); + if (dev->isActiveAddress()) { + control->setDeviceAddress(dev->getAddress()); + } else { + control->setDeviceAddress(0); + } + + USB_DBG_TRANSFER("Control transfer on device: %d\r\n", control->getDeviceAddress()); + fillControlBuf(requestType, request, value, index, len); + +#if DEBUG_TRANSFER + USB_DBG_TRANSFER("SETUP PACKET: "); + for (int i = 0; i < 8; i++) + printf("%01X ", setupPacket[i]); + printf("\r\n"); +#endif + + control->setNextToken(TD_SETUP); + res = addTransfer(control, (uint8_t*)setupPacket, 8); + + if (res == USB_TYPE_PROCESSING) control->ep_queue.get(); + res = control->getState(); + + USB_DBG_TRANSFER("CONTROL setup stage %s", control->getStateString()); + + if (res != USB_TYPE_IDLE) { + return res; + } + + if (length_transfer) { + token = (write) ? TD_OUT : TD_IN; + control->setNextToken(token); + res = addTransfer(control, (uint8_t *)buf, length_transfer); + + if (res == USB_TYPE_PROCESSING) control->ep_queue.get(); + res = control->getState(); + +#if DEBUG_TRANSFER + USB_DBG_TRANSFER("CONTROL %s stage %s", (write) ? "WRITE" : "READ", control->getStateString()); + if (write) { + USB_DBG_TRANSFER("CONTROL WRITE buffer"); + for (int i = 0; i < control->getLengthTransferred(); i++) + printf("%02X ", buf[i]); + printf("\r\n\r\n"); + } else { + USB_DBG_TRANSFER("CONTROL READ SUCCESS [%d bytes transferred]", control->getLengthTransferred()); + for (int i = 0; i < control->getLengthTransferred(); i++) + printf("%02X ", buf[i]); + printf("\r\n\r\n"); + } +#endif + + if (res != USB_TYPE_IDLE) { + return res; + } + } + + token = (write) ? TD_IN : TD_OUT; + control->setNextToken(token); + res = addTransfer(control, NULL, 0); + + if (res == USB_TYPE_PROCESSING) control->ep_queue.get(); + res = control->getState(); + + USB_DBG_TRANSFER("CONTROL ack stage %s", control->getStateString()); + + if (res != USB_TYPE_IDLE) + return res; + + return USB_TYPE_OK; +} + + +void USBHost::fillControlBuf(uint8_t requestType, uint8_t request, uint16_t value, uint16_t index, int len) +{ + setupPacket[0] = requestType; + setupPacket[1] = request; + setupPacket[2] = (uint8_t) value; + setupPacket[3] = (uint8_t) (value >> 8); + setupPacket[4] = (uint8_t) index; + setupPacket[5] = (uint8_t) (index >> 8); + setupPacket[6] = (uint8_t) len; + setupPacket[7] = (uint8_t) (len >> 8); +}