V18.

Dependencies:   FATFileSystem mbed-rtos

Fork of USBHost by mbed official

Committer:
samux
Date:
Mon Mar 18 14:46:56 2013 +0000
Revision:
10:0c11cf1cc218
Parent:
9:7671b6a8c363
Child:
13:b58a2204422f
fixed skip bit - fixed max size conf descriptor

Who changed what in which revision?

UserRevisionLine numberNew contents of line
samux 8:93da8ea2708b 1 /* mbed USBHost Library
samux 8:93da8ea2708b 2 * Copyright (c) 2006-2013 ARM Limited
samux 8:93da8ea2708b 3 *
samux 8:93da8ea2708b 4 * Licensed under the Apache License, Version 2.0 (the "License");
samux 8:93da8ea2708b 5 * you may not use this file except in compliance with the License.
samux 8:93da8ea2708b 6 * You may obtain a copy of the License at
samux 8:93da8ea2708b 7 *
samux 8:93da8ea2708b 8 * http://www.apache.org/licenses/LICENSE-2.0
samux 8:93da8ea2708b 9 *
samux 8:93da8ea2708b 10 * Unless required by applicable law or agreed to in writing, software
samux 8:93da8ea2708b 11 * distributed under the License is distributed on an "AS IS" BASIS,
samux 8:93da8ea2708b 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
samux 8:93da8ea2708b 13 * See the License for the specific language governing permissions and
samux 8:93da8ea2708b 14 * limitations under the License.
samux 8:93da8ea2708b 15 */
mbed_official 0:a554658735bf 16
mbed_official 0:a554658735bf 17
mbed_official 0:a554658735bf 18 #include "USBHost.h"
mbed_official 0:a554658735bf 19 #include "USBHostHub.h"
mbed_official 0:a554658735bf 20
mbed_official 0:a554658735bf 21 USBHost * USBHost::instHost = NULL;
mbed_official 0:a554658735bf 22
mbed_official 0:a554658735bf 23 #define DEVICE_CONNECTED_EVENT (1 << 0)
mbed_official 0:a554658735bf 24 #define DEVICE_DISCONNECTED_EVENT (1 << 1)
mbed_official 0:a554658735bf 25 #define TD_PROCESSED_EVENT (1 << 2)
mbed_official 0:a554658735bf 26
mbed_official 0:a554658735bf 27 #define MAX_TRY_ENUMERATE_HUB 3
mbed_official 0:a554658735bf 28
mbed_official 0:a554658735bf 29 #define MIN(a, b) ((a > b) ? b : a)
mbed_official 0:a554658735bf 30
mbed_official 0:a554658735bf 31 DigitalOut l4(LED4);
mbed_official 0:a554658735bf 32
mbed_official 0:a554658735bf 33 /**
mbed_official 0:a554658735bf 34 * How interrupts are processed:
mbed_official 0:a554658735bf 35 * - new device connected:
samux 8:93da8ea2708b 36 * - a message is queued in queue_usb_event with the id DEVICE_CONNECTED_EVENT
samux 8:93da8ea2708b 37 * - when the usb_thread receives the event, it:
samux 8:93da8ea2708b 38 * - resets the device
samux 8:93da8ea2708b 39 * - reads the device descriptor
samux 8:93da8ea2708b 40 * - sets the address of the device
samux 8:93da8ea2708b 41 * - if it is a hub, enumerates it
samux 8:93da8ea2708b 42 * - device disconnected:
samux 8:93da8ea2708b 43 * - a message is queued in queue_usb_event with the id DEVICE_DISCONNECTED_EVENT
samux 8:93da8ea2708b 44 * - when the usb_thread receives the event, it:
samux 8:93da8ea2708b 45 * - free the device and all its children (hub)
samux 8:93da8ea2708b 46 * - td processed
samux 8:93da8ea2708b 47 * - a message is queued in queue_usb_event with the id TD_PROCESSED_EVENT
samux 8:93da8ea2708b 48 * - when the usb_thread receives the event, it:
samux 8:93da8ea2708b 49 * - call the callback attached to the endpoint where the td is attached
mbed_official 0:a554658735bf 50 */
mbed_official 0:a554658735bf 51 void USBHost::usb_process() {
mbed_official 0:a554658735bf 52
mbed_official 0:a554658735bf 53 bool controlListState;
mbed_official 0:a554658735bf 54 bool bulkListState;
mbed_official 0:a554658735bf 55 bool interruptListState;
mbed_official 0:a554658735bf 56 USBEndpoint * ep;
mbed_official 0:a554658735bf 57 uint8_t i, j, res, timeout_set_addr = 10;
mbed_official 0:a554658735bf 58 uint8_t buf[8];
mbed_official 0:a554658735bf 59 bool too_many_hub;
mbed_official 0:a554658735bf 60 int idx;
mbed_official 0:a554658735bf 61
mbed_official 0:a554658735bf 62 #if DEBUG_TRANSFER
mbed_official 0:a554658735bf 63 uint8_t * buf_transfer;
mbed_official 0:a554658735bf 64 #endif
mbed_official 0:a554658735bf 65
mbed_official 0:a554658735bf 66 #if MAX_HUB_NB
mbed_official 0:a554658735bf 67 uint8_t k;
mbed_official 0:a554658735bf 68 #endif
mbed_official 0:a554658735bf 69
mbed_official 0:a554658735bf 70 while(1) {
samux 9:7671b6a8c363 71 osEvent evt = mail_usb_event.get();
mbed_official 0:a554658735bf 72
samux 9:7671b6a8c363 73 if (evt.status == osEventMail) {
mbed_official 0:a554658735bf 74
mbed_official 0:a554658735bf 75 l4 = !l4;
mbed_official 0:a554658735bf 76 message_t * usb_msg = (message_t*)evt.value.p;
mbed_official 0:a554658735bf 77
mbed_official 0:a554658735bf 78 switch (usb_msg->event_id) {
mbed_official 0:a554658735bf 79
mbed_official 0:a554658735bf 80 // a new device has been connected
mbed_official 0:a554658735bf 81 case DEVICE_CONNECTED_EVENT:
mbed_official 0:a554658735bf 82 too_many_hub = false;
mbed_official 0:a554658735bf 83 buf[4] = 0;
samux 4:b320d68e98e7 84
samux 4:b320d68e98e7 85 usb_mutex.lock();
mbed_official 0:a554658735bf 86
mbed_official 0:a554658735bf 87 for (i = 0; i < MAX_DEVICE_CONNECTED; i++) {
mbed_official 0:a554658735bf 88 if (!deviceInUse[i]) {
mbed_official 0:a554658735bf 89 USB_DBG_EVENT("new device connected: %p\r\n", &devices[i]);
mbed_official 0:a554658735bf 90 devices[i].init(usb_msg->hub, usb_msg->port, usb_msg->lowSpeed);
mbed_official 0:a554658735bf 91 deviceReset[i] = false;
samux 4:b320d68e98e7 92 deviceInited[i] = true;
mbed_official 0:a554658735bf 93 break;
mbed_official 0:a554658735bf 94 }
mbed_official 0:a554658735bf 95 }
mbed_official 0:a554658735bf 96
mbed_official 0:a554658735bf 97 if (i == MAX_DEVICE_CONNECTED) {
mbed_official 0:a554658735bf 98 USB_ERR("Too many device connected!!\r\n");
samux 9:7671b6a8c363 99 deviceInited[i] = false;
mbed_official 0:a554658735bf 100 usb_mutex.unlock();
mbed_official 0:a554658735bf 101 continue;
mbed_official 0:a554658735bf 102 }
mbed_official 0:a554658735bf 103
mbed_official 0:a554658735bf 104 if (!controlEndpointAllocated) {
mbed_official 0:a554658735bf 105 control = newEndpoint(CONTROL_ENDPOINT, OUT, 0x08, 0x00);
mbed_official 0:a554658735bf 106 addEndpoint(NULL, 0, (USBEndpoint*)control);
mbed_official 0:a554658735bf 107 controlEndpointAllocated = true;
mbed_official 0:a554658735bf 108 }
mbed_official 0:a554658735bf 109
mbed_official 0:a554658735bf 110 #if MAX_HUB_NB
mbed_official 0:a554658735bf 111 if (usb_msg->hub_parent)
mbed_official 0:a554658735bf 112 devices[i].setHubParent((USBHostHub *)(usb_msg->hub_parent));
mbed_official 0:a554658735bf 113 #endif
mbed_official 0:a554658735bf 114
mbed_official 0:a554658735bf 115 for (j = 0; j < timeout_set_addr; j++) {
samux 4:b320d68e98e7 116
samux 4:b320d68e98e7 117 resetDevice(&devices[i]);
samux 4:b320d68e98e7 118
mbed_official 0:a554658735bf 119 // set size of control endpoint
mbed_official 0:a554658735bf 120 devices[i].setSizeControlEndpoint(8);
mbed_official 0:a554658735bf 121
mbed_official 0:a554658735bf 122 devices[i].activeAddress(false);
mbed_official 0:a554658735bf 123
mbed_official 0:a554658735bf 124 // get first 8 bit of device descriptor
mbed_official 0:a554658735bf 125 // and check if we deal with a hub
mbed_official 0:a554658735bf 126 USB_DBG("usb_thread read device descriptor on dev: %p\r\n", &devices[i]);
mbed_official 0:a554658735bf 127 res = getDeviceDescriptor(&devices[i], buf, 8);
mbed_official 0:a554658735bf 128
mbed_official 0:a554658735bf 129 if (res != USB_TYPE_OK) {
mbed_official 0:a554658735bf 130 USB_ERR("usb_thread could not read dev descr");
mbed_official 0:a554658735bf 131 continue;
mbed_official 0:a554658735bf 132 }
mbed_official 0:a554658735bf 133
mbed_official 0:a554658735bf 134 // set size of control endpoint
mbed_official 0:a554658735bf 135 devices[i].setSizeControlEndpoint(buf[7]);
mbed_official 0:a554658735bf 136
mbed_official 0:a554658735bf 137 // second step: set an address to the device
mbed_official 0:a554658735bf 138 res = setAddress(&devices[i], devices[i].getAddress());
mbed_official 0:a554658735bf 139
mbed_official 0:a554658735bf 140 if (res != USB_TYPE_OK) {
mbed_official 0:a554658735bf 141 USB_ERR("SET ADDR FAILED");
mbed_official 0:a554658735bf 142 continue;
mbed_official 0:a554658735bf 143 }
mbed_official 0:a554658735bf 144 devices[i].activeAddress(true);
mbed_official 0:a554658735bf 145 USB_DBG("Address of %p: %d", &devices[i], devices[i].getAddress());
mbed_official 0:a554658735bf 146
mbed_official 0:a554658735bf 147 // try to read again the device descriptor to check if the device
mbed_official 0:a554658735bf 148 // answers to its new address
mbed_official 0:a554658735bf 149 res = getDeviceDescriptor(&devices[i], buf, 8);
mbed_official 0:a554658735bf 150
mbed_official 0:a554658735bf 151 if (res == USB_TYPE_OK) {
mbed_official 0:a554658735bf 152 break;
mbed_official 0:a554658735bf 153 }
mbed_official 0:a554658735bf 154
samux 4:b320d68e98e7 155 Thread::wait(100);
mbed_official 0:a554658735bf 156 }
mbed_official 0:a554658735bf 157
mbed_official 0:a554658735bf 158 USB_INFO("New device connected: %p [hub: %d - port: %d]", &devices[i], usb_msg->hub, usb_msg->port);
mbed_official 0:a554658735bf 159
mbed_official 0:a554658735bf 160 #if MAX_HUB_NB
mbed_official 0:a554658735bf 161 if (buf[4] == HUB_CLASS) {
mbed_official 0:a554658735bf 162 for (k = 0; k < MAX_HUB_NB; k++) {
mbed_official 0:a554658735bf 163 if (hub_in_use[k] == false) {
mbed_official 0:a554658735bf 164 for (uint8_t j = 0; j < MAX_TRY_ENUMERATE_HUB; j++) {
mbed_official 0:a554658735bf 165 if (hubs[k].connect(&devices[i])) {
mbed_official 0:a554658735bf 166 devices[i].hub = &hubs[k];
mbed_official 0:a554658735bf 167 hub_in_use[k] = true;
mbed_official 0:a554658735bf 168 break;
mbed_official 0:a554658735bf 169 }
mbed_official 0:a554658735bf 170 }
mbed_official 0:a554658735bf 171 if (hub_in_use[k] == true)
mbed_official 0:a554658735bf 172 break;
mbed_official 0:a554658735bf 173 }
mbed_official 0:a554658735bf 174 }
mbed_official 0:a554658735bf 175
mbed_official 0:a554658735bf 176 if (k == MAX_HUB_NB) {
mbed_official 0:a554658735bf 177 USB_ERR("Too many hubs connected!!\r\n");
mbed_official 0:a554658735bf 178 too_many_hub = true;
mbed_official 0:a554658735bf 179 }
mbed_official 0:a554658735bf 180 }
mbed_official 0:a554658735bf 181
mbed_official 0:a554658735bf 182 if (usb_msg->hub_parent)
mbed_official 0:a554658735bf 183 ((USBHostHub *)(usb_msg->hub_parent))->deviceConnected(&devices[i]);
mbed_official 0:a554658735bf 184 #endif
mbed_official 0:a554658735bf 185
mbed_official 0:a554658735bf 186 if ((i < MAX_DEVICE_CONNECTED) && !too_many_hub) {
mbed_official 0:a554658735bf 187 deviceInUse[i] = true;
mbed_official 0:a554658735bf 188 }
mbed_official 0:a554658735bf 189
samux 4:b320d68e98e7 190 usb_mutex.unlock();
samux 4:b320d68e98e7 191
mbed_official 0:a554658735bf 192 break;
mbed_official 0:a554658735bf 193
mbed_official 0:a554658735bf 194 // a device has been disconnected
mbed_official 0:a554658735bf 195 case DEVICE_DISCONNECTED_EVENT:
mbed_official 0:a554658735bf 196
mbed_official 0:a554658735bf 197 usb_mutex.lock();
mbed_official 0:a554658735bf 198
mbed_official 0:a554658735bf 199 controlListState = disableList(CONTROL_ENDPOINT);
mbed_official 0:a554658735bf 200 bulkListState = disableList(BULK_ENDPOINT);
mbed_official 0:a554658735bf 201 interruptListState = disableList(INTERRUPT_ENDPOINT);
mbed_official 0:a554658735bf 202
mbed_official 0:a554658735bf 203 idx = findDevice(usb_msg->hub, usb_msg->port, (USBHostHub *)(usb_msg->hub_parent));
mbed_official 0:a554658735bf 204 if (idx != -1) {
mbed_official 0:a554658735bf 205 freeDevice((USBDeviceConnected*)&devices[idx]);
mbed_official 0:a554658735bf 206 }
mbed_official 0:a554658735bf 207
mbed_official 0:a554658735bf 208 if (controlListState) enableList(CONTROL_ENDPOINT);
mbed_official 0:a554658735bf 209 if (bulkListState) enableList(BULK_ENDPOINT);
mbed_official 0:a554658735bf 210 if (interruptListState) enableList(INTERRUPT_ENDPOINT);
mbed_official 0:a554658735bf 211
mbed_official 0:a554658735bf 212 usb_mutex.unlock();
mbed_official 0:a554658735bf 213
mbed_official 0:a554658735bf 214 break;
mbed_official 0:a554658735bf 215
mbed_official 0:a554658735bf 216 // a td has been processed
mbed_official 0:a554658735bf 217 // call callback on the ed associated to the td
mbed_official 0:a554658735bf 218 // we are not in ISR -> users can use printf in their callback method
mbed_official 0:a554658735bf 219 case TD_PROCESSED_EVENT:
mbed_official 0:a554658735bf 220 ep = (USBEndpoint *) ((HCTD *)usb_msg->td_addr)->ep;
samux 4:b320d68e98e7 221 if (usb_msg->td_state == USB_TYPE_IDLE) {
samux 4:b320d68e98e7 222 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()));
samux 4:b320d68e98e7 223
mbed_official 0:a554658735bf 224 #if DEBUG_TRANSFER
mbed_official 0:a554658735bf 225 if (ep->getDir() == IN) {
mbed_official 0:a554658735bf 226 buf_transfer = ep->getBufStart();
samux 4:b320d68e98e7 227 printf("READ SUCCESS [%d bytes transferred - td: 0x%08X] on ep: [%p - addr: %02X]: ", ep->getLengthTransferred(), usb_msg->td_addr, ep, ep->getAddress());
mbed_official 0:a554658735bf 228 for (int i = 0; i < ep->getLengthTransferred(); i++)
mbed_official 0:a554658735bf 229 printf("%02X ", buf_transfer[i]);
mbed_official 0:a554658735bf 230 printf("\r\n\r\n");
mbed_official 0:a554658735bf 231 }
mbed_official 0:a554658735bf 232 #endif
mbed_official 0:a554658735bf 233 ep->call();
mbed_official 0:a554658735bf 234 } else {
mbed_official 0:a554658735bf 235 idx = findDevice(ep->dev);
mbed_official 0:a554658735bf 236 if (idx != -1) {
samux 4:b320d68e98e7 237 if (deviceInUse[idx]) {
samux 4:b320d68e98e7 238 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()));
samux 4:b320d68e98e7 239 ep->setState(USB_TYPE_IDLE);
samux 4:b320d68e98e7 240 }
mbed_official 0:a554658735bf 241 }
mbed_official 0:a554658735bf 242 }
mbed_official 0:a554658735bf 243 break;
mbed_official 0:a554658735bf 244 }
mbed_official 0:a554658735bf 245
samux 9:7671b6a8c363 246 mail_usb_event.free(usb_msg);
mbed_official 0:a554658735bf 247 }
mbed_official 0:a554658735bf 248 }
mbed_official 0:a554658735bf 249 }
mbed_official 0:a554658735bf 250
mbed_official 0:a554658735bf 251 /* static */void USBHost::usb_process_static(void const * arg) {
mbed_official 0:a554658735bf 252 ((USBHost *)arg)->usb_process();
mbed_official 0:a554658735bf 253 }
mbed_official 0:a554658735bf 254
mbed_official 0:a554658735bf 255 USBHost::USBHost() : usbThread(USBHost::usb_process_static, (void *)this, osPriorityNormal, USB_THREAD_STACK)
mbed_official 0:a554658735bf 256 {
mbed_official 0:a554658735bf 257 headControlEndpoint = NULL;
mbed_official 0:a554658735bf 258 headBulkEndpoint = NULL;
mbed_official 0:a554658735bf 259 headInterruptEndpoint = NULL;
mbed_official 0:a554658735bf 260 tailControlEndpoint = NULL;
mbed_official 0:a554658735bf 261 tailBulkEndpoint = NULL;
mbed_official 0:a554658735bf 262 tailInterruptEndpoint = NULL;
mbed_official 0:a554658735bf 263
mbed_official 0:a554658735bf 264 lenReportDescr = 0;
mbed_official 0:a554658735bf 265
mbed_official 0:a554658735bf 266 controlEndpointAllocated = false;
mbed_official 0:a554658735bf 267
mbed_official 0:a554658735bf 268 for (uint8_t i = 0; i < MAX_DEVICE_CONNECTED; i++) {
mbed_official 0:a554658735bf 269 deviceInUse[i] = false;
mbed_official 0:a554658735bf 270 devices[i].setAddress(i + 1);
mbed_official 0:a554658735bf 271 deviceReset[i] = false;
samux 4:b320d68e98e7 272 deviceInited[i] = false;
samux 4:b320d68e98e7 273 for (uint8_t j = 0; j < MAX_INTF; j++)
samux 4:b320d68e98e7 274 deviceAttachedDriver[i][j] = false;
mbed_official 0:a554658735bf 275 }
mbed_official 0:a554658735bf 276
mbed_official 0:a554658735bf 277 #if MAX_HUB_NB
mbed_official 0:a554658735bf 278 for (uint8_t i = 0; i < MAX_HUB_NB; i++) {
mbed_official 0:a554658735bf 279 hubs[i].setHost(this);
mbed_official 0:a554658735bf 280 hub_in_use[i] = false;
mbed_official 0:a554658735bf 281 }
mbed_official 0:a554658735bf 282 #endif
mbed_official 0:a554658735bf 283 }
mbed_official 0:a554658735bf 284
mbed_official 0:a554658735bf 285
mbed_official 0:a554658735bf 286 void USBHost::transferCompleted(volatile uint32_t addr)
mbed_official 0:a554658735bf 287 {
mbed_official 0:a554658735bf 288 uint8_t state;
mbed_official 0:a554658735bf 289
mbed_official 0:a554658735bf 290 if(addr == NULL)
mbed_official 0:a554658735bf 291 return;
mbed_official 0:a554658735bf 292
mbed_official 0:a554658735bf 293 volatile HCTD* tdList = NULL;
mbed_official 0:a554658735bf 294
mbed_official 0:a554658735bf 295 //First we must reverse the list order and dequeue each TD
mbed_official 0:a554658735bf 296 do {
mbed_official 0:a554658735bf 297 volatile HCTD* td = (volatile HCTD*)addr;
samux 4:b320d68e98e7 298 addr = (uint32_t)td->nextTD; //Dequeue from physical list
samux 4:b320d68e98e7 299 td->nextTD = tdList; //Enqueue into reversed list
mbed_official 0:a554658735bf 300 tdList = td;
mbed_official 0:a554658735bf 301 } while(addr);
mbed_official 0:a554658735bf 302
mbed_official 0:a554658735bf 303 while(tdList != NULL) {
mbed_official 0:a554658735bf 304 volatile HCTD* td = tdList;
mbed_official 0:a554658735bf 305 tdList = (volatile HCTD*)td->nextTD; //Dequeue element now as it could be modified below
mbed_official 0:a554658735bf 306 if (td->ep != NULL) {
mbed_official 0:a554658735bf 307 USBEndpoint * ep = (USBEndpoint *)(td->ep);
mbed_official 0:a554658735bf 308
mbed_official 0:a554658735bf 309 if (((HCTD *)td)->control >> 28) {
mbed_official 0:a554658735bf 310 state = ((HCTD *)td)->control >> 28;
mbed_official 0:a554658735bf 311 } else {
mbed_official 0:a554658735bf 312 if (td->currBufPtr)
mbed_official 0:a554658735bf 313 ep->setLengthTransferred((uint32_t)td->currBufPtr - (uint32_t)ep->getBufStart());
mbed_official 0:a554658735bf 314 state = 16 /*USB_TYPE_IDLE*/;
mbed_official 0:a554658735bf 315 }
mbed_official 0:a554658735bf 316
mbed_official 0:a554658735bf 317 ep->unqueueTransfer(td);
mbed_official 0:a554658735bf 318
mbed_official 0:a554658735bf 319 if (ep->getType() != CONTROL_ENDPOINT) {
mbed_official 0:a554658735bf 320 // callback on the processed td will be called from the usb_thread (not in ISR)
samux 9:7671b6a8c363 321 message_t * usb_msg = mail_usb_event.alloc();
mbed_official 0:a554658735bf 322 usb_msg->event_id = TD_PROCESSED_EVENT;
mbed_official 0:a554658735bf 323 usb_msg->td_addr = (void *)td;
mbed_official 0:a554658735bf 324 usb_msg->td_state = state;
samux 9:7671b6a8c363 325 mail_usb_event.put(usb_msg);
mbed_official 0:a554658735bf 326 }
samux 4:b320d68e98e7 327 ep->setState(state);
samux 9:7671b6a8c363 328 ep->ep_queue.put((uint8_t*)1);
mbed_official 0:a554658735bf 329 }
mbed_official 0:a554658735bf 330 }
mbed_official 0:a554658735bf 331 }
mbed_official 0:a554658735bf 332
mbed_official 0:a554658735bf 333 USBHost * USBHost::getHostInst()
mbed_official 0:a554658735bf 334 {
mbed_official 0:a554658735bf 335 if (instHost == NULL) {
mbed_official 0:a554658735bf 336 instHost = new USBHost();
mbed_official 0:a554658735bf 337 instHost->init();
mbed_official 0:a554658735bf 338 }
mbed_official 0:a554658735bf 339 return instHost;
mbed_official 0:a554658735bf 340 }
mbed_official 0:a554658735bf 341
mbed_official 0:a554658735bf 342
mbed_official 0:a554658735bf 343 /*
mbed_official 0:a554658735bf 344 * Called when a device has been connected
mbed_official 0:a554658735bf 345 * Called in ISR!!!! (no printf)
mbed_official 0:a554658735bf 346 */
mbed_official 0:a554658735bf 347 /* virtual */ void USBHost::deviceConnected(int hub, int port, bool lowSpeed, USBHostHub * hub_parent)
mbed_official 0:a554658735bf 348 {
mbed_official 0:a554658735bf 349 // be sure that the new device connected is not already connected...
mbed_official 0:a554658735bf 350 int idx = findDevice(hub, port, hub_parent);
mbed_official 0:a554658735bf 351 if (idx != -1) {
samux 4:b320d68e98e7 352 if (deviceInited[idx])
mbed_official 0:a554658735bf 353 return;
mbed_official 0:a554658735bf 354 }
mbed_official 0:a554658735bf 355
samux 9:7671b6a8c363 356 message_t * usb_msg = mail_usb_event.alloc();
mbed_official 0:a554658735bf 357 usb_msg->event_id = DEVICE_CONNECTED_EVENT;
mbed_official 0:a554658735bf 358 usb_msg->hub = hub;
mbed_official 0:a554658735bf 359 usb_msg->port = port;
mbed_official 0:a554658735bf 360 usb_msg->lowSpeed = lowSpeed;
mbed_official 0:a554658735bf 361 usb_msg->hub_parent = hub_parent;
samux 9:7671b6a8c363 362 mail_usb_event.put(usb_msg);
mbed_official 0:a554658735bf 363 }
mbed_official 0:a554658735bf 364
mbed_official 0:a554658735bf 365 /*
mbed_official 0:a554658735bf 366 * Called when a device has been disconnected
mbed_official 0:a554658735bf 367 * Called in ISR!!!! (no printf)
mbed_official 0:a554658735bf 368 */
mbed_official 0:a554658735bf 369 /* virtual */ void USBHost::deviceDisconnected(int hub, int port, USBHostHub * hub_parent, volatile uint32_t addr)
mbed_official 0:a554658735bf 370 {
mbed_official 0:a554658735bf 371 // be sure that the device disconnected is connected...
mbed_official 0:a554658735bf 372 int idx = findDevice(hub, port, hub_parent);
mbed_official 0:a554658735bf 373 if (idx != -1) {
mbed_official 0:a554658735bf 374 if (!deviceInUse[idx])
mbed_official 0:a554658735bf 375 return;
mbed_official 0:a554658735bf 376 } else {
mbed_official 0:a554658735bf 377 return;
mbed_official 0:a554658735bf 378 }
mbed_official 0:a554658735bf 379
samux 9:7671b6a8c363 380 message_t * usb_msg = mail_usb_event.alloc();
mbed_official 0:a554658735bf 381 usb_msg->event_id = DEVICE_DISCONNECTED_EVENT;
mbed_official 0:a554658735bf 382 usb_msg->hub = hub;
mbed_official 0:a554658735bf 383 usb_msg->port = port;
mbed_official 0:a554658735bf 384 usb_msg->hub_parent = hub_parent;
samux 9:7671b6a8c363 385 mail_usb_event.put(usb_msg);
mbed_official 0:a554658735bf 386 }
mbed_official 0:a554658735bf 387
mbed_official 0:a554658735bf 388 void USBHost::freeDevice(USBDeviceConnected * dev)
mbed_official 0:a554658735bf 389 {
mbed_official 0:a554658735bf 390 USBEndpoint * ep = NULL;
mbed_official 0:a554658735bf 391 HCED * ed = NULL;
mbed_official 0:a554658735bf 392
mbed_official 0:a554658735bf 393 #if MAX_HUB_NB
mbed_official 0:a554658735bf 394 if (dev->getClass() == HUB_CLASS) {
mbed_official 0:a554658735bf 395 if (dev->hub == NULL) {
mbed_official 0:a554658735bf 396 USB_ERR("HUB NULL!!!!!\r\n");
mbed_official 0:a554658735bf 397 } else {
mbed_official 0:a554658735bf 398 dev->hub->hubDisconnected();
mbed_official 0:a554658735bf 399 for (uint8_t i = 0; i < MAX_HUB_NB; i++) {
mbed_official 0:a554658735bf 400 if (dev->hub == &hubs[i]) {
mbed_official 0:a554658735bf 401 hub_in_use[i] = false;
mbed_official 0:a554658735bf 402 break;
mbed_official 0:a554658735bf 403 }
mbed_official 0:a554658735bf 404 }
mbed_official 0:a554658735bf 405 }
mbed_official 0:a554658735bf 406 }
mbed_official 0:a554658735bf 407
mbed_official 0:a554658735bf 408 // notify hub parent that this device has been disconnected
mbed_official 0:a554658735bf 409 if (dev->getHubParent())
mbed_official 0:a554658735bf 410 dev->getHubParent()->deviceDisconnected(dev);
mbed_official 0:a554658735bf 411
mbed_official 0:a554658735bf 412 #endif
mbed_official 0:a554658735bf 413
mbed_official 0:a554658735bf 414 int idx = findDevice(dev);
mbed_official 0:a554658735bf 415 if (idx != -1) {
mbed_official 0:a554658735bf 416 deviceInUse[idx] = false;
mbed_official 0:a554658735bf 417 deviceReset[idx] = false;
mbed_official 0:a554658735bf 418
samux 4:b320d68e98e7 419 for (uint8_t j = 0; j < MAX_INTF; j++) {
samux 4:b320d68e98e7 420 deviceAttachedDriver[idx][j] = false;
samux 4:b320d68e98e7 421 if (dev->getInterface(j) != NULL) {
samux 4:b320d68e98e7 422 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));
samux 4:b320d68e98e7 423 for (int i = 0; i < dev->getInterface(j)->nb_endpoint; i++) {
samux 4:b320d68e98e7 424 if ((ep = dev->getEndpoint(j, i)) != NULL) {
samux 4:b320d68e98e7 425 ed = (HCED *)ep->getHCED();
samux 10:0c11cf1cc218 426 ed->control |= (1 << 14); //sKip bit
samux 4:b320d68e98e7 427 unqueueEndpoint(ep);
mbed_official 0:a554658735bf 428
samux 4:b320d68e98e7 429 freeTD((volatile uint8_t*)ep->getTDList()[0]);
samux 4:b320d68e98e7 430 freeTD((volatile uint8_t*)ep->getTDList()[1]);
mbed_official 0:a554658735bf 431
samux 4:b320d68e98e7 432 freeED((uint8_t *)ep->getHCED());
samux 4:b320d68e98e7 433 }
samux 4:b320d68e98e7 434 printList(BULK_ENDPOINT);
samux 4:b320d68e98e7 435 printList(INTERRUPT_ENDPOINT);
mbed_official 0:a554658735bf 436 }
samux 4:b320d68e98e7 437 USB_INFO("Device disconnected [%p - %s - hub: %d - port: %d]", dev, dev->getName(j), dev->getHub(), dev->getPort());
mbed_official 0:a554658735bf 438 }
mbed_official 0:a554658735bf 439 }
mbed_official 0:a554658735bf 440 dev->disconnect();
mbed_official 0:a554658735bf 441 }
mbed_official 0:a554658735bf 442 }
mbed_official 0:a554658735bf 443
mbed_official 0:a554658735bf 444
mbed_official 0:a554658735bf 445 void USBHost::unqueueEndpoint(USBEndpoint * ep)
mbed_official 0:a554658735bf 446 {
mbed_official 0:a554658735bf 447 USBEndpoint * prec = NULL;
mbed_official 0:a554658735bf 448 USBEndpoint * current = NULL;
mbed_official 0:a554658735bf 449
mbed_official 0:a554658735bf 450 for (int i = 0; i < 2; i++) {
mbed_official 0:a554658735bf 451 current = (i == 0) ? (USBEndpoint*)headBulkEndpoint : (USBEndpoint*)headInterruptEndpoint;
mbed_official 0:a554658735bf 452 prec = current;
mbed_official 0:a554658735bf 453 while (current != NULL) {
mbed_official 0:a554658735bf 454 if (current == ep) {
mbed_official 0:a554658735bf 455 if (current->nextEndpoint() != NULL) {
mbed_official 0:a554658735bf 456 prec->queueEndpoint(current->nextEndpoint());
mbed_official 0:a554658735bf 457 if (current == headBulkEndpoint) {
mbed_official 0:a554658735bf 458 updateBulkHeadED((uint32_t)current->nextEndpoint()->getHCED());
mbed_official 0:a554658735bf 459 headBulkEndpoint = current->nextEndpoint();
mbed_official 0:a554658735bf 460 } else if (current == headInterruptEndpoint) {
mbed_official 0:a554658735bf 461 updateInterruptHeadED((uint32_t)current->nextEndpoint()->getHCED());
mbed_official 0:a554658735bf 462 headInterruptEndpoint = current->nextEndpoint();
mbed_official 0:a554658735bf 463 }
mbed_official 0:a554658735bf 464 }
mbed_official 0:a554658735bf 465 // here we are dequeuing the queue of ed
mbed_official 0:a554658735bf 466 // we need to update the tail pointer
mbed_official 0:a554658735bf 467 else {
mbed_official 0:a554658735bf 468 prec->queueEndpoint(NULL);
mbed_official 0:a554658735bf 469 if (current == headBulkEndpoint) {
mbed_official 0:a554658735bf 470 updateBulkHeadED(0);
mbed_official 0:a554658735bf 471 headBulkEndpoint = current->nextEndpoint();
mbed_official 0:a554658735bf 472 } else if (current == headInterruptEndpoint) {
mbed_official 0:a554658735bf 473 updateInterruptHeadED(0);
mbed_official 0:a554658735bf 474 headInterruptEndpoint = current->nextEndpoint();
mbed_official 0:a554658735bf 475 }
mbed_official 0:a554658735bf 476
mbed_official 0:a554658735bf 477 // modify tail
mbed_official 0:a554658735bf 478 switch (current->getType()) {
mbed_official 0:a554658735bf 479 case BULK_ENDPOINT:
mbed_official 0:a554658735bf 480 tailBulkEndpoint = prec;
mbed_official 0:a554658735bf 481 break;
mbed_official 0:a554658735bf 482 case INTERRUPT_ENDPOINT:
mbed_official 0:a554658735bf 483 tailInterruptEndpoint = prec;
mbed_official 0:a554658735bf 484 break;
mbed_official 0:a554658735bf 485 }
mbed_official 0:a554658735bf 486 }
mbed_official 0:a554658735bf 487 current->setState(USB_TYPE_FREE);
mbed_official 0:a554658735bf 488 return;
mbed_official 0:a554658735bf 489 }
mbed_official 0:a554658735bf 490 prec = current;
mbed_official 0:a554658735bf 491 current = current->nextEndpoint();
mbed_official 0:a554658735bf 492 }
mbed_official 0:a554658735bf 493 }
mbed_official 0:a554658735bf 494 }
mbed_official 0:a554658735bf 495
mbed_official 0:a554658735bf 496
mbed_official 0:a554658735bf 497 USBDeviceConnected * USBHost::getDevice(uint8_t index)
mbed_official 0:a554658735bf 498 {
samux 4:b320d68e98e7 499 if ((index >= MAX_DEVICE_CONNECTED) || (!deviceInUse[index])) {
mbed_official 0:a554658735bf 500 return NULL;
mbed_official 0:a554658735bf 501 }
mbed_official 0:a554658735bf 502 return (USBDeviceConnected*)&devices[index];
mbed_official 0:a554658735bf 503 }
mbed_official 0:a554658735bf 504
mbed_official 0:a554658735bf 505 // create an USBEndpoint descriptor. the USBEndpoint is not linked
mbed_official 0:a554658735bf 506 USBEndpoint * USBHost::newEndpoint(ENDPOINT_TYPE type, ENDPOINT_DIRECTION dir, uint32_t size, uint8_t addr)
mbed_official 0:a554658735bf 507 {
mbed_official 0:a554658735bf 508 int i = 0;
mbed_official 0:a554658735bf 509 HCED * ed = (HCED *)getED();
mbed_official 0:a554658735bf 510 HCTD* td_list[2] = { (HCTD*)getTD(), (HCTD*)getTD() };
mbed_official 0:a554658735bf 511
mbed_official 0:a554658735bf 512 memset((void *)td_list[0], 0x00, sizeof(HCTD));
mbed_official 0:a554658735bf 513 memset((void *)td_list[1], 0x00, sizeof(HCTD));
mbed_official 0:a554658735bf 514
mbed_official 0:a554658735bf 515 // search a free USBEndpoint
mbed_official 0:a554658735bf 516 for (i = 0; i < MAX_ENDPOINT; i++) {
mbed_official 0:a554658735bf 517 if (endpoints[i].getState() == USB_TYPE_FREE) {
mbed_official 0:a554658735bf 518 endpoints[i].init(ed, type, dir, size, addr, td_list);
samux 4:b320d68e98e7 519 USB_DBG("USBEndpoint created (%p): type: %d, dir: %d, size: %d, addr: %d, state: %s", &endpoints[i], type, dir, size, addr, endpoints[i].getStateString());
mbed_official 0:a554658735bf 520 return &endpoints[i];
mbed_official 0:a554658735bf 521 }
mbed_official 0:a554658735bf 522 }
mbed_official 0:a554658735bf 523 USB_ERR("could not allocate more endpoints!!!!");
mbed_official 0:a554658735bf 524 return NULL;
mbed_official 0:a554658735bf 525 }
mbed_official 0:a554658735bf 526
mbed_official 0:a554658735bf 527
mbed_official 0:a554658735bf 528 USB_TYPE USBHost::resetDevice(USBDeviceConnected * dev)
mbed_official 0:a554658735bf 529 {
mbed_official 0:a554658735bf 530 int index = findDevice(dev);
mbed_official 0:a554658735bf 531 if (index != -1) {
mbed_official 0:a554658735bf 532 USB_DBG("Resetting hub %d, port %d\n", dev->getHub(), dev->getPort());
samux 9:7671b6a8c363 533 Thread::wait(100);
mbed_official 0:a554658735bf 534 if (dev->getHub() == 0) {
mbed_official 0:a554658735bf 535 resetRootHub();
mbed_official 0:a554658735bf 536 }
mbed_official 0:a554658735bf 537 #if MAX_HUB_NB
mbed_official 0:a554658735bf 538 else {
mbed_official 0:a554658735bf 539 dev->getHubParent()->portReset(dev->getPort());
mbed_official 0:a554658735bf 540 }
mbed_official 0:a554658735bf 541 #endif
samux 9:7671b6a8c363 542 Thread::wait(100);
mbed_official 0:a554658735bf 543 deviceReset[index] = true;
mbed_official 0:a554658735bf 544 return USB_TYPE_OK;
mbed_official 0:a554658735bf 545 }
mbed_official 0:a554658735bf 546
mbed_official 0:a554658735bf 547 return USB_TYPE_ERROR;
mbed_official 0:a554658735bf 548 }
mbed_official 0:a554658735bf 549
mbed_official 0:a554658735bf 550 // link the USBEndpoint to the linked list and attach an USBEndpoint to a device
mbed_official 0:a554658735bf 551 bool USBHost::addEndpoint(USBDeviceConnected * dev, uint8_t intf_nb, USBEndpoint * ep)
mbed_official 0:a554658735bf 552 {
mbed_official 0:a554658735bf 553
mbed_official 0:a554658735bf 554 if (ep == NULL) {
mbed_official 0:a554658735bf 555 return false;
mbed_official 0:a554658735bf 556 }
mbed_official 0:a554658735bf 557
mbed_official 0:a554658735bf 558 HCED * prevEd;
mbed_official 0:a554658735bf 559
mbed_official 0:a554658735bf 560 // set device address in the USBEndpoint descriptor
mbed_official 0:a554658735bf 561 if (dev == NULL) {
mbed_official 0:a554658735bf 562 ep->setDeviceAddress(0);
mbed_official 0:a554658735bf 563 } else {
mbed_official 0:a554658735bf 564 ep->setDeviceAddress(dev->getAddress());
mbed_official 0:a554658735bf 565 }
mbed_official 0:a554658735bf 566
mbed_official 0:a554658735bf 567 if ((dev != NULL) && dev->getSpeed()) {
mbed_official 0:a554658735bf 568 ep->setSpeed(dev->getSpeed());
mbed_official 0:a554658735bf 569 }
samux 4:b320d68e98e7 570
samux 4:b320d68e98e7 571 ep->setIntfNb(intf_nb);
mbed_official 0:a554658735bf 572
mbed_official 0:a554658735bf 573 // queue the new USBEndpoint on the ED list
mbed_official 0:a554658735bf 574 switch (ep->getType()) {
mbed_official 0:a554658735bf 575
mbed_official 0:a554658735bf 576 case CONTROL_ENDPOINT:
mbed_official 0:a554658735bf 577 prevEd = ( HCED*) controlHeadED();
mbed_official 0:a554658735bf 578 if (!prevEd) {
mbed_official 0:a554658735bf 579 updateControlHeadED((uint32_t) ep->getHCED());
samux 4:b320d68e98e7 580 USB_DBG_TRANSFER("First control USBEndpoint: %08X", (uint32_t) ep->getHCED());
mbed_official 0:a554658735bf 581 headControlEndpoint = ep;
mbed_official 0:a554658735bf 582 tailControlEndpoint = ep;
mbed_official 0:a554658735bf 583 return true;
mbed_official 0:a554658735bf 584 }
mbed_official 0:a554658735bf 585 tailControlEndpoint->queueEndpoint(ep);
mbed_official 0:a554658735bf 586 tailControlEndpoint = ep;
mbed_official 0:a554658735bf 587 return true;
mbed_official 0:a554658735bf 588
mbed_official 0:a554658735bf 589 case BULK_ENDPOINT:
mbed_official 0:a554658735bf 590 prevEd = ( HCED*) bulkHeadED();
mbed_official 0:a554658735bf 591 if (!prevEd) {
mbed_official 0:a554658735bf 592 updateBulkHeadED((uint32_t) ep->getHCED());
samux 4:b320d68e98e7 593 USB_DBG_TRANSFER("First bulk USBEndpoint: %08X\r\n", (uint32_t) ep->getHCED());
mbed_official 0:a554658735bf 594 headBulkEndpoint = ep;
mbed_official 0:a554658735bf 595 tailBulkEndpoint = ep;
mbed_official 0:a554658735bf 596 break;
mbed_official 0:a554658735bf 597 }
samux 4:b320d68e98e7 598 USB_DBG_TRANSFER("Queue BULK Ed %p after %p\r\n",ep->getHCED(), prevEd);
mbed_official 0:a554658735bf 599 tailBulkEndpoint->queueEndpoint(ep);
mbed_official 0:a554658735bf 600 tailBulkEndpoint = ep;
mbed_official 0:a554658735bf 601 break;
mbed_official 0:a554658735bf 602
mbed_official 0:a554658735bf 603 case INTERRUPT_ENDPOINT:
mbed_official 0:a554658735bf 604 prevEd = ( HCED*) interruptHeadED();
mbed_official 0:a554658735bf 605 if (!prevEd) {
mbed_official 0:a554658735bf 606 updateInterruptHeadED((uint32_t) ep->getHCED());
samux 4:b320d68e98e7 607 USB_DBG_TRANSFER("First interrupt USBEndpoint: %08X\r\n", (uint32_t) ep->getHCED());
mbed_official 0:a554658735bf 608 headInterruptEndpoint = ep;
mbed_official 0:a554658735bf 609 tailInterruptEndpoint = ep;
mbed_official 0:a554658735bf 610 break;
mbed_official 0:a554658735bf 611 }
samux 4:b320d68e98e7 612 USB_DBG_TRANSFER("Queue INTERRUPT Ed %p after %p\r\n",ep->getHCED(), prevEd);
mbed_official 0:a554658735bf 613 tailInterruptEndpoint->queueEndpoint(ep);
mbed_official 0:a554658735bf 614 tailInterruptEndpoint = ep;
mbed_official 0:a554658735bf 615 break;
mbed_official 0:a554658735bf 616 default:
mbed_official 0:a554658735bf 617 return false;
mbed_official 0:a554658735bf 618 }
mbed_official 0:a554658735bf 619
mbed_official 0:a554658735bf 620 ep->dev = dev;
mbed_official 0:a554658735bf 621 dev->addEndpoint(intf_nb, ep);
mbed_official 0:a554658735bf 622
mbed_official 0:a554658735bf 623 return true;
mbed_official 0:a554658735bf 624 }
mbed_official 0:a554658735bf 625
mbed_official 0:a554658735bf 626
mbed_official 0:a554658735bf 627 int USBHost::findDevice(USBDeviceConnected * dev)
mbed_official 0:a554658735bf 628 {
mbed_official 0:a554658735bf 629 for (int i = 0; i < MAX_DEVICE_CONNECTED; i++) {
mbed_official 0:a554658735bf 630 if (dev == &devices[i]) {
mbed_official 0:a554658735bf 631 return i;
mbed_official 0:a554658735bf 632 }
mbed_official 0:a554658735bf 633 }
mbed_official 0:a554658735bf 634 return -1;
mbed_official 0:a554658735bf 635 }
mbed_official 0:a554658735bf 636
mbed_official 0:a554658735bf 637 int USBHost::findDevice(uint8_t hub, uint8_t port, USBHostHub * hub_parent)
mbed_official 0:a554658735bf 638 {
mbed_official 0:a554658735bf 639 for (int i = 0; i < MAX_DEVICE_CONNECTED; i++) {
mbed_official 0:a554658735bf 640 if (devices[i].getHub() == hub && devices[i].getPort() == port) {
mbed_official 0:a554658735bf 641 if (hub_parent != NULL) {
mbed_official 0:a554658735bf 642 if (hub_parent == devices[i].getHubParent())
mbed_official 0:a554658735bf 643 return i;
mbed_official 0:a554658735bf 644 } else {
mbed_official 0:a554658735bf 645 return i;
mbed_official 0:a554658735bf 646 }
mbed_official 0:a554658735bf 647 }
mbed_official 0:a554658735bf 648 }
mbed_official 0:a554658735bf 649 return -1;
mbed_official 0:a554658735bf 650 }
mbed_official 0:a554658735bf 651
mbed_official 0:a554658735bf 652 void USBHost::printList(ENDPOINT_TYPE type)
mbed_official 0:a554658735bf 653 {
mbed_official 0:a554658735bf 654 #if DEBUG_EP_STATE
samux 4:b320d68e98e7 655 volatile HCED * hced;
mbed_official 0:a554658735bf 656 switch(type) {
mbed_official 0:a554658735bf 657 case CONTROL_ENDPOINT:
mbed_official 0:a554658735bf 658 hced = (HCED *)controlHeadED();
mbed_official 0:a554658735bf 659 break;
mbed_official 0:a554658735bf 660 case BULK_ENDPOINT:
mbed_official 0:a554658735bf 661 hced = (HCED *)bulkHeadED();
mbed_official 0:a554658735bf 662 break;
mbed_official 0:a554658735bf 663 case INTERRUPT_ENDPOINT:
mbed_official 0:a554658735bf 664 hced = (HCED *)interruptHeadED();
mbed_official 0:a554658735bf 665 break;
mbed_official 0:a554658735bf 666 }
samux 4:b320d68e98e7 667 volatile HCTD * hctd = NULL;
mbed_official 0:a554658735bf 668 const char * type_str = (type == BULK_ENDPOINT) ? "BULK" :
mbed_official 0:a554658735bf 669 ((type == INTERRUPT_ENDPOINT) ? "INTERRUPT" :
mbed_official 0:a554658735bf 670 ((type == CONTROL_ENDPOINT) ? "CONTROL" : "ISOCHRONOUS"));
mbed_official 0:a554658735bf 671 printf("State of %s:\r\n", type_str);
mbed_official 0:a554658735bf 672 while (hced != NULL) {
mbed_official 0:a554658735bf 673 uint8_t dir = ((hced->control & (3 << 11)) >> 11);
mbed_official 0:a554658735bf 674 printf("hced: %p [ADDR: %d, DIR: %s, EP_NB: 0x%X]\r\n", hced,
mbed_official 0:a554658735bf 675 hced->control & 0x7f,
mbed_official 0:a554658735bf 676 (dir == 1) ? "OUT" : ((dir == 0) ? "FROM_TD":"IN"),
mbed_official 0:a554658735bf 677 (hced->control & (0xf << 7)) >> 7);
mbed_official 0:a554658735bf 678 hctd = (HCTD *)((uint32_t)(hced->headTD) & ~(0xf));
samux 4:b320d68e98e7 679 while (hctd != hced->tailTD) {
mbed_official 0:a554658735bf 680 printf("\thctd: %p [DIR: %s]\r\n", hctd, ((hctd->control & (3 << 19)) >> 19) == 1 ? "OUT" : "IN");
samux 4:b320d68e98e7 681 hctd = hctd->nextTD;
mbed_official 0:a554658735bf 682 }
mbed_official 0:a554658735bf 683 printf("\thctd: %p\r\n", hctd);
samux 4:b320d68e98e7 684 hced = hced->nextED;
mbed_official 0:a554658735bf 685 }
mbed_official 0:a554658735bf 686 printf("\r\n\r\n");
mbed_official 0:a554658735bf 687 #endif
mbed_official 0:a554658735bf 688 }
mbed_official 0:a554658735bf 689
mbed_official 0:a554658735bf 690
mbed_official 0:a554658735bf 691 // add a transfer on the TD linked list
mbed_official 0:a554658735bf 692 USB_TYPE USBHost::addTransfer(USBEndpoint * ed, uint8_t * buf, uint32_t len)
mbed_official 0:a554658735bf 693 {
samux 9:7671b6a8c363 694 td_mutex.lock();
mbed_official 0:a554658735bf 695
mbed_official 0:a554658735bf 696 // allocate a TD which will be freed in TDcompletion
mbed_official 0:a554658735bf 697 volatile HCTD * td = ed->getNextTD();
mbed_official 0:a554658735bf 698 if (td == NULL) {
mbed_official 0:a554658735bf 699 return USB_TYPE_ERROR;
mbed_official 0:a554658735bf 700 }
mbed_official 0:a554658735bf 701
mbed_official 0:a554658735bf 702 uint32_t token = (ed->isSetup() ? TD_SETUP : ( (ed->getDir() == IN) ? TD_IN : TD_OUT ));
mbed_official 0:a554658735bf 703
mbed_official 0:a554658735bf 704 uint32_t td_toggle;
mbed_official 0:a554658735bf 705
mbed_official 0:a554658735bf 706 if (ed->getType() == CONTROL_ENDPOINT) {
mbed_official 0:a554658735bf 707 if (ed->isSetup()) {
mbed_official 0:a554658735bf 708 td_toggle = TD_TOGGLE_0;
mbed_official 0:a554658735bf 709 } else {
mbed_official 0:a554658735bf 710 td_toggle = TD_TOGGLE_1;
mbed_official 0:a554658735bf 711 }
mbed_official 0:a554658735bf 712 } else {
mbed_official 0:a554658735bf 713 td_toggle = 0;
mbed_official 0:a554658735bf 714 }
mbed_official 0:a554658735bf 715
mbed_official 0:a554658735bf 716 td->control = (TD_ROUNDING | token | TD_DELAY_INT(0) | td_toggle | TD_CC);
mbed_official 0:a554658735bf 717 td->currBufPtr = buf;
mbed_official 0:a554658735bf 718 td->bufEnd = (buf + (len - 1));
mbed_official 0:a554658735bf 719
mbed_official 0:a554658735bf 720 ENDPOINT_TYPE type = ed->getType();
mbed_official 0:a554658735bf 721
mbed_official 0:a554658735bf 722 disableList(type);
mbed_official 0:a554658735bf 723 ed->queueTransfer();
mbed_official 0:a554658735bf 724 printList(type);
mbed_official 0:a554658735bf 725 enableList(type);
samux 9:7671b6a8c363 726
samux 9:7671b6a8c363 727 td_mutex.unlock();
mbed_official 0:a554658735bf 728
mbed_official 0:a554658735bf 729 return USB_TYPE_PROCESSING;
mbed_official 0:a554658735bf 730 }
mbed_official 0:a554658735bf 731
mbed_official 0:a554658735bf 732
mbed_official 0:a554658735bf 733
mbed_official 0:a554658735bf 734 USB_TYPE USBHost::getDeviceDescriptor(USBDeviceConnected * dev, uint8_t * buf, uint16_t max_len_buf, uint16_t * len_dev_descr)
mbed_official 0:a554658735bf 735 {
mbed_official 0:a554658735bf 736 USB_TYPE t = controlRead( dev,
mbed_official 0:a554658735bf 737 USB_DEVICE_TO_HOST | USB_RECIPIENT_DEVICE,
mbed_official 0:a554658735bf 738 GET_DESCRIPTOR,
mbed_official 0:a554658735bf 739 (DEVICE_DESCRIPTOR << 8) | (0),
mbed_official 0:a554658735bf 740 0, buf, MIN(DEVICE_DESCRIPTOR_LENGTH, max_len_buf));
mbed_official 0:a554658735bf 741 if (len_dev_descr)
mbed_official 0:a554658735bf 742 *len_dev_descr = MIN(DEVICE_DESCRIPTOR_LENGTH, max_len_buf);
mbed_official 0:a554658735bf 743
mbed_official 0:a554658735bf 744 return t;
mbed_official 0:a554658735bf 745 }
mbed_official 0:a554658735bf 746
mbed_official 0:a554658735bf 747 USB_TYPE USBHost::getConfigurationDescriptor(USBDeviceConnected * dev, uint8_t * buf, uint16_t max_len_buf, uint16_t * len_conf_descr)
mbed_official 0:a554658735bf 748 {
mbed_official 0:a554658735bf 749 USB_TYPE res;
mbed_official 0:a554658735bf 750 uint16_t total_conf_descr_length = 0;
mbed_official 0:a554658735bf 751
mbed_official 0:a554658735bf 752 // fourth step: get the beginning of the configuration descriptor to have the total length of the conf descr
mbed_official 0:a554658735bf 753 res = controlRead( dev,
mbed_official 0:a554658735bf 754 USB_DEVICE_TO_HOST | USB_RECIPIENT_DEVICE,
mbed_official 0:a554658735bf 755 GET_DESCRIPTOR,
mbed_official 0:a554658735bf 756 (CONFIGURATION_DESCRIPTOR << 8) | (0),
mbed_official 0:a554658735bf 757 0, buf, CONFIGURATION_DESCRIPTOR_LENGTH);
mbed_official 0:a554658735bf 758
mbed_official 0:a554658735bf 759 if (res != USB_TYPE_OK) {
mbed_official 0:a554658735bf 760 USB_ERR("GET CONF 1 DESCR FAILED");
mbed_official 0:a554658735bf 761 return res;
mbed_official 0:a554658735bf 762 }
mbed_official 0:a554658735bf 763 total_conf_descr_length = buf[2] | (buf[3] << 8);
mbed_official 0:a554658735bf 764 total_conf_descr_length = MIN(max_len_buf, total_conf_descr_length);
mbed_official 0:a554658735bf 765
mbed_official 0:a554658735bf 766 if (len_conf_descr)
mbed_official 0:a554658735bf 767 *len_conf_descr = total_conf_descr_length;
mbed_official 0:a554658735bf 768
mbed_official 0:a554658735bf 769 USB_DBG("TOTAL_LENGTH: %d \t NUM_INTERF: %d", total_conf_descr_length, buf[4]);
mbed_official 0:a554658735bf 770
mbed_official 0:a554658735bf 771 return controlRead( dev,
mbed_official 0:a554658735bf 772 USB_DEVICE_TO_HOST | USB_RECIPIENT_DEVICE,
mbed_official 0:a554658735bf 773 GET_DESCRIPTOR,
mbed_official 0:a554658735bf 774 (CONFIGURATION_DESCRIPTOR << 8) | (0),
mbed_official 0:a554658735bf 775 0, buf, total_conf_descr_length);
mbed_official 0:a554658735bf 776 }
mbed_official 0:a554658735bf 777
mbed_official 0:a554658735bf 778
mbed_official 0:a554658735bf 779 USB_TYPE USBHost::setAddress(USBDeviceConnected * dev, uint8_t address) {
mbed_official 0:a554658735bf 780 return controlWrite( dev,
mbed_official 0:a554658735bf 781 USB_HOST_TO_DEVICE | USB_RECIPIENT_DEVICE,
mbed_official 0:a554658735bf 782 SET_ADDRESS,
mbed_official 0:a554658735bf 783 address,
mbed_official 0:a554658735bf 784 0, NULL, 0);
mbed_official 0:a554658735bf 785
mbed_official 0:a554658735bf 786 }
mbed_official 0:a554658735bf 787
mbed_official 0:a554658735bf 788 USB_TYPE USBHost::setConfiguration(USBDeviceConnected * dev, uint8_t conf)
mbed_official 0:a554658735bf 789 {
mbed_official 0:a554658735bf 790 return controlWrite( dev,
mbed_official 0:a554658735bf 791 USB_HOST_TO_DEVICE | USB_RECIPIENT_DEVICE,
mbed_official 0:a554658735bf 792 SET_CONFIGURATION,
mbed_official 0:a554658735bf 793 conf,
mbed_official 0:a554658735bf 794 0, NULL, 0);
mbed_official 0:a554658735bf 795 }
mbed_official 0:a554658735bf 796
samux 4:b320d68e98e7 797 uint8_t USBHost::numberDriverAttached(USBDeviceConnected * dev) {
samux 4:b320d68e98e7 798 int index = findDevice(dev);
samux 4:b320d68e98e7 799 uint8_t cnt = 0;
samux 4:b320d68e98e7 800 if (index == -1)
samux 4:b320d68e98e7 801 return 0;
samux 4:b320d68e98e7 802 for (uint8_t i = 0; i < MAX_INTF; i++) {
samux 4:b320d68e98e7 803 if (deviceAttachedDriver[index][i])
samux 4:b320d68e98e7 804 cnt++;
samux 4:b320d68e98e7 805 }
samux 4:b320d68e98e7 806 return cnt;
samux 4:b320d68e98e7 807 }
mbed_official 0:a554658735bf 808
mbed_official 0:a554658735bf 809 // enumerate a device with the control USBEndpoint
mbed_official 0:a554658735bf 810 USB_TYPE USBHost::enumerate(USBDeviceConnected * dev, IUSBEnumerator* pEnumerator)
mbed_official 0:a554658735bf 811 {
mbed_official 0:a554658735bf 812 uint16_t total_conf_descr_length = 0;
mbed_official 0:a554658735bf 813 USB_TYPE res;
mbed_official 0:a554658735bf 814
samux 4:b320d68e98e7 815 usb_mutex.lock();
samux 4:b320d68e98e7 816
samux 4:b320d68e98e7 817 // don't enumerate a device which all interfaces are registered to a specific driver
samux 4:b320d68e98e7 818 int index = findDevice(dev);
samux 4:b320d68e98e7 819
samux 4:b320d68e98e7 820 if (index == -1) {
samux 4:b320d68e98e7 821 usb_mutex.unlock();
samux 4:b320d68e98e7 822 return USB_TYPE_ERROR;
samux 4:b320d68e98e7 823 }
samux 4:b320d68e98e7 824
samux 4:b320d68e98e7 825 uint8_t nb_intf_attached = numberDriverAttached(dev);
samux 4:b320d68e98e7 826 USB_DBG("dev: %p nb_intf: %d", dev, dev->getNbIntf());
samux 4:b320d68e98e7 827 USB_DBG("dev: %p nb_intf_attached: %d", dev, nb_intf_attached);
samux 4:b320d68e98e7 828 if ((nb_intf_attached != 0) && (dev->getNbIntf() == nb_intf_attached)) {
samux 4:b320d68e98e7 829 USB_DBG("Don't enumerate dev: %p because all intf are registered with a driver", dev);
samux 4:b320d68e98e7 830 usb_mutex.unlock();
mbed_official 0:a554658735bf 831 return USB_TYPE_OK;
mbed_official 0:a554658735bf 832 }
mbed_official 0:a554658735bf 833
samux 4:b320d68e98e7 834 USB_DBG("Enumerate dev: %p", dev);
samux 4:b320d68e98e7 835
mbed_official 0:a554658735bf 836 // third step: get the whole device descriptor to see vid, pid
mbed_official 0:a554658735bf 837 res = getDeviceDescriptor(dev, data, DEVICE_DESCRIPTOR_LENGTH);
mbed_official 0:a554658735bf 838
samux 4:b320d68e98e7 839 if (res != USB_TYPE_OK) {
mbed_official 0:a554658735bf 840 USB_DBG("GET DEV DESCR FAILED");
samux 4:b320d68e98e7 841 usb_mutex.unlock();
mbed_official 0:a554658735bf 842 return res;
mbed_official 0:a554658735bf 843 }
mbed_official 0:a554658735bf 844
mbed_official 0:a554658735bf 845 dev->setClass(data[4]);
mbed_official 0:a554658735bf 846 dev->setSubClass(data[5]);
mbed_official 0:a554658735bf 847 dev->setProtocol(data[6]);
mbed_official 0:a554658735bf 848 dev->setVid(data[8] | (data[9] << 8));
mbed_official 0:a554658735bf 849 dev->setPid(data[10] | (data[11] << 8));
mbed_official 0:a554658735bf 850 USB_DBG("CLASS: %02X \t VID: %04X \t PID: %04X", data[4], data[8] | (data[9] << 8), data[10] | (data[11] << 8));
mbed_official 0:a554658735bf 851
mbed_official 0:a554658735bf 852 pEnumerator->setVidPid( data[8] | (data[9] << 8), data[10] | (data[11] << 8) );
mbed_official 0:a554658735bf 853
samux 10:0c11cf1cc218 854 res = getConfigurationDescriptor(dev, data, 300, &total_conf_descr_length);
mbed_official 0:a554658735bf 855 if (res != USB_TYPE_OK) {
samux 4:b320d68e98e7 856 usb_mutex.unlock();
mbed_official 0:a554658735bf 857 return res;
mbed_official 0:a554658735bf 858 }
mbed_official 0:a554658735bf 859
mbed_official 0:a554658735bf 860 #if DEBUG
mbed_official 0:a554658735bf 861 USB_DBG("CONFIGURATION DESCRIPTOR:\r\n");
mbed_official 0:a554658735bf 862 for (int i = 0; i < total_conf_descr_length; i++)
mbed_official 0:a554658735bf 863 printf("%02X ", data[i]);
mbed_official 0:a554658735bf 864 printf("\r\n\r\n");
mbed_official 0:a554658735bf 865 #endif
mbed_official 0:a554658735bf 866
mbed_official 0:a554658735bf 867 // Parse the configuration descriptor
mbed_official 0:a554658735bf 868 parseConfDescr(dev, data, total_conf_descr_length, pEnumerator);
mbed_official 0:a554658735bf 869
samux 4:b320d68e98e7 870 // only set configuration if not enumerated before
samux 4:b320d68e98e7 871 if (!dev->isEnumerated()) {
samux 4:b320d68e98e7 872
samux 4:b320d68e98e7 873 USB_DBG("Set configuration 1 on dev: %p", dev);
samux 4:b320d68e98e7 874 // sixth step: set configuration (only 1 supported)
samux 4:b320d68e98e7 875 res = setConfiguration(dev, 1);
mbed_official 0:a554658735bf 876
samux 4:b320d68e98e7 877 if (res != USB_TYPE_OK) {
samux 4:b320d68e98e7 878 USB_DBG("SET CONF FAILED");
samux 4:b320d68e98e7 879 usb_mutex.unlock();
samux 4:b320d68e98e7 880 return res;
samux 4:b320d68e98e7 881 }
mbed_official 0:a554658735bf 882 }
samux 4:b320d68e98e7 883
samux 4:b320d68e98e7 884 dev->setEnumerated();
mbed_official 0:a554658735bf 885
mbed_official 0:a554658735bf 886 // Now the device is enumerated!
samux 4:b320d68e98e7 887 USB_DBG("dev %p is enumerated\r\n", dev);
samux 4:b320d68e98e7 888 usb_mutex.unlock();
mbed_official 0:a554658735bf 889
mbed_official 0:a554658735bf 890 // Some devices may require this delay
samux 4:b320d68e98e7 891 wait_ms(100);
mbed_official 0:a554658735bf 892
mbed_official 0:a554658735bf 893 return USB_TYPE_OK;
mbed_official 0:a554658735bf 894 }
mbed_official 0:a554658735bf 895 // this method fills the USBDeviceConnected object: class,.... . It also add endpoints found in the descriptor.
mbed_official 0:a554658735bf 896 void USBHost::parseConfDescr(USBDeviceConnected * dev, uint8_t * conf_descr, uint32_t len, IUSBEnumerator* pEnumerator)
mbed_official 0:a554658735bf 897 {
mbed_official 0:a554658735bf 898 uint32_t index = 0;
mbed_official 0:a554658735bf 899 uint32_t len_desc = 0;
mbed_official 0:a554658735bf 900 uint8_t id = 0;
mbed_official 0:a554658735bf 901 int nb_endpoints_used = 0;
mbed_official 0:a554658735bf 902 USBEndpoint * ep = NULL;
mbed_official 0:a554658735bf 903 uint8_t intf_nb = 0;
mbed_official 0:a554658735bf 904 bool parsing_intf = false;
samux 4:b320d68e98e7 905 uint8_t current_intf = 0;
mbed_official 0:a554658735bf 906
mbed_official 0:a554658735bf 907 while (index < len) {
mbed_official 0:a554658735bf 908 len_desc = conf_descr[index];
mbed_official 0:a554658735bf 909 id = conf_descr[index+1];
mbed_official 0:a554658735bf 910 switch (id) {
mbed_official 0:a554658735bf 911 case CONFIGURATION_DESCRIPTOR:
samux 4:b320d68e98e7 912 USB_DBG("dev: %p has %d intf", dev, conf_descr[4]);
samux 4:b320d68e98e7 913 dev->setNbIntf(conf_descr[4]);
mbed_official 0:a554658735bf 914 break;
mbed_official 0:a554658735bf 915 case INTERFACE_DESCRIPTOR:
samux 4:b320d68e98e7 916 if(pEnumerator->parseInterface(conf_descr[index + 2], conf_descr[index + 5], conf_descr[index + 6], conf_descr[index + 7])) {
mbed_official 0:a554658735bf 917 if (intf_nb++ <= MAX_INTF) {
samux 4:b320d68e98e7 918 current_intf = conf_descr[index + 2];
samux 4:b320d68e98e7 919 dev->addInterface(current_intf, conf_descr[index + 5], conf_descr[index + 6], conf_descr[index + 7]);
mbed_official 0:a554658735bf 920 nb_endpoints_used = 0;
samux 4:b320d68e98e7 921 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]);
mbed_official 0:a554658735bf 922 } else {
mbed_official 0:a554658735bf 923 USB_DBG("Drop intf...");
mbed_official 0:a554658735bf 924 }
mbed_official 0:a554658735bf 925 parsing_intf = true;
mbed_official 0:a554658735bf 926 } else {
mbed_official 0:a554658735bf 927 parsing_intf = false;
mbed_official 0:a554658735bf 928 }
mbed_official 0:a554658735bf 929 break;
mbed_official 0:a554658735bf 930 case ENDPOINT_DESCRIPTOR:
mbed_official 0:a554658735bf 931 if (parsing_intf && (intf_nb <= MAX_INTF) ) {
mbed_official 0:a554658735bf 932 if (nb_endpoints_used < MAX_ENDPOINT_PER_INTERFACE) {
samux 4:b320d68e98e7 933 if( pEnumerator->useEndpoint(current_intf, (ENDPOINT_TYPE)(conf_descr[index + 3] & 0x03), (ENDPOINT_DIRECTION)((conf_descr[index + 2] >> 7) + 1)) ) {
mbed_official 0:a554658735bf 934 // if the USBEndpoint is isochronous -> skip it (TODO: fix this)
mbed_official 0:a554658735bf 935 if ((conf_descr[index + 3] & 0x03) != ISOCHRONOUS_ENDPOINT) {
mbed_official 0:a554658735bf 936 ep = newEndpoint((ENDPOINT_TYPE)(conf_descr[index+3] & 0x03),
mbed_official 0:a554658735bf 937 (ENDPOINT_DIRECTION)((conf_descr[index + 2] >> 7) + 1),
mbed_official 0:a554658735bf 938 conf_descr[index + 4] | (conf_descr[index + 5] << 8),
mbed_official 0:a554658735bf 939 conf_descr[index + 2] & 0x0f);
samux 4:b320d68e98e7 940 USB_DBG("ADD USBEndpoint %p, on interf %d on device %p", ep, current_intf, dev);
mbed_official 0:a554658735bf 941 if (ep != NULL && dev != NULL) {
samux 4:b320d68e98e7 942 addEndpoint(dev, current_intf, ep);
mbed_official 0:a554658735bf 943 } else {
mbed_official 0:a554658735bf 944 USB_DBG("EP NULL");
mbed_official 0:a554658735bf 945 }
mbed_official 0:a554658735bf 946 nb_endpoints_used++;
mbed_official 0:a554658735bf 947 } else {
mbed_official 0:a554658735bf 948 USB_DBG("ISO USBEndpoint NOT SUPPORTED");
mbed_official 0:a554658735bf 949 }
mbed_official 0:a554658735bf 950 }
mbed_official 0:a554658735bf 951 }
mbed_official 0:a554658735bf 952 }
mbed_official 0:a554658735bf 953 break;
mbed_official 0:a554658735bf 954 case HID_DESCRIPTOR:
mbed_official 0:a554658735bf 955 lenReportDescr = conf_descr[index + 7] | (conf_descr[index + 8] << 8);
mbed_official 0:a554658735bf 956 break;
mbed_official 0:a554658735bf 957 default:
mbed_official 0:a554658735bf 958 break;
mbed_official 0:a554658735bf 959 }
mbed_official 0:a554658735bf 960 index += len_desc;
mbed_official 0:a554658735bf 961 }
mbed_official 0:a554658735bf 962 }
mbed_official 0:a554658735bf 963
mbed_official 0:a554658735bf 964
mbed_official 0:a554658735bf 965 USB_TYPE USBHost::bulkWrite(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking)
mbed_official 0:a554658735bf 966 {
mbed_official 0:a554658735bf 967 return generalTransfer(dev, ep, buf, len, blocking, BULK_ENDPOINT, true);
mbed_official 0:a554658735bf 968 }
mbed_official 0:a554658735bf 969
mbed_official 0:a554658735bf 970 USB_TYPE USBHost::bulkRead(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking)
mbed_official 0:a554658735bf 971 {
mbed_official 0:a554658735bf 972 return generalTransfer(dev, ep, buf, len, blocking, BULK_ENDPOINT, false);
mbed_official 0:a554658735bf 973 }
mbed_official 0:a554658735bf 974
mbed_official 0:a554658735bf 975 USB_TYPE USBHost::interruptWrite(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking)
mbed_official 0:a554658735bf 976 {
mbed_official 0:a554658735bf 977 return generalTransfer(dev, ep, buf, len, blocking, INTERRUPT_ENDPOINT, true);
mbed_official 0:a554658735bf 978 }
mbed_official 0:a554658735bf 979
mbed_official 0:a554658735bf 980 USB_TYPE USBHost::interruptRead(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking)
mbed_official 0:a554658735bf 981 {
mbed_official 0:a554658735bf 982 return generalTransfer(dev, ep, buf, len, blocking, INTERRUPT_ENDPOINT, false);
mbed_official 0:a554658735bf 983 }
mbed_official 0:a554658735bf 984
mbed_official 0:a554658735bf 985 USB_TYPE USBHost::generalTransfer(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking, ENDPOINT_TYPE type, bool write) {
samux 4:b320d68e98e7 986
mbed_official 0:a554658735bf 987 #if DEBUG_TRANSFER
mbed_official 0:a554658735bf 988 const char * type_str = (type == BULK_ENDPOINT) ? "BULK" : ((type == INTERRUPT_ENDPOINT) ? "INTERRUPT" : "ISOCHRONOUS");
samux 4:b320d68e98e7 989 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());
mbed_official 0:a554658735bf 990 #endif
samux 4:b320d68e98e7 991
samux 9:7671b6a8c363 992 usb_mutex.lock();
samux 9:7671b6a8c363 993
mbed_official 0:a554658735bf 994 USB_TYPE res;
mbed_official 0:a554658735bf 995 ENDPOINT_DIRECTION dir = (write) ? OUT : IN;
samux 4:b320d68e98e7 996
mbed_official 0:a554658735bf 997 if (dev == NULL) {
mbed_official 0:a554658735bf 998 USB_ERR("dev NULL");
samux 4:b320d68e98e7 999 usb_mutex.unlock();
mbed_official 0:a554658735bf 1000 return USB_TYPE_ERROR;
mbed_official 0:a554658735bf 1001 }
mbed_official 0:a554658735bf 1002
mbed_official 0:a554658735bf 1003 if (ep == NULL) {
mbed_official 0:a554658735bf 1004 USB_ERR("ep NULL");
samux 4:b320d68e98e7 1005 usb_mutex.unlock();
mbed_official 0:a554658735bf 1006 return USB_TYPE_ERROR;
mbed_official 0:a554658735bf 1007 }
mbed_official 0:a554658735bf 1008
mbed_official 0:a554658735bf 1009 if (ep->getState() != USB_TYPE_IDLE) {
samux 4:b320d68e98e7 1010 USB_WARN("[ep: %p - dev: %p - %s] NOT IDLE: %s", ep, ep->dev, ep->dev->getName(ep->getIntfNb()), ep->getStateString());
samux 4:b320d68e98e7 1011 usb_mutex.unlock();
mbed_official 0:a554658735bf 1012 return ep->getState();
mbed_official 0:a554658735bf 1013 }
mbed_official 0:a554658735bf 1014
mbed_official 0:a554658735bf 1015 if ((ep->getDir() != dir) || (ep->getType() != type)) {
mbed_official 0:a554658735bf 1016 USB_ERR("[ep: %p - dev: %p] wrong dir or bad USBEndpoint type", ep, ep->dev);
samux 4:b320d68e98e7 1017 usb_mutex.unlock();
mbed_official 0:a554658735bf 1018 return USB_TYPE_ERROR;
mbed_official 0:a554658735bf 1019 }
mbed_official 0:a554658735bf 1020
mbed_official 0:a554658735bf 1021 if (dev->getAddress() != ep->getDeviceAddress()) {
mbed_official 0:a554658735bf 1022 USB_ERR("[ep: %p - dev: %p] USBEndpoint addr and device addr don't match", ep, ep->dev);
samux 4:b320d68e98e7 1023 usb_mutex.unlock();
mbed_official 0:a554658735bf 1024 return USB_TYPE_ERROR;
mbed_official 0:a554658735bf 1025 }
mbed_official 0:a554658735bf 1026
mbed_official 0:a554658735bf 1027 #if DEBUG_TRANSFER
mbed_official 0:a554658735bf 1028 if (write) {
mbed_official 0:a554658735bf 1029 USB_DBG_TRANSFER("%s WRITE buffer", type_str);
mbed_official 0:a554658735bf 1030 for (int i = 0; i < ep->getLengthTransferred(); i++)
mbed_official 0:a554658735bf 1031 printf("%02X ", buf[i]);
mbed_official 0:a554658735bf 1032 printf("\r\n\r\n");
mbed_official 0:a554658735bf 1033 }
mbed_official 0:a554658735bf 1034 #endif
mbed_official 0:a554658735bf 1035 addTransfer(ep, buf, len);
mbed_official 0:a554658735bf 1036
mbed_official 0:a554658735bf 1037 if (blocking) {
samux 4:b320d68e98e7 1038
samux 9:7671b6a8c363 1039 ep->ep_queue.get();
samux 9:7671b6a8c363 1040 res = ep->getState();
samux 4:b320d68e98e7 1041
samux 4:b320d68e98e7 1042 USB_DBG_TRANSFER("%s TRANSFER res: %s on ep: %p\r\n", type_str, ep->getStateString(), ep);
samux 4:b320d68e98e7 1043
mbed_official 0:a554658735bf 1044 if (res != USB_TYPE_IDLE) {
samux 4:b320d68e98e7 1045 usb_mutex.unlock();
mbed_official 0:a554658735bf 1046 return res;
mbed_official 0:a554658735bf 1047 }
mbed_official 0:a554658735bf 1048
samux 4:b320d68e98e7 1049 usb_mutex.unlock();
mbed_official 0:a554658735bf 1050 return USB_TYPE_OK;
mbed_official 0:a554658735bf 1051 }
samux 4:b320d68e98e7 1052
samux 4:b320d68e98e7 1053 usb_mutex.unlock();
mbed_official 0:a554658735bf 1054 return USB_TYPE_PROCESSING;
mbed_official 0:a554658735bf 1055
mbed_official 0:a554658735bf 1056 }
mbed_official 0:a554658735bf 1057
mbed_official 0:a554658735bf 1058
mbed_official 0:a554658735bf 1059 USB_TYPE USBHost::controlRead(USBDeviceConnected * dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len) {
mbed_official 0:a554658735bf 1060 return controlTransfer(dev, requestType, request, value, index, buf, len, false);
mbed_official 0:a554658735bf 1061 }
mbed_official 0:a554658735bf 1062
mbed_official 0:a554658735bf 1063 USB_TYPE USBHost::controlWrite(USBDeviceConnected * dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len) {
mbed_official 0:a554658735bf 1064 return controlTransfer(dev, requestType, request, value, index, buf, len, true);
mbed_official 0:a554658735bf 1065 }
mbed_official 0:a554658735bf 1066
mbed_official 0:a554658735bf 1067 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)
mbed_official 0:a554658735bf 1068 {
samux 4:b320d68e98e7 1069 usb_mutex.lock();
samux 4:b320d68e98e7 1070 USB_DBG_TRANSFER("----- CONTROL %s [dev: %p - hub: %d - port: %d] ------", (write) ? "WRITE" : "READ", dev, dev->getHub(), dev->getPort());
mbed_official 0:a554658735bf 1071
mbed_official 0:a554658735bf 1072 int length_transfer = len;
mbed_official 0:a554658735bf 1073 USB_TYPE res;
mbed_official 0:a554658735bf 1074 uint32_t token;
mbed_official 0:a554658735bf 1075
mbed_official 0:a554658735bf 1076 control->setSpeed(dev->getSpeed());
mbed_official 0:a554658735bf 1077 control->setSize(dev->getSizeControlEndpoint());
mbed_official 0:a554658735bf 1078 if (dev->isActiveAddress()) {
mbed_official 0:a554658735bf 1079 control->setDeviceAddress(dev->getAddress());
mbed_official 0:a554658735bf 1080 } else {
mbed_official 0:a554658735bf 1081 control->setDeviceAddress(0);
mbed_official 0:a554658735bf 1082 }
samux 4:b320d68e98e7 1083
mbed_official 0:a554658735bf 1084 USB_DBG_TRANSFER("Control transfer on device: %d\r\n", control->getDeviceAddress());
mbed_official 0:a554658735bf 1085 fillControlBuf(requestType, request, value, index, len);
mbed_official 0:a554658735bf 1086
mbed_official 0:a554658735bf 1087 #if DEBUG_TRANSFER
mbed_official 0:a554658735bf 1088 USB_DBG_TRANSFER("SETUP PACKET: ");
mbed_official 0:a554658735bf 1089 for (int i = 0; i < 8; i++)
mbed_official 0:a554658735bf 1090 printf("%01X ", setupPacket[i]);
mbed_official 0:a554658735bf 1091 printf("\r\n");
mbed_official 0:a554658735bf 1092 #endif
mbed_official 0:a554658735bf 1093
mbed_official 0:a554658735bf 1094 control->setNextToken(TD_SETUP);
mbed_official 0:a554658735bf 1095 addTransfer(control, (uint8_t*)setupPacket, 8);
mbed_official 0:a554658735bf 1096
samux 9:7671b6a8c363 1097 control->ep_queue.get();
samux 9:7671b6a8c363 1098 res = control->getState();
mbed_official 0:a554658735bf 1099
mbed_official 0:a554658735bf 1100 USB_DBG_TRANSFER("CONTROL setup stage %s", control->getStateString());
mbed_official 0:a554658735bf 1101
mbed_official 0:a554658735bf 1102 if (res != USB_TYPE_IDLE) {
mbed_official 0:a554658735bf 1103 usb_mutex.unlock();
mbed_official 0:a554658735bf 1104 return res;
mbed_official 0:a554658735bf 1105 }
mbed_official 0:a554658735bf 1106
mbed_official 0:a554658735bf 1107 if (length_transfer) {
mbed_official 0:a554658735bf 1108 token = (write) ? TD_OUT : TD_IN;
mbed_official 0:a554658735bf 1109 control->setNextToken(token);
mbed_official 0:a554658735bf 1110 addTransfer(control, (uint8_t *)buf, length_transfer);
mbed_official 0:a554658735bf 1111
samux 9:7671b6a8c363 1112 control->ep_queue.get();
samux 9:7671b6a8c363 1113 res = control->getState();
mbed_official 0:a554658735bf 1114
mbed_official 0:a554658735bf 1115 #if DEBUG_TRANSFER
mbed_official 0:a554658735bf 1116 USB_DBG_TRANSFER("CONTROL %s stage %s", (write) ? "WRITE" : "READ", control->getStateString());
mbed_official 0:a554658735bf 1117 if (write) {
mbed_official 0:a554658735bf 1118 USB_DBG_TRANSFER("CONTROL WRITE buffer");
mbed_official 0:a554658735bf 1119 for (int i = 0; i < control->getLengthTransferred(); i++)
mbed_official 0:a554658735bf 1120 printf("%02X ", buf[i]);
mbed_official 0:a554658735bf 1121 printf("\r\n\r\n");
mbed_official 0:a554658735bf 1122 } else {
mbed_official 0:a554658735bf 1123 USB_DBG_TRANSFER("CONTROL READ SUCCESS [%d bytes transferred]", control->getLengthTransferred());
mbed_official 0:a554658735bf 1124 for (int i = 0; i < control->getLengthTransferred(); i++)
mbed_official 0:a554658735bf 1125 printf("%02X ", buf[i]);
mbed_official 0:a554658735bf 1126 printf("\r\n\r\n");
mbed_official 0:a554658735bf 1127 }
mbed_official 0:a554658735bf 1128 #endif
mbed_official 0:a554658735bf 1129
mbed_official 0:a554658735bf 1130 if (res != USB_TYPE_IDLE) {
mbed_official 0:a554658735bf 1131 usb_mutex.unlock();
mbed_official 0:a554658735bf 1132 return res;
mbed_official 0:a554658735bf 1133 }
mbed_official 0:a554658735bf 1134 }
mbed_official 0:a554658735bf 1135
mbed_official 0:a554658735bf 1136 token = (write) ? TD_IN : TD_OUT;
mbed_official 0:a554658735bf 1137 control->setNextToken(token);
mbed_official 0:a554658735bf 1138 addTransfer(control, NULL, 0);
mbed_official 0:a554658735bf 1139
samux 9:7671b6a8c363 1140 control->ep_queue.get();
samux 9:7671b6a8c363 1141 res = control->getState();
mbed_official 0:a554658735bf 1142
mbed_official 0:a554658735bf 1143 USB_DBG_TRANSFER("CONTROL ack stage %s", control->getStateString());
mbed_official 0:a554658735bf 1144 usb_mutex.unlock();
mbed_official 0:a554658735bf 1145
mbed_official 0:a554658735bf 1146 if (res != USB_TYPE_IDLE)
mbed_official 0:a554658735bf 1147 return res;
mbed_official 0:a554658735bf 1148
mbed_official 0:a554658735bf 1149 return USB_TYPE_OK;
mbed_official 0:a554658735bf 1150 }
mbed_official 0:a554658735bf 1151
mbed_official 0:a554658735bf 1152
mbed_official 0:a554658735bf 1153 void USBHost::fillControlBuf(uint8_t requestType, uint8_t request, uint16_t value, uint16_t index, int len)
mbed_official 0:a554658735bf 1154 {
mbed_official 0:a554658735bf 1155 #ifdef __BIG_ENDIAN
mbed_official 0:a554658735bf 1156 #error "Must implement BE to LE conv here"
mbed_official 0:a554658735bf 1157 #endif
mbed_official 0:a554658735bf 1158 setupPacket[0] = requestType;
mbed_official 0:a554658735bf 1159 setupPacket[1] = request;
mbed_official 0:a554658735bf 1160 //We are in LE so it's fine
mbed_official 0:a554658735bf 1161 *((uint16_t*)&setupPacket[2]) = value;
mbed_official 0:a554658735bf 1162 *((uint16_t*)&setupPacket[4]) = index;
mbed_official 0:a554658735bf 1163 *((uint16_t*)&setupPacket[6]) = (uint32_t) len;
mbed_official 0:a554658735bf 1164 }