mirror of
https://github.com/gdsports/USBHost_t36
synced 2024-11-24 01:52:23 -05:00
390 lines
12 KiB
C++
390 lines
12 KiB
C++
/* USB EHCI Host for Teensy 3.6
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* Copyright 2017 Paul Stoffregen (paul@pjrc.com)
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice shall be included
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* in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#include <Arduino.h>
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#include "USBHost.h"
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static USBDriver *available_drivers = NULL;
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static uint8_t enumbuf[256] __attribute__ ((aligned(16)));
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static setup_t enumsetup __attribute__ ((aligned(16)));
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static uint16_t enumlen;
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static Device_t *devlist=NULL;
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static void pipe_set_maxlen(Pipe_t *pipe, uint32_t maxlen);
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static void pipe_set_addr(Pipe_t *pipe, uint32_t addr);
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void USBHost::driver_ready_for_device(USBDriver *driver)
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{
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driver->device = NULL;
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driver->next = NULL;
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if (available_drivers == NULL) {
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available_drivers = driver;
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} else {
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// append to end of list
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USBDriver *last = available_drivers;
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while (last->next) last = last->next;
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last->next = driver;
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}
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}
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// Create a new device and begin the enumeration process
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//
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Device_t * USBHost::new_Device(uint32_t speed, uint32_t hub_addr, uint32_t hub_port)
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{
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Device_t *dev;
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print("new_Device: ");
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switch (speed) {
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case 0: print("12"); break;
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case 1: print("1.5"); break;
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case 2: print("480"); break;
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default: print("??");
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}
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println(" Mbit/sec");
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dev = allocate_Device();
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if (!dev) return NULL;
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memset(dev, 0, sizeof(Device_t));
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dev->speed = speed;
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dev->address = 0;
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dev->hub_address = hub_addr;
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dev->hub_port = hub_port;
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dev->control_pipe = new_Pipe(dev, 0, 0, 0, 8);
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if (!dev->control_pipe) {
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free_Device(dev);
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return NULL;
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}
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dev->control_pipe->callback_function = &enumeration;
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dev->control_pipe->direction = 1; // 1=IN
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// TODO: exclusive access to enumeration process
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// any new devices detected while enumerating would
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// go onto a waiting list
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mk_setup(enumsetup, 0x80, 6, 0x0100, 0, 8); // 6=GET_DESCRIPTOR
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queue_Control_Transfer(dev, &enumsetup, enumbuf, NULL);
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if (devlist == NULL) {
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devlist = dev;
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} else {
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Device_t *p;
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for (p = devlist; p->next; p = p->next) ; // walk devlist
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p->next = dev;
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}
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return dev;
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}
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void USBHost::enumeration(const Transfer_t *transfer)
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{
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Device_t *dev;
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uint32_t len;
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// If a driver created this control transfer, allow it to process the result
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if (transfer->driver) {
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transfer->driver->control(transfer);
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return;
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}
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println("enumeration:");
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//print_hexbytes(transfer->buffer, transfer->length);
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//print(transfer);
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dev = transfer->pipe->device;
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while (1) {
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// Within this large switch/case, "break" means we've done
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// some work, but more remains to be done in a different
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// state. Generally break is used after parsing received
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// data, but what happens next could be different states.
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// When completed, return is used. Generally, return happens
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// only after a new control transfer is queued, or when
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// enumeration is complete and no more communication is needed.
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switch (dev->enum_state) {
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case 0: // read 8 bytes of device desc, set max packet, and send set address
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pipe_set_maxlen(dev->control_pipe, enumbuf[7]);
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mk_setup(enumsetup, 0, 5, assign_address(), 0, 0); // 5=SET_ADDRESS
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queue_Control_Transfer(dev, &enumsetup, NULL, NULL);
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dev->enum_state = 1;
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return;
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case 1: // request all 18 bytes of device descriptor
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dev->address = enumsetup.wValue;
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pipe_set_addr(dev->control_pipe, enumsetup.wValue);
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mk_setup(enumsetup, 0x80, 6, 0x0100, 0, 18); // 6=GET_DESCRIPTOR
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queue_Control_Transfer(dev, &enumsetup, enumbuf, NULL);
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dev->enum_state = 2;
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return;
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case 2: // parse 18 device desc bytes
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dev->bDeviceClass = enumbuf[4];
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dev->bDeviceSubClass = enumbuf[5];
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dev->bDeviceProtocol = enumbuf[6];
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dev->idVendor = enumbuf[8] | (enumbuf[9] << 8);
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dev->idProduct = enumbuf[10] | (enumbuf[11] << 8);
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enumbuf[0] = enumbuf[14];
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enumbuf[1] = enumbuf[15];
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enumbuf[2] = enumbuf[16];
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if ((enumbuf[0] | enumbuf[1] | enumbuf[2]) > 0) {
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dev->enum_state = 3;
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} else {
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dev->enum_state = 11;
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}
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break;
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case 3: // request Language ID
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len = sizeof(enumbuf) - 4;
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mk_setup(enumsetup, 0x80, 6, 0x0300, 0, len); // 6=GET_DESCRIPTOR
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queue_Control_Transfer(dev, &enumsetup, enumbuf + 4, NULL);
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dev->enum_state = 4;
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return;
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case 4: // parse Language ID
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if (enumbuf[4] < 4 || enumbuf[5] != 3) {
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dev->enum_state = 11;
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} else {
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dev->LanguageID = enumbuf[6] | (enumbuf[7] << 8);
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if (enumbuf[0]) dev->enum_state = 5;
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else if (enumbuf[1]) dev->enum_state = 7;
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else if (enumbuf[2]) dev->enum_state = 9;
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else dev->enum_state = 11;
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}
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break;
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case 5: // request Manufacturer string
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len = sizeof(enumbuf) - 4;
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mk_setup(enumsetup, 0x80, 6, 0x0300 | enumbuf[0], dev->LanguageID, len);
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queue_Control_Transfer(dev, &enumsetup, enumbuf + 4, NULL);
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dev->enum_state = 6;
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return;
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case 6: // parse Manufacturer string
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// TODO: receive the string...
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if (enumbuf[1]) dev->enum_state = 7;
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else if (enumbuf[2]) dev->enum_state = 9;
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else dev->enum_state = 11;
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break;
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case 7: // request Product string
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len = sizeof(enumbuf) - 4;
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mk_setup(enumsetup, 0x80, 6, 0x0300 | enumbuf[1], dev->LanguageID, len);
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queue_Control_Transfer(dev, &enumsetup, enumbuf + 4, NULL);
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dev->enum_state = 8;
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return;
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case 8: // parse Product string
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// TODO: receive the string...
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if (enumbuf[2]) dev->enum_state = 9;
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else dev->enum_state = 11;
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break;
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case 9: // request Serial Number string
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len = sizeof(enumbuf) - 4;
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mk_setup(enumsetup, 0x80, 6, 0x0300 | enumbuf[2], dev->LanguageID, len);
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queue_Control_Transfer(dev, &enumsetup, enumbuf + 4, NULL);
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dev->enum_state = 10;
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return;
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case 10: // parse Serial Number string
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// TODO: receive the string...
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dev->enum_state = 11;
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break;
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case 11: // request first 9 bytes of config desc
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mk_setup(enumsetup, 0x80, 6, 0x0200, 0, 9); // 6=GET_DESCRIPTOR
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queue_Control_Transfer(dev, &enumsetup, enumbuf, NULL);
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dev->enum_state = 12;
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return;
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case 12: // read 9 bytes, request all of config desc
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enumlen = enumbuf[2] | (enumbuf[3] << 8);
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println("Config data length = ", enumlen);
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if (enumlen > sizeof(enumbuf)) {
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// TODO: how to handle device with too much config data
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}
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mk_setup(enumsetup, 0x80, 6, 0x0200, 0, enumlen); // 6=GET_DESCRIPTOR
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queue_Control_Transfer(dev, &enumsetup, enumbuf, NULL);
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dev->enum_state = 13;
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return;
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case 13: // read all config desc, send set config
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println("bNumInterfaces = ", enumbuf[4]);
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println("bConfigurationValue = ", enumbuf[5]);
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dev->bmAttributes = enumbuf[7];
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dev->bMaxPower = enumbuf[8];
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// TODO: actually do something with interface descriptor?
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mk_setup(enumsetup, 0, 9, enumbuf[5], 0, 0); // 9=SET_CONFIGURATION
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queue_Control_Transfer(dev, &enumsetup, NULL, NULL);
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dev->enum_state = 14;
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return;
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case 14: // device is now configured
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claim_drivers(dev);
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dev->enum_state = 15;
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// TODO: unlock exclusive access to enumeration process
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// if any detected devices are waiting, start the first
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return;
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case 15: // control transfers for other stuff?
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// TODO: handle other standard control: set/clear feature, etc
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default:
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return;
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}
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}
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}
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void USBHost::claim_drivers(Device_t *dev)
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{
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USBDriver *driver, *prev=NULL;
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// first check if any driver wishes to claim the entire device
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for (driver=available_drivers; driver != NULL; driver = driver->next) {
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if (driver->claim(dev, 0, enumbuf + 9, enumlen - 9)) {
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if (prev) {
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prev->next = driver->next;
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} else {
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available_drivers = driver->next;
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}
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driver->device = dev;
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driver->next = NULL;
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dev->drivers = driver;
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return;
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}
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prev = driver;
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}
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// parse interfaces from config descriptor
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const uint8_t *p = enumbuf + 9;
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const uint8_t *end = enumbuf + enumlen;
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while (p < end) {
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uint8_t desclen = *p;
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uint8_t desctype = *(p+1);
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print("Descriptor ");
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print(desctype);
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print(" = ");
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if (desctype == 4) println("INTERFACE");
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else if (desctype == 5) println("ENDPOINT");
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else if (desctype == 6) println("DEV_QUALIFIER");
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else if (desctype == 7) println("OTHER_SPEED");
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else if (desctype == 11) println("IAD");
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else if (desctype == 33) println("HID");
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else println(" ???");
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if (desctype == 11 && desclen == 8) {
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// TODO: parse IAD, ask drivers for claim
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// TODO: how to skip over all interfaces IAD represented
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}
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if (desctype == 4 && desclen == 9) {
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// found an interface, ask available drivers if they want it
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prev = NULL;
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for (driver=available_drivers; driver != NULL; driver = driver->next) {
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// TODO: should parse ahead and give claim()
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// an accurate length. (end - p) is the rest
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// of ALL descriptors, likely more interfaces
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// this driver has no business parsing
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if (driver->claim(dev, 1, p, end - p)) {
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// this driver claims iface
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// remove it from available_drivers list
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if (prev) {
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prev->next = driver->next;
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} else {
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available_drivers = driver->next;
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}
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// add to list of drivers using this device
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if (dev->drivers) {
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dev->drivers->next = driver;
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}
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dev->drivers = driver;
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driver->next = NULL;
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driver->device = dev;
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// not done, may be more interface for more drivers
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}
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prev = driver;
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}
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}
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p += desclen;
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}
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}
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static bool address_in_use(uint32_t addr)
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{
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for (Device_t *p = devlist; p; p = p->next) {
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if (p->address == addr) return true;
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}
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return false;
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}
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uint32_t USBHost::assign_address(void)
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{
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static uint8_t last_assigned_address=0;
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uint32_t addr = last_assigned_address;
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while (1) {
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if (++addr > 127) addr = 1;
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if (!address_in_use(addr)) {
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last_assigned_address = addr;
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return addr;
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}
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}
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}
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static void pipe_set_maxlen(Pipe_t *pipe, uint32_t maxlen)
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{
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pipe->qh.capabilities[0] = (pipe->qh.capabilities[0] & 0x8000FFFF) | (maxlen << 16);
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}
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static void pipe_set_addr(Pipe_t *pipe, uint32_t addr)
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{
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pipe->qh.capabilities[0] = (pipe->qh.capabilities[0] & 0xFFFFFF80) | addr;
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}
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void USBHost::disconnect_Device(Device_t *dev)
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{
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if (!dev) return;
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println("disconnect_Device:");
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// Disconnect all drivers using this device. If this device is
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// a hub, the hub driver is responsible for recursively calling
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// this function to disconnect its downstream devices.
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print_driverlist("available_drivers", available_drivers);
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print_driverlist("dev->drivers", dev->drivers);
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for (USBDriver *p = dev->drivers; p; ) {
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println("disconnect driver ", (uint32_t)p, HEX);
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p->disconnect();
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USBDriver *next = p->next;
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p->next = available_drivers;
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available_drivers = p;
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p = next;
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}
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print_driverlist("available_drivers", available_drivers);
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// delete all the pipes
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for (Pipe_t *p = dev->data_pipes; p; ) {
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Pipe_t *next = p->next;
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delete_Pipe(p);
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p = next;
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}
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delete_Pipe(dev->control_pipe);
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// remove device from devlist and free its Device_t
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Device_t *prev_dev = NULL;
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for (Device_t *p = devlist; p; p = p->next) {
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if (p == dev) {
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if (prev_dev == NULL) {
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devlist = p->next;
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} else {
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prev_dev->next = p->next;
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}
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println("removed Device_t from devlist");
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free_Device(p);
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break;
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}
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prev_dev = p;
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}
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}
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