mirror of
https://github.com/gdsports/USBHost_t36
synced 2024-11-14 05:05:09 -05:00
4e2ea2d96e
instead of having each HUB have 7 buffers, which can eat up space. We have each main object contribute currently one string buffer, which than when we initialize a Device_t we try to allocate one for it, likewise we release it when the Device is released. Hopefully less memory needed. Also updated such that the HIDInput classes can not retrieve these strings. Changed test program to now also have list of HIDInput objects and when I detect a new one, I again print out info on it...
505 lines
15 KiB
C++
505 lines
15 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_t36.h" // Read this header first for key info
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// True when any hub port is in the reset or reset recovery phase.
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// Only one USB device may be reset at a time, because it will
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// begin responding to address zero.
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volatile bool USBHub::reset_busy = false;
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#define print USBHost::print_
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#define println USBHost::println_
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void USBHub::init()
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{
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contribute_Devices(mydevices, sizeof(mydevices)/sizeof(Device_t));
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contribute_Pipes(mypipes, sizeof(mypipes)/sizeof(Pipe_t));
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contribute_Transfers(mytransfers, sizeof(mytransfers)/sizeof(Transfer_t));
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contribute_String_Buffers(mystring_bufs, sizeof(mystring_bufs)/sizeof(strbuf_t));
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driver_ready_for_device(this);
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}
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bool USBHub::claim(Device_t *dev, int type, const uint8_t *descriptors, uint32_t len)
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{
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// only claim entire device, never at interface level
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if (type != 0) return false;
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println("USBHub memory usage = ", sizeof(USBHub));
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println("USBHub claim_device this=", (uint32_t)this, HEX);
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resettimer.pointer = (void *)"Hello, I'm resettimer";
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debouncetimer.pointer = (void *)"Debounce Timer";
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// check for HUB type
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if (dev->bDeviceClass != 9 || dev->bDeviceSubClass != 0) return false;
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// protocol must be 0=FS, 1=HS Single-TT, or 2=HS Multi-TT
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if (dev->bDeviceProtocol > 2) return false;
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// check for endpoint descriptor
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if (descriptors[9] != 7 || descriptors[10] != 5) return false;
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// endpoint must be IN direction
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if ((descriptors[11] & 0xF0) != 0x80) return false;
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// endpoint type must be interrupt
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if (descriptors[12] != 3) return false;
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// get the endpoint number, must not be zero
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endpoint = descriptors[11] & 0x0F;
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if (endpoint == 0) return false;
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// get the maximum packet size
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uint32_t maxsize = descriptors[13] | (descriptors[14] << 8);
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if (maxsize == 0) return false;
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if (maxsize > 1) return false; // do hub chips with > 7 ports exist?
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interval = descriptors[15];
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println(" polling interval = ", interval);
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println(descriptors[9]);
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println(descriptors[10]);
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println(descriptors[11], HEX);
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println(maxsize);
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// bDeviceProtocol = 0 is full speed
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// bDeviceProtocol = 1 is high speed single TT
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// bDeviceProtocol = 2 is high speed multiple TT
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println("bDeviceClass = ", dev->bDeviceClass);
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println("bDeviceSubClass = ", dev->bDeviceSubClass);
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println("bDeviceProtocol = ", dev->bDeviceProtocol);
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numports = 0; // unknown until hub descriptor is read
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changepipe = NULL;
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changebits = 0;
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sending_control_transfer = 0;
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port_doing_reset = 0;
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memset(portstate, 0, sizeof(portstate));
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memset(devicelist, 0, sizeof(devicelist));
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mk_setup(setup, 0xA0, 6, 0x2900, 0, sizeof(hub_desc));
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queue_Control_Transfer(dev, &setup, hub_desc, this);
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return true;
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}
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bool USBHub::can_send_control_now()
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{
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if (sending_control_transfer) return false;
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sending_control_transfer = 1;
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return true;
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}
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void USBHub::send_poweron(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 3, 8, port, 0);
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_poweron &= ~(1 << port);
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} else {
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send_pending_poweron |= (1 << port);
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}
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}
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void USBHub::send_getstatus(uint32_t port)
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{
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if (port > numports) return;
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if (can_send_control_now()) {
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println("getstatus, port = ", port);
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mk_setup(setup, ((port > 0) ? 0xA3 : 0xA0), 0, 0, port, 4);
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queue_Control_Transfer(device, &setup, &statusbits, this);
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send_pending_getstatus &= ~(1 << port);
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} else {
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println("deferred getstatus, port = ", port);
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send_pending_getstatus |= (1 << port);
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}
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}
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void USBHub::send_clearstatus_connect(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 1, 16, port, 0); // 16=C_PORT_CONNECTION
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_clearstatus_connect &= ~(1 << port);
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} else {
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send_pending_clearstatus_connect |= (1 << port);
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}
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}
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void USBHub::send_clearstatus_enable(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 1, 17, port, 0); // 17=C_PORT_ENABLE
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_clearstatus_enable &= ~(1 << port);
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} else {
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send_pending_clearstatus_enable |= (1 << port);
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}
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}
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void USBHub::send_clearstatus_suspend(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 1, 18, port, 0); // 18=C_PORT_SUSPEND
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_clearstatus_suspend &= ~(1 << port);
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} else {
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send_pending_clearstatus_suspend |= (1 << port);
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}
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}
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void USBHub::send_clearstatus_overcurrent(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 1, 19, port, 0); // 19=C_PORT_OVER_CURRENT
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_clearstatus_overcurrent &= ~(1 << port);
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} else {
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send_pending_clearstatus_overcurrent |= (1 << port);
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}
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}
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void USBHub::send_clearstatus_reset(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 1, 20, port, 0); // 20=C_PORT_RESET
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_clearstatus_reset &= ~(1 << port);
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} else {
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send_pending_clearstatus_reset |= (1 << port);
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}
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}
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void USBHub::send_setreset(uint32_t port)
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{
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if (port == 0 || port > numports) return;
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println("send_setreset");
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if (can_send_control_now()) {
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mk_setup(setup, 0x23, 3, 4, port, 0); // set feature PORT_RESET
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queue_Control_Transfer(device, &setup, NULL, this);
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send_pending_setreset &= ~(1 << port);
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} else {
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send_pending_setreset |= (1 << port);
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}
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}
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static uint32_t lowestbit(uint32_t bitmask)
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{
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return __builtin_ctz(bitmask);
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}
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void USBHub::control(const Transfer_t *transfer)
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{
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println("USBHub control callback");
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print_hexbytes(transfer->buffer, transfer->length);
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sending_control_transfer = 0;
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uint32_t port = transfer->setup.wIndex;
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uint32_t mesg = transfer->setup.word1;
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switch (mesg) {
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case 0x290006A0: // read hub descriptor
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numports = hub_desc[2];
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characteristics = hub_desc[3];
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powertime = hub_desc[5];
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// TODO: do we need to use the DeviceRemovable
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// bits to make synthetic device connect events?
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println("Hub ports = ", numports);
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for (uint32_t i=1; i <= numports; i++) {
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send_poweron(i);
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}
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break;
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case 0x00080323: // power turned on
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if (port == numports && changepipe == NULL) {
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println("power turned on to all ports");
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println("device addr = ", device->address);
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changepipe = new_Pipe(device, 3, endpoint, 1, 1, interval);
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println("pipe cap1 = ", changepipe->qh.capabilities[0], HEX);
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changepipe->callback_function = callback;
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queue_Data_Transfer(changepipe, &changebits, 1, this);
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}
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break;
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case 0x000000A0: // get hub status
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println("New Hub Status");
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break;
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case 0x000000A3: // get port status
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println("New Port Status");
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if (transfer->length == 4) {
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uint32_t status = *(uint32_t *)(transfer->buffer);
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if (status != statusbits) println("ERROR: status not same");
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new_port_status(port, status);
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}
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//if (changebits & (1 << port)) {
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//changebits &= ~(1 << port);
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//send_clearstatus(port);
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//}
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break;
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case 0x00100120: // clear hub status
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println("Hub Status Cleared");
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break;
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case 0x00100123: // clear port status
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println("Port Status Cleared, port=", port);
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break;
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default:
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println("unhandled setup, message = ", mesg, HEX);
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}
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// After we've completed processing for this control
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// transfer, check if any more need to be sent. These
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// allow only a single control transfer to occur at once
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// which isn't fast, but requires only 3 Transfer_t and
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// allows reusing the setup and other buffers
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if (sending_control_transfer) return;
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if (send_pending_poweron) {
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send_poweron(lowestbit(send_pending_poweron));
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} else if (send_pending_clearstatus_connect) {
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send_clearstatus_connect(lowestbit(send_pending_clearstatus_connect));
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} else if (send_pending_clearstatus_enable) {
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send_clearstatus_enable(lowestbit(send_pending_clearstatus_enable));
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} else if (send_pending_clearstatus_suspend) {
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send_clearstatus_suspend(lowestbit(send_pending_clearstatus_suspend));
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} else if (send_pending_clearstatus_overcurrent) {
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send_clearstatus_overcurrent(lowestbit(send_pending_clearstatus_overcurrent));
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} else if (send_pending_clearstatus_reset) {
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send_clearstatus_reset(lowestbit(send_pending_clearstatus_reset));
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} else if (send_pending_getstatus) {
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send_getstatus(lowestbit(send_pending_getstatus));
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} else if (send_pending_setreset) {
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send_setreset(lowestbit(send_pending_setreset));
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}
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}
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void USBHub::callback(const Transfer_t *transfer)
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{
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//println("HUB Callback (static)");
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if (transfer->driver) ((USBHub *)(transfer->driver))->status_change(transfer);
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}
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void USBHub::status_change(const Transfer_t *transfer)
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{
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println("HUB Callback (member)");
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println("status = ", changebits, HEX);
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for (uint32_t i=0; i <= numports; i++) {
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if (changebits & (1 << i)) {
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send_getstatus(i);
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}
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}
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queue_Data_Transfer(changepipe, &changebits, 1, this);
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}
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void USBHub::new_port_status(uint32_t port, uint32_t status)
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{
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if (port == 0 || port > numports) return;
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#if 1
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print(" status=");
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print(status, HEX);
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println(" port=", port);
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println(" state=", portstate[port-1]);
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// status bits, USB 2.0: 11.24.2.7.1 page 427
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if (status & 0x0001) println(" Device is present: ");
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if (status & 0x0002) {
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print(" Enabled, speed = ");
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if (status & 0x0200) {
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print("1.5");
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} else {
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if (status & 0x0400) {
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print("480");
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} else {
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print("12");
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}
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}
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println(" Mbit/sec");
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}
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if (status & 0x0004) println(" Suspended");
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if (status & 0x0008) println(" Over-current");
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if (status & 0x0010) println(" Reset");
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if (status & 0x0100) println(" Has Power");
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if (status & 0x0800) println(" Test Mode");
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if (status & 0x1000) println(" Software Controls LEDs");
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#endif
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uint8_t &state = portstate[port-1];
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switch (state) {
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case PORT_OFF:
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case PORT_DISCONNECT:
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if (status & 0x0001) { // connected
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state = PORT_DEBOUNCE1;
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start_debounce_timer(port);
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send_clearstatus_connect(port);
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}
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break;
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case PORT_DEBOUNCE1:
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case PORT_DEBOUNCE2:
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case PORT_DEBOUNCE3:
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case PORT_DEBOUNCE4:
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case PORT_DEBOUNCE5:
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if (status & 0x0001) {
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if (++state > PORT_DEBOUNCE5) {
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if (USBHub::reset_busy || USBHost::enumeration_busy) {
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// wait in debounce state if another port is
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// resetting or a device is busy enumerating
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state = PORT_DEBOUNCE5;
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break;
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}
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USBHub::reset_busy = true;
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stop_debounce_timer(port);
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state = PORT_RESET;
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println("sending reset");
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send_setreset(port);
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port_doing_reset = port;
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}
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} else {
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stop_debounce_timer(port);
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state = PORT_DISCONNECT;
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}
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break;
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case PORT_RESET:
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if (status & 0x0002) {
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// port is now enabled
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send_clearstatus_reset(port);
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state = PORT_RECOVERY;
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uint8_t speed=0;
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if (status & 0x0200) speed = 1;
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else if (status & 0x0400) speed = 2;
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port_doing_reset_speed = speed;
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resettimer.start(25000);
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} else if (!(status & 0x0001)) {
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send_clearstatus_connect(port);
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USBHub::reset_busy = false;
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state = PORT_DISCONNECT;
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}
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break;
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case PORT_RECOVERY:
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if (!(status & 0x0001)) {
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send_clearstatus_connect(port);
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USBHub::reset_busy = false;
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state = PORT_DISCONNECT;
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}
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break;
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case PORT_ACTIVE:
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if (!(status & 0x0001)) {
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disconnect_Device(devicelist[port-1]);
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devicelist[port-1] = NULL;
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send_clearstatus_connect(port);
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state = PORT_DISCONNECT;
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}
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break;
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}
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}
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void USBHub::timer_event(USBDriverTimer *timer)
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{
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uint32_t us = micros() - timer->started_micros;
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print("timer event (");
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print(us);
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print(" us): ");
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print((char *)timer->pointer);
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print(", this = ");
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print((uint32_t)this, HEX);
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println(", timer = ", (uint32_t)timer, HEX);
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if (timer == &debouncetimer) {
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uint32_t in_use = debounce_in_use;
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println("ports in use bitmask = ", in_use, HEX);
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if (in_use) {
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for (uint32_t i=1; i <= numports; i++) {
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if (in_use & (1 << i)) send_getstatus(i);
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}
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debouncetimer.start(20000);
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}
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} else if (timer == &resettimer) {
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uint8_t port = port_doing_reset;
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println("port_doing_reset = ", port);
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if (port_doing_reset) {
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uint8_t &state = portstate[port-1];
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if (state == PORT_RECOVERY) {
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port_doing_reset = 0;
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println("PORT_RECOVERY");
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// begin enumeration process
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uint8_t speed = port_doing_reset_speed;
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devicelist[port-1] = new_Device(speed, device->address, port);
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// TODO: if return is NULL, what to do? Panic?
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// Can we disable the port? Will this device
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// play havoc if it sits unconfigured responding
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// to address zero? Does that even matter? Maybe
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// we have far worse issues when memory isn't
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// available?!
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USBHub::reset_busy = false;
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state = PORT_ACTIVE;
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}
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}
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}
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// TODO: testing only!!!
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//static uint32_t count=0;
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//if (++count > 36) while (1) ; // stop here
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}
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void USBHub::start_debounce_timer(uint32_t port)
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{
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if (debounce_in_use == 0) debouncetimer.start(20000);
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debounce_in_use |= (1 << port);
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}
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void USBHub::stop_debounce_timer(uint32_t port)
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{
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debounce_in_use &= ~(1 << port);
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}
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void USBHub::disconnect()
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{
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// disconnect all downstream devices, which may be more hubs
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for (uint32_t i=0; i < numports; i++) {
|
|
if (devicelist[i]) disconnect_Device(devicelist[i]);
|
|
}
|
|
numports = 0;
|
|
changepipe = NULL;
|
|
changebits = 0;
|
|
sending_control_transfer = 0;
|
|
port_doing_reset = 0;
|
|
memset(portstate, 0, sizeof(portstate));
|
|
memset(devicelist, 0, sizeof(devicelist));
|
|
send_pending_poweron = 0;
|
|
send_pending_getstatus = 0;
|
|
send_pending_clearstatus_connect = 0;
|
|
send_pending_clearstatus_enable = 0;
|
|
send_pending_clearstatus_suspend = 0;
|
|
send_pending_clearstatus_overcurrent = 0;
|
|
send_pending_clearstatus_reset = 0;
|
|
send_pending_setreset = 0;
|
|
debounce_in_use = 0;
|
|
}
|
|
|
|
|
|
/*
|
|
config descriptor from a Multi-TT hub
|
|
09 02 29 00 01 01 00 E0 32
|
|
09 04 00 00 01 09 00 01 00
|
|
07 05 81 03 01 00 0C
|
|
09 04 00 01 01 09 00 02 00
|
|
07 05 81 03 01 00 0C
|
|
*/
|
|
|
|
|