mirror of
https://github.com/gdsports/USBHost_t36
synced 2024-11-21 16:45:04 -05:00
(bare bones) Interrupt transfer support
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parent
448910a94f
commit
252b9a2f24
@ -139,7 +139,7 @@ public:
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static void begin();
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protected:
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static Pipe_t * new_Pipe(Device_t *dev, uint32_t type, uint32_t endpoint,
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uint32_t direction, uint32_t max_packet_len);
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uint32_t direction, uint32_t maxlen, uint32_t interval=0);
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static bool queue_Control_Transfer(Device_t *dev, setup_t *setup,
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void *buf, USBDriver *driver);
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static bool queue_Data_Transfer(Pipe_t *pipe, void *buffer,
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@ -232,6 +232,8 @@ protected:
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virtual bool claim(Device_t *device, int type, const uint8_t *descriptors);
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virtual bool control(const Transfer_t *transfer);
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void poweron(uint32_t port);
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static void callback(const Transfer_t *transfer);
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void status_change(const Transfer_t *transfer);
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setup_t setup;
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uint8_t hub_desc[16];
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uint8_t endpoint;
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93
ehci.cpp
93
ehci.cpp
@ -24,7 +24,7 @@
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#include <Arduino.h>
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#include "USBHost.h"
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#define PERIODIC_LIST_SIZE 64
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#define PERIODIC_LIST_SIZE 32
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static uint32_t periodictable[PERIODIC_LIST_SIZE] __attribute__ ((aligned(4096), used));
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static uint8_t port_state;
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@ -47,6 +47,9 @@ static void add_to_async_followup_list(Transfer_t *first, Transfer_t *last);
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static void remove_from_async_followup_list(Transfer_t *transfer);
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static void add_to_periodic_followup_list(Transfer_t *first, Transfer_t *last);
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static void remove_from_periodic_followup_list(Transfer_t *transfer);
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static bool allocate_interrupt_pipe_bandwidth(uint32_t speed, uint32_t maxlen,
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uint32_t interval, uint32_t direction, uint32_t *offset, uint32_t *smask,
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uint32_t *cmask);
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void USBHost::begin()
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{
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@ -132,7 +135,7 @@ void USBHost::begin()
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USBHS_FRINDEX = 0;
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USBHS_ASYNCLISTADDR = 0;
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USBHS_USBCMD = USBHS_USBCMD_ITC(8) | USBHS_USBCMD_RS |
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USBHS_USBCMD_ASP(3) | USBHS_USBCMD_ASPE |
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USBHS_USBCMD_ASP(3) | USBHS_USBCMD_ASPE | USBHS_USBCMD_PSE |
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#if PERIODIC_LIST_SIZE == 8
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USBHS_USBCMD_FS2 | USBHS_USBCMD_FS(3);
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#elif PERIODIC_LIST_SIZE == 16
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@ -342,15 +345,23 @@ static uint32_t QH_capabilities2(uint32_t high_bw_mult, uint32_t hub_port_number
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(split_completion_mask << 8) | (interrupt_schedule_mask << 0) );
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}
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// Create a new pipe. It's QH is added to the async or periodic schedule,
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// and a halt qTD is added to the QH, so we can grow the qTD list later.
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// dev: device owning this pipe/endpoint
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// type: 0=control, 2=bulk, 3=interrupt
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// endpoint: 0 for control, 1-15 for bulk or interrupt
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// direction: 0=OUT, 1=IN (unused for control)
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// maxlen: maximum packet size
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// interval: polling interval for interrupt, power of 2, unused if control or bulk
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//
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Pipe_t * USBHost::new_Pipe(Device_t *dev, uint32_t type, uint32_t endpoint,
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uint32_t direction, uint32_t max_packet_len)
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uint32_t direction, uint32_t maxlen, uint32_t interval)
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{
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Pipe_t *pipe;
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Transfer_t *halt;
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uint32_t c=0, dtc=0;
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uint32_t c=0, dtc=0, smask=0, cmask=0, offset=0;
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Serial.println("new_Pipe");
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pipe = allocate_Pipe();
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@ -360,6 +371,17 @@ Pipe_t * USBHost::new_Pipe(Device_t *dev, uint32_t type, uint32_t endpoint,
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free_Pipe(pipe);
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return NULL;
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}
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if (type == 3) {
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// interrupt transfers require bandwidth & microframe scheduling
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if (interval > PERIODIC_LIST_SIZE*8) interval = PERIODIC_LIST_SIZE*8;
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if (dev->speed < 2 && interval < 8) interval = 8;
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if (!allocate_interrupt_pipe_bandwidth(dev->speed,
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maxlen, interval, direction, &offset, &smask, &cmask)) {
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free_Transfer(halt);
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free_Pipe(pipe);
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return NULL;
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}
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}
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memset(pipe, 0, sizeof(Pipe_t));
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memset(halt, 0, sizeof(Transfer_t));
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halt->qtd.next = 1;
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@ -378,10 +400,10 @@ Pipe_t * USBHost::new_Pipe(Device_t *dev, uint32_t type, uint32_t endpoint,
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} else if (type == 3) {
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// interrupt
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}
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pipe->qh.capabilities[0] = QH_capabilities1(15, c, max_packet_len, 0,
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pipe->qh.capabilities[0] = QH_capabilities1(15, c, maxlen, 0,
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dtc, dev->speed, endpoint, 0, dev->address);
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pipe->qh.capabilities[1] = QH_capabilities2(1, dev->hub_port,
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dev->hub_address, 0, 0);
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dev->hub_address, cmask, smask);
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if (type == 0 || type == 2) {
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// control or bulk: add to async queue
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@ -401,6 +423,18 @@ Pipe_t * USBHost::new_Pipe(Device_t *dev, uint32_t type, uint32_t endpoint,
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} else if (type == 3) {
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// interrupt: add to periodic schedule
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// TODO: link it into the periodic table
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// TODO: built tree...
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//uint32_t finterval = interval >> 3;
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//for (uint32_t i=offset; i < PERIODIC_LIST_SIZE; i += finterval) {
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// uint32_t list = periodictable[i];
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//}
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// quick hack for testing, just put it into the first table entry
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pipe->qh.horizontal_link = periodictable[0];
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periodictable[0] = (uint32_t)&(pipe->qh) | 2; // 2=QH
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Serial.print("init periodictable with ");
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Serial.println(periodictable[0], HEX);
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}
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return pipe;
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}
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@ -668,3 +702,50 @@ static void remove_from_periodic_followup_list(Transfer_t *transfer)
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}
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}
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// Allocate bandwidth for an interrupt pipe. Given the packet size
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// and other parameters, find the best place to schedule this pipe.
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// Returns true if enough bandwidth is available, and the best
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// frame offset, smask and cmask. Or returns false if no group
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// of microframes has enough bandwidth available.
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//
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// speed: [in] 0=full speed, 1=low speed, 2=high speed
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// maxlen: [in] maximum packet length
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// interval: [in] polling interval, in 125 us micro frames
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// direction: [in] 0=OUT, 1=IN
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// offset: [out] frame offset, 0 to PERIODIC_LIST_SIZE-1
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// smask: [out] Start Mask
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// cmask: [out] Complete Mask
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//
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static bool allocate_interrupt_pipe_bandwidth(uint32_t speed, uint32_t maxlen,
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uint32_t interval, uint32_t direction, uint32_t *offset, uint32_t *smask,
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uint32_t *cmask)
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{
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// TODO: actual bandwidth planning needs to go here... but for
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// now we'll just always pile up everything at the same offset
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// and same microframe schedule for split transactions, without
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// even the slighest check whether it all fits.
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if (speed == 2) {
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// high speed 480 Mbit/sec
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if (interval == 1) {
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*smask = 0xFF;
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} else if (interval == 2) {
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*smask = 0x55;
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} else if (interval <= 4) {
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*smask = 0x11;
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} else {
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*smask = 0x01;
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}
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*cmask = 0;
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*offset = 0;
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} else {
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// full speed 12 Mbit/sec or low speed 1.5 Mbit/sec
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*smask = 0x01;
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*cmask = 0x3C;
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*offset = 0;
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}
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return true;
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}
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@ -113,6 +113,7 @@ void USBHost::enumeration(const Transfer_t *transfer)
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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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23
hub.cpp
23
hub.cpp
@ -114,7 +114,13 @@ bool USBHub::control(const Transfer_t *transfer)
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} else if (state == numports) {
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Serial.println("power turned on to all ports");
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// TODO: create interrupt pipe for status change notifications
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changepipe = new_Pipe(device, 3, endpoint, 1, 1);
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Serial.print("device addr = ");
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Serial.println(device->address);
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changepipe = new_Pipe(device, 3, endpoint, 1, 1, 512);
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Serial.print("pipe cap1 = ");
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Serial.println(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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state = 255;
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} else if (state == 255) {
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// parse a status response
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@ -122,6 +128,21 @@ bool USBHub::control(const Transfer_t *transfer)
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return true;
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}
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void USBHub::callback(const Transfer_t *transfer)
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{
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Serial.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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Serial.println("HUB Callback (member)");
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Serial.print("status = ");
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Serial.println(changebits, HEX);
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// TODO: do something with the status change info
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queue_Data_Transfer(changepipe, &changebits, 1, this);
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}
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/*
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config descriptor from a Multi-TT hub
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