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- /* USB EHCI Host for Teensy 3.6
- * Copyright 2017 Paul Stoffregen (paul@pjrc.com)
- *
- * Permission is hereby granted, free of charge, to any person obtaining a
- * copy of this software and associated documentation files (the
- * "Software"), to deal in the Software without restriction, including
- * without limitation the rights to use, copy, modify, merge, publish,
- * distribute, sublicense, and/or sell copies of the Software, and to
- * permit persons to whom the Software is furnished to do so, subject to
- * the following conditions:
- *
- * The above copyright notice and this permission notice shall be included
- * in all copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
- * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
- * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
- * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
- * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
- * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
- * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
- */
-
- #include <Arduino.h>
- #include "USBHost_t36.h" // Read this header first for key info
-
-
- // This HID driver claims a USB interface and parses its incoming
- // data (reports). It doesn't actually use the data, but it allows
- // drivers which inherit the USBHIDInput base class to claim the
- // top level collections within the reports. Those drivers get
- // callbacks with the arriving data full decoded to data/usage
- // pairs.
-
- void USBHIDParser::init()
- {
- contribute_Pipes(mypipes, sizeof(mypipes)/sizeof(Pipe_t));
- contribute_Transfers(mytransfers, sizeof(mytransfers)/sizeof(Transfer_t));
- driver_ready_for_device(this);
- }
-
- bool USBHIDParser::claim(Device_t *dev, int type, const uint8_t *descriptors, uint32_t len)
- {
- println("HIDParser claim this=", (uint32_t)this, HEX);
-
- // only claim at interface level
- if (type != 1) return false;
- if (len < 9+9+7) return false;
-
- // interface descriptor
- uint32_t numendpoint = descriptors[4];
- if (numendpoint < 1 || numendpoint > 2) return false;
- if (descriptors[5] != 3) return false; // bInterfaceClass, 3 = HID
- println(" bInterfaceClass = ", descriptors[5]);
- println(" bInterfaceSubClass = ", descriptors[6]);
- println(" bInterfaceProtocol = ", descriptors[7]);
- // do not claim boot protocol keyboards
- if (descriptors[6] == 1 && descriptors[7] == 1) return false;
-
- // hid interface descriptor
- uint32_t hidlen = descriptors[9];
- if (hidlen < 9) return false;
- if (descriptors[10] != 33) return false; // descriptor type, 33=HID
- if (descriptors[14] < 1) return false; // must be at least 1 extra descriptor
- if (hidlen != (uint32_t)(6 + descriptors[14] * 3)) return false; // must be correct size
- if (9 + hidlen > len) return false;
- uint32_t i=0;
- while (1) {
- if (descriptors[15 + i * 3] == 34) { // found HID report descriptor
- descsize = descriptors[16 + i * 3] | (descriptors[17 + i * 3] << 8);
- println("report descriptor size = ", descsize);
- break;
- }
- i++;
- if (i >= descriptors[14]) return false;
- }
- if (descsize > sizeof(descriptor)) return false; // can't fit the report descriptor
-
- // endpoint descriptor(s)
- uint32_t offset = 9 + hidlen;
- if (len < offset + numendpoint * 7) return false; // not enough data
- if (numendpoint == 1) {
- println("Single endpoint HID:");
- if (descriptors[offset] != 7) return false;
- if (descriptors[offset+1] != 5) return false; // endpoint descriptor
- if (descriptors[offset+3] != 3) return false; // must be interrupt type
- uint32_t endpoint = descriptors[offset+2];
- uint32_t size = descriptors[offset+4] | (descriptors[offset+5] << 8);
- uint32_t interval = descriptors[offset+6];
- println(" endpoint = ", endpoint, HEX);
- println(" size = ", size);
- println(" interval = ", interval);
- if ((endpoint & 0x0F) == 0) return false;
- if ((endpoint & 0xF0) != 0x80) return false; // must be IN direction
- in_pipe = new_Pipe(dev, 3, endpoint & 0x0F, 1, size, interval);
- out_pipe = NULL;
- in_size = size;
- } else {
- println("Two endpoint HID:");
- if (descriptors[offset] != 7) return false;
- if (descriptors[offset+1] != 5) return false; // endpoint descriptor
- if (descriptors[offset+3] != 3) return false; // must be interrupt type
- uint32_t endpoint1 = descriptors[offset+2];
- uint32_t size1 = descriptors[offset+4] | (descriptors[offset+5] << 8);
- uint32_t interval1 = descriptors[offset+6];
- println(" endpoint = ", endpoint1, HEX);
- println(" size = ", size1);
- println(" interval = ", interval1);
- if ((endpoint1 & 0x0F) == 0) return false;
- if (descriptors[offset+7] != 7) return false;
- if (descriptors[offset+8] != 5) return false; // endpoint descriptor
- if (descriptors[offset+10] != 3) return false; // must be interrupt type
- uint32_t endpoint2 = descriptors[offset+9];
- uint32_t size2 = descriptors[offset+11] | (descriptors[offset+12] << 8);
- uint32_t interval2 = descriptors[offset+13];
- println(" endpoint = ", endpoint2, HEX);
- println(" size = ", size2);
- println(" interval = ", interval2);
- if ((endpoint2 & 0x0F) == 0) return false;
- if (((endpoint1 & 0xF0) == 0x80) && ((endpoint2 & 0xF0) == 0)) {
- // first endpoint is IN, second endpoint is OUT
- in_pipe = new_Pipe(dev, 3, endpoint1 & 0x0F, 1, size1, interval1);
- //out_pipe = new_Pipe(dev, 3, endpoint2, 0, size2, interval2);
- out_pipe = NULL; // TODO; fixme
- in_size = size1;
- out_size = size2;
- } else if (((endpoint1 & 0xF0) == 0) && ((endpoint2 & 0xF0) == 0x80)) {
- // first endpoint is OUT, second endpoint is IN
- in_pipe = new_Pipe(dev, 3, endpoint2 & 0x0F, 1, size2, interval2);
- //out_pipe = new_Pipe(dev, 3, endpoint1, 0, size1, interval1);
- out_pipe = NULL; // TODO; fixme
- in_size = size2;
- out_size = size1;
- } else {
- return false;
- }
- //out_pipe->callback_function = out_callback;
- }
- in_pipe->callback_function = in_callback;
- for (uint32_t i=0; i < TOPUSAGE_LIST_LEN; i++) {
- //topusage_list[i] = 0;
- topusage_drivers[i] = NULL;
- }
- // request the HID report descriptor
- mk_setup(setup, 0x81, 6, 0x2200, descriptors[2], descsize); // get report desc
- queue_Control_Transfer(dev, &setup, descriptor, this);
- return true;
- }
-
- void USBHIDParser::control(const Transfer_t *transfer)
- {
- println("control callback (hid)");
- print_hexbytes(transfer->buffer, transfer->length);
- // To decode hex dump to human readable HID report summary:
- // http://eleccelerator.com/usbdescreqparser/
- uint32_t mesg = transfer->setup.word1;
- println(" mesg = ", mesg, HEX);
- if (mesg == 0x22000681 && transfer->length == descsize) { // HID report descriptor
- println(" got report descriptor");
- parse();
- queue_Data_Transfer(in_pipe, report, in_size, this);
- if (device->idVendor == 0x054C && device->idProduct == 0x0268) {
- println("send special PS3 feature command");
- mk_setup(setup, 0x21, 9, 0x03F4, 0, 4); // ps3 tell to send report 1?
- static uint8_t ps3_feature_F4_report[] = {0x42, 0x0c, 0x00, 0x00};
- queue_Control_Transfer(device, &setup, ps3_feature_F4_report, this);
- }
- }
- }
-
- void USBHIDParser::in_callback(const Transfer_t *transfer)
- {
- if (transfer->driver) {
- ((USBHIDParser*)(transfer->driver))->in_data(transfer);
- }
- }
-
- void USBHIDParser::out_callback(const Transfer_t *transfer)
- {
- if (transfer->driver) {
- ((USBHIDParser*)(transfer->driver))->out_data(transfer);
- }
- }
-
- // When the device goes away, we need to call disconnect_collection()
- // for all drivers which claimed a top level collection
- void USBHIDParser::disconnect()
- {
- for (uint32_t i=0; i < TOPUSAGE_LIST_LEN; i++) {
- USBHIDInput *driver = topusage_drivers[i];
- if (driver) {
- driver->disconnect_collection(device);
- topusage_drivers[i] = NULL;
- }
- }
- }
-
- // Called when the HID device sends a report
- void USBHIDParser::in_data(const Transfer_t *transfer)
- {
- print("HID: ");
- print_hexbytes(transfer->buffer, transfer->length);
- const uint8_t *buf = (const uint8_t *)transfer->buffer;
- uint32_t len = transfer->length;
- if (use_report_id == false) {
- parse(0x0100, buf, len);
- } else {
- if (len > 1) {
- parse(0x0100 | buf[0], buf + 1, len - 1);
- }
- }
- queue_Data_Transfer(in_pipe, report, in_size, this);
- }
-
-
- void USBHIDParser::out_data(const Transfer_t *transfer)
- {
- }
-
- // This no-inputs parse is meant to be used when we first get the
- // HID report descriptor. It finds all the top level collections
- // and allows drivers to claim them. This is always where we
- // learn whether the reports will or will not use a Report ID byte.
- void USBHIDParser::parse()
- {
- const uint8_t *p = descriptor;
- const uint8_t *end = p + descsize;
- uint16_t usage_page = 0;
- uint16_t usage = 0;
- uint8_t collection_level = 0;
- uint8_t topusage_count = 0;
-
- use_report_id = false;
- while (p < end) {
- uint8_t tag = *p;
- if (tag == 0xFE) { // Long Item
- p += *p + 3;
- continue;
- }
- uint32_t val;
- switch (tag & 0x03) { // Short Item data
- case 0: val = 0;
- p++;
- break;
- case 1: val = p[1];
- p += 2;
- break;
- case 2: val = p[1] | (p[2] << 8);
- p += 3;
- break;
- case 3: val = p[1] | (p[2] << 8) | (p[3] << 16) | (p[4] << 24);
- p += 5;
- break;
- }
- if (p > end) break;
-
- switch (tag & 0xFC) {
- case 0x84: // Report ID (global)
- use_report_id = true;
- break;
- case 0x04: // Usage Page (global)
- usage_page = val;
- break;
- case 0x08: // Usage (local)
- usage = val;
- break;
- case 0xA0: // Collection
- if (collection_level == 0 && topusage_count < TOPUSAGE_LIST_LEN) {
- uint32_t topusage = ((uint32_t)usage_page << 16) | usage;
- println("Found top level collection ", topusage, HEX);
- //topusage_list[topusage_count] = topusage;
- topusage_drivers[topusage_count] = find_driver(topusage);
- topusage_count++;
- }
- collection_level++;
- usage = 0;
- break;
- case 0xC0: // End Collection
- if (collection_level > 0) {
- collection_level--;
- }
- case 0x80: // Input
- case 0x90: // Output
- case 0xB0: // Feature
- usage = 0;
- break;
- }
- }
- while (topusage_count < TOPUSAGE_LIST_LEN) {
- //topusage_list[topusage_count] = 0;
- topusage_drivers[topusage_count] = NULL;
- topusage_count++;
- }
- }
-
- // This is a list of all the drivers inherited from the USBHIDInput class.
- // Unlike the list of USBDriver (managed in enumeration.cpp), drivers stay
- // on this list even when they have claimed a top level collection.
- USBHIDInput * USBHIDParser::available_hid_drivers_list = NULL;
-
- void USBHIDParser::driver_ready_for_hid_collection(USBHIDInput *driver)
- {
- driver->next = NULL;
- if (available_hid_drivers_list == NULL) {
- available_hid_drivers_list = driver;
- } else {
- USBHIDInput *last = available_hid_drivers_list;
- while (last->next) last = last->next;
- last->next = driver;
- }
- }
-
- // When a new top level collection is found, this function asks drivers
- // if they wish to claim it. The driver taking ownership of the
- // collection is returned, or NULL if no driver wants it.
- USBHIDInput * USBHIDParser::find_driver(uint32_t topusage)
- {
- println("find_driver");
- USBHIDInput *driver = available_hid_drivers_list;
- while (driver) {
- println(" driver ", (uint32_t)driver, HEX);
- if (driver->claim_collection(device, topusage)) {
- return driver;
- }
- driver = driver->next;
- }
- return NULL;
- }
-
- // Extract 1 to 32 bits from the data array, starting at bitindex.
- static uint32_t bitfield(const uint8_t *data, uint32_t bitindex, uint32_t numbits)
- {
- uint32_t output = 0;
- uint32_t bitcount = 0;
- data += (bitindex >> 3);
- uint32_t offset = bitindex & 7;
- if (offset) {
- output = (*data++) >> offset;
- bitcount = 8 - offset;
- }
- while (bitcount < numbits) {
- output |= (uint32_t)(*data++) << bitcount;
- bitcount += 8;
- }
- if (bitcount > numbits && numbits < 32) {
- output &= ((1 << numbits) - 1);
- }
- return output;
- }
-
- // convert a number with the specified number of bits from unsigned to signed,
- // so the result is a proper 32 bit signed integer.
- static int32_t signext(uint32_t num, uint32_t bitcount)
- {
- if (bitcount < 32 && bitcount > 0 && (num & (1 << (bitcount-1)))) {
- num |= ~((1 << bitcount) - 1);
- }
- return (int32_t)num;
- }
-
- // convert a tag's value to a signed integer.
- static int32_t signedval(uint32_t num, uint8_t tag)
- {
- tag &= 3;
- if (tag == 1) return (int8_t)num;
- if (tag == 2) return (int16_t)num;
- return (int32_t)num;
- }
-
- // parse the report descriptor and use it to feed the fields of the report
- // to the drivers which have claimed its top level collections
- void USBHIDParser::parse(uint16_t type_and_report_id, const uint8_t *data, uint32_t len)
- {
- const uint8_t *p = descriptor;
- const uint8_t *end = p + descsize;
- USBHIDInput *driver = NULL;
- uint32_t topusage = 0;
- uint8_t topusage_index = 0;
- uint8_t collection_level = 0;
- uint16_t usage[USAGE_LIST_LEN] = {0, 0};
- uint8_t usage_count = 0;
- uint8_t report_id = 0;
- uint16_t report_size = 0;
- uint16_t report_count = 0;
- uint16_t usage_page = 0;
- int32_t logical_min = 0;
- int32_t logical_max = 0;
- uint32_t bitindex = 0;
-
- while (p < end) {
- uint8_t tag = *p;
- if (tag == 0xFE) { // Long Item (unsupported)
- p += p[1] + 3;
- continue;
- }
- uint32_t val;
- switch (tag & 0x03) { // Short Item data
- case 0: val = 0;
- p++;
- break;
- case 1: val = p[1];
- p += 2;
- break;
- case 2: val = p[1] | (p[2] << 8);
- p += 3;
- break;
- case 3: val = p[1] | (p[2] << 8) | (p[3] << 16) | (p[4] << 24);
- p += 5;
- break;
- }
- if (p > end) break;
- bool reset_local = false;
- switch (tag & 0xFC) {
- case 0x04: // Usage Page (global)
- usage_page = val;
- break;
- case 0x14: // Logical Minimum (global)
- logical_min = signedval(val, tag);
- break;
- case 0x24: // Logical Maximum (global)
- logical_max = signedval(val, tag);
- break;
- case 0x74: // Report Size (global)
- report_size = val;
- break;
- case 0x94: // Report Count (global)
- report_count = val;
- break;
- case 0x84: // Report ID (global)
- report_id = val;
- break;
- case 0x08: // Usage (local)
- if (usage_count < USAGE_LIST_LEN) {
- // Usages: 0 is reserved 0x1-0x1f is sort of reserved for top level things like
- // 0x1 - Pointer - A collection... So lets try ignoring these
- if (val > 0x1f) {
- usage[usage_count++] = val;
- }
- }
- break;
- case 0x18: // Usage Minimum (local)
- usage[0] = val;
- usage_count = 255;
- break;
- case 0x28: // Usage Maximum (local)
- usage[1] = val;
- usage_count = 255;
- break;
- case 0xA0: // Collection
- if (collection_level == 0) {
- topusage = ((uint32_t)usage_page << 16) | usage[0];
- driver = NULL;
- if (topusage_index < TOPUSAGE_LIST_LEN) {
- driver = topusage_drivers[topusage_index++];
- }
- }
- // discard collection info if not top level, hopefully that's ok?
- collection_level++;
- reset_local = true;
- break;
- case 0xC0: // End Collection
- if (collection_level > 0) {
- collection_level--;
- if (collection_level == 0 && driver != NULL) {
- driver->hid_input_end();
- driver = NULL;
- }
- }
- reset_local = true;
- break;
- case 0x80: // Input
- if (use_report_id && (report_id != (type_and_report_id & 0xFF))) {
- // completely ignore and do not advance bitindex
- // for descriptors of other report IDs
- reset_local = true;
- break;
- }
- if ((val & 1) || (driver == NULL)) {
- // skip past constant fields or when no driver is listening
- bitindex += report_count * report_size;
- } else {
- println("begin, usage=", topusage, HEX);
- println(" type= ", val, HEX);
- println(" min= ", logical_min);
- println(" max= ", logical_max);
- println(" reportcount=", report_count);
- println(" usage count=", usage_count);
- driver->hid_input_begin(topusage, val, logical_min, logical_max);
- println("Input, total bits=", report_count * report_size);
- if ((val & 2)) {
- // ordinary variable format
- uint32_t uindex = 0;
- bool uminmax = false;
- if (usage_count > USAGE_LIST_LEN || usage_count == 0) {
- // usage numbers by min/max, not from list
- uindex = usage[0];
- uminmax = true;
- }
- for (uint32_t i=0; i < report_count; i++) {
- uint32_t u;
- if (uminmax) {
- u = uindex;
- if (uindex < usage[1]) uindex++;
- } else {
- u = usage[uindex++];
- if (uindex >= USAGE_LIST_LEN-1) {
- uindex = USAGE_LIST_LEN-1;
- }
- }
- u |= (uint32_t)usage_page << 16;
- print(" usage = ", u, HEX);
-
- uint32_t n = bitfield(data, bitindex, report_size);
- if (logical_min >= 0) {
- println(" data = ", n);
- driver->hid_input_data(u, n);
- } else {
- int32_t sn = signext(n, report_size);
- println(" sdata = ", sn);
- driver->hid_input_data(u, sn);
- }
- bitindex += report_size;
- }
- } else {
- // array format, each item is a usage number
- for (uint32_t i=0; i < report_count; i++) {
- uint32_t u = bitfield(data, bitindex, report_size);
- int n = u;
- if (n >= logical_min && n <= logical_max) {
- u |= (uint32_t)usage_page << 16;
- print(" usage = ", u, HEX);
- println(" data = 1");
- driver->hid_input_data(u, 1);
- }
- bitindex += report_size;
- }
- }
- }
- reset_local = true;
- break;
- case 0x90: // Output
- // TODO.....
- reset_local = true;
- break;
- case 0xB0: // Feature
- // TODO.....
- reset_local = true;
- break;
-
- case 0x34: // Physical Minimum (global)
- case 0x44: // Physical Maximum (global)
- case 0x54: // Unit Exponent (global)
- case 0x64: // Unit (global)
- break; // Ignore these commonly used tags. Hopefully not needed?
-
- case 0xA4: // Push (yikes! Hope nobody really uses this?!)
- case 0xB4: // Pop (yikes! Hope nobody really uses this?!)
- case 0x38: // Designator Index (local)
- case 0x48: // Designator Minimum (local)
- case 0x58: // Designator Maximum (local)
- case 0x78: // String Index (local)
- case 0x88: // String Minimum (local)
- case 0x98: // String Maximum (local)
- case 0xA8: // Delimiter (local)
- default:
- println("Ruh Roh, unsupported tag, not a good thing Scoob ", tag, HEX);
- break;
- }
- if (reset_local) {
- usage_count = 0;
- usage[0] = 0;
- usage[1] = 0;
- }
- }
- }
-
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