circuitpython/shared-module/usb_hid/__init__.c

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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2018 hathach for Adafruit Industries
*
* 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.
*/
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#include <string.h>
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#include "tusb.h"
#include "py/gc.h"
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#include "py/runtime.h"
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#include "shared-bindings/usb_hid/__init__.h"
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#include "shared-bindings/usb_hid/Device.h"
#include "supervisor/port.h"
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#include "supervisor/usb.h"
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static const uint8_t usb_hid_descriptor_template[] = {
0x09, // 0 bLength
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0x04, // 1 bDescriptorType (Interface)
0xFF, // 2 bInterfaceNumber 3
#define HID_DESCRIPTOR_INTERFACE_INDEX (2)
0x00, // 3 bAlternateSetting
0x02, // 4 bNumEndpoints 2
0x03, // 5 bInterfaceClass: HID
0x00, // 6 bInterfaceSubClass: NOBOOT
#define HID_DESCRIPTOR_SUBCLASS_INDEX (6)
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0x00, // 7 bInterfaceProtocol: NONE
#define HID_DESCRIPTOR_INTERFACE_PROTOCOL_INDEX (7)
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0xFF, // 8 iInterface (String Index) [SET AT RUNTIME]
#define HID_DESCRIPTOR_INTERFACE_STRING_INDEX (8)
0x09, // 9 bLength
0x21, // 10 bDescriptorType (HID)
0x11, 0x01, // 11,12 bcdHID 1.11
0x00, // 13 bCountryCode
0x01, // 14 bNumDescriptors
0x22, // 15 bDescriptorType[0] (HID)
0xFF, 0xFF, // 16,17 wDescriptorLength[0] [SET AT RUNTIME: lo, hi]
#define HID_DESCRIPTOR_LENGTH_INDEX (16)
0x07, // 18 bLength
0x05, // 19 bDescriptorType (Endpoint)
0xFF, // 20 bEndpointAddress (IN/D2H) [SET AT RUNTIME: 0x80 | endpoint]
#define HID_IN_ENDPOINT_INDEX (20)
0x03, // 21 bmAttributes (Interrupt)
0x40, 0x00, // 22,23 wMaxPacketSize 64
0x08, // 24 bInterval 8 (unit depends on device speed)
0x07, // 25 bLength
0x05, // 26 bDescriptorType (Endpoint)
0xFF, // 27 bEndpointAddress (OUT/H2D) [SET AT RUNTIME]
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#define HID_OUT_ENDPOINT_INDEX (27)
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0x03, // 28 bmAttributes (Interrupt)
0x40, 0x00, // 29,30 wMaxPacketSize 64
0x08, // 31 bInterval 8 (unit depends on device speed)
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};
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#define MAX_HID_DEVICES 8
static uint8_t *hid_report_descriptor = NULL;
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static usb_hid_device_obj_t hid_devices[MAX_HID_DEVICES];
// If 0, USB HID is disabled.
static mp_int_t num_hid_devices;
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// Which boot device is available? 0: no boot devices, 1: boot keyboard, 2: boot mouse.
// This value is set by usb_hid.enable(), and used to build the HID interface descriptor.
// The value is remembered here from boot.py to code.py.
static uint8_t hid_boot_device;
// Whether a boot device was requested by a SET_PROTOCOL request from the host.
static bool hid_boot_device_requested;
// This tuple is store in usb_hid.devices.
static mp_obj_tuple_t *hid_devices_tuple;
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static mp_obj_tuple_t default_hid_devices_tuple = {
.base = {
.type = &mp_type_tuple,
},
.len = 3,
.items = {
MP_OBJ_FROM_PTR(&usb_hid_device_keyboard_obj),
MP_OBJ_FROM_PTR(&usb_hid_device_mouse_obj),
MP_OBJ_FROM_PTR(&usb_hid_device_consumer_control_obj),
},
};
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// These describe the standard descriptors used for boot keyboard and mouse, which don't use report IDs.
// When the host requests a boot device, replace whatever HID devices were enabled with a tuple
// containing just one of these, since the host is uninterested in other devices.
// The driver code will then use the proper report length and send_report() will not send a report ID.
static const usb_hid_device_obj_t boot_keyboard_obj = {
.base = {
.type = &usb_hid_device_type,
},
.report_descriptor = NULL,
.report_descriptor_length = 0,
.usage_page = 0x01,
.usage = 0x06,
.num_report_ids = 1,
.report_ids = { 0, },
.in_report_lengths = { 8, },
.out_report_lengths = { 1, },
};
static const usb_hid_device_obj_t boot_mouse_obj = {
.base = {
.type = &usb_hid_device_type,
},
.report_descriptor = NULL,
.report_descriptor_length = 0,
.usage_page = 0x01,
.usage = 0x02,
.num_report_ids = 1,
.report_ids = { 0, },
.in_report_lengths = { 4, },
.out_report_lengths = { 0, },
};
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bool usb_hid_enabled(void) {
return num_hid_devices > 0;
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}
uint8_t usb_hid_boot_device(void) {
return hid_boot_device;
}
// Returns 1 or 2 if host requested a boot device and boot protocol was enabled in the interface descriptor.
uint8_t common_hal_usb_hid_get_boot_device(void) {
return hid_boot_device_requested ? hid_boot_device : 0;
}
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void usb_hid_set_defaults(void) {
hid_boot_device = 0;
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hid_boot_device_requested = false;
common_hal_usb_hid_enable(
CIRCUITPY_USB_HID_ENABLED_DEFAULT ? &default_hid_devices_tuple : mp_const_empty_tuple, 0);
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}
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// This is the interface descriptor, not the report descriptor.
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size_t usb_hid_descriptor_length(void) {
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return sizeof(usb_hid_descriptor_template);
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}
static const char usb_hid_interface_name[] = USB_INTERFACE_NAME " HID";
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// This is the interface descriptor, not the report descriptor.
size_t usb_hid_add_descriptor(uint8_t *descriptor_buf, descriptor_counts_t *descriptor_counts, uint8_t *current_interface_string, uint16_t report_descriptor_length, uint8_t boot_device) {
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memcpy(descriptor_buf, usb_hid_descriptor_template, sizeof(usb_hid_descriptor_template));
descriptor_buf[HID_DESCRIPTOR_INTERFACE_INDEX] = descriptor_counts->current_interface;
descriptor_counts->current_interface++;
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if (boot_device > 0) {
descriptor_buf[HID_DESCRIPTOR_SUBCLASS_INDEX] = 1; // BOOT protocol (device) available.
descriptor_buf[HID_DESCRIPTOR_INTERFACE_PROTOCOL_INDEX] = boot_device; // 1: keyboard, 2: mouse
}
usb_add_interface_string(*current_interface_string, usb_hid_interface_name);
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descriptor_buf[HID_DESCRIPTOR_INTERFACE_STRING_INDEX] = *current_interface_string;
(*current_interface_string)++;
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descriptor_buf[HID_DESCRIPTOR_LENGTH_INDEX] = report_descriptor_length & 0xFF;
descriptor_buf[HID_DESCRIPTOR_LENGTH_INDEX + 1] = (report_descriptor_length >> 8);
descriptor_buf[HID_IN_ENDPOINT_INDEX] =
0x80 | (USB_HID_EP_NUM_IN ? USB_HID_EP_NUM_IN : descriptor_counts->current_endpoint);
descriptor_counts->num_in_endpoints++;
descriptor_buf[HID_OUT_ENDPOINT_INDEX] =
USB_HID_EP_NUM_OUT ? USB_HID_EP_NUM_OUT : descriptor_counts->current_endpoint;
descriptor_counts->num_out_endpoints++;
descriptor_counts->current_endpoint++;
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return sizeof(usb_hid_descriptor_template);
}
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// Make up a fresh tuple containing the device objects saved in the static
// devices table. Save the tuple in usb_hid.devices.
static void usb_hid_set_devices_from_hid_devices(void) {
mp_obj_t tuple_items[num_hid_devices];
for (mp_int_t i = 0; i < num_hid_devices; i++) {
tuple_items[i] = &hid_devices[i];
}
// Remember tuple for gc purposes.
hid_devices_tuple = mp_obj_new_tuple(num_hid_devices, tuple_items);
usb_hid_set_devices(hid_devices_tuple);
}
bool common_hal_usb_hid_disable(void) {
return common_hal_usb_hid_enable(mp_const_empty_tuple, 0);
}
bool common_hal_usb_hid_enable(const mp_obj_t devices, uint8_t boot_device) {
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// We can't change the devices once we're connected.
if (tud_connected()) {
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return false;
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}
const mp_int_t num_devices = MP_OBJ_SMALL_INT_VALUE(mp_obj_len(devices));
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mp_arg_validate_length_max(num_devices, MAX_HID_DEVICES, MP_QSTR_devices);
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num_hid_devices = num_devices;
hid_boot_device = boot_device;
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// Remember the devices in static storage so they live across VMs.
for (mp_int_t i = 0; i < num_hid_devices; i++) {
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// devices has already been validated to contain only usb_hid_device_obj_t objects.
usb_hid_device_obj_t *device =
MP_OBJ_TO_PTR(mp_obj_subscr(devices, MP_OBJ_NEW_SMALL_INT(i), MP_OBJ_SENTINEL));
memcpy(&hid_devices[i], device, sizeof(usb_hid_device_obj_t));
}
usb_hid_set_devices_from_hid_devices();
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return true;
}
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// Called when HID devices are ready to be used, when code.py or the REPL starts running.
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void usb_hid_setup_devices(void) {
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// If the host requested a boot device, replace the current list of devices
// with a single-element tuple containing the proper boot device.
if (hid_boot_device_requested) {
memcpy(&hid_devices[0],
// Will be 1 (keyboard) or 2 (mouse).
hid_boot_device == 1 ? &boot_keyboard_obj : &boot_mouse_obj,
sizeof(usb_hid_device_obj_t));
num_hid_devices = 1;
}
usb_hid_set_devices_from_hid_devices();
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// Create report buffers on the heap.
for (mp_int_t i = 0; i < num_hid_devices; i++) {
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usb_hid_device_create_report_buffers(&hid_devices[i]);
}
}
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// Total length of the report descriptor, with all configured devices.
size_t usb_hid_report_descriptor_length(void) {
size_t total_hid_report_descriptor_length = 0;
for (mp_int_t i = 0; i < num_hid_devices; i++) {
total_hid_report_descriptor_length += hid_devices[i].report_descriptor_length;
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}
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return total_hid_report_descriptor_length;
}
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// Build the combined HID report descriptor in the given space.
void usb_hid_build_report_descriptor(void) {
if (!usb_hid_enabled()) {
return;
}
size_t report_length = usb_hid_report_descriptor_length();
hid_report_descriptor = port_malloc(report_length, false);
if (hid_report_descriptor == NULL) {
return;
}
uint8_t *report_descriptor_start = hid_report_descriptor;
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for (mp_int_t i = 0; i < num_hid_devices; i++) {
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usb_hid_device_obj_t *device = &hid_devices[i];
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// Copy the report descriptor for this device.
memcpy(report_descriptor_start, device->report_descriptor, device->report_descriptor_length);
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// Advance to the next free chunk for the next report descriptor.x
report_descriptor_start += device->report_descriptor_length;
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// Clear the heap pointer to the bytes of the descriptor.
// We don't need it any more and it will get lost when the heap goes away.
device->report_descriptor = NULL;
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}
}
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void usb_hid_gc_collect(void) {
gc_collect_ptr(hid_devices_tuple);
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// Mark possible heap pointers in the static device list as in use.
for (mp_int_t device_idx = 0; device_idx < num_hid_devices; device_idx++) {
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// Cast away the const for .report_descriptor. It could be in flash or on the heap.
// Constant report descriptors must be const so that they are used directly from flash
// and not copied into RAM.
gc_collect_ptr((void *)hid_devices[device_idx].report_descriptor);
// Collect all the report buffers for this device.
for (size_t id_idx = 0; id_idx < hid_devices[device_idx].num_report_ids; id_idx++) {
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gc_collect_ptr(hid_devices[device_idx].in_report_buffers[id_idx]);
gc_collect_ptr(hid_devices[device_idx].out_report_buffers[id_idx]);
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}
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}
}
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bool usb_hid_get_device_with_report_id(uint8_t report_id, usb_hid_device_obj_t **device_out, size_t *id_idx_out) {
for (uint8_t device_idx = 0; device_idx < num_hid_devices; device_idx++) {
usb_hid_device_obj_t *device = &hid_devices[device_idx];
for (size_t id_idx = 0; id_idx < device->num_report_ids; id_idx++) {
if (device->report_ids[id_idx] == report_id) {
*device_out = device;
*id_idx_out = id_idx;
return true;
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}
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}
}
return false;
}
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// Callback invoked when we receive a GET HID REPORT DESCRIPTOR
// Application returns pointer to descriptor
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// Descriptor contents must exist long enough for transfer to complete
uint8_t const *tud_hid_descriptor_report_cb(uint8_t itf) {
return (uint8_t *)hid_report_descriptor;
}
// Callback invoked when we receive a SET_PROTOCOL request.
// Protocol is either HID_PROTOCOL_BOOT (0) or HID_PROTOCOL_REPORT (1)
void tud_hid_set_protocol_cb(uint8_t instance, uint8_t protocol) {
hid_boot_device_requested = (protocol == HID_PROTOCOL_BOOT);
}