/* * Copyright 2021 RĂ©mi Bernon for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #if 0 #pragma makedep unix #endif #include "config.h" #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winbase.h" #include "winternl.h" #include "ddk/hidtypes.h" #include "wine/debug.h" #include "wine/list.h" #include "wine/unixlib.h" #include "unix_private.h" BOOL is_xbox_gamepad(WORD vid, WORD pid) { if (vid != 0x045e) return FALSE; if (pid == 0x0202) return TRUE; /* Xbox Controller */ if (pid == 0x0285) return TRUE; /* Xbox Controller S */ if (pid == 0x0289) return TRUE; /* Xbox Controller S */ if (pid == 0x028e) return TRUE; /* Xbox360 Controller */ if (pid == 0x028f) return TRUE; /* Xbox360 Wireless Controller */ if (pid == 0x02d1) return TRUE; /* Xbox One Controller */ if (pid == 0x02dd) return TRUE; /* Xbox One Controller (Covert Forces/Firmware 2015) */ if (pid == 0x02e0) return TRUE; /* Xbox One X Controller */ if (pid == 0x02e3) return TRUE; /* Xbox One Elite Controller */ if (pid == 0x02e6) return TRUE; /* Wireless XBox Controller Dongle */ if (pid == 0x02ea) return TRUE; /* Xbox One S Controller */ if (pid == 0x02fd) return TRUE; /* Xbox One S Controller (Firmware 2017) */ if (pid == 0x0b00) return TRUE; /* Xbox Elite 2 */ if (pid == 0x0b05) return TRUE; /* Xbox Elite 2 Wireless */ if (pid == 0x0b12) return TRUE; /* Xbox Series */ if (pid == 0x0b13) return TRUE; /* Xbox Series Wireless */ if (pid == 0x0719) return TRUE; /* Xbox 360 Wireless Adapter */ return FALSE; } BOOL is_dualshock4_gamepad(WORD vid, WORD pid) { if (vid != 0x054c) return FALSE; if (pid == 0x05c4) return TRUE; /* DualShock 4 [CUH-ZCT1x] */ if (pid == 0x09cc) return TRUE; /* DualShock 4 [CUH-ZCT2x] */ if (pid == 0x0ba0) return TRUE; /* Dualshock 4 Wireless Adaptor */ return FALSE; } BOOL is_dualsense_gamepad(WORD vid, WORD pid) { if (vid == 0x054c && pid == 0x0ce6) return TRUE; return FALSE; } struct mouse_device { struct unix_device unix_device; }; static void mouse_destroy(struct unix_device *iface) { } static NTSTATUS mouse_start(struct unix_device *iface) { if (!hid_device_begin_report_descriptor(iface, HID_USAGE_PAGE_GENERIC, HID_USAGE_GENERIC_MOUSE)) return STATUS_NO_MEMORY; if (!hid_device_add_buttons(iface, HID_USAGE_PAGE_BUTTON, 1, 3)) return STATUS_NO_MEMORY; if (!hid_device_end_report_descriptor(iface)) return STATUS_NO_MEMORY; return STATUS_SUCCESS; } static void mouse_stop(struct unix_device *iface) { } static NTSTATUS mouse_haptics_start(struct unix_device *iface, UINT duration, USHORT rumble_intensity, USHORT buzz_intensity) { return STATUS_NOT_SUPPORTED; } static NTSTATUS mouse_haptics_stop(struct unix_device *iface) { return STATUS_NOT_SUPPORTED; } static NTSTATUS mouse_physical_device_control(struct unix_device *iface, USAGE control) { return STATUS_NOT_SUPPORTED; } static NTSTATUS mouse_physical_device_set_gain(struct unix_device *iface, BYTE percent) { return STATUS_NOT_SUPPORTED; } static NTSTATUS mouse_physical_effect_control(struct unix_device *iface, BYTE index, USAGE control, BYTE iterations) { return STATUS_NOT_SUPPORTED; } static NTSTATUS mouse_physical_effect_update(struct unix_device *iface, BYTE index, struct effect_params *params) { return STATUS_NOT_SUPPORTED; } static const struct hid_device_vtbl mouse_vtbl = { mouse_destroy, mouse_start, mouse_stop, mouse_haptics_start, mouse_haptics_stop, mouse_physical_device_control, mouse_physical_device_set_gain, mouse_physical_effect_control, mouse_physical_effect_update, }; static const struct device_desc mouse_device_desc = { .vid = 0x845e, .pid = 0x0001, .input = -1, .manufacturer = {'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0}, .product = {'W','i','n','e',' ','H','I','D',' ','m','o','u','s','e',0}, .serialnumber = {'0','0','0','0',0}, }; static NTSTATUS mouse_device_create(void *args) { struct device_create_params *params = args; params->desc = mouse_device_desc; params->device = hid_device_create(&mouse_vtbl, sizeof(struct mouse_device)); return STATUS_SUCCESS; } struct keyboard_device { struct unix_device unix_device; }; static void keyboard_destroy(struct unix_device *iface) { } static NTSTATUS keyboard_start(struct unix_device *iface) { if (!hid_device_begin_report_descriptor(iface, HID_USAGE_PAGE_GENERIC, HID_USAGE_GENERIC_KEYBOARD)) return STATUS_NO_MEMORY; if (!hid_device_add_buttons(iface, HID_USAGE_PAGE_KEYBOARD, 0, 101)) return STATUS_NO_MEMORY; if (!hid_device_end_report_descriptor(iface)) return STATUS_NO_MEMORY; return STATUS_SUCCESS; } static void keyboard_stop(struct unix_device *iface) { } static NTSTATUS keyboard_haptics_start(struct unix_device *iface, UINT duration, USHORT rumble_intensity, USHORT buzz_intensity) { return STATUS_NOT_SUPPORTED; } static NTSTATUS keyboard_haptics_stop(struct unix_device *iface) { return STATUS_NOT_SUPPORTED; } static NTSTATUS keyboard_physical_device_control(struct unix_device *iface, USAGE control) { return STATUS_NOT_SUPPORTED; } static NTSTATUS keyboard_physical_device_set_gain(struct unix_device *iface, BYTE percent) { return STATUS_NOT_SUPPORTED; } static NTSTATUS keyboard_physical_effect_control(struct unix_device *iface, BYTE index, USAGE control, BYTE iterations) { return STATUS_NOT_SUPPORTED; } static NTSTATUS keyboard_physical_effect_update(struct unix_device *iface, BYTE index, struct effect_params *params) { return STATUS_NOT_SUPPORTED; } static const struct hid_device_vtbl keyboard_vtbl = { keyboard_destroy, keyboard_start, keyboard_stop, keyboard_haptics_start, keyboard_haptics_stop, keyboard_physical_device_control, keyboard_physical_device_set_gain, keyboard_physical_effect_control, keyboard_physical_effect_update, }; static const struct device_desc keyboard_device_desc = { .vid = 0x845e, .pid = 0x0002, .input = -1, .manufacturer = {'T','h','e',' ','W','i','n','e',' ','P','r','o','j','e','c','t',0}, .product = {'W','i','n','e',' ','H','I','D',' ','k','e','y','b','o','a','r','d',0}, .serialnumber = {'0','0','0','0',0}, }; static NTSTATUS keyboard_device_create(void *args) { struct device_create_params *params = args; params->desc = keyboard_device_desc; params->device = hid_device_create(&keyboard_vtbl, sizeof(struct keyboard_device)); return STATUS_SUCCESS; } void *raw_device_create(const struct raw_device_vtbl *vtbl, SIZE_T size) { struct unix_device *iface; if (!(iface = calloc(1, size))) return NULL; iface->vtbl = vtbl; iface->ref = 1; return iface; } static void unix_device_decref(struct unix_device *iface) { if (!InterlockedDecrement(&iface->ref)) { iface->vtbl->destroy(iface); free(iface); } } static ULONG unix_device_incref(struct unix_device *iface) { return InterlockedIncrement(&iface->ref); } static NTSTATUS unix_device_remove(void *args) { struct unix_device *iface = args; iface->vtbl->stop(iface); unix_device_decref(iface); return STATUS_SUCCESS; } static NTSTATUS unix_device_start(void *args) { struct unix_device *iface = args; return iface->vtbl->start(iface); } static NTSTATUS unix_device_get_report_descriptor(void *args) { struct device_descriptor_params *params = args; struct unix_device *iface = params->iface; return iface->vtbl->get_report_descriptor(iface, params->buffer, params->length, params->out_length); } static NTSTATUS unix_device_set_output_report(void *args) { struct device_report_params *params = args; struct unix_device *iface = params->iface; iface->vtbl->set_output_report(iface, params->packet, params->io); return STATUS_SUCCESS; } static NTSTATUS unix_device_get_feature_report(void *args) { struct device_report_params *params = args; struct unix_device *iface = params->iface; iface->vtbl->get_feature_report(iface, params->packet, params->io); return STATUS_SUCCESS; } static NTSTATUS unix_device_set_feature_report(void *args) { struct device_report_params *params = args; struct unix_device *iface = params->iface; iface->vtbl->set_feature_report(iface, params->packet, params->io); return STATUS_SUCCESS; } const unixlib_entry_t __wine_unix_call_funcs[] = { sdl_bus_init, sdl_bus_wait, sdl_bus_stop, udev_bus_init, udev_bus_wait, udev_bus_stop, iohid_bus_init, iohid_bus_wait, iohid_bus_stop, mouse_device_create, keyboard_device_create, unix_device_remove, unix_device_start, unix_device_get_report_descriptor, unix_device_set_output_report, unix_device_get_feature_report, unix_device_set_feature_report, }; void bus_event_cleanup(struct bus_event *event) { if (event->type == BUS_EVENT_TYPE_NONE) return; unix_device_decref(event->device); } void bus_event_queue_destroy(struct list *queue) { struct bus_event *event, *next; LIST_FOR_EACH_ENTRY_SAFE(event, next, queue, struct bus_event, entry) { bus_event_cleanup(event); free(event); } } BOOL bus_event_queue_device_removed(struct list *queue, struct unix_device *device) { ULONG size = sizeof(struct bus_event); struct bus_event *event = malloc(size); if (!event) return FALSE; if (unix_device_incref(device) == 1) /* being destroyed */ { free(event); return FALSE; } event->type = BUS_EVENT_TYPE_DEVICE_REMOVED; event->device = device; list_add_tail(queue, &event->entry); return TRUE; } BOOL bus_event_queue_device_created(struct list *queue, struct unix_device *device, struct device_desc *desc) { ULONG size = sizeof(struct bus_event); struct bus_event *event = malloc(size); if (!event) return FALSE; if (unix_device_incref(device) == 1) /* being destroyed */ { free(event); return FALSE; } event->type = BUS_EVENT_TYPE_DEVICE_CREATED; event->device = device; event->device_created.desc = *desc; list_add_tail(queue, &event->entry); return TRUE; } BOOL bus_event_queue_input_report(struct list *queue, struct unix_device *device, BYTE *report, USHORT length) { ULONG size = offsetof(struct bus_event, input_report.buffer[length]); struct bus_event *event = malloc(size); if (!event) return FALSE; if (unix_device_incref(device) == 1) /* being destroyed */ { free(event); return FALSE; } event->type = BUS_EVENT_TYPE_INPUT_REPORT; event->device = device; event->input_report.length = length; memcpy(event->input_report.buffer, report, length); list_add_tail(queue, &event->entry); return TRUE; } BOOL bus_event_queue_pop(struct list *queue, struct bus_event *event) { struct list *entry = list_head(queue); struct bus_event *tmp; ULONG size; if (!entry) return FALSE; tmp = LIST_ENTRY(entry, struct bus_event, entry); list_remove(entry); if (tmp->type != BUS_EVENT_TYPE_INPUT_REPORT) size = sizeof(*tmp); else size = offsetof(struct bus_event, input_report.buffer[tmp->input_report.length]); memcpy(event, tmp, size); free(tmp); return TRUE; }