Mercurial > sdl-ios-xcode
view src/video/qnxgf/SDL_gf_input.c @ 4423:7953336267c2
Disable error checks for reset actuators and set autocenter.
Reset actuators and set autocenter might not actually be supported on all
implementations. We'll just disable error checking since they aren't
critical to neither opening the joystick nor the haptic subsystem.
author | Edgar Simo <bobbens@gmail.com> |
---|---|
date | Sun, 28 Feb 2010 09:23:23 +0000 |
parents | f7b03b6838cb |
children |
line wrap: on
line source
/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2010 Sam Lantinga 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 Sam Lantinga slouken@libsdl.org QNX Graphics Framework SDL driver Copyright (C) 2009 Mike Gorchak (mike@malva.ua, lestat@i.com.ua) */ #include "SDL_gf_input.h" #include "SDL_config.h" #include "SDL_events.h" #include "../../events/SDL_mouse_c.h" #include "../../events/SDL_keyboard_c.h" /* Include QNX HIDDI definitions */ #include "SDL_hiddi_keyboard.h" #include "SDL_hiddi_mouse.h" #include "SDL_hiddi_joystick.h" /* Mouse related functions */ SDL_Cursor *gf_createcursor(SDL_Surface * surface, int hot_x, int hot_y); int gf_showcursor(SDL_Cursor * cursor); void gf_movecursor(SDL_Cursor * cursor); void gf_freecursor(SDL_Cursor * cursor); void gf_warpmouse(SDL_Mouse * mouse, SDL_Window * window, int x, int y); void gf_freemouse(SDL_Mouse * mouse); /* HIDDI interacting functions */ static int32_t hiddi_connect_devices(); static int32_t hiddi_disconnect_devices(); int32_t gf_addinputdevices(_THIS) { SDL_VideoData *gfdata = (SDL_VideoData *) _this->driverdata; SDL_DisplayData *didata; struct SDL_Mouse gf_mouse; SDL_Keyboard gf_keyboard; SDLKey keymap[SDL_NUM_SCANCODES]; SDL_MouseData *mdata; uint32_t it; for (it = 0; it < _this->num_displays; it++) { SDL_VideoDisplay *display = &_this->displays[it]; /* Clear SDL mouse structure */ SDL_memset(&gf_mouse, 0x00, sizeof(struct SDL_Mouse)); /* Allocate SDL_MouseData structure */ mdata = (SDL_MouseData *) SDL_calloc(1, sizeof(SDL_MouseData)); if (mdata == NULL) { SDL_OutOfMemory(); return -1; } /* Mark this mouse with ID 0 */ gf_mouse.id = it; gf_mouse.driverdata = (void *) mdata; gf_mouse.CreateCursor = gf_createcursor; gf_mouse.ShowCursor = gf_showcursor; gf_mouse.MoveCursor = gf_movecursor; gf_mouse.FreeCursor = gf_freecursor; gf_mouse.WarpMouse = gf_warpmouse; gf_mouse.FreeMouse = gf_freemouse; /* Get display data */ didata = (SDL_DisplayData *) display->driverdata; /* Store SDL_DisplayData pointer in the mouse driver internals */ mdata->didata = didata; /* Set cursor pos to 0,0 to avoid cursor disappearing in some drivers */ gf_cursor_set_pos(didata->display, 0, 0, 0); /* Register mouse cursor in SDL */ SDL_AddMouse(&gf_mouse, "GF mouse cursor", 0, 0, 1); } /* Keyboard could be one only */ SDL_zero(gf_keyboard); SDL_AddKeyboard(&gf_keyboard, -1); /* Add scancode to key mapping, HIDDI uses USB HID codes, so */ /* map will be exact one-to-one */ SDL_GetDefaultKeymap(keymap); SDL_SetKeymap(0, 0, keymap, SDL_NUM_SCANCODES); /* Connect to HID server and enumerate all input devices */ hiddi_connect_devices(); return 0; } int32_t gf_delinputdevices(_THIS) { /* Disconnect from HID server and release input devices */ hiddi_disconnect_devices(); /* Delete keyboard */ SDL_KeyboardQuit(); /* Destroy all of the mice */ SDL_MouseQuit(); } /*****************************************************************************/ /* GF Mouse related functions */ /*****************************************************************************/ SDL_Cursor * gf_createcursor(SDL_Surface * surface, int hot_x, int hot_y) { gf_cursor_t *internal_cursor; SDL_Cursor *sdl_cursor; uint8_t *image0 = NULL; uint8_t *image1 = NULL; uint32_t it; uint32_t jt; uint32_t shape_color; /* SDL converts monochrome cursor shape to 32bpp cursor shape */ /* and we must convert it back to monochrome, this routine handles */ /* 24/32bpp surfaces only */ if ((surface->format->BitsPerPixel != 32) && (surface->format->BitsPerPixel != 24)) { SDL_SetError("GF: Cursor shape is not 24/32bpp."); return NULL; } /* Since GF is not checking data, we must check */ if ((surface->w == 0) || (surface->h == 0)) { SDL_SetError("GF: Cursor shape dimensions are zero"); return NULL; } /* Allocate memory for the internal cursor format */ internal_cursor = (gf_cursor_t *) SDL_calloc(1, sizeof(gf_cursor_t)); if (internal_cursor == NULL) { SDL_OutOfMemory(); return NULL; } /* Allocate memory for the SDL cursor */ sdl_cursor = (SDL_Cursor *) SDL_calloc(1, sizeof(SDL_Cursor)); if (sdl_cursor == NULL) { SDL_free(internal_cursor); SDL_OutOfMemory(); return NULL; } /* Allocate two monochrome images */ image0 = (uint8_t *) SDL_calloc(1, ((surface->w + 7) / 8) * surface->h); if (image0 == NULL) { SDL_free(sdl_cursor); SDL_free(internal_cursor); SDL_OutOfMemory(); return NULL; } image1 = (uint8_t *) SDL_calloc(1, ((surface->w + 7) >> 3) * surface->h); if (image1 == NULL) { SDL_free(image0); SDL_free(sdl_cursor); SDL_free(internal_cursor); SDL_OutOfMemory(); return NULL; } /* Set driverdata as GF cursor format */ sdl_cursor->driverdata = (void *) internal_cursor; internal_cursor->type = GF_CURSOR_BITMAP; internal_cursor->hotspot.x = hot_x; internal_cursor->hotspot.y = hot_y; internal_cursor->cursor.bitmap.w = surface->w; internal_cursor->cursor.bitmap.h = surface->h; internal_cursor->cursor.bitmap.color0 = SDL_GF_MOUSE_COLOR_BLACK; internal_cursor->cursor.bitmap.color1 = SDL_GF_MOUSE_COLOR_WHITE; /* Setup cursor shape images */ internal_cursor->cursor.bitmap.stride = ((surface->w + 7) >> 3); internal_cursor->cursor.bitmap.image0 = image0; internal_cursor->cursor.bitmap.image1 = image1; /* Convert cursor from 32 bpp */ for (jt = 0; jt < surface->h; jt++) { for (it = 0; it < surface->w; it++) { shape_color = *((uint32_t *) ((uint8_t *) surface->pixels + jt * surface->pitch + it * surface->format->BytesPerPixel)); switch (shape_color) { case SDL_GF_MOUSE_COLOR_BLACK: { *(image0 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) |= 0x80 >> (it % 8); *(image1 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) &= ~(0x80 >> (it % 8)); } break; case SDL_GF_MOUSE_COLOR_WHITE: { *(image0 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) &= ~(0x80 >> (it % 8)); *(image1 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) |= 0x80 >> (it % 8); } break; case SDL_GF_MOUSE_COLOR_TRANS: { *(image0 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) &= ~(0x80 >> (it % 8)); *(image1 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) &= ~(0x80 >> (it % 8)); } break; default: { /* The same as transparent color, must not happen */ *(image0 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) &= ~(0x80 >> (it % 8)); *(image1 + jt * (internal_cursor->cursor.bitmap.stride) + (it >> 3)) &= ~(0x80 >> (it % 8)); } break; } } } return sdl_cursor; } int gf_showcursor(SDL_Cursor * cursor) { SDL_VideoDisplay *display; SDL_DisplayData *didata; SDL_Window *window; SDL_WindowID window_id; gf_cursor_t *internal_cursor; int32_t status; /* Get current window id */ window_id = SDL_GetFocusWindow(); if (window_id <= 0) { SDL_MouseData *mdata = NULL; /* If there is no current window, then someone calls this function */ /* to set global mouse settings during SDL initialization */ if (cursor != NULL) { mdata = (SDL_MouseData *) cursor->mouse->driverdata; didata = (SDL_DisplayData *) mdata->didata; if ((didata == NULL) || (mdata == NULL)) { return; } } else { /* We can't get SDL_DisplayData at this point, return fake success */ return 0; } } else { /* Sanity checks */ window = SDL_GetWindowFromID(window_id); if (window != NULL) { display = window->display; if (display != NULL) { didata = (SDL_DisplayData *) display->driverdata; if (didata == NULL) { return -1; } } else { return -1; } } else { return -1; } } /* Check if we need to set new shape or disable cursor shape */ if (cursor != NULL) { /* Retrieve GF cursor shape */ internal_cursor = (gf_cursor_t *) cursor->driverdata; if (internal_cursor == NULL) { SDL_SetError("GF: Internal cursor data is absent"); return -1; } if ((internal_cursor->cursor.bitmap.image0 == NULL) || (internal_cursor->cursor.bitmap.image1 == NULL)) { SDL_SetError("GF: Cursor shape is absent"); return -1; } /* Store last shown cursor to display data */ didata->cursor.type = internal_cursor->type; didata->cursor.hotspot.x = internal_cursor->hotspot.x; didata->cursor.hotspot.y = internal_cursor->hotspot.y; if (internal_cursor->cursor.bitmap.w > SDL_VIDEO_GF_MAX_CURSOR_SIZE) { didata->cursor.cursor.bitmap.w = SDL_VIDEO_GF_MAX_CURSOR_SIZE; } else { didata->cursor.cursor.bitmap.w = internal_cursor->cursor.bitmap.w; } if (didata->cursor.cursor.bitmap.h > SDL_VIDEO_GF_MAX_CURSOR_SIZE) { didata->cursor.cursor.bitmap.h = SDL_VIDEO_GF_MAX_CURSOR_SIZE; } else { didata->cursor.cursor.bitmap.h = internal_cursor->cursor.bitmap.h; } didata->cursor.cursor.bitmap.color0 = internal_cursor->cursor.bitmap.color0; didata->cursor.cursor.bitmap.color1 = internal_cursor->cursor.bitmap.color1; didata->cursor.cursor.bitmap.stride = internal_cursor->cursor.bitmap.stride; SDL_memcpy(didata->cursor.cursor.bitmap.image0, internal_cursor->cursor.bitmap.image0, ((internal_cursor->cursor.bitmap.w + 7) / (sizeof(uint8_t) * 8)) * internal_cursor->cursor.bitmap.h); SDL_memcpy(didata->cursor.cursor.bitmap.image1, internal_cursor->cursor.bitmap.image1, ((internal_cursor->cursor.bitmap.w + 7) / (sizeof(uint8_t) * 8)) * internal_cursor->cursor.bitmap.h); /* Setup cursor shape */ status = gf_cursor_set(didata->display, 0, internal_cursor); if (status != GF_ERR_OK) { if (status != GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't set hardware cursor shape"); return -1; } } /* Enable just set cursor */ status = gf_cursor_enable(didata->display, 0); if (status != GF_ERR_OK) { if (status != GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't enable hardware cursor"); return -1; } } /* Set cursor visible */ didata->cursor_visible = SDL_TRUE; } else { /* SDL requests to disable cursor */ status = gf_cursor_disable(didata->display, 0); if (status != GF_ERR_OK) { if (status != GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't disable hardware cursor"); return -1; } } /* Set cursor invisible */ didata->cursor_visible = SDL_FALSE; } /* New cursor shape is set */ return 0; } void gf_movecursor(SDL_Cursor * cursor) { SDL_VideoDisplay *display; SDL_DisplayData *didata; SDL_Window *window; SDL_WindowID window_id; int32_t status; uint32_t xmax; uint32_t ymax; /* Get current window id */ window_id = SDL_GetFocusWindow(); if (window_id <= 0) { didata = (SDL_DisplayData *) cursor->mouse->driverdata; if (didata == NULL) { return; } } else { /* Sanity checks */ window = SDL_GetWindowFromID(window_id); if (window != NULL) { display = window->display; if (display != NULL) { didata = (SDL_DisplayData *) display->driverdata; if (didata == NULL) { return; } } else { return; } } else { return; } } /* Add checks for out of screen bounds position */ if (cursor->mouse->x < 0) { cursor->mouse->x = 0; } if (cursor->mouse->y < 0) { cursor->mouse->y = 0; } /* Get window size to clamp maximum coordinates */ SDL_GetWindowSize(window_id, &xmax, &ymax); if (cursor->mouse->x >= xmax) { cursor->mouse->x = xmax - 1; } if (cursor->mouse->y >= ymax) { cursor->mouse->y = ymax - 1; } status = gf_cursor_set_pos(didata->display, 0, cursor->mouse->x, cursor->mouse->y); if (status != GF_ERR_OK) { if (status != GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't set hardware cursor position"); return; } } } void gf_freecursor(SDL_Cursor * cursor) { gf_cursor_t *internal_cursor; if (cursor != NULL) { internal_cursor = (gf_cursor_t *) cursor->driverdata; if (internal_cursor != NULL) { if (internal_cursor->cursor.bitmap.image0 != NULL) { SDL_free((uint8_t *) internal_cursor->cursor.bitmap.image0); } if (internal_cursor->cursor.bitmap.image1 != NULL) { SDL_free((uint8_t *) internal_cursor->cursor.bitmap.image1); } SDL_free(internal_cursor); } } } void gf_warpmouse(SDL_Mouse * mouse, SDL_Window * window, int x, int y) { SDL_VideoDisplay *display; SDL_DisplayData *didata; uint32_t xmax; uint32_t ymax; int32_t status; /* Sanity checks */ if (window != NULL) { display = window->display; if (display != NULL) { didata = (SDL_DisplayData *) display->driverdata; if (didata == NULL) { return; } } else { return; } } else { return; } /* Add checks for out of screen bounds position */ if (x < 0) { x = 0; } if (y < 0) { y = 0; } /* Get window size to clamp maximum coordinates */ SDL_GetWindowSize(window, &xmax, &ymax); if (x >= xmax) { x = xmax - 1; } if (y >= ymax) { y = ymax - 1; } status = gf_cursor_set_pos(didata->display, 0, x, y); if (status != GF_ERR_OK) { if (status != GF_ERR_NOSUPPORT) { SDL_SetError("GF: Can't set hardware cursor position"); return; } } } void gf_freemouse(SDL_Mouse * mouse) { if (mouse->driverdata == NULL) { return; } /* Mouse framework doesn't deletes automatically our driverdata */ SDL_free(mouse->driverdata); mouse->driverdata = NULL; return; } /*****************************************************************************/ /* HIDDI handlers code */ /*****************************************************************************/ static key_packet key_last_state[SDL_HIDDI_MAX_DEVICES]; static void hiddi_keyboard_handler(uint32_t devno, uint8_t * report_data, uint32_t report_len) { key_packet *packet; uint32_t it; uint32_t jt; packet = (key_packet *) report_data; /* Check for special states */ switch (report_len) { case 8: /* 8 bytes of report length */ { for (it = 0; it < 6; it++) { /* Check for keyboard overflow, when it can't handle */ /* many simultaneous pressed keys */ if (packet->codes[it] == HIDDI_KEY_OVERFLOW) { return; } } } break; default: { /* Do not process unknown reports */ return; } break; } /* Check if modifier key was pressed */ if (packet->modifiers != key_last_state[devno].modifiers) { if (((packet->modifiers & HIDDI_MKEY_LEFT_CTRL) == HIDDI_MKEY_LEFT_CTRL) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_CTRL) == 0) { /* Left Ctrl key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LCTRL); } if (((packet->modifiers & HIDDI_MKEY_LEFT_CTRL) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_CTRL) == HIDDI_MKEY_LEFT_CTRL) { /* Left Ctrl key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LCTRL); } if (((packet->modifiers & HIDDI_MKEY_LEFT_SHIFT) == HIDDI_MKEY_LEFT_SHIFT) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_SHIFT) == 0) { /* Left Shift key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LSHIFT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_SHIFT) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_SHIFT) == HIDDI_MKEY_LEFT_SHIFT) { /* Left Shift key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LSHIFT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_ALT) == HIDDI_MKEY_LEFT_ALT) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_ALT) == 0) { /* Left Alt key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LALT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_ALT) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_ALT) == HIDDI_MKEY_LEFT_ALT) { /* Left Alt key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LALT); } if (((packet->modifiers & HIDDI_MKEY_LEFT_WFLAG) == HIDDI_MKEY_LEFT_WFLAG) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_WFLAG) == 0) { /* Left Windows flag key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_LGUI); } if (((packet->modifiers & HIDDI_MKEY_LEFT_WFLAG) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_LEFT_WFLAG) == HIDDI_MKEY_LEFT_WFLAG) { /* Left Windows flag key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_LGUI); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_CTRL) == HIDDI_MKEY_RIGHT_CTRL) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_CTRL) == 0) { /* Right Ctrl key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RCTRL); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_CTRL) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_CTRL) == HIDDI_MKEY_RIGHT_CTRL) { /* Right Ctrl key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RCTRL); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_SHIFT) == HIDDI_MKEY_RIGHT_SHIFT) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_SHIFT) == 0) { /* Right Shift key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RSHIFT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_SHIFT) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_SHIFT) == HIDDI_MKEY_RIGHT_SHIFT) { /* Right Shift key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RSHIFT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_ALT) == HIDDI_MKEY_RIGHT_ALT) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_ALT) == 0) { /* Right Alt key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RALT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_ALT) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_ALT) == HIDDI_MKEY_RIGHT_ALT) { /* Right Alt key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RALT); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_WFLAG) == HIDDI_MKEY_RIGHT_WFLAG) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_WFLAG) == 0) { /* Right Windows flag key was pressed */ SDL_SendKeyboardKey(0, SDL_PRESSED, SDL_SCANCODE_RGUI); } if (((packet->modifiers & HIDDI_MKEY_RIGHT_WFLAG) == 0) && (key_last_state[devno].modifiers & HIDDI_MKEY_RIGHT_WFLAG) == HIDDI_MKEY_RIGHT_WFLAG) { /* Right Windows flag key was released */ SDL_SendKeyboardKey(0, SDL_RELEASED, SDL_SCANCODE_RGUI); } } /* Check each key in the press/release buffer */ switch (report_len) { case 8: /* 8 bytes of report length */ { /* Check if at least one key was unpressed */ for (it = 0; it < 6; it++) { if (key_last_state[devno].codes[it] == HIDDI_KEY_UNPRESSED) { /* if stored keycode is zero, find another */ continue; } for (jt = 0; jt < 6; jt++) { /* Find stored keycode in the current pressed codes */ if (packet->codes[jt] == key_last_state[devno].codes[it]) { /* If found then particular key state is not changed */ break; } } /* Check if pressed key can't longer be found */ if (jt == 6) { SDL_SendKeyboardKey(0, SDL_RELEASED, key_last_state[devno].codes[it]); } } /* Check if at least one new key was pressed */ for (it = 0; it < 6; it++) { if (packet->codes[it] == HIDDI_KEY_UNPRESSED) { continue; } for (jt = 0; jt < 6; jt++) { /* Find new keycode it the array of old pressed keys */ if (packet->codes[it] == key_last_state[devno].codes[jt]) { break; } } /* Check if new key was pressed */ if (jt == 6) { SDL_SendKeyboardKey(0, SDL_PRESSED, packet->codes[it]); } } } default: /* unknown keyboard report type */ { /* Ignore all unknown reports */ } break; } /* Store last state */ key_last_state[devno] = *packet; } static uint32_t mouse_last_state_button[SDL_HIDDI_MAX_DEVICES]; static uint32_t collect_reports = 0; static void hiddi_mouse_handler(uint32_t devno, uint8_t * report_data, uint32_t report_len) { uint32_t it; uint32_t sdlbutton; /* We do not want to collect stored events */ if (collect_reports == 0) { return; } /* Check for special states */ switch (report_len) { case 8: /* 8 bytes of report length, usually multi-button USB mice */ { mouse_packet8 *packet; packet = (mouse_packet8 *) report_data; /* Send motion event if motion really was */ if ((packet->horizontal_precision != 0) || (packet->vertical_precision != 0)) { SDL_SendMouseMotion(0, 1, packet->horizontal_precision, packet->vertical_precision, 0); } /* Send mouse button press/release events */ if (mouse_last_state_button[devno] != packet->buttons) { /* Cycle all buttons status */ for (it = 0; it < 8; it++) { /* convert hiddi button id to sdl button id */ switch (it) { case 0: { sdlbutton = SDL_BUTTON_LEFT; } break; case 1: { sdlbutton = SDL_BUTTON_RIGHT; } break; case 2: { sdlbutton = SDL_BUTTON_MIDDLE; } break; default: { sdlbutton = it + 1; } break; } /* Button pressed */ if (((packet->buttons & (0x01 << it)) == (0x01 << it)) && ((mouse_last_state_button[devno] & (0x01 << it)) == 0x00)) { SDL_SendMouseButton(0, SDL_PRESSED, sdlbutton); } /* Button released */ if (((packet->buttons & (0x01 << it)) == 0x00) && ((mouse_last_state_button[devno] & (0x01 << it)) == (0x01 << it))) { SDL_SendMouseButton(0, SDL_RELEASED, sdlbutton); } } mouse_last_state_button[devno] = packet->buttons; } /* Send mouse wheel events */ if (packet->wheel != 0) { /* Send vertical wheel event only */ SDL_SendMouseWheel(0, 0, packet->wheel); } } break; case 4: /* 4 bytes of report length, usually PS/2 mice */ { mouse_packet4 *packet; packet = (mouse_packet4 *) report_data; /* Send motion event if motion really was */ if ((packet->horizontal != 0) || (packet->vertical != 0)) { SDL_SendMouseMotion(0, 1, packet->horizontal, packet->vertical, 0); } /* Send mouse button press/release events */ if (mouse_last_state_button[devno] != packet->buttons) { /* Cycle all buttons status */ for (it = 0; it < 8; it++) { /* convert hiddi button id to sdl button id */ switch (it) { case 0: { sdlbutton = SDL_BUTTON_LEFT; } break; case 1: { sdlbutton = SDL_BUTTON_RIGHT; } break; case 2: { sdlbutton = SDL_BUTTON_MIDDLE; } break; default: { sdlbutton = it + 1; } break; } /* Button pressed */ if (((packet->buttons & (0x01 << it)) == (0x01 << it)) && ((mouse_last_state_button[devno] & (0x01 << it)) == 0x00)) { SDL_SendMouseButton(0, SDL_PRESSED, sdlbutton); } /* Button released */ if (((packet->buttons & (0x01 << it)) == 0x00) && ((mouse_last_state_button[devno] & (0x01 << it)) == (0x01 << it))) { SDL_SendMouseButton(0, SDL_RELEASED, sdlbutton); } } mouse_last_state_button[devno] = packet->buttons; } /* Send mouse wheel events */ if (packet->wheel != 0) { /* Send vertical wheel event only */ SDL_SendMouseWheel(0, 0, packet->wheel); } } break; } } /*****************************************************************************/ /* HIDDI interacting code */ /*****************************************************************************/ static hidd_device_ident_t hiddevice = { HIDD_CONNECT_WILDCARD, /* vendor id: any */ HIDD_CONNECT_WILDCARD, /* product id: any */ HIDD_CONNECT_WILDCARD, /* version: any */ }; static hidd_connect_parm_t hidparams = { NULL, HID_VERSION, HIDD_VERSION, 0, 0, &hiddevice, NULL, 0 }; static void hiddi_insertion(struct hidd_connection *connection, hidd_device_instance_t * device_instance); static void hiddi_removal(struct hidd_connection *connection, hidd_device_instance_t * instance); static void hiddi_report(struct hidd_connection *connection, struct hidd_report *report, void *report_data, uint32_t report_len, uint32_t flags, void *user); static hidd_funcs_t hidfuncs = { _HIDDI_NFUNCS, hiddi_insertion, hiddi_removal, hiddi_report, NULL }; /* HID handle, singletone */ struct hidd_connection *connection = NULL; /* SDL detected input device types, singletone */ static uint32_t sdl_input_devices[SDL_HIDDI_MAX_DEVICES]; static int hiddi_register_for_reports(struct hidd_collection *col, hidd_device_instance_t * device_instance) { int it; uint16_t num_col; struct hidd_collection **hidd_collections; struct hidd_report_instance *report_instance; struct hidd_report *report; int status = 0; hidview_device_t *device; for (it = 0; it < 10 && !status; it++) { status = hidd_get_report_instance(col, it, HID_INPUT_REPORT, &report_instance); if (status == EOK) { status = hidd_report_attach(connection, device_instance, report_instance, 0, sizeof(hidview_device_t), &report); if (status == EOK) { device = hidd_report_extra(report); device->report = report; device->instance = report_instance; } } } hidd_get_collections(NULL, col, &hidd_collections, &num_col); for (it = 0; it < num_col; it++) { hiddi_register_for_reports(hidd_collections[it], device_instance); } return EOK; } static void hiddi_insertion(struct hidd_connection *connection, hidd_device_instance_t * device_instance) { uint32_t it; struct hidd_collection **hidd_collections; uint16_t num_col; /* get root level collections */ hidd_get_collections(device_instance, NULL, &hidd_collections, &num_col); for (it = 0; it < num_col; it++) { hiddi_register_for_reports(hidd_collections[it], device_instance); } } static void hiddi_removal(struct hidd_connection *connection, hidd_device_instance_t * instance) { hidd_reports_detach(connection, instance); } static void hiddi_report(struct hidd_connection *connection, hidd_report_t * report, void *report_data, uint32_t report_len, uint32_t flags, void *user) { if (report->dev_inst->devno >= SDL_HIDDI_MAX_DEVICES) { /* Unknown HID device, with devno number out of supported range */ return; } /* Check device type which generates event */ switch (sdl_input_devices[report->dev_inst->devno]) { case SDL_GF_HIDDI_NONE: { /* We do not handle other devices type */ return; } break; case SDL_GF_HIDDI_MOUSE: { /* Call mouse handler */ hiddi_mouse_handler(report->dev_inst->devno, report_data, report_len); } break; case SDL_GF_HIDDI_KEYBOARD: { /* Call keyboard handler */ hiddi_keyboard_handler(report->dev_inst->devno, report_data, report_len); } break; case SDL_GF_HIDDI_JOYSTICK: { /* Call joystick handler */ } break; } } static hiddi_get_device_type(uint8_t * report_data, uint16_t report_length) { hid_byte_t byte; uint16_t usage_page = 0; uint16_t usage = 0; uint16_t data = 0; while (report_length && !(usage_page && usage)) { if (hidp_analyse_byte(*report_data, &byte)) { /* Error in parser, do nothing */ } data = hidp_get_data((report_data + 1), &byte); switch (byte.HIDB_Type) { case HID_TYPE_GLOBAL: if (!usage_page && byte.HIDB_Tag == HID_GLOBAL_USAGE_PAGE) { usage_page = data; } break; case HID_TYPE_LOCAL: if (!usage && byte.HIDB_Tag == HID_LOCAL_USAGE) { usage = data; } break; } report_data += byte.HIDB_Length + 1; report_length -= byte.HIDB_Length + 1; } switch (usage_page) { case HIDD_PAGE_DESKTOP: { switch (usage) { case HIDD_USAGE_MOUSE: { return SDL_GF_HIDDI_MOUSE; } break; case HIDD_USAGE_JOYSTICK: { return SDL_GF_HIDDI_JOYSTICK; } break; case HIDD_USAGE_KEYBOARD: { return SDL_GF_HIDDI_KEYBOARD; } break; } } break; case HIDD_PAGE_DIGITIZER: { /* Do not handle digitizers */ } break; case HIDD_PAGE_CONSUMER: { /* Do not handle consumer input devices */ } break; } return SDL_GF_HIDDI_NONE; } static int32_t hiddi_connect_devices() { int32_t status; uint32_t it; uint8_t *report_data; uint16_t report_length; hidd_device_instance_t instance; /* Cleanup initial keys and mice state */ SDL_memset(key_last_state, 0x00, sizeof(key_packet) * SDL_HIDDI_MAX_DEVICES); SDL_memset(mouse_last_state_button, 0x00, sizeof(uint32_t) * SDL_HIDDI_MAX_DEVICES); status = hidd_connect(&hidparams, &connection); if (status != EOK) { connection=NULL; return -1; } for (it = 0; it < SDL_HIDDI_MAX_DEVICES; it++) { /* Get device instance */ status = hidd_get_device_instance(connection, it, &instance); if (status != EOK) { continue; } status = hidd_get_report_desc(connection, &instance, &report_data, &report_length); if (status != EOK) { continue; } status = hiddi_get_device_type(report_data, report_length); sdl_input_devices[it] = status; free(report_data); } /* Disconnect from HID server */ status = hidd_disconnect(connection); if (status != EOK) { connection=NULL; return -1; } /* Add handlers for HID devices */ hidparams.funcs = &hidfuncs; status = hidd_connect(&hidparams, &connection); if (status != EOK) { connection=NULL; return -1; } return 0; } static int32_t hiddi_disconnect_devices() { int32_t status; hiddi_disable_mouse(); /* Disconnect from HID server */ if (connection!=NULL) { status = hidd_disconnect(connection); if (status != EOK) { return -1; } } } void hiddi_enable_mouse() { collect_reports = 1; } void hiddi_disable_mouse() { collect_reports = 0; }