/* $Id: fb.c,v 1.5 2002/07/29 15:25:37 ukai Exp $ */ /************************************************************************** fb.c 0.3 Copyright (C) 2002, hito **************************************************************************/ #include #include #include #include #include #include #include #include #include #include "fb.h" #define FB_ENV "FRAMEBUFFER" #define FB_DEFDEV "/dev/fb0" #define FALSE 0 #define TRUE 1 #define IMAGE_SIZE_MAX 10000 static struct fb_cmap *fb_cmap_create(struct fb_fix_screeninfo *, struct fb_var_screeninfo *); static void fb_cmap_destroy(struct fb_cmap *cmap); static int fb_fscrn_get(int fbfp, struct fb_fix_screeninfo *scinfo); static void *fb_mmap(int fbfp, struct fb_fix_screeninfo *scinfo); static int fb_munmap(void *buf, struct fb_fix_screeninfo *scinfo); static int fb_vscrn_get(int fbfp, struct fb_var_screeninfo *scinfo); static struct fb_fix_screeninfo fscinfo; static struct fb_var_screeninfo vscinfo; static struct fb_cmap *cmap = NULL; static int is_open = FALSE; static int fbfp = -1; static size_t pixel_size = 0; static unsigned char *buf = NULL; int fb_open(void) { char *fbdev = { FB_DEFDEV }; if (is_open == TRUE) return 1; if (getenv(FB_ENV)) { fbdev = getenv(FB_ENV); } if ((fbfp = open(fbdev, O_RDWR)) == -1) { fprintf(stderr, "open %s error\n", fbdev); goto ERR_END; } if (fb_fscrn_get(fbfp, &fscinfo)) { goto ERR_END; } if (fb_vscrn_get(fbfp, &vscinfo)) { goto ERR_END; } if ((cmap = fb_cmap_create(&fscinfo, &vscinfo)) == (struct fb_cmap *)-1) { goto ERR_END; } if (!(buf = fb_mmap(fbfp, &fscinfo))) { fprintf(stderr, "Can't allocate memory.\n"); goto ERR_END; } if (fscinfo.type != FB_TYPE_PACKED_PIXELS) { fprintf(stderr, "This type of framebuffer is not supported.\n"); goto ERR_END; } if (!(fscinfo.visual == FB_VISUAL_TRUECOLOR && (vscinfo.bits_per_pixel == 15 || vscinfo.bits_per_pixel == 16 || vscinfo.bits_per_pixel == 24 || vscinfo.bits_per_pixel == 32))) { fprintf(stderr, "This type of framebuffer is not supported.\n"); goto ERR_END; } pixel_size = (vscinfo.bits_per_pixel + 7) / CHAR_BIT; is_open = TRUE; return 0; ERR_END: fb_close(); return 1; } void fb_close(void) { if (is_open != TRUE) return; if (cmap != NULL) { fb_cmap_destroy(cmap); cmap = NULL; } if (buf != NULL) { fb_munmap(buf, &fscinfo); buf = NULL; } if (fbfp >= 0) { close(fbfp); } is_open = FALSE; } /*********** fb_image_* ***********/ FB_IMAGE * fb_image_new(int width, int height) { FB_IMAGE *image; if (is_open != TRUE) return NULL; if (width > IMAGE_SIZE_MAX || height > IMAGE_SIZE_MAX || width < 1 || height < 1) return NULL; image = malloc(sizeof(*image)); if (image == NULL) return NULL; image->data = calloc(sizeof(*(image->data)), width * height * pixel_size); if (image->data == NULL) { free(image); return NULL; } image->num = 1; image->id = 0; image->delay = 0; image->width = width; image->height = height; image->rowstride = width * pixel_size; image->len = width * height * pixel_size; return image; } void fb_image_free(FB_IMAGE * image) { if (image == NULL) return; if (image->data != NULL) free(image->data); free(image); } void fb_image_pset(FB_IMAGE * image, int x, int y, int r, int g, int b) { unsigned long work; int offset; if (image == NULL || is_open != TRUE || x >= image->width || y >= image->height) return; offset = image->rowstride * y + pixel_size * x; work = ((r >> (CHAR_BIT - vscinfo.red.length)) << vscinfo.red.offset) + ((g >> (CHAR_BIT - vscinfo.green.length)) << vscinfo.green.offset) + ((b >> (CHAR_BIT - vscinfo.blue.length)) << vscinfo.blue.offset); memcpy(image->data + offset, &work, pixel_size); } void fb_image_fill(FB_IMAGE * image, int r, int g, int b) { unsigned long work; int offset; if (image == NULL || is_open != TRUE) return; work = ((r >> (CHAR_BIT - vscinfo.red.length)) << vscinfo.red.offset) + ((g >> (CHAR_BIT - vscinfo.green.length)) << vscinfo.green.offset) + ((b >> (CHAR_BIT - vscinfo.blue.length)) << vscinfo.blue.offset); for (offset = 0; offset < image->len; offset += pixel_size) { memcpy(image->data + offset, &work, pixel_size); } } int fb_image_draw(FB_IMAGE * image, int x, int y, int sx, int sy, int width, int height) { int i, offset_fb, offset_img; if (image == NULL || is_open != TRUE || sx > image->width || sy > image->height || x > fb_width() || y > fb_height()) return 1; if (sx + width > image->width) width = image->width - sx; if (sy + height > image->height) height = image->height - sy; if (x + width > fb_width()) width = fb_width() - x; if (y + height > fb_height()) height = fb_height() - y; offset_fb = fscinfo.line_length * y + pixel_size * x; offset_img = image->rowstride * sy + pixel_size * sx; for (i = 0; i < height; i++) { memcpy(buf + offset_fb, image->data + offset_img, pixel_size * width); offset_fb += fscinfo.line_length; offset_img += image->rowstride; } return 0; } void fb_image_rotate(FB_IMAGE * image, int direction) { unsigned char *src, *dest, *tmp; int x, y, i, ofst; if (image == NULL) return; tmp = malloc(image->len); if (tmp == NULL) return; src = image->data; dest = tmp; if (direction) { int ofst2 = image->rowstride * (image->height - 1); for (x = 0; x < image->rowstride; x += pixel_size) { ofst = ofst2 + x; for (y = image->height - 1; y >= 0; y--) { memcpy(dest, src + ofst, pixel_size); dest += pixel_size; ofst -= image->rowstride; } } } else { for (x = image->rowstride - pixel_size; x >= 0; x -= pixel_size) { ofst = x; for (y = 0; y < image->height; y++) { memcpy(dest, src + ofst, pixel_size); dest += pixel_size; ofst += image->rowstride; } } } memcpy(src, tmp, image->len); i = image->width; image->width = image->height; image->height = i; image->rowstride = image->width * pixel_size; free(tmp); } void fb_image_copy(FB_IMAGE * dest, FB_IMAGE * src) { if (dest == NULL || src == NULL) return; if (dest->len != src->len) return; memcpy(dest->data, src->data, src->len); } /*********** fb_frame_* ***********/ FB_IMAGE ** fb_frame_new(int w, int h, int n) { FB_IMAGE **frame; int i, error = 0; if (w > IMAGE_SIZE_MAX || h > IMAGE_SIZE_MAX || w < 1 || h < 1 || n < 1) return NULL; frame = malloc(sizeof(*frame) * n); if (frame == NULL) return NULL; for (i = 0; i < n; i++) { frame[i] = fb_image_new(w, h); frame[i]->num = n; frame[i]->id = i; frame[i]->delay = 1000; if (frame[i] == NULL) error = 1; } if (error) { fb_frame_free(frame); return NULL; } return frame; } void fb_frame_free(FB_IMAGE ** frame) { int i, n; if (frame == NULL) return; n = frame[0]->num; for (i = 0; i < n; i++) { fb_image_free(frame[i]); } free(frame); } void fb_frame_rotate(FB_IMAGE ** frame, int direction) { int i, n; n = frame[0]->num; for (i = 0; i < n; i++) { fb_image_rotate(frame[i], direction); } } void fb_pset(int x, int y, int r, int g, int b) { unsigned long work; int offset; if (is_open != TRUE || x >= vscinfo.xres || y >= vscinfo.yres) return; offset = fscinfo.line_length * y + pixel_size * x; if (offset >= fscinfo.smem_len) return; work = ((r >> (CHAR_BIT - vscinfo.red.length)) << vscinfo.red.offset) + ((g >> (CHAR_BIT - vscinfo.green.length)) << vscinfo.green.offset) + ((b >> (CHAR_BIT - vscinfo.blue.length)) << vscinfo.blue.offset); memcpy(buf + offset, &work, pixel_size); } int fb_get_color(int x, int y, int *r, int *g, int *b) { unsigned long work = 0; int offset; if (is_open != TRUE || x >= vscinfo.xres || y >= vscinfo.yres) return 1; offset = fscinfo.line_length * y + pixel_size * x; if (offset >= fscinfo.smem_len) return 1; memcpy(&work, buf + offset, pixel_size); *r = ((work >> vscinfo.red. offset) & (0x000000ff >> (CHAR_BIT - vscinfo.red.length))) << (CHAR_BIT - vscinfo.red.length); *g = ((work >> vscinfo.green. offset) & (0x000000ff >> (CHAR_BIT - vscinfo.green.length))) << (CHAR_BIT - vscinfo.green.length); *b = ((work >> vscinfo.blue. offset) & (0x000000ff >> (CHAR_BIT - vscinfo.blue.length))) << (CHAR_BIT - vscinfo.blue.length); return 0; } void fb_clear(void) { if (is_open != TRUE) return; memset(buf, 0, (vscinfo.xres * vscinfo.yres * vscinfo.bits_per_pixel) / CHAR_BIT); } int fb_width(void) { if (is_open != TRUE) return 0; return vscinfo.xres; } int fb_height(void) { if (is_open != TRUE) return 0; return vscinfo.yres; } void fb_cmap_disp(void) { int lp; if (is_open != TRUE) return; printf("cmap DUMP\n"); printf("start :[%08x]\n", cmap->start); printf("len :[%08x]\n", cmap->len); printf("red :[%8p]\n", cmap->red); if (cmap->red) { for (lp = 0; lp < cmap->len; lp++) { if ((lp + 1) % 16 == 0) printf("%04x\n", *(cmap->red + lp)); else printf("%04x ", *(cmap->red + lp)); } if (lp % 16) printf("\n"); } printf("green :[%8p]\n", cmap->green); if (cmap->green) { for (lp = 0; lp < cmap->len; lp++) { if ((lp + 1) % 16 == 0) printf("%04x\n", *(cmap->green + lp)); else printf("%04x ", *(cmap->green + lp)); } if (lp % 16) printf("\n"); } printf("blue :[%8p]\n", cmap->blue); if (cmap->blue) { for (lp = 0; lp < cmap->len; lp++) { if ((lp + 1) % 16 == 0) printf("%04x\n", *(cmap->blue + lp)); else printf("%04x ", *(cmap->blue + lp)); } if (lp % 16) printf("\n"); } printf("transp :[%8p]\n", cmap->transp); if (cmap->transp) { for (lp = 0; lp < cmap->len; lp++) { if ((lp + 1) % 16 == 0) printf("%04x\n", *(cmap->transp + lp)); else printf("%04x ", *(cmap->transp + lp)); } if (lp % 16) printf("\n"); } return; } void fb_fscrn_disp(void) { if (is_open != TRUE) return; printf("scinfo[%8p] DUMP\n", &fscinfo); printf("id :[%s]\n", fscinfo.id); printf("smem_start :[%08lx]\n", fscinfo.smem_start); printf("smem_len :[%d]\n", fscinfo.smem_len); printf("type :[%d] ", fscinfo.type); switch (fscinfo.type) { case FB_TYPE_PACKED_PIXELS: printf("FB_TYPE_PACKED_PIXELS\n"); break; case FB_TYPE_PLANES: printf("FB_TYPE_PLANES\n"); break; case FB_TYPE_INTERLEAVED_PLANES: printf("FB_TYPE_INTERLEAVED_PLANES\n"); break; case FB_TYPE_TEXT: printf("FB_TYPE_TEXT\n"); break; default: printf("Unknown type.\n"); } printf("type_aux :[%d] ", fscinfo.type_aux); switch (fscinfo.type_aux) { case FB_AUX_TEXT_MDA: printf("FB_AUX_TEXT_MDA\n"); break; case FB_AUX_TEXT_CGA: printf("FB_AUX_TEXT_CGA\n"); break; case FB_AUX_TEXT_S3_MMIO: printf("FB_AUX_TEXT_S3_MMIO\n"); break; case FB_AUX_TEXT_MGA_STEP16: printf("FB_AUX_TEXT_MGA_STEP16\n"); break; case FB_AUX_TEXT_MGA_STEP8: printf("FB_AUX_TEXT_MGA_STEP8\n"); break; default: printf("Unknown type_aux.\n"); } printf("visual :[%d] ", fscinfo.visual); switch (fscinfo.visual) { case FB_VISUAL_MONO01: printf("FB_VISUAL_MONO01\n"); break; case FB_VISUAL_MONO10: printf("FB_VISUAL_MONO10\n"); break; case FB_VISUAL_TRUECOLOR: printf("FB_VISUAL_TRUECOLOR\n"); break; case FB_VISUAL_PSEUDOCOLOR: printf("FB_VISUAL_PSEUDOCOLOR\n"); break; case FB_VISUAL_DIRECTCOLOR: printf("FB_VISUAL_DIRECTCOLOR\n"); break; case FB_VISUAL_STATIC_PSEUDOCOLOR: printf("FB_VISUAL_STATIC_PSEUDOCOLOR\n"); break; default: printf("Unknown Visual mode.\n"); } printf("xpanstep :[%d]\n", fscinfo.xpanstep); printf("ypanstep :[%d]\n", fscinfo.ypanstep); printf("ywrapstep :[%d]\n", fscinfo.ywrapstep); printf("line_length :[%d]\n", fscinfo.line_length); printf("mmio_start :[%08lx]\n", fscinfo.mmio_start); printf("mmio_len :[%d]\n", fscinfo.mmio_len); printf("accel :[%d] ", fscinfo.accel); switch (fscinfo.accel) { case FB_ACCEL_NONE: printf("FB_ACCEL_NONE\n"); break; case FB_ACCEL_ATARIBLITT: printf("FB_ACCEL_ATARIBLITT\n"); break; case FB_ACCEL_AMIGABLITT: printf("FB_ACCEL_AMIGABLITT\n"); break; case FB_ACCEL_S3_TRIO64: printf("FB_ACCEL_S3_TRIO64\n"); break; case FB_ACCEL_NCR_77C32BLT: printf("FB_ACCEL_NCR_77C32BLT\n"); break; case FB_ACCEL_S3_VIRGE: printf("FB_ACCEL_S3_VIRGE\n"); break; case FB_ACCEL_ATI_MACH64GX: printf("FB_ACCEL_ATI_MACH64GX\n"); break; case FB_ACCEL_DEC_TGA: printf("FB_ACCEL_DEC_TGA\n"); break; case FB_ACCEL_ATI_MACH64CT: printf("FB_ACCEL_ATI_MACH64CT\n"); break; case FB_ACCEL_ATI_MACH64VT: printf("FB_ACCEL_ATI_MACH64VT\n"); break; case FB_ACCEL_ATI_MACH64GT: printf("FB_ACCEL_ATI_MACH64GT\n"); break; case FB_ACCEL_SUN_CREATOR: printf("FB_ACCEL_SUN_CREATOR\n"); break; case FB_ACCEL_SUN_CGSIX: printf("FB_ACCEL_SUN_CGSIX\n"); break; case FB_ACCEL_SUN_LEO: printf("FB_ACCEL_SUN_LEO\n"); break; case FB_ACCEL_IMS_TWINTURBO: printf("FB_ACCEL_IMS_TWINTURBO\n"); break; case FB_ACCEL_3DLABS_PERMEDIA2: printf("FB_ACCEL_3DLABS_PERMEDIA2\n"); break; case FB_ACCEL_MATROX_MGA2064W: printf("FB_ACCEL_MATROX_MGA2064W\n"); break; case FB_ACCEL_MATROX_MGA1064SG: printf("FB_ACCEL_MATROX_MGA1064SG\n"); break; case FB_ACCEL_MATROX_MGA2164W: printf("FB_ACCEL_MATROX_MGA2164W\n"); break; case FB_ACCEL_MATROX_MGA2164W_AGP: printf("FB_ACCEL_MATROX_MGA2164W_AGP\n"); break; case FB_ACCEL_MATROX_MGAG100: printf("FB_ACCEL_MATROX_MGAG100\n"); break; case FB_ACCEL_MATROX_MGAG200: printf("FB_ACCEL_MATROX_MGAG200\n"); break; case FB_ACCEL_SUN_CG14: printf("FB_ACCEL_SUN_CG14\n"); break; case FB_ACCEL_SUN_BWTWO: printf("FB_ACCEL_SUN_BWTWO\n"); break; case FB_ACCEL_SUN_CGTHREE: printf("FB_ACCEL_SUN_CGTHREE\n"); break; case FB_ACCEL_SUN_TCX: printf("FB_ACCEL_SUN_TCX\n"); break; default: printf("Unknown Visual mode.\n"); } return; } void fb_vscrn_disp(void) { if (is_open != TRUE) return; printf("vscinfo DUMP\n"); printf("xres :[%d]\n", vscinfo.xres); printf("yres :[%d]\n", vscinfo.yres); printf("xres_virtual :[%d]\n", vscinfo.xres_virtual); printf("yres_virtual :[%d]\n", vscinfo.yres_virtual); printf("xoffset :[%d]\n", vscinfo.xoffset); printf("yoffset :[%d]\n", vscinfo.yoffset); printf("bits_per_pixel :[%d]\n", vscinfo.bits_per_pixel); printf("grayscale :[%d]\n", vscinfo.grayscale); printf("red.offset :[%d]\n", vscinfo.red.offset); printf("red.length :[%d]\n", vscinfo.red.length); printf("red.msb_right :[%d]\n", vscinfo.red.msb_right); printf("green.offset :[%d]\n", vscinfo.green.offset); printf("green.length :[%d]\n", vscinfo.green.length); printf("green.msb_right :[%d]\n", vscinfo.green.msb_right); printf("blue.offset :[%d]\n", vscinfo.blue.offset); printf("blue.length :[%d]\n", vscinfo.blue.length); printf("blue.msb_right :[%d]\n", vscinfo.blue.msb_right); printf("transp.offset :[%d]\n", vscinfo.transp.offset); printf("transp.length :[%d]\n", vscinfo.transp.length); printf("transp.msb_right:[%d]\n", vscinfo.transp.msb_right); printf("nonstd :[%d]\n", vscinfo.nonstd); printf("activate :[%d]\n", vscinfo.activate); printf("height :[%d]\n", vscinfo.height); printf("width :[%d]\n", vscinfo.width); printf("accel_flags :[%d]\n", vscinfo.accel_flags); printf("pixclock :[%d]\n", vscinfo.pixclock); printf("left_margin :[%d]\n", vscinfo.left_margin); printf("right_margin :[%d]\n", vscinfo.right_margin); printf("upper_margin :[%d]\n", vscinfo.upper_margin); printf("lower_margin :[%d]\n", vscinfo.lower_margin); printf("hsync_len :[%d]\n", vscinfo.hsync_len); printf("vsync_len :[%d]\n", vscinfo.vsync_len); printf("sync :[%d]\n", vscinfo.sync); printf("vmode :[%d]\n", vscinfo.vmode); return; } /********* static functions **************/ /* * (struct fb_cmap)デバイスに依存しないカラーマップ情報 * * fb_cmap_create() 新規のカラーマップ情報 * fb_cmap_destroy() カラーマップ情報の破棄 * fb_cmap_disp() 情報の表示 * fb_cmap_get() 情報の獲得 * fb_cmap_set() 情報の設定 */ #define LUT_MAX (256) static struct fb_cmap * fb_cmap_create(struct fb_fix_screeninfo *fscinfo, struct fb_var_screeninfo *vscinfo) { struct fb_cmap *cmap; int cmaplen = LUT_MAX; /* カラーマップの存在チェック */ if (fscinfo->visual == FB_VISUAL_MONO01 || fscinfo->visual == FB_VISUAL_MONO10 || fscinfo->visual == FB_VISUAL_TRUECOLOR) return NULL; cmap = (struct fb_cmap *)malloc(sizeof(struct fb_cmap)); if (!cmap) { perror("cmap malloc error\n"); return (struct fb_cmap *)-1; } memset(cmap, 0, sizeof(struct fb_cmap)); /* 各分色が存在しそうだったらカラーマップ用の領域を確保 */ if (vscinfo->red.length) { cmap->red = (__u16 *) malloc(sizeof(__u16) * cmaplen); if (!cmap->red) { perror("red lut malloc error\n"); return (struct fb_cmap *)-1; } } if (vscinfo->green.length) { cmap->green = (__u16 *) malloc(sizeof(__u16) * cmaplen); if (!cmap->green) { if (vscinfo->red.length) free(cmap->red); perror("green lut malloc error\n"); return (struct fb_cmap *)-1; } } if (vscinfo->blue.length) { cmap->blue = (__u16 *) malloc(sizeof(__u16) * cmaplen); if (!cmap->blue) { if (vscinfo->red.length) free(cmap->red); if (vscinfo->green.length) free(cmap->green); perror("blue lut malloc error\n"); return (struct fb_cmap *)-1; } } if (vscinfo->transp.length) { cmap->transp = (__u16 *) malloc(sizeof(__u16) * cmaplen); if (!cmap->transp) { if (vscinfo->red.length) free(cmap->red); if (vscinfo->green.length) free(cmap->green); if (vscinfo->blue.length) free(cmap->blue); perror("transp lut malloc error\n"); return (struct fb_cmap *)-1; } } cmap->len = cmaplen; return cmap; } static void fb_cmap_destroy(struct fb_cmap *cmap) { if (cmap->red) free(cmap->red); if (cmap->green) free(cmap->green); if (cmap->blue) free(cmap->blue); if (cmap->transp) free(cmap->transp); free(cmap); } #if 0 static int fb_cmap_get(int fbfp, struct fb_cmap *cmap) { if (ioctl(fbfp, FBIOGETCMAP, cmap)) { perror("ioctl FBIOGETCMAP error\n"); return -1; } return 0; } static int fb_cmap_set(int fbfp, struct fb_cmap *cmap) { if (ioctl(fbfp, FBIOPUTCMAP, cmap)) { perror("ioctl FBIOPUTCMAP error\n"); return -1; } return 0; } #endif /* * フレームバッファに対するアクセス * * fb_mmap() フレームバッファのメモリ上へのマップ * fb_munmap() フレームバッファのメモリ上からのアンマップ */ static void * fb_mmap(int fbfp, struct fb_fix_screeninfo *scinfo) { void *buf; if ((buf = (unsigned char *) mmap(NULL, scinfo->smem_len, PROT_READ | PROT_WRITE, MAP_SHARED, fbfp, (off_t) 0)) == MAP_FAILED) { perror("mmap error"); return NULL; } return buf; } static int fb_munmap(void *buf, struct fb_fix_screeninfo *scinfo) { return munmap(buf, scinfo->smem_len); } /* * (struct fb_fix_screeninfo)デバイスに依存しない固定された情報 * * fb_fscrn_disp() 情報の表示 * fb_fscrn_get() 情報の獲得 */ static int fb_fscrn_get(int fbfp, struct fb_fix_screeninfo *scinfo) { if (ioctl(fbfp, FBIOGET_FSCREENINFO, scinfo)) { perror("ioctl FBIOGET_FSCREENINFO error\n"); return -1; } return 0; } /* * (struct fb_var_screeninfo)デバイスに依存しない変更可能な情報 * * fb_vscrn_disp() 情報の表示 * fb_vscrn_get() 情報の獲得 * fb_vscrn_set() 情報の設定 */ static int fb_vscrn_get(int fbfp, struct fb_var_screeninfo *scinfo) { if (ioctl(fbfp, FBIOGET_VSCREENINFO, scinfo)) { perror("ioctl FBIOGET_VSCREENINFO error\n"); return -1; } return 0; } #if 0 static int fb_vscrn_set(int fbfp, struct fb_var_screeninfo *scinfo) { if (ioctl(fbfp, FBIOPUT_VSCREENINFO, scinfo)) { perror("ioctl FBIOPUT_VSCREENINFO error\n"); return -1; } return 0; } #endif