/* vim: tabstop=4 shiftwidth=4 noexpandtab * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2014 Kevin Lange * * Bochs VBE / QEMU vga=std Graphics Driver */ #include #include #include #include #include #include #include #include #include #include #include #include "../userspace/gui/terminal/terminal-font.h" #define PREFERRED_VY 4096 #define PREFERRED_B 32 /* Generic (pre-set, 32-bit, linear frame buffer) */ static void graphics_install_preset(uint16_t, uint16_t); uint16_t lfb_resolution_x = 0; uint16_t lfb_resolution_y = 0; uint16_t lfb_resolution_b = 0; /* BOCHS / QEMU VBE Driver */ static void graphics_install_bochs(uint16_t, uint16_t); static void bochs_set_y_offset(uint16_t y); static uint16_t bochs_current_scroll(void); static pid_t display_change_recipient = 0; /* * Address of the linear frame buffer. * This can move, so it's a pointer instead of * #define. */ uint8_t * lfb_vid_memory = (uint8_t *)0xE0000000; static int ioctl_vid(fs_node_t * node, int request, void * argp) { /* TODO: Make this actually support multiple video devices */ switch (request) { case IO_VID_WIDTH: validate(argp); *((size_t *)argp) = lfb_resolution_x; return 0; case IO_VID_HEIGHT: validate(argp); *((size_t *)argp) = lfb_resolution_y; return 0; case IO_VID_DEPTH: validate(argp); *((size_t *)argp) = lfb_resolution_b; return 0; case IO_VID_ADDR: validate(argp); *((uintptr_t *)argp) = (uintptr_t)lfb_vid_memory; return 0; case IO_VID_SIGNAL: /* ioctl to register for a signal (vid device change? idk) on display change */ display_change_recipient = getpid(); return 0; default: return -1; /* TODO EINV... something or other */ } } static int vignette_at(int x, int y) { int amount = 0; int level = 100; if (x < level) amount += (level - x); if (x > lfb_resolution_x - level) amount += (level - (lfb_resolution_x - x)); if (y < level) amount += (level - y); if (y > lfb_resolution_y - level) amount += (level - (lfb_resolution_y - y)); return amount; } #define char_height 12 #define char_width 8 static void set_point(int x, int y, uint32_t value) { uint32_t * disp = (uint32_t *)lfb_vid_memory; uint32_t * cell = &disp[y * lfb_resolution_x + x]; *cell = value; } static void write_char(int x, int y, int val, uint32_t color) { if (val > 128) { val = 4; } uint8_t * c = number_font[val]; for (uint8_t i = 0; i < char_height; ++i) { for (uint8_t j = 0; j < char_width; ++j) { if (c[i] & (1 << (8-j))) { set_point(x+j,y+i,color); } } } } #define _RED(color) ((color & 0x00FF0000) / 0x10000) #define _GRE(color) ((color & 0x0000FF00) / 0x100) #define _BLU(color) ((color & 0x000000FF) / 0x1) #define _ALP(color) ((color & 0xFF000000) / 0x1000000) static void lfb_video_panic(char ** msgs) { /* Desaturate the display */ uint32_t * disp = (uint32_t *)lfb_vid_memory; for (int y = 0; y < lfb_resolution_y; y++) { for (int x = 0; x < lfb_resolution_x; x++) { uint32_t * cell = &disp[y * lfb_resolution_x + x]; int r = _RED(*cell); int g = _GRE(*cell); int b = _BLU(*cell); int l = 3 * r + 6 * g + 1 * b; r = (l) / 10; g = (l) / 10; b = (l) / 10; r = r > 255 ? 255 : r; g = g > 255 ? 255 : g; b = b > 255 ? 255 : b; int amount = vignette_at(x,y); r = (r - amount < 0) ? 0 : r - amount; g = (g - amount < 0) ? 0 : g - amount; b = (b - amount < 0) ? 0 : b - amount; *cell = 0xFF000000 + ((0xFF & r) * 0x10000) + ((0xFF & g) * 0x100) + ((0xFF & b) * 0x1); } } /* Now print the message, divided on line feeds, into the center of the screen */ int num_entries = 0; for (char ** m = msgs; *m; m++, num_entries++); int y = (lfb_resolution_y - (num_entries * char_height)) / 2; for (char ** message = msgs; *message; message++) { int x = (lfb_resolution_x - (strlen(*message) * char_width)) / 2; for (char * c = *message; *c; c++) { write_char(x+1, y+1, *c, 0xFF000000); write_char(x, y, *c, 0xFFFF0000); x += char_width; } y += char_height; } } static fs_node_t * lfb_video_device_create(void /* TODO */) { fs_node_t * fnode = malloc(sizeof(fs_node_t)); memset(fnode, 0x00, sizeof(fs_node_t)); sprintf(fnode->name, "fb0"); /* TODO */ fnode->length = lfb_resolution_x * lfb_resolution_y * (lfb_resolution_b / 8); fnode->flags = FS_BLOCKDEVICE; fnode->mask = 0660; fnode->ioctl = ioctl_vid; return fnode; } static void finalize_graphics(uint16_t x, uint16_t y, uint16_t b) { lfb_resolution_x = x; lfb_resolution_y = y; lfb_resolution_b = b; fs_node_t * fb_device = lfb_video_device_create(); vfs_mount("/dev/fb0", fb_device); debug_video_crash = lfb_video_panic; } /* Bochs support {{{ */ static uintptr_t current_scroll = 0; static void bochs_set_y_offset(uint16_t y) { outports(0x1CE, 0x9); outports(0x1CF, y); current_scroll = y; } static uint16_t bochs_current_scroll(void) { return current_scroll; } static void bochs_scan_pci(uint32_t device, uint16_t v, uint16_t d, void * extra) { if ((v == 0x1234 && d == 0x1111) || (v == 0x80EE && d == 0xBEEF)) { uintptr_t t = pci_read_field(device, PCI_BAR0, 4); if (t > 0) { *((uint8_t **)extra) = (uint8_t *)(t & 0xFFFFFFF0); } } } static void (*lfb_resolution_impl)(uint16_t,uint16_t) = NULL; void lfb_set_resolution(uint16_t x, uint16_t y) { if (lfb_resolution_impl) { lfb_resolution_impl(x,y); if (display_change_recipient) { send_signal(display_change_recipient, SIGWINEVENT); debug_print(WARNING, "Telling %d to SIGWINEVENT", display_change_recipient); } } } static void res_change_bochs(uint16_t x, uint16_t y) { outports(0x1CE, 0x04); outports(0x1CF, 0x00); /* Uh oh, here we go. */ outports(0x1CE, 0x01); outports(0x1CF, x); /* Set Y resolution to 768 */ outports(0x1CE, 0x02); outports(0x1CF, y); /* Set bpp to 32 */ outports(0x1CE, 0x03); outports(0x1CF, PREFERRED_B); /* Set Virtual Height to stuff */ outports(0x1CE, 0x07); outports(0x1CF, PREFERRED_VY); /* Turn it back on */ outports(0x1CE, 0x04); outports(0x1CF, 0x41); /* Read X to see if it's something else */ outports(0x1CE, 0x01); uint16_t new_x = inports(0x1CF); if (x != new_x) { x = new_x; } lfb_resolution_x = x; lfb_resolution_y = y; } static void graphics_install_bochs(uint16_t resolution_x, uint16_t resolution_y) { uint32_t vid_memsize; debug_print(NOTICE, "Setting up BOCHS/QEMU graphics controller..."); outports(0x1CE, 0x00); uint16_t i = inports(0x1CF); if (i < 0xB0C0 || i > 0xB0C6) { return; } outports(0x1CF, 0xB0C4); i = inports(0x1CF); res_change_bochs(resolution_x, resolution_y); resolution_x = lfb_resolution_x; /* may have changed */ pci_scan(bochs_scan_pci, -1, &lfb_vid_memory); lfb_resolution_impl = &res_change_bochs; if (lfb_vid_memory) { /* Enable the higher memory */ uintptr_t fb_offset = (uintptr_t)lfb_vid_memory; for (uintptr_t i = fb_offset; i <= fb_offset + 0xFF0000; i += 0x1000) { dma_frame(get_page(i, 1, kernel_directory), 0, 1, i); } goto mem_found; } else { /* XXX: Massive hack */ uint32_t * text_vid_mem = (uint32_t *)0xA0000; text_vid_mem[0] = 0xA5ADFACE; for (uintptr_t fb_offset = 0xE0000000; fb_offset < 0xFF000000; fb_offset += 0x01000000) { /* Enable the higher memory */ for (uintptr_t i = fb_offset; i <= fb_offset + 0xFF0000; i += 0x1000) { dma_frame(get_page(i, 1, kernel_directory), 0, 1, i); } /* Go find it */ for (uintptr_t x = fb_offset; x < fb_offset + 0xFF0000; x += 0x1000) { if (((uintptr_t *)x)[0] == 0xA5ADFACE) { lfb_vid_memory = (uint8_t *)x; goto mem_found; } } } } mem_found: outports(0x1CE, 0x0a); i = inports(0x1CF); if (i > 1) { vid_memsize = (uint32_t)i * 64 * 1024; } else { vid_memsize = inportl(0x1CF); } debug_print(WARNING, "Video memory size is 0x%x", vid_memsize); for (uintptr_t i = (uintptr_t)lfb_vid_memory; i <= (uintptr_t)lfb_vid_memory + vid_memsize; i += 0x1000) { dma_frame(get_page(i, 1, kernel_directory), 0, 1, i); } finalize_graphics(resolution_x, resolution_y, PREFERRED_B); } /* }}} end bochs support */ static void graphics_install_preset(uint16_t w, uint16_t h) { debug_print(NOTICE, "Graphics were pre-configured (thanks, bootloader!), locating video memory..."); uint16_t b = 32; /* If you are 24 bit, go away, we really do not support you. */ /* XXX: Massive hack */ uint32_t * herp = (uint32_t *)0xA0000; herp[0] = 0xA5ADFACE; herp[1] = 0xFAF42943; if (lfb_vid_memory) { for (uintptr_t i = (uintptr_t)lfb_vid_memory; i <= (uintptr_t)lfb_vid_memory + 0xFF0000; i += 0x1000) { dma_frame(get_page(i, 1, kernel_directory), 0, 1, i); } if (((uintptr_t *)lfb_vid_memory)[0] == 0xA5ADFACE && ((uintptr_t *)lfb_vid_memory)[1] == 0xFAF42943) { debug_print(INFO, "Was able to locate video memory at 0x%x without dicking around.", lfb_vid_memory); goto mem_found; } } for (int i = 2; i < 1000; i += 2) { herp[i] = 0xFF00FF00; herp[i+1] = 0x00FF00FF; } for (uintptr_t fb_offset = 0xE0000000; fb_offset < 0xFF000000; fb_offset += 0x01000000) { /* Enable the higher memory */ for (uintptr_t i = fb_offset; i <= fb_offset + 0xFF0000; i += 0x1000) { dma_frame(get_page(i, 1, kernel_directory), 0, 1, i); } /* Go find it */ for (uintptr_t x = fb_offset; x < fb_offset + 0xFF0000; x += 0x1000) { if (((uintptr_t *)x)[0] == 0xA5ADFACE && ((uintptr_t *)x)[1] == 0xFAF42943) { lfb_vid_memory = (uint8_t *)x; debug_print(INFO, "Had to futz around, but found video memory at 0x%x", lfb_vid_memory); goto mem_found; } } } for (int i = 2; i < 1000; i += 2) { herp[i] = 0xFF00FF00; herp[i+1] = 0xFF00FF00; } debug_print(WARNING, "Failed to locate video memory. This could end poorly."); mem_found: finalize_graphics(w,h,b); } #define SVGA_IO_BASE (vmware_io) #define SVGA_IO_MUL 1 #define SVGA_INDEX_PORT 0 #define SVGA_VALUE_PORT 1 #define SVGA_REG_ID 0 #define SVGA_REG_ENABLE 1 #define SVGA_REG_WIDTH 2 #define SVGA_REG_HEIGHT 3 #define SVGA_REG_BITS_PER_PIXEL 7 #define SVGA_REG_FB_START 13 static uint32_t vmware_io = 0; static void vmware_scan_pci(uint32_t device, uint16_t v, uint16_t d, void * extra) { if ((v == 0x15ad && d == 0x0405)) { uintptr_t t = pci_read_field(device, PCI_BAR0, 4); if (t > 0) { *((uint8_t **)extra) = (uint8_t *)(t & 0xFFFFFFF0); } } } static void vmware_write(int reg, int value) { outportl(SVGA_IO_MUL * SVGA_INDEX_PORT + SVGA_IO_BASE, reg); outportl(SVGA_IO_MUL * SVGA_VALUE_PORT + SVGA_IO_BASE, value); } static uint32_t vmware_read(int reg) { outportl(SVGA_IO_MUL * SVGA_INDEX_PORT + SVGA_IO_BASE, reg); return inportl(SVGA_IO_MUL * SVGA_VALUE_PORT + SVGA_IO_BASE); } static void vmware_set_mode(uint16_t w, uint16_t h) { vmware_write(SVGA_REG_ENABLE, 0); vmware_write(SVGA_REG_ID, 0); vmware_write(SVGA_REG_WIDTH, w); vmware_write(SVGA_REG_HEIGHT, h); vmware_write(SVGA_REG_BITS_PER_PIXEL, 32); vmware_write(SVGA_REG_ENABLE, 1); lfb_resolution_x = w; lfb_resolution_y = h; } static void graphics_install_vmware(uint16_t w, uint16_t h) { debug_print(WARNING, "Please note that the `vmware` display driver is experimental."); pci_scan(vmware_scan_pci, -1, &vmware_io); if (!vmware_io) { debug_print(ERROR, "No vmware device found?"); return; } else { debug_print(WARNING, "vmware io base: 0x%x", vmware_io); } vmware_write(SVGA_REG_ID, 0); vmware_write(SVGA_REG_WIDTH, w); vmware_write(SVGA_REG_HEIGHT, h); vmware_write(SVGA_REG_BITS_PER_PIXEL, 32); vmware_write(SVGA_REG_ENABLE, 1); lfb_resolution_impl = &vmware_set_mode; uint32_t fb_addr = vmware_read(SVGA_REG_FB_START); debug_print(WARNING, "vmware fb address: 0x%x", fb_addr); uint32_t fb_size = vmware_read(16); debug_print(WARNING, "vmware fb size: 0x%x", fb_size); lfb_vid_memory = (uint8_t *)fb_addr; uintptr_t fb_offset = (uintptr_t)lfb_vid_memory; for (uintptr_t i = fb_offset; i <= fb_offset + fb_size; i += 0x1000) { dma_frame(get_page(i, 1, kernel_directory), 0, 1, i); } finalize_graphics(w,h,32); } struct disp_mode { int16_t x; int16_t y; int set; }; static void auto_scan_pci(uint32_t device, uint16_t v, uint16_t d, void * extra) { struct disp_mode * mode = extra; if (mode->set) return; if ((v == 0x1234 && d == 0x1111) || (v == 0x80EE && d == 0xBEEF)) { mode->set = 1; graphics_install_bochs(mode->x, mode->y); } else if ((v == 0x15ad && d == 0x0405)) { mode->set = 1; graphics_install_vmware(mode->x, mode->y); } } static int init(void) { if (mboot_ptr->vbe_mode_info) { lfb_vid_memory = (uint8_t *)((vbe_info_t *)(mboot_ptr->vbe_mode_info))->physbase; } char * c; if ((c = args_value("vid"))) { debug_print(NOTICE, "Video mode requested: %s", c); char * arg = strdup(c); char * argv[10]; int argc = tokenize(arg, ",", argv); uint16_t x, y; if (argc < 3) { x = 1024; y = 768; } else { x = atoi(argv[1]); y = atoi(argv[2]); } if (!strcmp(argv[0], "auto")) { /* Attempt autodetection */ debug_print(WARNING, "Autodetect is in beta, this may not work."); struct disp_mode mode = {x,y,0}; pci_scan(auto_scan_pci, -1, &mode); if (!mode.set) { graphics_install_preset(x,y); } } else if (!strcmp(argv[0], "qemu")) { /* Bochs / Qemu Video Device */ graphics_install_bochs(x,y); } else if (!strcmp(argv[0],"preset")) { graphics_install_preset(x,y); } else if (!strcmp(argv[0],"vmware")) { graphics_install_vmware(x,y); } else { debug_print(WARNING, "Unrecognized video adapter: %s", argv[0]); } free(arg); } return 0; } static int fini(void) { return 0; } MODULE_DEF(lfbvideo, init, fini);