#include #include #include #include #include #include #include #include #include "sti.h" struct sti_struct default_sti = { SPIN_LOCK_UNLOCKED, }; static struct sti_font_flags default_font_flags = { STI_WAIT, 0, 0, NULL }; /* The colour indices used by STI are * 0 - Black * 1 - White * 2 - Red * 3 - Yellow/Brown * 4 - Green * 5 - Cyan * 6 - Blue * 7 - Magenta * * So we have the same colours as VGA (basically one bit each for R, G, B), * but have to translate them, anyway. */ static u8 col_trans[8] = { 0, 6, 4, 5, 2, 7, 3, 1 }; #define c_fg(sti, c) col_trans[((c>> 8) & 7)] #define c_bg(sti, c) col_trans[((c>>11) & 7)] #define c_index(sti, c) (c&0xff) static struct sti_init_flags default_init_flags = { STI_WAIT, 1, 1, 1, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 0, 0, NULL }; void sti_init_graph(struct sti_struct *sti) { struct sti_init_inptr_ext inptr_ext = { 0, { 0 }, 0, NULL }; struct sti_init_inptr inptr = { 3, STI_PTR(&inptr_ext) }; struct sti_init_outptr outptr = { 0 }; unsigned long flags; s32 ret; spin_lock_irqsave(&sti->lock, flags); ret = STI_CALL(sti->init_graph, &default_init_flags, &inptr, &outptr, sti->glob_cfg); spin_unlock_irqrestore(&sti->lock, flags); sti->text_planes = outptr.text_planes; } static struct sti_conf_flags default_conf_flags = { STI_WAIT, 0, NULL }; void sti_inq_conf(struct sti_struct *sti) { struct sti_conf_inptr inptr = { NULL }; struct sti_conf_outptr_ext outptr_ext = { future_ptr: NULL }; struct sti_conf_outptr outptr = { ext_ptr: STI_PTR(&outptr_ext) }; unsigned long flags; s32 ret; do { spin_lock_irqsave(&sti->lock, flags); ret = STI_CALL(sti->inq_conf, &default_conf_flags, &inptr, &outptr, sti->glob_cfg); spin_unlock_irqrestore(&sti->lock, flags); } while(ret == 1); } void sti_putc(struct sti_struct *sti, int c, int y, int x) { struct sti_font_inptr inptr = { (u32) sti->font, c_index(sti, c), c_fg(sti, c), c_bg(sti, c), x * sti_font_x(sti), y * sti_font_y(sti), NULL }; struct sti_font_outptr outptr = { 0, NULL }; s32 ret; unsigned long flags; do { spin_lock_irqsave(&sti->lock, flags); ret = STI_CALL(sti->font_unpmv, &default_font_flags, &inptr, &outptr, sti->glob_cfg); spin_unlock_irqrestore(&sti->lock, flags); } while(ret == 1); } static struct sti_blkmv_flags clear_blkmv_flags = { STI_WAIT, 1, 1, 0, 0, NULL }; void sti_set(struct sti_struct *sti, int src_y, int src_x, int height, int width, u8 color) { struct sti_blkmv_inptr inptr = { color, color, src_x, src_y , src_x, src_y , width, height, NULL }; struct sti_blkmv_outptr outptr = { 0, NULL }; s32 ret = 0; unsigned long flags; do { spin_lock_irqsave(&sti->lock, flags); ret = STI_CALL(sti->block_move, &clear_blkmv_flags, &inptr, &outptr, sti->glob_cfg); spin_unlock_irqrestore(&sti->lock, flags); } while(ret == 1); } void sti_clear(struct sti_struct *sti, int src_y, int src_x, int height, int width) { struct sti_blkmv_inptr inptr = { 0, 0, src_x * sti_font_x(sti), src_y * sti_font_y(sti), src_x * sti_font_x(sti), src_y * sti_font_y(sti), width * sti_font_x(sti), height* sti_font_y(sti), NULL }; struct sti_blkmv_outptr outptr = { 0, NULL }; s32 ret = 0; unsigned long flags; do { spin_lock_irqsave(&sti->lock, flags); ret = STI_CALL(sti->block_move, &clear_blkmv_flags, &inptr, &outptr, sti->glob_cfg); spin_unlock_irqrestore(&sti->lock, flags); } while(ret == 1); } static struct sti_blkmv_flags default_blkmv_flags = { STI_WAIT, 0, 0, 0, 0, NULL }; void sti_bmove(struct sti_struct *sti, int src_y, int src_x, int dst_y, int dst_x, int height, int width) { struct sti_blkmv_inptr inptr = { 0, 0, src_x * sti_font_x(sti), src_y * sti_font_y(sti), dst_x * sti_font_x(sti), dst_y * sti_font_y(sti), width * sti_font_x(sti), height* sti_font_y(sti), NULL }; struct sti_blkmv_outptr outptr = { 0, NULL }; s32 ret = 0; unsigned long flags; do { spin_lock_irqsave(&sti->lock, flags); ret = STI_CALL(sti->block_move, &default_blkmv_flags, &inptr, &outptr, sti->glob_cfg); spin_unlock_irqrestore(&sti->lock, flags); } while(ret == 1); } static void __init sti_rom_copy(unsigned long base, unsigned long offset, unsigned long count, void *dest) { void *savedest = dest; int savecount = count; while(count >= 4) { count -= 4; *(u32 *)dest = gsc_readl(base + offset); offset += 4; dest += 4; } while(count) { count--; *(u8 *)dest = gsc_readb(base + offset); offset++; dest++; } __flush_dcache_range((unsigned long) dest, count); __flush_icache_range((unsigned long) dest, count); } static void dump_sti_rom(struct sti_rom *rom) { printk("STI word mode ROM type %d\n", rom->type[3]); printk(" supports %d monitors\n", rom->num_mons); printk(" conforms to STI ROM spec revision %d.%02x\n", rom->revno[0] >> 4, rom->revno[0] & 0x0f); printk(" graphics id %02x%02x%02x%02x%02x%02x%02x%02x\n", rom->graphics_id[0], rom->graphics_id[1], rom->graphics_id[2], rom->graphics_id[3], rom->graphics_id[4], rom->graphics_id[5], rom->graphics_id[6], rom->graphics_id[7]); printk(" font start %08x\n", rom->font_start); printk(" region list %08x\n", rom->region_list); printk(" init_graph %08x\n", rom->init_graph); printk(" alternate code type %d\n", rom->alt_code_type); } static void __init sti_cook_fonts(struct sti_cooked_rom *cooked_rom, struct sti_rom *raw_rom) { struct sti_rom_font *raw_font; struct sti_cooked_font *cooked_font; struct sti_rom_font *font_start; cooked_font = kmalloc(sizeof *cooked_font, GFP_KERNEL); if(!cooked_font) return; cooked_rom->font_start = cooked_font; raw_font = ((void *)raw_rom) + (raw_rom->font_start); font_start = raw_font; cooked_font->raw = raw_font; while(raw_font->next_font) { raw_font = ((void *)font_start) + (raw_font->next_font); cooked_font->next_font = kmalloc(sizeof *cooked_font, GFP_KERNEL); if(!cooked_font->next_font) return; cooked_font = cooked_font->next_font; cooked_font->raw = raw_font; } cooked_font->next_font = NULL; } static int font_index, font_height, font_width; static int __init sti_font_setup(char *str) { char *x; /* we accept sti_font=10x20, sti_font=10*20 or sti_font=7 style * command lines. */ if((x = strchr(str, 'x')) || (x = strchr(str, '*'))) { font_height = simple_strtoul(str, NULL, 0); font_width = simple_strtoul(x+1, NULL, 0); } else { font_index = simple_strtoul(str, NULL, 0); } return 0; } __setup("sti_font=", sti_font_setup); static int __init sti_search_font(struct sti_cooked_rom *rom, int height, int width) { struct sti_cooked_font *font; int i = 0; for(font = rom->font_start; font; font = font->next_font, i++) { if((font->raw->width == width) && (font->raw->height == height)) return i; } return 0; } static struct sti_cooked_font * __init sti_select_font(struct sti_cooked_rom *rom) { struct sti_cooked_font *font; int i; if(font_width && font_height) font_index = sti_search_font(rom, font_height, font_width); for(font = rom->font_start, i = font_index; font && (i > 0); font = font->next_font, i--); if(font) return font; else return rom->font_start; } static void __init sti_dump_globcfg_ext(struct sti_glob_cfg_ext *cfg) { printk( "monitor %d\n" "in friendly mode: %d\n" "power consumption %d watts\n" "freq ref %d\n" "sti_mem_addr %p\n", cfg->curr_mon, cfg->friendly_boot, cfg->power, cfg->freq_ref, cfg->sti_mem_addr); } void __init sti_dump_globcfg(struct sti_glob_cfg *glob_cfg) { printk( "%d text planes\n" "%4d x %4d screen resolution\n" "%4d x %4d offscreen\n" "%4d x %4d layout\n" "regions at %08x %08x %08x %08x\n" "regions at %08x %08x %08x %08x\n" "reent_lvl %d\n" "save_addr %p\n", glob_cfg->text_planes, glob_cfg->onscreen_x, glob_cfg->onscreen_y, glob_cfg->offscreen_x, glob_cfg->offscreen_y, glob_cfg->total_x, glob_cfg->total_y, glob_cfg->region_ptrs[0], glob_cfg->region_ptrs[1], glob_cfg->region_ptrs[2], glob_cfg->region_ptrs[3], glob_cfg->region_ptrs[4], glob_cfg->region_ptrs[5], glob_cfg->region_ptrs[6], glob_cfg->region_ptrs[7], glob_cfg->reent_lvl, glob_cfg->save_addr); sti_dump_globcfg_ext(PTR_STI(glob_cfg->ext_ptr)); } static void __init sti_init_glob_cfg(struct sti_struct *sti, unsigned long hpa, unsigned long rom_address) { struct sti_glob_cfg *glob_cfg; struct sti_glob_cfg_ext *glob_cfg_ext; void *save_addr; void *sti_mem_addr; glob_cfg = kmalloc(sizeof *sti->glob_cfg, GFP_KERNEL); glob_cfg_ext = kmalloc(sizeof *glob_cfg_ext, GFP_KERNEL); save_addr = kmalloc(1024 /*XXX*/, GFP_KERNEL); sti_mem_addr = kmalloc(1024, GFP_KERNEL); if((!glob_cfg) || (!glob_cfg_ext) || (!save_addr) || (!sti_mem_addr)) return; memset(glob_cfg, 0, sizeof *glob_cfg); memset(glob_cfg_ext, 0, sizeof *glob_cfg_ext); memset(save_addr, 0, 1024); memset(sti_mem_addr, 0, 1024); glob_cfg->ext_ptr = STI_PTR(glob_cfg_ext); glob_cfg->save_addr = STI_PTR(save_addr); glob_cfg->region_ptrs[0] = ((sti->regions[0]>>18)<<12) + rom_address; glob_cfg->region_ptrs[1] = ((sti->regions[1]>>18)<<12) + hpa; glob_cfg->region_ptrs[2] = ((sti->regions[2]>>18)<<12) + hpa; glob_cfg->region_ptrs[3] = ((sti->regions[3]>>18)<<12) + hpa; glob_cfg->region_ptrs[4] = ((sti->regions[4]>>18)<<12) + hpa; glob_cfg->region_ptrs[5] = ((sti->regions[5]>>18)<<12) + hpa; glob_cfg->region_ptrs[6] = ((sti->regions[6]>>18)<<12) + hpa; glob_cfg->region_ptrs[7] = ((sti->regions[7]>>18)<<12) + hpa; glob_cfg_ext->sti_mem_addr = STI_PTR(sti_mem_addr); sti->glob_cfg = STI_PTR(glob_cfg); } /* address is a pointer to a word mode or pci rom */ static struct sti_struct * __init sti_read_rom(unsigned long address) { struct sti_struct *ret = NULL; struct sti_cooked_rom *cooked = NULL; struct sti_rom *raw = NULL; unsigned long size; ret = &default_sti; if(!ret) goto out_err; cooked = kmalloc(sizeof *cooked, GFP_KERNEL); raw = kmalloc(sizeof *raw, GFP_KERNEL); if(!(raw && cooked)) goto out_err; /* reallocate raw */ sti_rom_copy(address, 0, sizeof *raw, raw); dump_sti_rom(raw); size = raw->last_addr; /* kfree(raw); */ raw = kmalloc(size, GFP_KERNEL); if(!raw) goto out_err; sti_rom_copy(address, 0, size, raw); sti_cook_fonts(cooked, raw); #if 0 sti_cook_regions(cooked, raw); sti_cook_functions(cooked, raw); #endif if(raw->region_list) { ret->regions = kmalloc(32, GFP_KERNEL); /* FIXME */ memcpy(ret->regions, ((void *)raw)+raw->region_list, 32); } address = virt_to_phys(raw); ret->font_unpmv = address+(raw->font_unpmv & 0x03ffffff); ret->block_move = address+(raw->block_move & 0x03ffffff); ret->init_graph = address+(raw->init_graph & 0x03ffffff); ret->inq_conf = address+(raw->inq_conf & 0x03ffffff); ret->rom = cooked; ret->rom->raw = raw; ret->font = (struct sti_rom_font *) virt_to_phys(sti_select_font(ret->rom)->raw); return ret; out_err: if(raw) kfree(raw); if(cooked) kfree(cooked); return NULL; } static struct sti_struct * __init sti_try_rom(unsigned long address, unsigned long hpa) { struct sti_struct *sti = NULL; u16 sig; test_rom: /* if we can't read the ROM, bail out early. Not being able * to read the hpa is okay, for romless sti */ if(pdc_add_valid((void*)address)) return NULL; printk("found potential STI ROM at %08lx\n", address); sig = le16_to_cpu(gsc_readw(address)); if((sig==0x55aa) || (sig==0xaa55)) { address += le32_to_cpu(gsc_readl(address+8)); printk("sig %04x, PCI STI ROM at %08lx\n", sig, address); goto test_rom; } if((sig&0xff) == 0x01) { printk("STI byte mode ROM at %08lx, ignored\n", address); sti = NULL; } if(sig == 0x0303) { printk("STI word mode ROM at %08lx\n", address); sti = sti_read_rom(address); } if (!sti) return NULL; /* this is hacked. We need a better way to find out the HPA for * romless STI (eg search for the graphics devices we know about * by sversion) */ if (!pdc_add_valid((void *)0xf5000000)) printk("f4000000 g\n"); if (!pdc_add_valid((void *)0xf7000000)) printk("f6000000 g\n"); if (!pdc_add_valid((void *)0xf9000000)) printk("f8000000 g\n"); if (!pdc_add_valid((void *)0xfb000000)) printk("fa000000 g\n"); sti_init_glob_cfg(sti, hpa, address); sti_init_graph(sti); sti_inq_conf(sti); sti_dump_globcfg(PTR_STI(sti->glob_cfg)); return sti; } static unsigned long sti_address; static unsigned long sti_hpa; /* XXX: should build a list of STI ROMs */ struct sti_struct * __init sti_init_roms(void) { struct sti_struct *tmp = NULL, *sti = NULL; /* handle the command line */ if (sti_address && sti_hpa) { return sti_try_rom(sti_address, sti_hpa); } /* 712, 715, some other boxes don't have a separate STI ROM, * but use part of the regular flash */ if (PAGE0->proc_sti) { printk("STI ROM from PDC at %08x\n", PAGE0->proc_sti); if (!pdc_add_valid((void *)0xf9000000)) sti = sti_try_rom(PAGE0->proc_sti, 0xf8000000); else if (!pdc_add_valid((void *)0xf5000000)) sti = sti_try_rom(PAGE0->proc_sti, 0xf4000000); else if (!pdc_add_valid((void *)0xf7000000)) sti = sti_try_rom(PAGE0->proc_sti, 0xf6000000); else if (!pdc_add_valid((void *)0xfb000000)) sti = sti_try_rom(PAGE0->proc_sti, 0xfa000000); } /* standard locations for GSC graphic devices */ if (!pdc_add_valid((void *)0xf4000000)) tmp = sti_try_rom(0xf4000000, 0xf4000000); sti = tmp ? tmp : sti; if (!pdc_add_valid((void *)0xf6000000)) tmp = sti_try_rom(0xf6000000, 0xf6000000); sti = tmp ? tmp : sti; if (!pdc_add_valid((void *)0xf8000000)) tmp = sti_try_rom(0xf8000000, 0xf8000000); sti = tmp ? tmp : sti; if (!pdc_add_valid((void *)0xfa000000)) tmp = sti_try_rom(0xfa000000, 0xfa000000); sti = tmp ? tmp : sti; return sti; } static int __init sti_setup(char *str) { char *end; if(strcmp(str, "pdc") == 0) { sti_address = PAGE0->proc_sti; return 1; } else { sti_address = simple_strtoul(str, &end, 16); if((end == str) || (sti_address < 0xf0000000)) { sti_address = 0; return 0; } sti_hpa = sti_address; return 1; } return 0; } __setup("sti=", sti_setup);