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unsigned char ucBoardRev; unsigned char ucBoardRevMaj, ucBoardRevMin; extern unsigned long mc146818_get_rtc_time(void); extern int mc146818_set_rtc_time(unsigned long nowtime); extern unsigned long mk48t59_get_rtc_time(void); extern int mk48t59_set_rtc_time(unsigned long nowtime); extern unsigned char prep_nvram_read_val(int addr); extern void prep_nvram_write_val(int addr, unsigned char val); extern unsigned char rs_nvram_read_val(int addr); extern void rs_nvram_write_val(int addr, unsigned char val); extern int pckbd_setkeycode(unsigned int scancode, unsigned int keycode); extern int pckbd_getkeycode(unsigned int scancode); extern int pckbd_translate(unsigned char scancode, unsigned char *keycode, char raw_mode); extern char pckbd_unexpected_up(unsigned char keycode); extern void pckbd_leds(unsigned char leds); extern void pckbd_init_hw(void); extern unsigned char pckbd_sysrq_xlate[128]; extern void prep_setup_pci_ptrs(void); extern char saved_command_line[256]; int _prep_type; #define cached_21 (((char *)(ppc_cached_irq_mask))[3]) #define cached_A1 (((char *)(ppc_cached_irq_mask))[2]) /* for the mac fs */ kdev_t boot_dev; /* used in nasty hack for sound - see prep_setup_arch() -- Cort */ long ppc_cs4232_dma, ppc_cs4232_dma2; unsigned long empty_zero_page[1024]; extern PTE *Hash, *Hash_end; extern unsigned long Hash_size, Hash_mask; extern int probingmem; extern unsigned long loops_per_sec; #ifdef CONFIG_BLK_DEV_RAM extern int rd_doload; /* 1 = load ramdisk, 0 = don't load */ extern int rd_prompt; /* 1 = prompt for ramdisk, 0 = don't prompt */ extern int rd_image_start; /* starting block # of image */ #endif #ifdef CONFIG_VGA_CONSOLE unsigned long vgacon_remap_base; #endif __prep int prep_get_cpuinfo(char *buffer) { extern char *Motherboard_map_name; int len, i; #ifdef __SMP__ #define CD(X) (cpu_data[n].X) #else #define CD(X) (X) #endif len = sprintf(buffer,"machine\t\t: PReP %s\n",Motherboard_map_name); switch ( _prep_type ) { case _PREP_IBM: if ((*(unsigned char *)0x8000080c) & (1<<6)) len += sprintf(buffer+len,"Upgrade CPU\n"); len += sprintf(buffer+len,"L2\t\t: "); if ((*(unsigned char *)0x8000080c) & (1<<7)) { len += sprintf(buffer+len,"not present\n"); goto no_l2; } len += sprintf(buffer+len,"%sKb,", (((*(unsigned char *)0x8000080d)>>2)&1)?"512":"256"); len += sprintf(buffer+len,"%sync\n", ((*(unsigned char *)0x8000080d)>>7) ? "":"a"); break; case _PREP_Motorola: len += sprintf(buffer+len,"L2\t\t: "); switch(*((unsigned char *)CACHECRBA) & L2CACHE_MASK) { case L2CACHE_512KB: len += sprintf(buffer+len,"512Kb"); break; case L2CACHE_256KB: len += sprintf(buffer+len,"256Kb"); break; case L2CACHE_1MB: len += sprintf(buffer+len,"1MB"); break; case L2CACHE_NONE: len += sprintf(buffer+len,"none\n"); goto no_l2; break; default: len += sprintf(buffer+len, "%x\n", *((unsigned char *)CACHECRBA)); } len += sprintf(buffer+len,",parity %s", (*((unsigned char *)CACHECRBA) & L2CACHE_PARITY) ? "enabled" : "disabled"); len += sprintf(buffer+len, " SRAM:"); switch ( ((*((unsigned char *)CACHECRBA) & 0xf0) >> 4) & ~(0x3) ) { case 1: len += sprintf(buffer+len, "synchronous,parity,flow-through\n"); break; case 2: len += sprintf(buffer+len,"asynchronous,no parity\n"); break; case 3: len += sprintf(buffer+len,"asynchronous,parity\n"); break; default:len += sprintf(buffer+len, "synchronous,pipelined,no parity\n"); break; } break; default: break; } no_l2: if ( res->ResidualLength == 0 ) return len; /* print info about SIMMs */ len += sprintf(buffer+len,"simms\t\t: "); for ( i = 0 ; (res->ActualNumMemories) && (i < MAX_MEMS) ; i++ ) { if ( res->Memories[i].SIMMSize != 0 ) len += sprintf(buffer+len,"%d:%ldM ",i, (res->Memories[i].SIMMSize > 1024) ? res->Memories[i].SIMMSize>>20 : res->Memories[i].SIMMSize); } len += sprintf(buffer+len,"\n"); return len; } __initfunc(void prep_setup_arch(unsigned long * memory_start_p, unsigned long * memory_end_p)) { extern char cmd_line[]; unsigned char reg; unsigned char ucMothMemType; unsigned char ucEquipPres1; /* init to some ~sane value until calibrate_delay() runs */ loops_per_sec = 50000000; /* Set up floppy in PS/2 mode */ outb(0x09, SIO_CONFIG_RA); reg = inb(SIO_CONFIG_RD); reg = (reg & 0x3F) | 0x40; outb(reg, SIO_CONFIG_RD); outb(reg, SIO_CONFIG_RD); /* Have to write twice to change! */ /* * We need to set up the NvRAM access routines early as prep_init * has yet to be called */ ppc_md.nvram_read_val = prep_nvram_read_val; ppc_md.nvram_write_val = prep_nvram_write_val; /* we should determine this according to what we find! -- Cort */ switch ( _prep_type ) { case _PREP_IBM: /* Enable L2. Assume we don't need to flush -- Cort*/ *(unsigned char *)(0x8000081c) |= 3; ROOT_DEV = to_kdev_t(0x0301); /* hda1 */ break; case _PREP_Motorola: /* Enable L2. Assume we don't need to flush -- Cort*/ *(unsigned char *)(0x8000081c) |= 3; ROOT_DEV = to_kdev_t(0x0801); /* sda1 */ break; case _PREP_Radstone: ROOT_DEV = to_kdev_t(0x0802); /* sda2 */ /* * Determine system type */ ucMothMemType=inb(0x866); ucEquipPres1=inb(0x80c); ucSystemType=((ucMothMemType&0x03)<<1) | ((ucEquipPres1&0x80)>>7); ucSystemType^=7; /* * Determine board revision for use by * rev. specific code */ ucBoardRev=inb(0x854); ucBoardRevMaj=ucBoardRev>>5; ucBoardRevMin=ucBoardRev&0x1f; /* * Most Radstone boards have memory mapped NvRAM */ if((ucSystemType==RS_SYS_TYPE_PPC1) && (ucBoardRevMaj<5)) { ppc_md.nvram_read_val = prep_nvram_read_val; ppc_md.nvram_write_val = prep_nvram_write_val; } else { ppc_md.nvram_read_val = rs_nvram_read_val; ppc_md.nvram_write_val = rs_nvram_write_val; } break; } /* Read in NVRAM data */ init_prep_nvram(); /* if no bootargs, look in NVRAM */ if ( cmd_line[0] == '\0' ) { char *bootargs; bootargs = prep_nvram_get_var("bootargs"); if (bootargs != NULL) { strcpy(cmd_line, bootargs); /* again.. */ strcpy(saved_command_line, cmd_line); } } printk("Boot arguments: %s\n", cmd_line); #ifdef CONFIG_SOUND_CS4232 /* * setup proper values for the cs4232 driver so we don't have * to recompile for the motorola or ibm workstations sound systems. * This is a really nasty hack, but unless we change the driver * it's the only way to support both addrs from one binary. * -- Cort */ if ( is_prep ) { extern struct card_info snd_installed_cards[]; struct card_info *snd_ptr; for ( snd_ptr = snd_installed_cards; snd_ptr < &snd_installed_cards[num_sound_cards]; snd_ptr++ ) { if ( snd_ptr->card_type == SNDCARD_CS4232 ) { if ( _prep_type == _PREP_Motorola ) { snd_ptr->config.io_base = 0x830; snd_ptr->config.irq = 10; snd_ptr->config.dma = ppc_cs4232_dma = 6; snd_ptr->config.dma2 = ppc_cs4232_dma2 = 7; } if ( _prep_type == _PREP_IBM ) { snd_ptr->config.io_base = 0x530; snd_ptr->config.irq = 5; snd_ptr->config.dma = ppc_cs4232_dma = 1; /* this is wrong - but leave it for now */ snd_ptr->config.dma2 = ppc_cs4232_dma2 = 7; } } } } #endif /* CONFIG_SOUND_CS4232 */ /*print_residual_device_info();*/ request_region(0x20,0x20,"pic1"); request_region(0xa0,0x20,"pic2"); request_region(0x00,0x20,"dma1"); request_region(0x40,0x20,"timer"); request_region(0x80,0x10,"dma page reg"); request_region(0xc0,0x20,"dma2"); raven_init(); #ifdef CONFIG_VGA_CONSOLE /* remap the VGA memory */ vgacon_remap_base = 0xf0000000; /*vgacon_remap_base = ioremap(0xc0000000, 0xba000);*/ conswitchp = &vga_con; #endif } /* * Determine the decrementer frequency from the residual data * This allows for a faster boot as we do not need to calibrate the * decrementer against another clock. This is important for embedded systems. */ __initfunc(void prep_res_calibrate_decr(void)) { int freq, divisor; freq = res->VitalProductData.ProcessorBusHz; divisor = 4; printk("time_init: decrementer frequency = %d/%d\n", freq, divisor); decrementer_count = freq / HZ / divisor; count_period_num = divisor; count_period_den = freq / 1000000; } /* * Uses the on-board timer to calibrate the on-chip decrementer register * for prep systems. On the pmac the OF tells us what the frequency is * but on prep we have to figure it out. * -- Cort */ int calibrate_done = 0; volatile int *done_ptr = &calibrate_done; __initfunc(void prep_calibrate_decr_handler(int irq, void *dev, struct pt_regs *regs)) { unsigned long freq, divisor; static unsigned long t1 = 0, t2 = 0; if ( !t1 ) t1 = get_dec(); else if (!t2) { t2 = get_dec(); t2 = t1-t2; /* decr's in 1/HZ */ t2 = t2*HZ; /* # decrs in 1s - thus in Hz */ freq = t2 * 60; /* try to make freq/1e6 an integer */ divisor = 60; printk("time_init: decrementer frequency = %lu/%lu (%luMHz)\n", freq, divisor,t2>>20); decrementer_count = freq / HZ / divisor; count_period_num = divisor; count_period_den = freq / 1000000; *done_ptr = 1; } } __initfunc(void prep_calibrate_decr(void)) { unsigned long flags; save_flags(flags); #define TIMER0_COUNT 0x40 #define TIMER_CONTROL 0x43 /* set timer to periodic mode */ outb_p(0x34,TIMER_CONTROL);/* binary, mode 2, LSB/MSB, ch 0 */ /* set the clock to ~100 Hz */ outb_p(LATCH & 0xff , TIMER0_COUNT); /* LSB */ outb(LATCH >> 8 , TIMER0_COUNT); /* MSB */ if (request_irq(0, prep_calibrate_decr_handler, 0, "timer", NULL) != 0) panic("Could not allocate timer IRQ!"); __sti(); while ( ! *done_ptr ) /* nothing */; /* wait for calibrate */ restore_flags(flags); free_irq( 0, NULL); } /* We use the NVRAM RTC to time a second to calibrate the decrementer. */ __initfunc(void mk48t59_calibrate_decr(void)) { unsigned long freq, divisor; unsigned long t1, t2; unsigned char save_control; long i; unsigned char sec; /* Make sure the time is not stopped. */ save_control = ppc_md.nvram_read_val(MK48T59_RTC_CONTROLB); ppc_md.nvram_write_val(MK48T59_RTC_CONTROLA, (save_control & (~MK48T59_RTC_CB_STOP))); /* Now make sure the read bit is off so the value will change. */ save_control = ppc_md.nvram_read_val(MK48T59_RTC_CONTROLA); save_control &= ~MK48T59_RTC_CA_READ; ppc_md.nvram_write_val(MK48T59_RTC_CONTROLA, save_control); /* Read the seconds value to see when it changes. */ sec = ppc_md.nvram_read_val(MK48T59_RTC_SECONDS); for (i = 0 ; i < 1000000 ; i++) { /* may take up to 1 second... */ if (ppc_md.nvram_read_val(MK48T59_RTC_SECONDS) != sec) { break; } } t1 = get_dec(); sec = ppc_md.nvram_read_val(MK48T59_RTC_SECONDS); for (i = 0 ; i < 1000000 ; i++) { /* Should take up 1 second... */ if (ppc_md.nvram_read_val(MK48T59_RTC_SECONDS) != sec) { break; } } t2 = t1 - get_dec(); freq = t2 * 60; /* try to make freq/1e6 an integer */ divisor = 60; printk("time_init: decrementer frequency = %lu/%lu (%luMHz)\n", freq, divisor,t2>>20); decrementer_count = freq / HZ / divisor; count_period_num = divisor; count_period_den = freq / 1000000; } void prep_restart(char *cmd) { unsigned long i = 10000; _disable_interrupts(); /* set exception prefix high - to the prom */ _nmask_and_or_msr(0, MSR_IP); /* make sure bit 0 (reset) is a 0 */ outb( inb(0x92) & ~1L , 0x92 ); /* signal a reset to system control port A - soft reset */ outb( inb(0x92) | 1 , 0x92 ); while ( i != 0 ) i++; panic("restart failed\n"); } /* * This function will restart a board regardless of port 92 functionality */ void prep_direct_restart(char *cmd) { u32 jumpaddr=0xfff00100; u32 defaultmsr=MSR_IP; /* * This will ALWAYS work regardless of port 92 * functionality */ _disable_interrupts(); __asm__ __volatile__("\n\ mtspr 26, %1 /* SRR0 */ mtspr 27, %0 /* SRR1 */ rfi" : : "r" (defaultmsr), "r" (jumpaddr)); /* * Not reached */ } void prep_halt(void) { unsigned long flags; _disable_interrupts(); /* set exception prefix high - to the prom */ save_flags( flags ); restore_flags( flags|MSR_IP ); /* make sure bit 0 (reset) is a 0 */ outb( inb(0x92) & ~1L , 0x92 ); /* signal a reset to system control port A - soft reset */ outb( inb(0x92) | 1 , 0x92 ); while ( 1 ) ; /* * Not reached */ } void prep_power_off(void) { prep_halt(); } int prep_setup_residual(char *buffer) { int len = 0; /* PREP's without residual data will give incorrect values here */ len += sprintf(len+buffer, "clock\t\t: "); if ( res->ResidualLength ) len += sprintf(len+buffer, "%ldMHz\n", (res->VitalProductData.ProcessorHz > 1024) ? res->VitalProductData.ProcessorHz>>20 : res->VitalProductData.ProcessorHz); else len += sprintf(len+buffer, "???\n"); return len; } u_int prep_irq_cannonicalize(u_int irq) { if (irq == 2) { return 9; } else { return irq; } } void prep_do_IRQ(struct pt_regs *regs, int cpu, int isfake) { int irq; if ( (irq = i8259_irq(0)) < 0 ) { printk(KERN_DEBUG "Bogus interrupt from PC = %lx\n", regs->nip); ppc_spurious_interrupts++; return; } ppc_irq_dispatch_handler( regs, irq ); } __initfunc(void prep_init_IRQ(void)) { int i; if (OpenPIC != NULL) { for ( i = 16 ; i < 36 ; i++ ) irq_desc[i].ctl = &open_pic; openpic_init(1); } for ( i = 0 ; i < 16 ; i++ ) irq_desc[i].ctl = &i8259_pic; i8259_init(); #ifdef __SMP__ request_irq(openpic_to_irq(OPENPIC_VEC_SPURIOUS), openpic_ipi_action, 0, "IPI0", 0); #endif /* __SMP__ */ } #if defined(CONFIG_BLK_DEV_IDE) || defined(CONFIG_BLK_DEV_IDE_MODULE) /* * IDE stuff. */ void prep_ide_insw(ide_ioreg_t port, void *buf, int ns) { ide_insw(((port)+(_IO_BASE)), buf, ns); } void prep_ide_outsw(ide_ioreg_t port, void *buf, int ns) { ide_outsw(((port)+_IO_BASE), buf, ns); } int prep_ide_default_irq(ide_ioreg_t base) { if ( _prep_type == _PREP_IBM ) { switch (base) { case 0x1f0: return 13; case 0x170: return 13; case 0x1e8: return 11; case 0x168: return 10; default: return 0; } } else { switch (base) { case 0x1f0: return 14; case 0x170: return 14; case 0x1e8: return 15; case 0x168: return 15; default: return 0; } } } ide_ioreg_t prep_ide_default_io_base(int index) { switch (index) { case 0: return 0x1f0; case 1: return 0x170; case 2: return 0x1e8; case 3: return 0x168; default: return 0; } } int prep_ide_check_region(ide_ioreg_t from, unsigned int extent) { return check_region(from, extent); } void prep_ide_request_region(ide_ioreg_t from, unsigned int extent, const char *name) { request_region(from, extent, name); } void prep_ide_release_region(ide_ioreg_t from, unsigned int extent) { release_region(from, extent); } void prep_ide_fix_driveid(struct hd_driveid *id) { ppc_generic_ide_fix_driveid(id); } __initfunc(void prep_ide_init_hwif_ports (ide_ioreg_t *p, ide_ioreg_t base, int *irq)) { ide_ioreg_t port = base; int i = 8; while (i--) *p++ = port++; *p++ = base + 0x206; if (irq != NULL) *irq = 0; } #endif unsigned long *MotSave_SmpIar; unsigned char *MotSave_CpusState[2]; __initfunc(void prep_init(unsigned long r3, unsigned long r4, unsigned long r5, unsigned long r6, unsigned long r7)) { RESIDUAL *old_res = (RESIDUAL *)(r3 + KERNELBASE); /* make a copy of residual data */ if ( r3 ) { memcpy((void *)res,(void *)(r3+KERNELBASE), sizeof(RESIDUAL)); /* These need to be saved for the Motorola Prep * MVME4600 and Dual MTX boards. */ MotSave_SmpIar = &old_res->VitalProductData.SmpIar; MotSave_CpusState[0] = &old_res->Cpus[0].CpuState; MotSave_CpusState[1] = &old_res->Cpus[1].CpuState; } isa_io_base = PREP_ISA_IO_BASE; isa_mem_base = PREP_ISA_MEM_BASE; pci_dram_offset = PREP_PCI_DRAM_OFFSET; ISA_DMA_THRESHOLD = 0x00ffffff; DMA_MODE_READ = 0x44; DMA_MODE_WRITE = 0x48; /* figure out what kind of prep workstation we are */ if ( res->ResidualLength != 0 ) { if ( !strncmp(res->VitalProductData.PrintableModel,"IBM",3) ) _prep_type = _PREP_IBM; else if (!strncmp(res->VitalProductData.PrintableModel, "Radstone",8)) { extern char *Motherboard_map_name; _prep_type = _PREP_Radstone; Motherboard_map_name= res->VitalProductData.PrintableModel; } else _prep_type = _PREP_Motorola; } else /* assume motorola if no residual (netboot?) */ { _prep_type = _PREP_Motorola; } prep_setup_pci_ptrs(); #ifdef CONFIG_BLK_DEV_INITRD /* take care of initrd if we have one */ if ( r4 ) { initrd_start = r4 + KERNELBASE; initrd_end = r5 + KERNELBASE; } #endif /* CONFIG_BLK_DEV_INITRD */ /* take care of cmd line */ if ( r6 && (((char *) r6) != '\0')) { *(char *)(r7+KERNELBASE) = 0; strcpy(cmd_line, (char *)(r6+KERNELBASE)); } ppc_md.setup_arch = prep_setup_arch; ppc_md.setup_residual = prep_setup_residual; ppc_md.get_cpuinfo = prep_get_cpuinfo; ppc_md.irq_cannonicalize = prep_irq_cannonicalize; ppc_md.init_IRQ = prep_init_IRQ; /* this gets changed later on if we have an OpenPIC -- Cort */ ppc_md.do_IRQ = prep_do_IRQ; ppc_md.init = NULL; ppc_md.restart = prep_restart; ppc_md.power_off = prep_power_off; ppc_md.halt = prep_halt; ppc_md.time_init = NULL; if (_prep_type == _PREP_Radstone) { /* * We require a direct restart as port 92 does not work on * all Radstone boards */ ppc_md.restart = prep_direct_restart; /* * The RTC device used varies according to board type */ if(((ucSystemType==RS_SYS_TYPE_PPC1) && (ucBoardRevMaj>=5)) || (ucSystemType==RS_SYS_TYPE_PPC1a)) { ppc_md.set_rtc_time = mk48t59_set_rtc_time; ppc_md.get_rtc_time = mk48t59_get_rtc_time; } else { ppc_md.set_rtc_time = mc146818_set_rtc_time; ppc_md.get_rtc_time = mc146818_get_rtc_time; } /* * Determine the decrementer rate from the residual data */ ppc_md.calibrate_decr = prep_res_calibrate_decr; } else if (_prep_type == _PREP_IBM) { ppc_md.set_rtc_time = mc146818_set_rtc_time; ppc_md.get_rtc_time = mc146818_get_rtc_time; ppc_md.calibrate_decr = prep_calibrate_decr; } else { ppc_md.set_rtc_time = mk48t59_set_rtc_time; ppc_md.get_rtc_time = mk48t59_get_rtc_time; ppc_md.calibrate_decr = mk48t59_calibrate_decr; } #if defined(CONFIG_BLK_DEV_IDE) || defined(CONFIG_BLK_DEV_IDE_MODULE) ppc_ide_md.insw = prep_ide_insw; ppc_ide_md.outsw = prep_ide_outsw; ppc_ide_md.default_irq = prep_ide_default_irq; ppc_ide_md.default_io_base = prep_ide_default_io_base; ppc_ide_md.check_region = prep_ide_check_region; ppc_ide_md.request_region = prep_ide_request_region; ppc_ide_md.release_region = prep_ide_release_region; ppc_ide_md.fix_driveid = prep_ide_fix_driveid; ppc_ide_md.ide_init_hwif = prep_ide_init_hwif_ports; #endif ppc_ide_md.io_base = _IO_BASE; #ifdef CONFIG_VT ppc_md.kbd_setkeycode = pckbd_setkeycode; ppc_md.kbd_getkeycode = pckbd_getkeycode; ppc_md.kbd_translate = pckbd_translate; ppc_md.kbd_unexpected_up = pckbd_unexpected_up; ppc_md.kbd_leds = pckbd_leds; ppc_md.kbd_init_hw = pckbd_init_hw; #ifdef CONFIG_MAGIC_SYSRQ ppc_md.kbd_sysrq_xlate = pckbd_sysrq_xlate; #endif #endif } #ifdef CONFIG_SOUND_MODULE EXPORT_SYMBOL(ppc_cs4232_dma); EXPORT_SYMBOL(ppc_cs4232_dma2); #endif |