// SPDX-License-Identifier: GPL-2.0 /* * init.c: PROM library initialisation code. * * Copyright (C) 1998 Harald Koerfgen * Copyright (C) 2002, 2004 Maciej W. Rozycki */ #include <linux/init.h> #include <linux/kernel.h> #include <linux/linkage.h> #include <linux/smp.h> #include <linux/string.h> #include <linux/types.h> #include <asm/bootinfo.h> #include <asm/cpu.h> #include <asm/cpu-type.h> #include <asm/processor.h> #include <asm/dec/prom.h> int (*__rex_bootinit)(void); int (*__rex_bootread)(void); int (*__rex_getbitmap)(memmap *); unsigned long *(*__rex_slot_address)(int); void *(*__rex_gettcinfo)(void); int (*__rex_getsysid)(void); void (*__rex_clear_cache)(void); int (*__prom_getchar)(void); char *(*__prom_getenv)(char *); int (*__prom_printf)(char *, ...); int (*__pmax_open)(char*, int); int (*__pmax_lseek)(int, long, int); int (*__pmax_read)(int, void *, int); int (*__pmax_close)(int); /* * Detect which PROM the DECSTATION has, and set the callback vectors * appropriately. */ void __init which_prom(s32 magic, s32 *prom_vec) { /* * No sign of the REX PROM's magic number means we assume a non-REX * machine (i.e. we're on a DS2100/3100, DS5100 or DS5000/2xx) */ if (prom_is_rex(magic)) { /* * Set up prom abstraction structure with REX entry points. */ __rex_bootinit = (void *)(long)*(prom_vec + REX_PROM_BOOTINIT); __rex_bootread = (void *)(long)*(prom_vec + REX_PROM_BOOTREAD); __rex_getbitmap = (void *)(long)*(prom_vec + REX_PROM_GETBITMAP); __prom_getchar = (void *)(long)*(prom_vec + REX_PROM_GETCHAR); __prom_getenv = (void *)(long)*(prom_vec + REX_PROM_GETENV); __rex_getsysid = (void *)(long)*(prom_vec + REX_PROM_GETSYSID); __rex_gettcinfo = (void *)(long)*(prom_vec + REX_PROM_GETTCINFO); __prom_printf = (void *)(long)*(prom_vec + REX_PROM_PRINTF); __rex_slot_address = (void *)(long)*(prom_vec + REX_PROM_SLOTADDR); __rex_clear_cache = (void *)(long)*(prom_vec + REX_PROM_CLEARCACHE); } else { /* * Set up prom abstraction structure with non-REX entry points. */ __prom_getchar = (void *)PMAX_PROM_GETCHAR; __prom_getenv = (void *)PMAX_PROM_GETENV; __prom_printf = (void *)PMAX_PROM_PRINTF; __pmax_open = (void *)PMAX_PROM_OPEN; __pmax_lseek = (void *)PMAX_PROM_LSEEK; __pmax_read = (void *)PMAX_PROM_READ; __pmax_close = (void *)PMAX_PROM_CLOSE; } } void __init prom_init(void) { extern void dec_machine_halt(void); static const char cpu_msg[] __initconst = "Sorry, this kernel is compiled for a wrong CPU type!\n"; s32 argc = fw_arg0; s32 *argv = (void *)fw_arg1; u32 magic = fw_arg2; s32 *prom_vec = (void *)fw_arg3; /* * Determine which PROM we have * (and therefore which machine we're on!) */ which_prom(magic, prom_vec); if (prom_is_rex(magic)) rex_clear_cache(); /* Register the early console. */ register_prom_console(); /* Were we compiled with the right CPU option? */ #if defined(CONFIG_CPU_R3000) if ((current_cpu_type() == CPU_R4000SC) || (current_cpu_type() == CPU_R4400SC)) { static const char r4k_msg[] __initconst = "Please recompile with \"CONFIG_CPU_R4X00 = y\".\n"; printk(cpu_msg); printk(r4k_msg); dec_machine_halt(); } #endif #if defined(CONFIG_CPU_R4X00) if ((current_cpu_type() == CPU_R3000) || (current_cpu_type() == CPU_R3000A)) { static const char r3k_msg[] __initconst = "Please recompile with \"CONFIG_CPU_R3000 = y\".\n"; printk(cpu_msg); printk(r3k_msg); dec_machine_halt(); } #endif prom_meminit(magic); prom_identify_arch(magic); prom_init_cmdline(argc, argv, magic); }