/* * PUPA -- Preliminary Universal Programming Architecture for GRUB * Copyright (C) 2002 Yoshinori K. Okuji * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include struct mem_region { pupa_addr_t addr; pupa_size_t size; }; #define MAX_REGIONS 32 static struct mem_region mem_regions[MAX_REGIONS]; static int num_regions; pupa_addr_t pupa_os_area_addr; pupa_size_t pupa_os_area_size; pupa_size_t pupa_lower_mem, pupa_upper_mem; static char * make_install_device (void) { /* XXX: This should be enough. */ char dev[100]; pupa_sprintf (dev, "(%cd%u", (pupa_boot_drive & 0x80) ? 'h' : 'f', pupa_boot_drive & 0x7f); if (pupa_install_dos_part >= 0) pupa_sprintf (dev + pupa_strlen (dev), ",%u", pupa_install_dos_part); if (pupa_install_bsd_part >= 0) pupa_sprintf (dev + pupa_strlen (dev), ",%c", pupa_install_bsd_part + 'a'); pupa_sprintf (dev + pupa_strlen (dev), ")%s", pupa_prefix); pupa_strcpy (pupa_prefix, dev); return pupa_prefix; } /* Add a memory region. */ static void add_mem_region (pupa_addr_t addr, pupa_size_t size) { if (num_regions == MAX_REGIONS) /* Ignore. */ return; mem_regions[num_regions].addr = addr; mem_regions[num_regions].size = size; num_regions++; } /* Compact memory regions. */ static void compact_mem_regions (void) { int i, j; /* Sort them. */ for (i = 0; i < num_regions - 1; i++) for (j = i + 1; j < num_regions; j++) if (mem_regions[i].addr > mem_regions[j].addr) { struct mem_region tmp = mem_regions[i]; mem_regions[i] = mem_regions[j]; mem_regions[j] = tmp; } /* Merge overlaps. */ for (i = 0; i < num_regions - 1; i++) if (mem_regions[i].addr + mem_regions[i].size >= mem_regions[i + 1].addr) { j = i + 1; if (mem_regions[i].addr + mem_regions[i].size < mem_regions[j].addr + mem_regions[j].size) mem_regions[i].size = (mem_regions[j].addr + mem_regions[j].size - mem_regions[i].addr); pupa_memmove (mem_regions + j, mem_regions + j + 1, (num_regions - j - 1) * sizeof (struct mem_region)); i--; } } void pupa_machine_init (void) { pupa_uint32_t cont; struct pupa_machine_mmap_entry *entry = (struct pupa_machine_mmap_entry *) PUPA_MEMORY_MACHINE_SCRATCH_ADDR; pupa_addr_t end_addr = pupa_get_end_addr (); int i; /* Initialize the console as early as possible. */ pupa_console_init (); pupa_lower_mem = pupa_get_memsize (0) << 10; /* Sanity check. */ if (pupa_lower_mem < PUPA_MEMORY_MACHINE_RESERVED_END) pupa_fatal ("too small memory"); #if 0 /* Turn on Gate A20 to access >1MB. */ pupa_gate_a20 (1); #endif /* Add the lower memory into free memory. */ if (pupa_lower_mem >= PUPA_MEMORY_MACHINE_RESERVED_END) add_mem_region (PUPA_MEMORY_MACHINE_RESERVED_END, pupa_lower_mem - PUPA_MEMORY_MACHINE_RESERVED_END); add_mem_region (end_addr, PUPA_MEMORY_MACHINE_RESERVED_START - end_addr); /* Check if pupa_get_mmap_entry works. */ cont = pupa_get_mmap_entry (entry, 0); if (entry->size) do { /* Avoid the lower memory. */ if (entry->addr < 0x100000) { if (entry->len <= 0x100000 - entry->addr) goto next; entry->len -= 0x100000 - entry->addr; entry->addr = 0x100000; } /* Ignore >4GB. */ if (entry->addr <= 0xFFFFFFFF && entry->type == 1) { pupa_addr_t addr; pupa_size_t len; addr = (pupa_addr_t) entry->addr; len = ((addr + entry->len > 0xFFFFFFFF) ? 0xFFFFFFFF - addr : (pupa_size_t) entry->len); add_mem_region (addr, len); } next: if (! cont) break; cont = pupa_get_mmap_entry (entry, cont); } while (entry->size); else { pupa_uint32_t eisa_mmap = pupa_get_eisa_mmap (); if (eisa_mmap) { if ((eisa_mmap & 0xFFFF) == 0x3C00) add_mem_region (0x100000, (eisa_mmap << 16) + 0x100000 * 15); else { add_mem_region (0x100000, (eisa_mmap & 0xFFFF) << 10); add_mem_region (0x1000000, eisa_mmap << 16); } } else add_mem_region (0x100000, pupa_get_memsize (1) << 10); } compact_mem_regions (); /* Add the memory regions to free memory, except for the region starting from 1MB. This region is partially used for loading OS images. For now, 1/4 of this is added to free memory. */ for (i = 0; i < num_regions; i++) if (mem_regions[i].addr == 0x100000) { pupa_size_t quarter = mem_regions[i].size >> 2; pupa_upper_mem = mem_regions[i].size; pupa_os_area_addr = mem_regions[i].addr; pupa_os_area_size = mem_regions[i].size - quarter; pupa_mm_init_region ((void *) (pupa_os_area_addr + pupa_os_area_size), quarter); } else pupa_mm_init_region ((void *) mem_regions[i].addr, mem_regions[i].size); if (! pupa_os_area_addr) pupa_fatal ("no upper memory"); /* The memory system was initialized, thus register built-in devices. */ pupa_biosdisk_init (); /* Initialize the prefix. */ pupa_dl_set_prefix (make_install_device ()); }