/* acpi.c - modify acpi tables. */ /* * GRUB -- GRand Unified Bootloader * Copyright (C) 2009 Free Software Foundation, Inc. * * GRUB 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 3 of the License, or * (at your option) any later version. * * GRUB 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 GRUB. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include #ifdef GRUB_MACHINE_EFI #include #include #endif static const struct grub_arg_option options[] = { {"exclude", 'x', 0, "Don't load host tables specified by comma-separated list", 0, ARG_TYPE_STRING}, {"load-only", 'n', 0, "Load only tables specified by comma-separated list", 0, ARG_TYPE_STRING}, {"v1", '1', 0, "Expose v1 tables", 0, ARG_TYPE_NONE}, {"v2", '2', 0, "Expose v2 and v3 tables", 0, ARG_TYPE_NONE}, {"oemid", 'o', 0, "Set OEMID of RSDP, XSDT and RSDT", 0, ARG_TYPE_STRING}, {"oemtable", 't', 0, "Set OEMTABLE ID of RSDP, XSDT and RSDT", 0, ARG_TYPE_STRING}, {"oemtablerev", 'r', 0, "Set OEMTABLE revision of RSDP, XSDT and RSDT", 0, ARG_TYPE_INT}, {"oemtablecreator", 'c', 0, "Set creator field of RSDP, XSDT and RSDT", 0, ARG_TYPE_STRING}, {"oemtablecreatorrev", 'd', 0, "Set creator revision of RSDP, XSDT and RSDT", 0, ARG_TYPE_INT}, {"no-ebda", 'e', 0, "Don't update EBDA. May fix failures or hangs on some" " BIOSes but makes it ineffective with OS not receiving RSDP from GRUB", 0, ARG_TYPE_NONE}, {0, 0, 0, 0, 0, 0} }; /* Simple checksum by summing all bytes. Used by ACPI and SMBIOS. */ grub_uint8_t grub_byte_checksum (void *base, grub_size_t size) { grub_uint8_t *ptr; grub_uint8_t ret = 0; for (ptr = (grub_uint8_t *) base; ptr < ((grub_uint8_t *) base) + size; ptr++) ret += *ptr; return ret; } /* rev1 is 1 if ACPIv1 is to be generated, 0 otherwise. rev2 contains the revision of ACPIv2+ to generate or 0 if none. */ static int rev1, rev2; /* OEMID of RSDP, RSDT and XSDT. */ static char root_oemid[6]; /* OEMTABLE of the same tables. */ static char root_oemtable[8]; /* OEMREVISION of the same tables. */ static grub_uint32_t root_oemrev; /* CreatorID of the same tables. */ static char root_creator_id[4]; /* CreatorRevision of the same tables. */ static grub_uint32_t root_creator_rev; static struct grub_acpi_rsdp_v10 *rsdpv1_new = 0; static struct grub_acpi_rsdp_v20 *rsdpv2_new = 0; static char *playground = 0, *playground_ptr = 0; static int playground_size = 0; /* Linked list of ACPI tables. */ struct efiemu_acpi_table { void *addr; grub_size_t size; struct efiemu_acpi_table *next; }; static struct efiemu_acpi_table *acpi_tables = 0; /* DSDT isn't in RSDT. So treat it specially. */ static void *table_dsdt = 0; /* Pointer to recreated RSDT. */ static void *rsdt_addr = 0; /* Allocation handles for different tables. */ static grub_size_t dsdt_size = 0; /* Address of original FACS. */ static grub_uint32_t facs_addr = 0; struct grub_acpi_rsdp_v20 * grub_acpi_get_rsdpv2 (void) { if (rsdpv2_new) return rsdpv2_new; if (rsdpv1_new) return 0; return grub_machine_acpi_get_rsdpv2 (); } struct grub_acpi_rsdp_v10 * grub_acpi_get_rsdpv1 (void) { if (rsdpv1_new) return rsdpv1_new; if (rsdpv2_new) return 0; return grub_machine_acpi_get_rsdpv1 (); } static inline int iszero (grub_uint8_t *reg, int size) { int i; for (i = 0; i < size; i++) if (reg[i]) return 0; return 1; } grub_err_t grub_acpi_create_ebda (void) { int ebda_kb_len; int ebda_len; int mmapregion = 0; grub_uint8_t *ebda, *v1inebda = 0, *v2inebda = 0; grub_uint64_t highestlow = 0; grub_uint8_t *targetebda, *target; struct grub_acpi_rsdp_v10 *v1; struct grub_acpi_rsdp_v20 *v2; auto int NESTED_FUNC_ATTR find_hook (grub_uint64_t, grub_uint64_t, grub_uint32_t); int NESTED_FUNC_ATTR find_hook (grub_uint64_t start, grub_uint64_t size, grub_uint32_t type) { grub_uint64_t end = start + size; if (type != GRUB_MACHINE_MEMORY_AVAILABLE) return 0; if (end > 0x100000) end = 0x100000; if (end > start + ebda_len && highestlow < ((end - ebda_len) & (~0xf)) ) highestlow = (end - ebda_len) & (~0xf); return 0; } ebda = (grub_uint8_t *) UINT_TO_PTR ((*((grub_uint16_t *)0x40e)) << 4); ebda_kb_len = *(grub_uint16_t *) ebda; if (! ebda || ebda_kb_len > 16) ebda_kb_len = 0; ebda_len = (ebda_kb_len + 1) << 10; /* FIXME: use low-memory mm allocation once it's available. */ grub_mmap_iterate (find_hook); targetebda = (grub_uint8_t *) UINT_TO_PTR (highestlow); grub_dprintf ("acpi", "creating ebda @%llx\n", (unsigned long long) highestlow); if (! highestlow) return grub_error (GRUB_ERR_OUT_OF_MEMORY, "couldn't find space for the new EBDA"); mmapregion = grub_mmap_register (PTR_TO_UINT64 (targetebda), ebda_len, GRUB_MACHINE_MEMORY_RESERVED); if (! mmapregion) return grub_errno; /* XXX: EBDA is unstandardized, so this implementation is heuristical. */ if (ebda_kb_len) grub_memcpy (targetebda, ebda, 0x400); else grub_memset (targetebda, 0, 0x400); *((grub_uint16_t *) targetebda) = ebda_kb_len + 1; target = targetebda; v1 = grub_acpi_get_rsdpv1 (); v2 = grub_acpi_get_rsdpv2 (); if (v2 && v2->length > 40) v2 = 0; /* First try to replace already existing rsdp. */ if (v2) { grub_dprintf ("acpi", "Scanning EBDA for old rsdpv2\n"); for (; target < targetebda + 0x400 - v2->length; target += 0x10) if (grub_memcmp (target, "RSD PTR ", 8) == 0 && grub_byte_checksum (target, sizeof (struct grub_acpi_rsdp_v10)) == 0 && ((struct grub_acpi_rsdp_v10 *) target)->revision != 0 && ((struct grub_acpi_rsdp_v20 *) target)->length <= v2->length) { grub_memcpy (target, v2, v2->length); grub_dprintf ("acpi", "Copying rsdpv2 to %p\n", target); v2inebda = target; target += v2->length; target = (grub_uint8_t *) ((((long) target - 1) | 0xf) + 1); v2 = 0; break; } } if (v1) { grub_dprintf ("acpi", "Scanning EBDA for old rsdpv1\n"); for (; target < targetebda + 0x400 - sizeof (struct grub_acpi_rsdp_v10); target += 0x10) if (grub_memcmp (target, "RSD PTR ", 8) == 0 && grub_byte_checksum (target, sizeof (struct grub_acpi_rsdp_v10)) == 0) { grub_memcpy (target, v1, sizeof (struct grub_acpi_rsdp_v10)); grub_dprintf ("acpi", "Copying rsdpv2 to %p\n", target); v1inebda = target; target += sizeof (struct grub_acpi_rsdp_v10); target = (grub_uint8_t *) ((((long) target - 1) | 0xf) + 1); v1 = 0; break; } } target = targetebda + 0x100; /* Try contiguous zeros. */ if (v2) { grub_dprintf ("acpi", "Scanning EBDA for block of zeros\n"); for (; target < targetebda + 0x400 - v2->length; target += 0x10) if (iszero (target, v2->length)) { grub_dprintf ("acpi", "Copying rsdpv2 to %p\n", target); grub_memcpy (target, v2, v2->length); v2inebda = target; target += v2->length; target = (grub_uint8_t *) ((((long) target - 1) | 0xf) + 1); v2 = 0; break; } } if (v1) { grub_dprintf ("acpi", "Scanning EBDA for block of zeros\n"); for (; target < targetebda + 0x400 - sizeof (struct grub_acpi_rsdp_v10); target += 0x10) if (iszero (target, sizeof (struct grub_acpi_rsdp_v10))) { grub_dprintf ("acpi", "Copying rsdpv1 to %p\n", target); grub_memcpy (target, v1, sizeof (struct grub_acpi_rsdp_v10)); v1inebda = target; target += sizeof (struct grub_acpi_rsdp_v10); target = (grub_uint8_t *) ((((long) target - 1) | 0xf) + 1); v1 = 0; break; } } if (v1 || v2) { grub_mmap_unregister (mmapregion); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "Couldn't find suitable spot in EBDA"); } /* Remove any other RSDT. */ for (target = targetebda; target < targetebda + 0x400 - sizeof (struct grub_acpi_rsdp_v10); target += 0x10) if (grub_memcmp (target, "RSD PTR ", 8) == 0 && grub_byte_checksum (target, sizeof (struct grub_acpi_rsdp_v10)) == 0 && target != v1inebda && target != v2inebda) *target = 0; grub_dprintf ("acpi", "Switching EBDA\n"); (*((grub_uint16_t *) 0x40e)) = ((long)targetebda) >> 4; grub_dprintf ("acpi", "EBDA switched\n"); return GRUB_ERR_NONE; } /* Create tables common to ACPIv1 and ACPIv2+ */ static void setup_common_tables (void) { struct efiemu_acpi_table *cur; struct grub_acpi_table_header *rsdt; grub_uint32_t *rsdt_entry; int numoftables; /* Treat DSDT. */ grub_memcpy (playground_ptr, table_dsdt, dsdt_size); grub_free (table_dsdt); table_dsdt = playground_ptr; playground_ptr += dsdt_size; /* Treat other tables. */ for (cur = acpi_tables; cur; cur = cur->next) { struct grub_acpi_fadt *fadt; grub_memcpy (playground_ptr, cur->addr, cur->size); grub_free (cur->addr); cur->addr = playground_ptr; playground_ptr += cur->size; /* If it's FADT correct DSDT and FACS addresses. */ fadt = (struct grub_acpi_fadt *) cur->addr; if (grub_memcmp (fadt->hdr.signature, "FACP", 4) == 0) { fadt->dsdt_addr = PTR_TO_UINT32 (table_dsdt); fadt->facs_addr = facs_addr; /* Does a revision 2 exist at all? */ if (fadt->hdr.revision >= 3) { fadt->dsdt_xaddr = PTR_TO_UINT64 (table_dsdt); fadt->facs_xaddr = facs_addr; } /* Recompute checksum. */ fadt->hdr.checksum = 0; fadt->hdr.checksum = 1 + ~grub_byte_checksum (fadt, fadt->hdr.length); } } /* Fill RSDT entries. */ numoftables = 0; for (cur = acpi_tables; cur; cur = cur->next) numoftables++; rsdt_addr = rsdt = (struct grub_acpi_table_header *) playground_ptr; playground_ptr += sizeof (struct grub_acpi_table_header) + 4 * numoftables; rsdt_entry = (grub_uint32_t *)(rsdt + 1); /* Fill RSDT header. */ grub_memcpy (&(rsdt->signature), "RSDT", 4); rsdt->length = sizeof (struct grub_acpi_table_header) + 4 * numoftables; rsdt->revision = 1; grub_memcpy (&(rsdt->oemid), root_oemid, 6); grub_memcpy (&(rsdt->oemtable), root_oemtable, 4); rsdt->oemrev = root_oemrev; grub_memcpy (&(rsdt->creator_id), root_creator_id, 6); rsdt->creator_rev = root_creator_rev; for (cur = acpi_tables; cur; cur = cur->next) *(rsdt_entry++) = PTR_TO_UINT32 (cur->addr); /* Recompute checksum. */ rsdt->checksum = 0; rsdt->checksum = 1 + ~grub_byte_checksum (rsdt, rsdt->length); } /* Regenerate ACPIv1 RSDP */ static void setv1table (void) { /* Create RSDP. */ rsdpv1_new = (struct grub_acpi_rsdp_v10 *) playground_ptr; playground_ptr += sizeof (struct grub_acpi_rsdp_v10); grub_memcpy (&(rsdpv1_new->signature), "RSD PTR ", 8); grub_memcpy (&(rsdpv1_new->oemid), root_oemid, sizeof (rsdpv1_new->oemid)); rsdpv1_new->revision = 0; rsdpv1_new->rsdt_addr = PTR_TO_UINT32 (rsdt_addr); rsdpv1_new->checksum = 0; rsdpv1_new->checksum = 1 + ~grub_byte_checksum (rsdpv1_new, sizeof (*rsdpv1_new)); grub_dprintf ("acpi", "Generated ACPIv1 tables\n"); } static void setv2table (void) { struct grub_acpi_table_header *xsdt; struct efiemu_acpi_table *cur; grub_uint64_t *xsdt_entry; int numoftables; numoftables = 0; for (cur = acpi_tables; cur; cur = cur->next) numoftables++; /* Create XSDT. */ xsdt = (struct grub_acpi_table_header *) playground_ptr; playground_ptr += sizeof (struct grub_acpi_table_header) + 8 * numoftables; xsdt_entry = (grub_uint64_t *)(xsdt + 1); for (cur = acpi_tables; cur; cur = cur->next) *(xsdt_entry++) = PTR_TO_UINT64 (cur->addr); grub_memcpy (&(xsdt->signature), "XSDT", 4); xsdt->length = sizeof (struct grub_acpi_table_header) + 8 * numoftables; xsdt->revision = 1; grub_memcpy (&(xsdt->oemid), root_oemid, sizeof (xsdt->oemid)); grub_memcpy (&(xsdt->oemtable), root_oemtable, sizeof (xsdt->oemtable)); xsdt->oemrev = root_oemrev; grub_memcpy (&(xsdt->creator_id), root_creator_id, sizeof (xsdt->creator_id)); xsdt->creator_rev = root_creator_rev; xsdt->checksum = 0; xsdt->checksum = 1 + ~grub_byte_checksum (xsdt, xsdt->length); /* Create RSDPv2. */ rsdpv2_new = (struct grub_acpi_rsdp_v20 *) playground_ptr; playground_ptr += sizeof (struct grub_acpi_rsdp_v20); grub_memcpy (&(rsdpv2_new->rsdpv1.signature), "RSD PTR ", sizeof (rsdpv2_new->rsdpv1.signature)); grub_memcpy (&(rsdpv2_new->rsdpv1.oemid), root_oemid, sizeof (rsdpv2_new->rsdpv1.oemid)); rsdpv2_new->rsdpv1.revision = rev2; rsdpv2_new->rsdpv1.rsdt_addr = PTR_TO_UINT32 (rsdt_addr); rsdpv2_new->rsdpv1.checksum = 0; rsdpv2_new->rsdpv1.checksum = 1 + ~grub_byte_checksum (&(rsdpv2_new->rsdpv1), sizeof (rsdpv2_new->rsdpv1)); rsdpv2_new->length = sizeof (*rsdpv2_new); rsdpv2_new->xsdt_addr = PTR_TO_UINT64 (xsdt); rsdpv2_new->checksum = 0; rsdpv2_new->checksum = 1 + ~grub_byte_checksum (rsdpv2_new, rsdpv2_new->length); grub_dprintf ("acpi", "Generated ACPIv2 tables\n"); } static void free_tables (void) { struct efiemu_acpi_table *cur, *t; if (table_dsdt) grub_free (table_dsdt); for (cur = acpi_tables; cur;) { t = cur; grub_free (cur->addr); cur = cur->next; grub_free (t); } acpi_tables = 0; table_dsdt = 0; } static grub_err_t grub_cmd_acpi (struct grub_extcmd *cmd, int argc, char **args) { struct grub_arg_list *state = cmd->state; struct grub_acpi_rsdp_v10 *rsdp; struct efiemu_acpi_table *cur, *t; grub_err_t err; int i, mmapregion; int numoftables; /* Default values if no RSDP is found. */ rev1 = 1; rev2 = 3; facs_addr = 0; playground = playground_ptr = 0; playground_size = 0; rsdp = (struct grub_acpi_rsdp_v10 *) grub_machine_acpi_get_rsdpv2 (); if (! rsdp) rsdp = grub_machine_acpi_get_rsdpv1 (); if (rsdp) { grub_uint32_t *entry_ptr; char *exclude = 0; char *load_only = 0; char *ptr; /* RSDT consists of header and an array of 32-bit pointers. */ struct grub_acpi_table_header *rsdt; exclude = state[0].set ? grub_strdup (state[0].arg) : 0; if (exclude) { for (ptr = exclude; *ptr; ptr++) *ptr = grub_tolower (*ptr); } load_only = state[1].set ? grub_strdup (state[1].arg) : 0; if (load_only) { for (ptr = load_only; *ptr; ptr++) *ptr = grub_tolower (*ptr); } /* Set revision variables to replicate the same version as host. */ rev1 = ! rsdp->revision; rev2 = rsdp->revision; rsdt = (struct grub_acpi_table_header *) UINT_TO_PTR (rsdp->rsdt_addr); /* Load host tables. */ for (entry_ptr = (grub_uint32_t *) (rsdt + 1); entry_ptr < (grub_uint32_t *) (((grub_uint8_t *) rsdt) + rsdt->length); entry_ptr++) { char signature[5]; struct efiemu_acpi_table *table; struct grub_acpi_table_header *curtable = (struct grub_acpi_table_header *) UINT_TO_PTR (*entry_ptr); signature[4] = 0; for (i = 0; i < 4;i++) signature[i] = grub_tolower (curtable->signature[i]); /* If it's FADT it contains addresses of DSDT and FACS. */ if (grub_strcmp (signature, "facp") == 0) { struct grub_acpi_table_header *dsdt; struct grub_acpi_fadt *fadt = (struct grub_acpi_fadt *) curtable; /* Set root header variables to the same values as FACP by default. */ grub_memcpy (&root_oemid, &(fadt->hdr.oemid), sizeof (root_oemid)); grub_memcpy (&root_oemtable, &(fadt->hdr.oemtable), sizeof (root_oemtable)); root_oemrev = fadt->hdr.oemrev; grub_memcpy (&root_creator_id, &(fadt->hdr.creator_id), sizeof (root_creator_id)); root_creator_rev = fadt->hdr.creator_rev; /* Load DSDT if not excluded. */ dsdt = (struct grub_acpi_table_header *) UINT_TO_PTR (fadt->dsdt_addr); if (dsdt && (! exclude || ! grub_strword (exclude, "dsdt")) && (! load_only || grub_strword (load_only, "dsdt")) && dsdt->length >= sizeof (*dsdt)) { dsdt_size = dsdt->length; table_dsdt = grub_malloc (dsdt->length); if (! table_dsdt) { free_tables (); grub_free (exclude); grub_free (load_only); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "Couldn't allocate table"); } grub_memcpy (table_dsdt, dsdt, dsdt->length); } /* Save FACS address. FACS shouldn't be overridden. */ facs_addr = fadt->facs_addr; } /* Skip excluded tables. */ if (exclude && grub_strword (exclude, signature)) continue; if (load_only && ! grub_strword (load_only, signature)) continue; /* Sanity check. */ if (curtable->length < sizeof (*curtable)) continue; table = (struct efiemu_acpi_table *) grub_malloc (sizeof (struct efiemu_acpi_table)); if (! table) { free_tables (); grub_free (exclude); grub_free (load_only); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "Couldn't allocate table structure"); } table->size = curtable->length; table->addr = grub_malloc (table->size); playground_size += table->size; if (! table->addr) { free_tables (); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "Couldn't allocate table"); } table->next = acpi_tables; acpi_tables = table; grub_memcpy (table->addr, curtable, table->size); } grub_free (exclude); grub_free (load_only); } /* Does user specify versions to generate? */ if (state[2].set || state[3].set) { rev1 = state[2].set; if (state[3].set) rev2 = rev2 ? : 2; else rev2 = 0; } /* Does user override root header information? */ if (state[4].set) grub_strncpy (root_oemid, state[4].arg, sizeof (root_oemid)); if (state[5].set) grub_strncpy (root_oemtable, state[5].arg, sizeof (root_oemtable)); if (state[6].set) root_oemrev = grub_strtoul (state[6].arg, 0, 0); if (state[7].set) grub_strncpy (root_creator_id, state[7].arg, sizeof (root_creator_id)); if (state[8].set) root_creator_rev = grub_strtoul (state[8].arg, 0, 0); /* Load user tables */ for (i = 0; i < argc; i++) { grub_file_t file; grub_size_t size; char *buf; file = grub_gzfile_open (args[i], 1); if (! file) { free_tables (); return grub_error (GRUB_ERR_BAD_OS, "couldn't open file %s", args[i]); } size = grub_file_size (file); if (size < sizeof (struct grub_acpi_table_header)) { grub_file_close (file); free_tables (); return grub_error (GRUB_ERR_BAD_OS, "file %s is too small", args[i]); } buf = (char *) grub_malloc (size); if (! buf) { grub_file_close (file); free_tables (); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "couldn't read file %s", args[i]); } if (grub_file_read (file, buf, size) != (int) size) { grub_file_close (file); free_tables (); return grub_error (GRUB_ERR_BAD_OS, "couldn't read file %s", args[i]); } grub_file_close (file); if (grub_memcmp (((struct grub_acpi_table_header *) buf)->signature, "DSDT", 4) == 0) { grub_free (table_dsdt); table_dsdt = buf; dsdt_size = size; } else { struct efiemu_acpi_table *table; table = (struct efiemu_acpi_table *) grub_malloc (sizeof (struct efiemu_acpi_table)); if (! table) { free_tables (); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "Couldn't allocate table structure"); } table->size = size; table->addr = buf; playground_size += table->size; table->next = acpi_tables; acpi_tables = table; } } numoftables = 0; for (cur = acpi_tables; cur; cur = cur->next) numoftables++; /* DSDT. */ playground_size += dsdt_size; /* RSDT. */ playground_size += sizeof (struct grub_acpi_table_header) + 4 * numoftables; /* RSDPv1. */ playground_size += sizeof (struct grub_acpi_rsdp_v10); /* XSDT. */ playground_size += sizeof (struct grub_acpi_table_header) + 8 * numoftables; /* RSDPv2. */ playground_size += sizeof (struct grub_acpi_rsdp_v20); playground = playground_ptr = grub_mmap_malign_and_register (1, playground_size, &mmapregion, GRUB_MACHINE_MEMORY_ACPI, 0); if (! playground) { free_tables (); return grub_error (GRUB_ERR_OUT_OF_MEMORY, "Couldn't allocate space for ACPI tables"); } setup_common_tables (); /* Request space for RSDPv1. */ if (rev1) setv1table (); /* Request space for RSDPv2+ and XSDT. */ if (rev2) setv2table (); for (cur = acpi_tables; cur;) { t = cur; cur = cur->next; grub_free (t); } acpi_tables = 0; if (! state[9].set && (err = grub_acpi_create_ebda ())) { rsdpv1_new = 0; rsdpv2_new = 0; grub_mmap_free_and_unregister (mmapregion); return err; } #ifdef GRUB_MACHINE_EFI { struct grub_efi_guid acpi = GRUB_EFI_ACPI_TABLE_GUID; struct grub_efi_guid acpi20 = GRUB_EFI_ACPI_20_TABLE_GUID; grub_efi_system_table->boot_services->install_configuration_table (&acpi20, grub_acpi_get_rsdpv2 ()); grub_efi_system_table->boot_services->install_configuration_table (&acpi, grub_acpi_get_rsdpv1 ()); } #endif return GRUB_ERR_NONE; } static grub_extcmd_t cmd; GRUB_MOD_INIT(acpi) { cmd = grub_register_extcmd ("acpi", grub_cmd_acpi, GRUB_COMMAND_FLAG_BOTH, "acpi [-1|-2] [--exclude=table1,table2|" "--load-only=table1,table2] filename1 " " [filename2] [...]", "Load host acpi tables and tables " "specified by arguments", options); } GRUB_MOD_FINI(acpi) { grub_unregister_extcmd (cmd); }