/* ----------------------------------------------------------------------- * * * Copyright 2007-2008 H. Peter Anvin - All Rights Reserved * Copyright 2012 Intel Corporation; author: H. Peter Anvin * Chandramouli Narayanan * * 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, Inc., 53 Temple Place Ste 330, * Boston MA 02111-1307, USA; either version 2 of the License, or * (at your option) any later version; incorporated herein by reference. * * ----------------------------------------------------------------------- */ /* * adv.c * * Core ADV I/O * Code consolidated from libinstaller/adv*.c and core/adv.inc with the * addition of EFI support * * Return 0 on success, -1 on error, and set errno. * */ #define _GNU_SOURCE #include #include #include "adv.h" unsigned char syslinux_adv[2 * ADV_SIZE]; static void cleanup_adv(unsigned char *advbuf) { int i; uint32_t csum; /* Make sure both copies agree, and update the checksum */ *(uint32_t *)advbuf = ADV_MAGIC1; csum = ADV_MAGIC2; for (i = 8; i < ADV_SIZE - 4; i += 4) csum -= *(uint32_t *)(advbuf + i); *(uint32_t *)(advbuf + 4) = csum; *(uint32_t *)(advbuf + ADV_SIZE - 4) = ADV_MAGIC3; memcpy(advbuf + ADV_SIZE, advbuf, ADV_SIZE); } void syslinux_reset_adv(unsigned char *advbuf) { /* Create an all-zero ADV */ memset(advbuf + 2 * 4, 0, ADV_LEN); cleanup_adv(advbuf); } static int adv_consistent(const unsigned char *p) { int i; uint32_t csum; if (*(uint32_t *)p != ADV_MAGIC1 || *(uint32_t *)(p + ADV_SIZE - 4) != ADV_MAGIC3) return 0; csum = 0; for (i = 4; i < ADV_SIZE - 4; i += 4) csum += *(uint32_t *)(p + i); return csum == ADV_MAGIC2; } /* * Verify that an in-memory ADV is consistent, making the copies consistent. * If neither copy is OK, return -1 and call syslinux_reset_adv(). */ int syslinux_validate_adv(unsigned char *advbuf) { if (adv_consistent(advbuf + 0 * ADV_SIZE)) { memcpy(advbuf + ADV_SIZE, advbuf, ADV_SIZE); return 0; } else if (adv_consistent(advbuf + 1 * ADV_SIZE)) { memcpy(advbuf, advbuf + ADV_SIZE, ADV_SIZE); return 0; } else { syslinux_reset_adv(advbuf); return -1; } } /* * Read the ADV from an existing instance, or initialize if invalid. * Returns -1 on fatal errors, 0 if ADV is okay, 1 if the ADV is * invalid, and 2 if the file does not exist. */ /* make_filespec * Take the ASCII pathname and filename and concatenate them * into an allocated memory space as unicode file specification string. * The path and cfg ASCII strings are assumed to be null-terminated. * For EFI, the separation character in the path name is '\' * and therefore it is assumed that the file spec uses '\' as separation char * * The function returns * 0 if successful and fspec is a valid allocated CHAR16 pointer * Caller is responsible to free up the allocated filespec string * -1 otherwise * */ static int make_filespec(CHAR16 **fspec, const char *path, const char *cfg) { CHAR16 *p; int size, append; /* allocate size for a CHAR16 string */ size = sizeof(CHAR16) * (strlena((CHAR8 *)path)+strlena((CHAR8 *)cfg)+2); /* including null */ *fspec = malloc(size); if (!*fspec) return -1; append = path[strlena((CHAR8 *)path) - 1] != '\\'; for (p = *fspec; *path; path++, p++) *p = (CHAR16)*path; /* append the separation character to the path if need be */ if (append) *p++ = (CHAR16)'\\'; for (; *cfg; cfg++, p++) *p = (CHAR16)*cfg; *p = (CHAR16)CHAR_NULL; return 0; } /* TODO: * set_attributes() and clear_attributes() are supported for VFAT only */ int read_adv(const char *path, const char *cfg) { CHAR16 *file; EFI_FILE_HANDLE fd; EFI_FILE_INFO st; int err = 0; int rv; rv = make_filespec(&file, path, cfg); if (rv < 0 || !file) { efi_perror(L"read_adv"); return -1; } /* TBD: Not sure if EFI accepts the attribute read only * even if an existing file is opened for read access */ fd = efi_open(file, EFI_FILE_MODE_READ); if (!fd) { if (efi_errno != EFI_NOT_FOUND) { err = -1; } else { syslinux_reset_adv(syslinux_adv); err = 2; /* Nonexistence is not a fatal error */ } } else if (!efi_fstat(fd, &st)) { err = -1; } else if (st.FileSize < 2 * ADV_SIZE) { /* Too small to be useful */ syslinux_reset_adv(syslinux_adv); err = 0; /* Nothing to read... */ } else if (efi_xpread(fd, syslinux_adv, 2 * ADV_SIZE, st.FileSize - 2 * ADV_SIZE) != 2 * ADV_SIZE) { err = -1; } else { /* We got it... maybe? */ err = syslinux_validate_adv(syslinux_adv) ? 1 : 0; } if (err < 0) efi_perror(file); if (fd) efi_close(fd); free(file); return err; } /* For EFI platform, initialize ADV by opening ldlinux.sys * as configured and return the primary (adv0) and alternate (adv1) * data into caller's buffer. File remains open for subsequent * operations. This routine is to be called from comboot vector. */ void efi_adv_init(void) { union syslinux_derivative_info sdi; get_derivative_info(&sdi); if (sdi.c.filesystem == SYSLINUX_FS_SYSLINUX) read_adv("", SYSLINUX_FILE); else { __syslinux_adv_ptr = &syslinux_adv[8]; /* skip head, csum */ __syslinux_adv_size = ADV_LEN; syslinux_validate_adv(syslinux_adv); } } /* For EFI platform, write 2 * ADV_SIZE data to the file opened * at ADV initialization. (i.e ldlinux.sys). * * TODO: * 1. Validate assumption: write back to file from __syslinux_adv_ptr * 2. What if there errors? * 3. Do we need to set the attributes of the sys file? * */ int efi_adv_write(void) { char *name; unsigned char advtmp[2 * ADV_SIZE]; unsigned char *advbuf = syslinux_adv; int rv; int err = 0; EFI_FILE_HANDLE fd; /* handle to ldlinux.sys */ CHAR16 *file; EFI_FILE_INFO st, xst; union syslinux_derivative_info sdi; get_derivative_info(&sdi); if (sdi.c.filesystem != SYSLINUX_FS_SYSLINUX) return -1; name = SYSLINUX_FILE; rv = make_filespec(&file, "", name); if (rv < 0 || !file) { efi_errno = EFI_OUT_OF_RESOURCES; efi_perror(L"efi_adv_write:"); return -1; } fd = efi_open(file, EFI_FILE_MODE_READ); if (fd == (EFI_FILE_HANDLE)NULL) { err = -1; efi_printerr(L"efi_adv_write: Unable to open file %s\n", file); } else if (efi_fstat(fd, &st)) { err = -1; efi_printerr(L"efi_adv_write: Unable to get info for file %s\n", file); } else if (st.FileSize < 2 * ADV_SIZE) { /* Too small to be useful */ err = -2; efi_printerr(L"efi_adv_write: File size too small to be useful for file %s\n", file); } else if (efi_xpread(fd, advtmp, 2 * ADV_SIZE, st.FileSize - 2 * ADV_SIZE) != 2 * ADV_SIZE) { err = -1; efi_printerr(L"efi_adv_write: Error reading ADV data from file %s\n", file); } else { cleanup_adv(advbuf); err = syslinux_validate_adv(advbuf) ? -2 : 0; if (!err) { /* Got a good one, write our own ADV here */ efi_clear_attributes(fd); /* Need to re-open read-write */ efi_close(fd); /* There is no SYNC attribute with EFI open */ fd = efi_open(file, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE); if (fd == (EFI_FILE_HANDLE)NULL) { err = -1; } else if (efi_fstat(fd, &xst) || xst.FileSize != st.FileSize) { efi_perror(L"efi_adv_write: file status error/mismatch"); err = -2; } /* Write our own version ... */ if (efi_xpwrite(fd, advbuf, 2 * ADV_SIZE, st.FileSize - 2 * ADV_SIZE) != 2 * ADV_SIZE) { err = -1; efi_printerr(L"efi_adv_write: Error write ADV data to file %s\n", file); } if (!err) { efi_sync(fd); efi_set_attributes(fd); } } } if (err == -2) efi_printerr(L"%s: cannot write auxilliary data (need --update)?\n", file); else if (err == -1) efi_perror(L"efi_adv_write:"); if (fd) efi_close(fd); if (file) free(file); return err; }