drivers/intel/fsp1_1: handle UEFI endianness
UEFI defines everything as little endian. Additionally the EDK II header files assume they are used on machines which are running UEFI -- thus little endian. This patch attempts to fix up all the possible endian violations when running on a big endian machine. This is for in preparation of using the FSP 1.1 code in userland for relocating FSP images. BUG=chrome-os-partner:44827 BRANCH=None TEST=Built and booted glados. Change-Id: I39f4de84688e48978a4650303b8af8345f44fd03 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: 3c7eab9b7c10765355feffa3c3cac403275f9479 Original-Change-Id: I33a7661281307cf31ae33899d1a4eb6a2fbd01a1 Original-Signed-off-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-on: https://chromium-review.googlesource.com/298832 Original-Reviewed-by: Duncan Laurie <dlaurie@chromium.org> Reviewed-on: http://review.coreboot.org/11664 Tested-by: build bot (Jenkins) Reviewed-by: Aaron Durbin <adurbin@chromium.org>
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@ -19,6 +19,7 @@
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#include <console/console.h>
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#include <cbmem.h>
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#include <endian.h>
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#include <fsp/util.h>
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#include <stdlib.h>
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#include <stdint.h>
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@ -26,6 +27,32 @@
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#define FSP_DBG_LVL BIOS_NEVER
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/*
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* UEFI defines everything as little endian. However, this piece of code
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* can be integrated in a userland tool. That tool could be on a big endian
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* machine so one needs to access the fields within UEFI structures using
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* endian-aware accesses.
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*/
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/* Return 0 if equal. Non-zero if not equal. */
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static int guid_compare(const EFI_GUID *le_guid, const EFI_GUID *native_guid)
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{
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if (le32toh(le_guid->Data1) != native_guid->Data1)
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return 1;
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if (le16toh(le_guid->Data2) != native_guid->Data2)
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return 1;
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if (le16toh(le_guid->Data3) != native_guid->Data3)
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return 1;
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return memcmp(le_guid->Data4, native_guid->Data4,
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ARRAY_SIZE(le_guid->Data4));
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}
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/* Provide this for symmetry when accessing UEFI fields. */
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static inline uint8_t le8toh(uint8_t byte)
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{
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return byte;
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}
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static const EFI_GUID ffs2_guid = EFI_FIRMWARE_FILE_SYSTEM2_GUID;
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static const EFI_GUID fih_guid = FSP_INFO_HEADER_GUID;
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@ -87,6 +114,7 @@ static int te_relocate(uintptr_t new_addr, void *te, size_t size)
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EFI_TE_IMAGE_HEADER *teih;
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EFI_IMAGE_DATA_DIRECTORY *relocd;
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EFI_IMAGE_BASE_RELOCATION *relocb;
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uintptr_t image_base;
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size_t fixup_offset;
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size_t num_relocs;
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uint16_t *reloc;
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@ -96,9 +124,10 @@ static int te_relocate(uintptr_t new_addr, void *te, size_t size)
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teih = te;
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if (teih->Signature != EFI_TE_IMAGE_HEADER_SIGNATURE) {
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if (le16toh(teih->Signature) != EFI_TE_IMAGE_HEADER_SIGNATURE) {
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printk(BIOS_ERR, "TE Signature mismatch: %x vs %x\n",
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teih->Signature, EFI_TE_IMAGE_HEADER_SIGNATURE);
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le16toh(teih->Signature),
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EFI_TE_IMAGE_HEADER_SIGNATURE);
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return -1;
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}
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@ -109,54 +138,58 @@ static int te_relocate(uintptr_t new_addr, void *te, size_t size)
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* from the encoded offets. Similarly, the linked address of the
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* program is found by adding the fixup_offset to the ImageBase.
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*/
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fixup_offset = teih->StrippedSize - sizeof(EFI_TE_IMAGE_HEADER);
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fixup_offset = le16toh(teih->StrippedSize);
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fixup_offset -= sizeof(EFI_TE_IMAGE_HEADER);
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/* Keep track of a base that is correctly adjusted so that offsets
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* can be used directly. */
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te_base = te;
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te_base -= fixup_offset;
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adj = new_addr - (teih->ImageBase + fixup_offset);
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image_base = le64toh(teih->ImageBase);
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adj = new_addr - (image_base + fixup_offset);
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printk(FSP_DBG_LVL, "TE Image %p -> %p adjust value: %x\n",
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(void *)(uintptr_t)(teih->ImageBase + fixup_offset),
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(void *)new_addr, adj);
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(void *)image_base, (void *)new_addr, adj);
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/* Adjust ImageBase for consistency. */
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teih->ImageBase = (uint32_t)(teih->ImageBase + adj);
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teih->ImageBase = htole32(image_base + adj);
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relocd = &teih->DataDirectory[EFI_TE_IMAGE_DIRECTORY_ENTRY_BASERELOC];
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relocd_offset = 0;
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/* Though the field name is VirtualAddress it's actually relative to
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* the beginning of the image which is linked at ImageBase. */
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relocb = relative_offset(te, relocd->VirtualAddress - fixup_offset);
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relocb = relative_offset(te,
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le32toh(relocd->VirtualAddress) - fixup_offset);
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while (relocd_offset < relocd->Size) {
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size_t rva_offset = relocb->VirtualAddress;
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size_t rva_offset = le32toh(relocb->VirtualAddress);
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printk(FSP_DBG_LVL, "Relocs for RVA offset %zx\n", rva_offset);
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num_relocs = relocb->SizeOfBlock - sizeof(*relocb);
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num_relocs = le32toh(relocb->SizeOfBlock) - sizeof(*relocb);
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num_relocs /= sizeof(uint16_t);
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reloc = relative_offset(relocb, sizeof(*relocb));
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printk(FSP_DBG_LVL, "Num relocs in block: %zx\n", num_relocs);
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while (num_relocs > 0) {
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int type = reloc_type(*reloc);
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size_t offset = reloc_offset(*reloc);
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uint16_t reloc_val = le16toh(*reloc);
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int type = reloc_type(reloc_val);
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size_t offset = reloc_offset(reloc_val);
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printk(FSP_DBG_LVL, "reloc type %x offset %zx\n",
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type, offset);
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if (type == EFI_IMAGE_REL_BASED_HIGHLOW) {
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uint32_t *reloc_addr;
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uint32_t val;
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offset += rva_offset;
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reloc_addr = (void *)&te_base[offset];
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val = le32toh(*reloc_addr);
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printk(FSP_DBG_LVL, "Adjusting %p %x -> %x\n",
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reloc_addr, *reloc_addr,
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*reloc_addr + adj);
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*reloc_addr += adj;
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reloc_addr, val, val + adj);
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*reloc_addr = htole32(val + adj);
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} else if (type != EFI_IMAGE_REL_BASED_ABSOLUTE) {
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printk(BIOS_ERR, "Unknown reloc type: %x\n",
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type);
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@ -167,9 +200,9 @@ static int te_relocate(uintptr_t new_addr, void *te, size_t size)
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}
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/* Track consumption of relocation directory contents. */
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relocd_offset += relocb->SizeOfBlock;
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relocd_offset += le32toh(relocb->SizeOfBlock);
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/* Get next relocation block to process. */
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relocb = relative_offset(relocb, relocb->SizeOfBlock);
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relocb = relative_offset(relocb, le32toh(relocb->SizeOfBlock));
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}
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return 0;
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@ -181,9 +214,9 @@ static size_t csh_size(const EFI_COMMON_SECTION_HEADER *csh)
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/* Unpack the array into a type that can be used. */
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size = 0;
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size |= csh->Size[0] << 0;
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size |= csh->Size[1] << 8;
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size |= csh->Size[2] << 16;
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size |= le8toh(csh->Size[0]) << 0;
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size |= le8toh(csh->Size[1]) << 8;
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size |= le8toh(csh->Size[2]) << 16;
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return size;
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}
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@ -201,7 +234,7 @@ static size_t section_data_size(const EFI_COMMON_SECTION_HEADER *csh)
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size_t section_size;
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if (csh_size(csh) == 0x00ffffff)
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section_size = SECTION2_SIZE(csh);
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section_size = le32toh(SECTION2_SIZE(csh));
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else
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section_size = csh_size(csh);
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@ -221,11 +254,11 @@ static size_t ffs_file_size(const EFI_FFS_FILE_HEADER *ffsfh)
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size_t size;
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if (IS_FFS_FILE2(ffsfh))
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size = FFS_FILE2_SIZE(ffsfh);
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size = le32toh(FFS_FILE2_SIZE(ffsfh));
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else {
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size = ffsfh->Size[0] << 0;
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size |= ffsfh->Size[1] << 8;
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size |= ffsfh->Size[2] << 16;
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size = le8toh(ffsfh->Size[0]) << 0;
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size |= le8toh(ffsfh->Size[1]) << 8;
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size |= le8toh(ffsfh->Size[2]) << 16;
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}
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return size;
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}
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@ -234,33 +267,39 @@ static int relocate_patch_table(void *fsp, size_t size, size_t offset,
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ssize_t adjustment)
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{
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struct fsp_patch_table *table;
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uint32_t num;
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size_t num;
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size_t num_entries;
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table = relative_offset(fsp, offset);
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if ((offset + sizeof(*table) > size) ||
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(table->header_length + offset) > size) {
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(le16toh(table->header_length) + offset) > size) {
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printk(BIOS_ERR, "FSPP not entirely contained in region.\n");
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return -1;
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}
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printk(FSP_DBG_LVL, "FSPP relocs: %x\n", table->patch_entry_num);
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num_entries = le32toh(table->patch_entry_num);
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printk(FSP_DBG_LVL, "FSPP relocs: %zx\n", num_entries);
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for (num = 0; num < table->patch_entry_num; num++) {
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uint32_t *reloc;
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uint32_t reloc_val;
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reloc = fspp_reloc(fsp, size, table->patch_entries[num]);
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reloc = fspp_reloc(fsp, size,
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le32toh(table->patch_entries[num]));
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if (reloc == NULL) {
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printk(BIOS_ERR, "Ignoring FSPP entry: %x\n",
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table->patch_entries[num]);
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le32toh(table->patch_entries[num]));
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continue;
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}
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reloc_val = le32toh(*reloc);
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printk(FSP_DBG_LVL, "Adjusting %p %x -> %x\n",
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reloc, *reloc, (unsigned int)(*reloc + adjustment));
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reloc, reloc_val,
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(unsigned int)(reloc_val + adjustment));
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*reloc += adjustment;
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*reloc = htole32(reloc_val + adjustment);
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}
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return 0;
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fih_offset += section_data_offset(csh);
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fih = relative_offset(fsp, fih_offset);
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if (memcmp(&ffsfh->Name, &fih_guid, sizeof(fih_guid))) {
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if (guid_compare(&ffsfh->Name, &fih_guid)) {
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printk(BIOS_ERR, "Bad FIH GUID.\n");
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return -1;
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}
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if (csh->Type != EFI_SECTION_RAW) {
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if (le8toh(csh->Type) != EFI_SECTION_RAW) {
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printk(BIOS_ERR, "FIH file should have raw section: %x\n",
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csh->Type);
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return -1;
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}
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if (fih->Signature != FSP_SIG) {
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if (le32toh(fih->Signature) != FSP_SIG) {
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printk(BIOS_ERR, "Unexpected FIH signature: %08x\n",
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fih->Signature);
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le32toh(fih->Signature));
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return -1;
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}
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adjustment = (intptr_t)new_addr - fih->ImageBase;
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adjustment = (intptr_t)new_addr - le32toh(fih->ImageBase);
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/* Update ImageBase to reflect FSP's new home. */
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fih->ImageBase += adjustment;
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fih->ImageBase = htole32(adjustment + le32toh(fih->ImageBase));
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/* Need to find patch table and adjust each entry. The tables
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* following FSP_INFO_HEADER have a 32-bit signature and header
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* length. The patch table is denoted as having a 'FSPP' signature;
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* the table format doesn't follow the other tables. */
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offset = fih_offset + fih->HeaderLength;
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offset = fih_offset + le32toh(fih->HeaderLength);
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while (offset + 2 * sizeof(uint32_t) <= size) {
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uint32_t *table_headers;
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printk(FSP_DBG_LVL, "Checking offset %zx for 'FSPP'\n",
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offset);
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if (table_headers[0] != FSPP_SIG) {
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offset += table_headers[1];
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if (le32toh(table_headers[0]) != FSPP_SIG) {
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offset += le32toh(table_headers[1]);
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continue;
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}
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@ -350,41 +389,44 @@ static ssize_t relocate_fvh(uintptr_t new_addr, void *fsp, size_t fsp_size,
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size_t offset;
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size_t file_offset;
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size_t size;
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size_t fv_length;
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offset = fvh_offset;
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fvh = relative_offset(fsp, offset);
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if (fvh->Signature != EFI_FVH_SIGNATURE)
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if (le32toh(fvh->Signature) != EFI_FVH_SIGNATURE)
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return -1;
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fv_length = le64toh(fvh->FvLength);
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printk(FSP_DBG_LVL, "FVH length: %zx Offset: %zx Mapping length: %zx\n",
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(size_t)fvh->FvLength, offset, fsp_size);
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fv_length, offset, fsp_size);
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if (fvh->FvLength + offset > fsp_size)
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return -1;
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/* Parse only this FV. However, the algorithm uses offsets into the
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* entire FSP region so make size include the starting offset. */
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size = fvh->FvLength + offset;
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size = fv_length + offset;
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if (memcmp(&fvh->FileSystemGuid, &ffs2_guid, sizeof(ffs2_guid))) {
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if (guid_compare(&fvh->FileSystemGuid, &ffs2_guid)) {
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printk(BIOS_ERR, "FVH not an FFS2 type.\n");
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return -1;
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}
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if (fvh->ExtHeaderOffset != 0) {
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if (le16toh(fvh->ExtHeaderOffset) != 0) {
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EFI_FIRMWARE_VOLUME_EXT_HEADER *fveh;
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offset += fvh->ExtHeaderOffset;
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offset += le16toh(fvh->ExtHeaderOffset);
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fveh = relative_offset(fsp, offset);
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printk(FSP_DBG_LVL, "Extended Header Offset: %zx Size: %zx\n",
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(size_t)fvh->ExtHeaderOffset,
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(size_t)fveh->ExtHeaderSize);
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offset += fveh->ExtHeaderSize;
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(size_t)le16toh(fvh->ExtHeaderOffset),
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(size_t)le32toh(fveh->ExtHeaderSize));
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offset += le32toh(fveh->ExtHeaderSize);
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/* FFS files are 8 byte aligned after extended header. */
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offset = ALIGN_UP(offset, 8);
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} else {
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offset += fvh->HeaderLength;
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offset += le16toh(fvh->HeaderLength);
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}
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file_offset = offset;
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@ -398,11 +440,12 @@ static ssize_t relocate_fvh(uintptr_t new_addr, void *fsp, size_t fsp_size,
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ffsfh = relative_offset(fsp, file_offset);
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printk(FSP_DBG_LVL, "file type = %x\n", ffsfh->Type);
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printk(FSP_DBG_LVL, "file attribs = %x\n", ffsfh->Attributes);
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printk(FSP_DBG_LVL, "file type = %x\n", le8toh(ffsfh->Type));
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printk(FSP_DBG_LVL, "file attribs = %x\n",
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le8toh(ffsfh->Attributes));
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/* Exit FV relocation when empty space found */
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if (ffsfh->Type == EFI_FV_FILETYPE_FFS_MAX)
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if (le8toh(ffsfh->Type) == EFI_FV_FILETYPE_FFS_MAX)
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break;
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/* Next file on 8 byte alignment. */
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@ -410,7 +453,7 @@ static ssize_t relocate_fvh(uintptr_t new_addr, void *fsp, size_t fsp_size,
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file_offset = ALIGN_UP(file_offset, 8);
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/* Padding files have no section information. */
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if (ffsfh->Type == EFI_FV_FILETYPE_FFS_PAD)
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if (le8toh(ffsfh->Type) == EFI_FV_FILETYPE_FFS_PAD)
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continue;
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offset += file_section_offset(ffsfh);
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@ -422,7 +465,8 @@ static ssize_t relocate_fvh(uintptr_t new_addr, void *fsp, size_t fsp_size,
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csh = relative_offset(fsp, offset);
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printk(FSP_DBG_LVL, "section offset: %zx\n", offset);
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printk(FSP_DBG_LVL, "section type: %x\n", csh->Type);
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printk(FSP_DBG_LVL, "section type: %x\n",
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le8toh(csh->Type));
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data_size = section_data_size(csh);
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data_offset = section_data_offset(csh);
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@ -441,7 +485,7 @@ static ssize_t relocate_fvh(uintptr_t new_addr, void *fsp, size_t fsp_size,
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* relocated address based on the TE offset within
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* FSP proper.
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*/
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if (csh->Type == EFI_SECTION_TE) {
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if (le8toh(csh->Type) == EFI_SECTION_TE) {
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void *te;
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size_t te_offset = offset + data_offset;
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uintptr_t te_addr = new_addr + te_offset;
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||||
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@ -459,7 +503,7 @@ static ssize_t relocate_fvh(uintptr_t new_addr, void *fsp, size_t fsp_size,
|
|||
}
|
||||
|
||||
/* Return amount of buffer parsed: FV size. */
|
||||
return fvh->FvLength;
|
||||
return fv_length;
|
||||
}
|
||||
|
||||
static ssize_t fsp1_1_relocate(uintptr_t new_addr, void *fsp, size_t size)
|
||||
|
|
Loading…
Reference in New Issue