mirror of
https://github.com/Telecominfraproject/OpenCellular.git
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fc70d72aaa
Refactor and restructure reference code into individual self-contain modules. I have revamped the way the code is structured to make it easy to determine which parts belong in the firmware and which are used by userland tools. common/ - common utilities and stub functions (Firmware) cryptolib/ - crypto library (Firmware) misclibs/ - miscellaneous userland libraries (Userland) sctips/ - Miscellaenous scripts (Userland) tests/ - Tests (Userland) vfirmware/ - Verified Firmware Implementation vfirmware/firmware_image_fw.c (Firmware) vfirmware/firmware_image.c (Userland) vkernel/ - Verified Kernel Implementation vkernel/kernel_image_fw.c (Firmware) vkernel/kernel_image.c (Userland) Review URL: http://codereview.chromium.org/1581005
557 lines
20 KiB
C
557 lines
20 KiB
C
/* Copyright (c) 2010 The Chromium OS Authors. All rights reserved.
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*
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* Functions for generating and manipulating a verified boot kernel image.
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* (Userland portion)
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*/
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#include "kernel_image.h"
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#include <fcntl.h>
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#include <stdio.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <unistd.h>
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#include "cryptolib.h"
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#include "file_keys.h"
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#include "rollback_index.h"
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#include "signature_digest.h"
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#include "utility.h"
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/* Macro to determine the size of a field structure in the KernelImage
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* structure. */
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#define FIELD_LEN(field) (sizeof(((KernelImage*)0)->field))
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KernelImage* KernelImageNew(void) {
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KernelImage* image = (KernelImage*) Malloc(sizeof(KernelImage));
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if (image) {
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image->kernel_sign_key = NULL;
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image->kernel_key_signature = NULL;
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image->config_signature = NULL;
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image->kernel_signature = NULL;
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image->kernel_data = NULL;
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}
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return image;
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}
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void KernelImageFree(KernelImage* image) {
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if (image) {
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Free(image->kernel_sign_key);
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Free(image->kernel_key_signature);
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Free(image->config_signature);
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Free(image->kernel_signature);
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Free(image->kernel_data);
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Free(image);
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}
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}
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KernelImage* ReadKernelImage(const char* input_file) {
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uint64_t file_size;
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int image_len = 0; /* Total size of the kernel image. */
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int header_len = 0;
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int firmware_sign_key_len;
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int kernel_key_signature_len;
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int kernel_sign_key_len;
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int kernel_signature_len;
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uint8_t* kernel_buf;
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uint8_t header_checksum[FIELD_LEN(header_checksum)];
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MemcpyState st;
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KernelImage* image = KernelImageNew();
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if (!image)
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return NULL;
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kernel_buf = BufferFromFile(input_file, &file_size);
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image_len = file_size;
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st.remaining_len = image_len;
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st.remaining_buf = kernel_buf;
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st.overrun = 0;
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/* Read and compare magic bytes. */
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StatefulMemcpy(&st, &image->magic, KERNEL_MAGIC_SIZE);
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if (SafeMemcmp(image->magic, KERNEL_MAGIC, KERNEL_MAGIC_SIZE)) {
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debug("Wrong Kernel Magic.\n");
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Free(kernel_buf);
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return NULL;
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}
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StatefulMemcpy(&st, &image->header_version, FIELD_LEN(header_version));
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StatefulMemcpy(&st, &image->header_len, FIELD_LEN(header_len));
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StatefulMemcpy(&st, &image->firmware_sign_algorithm,
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FIELD_LEN(firmware_sign_algorithm));
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StatefulMemcpy(&st, &image->kernel_sign_algorithm,
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FIELD_LEN(kernel_sign_algorithm));
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/* Valid Kernel Key signing algorithm. */
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if (image->firmware_sign_algorithm >= kNumAlgorithms) {
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Free(kernel_buf);
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return NULL;
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}
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/* Valid Kernel Signing Algorithm? */
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if (image->kernel_sign_algorithm >= kNumAlgorithms) {
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Free(kernel_buf);
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return NULL;
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}
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/* Compute size of pre-processed RSA public keys and signatures. */
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firmware_sign_key_len = RSAProcessedKeySize(image->firmware_sign_algorithm);
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kernel_key_signature_len = siglen_map[image->firmware_sign_algorithm];
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kernel_sign_key_len = RSAProcessedKeySize(image->kernel_sign_algorithm);
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kernel_signature_len = siglen_map[image->kernel_sign_algorithm];
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/* Check whether key header length is correct. */
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header_len = GetKernelHeaderLen(image);
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if (header_len != image->header_len) {
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debug("Header length mismatch. Got: %d, Expected: %d\n",
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image->header_len, header_len);
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Free(kernel_buf);
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return NULL;
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}
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/* Read pre-processed public half of the kernel signing key. */
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StatefulMemcpy(&st, &image->kernel_key_version,
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FIELD_LEN(kernel_key_version));
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image->kernel_sign_key = (uint8_t*) Malloc(kernel_sign_key_len);
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StatefulMemcpy(&st, image->kernel_sign_key, kernel_sign_key_len);
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StatefulMemcpy(&st, image->header_checksum, FIELD_LEN(header_checksum));
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/* Check whether the header checksum matches. */
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CalculateKernelHeaderChecksum(image, header_checksum);
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if (SafeMemcmp(header_checksum, image->header_checksum,
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FIELD_LEN(header_checksum))) {
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debug("Invalid kernel header checksum!\n");
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Free(kernel_buf);
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return NULL;
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}
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/* Read key signature. */
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image->kernel_key_signature = (uint8_t*) Malloc(kernel_key_signature_len);
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StatefulMemcpy(&st, image->kernel_key_signature,
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kernel_key_signature_len);
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/* Read the kernel config. */
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StatefulMemcpy(&st, &image->kernel_version, FIELD_LEN(kernel_version));
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StatefulMemcpy(&st, &image->options.version, FIELD_LEN(options.version));
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StatefulMemcpy(&st, &image->options.cmd_line, FIELD_LEN(options.cmd_line));
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StatefulMemcpy(&st, &image->options.kernel_len,
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FIELD_LEN(options.kernel_len));
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StatefulMemcpy(&st, &image->options.kernel_load_addr,
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FIELD_LEN(options.kernel_load_addr));
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StatefulMemcpy(&st, &image->options.kernel_entry_addr,
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FIELD_LEN(options.kernel_entry_addr));
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/* Read kernel config signature. */
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image->config_signature = (uint8_t*) Malloc(kernel_signature_len);
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StatefulMemcpy(&st, image->config_signature, kernel_signature_len);
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image->kernel_signature = (uint8_t*) Malloc(kernel_signature_len);
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StatefulMemcpy(&st, image->kernel_signature, kernel_signature_len);
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image->kernel_data = (uint8_t*) Malloc(image->options.kernel_len);
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StatefulMemcpy(&st, image->kernel_data, image->options.kernel_len);
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if(st.overrun || st.remaining_len != 0) { /* Overrun or underrun. */
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Free(kernel_buf);
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return NULL;
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}
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Free(kernel_buf);
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return image;
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}
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int GetKernelHeaderLen(const KernelImage* image) {
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return (FIELD_LEN(header_version) + FIELD_LEN(header_len) +
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FIELD_LEN(firmware_sign_algorithm) +
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FIELD_LEN(kernel_sign_algorithm) + FIELD_LEN(kernel_key_version) +
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RSAProcessedKeySize(image->kernel_sign_algorithm) +
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FIELD_LEN(header_checksum));
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}
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void CalculateKernelHeaderChecksum(const KernelImage* image,
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uint8_t* header_checksum) {
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uint8_t* checksum;
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DigestContext ctx;
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DigestInit(&ctx, SHA512_DIGEST_ALGORITHM);
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DigestUpdate(&ctx, (uint8_t*) &image->header_version,
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sizeof(image->header_version));
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DigestUpdate(&ctx, (uint8_t*) &image->header_len,
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sizeof(image->header_len));
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DigestUpdate(&ctx, (uint8_t*) &image->firmware_sign_algorithm,
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sizeof(image->firmware_sign_algorithm));
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DigestUpdate(&ctx, (uint8_t*) &image->kernel_sign_algorithm,
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sizeof(image->kernel_sign_algorithm));
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DigestUpdate(&ctx, (uint8_t*) &image->kernel_key_version,
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sizeof(image->kernel_key_version));
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DigestUpdate(&ctx, image->kernel_sign_key,
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RSAProcessedKeySize(image->kernel_sign_algorithm));
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checksum = DigestFinal(&ctx);
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Memcpy(header_checksum, checksum, FIELD_LEN(header_checksum));
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Free(checksum);
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return;
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}
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uint8_t* GetKernelHeaderBlob(const KernelImage* image) {
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uint8_t* header_blob = NULL;
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MemcpyState st;
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header_blob = (uint8_t*) Malloc(GetKernelHeaderLen(image));
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st.remaining_len = GetKernelHeaderLen(image);
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st.remaining_buf = header_blob;
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st.overrun = 0;
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StatefulMemcpy_r(&st, &image->header_version, FIELD_LEN(header_version));
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StatefulMemcpy_r(&st, &image->header_len, FIELD_LEN(header_len));
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StatefulMemcpy_r(&st, &image->firmware_sign_algorithm,
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FIELD_LEN(firmware_sign_algorithm));
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StatefulMemcpy_r(&st, &image->kernel_sign_algorithm,
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FIELD_LEN(kernel_sign_algorithm));
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StatefulMemcpy_r(&st, &image->kernel_key_version,
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FIELD_LEN(kernel_key_version));
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StatefulMemcpy_r(&st, image->kernel_sign_key,
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RSAProcessedKeySize(image->kernel_sign_algorithm));
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StatefulMemcpy_r(&st, &image->header_checksum, FIELD_LEN(header_checksum));
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if (st.overrun || st.remaining_len != 0) { /* Underrun or Overrun. */
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Free(header_blob);
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return NULL;
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}
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return header_blob;
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}
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int GetKernelConfigLen() {
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return (FIELD_LEN(kernel_version) +
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FIELD_LEN(options.version) + FIELD_LEN(options.cmd_line) +
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FIELD_LEN(options.kernel_len) + FIELD_LEN(options.kernel_load_addr) +
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FIELD_LEN(options.kernel_entry_addr));
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}
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uint8_t* GetKernelConfigBlob(const KernelImage* image) {
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uint8_t* config_blob = NULL;
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MemcpyState st;
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config_blob = (uint8_t*) Malloc(GetKernelConfigLen());
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st.remaining_len = GetKernelConfigLen();
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st.remaining_buf = config_blob;
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st.overrun = 0;
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StatefulMemcpy_r(&st, &image->kernel_version, FIELD_LEN(kernel_version));
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StatefulMemcpy_r(&st, image->options.version, FIELD_LEN(options.version));
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StatefulMemcpy_r(&st, image->options.cmd_line, FIELD_LEN(options.cmd_line));
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StatefulMemcpy_r(&st, &image->options.kernel_len,
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FIELD_LEN(options.kernel_len));
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StatefulMemcpy_r(&st, &image->options.kernel_load_addr,
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FIELD_LEN(options.kernel_load_addr));
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StatefulMemcpy_r(&st, &image->options.kernel_entry_addr,
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FIELD_LEN(options.kernel_entry_addr));
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if (st.overrun || st.remaining_len != 0) { /* Overrun or Underrun. */
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Free(config_blob);
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return NULL;
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}
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return config_blob;
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}
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uint8_t* GetKernelBlob(const KernelImage* image, uint64_t* blob_len) {
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int kernel_key_signature_len;
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int kernel_signature_len;
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uint8_t* kernel_blob = NULL;
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uint8_t* header_blob = NULL;
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uint8_t* config_blob = NULL;
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MemcpyState st;
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if (!image)
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return NULL;
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kernel_key_signature_len = siglen_map[image->firmware_sign_algorithm];
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kernel_signature_len = siglen_map[image->kernel_sign_algorithm];
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*blob_len = (FIELD_LEN(magic) +
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GetKernelHeaderLen(image) +
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kernel_key_signature_len +
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GetKernelConfigLen() +
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2 * kernel_signature_len +
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image->options.kernel_len);
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kernel_blob = (uint8_t*) Malloc(*blob_len);
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st.remaining_len = *blob_len;
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st.remaining_buf = kernel_blob;
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st.overrun = 0;
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header_blob = GetKernelHeaderBlob(image);
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config_blob = GetKernelConfigBlob(image);
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StatefulMemcpy_r(&st, image->magic, FIELD_LEN(magic));
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StatefulMemcpy_r(&st, header_blob, GetKernelHeaderLen(image));
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StatefulMemcpy_r(&st, image->kernel_key_signature, kernel_key_signature_len);
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StatefulMemcpy_r(&st, config_blob, GetKernelConfigLen());
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StatefulMemcpy_r(&st, image->config_signature, kernel_signature_len);
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StatefulMemcpy_r(&st, image->kernel_signature, kernel_signature_len);
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StatefulMemcpy_r(&st, image->kernel_data, image->options.kernel_len);
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Free(config_blob);
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Free(header_blob);
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if (st.overrun || st.remaining_len != 0) { /* Underrun or Overrun. */
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Free(kernel_blob);
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return NULL;
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}
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return kernel_blob;
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}
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int WriteKernelImage(const char* input_file,
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const KernelImage* image) {
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int fd;
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uint8_t* kernel_blob;
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uint64_t blob_len;
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if (!image)
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return 0;
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if (-1 == (fd = creat(input_file, S_IRWXU))) {
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debug("Couldn't open file for writing kernel image: %s\n",
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input_file);
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return 0;
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}
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kernel_blob = GetKernelBlob(image, &blob_len);
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if (!kernel_blob) {
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debug("Couldn't create kernel blob from KernelImage.\n");
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return 0;
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}
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if (blob_len != write(fd, kernel_blob, blob_len)) {
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debug("Couldn't write Kernel Image to file: %s\n",
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input_file);
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Free(kernel_blob);
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close(fd);
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return 0;
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}
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Free(kernel_blob);
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close(fd);
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return 1;
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}
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void PrintKernelImage(const KernelImage* image) {
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if (!image)
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return;
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/* Print header. */
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printf("Header Version = %d\n"
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"Header Length = %d\n"
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"Kernel Key Signature Algorithm = %s\n"
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"Kernel Signature Algorithm = %s\n"
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"Kernel Key Version = %d\n\n",
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image->header_version,
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image->header_len,
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algo_strings[image->firmware_sign_algorithm],
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algo_strings[image->kernel_sign_algorithm],
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image->kernel_key_version);
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/* TODO(gauravsh): Output hash and key signature here? */
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/* Print preamble. */
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printf("Kernel Version = %d\n"
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"Kernel Config Version = %d.%d\n"
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"Kernel Config command line = \"%s\"\n"
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"kernel Length = %" PRId64 "\n"
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"Kernel Load Address = %" PRId64 "\n"
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"Kernel Entry Address = %" PRId64 "\n\n",
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image->kernel_version,
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image->options.version[0], image->options.version[1],
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image->options.cmd_line,
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image->options.kernel_len,
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image->options.kernel_load_addr,
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image->options.kernel_entry_addr);
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/* TODO(gauravsh): Output kernel signature here? */
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}
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int VerifyKernelImage(const RSAPublicKey* firmware_key,
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const KernelImage* image,
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const int dev_mode) {
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RSAPublicKey* kernel_sign_key = NULL;
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uint8_t* header_digest = NULL;
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uint8_t* config_digest = NULL;
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uint8_t* kernel_digest = NULL;
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int kernel_sign_key_size;
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int kernel_signature_size;
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int error_code = 0;
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DigestContext ctx;
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DigestContext kernel_ctx;
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if (!image)
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return VERIFY_KERNEL_INVALID_IMAGE;
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/* Verify kernel key signature on the key header if we
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* are not in dev mode.
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*
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* TODO(gauravsh): Add additional sanity checks here for:
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* 1) verifying the header length is correct.
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* 2) header_checksum is correct.
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*/
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if (image->firmware_sign_algorithm >= kNumAlgorithms)
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return VERIFY_KERNEL_INVALID_ALGORITHM;
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if (image->kernel_sign_algorithm >= kNumAlgorithms)
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return VERIFY_KERNEL_INVALID_ALGORITHM;
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if (!dev_mode) {
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DigestInit(&ctx, image->firmware_sign_algorithm);
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DigestUpdate(&ctx, (uint8_t*) &image->header_version,
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FIELD_LEN(header_version));
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DigestUpdate(&ctx, (uint8_t*) &image->header_len,
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FIELD_LEN(header_len));
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DigestUpdate(&ctx, (uint8_t*) &image->firmware_sign_algorithm,
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FIELD_LEN(firmware_sign_algorithm));
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DigestUpdate(&ctx, (uint8_t*) &image->kernel_sign_algorithm,
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FIELD_LEN(kernel_sign_algorithm));
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DigestUpdate(&ctx, (uint8_t*) &image->kernel_key_version,
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FIELD_LEN(kernel_key_version));
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DigestUpdate(&ctx, image->kernel_sign_key,
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RSAProcessedKeySize(image->kernel_sign_algorithm));
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DigestUpdate(&ctx, image->header_checksum,
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FIELD_LEN(header_checksum));
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header_digest = DigestFinal(&ctx);
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if (!RSAVerify(firmware_key, image->kernel_key_signature,
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siglen_map[image->firmware_sign_algorithm],
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image->firmware_sign_algorithm,
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header_digest)) {
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debug("VerifyKernelImage(): Key signature check failed.\n");
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error_code = VERIFY_KERNEL_KEY_SIGNATURE_FAILED;
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goto verify_failure;
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}
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}
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/* Get kernel signing key to verify the rest of the kernel. */
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kernel_sign_key_size = RSAProcessedKeySize(image->kernel_sign_algorithm);
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kernel_sign_key = RSAPublicKeyFromBuf(image->kernel_sign_key,
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kernel_sign_key_size);
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kernel_signature_size = siglen_map[image->kernel_sign_algorithm];
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/* Verify kernel config signature. */
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DigestInit(&ctx, image->kernel_sign_algorithm);
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DigestUpdate(&ctx, (uint8_t*) &image->kernel_version,
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FIELD_LEN(kernel_version));
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DigestUpdate(&ctx, (uint8_t*) image->options.version,
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FIELD_LEN(options.version));
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DigestUpdate(&ctx, (uint8_t*) image->options.cmd_line,
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FIELD_LEN(options.cmd_line));
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DigestUpdate(&ctx, (uint8_t*) &image->options.kernel_len,
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FIELD_LEN(options.kernel_len));
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DigestUpdate(&ctx, (uint8_t*) &image->options.kernel_load_addr,
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FIELD_LEN(options.kernel_load_addr));
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DigestUpdate(&ctx, (uint8_t*) &image->options.kernel_entry_addr,
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FIELD_LEN(options.kernel_entry_addr));
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config_digest = DigestFinal(&ctx);
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if (!RSAVerify(kernel_sign_key, image->config_signature,
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kernel_signature_size, image->kernel_sign_algorithm,
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config_digest)) {
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error_code = VERIFY_KERNEL_CONFIG_SIGNATURE_FAILED;
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goto verify_failure;
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}
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/* Verify kernel signature - kernel signature is computed on the contents
|
|
of kernel version + kernel options + kernel_data. */
|
|
DigestInit(&kernel_ctx, image->kernel_sign_algorithm);
|
|
DigestUpdate(&kernel_ctx, (uint8_t*) &image->kernel_version,
|
|
FIELD_LEN(kernel_version));
|
|
DigestUpdate(&kernel_ctx, (uint8_t*) image->options.version,
|
|
FIELD_LEN(options.version));
|
|
DigestUpdate(&kernel_ctx, (uint8_t*) image->options.cmd_line,
|
|
FIELD_LEN(options.cmd_line));
|
|
DigestUpdate(&kernel_ctx, (uint8_t*) &image->options.kernel_len,
|
|
FIELD_LEN(options.kernel_len));
|
|
DigestUpdate(&kernel_ctx, (uint8_t*) &image->options.kernel_load_addr,
|
|
FIELD_LEN(options.kernel_load_addr));
|
|
DigestUpdate(&kernel_ctx, (uint8_t*) &image->options.kernel_entry_addr,
|
|
FIELD_LEN(options.kernel_entry_addr));
|
|
DigestUpdate(&kernel_ctx, image->kernel_data, image->options.kernel_len);
|
|
kernel_digest = DigestFinal(&kernel_ctx);
|
|
if (!RSAVerify(kernel_sign_key, image->kernel_signature,
|
|
kernel_signature_size, image->kernel_sign_algorithm,
|
|
kernel_digest)) {
|
|
error_code = VERIFY_KERNEL_SIGNATURE_FAILED;
|
|
goto verify_failure;
|
|
}
|
|
|
|
verify_failure:
|
|
RSAPublicKeyFree(kernel_sign_key);
|
|
Free(kernel_digest);
|
|
Free(config_digest);
|
|
Free(header_digest);
|
|
return error_code;
|
|
}
|
|
|
|
const char* VerifyKernelErrorString(int error) {
|
|
return kVerifyKernelErrors[error];
|
|
}
|
|
|
|
int AddKernelKeySignature(KernelImage* image, const char* firmware_key_file) {
|
|
uint8_t* header_blob = NULL;
|
|
uint8_t* signature = NULL;
|
|
int signature_len = siglen_map[image->firmware_sign_algorithm];
|
|
if (!image || !firmware_key_file)
|
|
return 0;
|
|
header_blob = GetKernelHeaderBlob(image);
|
|
if (!header_blob)
|
|
return 0;
|
|
if (!(signature = SignatureBuf(header_blob,
|
|
GetKernelHeaderLen(image),
|
|
firmware_key_file,
|
|
image->firmware_sign_algorithm))) {
|
|
Free(header_blob);
|
|
return 0;
|
|
}
|
|
image->kernel_key_signature = Malloc(signature_len);
|
|
Memcpy(image->kernel_key_signature, signature, signature_len);
|
|
Free(signature);
|
|
Free(header_blob);
|
|
return 1;
|
|
}
|
|
|
|
int AddKernelSignature(KernelImage* image,
|
|
const char* kernel_signing_key_file) {
|
|
uint8_t* config_blob = NULL;
|
|
uint8_t* config_signature = NULL;
|
|
uint8_t* kernel_signature = NULL;
|
|
uint8_t* kernel_buf;
|
|
int signature_len = siglen_map[image->kernel_sign_algorithm];
|
|
|
|
config_blob = GetKernelConfigBlob(image);
|
|
if (!(config_signature = SignatureBuf(config_blob,
|
|
GetKernelConfigLen(),
|
|
kernel_signing_key_file,
|
|
image->kernel_sign_algorithm))) {
|
|
debug("Could not compute signature on the kernel config.\n");
|
|
Free(config_blob);
|
|
return 0;
|
|
}
|
|
|
|
image->config_signature = (uint8_t*) Malloc(signature_len);
|
|
Memcpy(image->config_signature, config_signature, signature_len);
|
|
Free(config_signature);
|
|
/* Kernel signature muse be calculated on the kernel version, options and
|
|
* kernel data to avoid splicing attacks. */
|
|
kernel_buf = (uint8_t*) Malloc(GetKernelConfigLen() +
|
|
image->options.kernel_len);
|
|
Memcpy(kernel_buf, config_blob, GetKernelConfigLen());
|
|
Memcpy(kernel_buf + GetKernelConfigLen(), image->kernel_data,
|
|
image->options.kernel_len);
|
|
if (!(kernel_signature = SignatureBuf(kernel_buf,
|
|
GetKernelConfigLen() +
|
|
image->options.kernel_len,
|
|
kernel_signing_key_file,
|
|
image->kernel_sign_algorithm))) {
|
|
Free(config_blob);
|
|
Free(kernel_buf);
|
|
debug("Could not compute signature on the kernel.\n");
|
|
return 0;
|
|
}
|
|
image->kernel_signature = (uint8_t*) Malloc(signature_len);
|
|
Memcpy(image->kernel_signature, kernel_signature, signature_len);
|
|
Free(kernel_signature);
|
|
Free(kernel_buf);
|
|
Free(config_blob);
|
|
return 1;
|
|
}
|
|
|
|
void PrintKernelEntry(kernel_entry* entry) {
|
|
debug("Boot Priority = %d\n", entry->boot_priority);
|
|
debug("Boot Tries Remaining = %d\n", entry->boot_tries_remaining);
|
|
debug("Boot Success Flag = %d\n", entry->boot_success_flag);
|
|
}
|