tests/kernel_rollback_tests.c - mirrors/cros/chromiumos/platform/vboot_reference - Git at Google

 /* Copyright (c) 2010 The Chromium OS Authors. All rights reserved.
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  *
  * Tests for checking kernel rollback-prevention logic.
  */

 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>

 #include "cryptolib.h"
 #include "file_keys.h"
 #include "kernel_image.h"
 #include "rollback_index.h"
 #include "test_common.h"
 #include "utility.h"

 const char* kFirmwareKeyPublicFile = "testkeys/key_rsa1024.keyb";

 /* Tests that check for correctness of the VerifyFirmwareDriver_f() logic
  * and rollback prevention. */
 void VerifyKernelDriverTest(void) {
   uint64_t len;
   uint8_t* firmware_key_pub = BufferFromFile(kFirmwareKeyPublicFile, &len);

   /* TODO(gauravsh): Rebase this to use LoadKernel() (maybe by making
    * it a part of load_kernel_test.c */
 #if 0
   /* Initialize kernel blobs, including their associated parition
    * table attributed. */
   kernel_entry valid_kernelA =  {
     GenerateRollbackTestKernelBlob(1, 1, 0),
     15,  /* Highest Priority. */
     5,  /* Enough for tests. */
     0  /* Assume we haven't boot off it yet. */
   };
   kernel_entry corrupt_kernelA = {
     GenerateRollbackTestKernelBlob(1, 1, 1),
     15,  /* Highest Priority. */
     5,  /* Enough for tests. */
     0  /* Assume we haven't boot off it yet. */
   };
   kernel_entry valid_kernelB = {
     GenerateRollbackTestKernelBlob(1, 1, 0),
     1,  /* Lower Priority. */
     5,  /* Enough for tests. */
     0  /* Assume we haven't boot off it yet. */
   };
   kernel_entry corrupt_kernelB = {
     GenerateRollbackTestKernelBlob(1, 1, 1),
     1,  /* Lower Priority. */
     5,  /* Enough for tests. */
     0  /* Assume we haven't boot off it yet. */
   };

   /* Initialize rollback index state. */
   g_kernel_key_version = 1;
   g_kernel_version = 1;

   /* Note: This test just checks the rollback prevention mechanism and not
    * the full blown kernel boot logic. Updates to the kernel attributes
    * in the paritition table are not tested.
    */
   VBDEBUG(("Kernel A boot priority(15) > Kernel B boot priority(1)\n"));
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &valid_kernelA, &valid_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_A_CONTINUE,
           "(Valid Kernel A (current version)\n"
           " Valid Kernel B (current version) runs A):");
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &corrupt_kernelA, &valid_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_B_CONTINUE,
           "(Corrupt Kernel A (current version)\n"
           " Valid Kernel B (current version) runs B):");
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &valid_kernelA, &corrupt_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_A_CONTINUE,
           "(Valid Kernel A (current version)\n"
           " Corrupt Kernel B (current version) runs A):");
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &corrupt_kernelA, &corrupt_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_RECOVERY_CONTINUE,
           "(Corrupt Kernel A (current version)\n"
           " Corrupt Kernel B (current version) runs Recovery):");

   VBDEBUG(("\nSwapping boot priorities...\n"
            "Kernel B boot priority(15) > Kernel A boot priority(1)\n"));
   valid_kernelA.boot_priority = corrupt_kernelA.boot_priority = 1;
   valid_kernelB.boot_priority = corrupt_kernelB.boot_priority = 15;
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &valid_kernelA, &valid_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_B_CONTINUE,
           "(Valid Kernel A (current version)\n"
           " Valid Kernel B (current version) runs B):");
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &corrupt_kernelA, &valid_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_B_CONTINUE,
           "(Corrupt Kernel A (current version)\n"
           " Valid Kernel B (current version) runs B):");
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &valid_kernelA, &corrupt_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_A_CONTINUE,
           "(Valid Kernel A (current version)\n"
           " Corrupt Kernel B (current version) runs A):");
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &corrupt_kernelA, &corrupt_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_RECOVERY_CONTINUE,
           "(Corrupt Kernel A (current version)\n"
           " Corrupt Kernel B (current version) runs Recovery):");

   VBDEBUG(("\nUpdating stored version information. Obsoleting "
            "exiting kernel images.\n"));
   g_kernel_key_version = 2;
   g_kernel_version = 2;
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &valid_kernelA, &valid_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_RECOVERY_CONTINUE,
           "(Valid Kernel A (old version)\n"
           " Valid Kernel B (old version) runs Recovery):");

   VBDEBUG(("\nGenerating updated Kernel A blob with "
            "new version.\n"));
   Free(valid_kernelA.kernel_blob);
   valid_kernelA.kernel_blob = GenerateRollbackTestKernelBlob(3, 3, 0);
   TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
                                &valid_kernelA, &valid_kernelB,
                                DEV_MODE_DISABLED),
           BOOT_KERNEL_A_CONTINUE,
           "(Valid Kernel A (new version)\n"
           " Valid Kernel B (old version) runs A):");
   Free(valid_kernelA.kernel_blob);
   Free(valid_kernelB.kernel_blob);
   Free(corrupt_kernelA.kernel_blob);
   Free(corrupt_kernelB.kernel_blob);
 #endif

   Free(firmware_key_pub);
 }

 int main(int argc, char* argv[]) {
   int error_code = 0;
   VerifyKernelDriverTest();
   if (!gTestSuccess)
     error_code = 255;
   return error_code;
 }
	/* Copyright (c) 2010 The Chromium OS Authors. All rights reserved.
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*
	* Tests for checking kernel rollback-prevention logic.
	*/

	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>

	#include "cryptolib.h"
	#include "file_keys.h"
	#include "kernel_image.h"
	#include "rollback_index.h"
	#include "test_common.h"
	#include "utility.h"

	const char* kFirmwareKeyPublicFile = "testkeys/key_rsa1024.keyb";

	/* Tests that check for correctness of the VerifyFirmwareDriver_f() logic
	* and rollback prevention. */
	void VerifyKernelDriverTest(void) {
	uint64_t len;
	uint8_t* firmware_key_pub = BufferFromFile(kFirmwareKeyPublicFile, &len);

	/* TODO(gauravsh): Rebase this to use LoadKernel() (maybe by making
	* it a part of load_kernel_test.c */
	#if 0
	/* Initialize kernel blobs, including their associated parition
	* table attributed. */
	kernel_entry valid_kernelA = {
	GenerateRollbackTestKernelBlob(1, 1, 0),
	15, /* Highest Priority. */
	5, /* Enough for tests. */
	0 /* Assume we haven't boot off it yet. */
	};
	kernel_entry corrupt_kernelA = {
	GenerateRollbackTestKernelBlob(1, 1, 1),
	15, /* Highest Priority. */
	5, /* Enough for tests. */
	0 /* Assume we haven't boot off it yet. */
	};
	kernel_entry valid_kernelB = {
	GenerateRollbackTestKernelBlob(1, 1, 0),
	1, /* Lower Priority. */
	5, /* Enough for tests. */
	0 /* Assume we haven't boot off it yet. */
	};
	kernel_entry corrupt_kernelB = {
	GenerateRollbackTestKernelBlob(1, 1, 1),
	1, /* Lower Priority. */
	5, /* Enough for tests. */
	0 /* Assume we haven't boot off it yet. */
	};

	/* Initialize rollback index state. */
	g_kernel_key_version = 1;
	g_kernel_version = 1;

	/* Note: This test just checks the rollback prevention mechanism and not
	* the full blown kernel boot logic. Updates to the kernel attributes
	* in the paritition table are not tested.
	*/
	VBDEBUG(("Kernel A boot priority(15) > Kernel B boot priority(1)\n"));
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&valid_kernelA, &valid_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_A_CONTINUE,
	"(Valid Kernel A (current version)\n"
	" Valid Kernel B (current version) runs A):");
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&corrupt_kernelA, &valid_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_B_CONTINUE,
	"(Corrupt Kernel A (current version)\n"
	" Valid Kernel B (current version) runs B):");
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&valid_kernelA, &corrupt_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_A_CONTINUE,
	"(Valid Kernel A (current version)\n"
	" Corrupt Kernel B (current version) runs A):");
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&corrupt_kernelA, &corrupt_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_RECOVERY_CONTINUE,
	"(Corrupt Kernel A (current version)\n"
	" Corrupt Kernel B (current version) runs Recovery):");

	VBDEBUG(("\nSwapping boot priorities...\n"
	"Kernel B boot priority(15) > Kernel A boot priority(1)\n"));
	valid_kernelA.boot_priority = corrupt_kernelA.boot_priority = 1;
	valid_kernelB.boot_priority = corrupt_kernelB.boot_priority = 15;
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&valid_kernelA, &valid_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_B_CONTINUE,
	"(Valid Kernel A (current version)\n"
	" Valid Kernel B (current version) runs B):");
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&corrupt_kernelA, &valid_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_B_CONTINUE,
	"(Corrupt Kernel A (current version)\n"
	" Valid Kernel B (current version) runs B):");
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&valid_kernelA, &corrupt_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_A_CONTINUE,
	"(Valid Kernel A (current version)\n"
	" Corrupt Kernel B (current version) runs A):");
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&corrupt_kernelA, &corrupt_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_RECOVERY_CONTINUE,
	"(Corrupt Kernel A (current version)\n"
	" Corrupt Kernel B (current version) runs Recovery):");

	VBDEBUG(("\nUpdating stored version information. Obsoleting "
	"exiting kernel images.\n"));
	g_kernel_key_version = 2;
	g_kernel_version = 2;
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&valid_kernelA, &valid_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_RECOVERY_CONTINUE,
	"(Valid Kernel A (old version)\n"
	" Valid Kernel B (old version) runs Recovery):");

	VBDEBUG(("\nGenerating updated Kernel A blob with "
	"new version.\n"));
	Free(valid_kernelA.kernel_blob);
	valid_kernelA.kernel_blob = GenerateRollbackTestKernelBlob(3, 3, 0);
	TEST_EQ(VerifyKernelDriver_f(firmware_key_pub,
	&valid_kernelA, &valid_kernelB,
	DEV_MODE_DISABLED),
	BOOT_KERNEL_A_CONTINUE,
	"(Valid Kernel A (new version)\n"
	" Valid Kernel B (old version) runs A):");
	Free(valid_kernelA.kernel_blob);
	Free(valid_kernelB.kernel_blob);
	Free(corrupt_kernelA.kernel_blob);
	Free(corrupt_kernelB.kernel_blob);
	#endif

	Free(firmware_key_pub);
	}

	int main(int argc, char* argv[]) {
	int error_code = 0;
	VerifyKernelDriverTest();
	if (!gTestSuccess)
	error_code = 255;
	return error_code;
	}