OpenCellular/firmware/lib/rollback_index.c

/* Copyright (c) 2011 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.
 *
 * Functions for querying, manipulating and locking rollback indices
 * stored in the TPM NVRAM.
 */

#include "crc8.h"
#include "rollback_index.h"
#include "tlcl.h"
#include "tss_constants.h"
#include "utility.h"
#include "vboot_api.h"

#ifndef offsetof
#define offsetof(A,B) __builtin_offsetof(A,B)
#endif

#ifdef ROLLBACK_UNITTEST
/* Compiling for unit test, so we need the real implementations of
 * rollback functions.  The unit test mocks the underlying tlcl
 * functions, so this is ok to run on the host. */
#undef CHROMEOS_ENVIRONMENT
#undef DISABLE_ROLLBACK_TPM
#endif

static int g_rollback_recovery_mode = 0;

/* disable MSVC warning on const logical expression (as in } while(0);) */
__pragma(warning (disable: 4127))

#define RETURN_ON_FAILURE(tpm_command) do {             \
    uint32_t result;                                    \
    if ((result = (tpm_command)) != TPM_SUCCESS) {      \
      VBDEBUG(("Rollback: %08x returned by " #tpm_command "\n", (int)result)); \
      return result;                                    \
    }                                                   \
  } while (0)


uint32_t TPMClearAndReenable(void) {
  VBDEBUG(("TPM: Clear and re-enable\n"));
  RETURN_ON_FAILURE(TlclForceClear());
  RETURN_ON_FAILURE(TlclSetEnable());
  RETURN_ON_FAILURE(TlclSetDeactivated(0));

  return TPM_SUCCESS;
}


uint32_t SafeWrite(uint32_t index, const void* data, uint32_t length) {
  uint32_t result = TlclWrite(index, data, length);
  if (result == TPM_E_MAXNVWRITES) {
    RETURN_ON_FAILURE(TPMClearAndReenable());
    return TlclWrite(index, data, length);
  } else {
    return result;
  }
}


uint32_t SafeDefineSpace(uint32_t index, uint32_t perm, uint32_t size) {
  uint32_t result = TlclDefineSpace(index, perm, size);
  if (result == TPM_E_MAXNVWRITES) {
    RETURN_ON_FAILURE(TPMClearAndReenable());
    return TlclDefineSpace(index, perm, size);
  } else {
    return result;
  }
}


/* Functions to read and write firmware and kernel spaces. */
uint32_t ReadSpaceFirmware(RollbackSpaceFirmware* rsf) {
  uint32_t r;
  int attempts = 3;

  while (attempts--) {
    r = TlclRead(FIRMWARE_NV_INDEX, rsf, sizeof(RollbackSpaceFirmware));
    if (r != TPM_SUCCESS)
      return r;

    /* No CRC in this version, so we'll create one when we write it. Note that
     * we're marking this as version 2, not ROLLBACK_SPACE_FIRMWARE_VERSION,
     * because version 2 just added the CRC. Later versions will need to
     * set default values for any extra fields explicitly (probably here). */
    if (rsf->struct_version < 2) {
      rsf->struct_version = 2;          /* Danger Will Robinson! Danger! */
      return TPM_SUCCESS;
    }

    /* If the CRC is good, we're done. If it's bad, try a couple more times to
     * see if it gets better before we give up. It could just be noise. */
    if (rsf->crc8 == Crc8(rsf, offsetof(RollbackSpaceFirmware, crc8)))
      return TPM_SUCCESS;

    VBDEBUG(("TPM: %s() - bad CRC\n", __func__));
  }

  VBDEBUG(("TPM: %s() - too many bad CRCs, giving up\n", __func__));
  return TPM_E_CORRUPTED_STATE;
}

uint32_t WriteSpaceFirmware(RollbackSpaceFirmware* rsf) {
  RollbackSpaceFirmware rsf2;
  uint32_t r;
  int attempts = 3;

  /* All writes should use struct_version 2 or greater. */
  if (rsf->struct_version < 2)
    rsf->struct_version = 2;
  rsf->crc8 = Crc8(rsf, offsetof(RollbackSpaceFirmware, crc8));

  while (attempts--) {
    r = SafeWrite(FIRMWARE_NV_INDEX, rsf, sizeof(RollbackSpaceFirmware));
    /* Can't write, not gonna try again */
    if (r != TPM_SUCCESS)
      return r;

    /* Read it back to be sure it got the right values. */
    r = ReadSpaceFirmware(&rsf2);    /* This checks the CRC */
    if (r == TPM_SUCCESS)
      return r;

    VBDEBUG(("TPM: %s() - bad CRC\n", __func__));
    /* Try writing it again. Maybe it was garbled on the way out. */
  }

  VBDEBUG(("TPM: %s() - too many bad CRCs, giving up\n", __func__));
  return TPM_E_CORRUPTED_STATE;
}

uint32_t SetVirtualDevMode(int val) {
  RollbackSpaceFirmware rsf;

  VBDEBUG(("TPM: Entering %s()\n", __func__));
  if (TPM_SUCCESS != ReadSpaceFirmware(&rsf))
    return VBERROR_TPM_FIRMWARE_SETUP;

  VBDEBUG(("TPM: flags were 0x%02x\n", rsf.flags));
  if (val)
    rsf.flags |= FLAG_VIRTUAL_DEV_MODE_ON;
  else
    rsf.flags &= ~FLAG_VIRTUAL_DEV_MODE_ON;
  /* NOTE: This doesn't update the FLAG_LAST_BOOT_DEVELOPER bit */
  VBDEBUG(("TPM: flags are now 0x%02x\n", rsf.flags));

  if (TPM_SUCCESS != WriteSpaceFirmware(&rsf))
    return VBERROR_TPM_SET_BOOT_MODE_STATE;

  VBDEBUG(("TPM: Leaving %s()\n", __func__));
  return VBERROR_SUCCESS;
}

uint32_t ReadSpaceKernel(RollbackSpaceKernel* rsk) {
  uint32_t r;
  int attempts = 3;

  while (attempts--) {
    r = TlclRead(KERNEL_NV_INDEX, rsk, sizeof(RollbackSpaceKernel));
    if (r != TPM_SUCCESS)
      return r;

    /* No CRC in this version, so we'll create one when we write it. Note that
     * we're marking this as version 2, not ROLLBACK_SPACE_KERNEL_VERSION,
     * because version 2 just added the CRC. Later versions will need to
     * set default values for any extra fields explicitly (probably here). */
    if (rsk->struct_version < 2) {
      rsk->struct_version = 2;          /* Danger Will Robinson! Danger! */
      return TPM_SUCCESS;
    }

    /* If the CRC is good, we're done. If it's bad, try a couple more times to
     * see if it gets better before we give up. It could just be noise. */
    if (rsk->crc8 == Crc8(rsk, offsetof(RollbackSpaceKernel, crc8)))
      return TPM_SUCCESS;

    VBDEBUG(("TPM: %s() - bad CRC\n", __func__));
  }

  VBDEBUG(("TPM: %s() - too many bad CRCs, giving up\n", __func__));
  return TPM_E_CORRUPTED_STATE;
}

uint32_t WriteSpaceKernel(RollbackSpaceKernel* rsk) {
  RollbackSpaceKernel rsk2;
  uint32_t r;
  int attempts = 3;

  /* All writes should use struct_version 2 or greater. */
  if (rsk->struct_version < 2)
    rsk->struct_version = 2;
  rsk->crc8 = Crc8(rsk, offsetof(RollbackSpaceKernel, crc8));

  while (attempts--) {
    r = SafeWrite(KERNEL_NV_INDEX, rsk, sizeof(RollbackSpaceKernel));
    /* Can't write, not gonna try again */
    if (r != TPM_SUCCESS)
      return r;

    /* Read it back to be sure it got the right values. */
    r = ReadSpaceKernel(&rsk2);    /* This checks the CRC */
    if (r == TPM_SUCCESS)
      return r;

    VBDEBUG(("TPM: %s() - bad CRC\n", __func__));
    /* Try writing it again. Maybe it was garbled on the way out. */
  }

  VBDEBUG(("TPM: %s() - too many bad CRCs, giving up\n", __func__));
  return TPM_E_CORRUPTED_STATE;
}


uint32_t OneTimeInitializeTPM(RollbackSpaceFirmware* rsf,
                              RollbackSpaceKernel* rsk) {
  static const RollbackSpaceFirmware rsf_init = {
    .struct_version = ROLLBACK_SPACE_FIRMWARE_VERSION,
  };
  static const RollbackSpaceKernel rsk_init = {
    .struct_version = ROLLBACK_SPACE_KERNEL_VERSION,
    .uid = ROLLBACK_SPACE_KERNEL_UID,
  };
  TPM_PERMANENT_FLAGS pflags;
  uint32_t result;

  VBDEBUG(("TPM: One-time initialization\n"));

  /* Do a full test.  This only happens the first time the device is turned on
   * in the factory, so performance is not an issue.  This is almost certainly
   * not necessary, but it gives us more confidence about some code paths below
   * that are difficult to test---specifically the ones that set lifetime
   * flags, and are only executed once per physical TPM. */
  result = TlclSelfTestFull();
  if (result != TPM_SUCCESS)
    return result;

  result = TlclGetPermanentFlags(&pflags);
  if (result != TPM_SUCCESS)
    return result;

  /* TPM may come from the factory without physical presence finalized.  Fix
   * if necessary. */
  VBDEBUG(("TPM: physicalPresenceLifetimeLock=%d\n",
           pflags.physicalPresenceLifetimeLock));
  if (!pflags.physicalPresenceLifetimeLock) {
    VBDEBUG(("TPM: Finalizing physical presence\n"));
    RETURN_ON_FAILURE(TlclFinalizePhysicalPresence());
  }

  /* The TPM will not enforce the NV authorization restrictions until the
   * execution of a TPM_NV_DefineSpace with the handle of TPM_NV_INDEX_LOCK.
   * Here we create that space if it doesn't already exist. */
  VBDEBUG(("TPM: nvLocked=%d\n", pflags.nvLocked));
  if (!pflags.nvLocked) {
    VBDEBUG(("TPM: Enabling NV locking\n"));
    RETURN_ON_FAILURE(TlclSetNvLocked());
  }

  /* Clear TPM owner, in case the TPM is already owned for some reason. */
  VBDEBUG(("TPM: Clearing owner\n"));
  RETURN_ON_FAILURE(TPMClearAndReenable());

  /* Initializes the firmware and kernel spaces */
  Memcpy(rsf, &rsf_init, sizeof(RollbackSpaceFirmware));
  Memcpy(rsk, &rsk_init, sizeof(RollbackSpaceKernel));

  /* Defines and sets firmware and kernel spaces */
  RETURN_ON_FAILURE(SafeDefineSpace(KERNEL_NV_INDEX, TPM_NV_PER_PPWRITE,
                                    sizeof(RollbackSpaceKernel)));
  RETURN_ON_FAILURE(WriteSpaceKernel(rsk));
  RETURN_ON_FAILURE(SafeDefineSpace(FIRMWARE_NV_INDEX,
                                    TPM_NV_PER_GLOBALLOCK | TPM_NV_PER_PPWRITE,
                                    sizeof(RollbackSpaceFirmware)));
  RETURN_ON_FAILURE(WriteSpaceFirmware(rsf));
  return TPM_SUCCESS;
}


/* SetupTPM starts the TPM and establishes the root of trust for the
 * anti-rollback mechanism.  SetupTPM can fail for three reasons.  1 A bug. 2 a
 * TPM hardware failure. 3 An unexpected TPM state due to some attack.  In
 * general we cannot easily distinguish the kind of failure, so our strategy is
 * to reboot in recovery mode in all cases.  The recovery mode calls SetupTPM
 * again, which executes (almost) the same sequence of operations.  There is a
 * good chance that, if recovery mode was entered because of a TPM failure, the
 * failure will repeat itself.  (In general this is impossible to guarantee
 * because we have no way of creating the exact TPM initial state at the
 * previous boot.)  In recovery mode, we ignore the failure and continue, thus
 * giving the recovery kernel a chance to fix things (that's why we don't set
 * bGlobalLock).  The choice is between a knowingly insecure device and a
 * bricked device.
 *
 * As a side note, observe that we go through considerable hoops to avoid using
 * the STCLEAR permissions for the index spaces.  We do this to avoid writing
 * to the TPM flashram at every reboot or wake-up, because of concerns about
 * the durability of the NVRAM.
 */
uint32_t SetupTPM(int recovery_mode, int developer_mode,
                  int disable_dev_request, RollbackSpaceFirmware* rsf) {

  uint8_t in_flags;
  uint8_t disable;
  uint8_t deactivated;
  uint32_t result;

  VBDEBUG(("TPM: SetupTPM(r%d, d%d)\n", recovery_mode, developer_mode));

  if (recovery_mode)
    g_rollback_recovery_mode = 1;  /* Global variables are usable in
                                    * recovery mode */

  RETURN_ON_FAILURE(TlclLibInit());

#ifdef TEGRA_SOFT_REBOOT_WORKAROUND
  result = TlclStartup();
  if (result == TPM_E_INVALID_POSTINIT) {
    /* Some prototype hardware doesn't reset the TPM on a CPU reset.  We do a
     * hard reset to get around this.
     */
    VBDEBUG(("TPM: soft reset detected\n", result));
    return TPM_E_MUST_REBOOT;
  } else if (result != TPM_SUCCESS) {
    VBDEBUG(("TPM: TlclStartup returned %08x\n", result));
    return result;
  }
#else
  RETURN_ON_FAILURE(TlclStartup());
#endif

  /* Some TPMs start the self test automatically at power on.  In that case we
   * don't need to call ContinueSelfTest.  On some (other) TPMs,
   * ContinueSelfTest may block.  In that case, we definitely don't want to
   * call it here.  For TPMs in the intersection of these two sets, we're
   * screwed.  (In other words: TPMs that require manually starting the
   * self-test AND block will have poor performance until we split
   * TlclSendReceive() into Send() and Receive(), and have a state machine to
   * control setup.)
   *
   * This comment is likely to become obsolete in the near future, so don't
   * trust it.  It may have not been updated.
   */
#ifdef TPM_MANUAL_SELFTEST
#ifdef TPM_BLOCKING_CONTINUESELFTEST
#warning "lousy TPM!"
#endif
  RETURN_ON_FAILURE(TlclContinueSelfTest());
#endif
  result = TlclAssertPhysicalPresence();
  if (result != TPM_SUCCESS) {
    /* It is possible that the TPM was delivered with the physical presence
     * command disabled.  This tries enabling it, then tries asserting PP
     * again.
     */
    RETURN_ON_FAILURE(TlclPhysicalPresenceCMDEnable());
    RETURN_ON_FAILURE(TlclAssertPhysicalPresence());
  }

  /* Checks that the TPM is enabled and activated. */
  RETURN_ON_FAILURE(TlclGetFlags(&disable, &deactivated, NULL));
  if (disable || deactivated) {
    VBDEBUG(("TPM: disabled (%d) or deactivated (%d).  Fixing...\n",
             disable, deactivated));
    RETURN_ON_FAILURE(TlclSetEnable());
    RETURN_ON_FAILURE(TlclSetDeactivated(0));
    VBDEBUG(("TPM: Must reboot to re-enable\n"));
    return TPM_E_MUST_REBOOT;
  }

  /* Reads the firmware space. */
  result = ReadSpaceFirmware(rsf);
  if (TPM_E_BADINDEX == result) {
    RollbackSpaceKernel rsk;

    /* This is the first time we've run, and the TPM has not been
     * initialized.  This initializes it. */
    VBDEBUG(("TPM: Not initialized yet.\n"));
    RETURN_ON_FAILURE(OneTimeInitializeTPM(rsf, &rsk));
  } else if (TPM_SUCCESS != result) {
    VBDEBUG(("TPM: Firmware space in a bad state; giving up.\n"));
    return TPM_E_CORRUPTED_STATE;
  }
  VBDEBUG(("TPM: Firmware space sv%d f%x v%x\n",
           rsf->struct_version, rsf->flags, rsf->fw_versions));
  in_flags = rsf->flags;

  /* If we've been asked to clear the virtual dev-mode flag, do so now */
  if (disable_dev_request) {
    rsf->flags &= ~FLAG_VIRTUAL_DEV_MODE_ON;
    VBDEBUG(("TPM: Clearing virt dev-switch: f%x\n", rsf->flags));
  }

  /* The developer_mode value that's passed in is only set by a hardware
   * dev-switch. We should OR it with the virtual switch, whether or not the
   * virtual switch is used. If it's not used, it shouldn't change, so it
   * doesn't matter. */
  if (rsf->flags & FLAG_VIRTUAL_DEV_MODE_ON)
    developer_mode = 1;

  /* Clears ownership if developer flag has toggled */
  if ((developer_mode ? FLAG_LAST_BOOT_DEVELOPER : 0) !=
      (in_flags & FLAG_LAST_BOOT_DEVELOPER)) {
    VBDEBUG(("TPM: Developer flag changed; clearing owner.\n"));
    RETURN_ON_FAILURE(TPMClearAndReenable());
  }

  if (developer_mode)
    rsf->flags |= FLAG_LAST_BOOT_DEVELOPER;
  else
    rsf->flags &= ~FLAG_LAST_BOOT_DEVELOPER;


  /* If firmware space is dirty, this flushes it back to the TPM */
  if (rsf->flags != in_flags) {
    VBDEBUG(("TPM: Updating firmware space.\n"));
    RETURN_ON_FAILURE(WriteSpaceFirmware(rsf));
  }

  VBDEBUG(("TPM: SetupTPM() succeeded\n"));
  return TPM_SUCCESS;
}

/* disable MSVC warnings on unused arguments */
__pragma(warning (disable: 4100))


#ifdef DISABLE_ROLLBACK_TPM

/* Dummy implementations which don't support TPM rollback protection */

uint32_t RollbackS3Resume(void) {
#ifndef CHROMEOS_ENVIRONMENT
  /* Initialize the TPM, but ignore return codes.  In ChromeOS
   * environment, don't even talk to the TPM. */
  TlclLibInit();
  TlclResume();
#endif
  return TPM_SUCCESS;
}

uint32_t RollbackFirmwareSetup(int recovery_mode, int is_hw_dev,
                               int disable_dev_request,
                               int *is_virt_dev, uint32_t *version) {
#ifndef CHROMEOS_ENVIRONMENT
  /* Initialize the TPM, but ignores return codes.  In ChromeOS
   * environment, don't even talk to the TPM. */
  TlclLibInit();
  TlclStartup();
  TlclContinueSelfTest();
#endif
  *version = 0;
  return TPM_SUCCESS;
}

uint32_t RollbackFirmwareRead(uint32_t* version) {
  *version = 0;
  return TPM_SUCCESS;
}

uint32_t RollbackFirmwareWrite(uint32_t version) {
  return TPM_SUCCESS;
}

uint32_t RollbackFirmwareLock(void) {
  return TPM_SUCCESS;
}

uint32_t RollbackKernelRead(uint32_t* version) {
  *version = 0;
  return TPM_SUCCESS;
}

uint32_t RollbackKernelWrite(uint32_t version) {
  return TPM_SUCCESS;
}

uint32_t RollbackKernelLock(void) {
  return TPM_SUCCESS;
}

#else

uint32_t RollbackS3Resume(void) {
  uint32_t result;
  RETURN_ON_FAILURE(TlclLibInit());
  result = TlclResume();
  if (result == TPM_E_INVALID_POSTINIT) {
    /* We're on a platform where the TPM maintains power in S3, so
       it's already initialized. */
    return TPM_SUCCESS;
  }
  return result;
}

uint32_t RollbackFirmwareSetup(int recovery_mode, int is_hw_dev,
                               int disable_dev_request,
                               int *is_virt_dev, uint32_t *version) {
  RollbackSpaceFirmware rsf;

  /* Set version to 0 in case we fail */
  *version = 0;

  RETURN_ON_FAILURE(SetupTPM(recovery_mode, is_hw_dev,
                             disable_dev_request, &rsf));
  *version = rsf.fw_versions;
  *is_virt_dev = (rsf.flags & FLAG_VIRTUAL_DEV_MODE_ON) ? 1 : 0;
  VBDEBUG(("TPM: RollbackFirmwareSetup %x\n", (int)rsf.fw_versions));
  return TPM_SUCCESS;
}

uint32_t RollbackFirmwareWrite(uint32_t version) {
  RollbackSpaceFirmware rsf;

  RETURN_ON_FAILURE(ReadSpaceFirmware(&rsf));
  VBDEBUG(("TPM: RollbackFirmwareWrite %x --> %x\n", (int)rsf.fw_versions,
           (int)version));
  rsf.fw_versions = version;
  return WriteSpaceFirmware(&rsf);
}

uint32_t RollbackFirmwareLock(void) {
  return TlclSetGlobalLock();
}

uint32_t RollbackKernelRead(uint32_t* version) {
  RollbackSpaceKernel rsk;
  uint32_t perms;

  /* Read the kernel space and verify its permissions.  If the kernel
   * space has the wrong permission, or it doesn't contain the right
   * identifier, we give up.  This will need to be fixed by the
   * recovery kernel.  We have to worry about this because at any time
   * (even with PP turned off) the TPM owner can remove and redefine a
   * PP-protected space (but not write to it). */
  RETURN_ON_FAILURE(ReadSpaceKernel(&rsk));
  RETURN_ON_FAILURE(TlclGetPermissions(KERNEL_NV_INDEX, &perms));
  if (TPM_NV_PER_PPWRITE != perms || ROLLBACK_SPACE_KERNEL_UID != rsk.uid)
    return TPM_E_CORRUPTED_STATE;

  *version = rsk.kernel_versions;
  VBDEBUG(("TPM: RollbackKernelRead %x\n", (int)rsk.kernel_versions));
  return TPM_SUCCESS;
}

uint32_t RollbackKernelWrite(uint32_t version) {
  RollbackSpaceKernel rsk;
  RETURN_ON_FAILURE(ReadSpaceKernel(&rsk));
  VBDEBUG(("TPM: RollbackKernelWrite %x --> %x\n", (int)rsk.kernel_versions,
           (int)version));
  rsk.kernel_versions = version;
  return WriteSpaceKernel(&rsk);
}

uint32_t RollbackKernelLock(void) {
  if (g_rollback_recovery_mode) {
    return TPM_SUCCESS;
  } else {
    return TlclLockPhysicalPresence();
  }
}

#endif // DISABLE_ROLLBACK_TPM