/* Copyright (c) 2013 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 rollback_index functions */ #include #include #include #include #define _STUB_IMPLEMENTATION_ /* So we can use memset() ourselves */ #include "crc8.h" #include "rollback_index.h" #include "test_common.h" #include "tlcl.h" #include "utility.h" #include "vboot_common.h" /* * Buffer to hold accumulated list of calls to mocked Tlcl functions. * Each function appends itself to the buffer and updates mock_cnext. * * Size of mock_calls[] should be big enough to handle all expected * call sequences; 16KB should be plenty since none of the sequences * below is more than a few hundred bytes. We could be more clever * and use snprintf() with length checking below, at the expense of * making all the mock implementations bigger. If this were code used * outside of unit tests we'd want to do that, but here if we did * overrun the buffer the worst that's likely to happen is we'll crash * the test, and crash = failure anyway. */ static char mock_calls[16384]; static char *mock_cnext = mock_calls; /* * Variables to support mocked error values from Tlcl functions. Each * call, mock_count is incremented. If mock_count==fail_at_count, return * fail_with_error instead of the normal return value. */ static int mock_count = 0; static int fail_at_count = 0; static uint32_t fail_with_error = TPM_SUCCESS; /* Similar, to determine when to inject noise during reads & writes */ #define MAX_NOISE_COUNT 64 /* no noise after this many */ static int noise_count = 0; /* read/write attempt (zero-based) */ static int noise_on[MAX_NOISE_COUNT]; /* calls to inject noise on */ /* Params / backing store for mocked Tlcl functions. */ static TPM_PERMANENT_FLAGS mock_pflags; static RollbackSpaceFirmware mock_rsf; static RollbackSpaceKernel mock_rsk; static uint32_t mock_permissions; /* Reset the variables for the Tlcl mock functions. */ static void ResetMocks(int fail_on_call, uint32_t fail_with_err) { *mock_calls = 0; mock_cnext = mock_calls; mock_count = 0; fail_at_count = fail_on_call; fail_with_error = fail_with_err; noise_count = 0; Memset(&noise_on, 0, sizeof(noise_on)); Memset(&mock_pflags, 0, sizeof(mock_pflags)); Memset(&mock_rsf, 0, sizeof(mock_rsf)); Memset(&mock_rsk, 0, sizeof(mock_rsk)); mock_permissions = 0; } /****************************************************************************/ /* Function to garble data on its way to or from the TPM */ static void MaybeInjectNoise(void *data, uint32_t length) { if (noise_count < MAX_NOISE_COUNT && noise_on[noise_count]) { uint8_t *val = data; val[length - 1]++; } noise_count++; } /****************************************************************************/ /* Mocks for tlcl functions which log the calls made to mock_calls[]. */ uint32_t TlclLibInit(void) { mock_cnext += sprintf(mock_cnext, "TlclLibInit()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclStartup(void) { mock_cnext += sprintf(mock_cnext, "TlclStartup()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclResume(void) { mock_cnext += sprintf(mock_cnext, "TlclResume()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclForceClear(void) { mock_cnext += sprintf(mock_cnext, "TlclForceClear()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclSetEnable(void) { mock_cnext += sprintf(mock_cnext, "TlclSetEnable()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclSetDeactivated(uint8_t flag) { mock_cnext += sprintf(mock_cnext, "TlclSetDeactivated(%d)\n", flag); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclRead(uint32_t index, void* data, uint32_t length) { mock_cnext += sprintf(mock_cnext, "TlclRead(0x%x, %d)\n", index, length); if (FIRMWARE_NV_INDEX == index) { TEST_EQ(length, sizeof(mock_rsf), "TlclRead rsf size"); Memcpy(data, &mock_rsf, length); MaybeInjectNoise(data, length); } else if (KERNEL_NV_INDEX == index) { TEST_EQ(length, sizeof(mock_rsk), "TlclRead rsk size"); Memcpy(data, &mock_rsk, length); MaybeInjectNoise(data, length); } else { Memset(data, 0, length); } return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclWrite(uint32_t index, const void *data, uint32_t length) { mock_cnext += sprintf(mock_cnext, "TlclWrite(0x%x, %d)\n", index, length); if (FIRMWARE_NV_INDEX == index) { TEST_EQ(length, sizeof(mock_rsf), "TlclWrite rsf size"); Memcpy(&mock_rsf, data, length); MaybeInjectNoise(&mock_rsf, length); } else if (KERNEL_NV_INDEX == index) { TEST_EQ(length, sizeof(mock_rsk), "TlclWrite rsk size"); Memcpy(&mock_rsk, data, length); MaybeInjectNoise(&mock_rsk, length); } return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclDefineSpace(uint32_t index, uint32_t perm, uint32_t size) { mock_cnext += sprintf(mock_cnext, "TlclDefineSpace(0x%x, 0x%x, %d)\n", index, perm, size); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclSelfTestFull(void) { mock_cnext += sprintf(mock_cnext, "TlclSelfTestFull()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclContinueSelfTest(void) { mock_cnext += sprintf(mock_cnext, "TlclContinueSelfTest()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclGetPermanentFlags(TPM_PERMANENT_FLAGS *pflags) { mock_cnext += sprintf(mock_cnext, "TlclGetPermanentFlags()\n"); Memcpy(pflags, &mock_pflags, sizeof(mock_pflags)); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } /* TlclGetFlags() doesn't need mocking; it calls TlclGetPermanentFlags() */ uint32_t TlclAssertPhysicalPresence(void) { mock_cnext += sprintf(mock_cnext, "TlclAssertPhysicalPresence()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclFinalizePhysicalPresence(void) { mock_cnext += sprintf(mock_cnext, "TlclFinalizePhysicalPresence()\n"); mock_pflags.physicalPresenceLifetimeLock = 1; return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclPhysicalPresenceCMDEnable(void) { mock_cnext += sprintf(mock_cnext, "TlclPhysicalPresenceCMDEnable()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclSetNvLocked(void) { mock_cnext += sprintf(mock_cnext, "TlclSetNvLocked()\n"); mock_pflags.nvLocked = 1; return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclSetGlobalLock(void) { mock_cnext += sprintf(mock_cnext, "TlclSetGlobalLock()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclLockPhysicalPresence(void) { mock_cnext += sprintf(mock_cnext, "TlclLockPhysicalPresence()\n"); return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } uint32_t TlclGetPermissions(uint32_t index, uint32_t* permissions) { mock_cnext += sprintf(mock_cnext, "TlclGetPermissions(0x%x)\n", index); *permissions = mock_permissions; return (++mock_count == fail_at_count) ? fail_with_error : TPM_SUCCESS; } /****************************************************************************/ /* Tests for CRC errors */ extern uint32_t ReadSpaceFirmware(RollbackSpaceFirmware *rsf); extern uint32_t WriteSpaceFirmware(RollbackSpaceFirmware *rsf); static void CrcTestFirmware(void) { RollbackSpaceFirmware rsf; /* Noise on reading, shouldn't matter here because version == 0 */ ResetMocks(0, 0); noise_on[0] = 1; TEST_EQ(ReadSpaceFirmware(&rsf), 0, "ReadSpaceFirmware(), v0"); TEST_STR_EQ(mock_calls, "TlclRead(0x1007, 10)\n", "tlcl calls"); /* * But if the version >= 2, it will try three times and fail because * the CRC is no good. */ ResetMocks(0, 0); mock_rsf.struct_version = 2; TEST_EQ(ReadSpaceFirmware(&rsf), TPM_E_CORRUPTED_STATE, "ReadSpaceFirmware(), v2, bad CRC"); TEST_STR_EQ(mock_calls, "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* If the CRC is good and some noise happens, it should recover. */ ResetMocks(0, 0); mock_rsf.struct_version = 2; mock_rsf.crc8 = Crc8(&mock_rsf, offsetof(RollbackSpaceFirmware, crc8)); noise_on[0] = 1; TEST_EQ(ReadSpaceFirmware(&rsf), 0, "ReadSpaceFirmware(), v2, good CRC"); TEST_STR_EQ(mock_calls, "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* A write with version < 2 should convert to v2 and create the CRC */ ResetMocks(0, 0); Memset(&rsf, 0, sizeof(rsf)); TEST_EQ(WriteSpaceFirmware(&rsf), 0, "WriteSpaceFirmware(), v0"); TEST_EQ(mock_rsf.struct_version, 2, "WriteSpaceFirmware(), check v2"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* Same as above, but with some noise during the readback */ ResetMocks(0, 0); Memset(&rsf, 0, sizeof(rsf)); noise_on[1] = 1; noise_on[2] = 1; TEST_EQ(WriteSpaceFirmware(&rsf), 0, "WriteSpaceFirmware(), read noise"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* With noise during the write, we'll try the write again */ ResetMocks(0, 0); Memset(&rsf, 0, sizeof(rsf)); noise_on[0] = 1; TEST_EQ(WriteSpaceFirmware(&rsf), 0, "WriteSpaceFirmware(), write noise"); TEST_EQ(mock_rsf.struct_version, 2, "WriteSpaceFirmware(), check v2"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* Only if it just keeps on failing forever do we eventually give up */ ResetMocks(0, 0); Memset(&rsf, 0, sizeof(rsf)); Memset(noise_on, 1, sizeof(noise_on)); TEST_EQ(WriteSpaceFirmware(&rsf), TPM_E_CORRUPTED_STATE, "WriteSpaceFirmware(), always noise"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); } extern uint32_t ReadSpaceKernel(RollbackSpaceKernel *rsk); extern uint32_t WriteSpaceKernel(RollbackSpaceKernel *rsk); static void CrcTestKernel(void) { RollbackSpaceKernel rsk; /* Noise on reading shouldn't matter here because version == 0 */ ResetMocks(0, 0); noise_on[0] = 1; TEST_EQ(ReadSpaceKernel(&rsk), 0, "ReadSpaceKernel(), v0"); TEST_STR_EQ(mock_calls, "TlclRead(0x1008, 13)\n", "tlcl calls"); /* * But if the version >= 2, it will try three times and fail because * the CRC is no good. */ ResetMocks(0, 0); mock_rsk.struct_version = 2; TEST_EQ(ReadSpaceKernel(&rsk), TPM_E_CORRUPTED_STATE, "ReadSpaceKernel(), v2, bad CRC"); TEST_STR_EQ(mock_calls, "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); /* If the CRC is good and some noise happens, it should recover. */ ResetMocks(0, 0); mock_rsk.struct_version = 2; mock_rsk.crc8 = Crc8(&mock_rsk, offsetof(RollbackSpaceKernel, crc8)); noise_on[0] = 1; TEST_EQ(ReadSpaceKernel(&rsk), 0, "ReadSpaceKernel(), v2, good CRC"); TEST_STR_EQ(mock_calls, "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); /* A write with version < 2 should convert to v2 and create the CRC */ ResetMocks(0, 0); Memset(&rsk, 0, sizeof(rsk)); TEST_EQ(WriteSpaceKernel(&rsk), 0, "WriteSpaceKernel(), v0"); TEST_EQ(mock_rsk.struct_version, 2, "WriteSpaceKernel(), check v2"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); /* Same as above, but with some noise during the readback */ ResetMocks(0, 0); Memset(&rsk, 0, sizeof(rsk)); noise_on[1] = 1; noise_on[2] = 1; TEST_EQ(WriteSpaceKernel(&rsk), 0, "WriteSpaceKernel(), read noise"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); /* With noise during the write, we'll try the write again */ ResetMocks(0, 0); Memset(&rsk, 0, sizeof(rsk)); noise_on[0] = 1; TEST_EQ(WriteSpaceKernel(&rsk), 0, "WriteSpaceKernel(), write noise"); TEST_EQ(mock_rsk.struct_version, 2, "WriteSpaceKernel(), check v2"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); /* Only if it just keeps on failing forever do we eventually give up */ ResetMocks(0, 0); Memset(&rsk, 0, sizeof(rsk)); Memset(noise_on, 1, sizeof(noise_on)); TEST_EQ(WriteSpaceKernel(&rsk), TPM_E_CORRUPTED_STATE, "WriteSpaceKernel(), always noise"); TEST_STR_EQ(mock_calls, "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); } /****************************************************************************/ /* Tests for misc helper functions */ static void MiscTest(void) { uint8_t buf[8]; ResetMocks(0, 0); TEST_EQ(TPMClearAndReenable(), 0, "TPMClearAndReenable()"); TEST_STR_EQ(mock_calls, "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n", "tlcl calls"); ResetMocks(0, 0); TEST_EQ(SafeWrite(0x123, buf, 8), 0, "SafeWrite()"); TEST_STR_EQ(mock_calls, "TlclWrite(0x123, 8)\n", "tlcl calls"); ResetMocks(1, TPM_E_BADINDEX); TEST_EQ(SafeWrite(0x123, buf, 8), TPM_E_BADINDEX, "SafeWrite() bad"); TEST_STR_EQ(mock_calls, "TlclWrite(0x123, 8)\n", "tlcl calls"); ResetMocks(1, TPM_E_MAXNVWRITES); TEST_EQ(SafeWrite(0x123, buf, 8), 0, "SafeWrite() retry max writes"); TEST_STR_EQ(mock_calls, "TlclWrite(0x123, 8)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" "TlclWrite(0x123, 8)\n", "tlcl calls"); ResetMocks(0, 0); TEST_EQ(SafeDefineSpace(0x123, 6, 8), 0, "SafeDefineSpace()"); TEST_STR_EQ(mock_calls, "TlclDefineSpace(0x123, 0x6, 8)\n", "tlcl calls"); ResetMocks(1, TPM_E_BADINDEX); TEST_EQ(SafeDefineSpace(0x123, 6, 8), TPM_E_BADINDEX, "SafeDefineSpace() bad"); TEST_STR_EQ(mock_calls, "TlclDefineSpace(0x123, 0x6, 8)\n", "tlcl calls"); ResetMocks(1, TPM_E_MAXNVWRITES); TEST_EQ(SafeDefineSpace(0x123, 6, 8), 0, "SafeDefineSpace() retry max writes"); TEST_STR_EQ(mock_calls, "TlclDefineSpace(0x123, 0x6, 8)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" "TlclDefineSpace(0x123, 0x6, 8)\n", "tlcl calls"); } /****************************************************************************/ /* Tests for one-time initialization */ static void OneTimeInitTest(void) { RollbackSpaceFirmware rsf; RollbackSpaceKernel rsk; /* Complete initialization */ ResetMocks(0, 0); TEST_EQ(OneTimeInitializeTPM(&rsf, &rsk), 0, "OneTimeInitializeTPM()"); TEST_STR_EQ(mock_calls, "TlclSelfTestFull()\n" "TlclGetPermanentFlags()\n" "TlclFinalizePhysicalPresence()\n" "TlclSetNvLocked()\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" /* backup space */ "TlclDefineSpace(0x1009, 0x1, 16)\n" /* kernel space */ "TlclDefineSpace(0x1008, 0x1, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" /* firmware space */ "TlclDefineSpace(0x1007, 0x8001, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); TEST_EQ(mock_rsf.struct_version, ROLLBACK_SPACE_FIRMWARE_VERSION, "rsf ver"); TEST_EQ(mock_rsf.flags, 0, "rsf flags"); TEST_EQ(mock_rsf.fw_versions, 0, "rsf fw_versions"); TEST_EQ(mock_rsk.struct_version, ROLLBACK_SPACE_KERNEL_VERSION, "rsk ver"); TEST_EQ(mock_rsk.uid, ROLLBACK_SPACE_KERNEL_UID, "rsk uid"); TEST_EQ(mock_rsk.kernel_versions, 0, "rsk kernel_versions"); /* Physical presence already initialized */ ResetMocks(0, 0); mock_pflags.physicalPresenceLifetimeLock = 1; TEST_EQ(OneTimeInitializeTPM(&rsf, &rsk), 0, "OneTimeInitializeTPM()"); TEST_STR_EQ(mock_calls, "TlclSelfTestFull()\n" "TlclGetPermanentFlags()\n" "TlclSetNvLocked()\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" /* backup space */ "TlclDefineSpace(0x1009, 0x1, 16)\n" /* kernel space */ "TlclDefineSpace(0x1008, 0x1, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" /* firmware space */ "TlclDefineSpace(0x1007, 0x8001, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* NV locking already initialized */ ResetMocks(0, 0); mock_pflags.nvLocked = 1; TEST_EQ(OneTimeInitializeTPM(&rsf, &rsk), 0, "OneTimeInitializeTPM()"); TEST_STR_EQ(mock_calls, "TlclSelfTestFull()\n" "TlclGetPermanentFlags()\n" "TlclFinalizePhysicalPresence()\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" /* backup space */ "TlclDefineSpace(0x1009, 0x1, 16)\n" /* kernel space */ "TlclDefineSpace(0x1008, 0x1, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" /* firmware space */ "TlclDefineSpace(0x1007, 0x8001, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* Self test error */ ResetMocks(1, TPM_E_IOERROR); TEST_EQ(OneTimeInitializeTPM(&rsf, &rsk), TPM_E_IOERROR, "OneTimeInitializeTPM() selftest"); TEST_STR_EQ(mock_calls, "TlclSelfTestFull()\n", "tlcl calls"); } /****************************************************************************/ /* Tests for TPM setup */ static void SetupTpmTest(void) { RollbackSpaceFirmware rsf; /* Complete setup */ ResetMocks(0, 0); TEST_EQ(SetupTPM(0, 0, 0, &rsf), 0, "SetupTPM()"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* If TPM is disabled or deactivated, must enable it */ ResetMocks(0, 0); mock_pflags.disable = 1; TEST_EQ(SetupTPM(0, 0, 0, &rsf), TPM_E_MUST_REBOOT, "SetupTPM() disabled"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n", "tlcl calls"); ResetMocks(0, 0); mock_pflags.deactivated = 1; TEST_EQ(SetupTPM(0, 0, 0, &rsf), TPM_E_MUST_REBOOT, "SetupTPM() deactivated"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n", "tlcl calls"); /* If physical presence command isn't enabled, try to enable it */ ResetMocks(3, TPM_E_IOERROR); TEST_EQ(SetupTPM(0, 0, 0, &rsf), 0, "SetupTPM() pp cmd"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclPhysicalPresenceCMDEnable()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* If firmware space is missing, do one-time init */ ResetMocks(5, TPM_E_BADINDEX); mock_pflags.physicalPresenceLifetimeLock = 1; mock_pflags.nvLocked = 1; TEST_EQ(SetupTPM(0, 0, 0, &rsf), 0, "SetupTPM() no firmware space"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n" /* Calls from one-time init */ "TlclSelfTestFull()\n" "TlclGetPermanentFlags()\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" /* backup space */ "TlclDefineSpace(0x1009, 0x1, 16)\n" "TlclDefineSpace(0x1008, 0x1, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n" "TlclDefineSpace(0x1007, 0x8001, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* Other firmware space error is passed through */ ResetMocks(5, TPM_E_IOERROR); TEST_EQ(SetupTPM(0, 0, 0, &rsf), TPM_E_CORRUPTED_STATE, "SetupTPM() bad firmware space"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* If developer flag has toggled, clear ownership and write new flag */ ResetMocks(0, 0); TEST_EQ(SetupTPM(1, 0, 0, &rsf), 0, "SetupTPM() to dev"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); TEST_EQ(mock_rsf.flags, FLAG_LAST_BOOT_DEVELOPER, "fw space flags to dev 1"); ResetMocks(0, 0); mock_rsf.flags = FLAG_LAST_BOOT_DEVELOPER; TEST_EQ(SetupTPM(0, 0, 0, &rsf), 0, "SetupTPM() from dev"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); TEST_EQ(mock_rsf.flags, 0, "fw space flags from dev 1"); /* If TPM clear request, clear ownership also */ ResetMocks(0, 0); TEST_EQ(SetupTPM(0, 0, 1, &rsf), 0, "SetupTPM() clear owner"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n", "tlcl calls"); /* Handle request to clear virtual dev switch */ ResetMocks(0, 0); mock_rsf.flags = FLAG_VIRTUAL_DEV_MODE_ON | FLAG_LAST_BOOT_DEVELOPER; TEST_EQ(SetupTPM(0, 1, 0, &rsf), 0, "SetupTPM() clear virtual dev"); TEST_EQ(mock_rsf.flags, 0, "Clear virtual dev"); /* If virtual dev switch is on, that should set last boot developer */ ResetMocks(0, 0); mock_rsf.flags = FLAG_VIRTUAL_DEV_MODE_ON; SetupTPM(0, 0, 0, &rsf); TEST_EQ(mock_rsf.flags, FLAG_VIRTUAL_DEV_MODE_ON | FLAG_LAST_BOOT_DEVELOPER, "virtual dev sets last boot"); /* * Note: SetupTPM() recovery_mode parameter sets a global flag in * rollback_index.c; this is tested along with RollbackKernelLock() * below. */ } /****************************************************************************/ /* Tests for RollbackFirmware() calls */ static void RollbackFirmwareTest(void) { uint32_t version; int dev_mode; /* Normal setup */ ResetMocks(0, 0); dev_mode = 0; version = 123; mock_rsf.fw_versions = 0x12345678; TEST_EQ(RollbackFirmwareSetup(0, dev_mode, 0, &dev_mode, &version), 0, "RollbackFirmwareSetup()"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); TEST_EQ(version, 0x12345678, "RollbackFirmwareSetup() version"); /* Error during setup should clear version */ ResetMocks(1, TPM_E_IOERROR); dev_mode = 0; version = 123; mock_rsf.fw_versions = 0x12345678; TEST_EQ(RollbackFirmwareSetup(0, dev_mode, 0, &dev_mode, &version), TPM_E_IOERROR, "RollbackFirmwareSetup() error"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n", "tlcl calls"); TEST_EQ(version, 0, "RollbackFirmwareSetup() version on error"); /* Developer mode flag gets passed properly */ ResetMocks(0, 0); dev_mode = 1; TEST_EQ(RollbackFirmwareSetup(dev_mode, 0, 0, &dev_mode, &version), 0, "RollbackFirmwareSetup() to dev"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); TEST_EQ(mock_rsf.flags, FLAG_LAST_BOOT_DEVELOPER, "fw space flags to dev 2"); /* So does clear-TPM request */ ResetMocks(0, 0); dev_mode = 0; TEST_EQ(RollbackFirmwareSetup(dev_mode, 0, 1, &dev_mode, &version), 0, "RollbackFirmwareSetup() clear owner"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclStartup()\n" "TlclAssertPhysicalPresence()\n" "TlclGetPermanentFlags()\n" "TlclRead(0x1007, 10)\n" "TlclForceClear()\n" "TlclSetEnable()\n" "TlclSetDeactivated(0)\n", "tlcl calls"); /* Test write */ ResetMocks(0, 0); TEST_EQ(RollbackFirmwareWrite(0xBEAD1234), 0, "RollbackFirmwareWrite()"); TEST_EQ(mock_rsf.fw_versions, 0xBEAD1234, "RollbackFirmwareWrite() version"); TEST_STR_EQ(mock_calls, "TlclRead(0x1007, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); ResetMocks(1, TPM_E_IOERROR); TEST_EQ(RollbackFirmwareWrite(123), TPM_E_IOERROR, "RollbackFirmwareWrite() error"); /* Test setting virtual dev mode */ ResetMocks(0, 0); TEST_EQ(SetVirtualDevMode(1), 0, "SetVirtualDevMode(1)"); TEST_EQ(mock_rsf.flags, FLAG_VIRTUAL_DEV_MODE_ON, "Virtual dev on"); TEST_STR_EQ(mock_calls, "TlclRead(0x1007, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); ResetMocks(0, 0); TEST_EQ(SetVirtualDevMode(0), 0, "SetVirtualDevMode(0)"); TEST_EQ(mock_rsf.flags, 0, "Virtual dev off"); TEST_STR_EQ(mock_calls, "TlclRead(0x1007, 10)\n" "TlclWrite(0x1007, 10)\n" "TlclRead(0x1007, 10)\n", "tlcl calls"); /* Test lock */ ResetMocks(0, 0); TEST_EQ(RollbackFirmwareLock(), 0, "RollbackFirmwareLock()"); TEST_STR_EQ(mock_calls, "TlclSetGlobalLock()\n", "tlcl calls"); ResetMocks(1, TPM_E_IOERROR); TEST_EQ(RollbackFirmwareLock(), TPM_E_IOERROR, "RollbackFirmwareLock() error"); } /****************************************************************************/ /* Tests for RollbackKernel() calls */ static void RollbackKernelTest(void) { RollbackSpaceFirmware rsf; uint32_t version = 0; /* * RollbackKernel*() functions use a global flag inside * rollback_index.c based on recovery mode, which is set by SetupTPM(). * Clear the flag for the first set of tests. */ TEST_EQ(SetupTPM(0, 0, 0, &rsf), 0, "SetupTPM()"); /* Normal read */ ResetMocks(0, 0); mock_rsk.uid = ROLLBACK_SPACE_KERNEL_UID; mock_permissions = TPM_NV_PER_PPWRITE; mock_rsk.kernel_versions = 0x87654321; TEST_EQ(RollbackKernelRead(&version), 0, "RollbackKernelRead()"); TEST_STR_EQ(mock_calls, "TlclRead(0x1008, 13)\n" "TlclGetPermissions(0x1008)\n", "tlcl calls"); TEST_EQ(version, 0x87654321, "RollbackKernelRead() version"); /* Read error */ ResetMocks(1, TPM_E_IOERROR); TEST_EQ(RollbackKernelRead(&version), TPM_E_IOERROR, "RollbackKernelRead() error"); TEST_STR_EQ(mock_calls, "TlclRead(0x1008, 13)\n", "tlcl calls"); /* Wrong permission or UID will return error */ ResetMocks(0, 0); mock_rsk.uid = ROLLBACK_SPACE_KERNEL_UID + 1; mock_permissions = TPM_NV_PER_PPWRITE; TEST_EQ(RollbackKernelRead(&version), TPM_E_CORRUPTED_STATE, "RollbackKernelRead() bad uid"); ResetMocks(0, 0); mock_rsk.uid = ROLLBACK_SPACE_KERNEL_UID; mock_permissions = TPM_NV_PER_PPWRITE + 1; TEST_EQ(RollbackKernelRead(&version), TPM_E_CORRUPTED_STATE, "RollbackKernelRead() bad permissions"); /* Test write */ ResetMocks(0, 0); TEST_EQ(RollbackKernelWrite(0xBEAD4321), 0, "RollbackKernelWrite()"); TEST_EQ(mock_rsk.kernel_versions, 0xBEAD4321, "RollbackKernelWrite() version"); TEST_STR_EQ(mock_calls, "TlclRead(0x1008, 13)\n" "TlclWrite(0x1008, 13)\n" "TlclRead(0x1008, 13)\n", "tlcl calls"); ResetMocks(1, TPM_E_IOERROR); TEST_EQ(RollbackKernelWrite(123), TPM_E_IOERROR, "RollbackKernelWrite() error"); /* Test lock (recovery off) */ ResetMocks(1, TPM_E_IOERROR); TEST_EQ(RollbackKernelLock(0), TPM_E_IOERROR, "RollbackKernelLock() error"); /* Test lock with recovery on; shouldn't lock PP */ SetupTPM(0, 0, 0, &rsf); ResetMocks(0, 0); TEST_EQ(RollbackKernelLock(1), 0, "RollbackKernelLock() in recovery"); TEST_STR_EQ(mock_calls, "", "no tlcl calls"); ResetMocks(0, 0); TEST_EQ(RollbackKernelLock(0), 0, "RollbackKernelLock()"); TEST_STR_EQ(mock_calls, "TlclLockPhysicalPresence()\n", "tlcl calls"); } /* Tests for RollbackS3Resume() */ static void RollbackS3ResumeTest(void) { ResetMocks(0, 0); TEST_EQ(RollbackS3Resume(), 0, "RollbackS3Resume()"); TEST_STR_EQ(mock_calls, "TlclLibInit()\n" "TlclResume()\n", "tlcl calls"); /* Should ignore postinit error */ ResetMocks(2, TPM_E_INVALID_POSTINIT); TEST_EQ(RollbackS3Resume(), 0, "RollbackS3Resume() postinit"); /* Resume with other error */ ResetMocks(2, TPM_E_IOERROR); TEST_EQ(RollbackS3Resume(), TPM_E_IOERROR, "RollbackS3Resume() other error"); } int main(int argc, char* argv[]) { CrcTestFirmware(); CrcTestKernel(); MiscTest(); OneTimeInitTest(); SetupTpmTest(); RollbackFirmwareTest(); RollbackKernelTest(); RollbackS3ResumeTest(); return gTestSuccess ? 0 : 255; }