systemd/SOURCES/0537-tpm2-add-tpm2_get_legacy_template-and-tpm2_get_srk_t.patch

526 lines
26 KiB
Diff
Raw Permalink Normal View History

2024-04-30 11:42:21 +00:00
From 66338a6cbd88d00ec0d1588de61aa0fd9bcaa658 Mon Sep 17 00:00:00 2001
From: Dan Streetman <ddstreet@ieee.org>
Date: Fri, 17 Feb 2023 12:59:18 -0500
Subject: [PATCH] tpm2: add tpm2_get_legacy_template() and
tpm2_get_srk_template()
Add functions to get either the 'legacy' or standard SRK template, for RSA or
ECC. The 'legacy' templates are those used with earlier code, where a transient
key was created to use for tpm sealing; the standard SRK is the persistent
shared key as defined in TCG guidance docs.
This also replaces tpm2_get_primary_template() with the new functions; that
function's use of flags is confusing and unnecessary.
(cherry picked from commit f4f5b3a9de29874bcb2345196eb47ec90d02b67d)
Related: RHEL-16182
---
src/shared/tpm2-util.c | 289 +++++++++++++++++++++++++++--------------
src/shared/tpm2-util.h | 9 --
src/test/test-tpm2.c | 91 -------------
3 files changed, 195 insertions(+), 194 deletions(-)
diff --git a/src/shared/tpm2-util.c b/src/shared/tpm2-util.c
index edd871c632..fb75f105e5 100644
--- a/src/shared/tpm2-util.c
+++ b/src/shared/tpm2-util.c
@@ -254,6 +254,25 @@ int tpm2_supports_alg(Tpm2Context *c, TPM2_ALG_ID alg) {
return tpm2_get_capability_alg(c, alg, NULL);
}
+/* Returns 1 if the TPM supports the ECC curve, 0 if not, or < 0 for any error. */
+static int tpm2_supports_ecc_curve(Tpm2Context *c, TPM2_ECC_CURVE curve) {
+ TPMU_CAPABILITIES capability;
+ int r;
+
+ /* The spec explicitly states the TPM2_ECC_CURVE should be cast to uint32_t. */
+ r = tpm2_get_capability(c, TPM2_CAP_ECC_CURVES, (uint32_t) curve, 1, &capability);
+ if (r < 0)
+ return r;
+
+ TPML_ECC_CURVE eccCurves = capability.eccCurves;
+ if (eccCurves.count == 0 || eccCurves.eccCurves[0] != curve) {
+ log_debug("TPM does not support ECC curve 0x%02" PRIx16 ".", curve);
+ return 0;
+ }
+
+ return 1;
+}
+
/* Query the TPM for populated handles.
*
* This provides an array of handle indexes populated in the TPM, starting at the requested handle. The array will
@@ -355,6 +374,13 @@ bool tpm2_test_parms(Tpm2Context *c, TPMI_ALG_PUBLIC alg, const TPMU_PUBLIC_PARM
return rc == TSS2_RC_SUCCESS;
}
+static inline bool tpm2_supports_tpmt_public(Tpm2Context *c, const TPMT_PUBLIC *public) {
+ assert(c);
+ assert(public);
+
+ return tpm2_test_parms(c, public->type, &public->parameters);
+}
+
static inline bool tpm2_supports_tpmt_sym_def_object(Tpm2Context *c, const TPMT_SYM_DEF_OBJECT *parameters) {
assert(c);
assert(parameters);
@@ -750,102 +776,168 @@ static int tpm2_read_public(
return 0;
}
-const TPM2B_PUBLIC *tpm2_get_primary_template(Tpm2SRKTemplateFlags flags) {
-
- /*
- * Set up array so flags can be used directly as an input.
- *
- * Templates for SRK come from the spec:
- * - https://trustedcomputinggroup.org/wp-content/uploads/TCG-TPM-v2.0-Provisioning-Guidance-Published-v1r1.pdf
- *
- * However, note their is some lore here. On Linux, the SRK has it's unique field set to size 0 and
- * on Windows the SRK has their unique data set to keyLen in bytes of zeros.
- */
- assert(flags >= 0);
- assert(flags <= _TPM2_SRK_TEMPLATE_MAX);
-
- static const TPM2B_PUBLIC templ[_TPM2_SRK_TEMPLATE_MAX + 1] = {
- /* index 0 RSA old */
- [0] = {
- .publicArea = {
- .type = TPM2_ALG_RSA,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_USERWITHAUTH,
- .parameters.rsaDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .keyBits = 2048,
- },
+/* Get one of the legacy primary key templates.
+ *
+ * The legacy templates should only be used for older sealed data that did not use the SRK. Instead of a
+ * persistent SRK, a transient key was created to seal the data and then flushed; and the exact same template
+ * must be used to recreate the same transient key to unseal the data. The alg parameter must be TPM2_ALG_RSA
+ * or TPM2_ALG_ECC. This does not check if the alg is actually supported on this TPM. */
+static int tpm2_get_legacy_template(TPMI_ALG_PUBLIC alg, TPMT_PUBLIC *ret_template) {
+ /* Do not modify. */
+ static const TPMT_PUBLIC legacy_ecc = {
+ .type = TPM2_ALG_ECC,
+ .nameAlg = TPM2_ALG_SHA256,
+ .objectAttributes = TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_USERWITHAUTH,
+ .parameters.eccDetail = {
+ .symmetric = {
+ .algorithm = TPM2_ALG_AES,
+ .keyBits.aes = 128,
+ .mode.aes = TPM2_ALG_CFB,
},
+ .scheme.scheme = TPM2_ALG_NULL,
+ .curveID = TPM2_ECC_NIST_P256,
+ .kdf.scheme = TPM2_ALG_NULL,
},
- [TPM2_SRK_TEMPLATE_ECC] = {
- .publicArea = {
- .type = TPM2_ALG_ECC,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_USERWITHAUTH,
- .parameters.eccDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .curveID = TPM2_ECC_NIST_P256,
- .kdf.scheme = TPM2_ALG_NULL,
- },
+ };
+
+ /* Do not modify. */
+ static const TPMT_PUBLIC legacy_rsa = {
+ .type = TPM2_ALG_RSA,
+ .nameAlg = TPM2_ALG_SHA256,
+ .objectAttributes = TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_USERWITHAUTH,
+ .parameters.rsaDetail = {
+ .symmetric = {
+ .algorithm = TPM2_ALG_AES,
+ .keyBits.aes = 128,
+ .mode.aes = TPM2_ALG_CFB,
},
+ .scheme.scheme = TPM2_ALG_NULL,
+ .keyBits = 2048,
},
- [TPM2_SRK_TEMPLATE_NEW_STYLE] = {
- .publicArea = {
- .type = TPM2_ALG_RSA,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_USERWITHAUTH|TPMA_OBJECT_NODA,
- .parameters.rsaDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .keyBits = 2048,
- },
- },
+ };
+
+ assert(ret_template);
+
+ if (alg == TPM2_ALG_ECC)
+ *ret_template = legacy_ecc;
+ else if (alg == TPM2_ALG_RSA)
+ *ret_template = legacy_rsa;
+ else
+ return log_debug_errno(SYNTHETIC_ERRNO(EOPNOTSUPP),
+ "Unsupported legacy SRK alg: 0x%x", alg);
+
+ return 0;
+}
+
+/* Get a Storage Root Key (SRK) template.
+ *
+ * The SRK template values are recommended by the "TCG TPM v2.0 Provisioning Guidance" document in section
+ * 7.5.1 "Storage Primary Key (SRK) Templates", referencing "TCG EK Credential Profile for TPM Family 2.0".
+ * The EK Credential Profile version 2.0 provides only a single template each for RSA and ECC, while later EK
+ * Credential Profile versions provide more templates, and keep the original templates as "L-1" (for RSA) and
+ * "L-2" (for ECC).
+ *
+ * https://trustedcomputinggroup.org/resource/tcg-tpm-v2-0-provisioning-guidance
+ * https://trustedcomputinggroup.org/resource/http-trustedcomputinggroup-org-wp-content-uploads-tcg-ek-credential-profile
+ *
+ * These templates are only needed to create a new persistent SRK (or a new transient key that is
+ * SRK-compatible). Preferably, the TPM should contain a shared SRK located at the reserved shared SRK handle
+ * (see TPM2_SRK_HANDLE and tpm2_get_srk() below).
+ *
+ * The alg must be TPM2_ALG_RSA or TPM2_ALG_ECC. Returns error if the requested template is not supported on
+ * this TPM. */
+static int tpm2_get_srk_template(Tpm2Context *c, TPMI_ALG_PUBLIC alg, TPMT_PUBLIC *ret_template) {
+ /* The attributes are the same between ECC and RSA templates. This has the changes specified in the
+ * Provisioning Guidance document, specifically:
+ * TPMA_OBJECT_USERWITHAUTH is added.
+ * TPMA_OBJECT_ADMINWITHPOLICY is removed.
+ * TPMA_OBJECT_NODA is added. */
+ TPMA_OBJECT srk_attributes =
+ TPMA_OBJECT_DECRYPT |
+ TPMA_OBJECT_FIXEDPARENT |
+ TPMA_OBJECT_FIXEDTPM |
+ TPMA_OBJECT_NODA |
+ TPMA_OBJECT_RESTRICTED |
+ TPMA_OBJECT_SENSITIVEDATAORIGIN |
+ TPMA_OBJECT_USERWITHAUTH;
+
+ /* The symmetric configuration is the same between ECC and RSA templates. */
+ TPMT_SYM_DEF_OBJECT srk_symmetric = {
+ .algorithm = TPM2_ALG_AES,
+ .keyBits.aes = 128,
+ .mode.aes = TPM2_ALG_CFB,
+ };
+
+ /* Both templates have an empty authPolicy as specified by the Provisioning Guidance document. */
+
+ /* From the EK Credential Profile template "L-2". */
+ TPMT_PUBLIC srk_ecc = {
+ .type = TPM2_ALG_ECC,
+ .nameAlg = TPM2_ALG_SHA256,
+ .objectAttributes = srk_attributes,
+ .parameters.eccDetail = {
+ .symmetric = srk_symmetric,
+ .scheme.scheme = TPM2_ALG_NULL,
+ .curveID = TPM2_ECC_NIST_P256,
+ .kdf.scheme = TPM2_ALG_NULL,
},
- [TPM2_SRK_TEMPLATE_NEW_STYLE|TPM2_SRK_TEMPLATE_ECC] = {
- .publicArea = {
- .type = TPM2_ALG_ECC,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_USERWITHAUTH|TPMA_OBJECT_NODA,
- .parameters.eccDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .curveID = TPM2_ECC_NIST_P256,
- .kdf.scheme = TPM2_ALG_NULL,
- },
- },
+ };
+
+ /* From the EK Credential Profile template "L-1". */
+ TPMT_PUBLIC srk_rsa = {
+ .type = TPM2_ALG_RSA,
+ .nameAlg = TPM2_ALG_SHA256,
+ .objectAttributes = srk_attributes,
+ .parameters.rsaDetail = {
+ .symmetric = srk_symmetric,
+ .scheme.scheme = TPM2_ALG_NULL,
+ .keyBits = 2048,
},
};
- return &templ[flags];
+ assert(c);
+ assert(ret_template);
+
+ if (alg == TPM2_ALG_ECC) {
+ if (!tpm2_supports_alg(c, TPM2_ALG_ECC))
+ return log_debug_errno(SYNTHETIC_ERRNO(ENOTRECOVERABLE),
+ "TPM does not support ECC.");
+
+ if (!tpm2_supports_ecc_curve(c, srk_ecc.parameters.eccDetail.curveID))
+ return log_debug_errno(SYNTHETIC_ERRNO(ENOTRECOVERABLE),
+ "TPM does not support ECC-NIST-P256 curve.");
+
+ if (!tpm2_supports_tpmt_public(c, &srk_ecc))
+ return log_debug_errno(SYNTHETIC_ERRNO(ENOTRECOVERABLE),
+ "TPM does not support SRK ECC template L-2.");
+
+ *ret_template = srk_ecc;
+ return 0;
+ }
+
+ if (alg == TPM2_ALG_RSA) {
+ if (!tpm2_supports_alg(c, TPM2_ALG_RSA))
+ return log_debug_errno(SYNTHETIC_ERRNO(ENOTRECOVERABLE),
+ "TPM does not support RSA.");
+
+ if (!tpm2_supports_tpmt_public(c, &srk_rsa))
+ return log_debug_errno(SYNTHETIC_ERRNO(ENOTRECOVERABLE),
+ "TPM does not support SRK RSA template L-1.");
+
+ *ret_template = srk_rsa;
+ return 0;
+ }
+
+ return log_debug_errno(SYNTHETIC_ERRNO(EOPNOTSUPP), "Unsupported SRK alg: 0x%x.", alg);
}
-/*
- * Why and what is an SRK?
- * TL;DR provides a working space for those without owner auth. The user enrolling
- * the disk may not have access to the TPMs owner hierarchy auth, so they need a
- * working space. This working space is at the defined address of 0x81000001.
- * Details can be found here:
- * - https://trustedcomputinggroup.org/wp-content/uploads/TCG-TPM-v2.0-Provisioning-Guidance-Published-v1r1.pdf
- */
-#define SRK_HANDLE UINT32_C(0x81000001)
+/* The SRK handle is defined in the Provisioning Guidance document (see above) in the table "Reserved Handles
+ * for TPM Provisioning Fundamental Elements". The SRK is useful because it is "shared", meaning it has no
+ * authValue nor authPolicy set, and thus may be used by anyone on the system to generate derived keys or
+ * seal secrets. This is useful if the TPM has an auth (password) set for the 'owner hierarchy', which would
+ * prevent users from generating primary transient keys, unless they knew the owner hierarchy auth. See
+ * the Provisioning Guidance document for more details. */
+#define TPM2_SRK_HANDLE UINT32_C(0x81000001)
/*
* Retrieves the SRK handle if present. Returns 0 if SRK not present, 1 if present
@@ -864,7 +956,7 @@ static int tpm2_get_srk(
assert(c);
_cleanup_(tpm2_handle_freep) Tpm2Handle *handle = NULL;
- r = tpm2_esys_handle_from_tpm_handle(c, session, SRK_HANDLE, &handle);
+ r = tpm2_esys_handle_from_tpm_handle(c, session, TPM2_SRK_HANDLE, &handle);
if (r < 0)
return r;
if (r == 0) { /* SRK not found */
@@ -900,8 +992,7 @@ static int tpm2_make_primary(
static const TPM2B_SENSITIVE_CREATE primary_sensitive = {};
static const TPML_PCR_SELECTION creation_pcr = {};
- const TPM2B_PUBLIC *primary_template = NULL;
- Tpm2SRKTemplateFlags base_flags = use_srk_model ? TPM2_SRK_TEMPLATE_NEW_STYLE : 0;
+ TPM2B_PUBLIC primary_template = { .size = sizeof(TPMT_PUBLIC), };
_cleanup_(release_lock_file) LockFile srk_lock = LOCK_FILE_INIT;
TSS2_RC rc;
usec_t ts;
@@ -956,7 +1047,12 @@ static int tpm2_make_primary(
return r;
if (IN_SET(alg, 0, TPM2_ALG_ECC)) {
- primary_template = tpm2_get_primary_template(base_flags | TPM2_SRK_TEMPLATE_ECC);
+ if (use_srk_model)
+ r = tpm2_get_srk_template(c, TPM2_ALG_ECC, &primary_template.publicArea);
+ else
+ r = tpm2_get_legacy_template(TPM2_ALG_ECC, &primary_template.publicArea);
+ if (r < 0)
+ return r;
rc = sym_Esys_CreatePrimary(
c->esys_context,
@@ -965,7 +1061,7 @@ static int tpm2_make_primary(
ESYS_TR_NONE,
ESYS_TR_NONE,
&primary_sensitive,
- primary_template,
+ &primary_template,
NULL,
&creation_pcr,
&primary->esys_handle,
@@ -987,7 +1083,12 @@ static int tpm2_make_primary(
}
if (IN_SET(alg, 0, TPM2_ALG_RSA)) {
- primary_template = tpm2_get_primary_template(base_flags);
+ if (use_srk_model)
+ r = tpm2_get_srk_template(c, TPM2_ALG_RSA, &primary_template.publicArea);
+ else
+ r = tpm2_get_legacy_template(TPM2_ALG_RSA, &primary_template.publicArea);
+ if (r < 0)
+ return r;
rc = sym_Esys_CreatePrimary(
c->esys_context,
@@ -996,7 +1097,7 @@ static int tpm2_make_primary(
ESYS_TR_NONE,
ESYS_TR_NONE,
&primary_sensitive,
- primary_template,
+ &primary_template,
NULL,
&creation_pcr,
&primary->esys_handle,
@@ -1021,7 +1122,7 @@ static int tpm2_make_primary(
if (use_srk_model) {
rc = sym_Esys_EvictControl(c->esys_context, ESYS_TR_RH_OWNER, primary->esys_handle,
- ESYS_TR_PASSWORD, ESYS_TR_NONE, ESYS_TR_NONE, SRK_HANDLE, &primary->esys_handle);
+ ESYS_TR_PASSWORD, ESYS_TR_NONE, ESYS_TR_NONE, TPM2_SRK_HANDLE, &primary->esys_handle);
if (rc != TSS2_RC_SUCCESS)
return log_error_errno(SYNTHETIC_ERRNO(ENOTRECOVERABLE),
"Failed to persist SRK within TPM: %s", sym_Tss2_RC_Decode(rc));
diff --git a/src/shared/tpm2-util.h b/src/shared/tpm2-util.h
index 26d25f7ee7..1f20aadc98 100644
--- a/src/shared/tpm2-util.h
+++ b/src/shared/tpm2-util.h
@@ -13,13 +13,6 @@ typedef enum TPM2Flags {
TPM2_FLAGS_USE_PIN = 1 << 0,
} TPM2Flags;
-
-typedef enum Tpm2SRKTemplateFlags {
- TPM2_SRK_TEMPLATE_ECC = 1 << 0,
- TPM2_SRK_TEMPLATE_NEW_STYLE = 1 << 1,
- _TPM2_SRK_TEMPLATE_MAX = TPM2_SRK_TEMPLATE_NEW_STYLE|TPM2_SRK_TEMPLATE_ECC,
-} Tpm2SRKTemplateFlags;
-
/* As per https://trustedcomputinggroup.org/wp-content/uploads/TCG_PCClient_PFP_r1p05_v23_pub.pdf a
* TPM2 on a Client PC must have at least 24 PCRs. This hardcodes our expectation of 24. */
#define TPM2_PCRS_MAX 24U
@@ -119,8 +112,6 @@ char *tpm2_tpml_pcr_selection_to_string(const TPML_PCR_SELECTION *l);
size_t tpm2_tpml_pcr_selection_weight(const TPML_PCR_SELECTION *l);
#define tpm2_tpml_pcr_selection_is_empty(l) (tpm2_tpml_pcr_selection_weight(l) == 0)
-const TPM2B_PUBLIC *tpm2_get_primary_template(Tpm2SRKTemplateFlags flags);
-
#else /* HAVE_TPM2 */
typedef struct {} Tpm2Context;
typedef struct {} Tpm2Handle;
diff --git a/src/test/test-tpm2.c b/src/test/test-tpm2.c
index 75e207e9d9..af06085af6 100644
--- a/src/test/test-tpm2.c
+++ b/src/test/test-tpm2.c
@@ -410,97 +410,6 @@ TEST(tpml_pcr_selection_add_sub) {
expected2, expected2_count);
}
-
-/* this test includes TPM2 specific data structures */
-TEST(tpm2_get_primary_template) {
-
- /*
- * Verify that if someone changes the template code, they know they're breaking things.
- * Templates MUST be changed in a backwards compatible way.
- *
- */
- static const TPM2B_PUBLIC templ[] = {
- /* index 0 RSA old */
- [0] = {
- .publicArea = {
- .type = TPM2_ALG_RSA,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_USERWITHAUTH,
- .parameters.rsaDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .keyBits = 2048,
- },
- },
- },
- /* Index 1 ECC old */
- [TPM2_SRK_TEMPLATE_ECC] = {
- .publicArea = {
- .type = TPM2_ALG_ECC,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_USERWITHAUTH,
- .parameters.eccDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .curveID = TPM2_ECC_NIST_P256,
- .kdf.scheme = TPM2_ALG_NULL,
- },
- },
- },
- /* index 2 RSA SRK */
- [TPM2_SRK_TEMPLATE_NEW_STYLE] = {
- .publicArea = {
- .type = TPM2_ALG_RSA,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_USERWITHAUTH|TPMA_OBJECT_NODA,
- .parameters.rsaDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .keyBits = 2048,
- },
- },
- },
- /* Index 3 ECC SRK */
- [TPM2_SRK_TEMPLATE_NEW_STYLE | TPM2_SRK_TEMPLATE_ECC] = {
- .publicArea = {
- .type = TPM2_ALG_ECC,
- .nameAlg = TPM2_ALG_SHA256,
- .objectAttributes = TPMA_OBJECT_FIXEDTPM|TPMA_OBJECT_FIXEDPARENT|TPMA_OBJECT_SENSITIVEDATAORIGIN|TPMA_OBJECT_RESTRICTED|TPMA_OBJECT_DECRYPT|TPMA_OBJECT_USERWITHAUTH|TPMA_OBJECT_NODA,
- .parameters.eccDetail = {
- .symmetric = {
- .algorithm = TPM2_ALG_AES,
- .keyBits.aes = 128,
- .mode.aes = TPM2_ALG_CFB,
- },
- .scheme.scheme = TPM2_ALG_NULL,
- .curveID = TPM2_ECC_NIST_P256,
- .kdf.scheme = TPM2_ALG_NULL,
- },
- },
- },
- };
-
- assert_cc(ELEMENTSOF(templ) == _TPM2_SRK_TEMPLATE_MAX + 1);
-
- for (size_t i = 0; i < ELEMENTSOF(templ); i++) {
- /* the index counter lines up with the flags and the expected template received */
- const TPM2B_PUBLIC *got = tpm2_get_primary_template((Tpm2SRKTemplateFlags)i);
- assert_se(memcmp(&templ[i], got, sizeof(*got)) == 0);
- }
-}
-
static bool digest_check(const TPM2B_DIGEST *digest, const char *expect) {
_cleanup_free_ char *h = NULL;