/* module_hooks.c -- module load/unload hooks for libwolfssl.ko * * Copyright (C) 2006-2022 wolfSSL Inc. * * This file is part of wolfSSL. * * wolfSSL is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * wolfSSL is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA */ #ifndef WOLFSSL_LICENSE #define WOLFSSL_LICENSE "GPL v2" #endif #define FIPS_NO_WRAPPERS #define WOLFSSL_NEED_LINUX_CURRENT #ifdef HAVE_CONFIG_H #include #endif #include #include #ifdef WOLFCRYPT_ONLY #include #else #include #endif #ifdef HAVE_FIPS #include #endif #ifndef NO_CRYPT_TEST #include #include #endif static int libwolfssl_cleanup(void) { int ret; #ifdef WOLFCRYPT_ONLY ret = wolfCrypt_Cleanup(); if (ret != 0) pr_err("wolfCrypt_Cleanup() failed: %s\n", wc_GetErrorString(ret)); else pr_info("wolfCrypt " LIBWOLFSSL_VERSION_STRING " cleanup complete.\n"); #else ret = wolfSSL_Cleanup(); if (ret != WOLFSSL_SUCCESS) pr_err("wolfSSL_Cleanup() failed: %s\n", wc_GetErrorString(ret)); else pr_info("wolfSSL " LIBWOLFSSL_VERSION_STRING " cleanup complete.\n"); #endif return ret; } #ifdef HAVE_LINUXKM_PIE_SUPPORT extern int wolfCrypt_PIE_first_function(void); extern int wolfCrypt_PIE_last_function(void); extern const unsigned int wolfCrypt_PIE_rodata_start[]; extern const unsigned int wolfCrypt_PIE_rodata_end[]; /* cheap portable ad-hoc hash function to confirm bitwise stability of the PIE * binary image. */ static unsigned int hash_span(char *start, char *end) { unsigned int sum = 1; while (start < end) { unsigned int rotate_by; sum ^= *start++; rotate_by = (sum ^ (sum >> 5)) & 31; sum = (sum << rotate_by) | (sum >> (32 - rotate_by)); } return sum; } #ifdef USE_WOLFSSL_LINUXKM_PIE_REDIRECT_TABLE extern struct wolfssl_linuxkm_pie_redirect_table wolfssl_linuxkm_pie_redirect_table; static int set_up_wolfssl_linuxkm_pie_redirect_table(void); #endif /* USE_WOLFSSL_LINUXKM_PIE_REDIRECT_TABLE */ #endif /* HAVE_LINUXKM_PIE_SUPPORT */ #ifdef HAVE_FIPS static void lkmFipsCb(int ok, int err, const char* hash) { if ((! ok) || (err != 0)) pr_err("libwolfssl FIPS error: %s\n", wc_GetErrorString(err)); if (err == IN_CORE_FIPS_E) { pr_err("In-core integrity hash check failure.\n" "Update verifyCore[] in fips_test.c with new hash \"%s\" and rebuild.\n", hash ? hash : ""); } } #endif #ifdef WOLFCRYPT_FIPS_CORE_DYNAMIC_HASH_VALUE #ifndef CONFIG_MODULE_SIG #error WOLFCRYPT_FIPS_CORE_DYNAMIC_HASH_VALUE requires a CONFIG_MODULE_SIG kernel. #endif static int updateFipsHash(void); #endif #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 0, 0) static int __init wolfssl_init(void) #else static int wolfssl_init(void) #endif { int ret; #ifdef WOLFCRYPT_FIPS_CORE_DYNAMIC_HASH_VALUE if (THIS_MODULE->sig_ok == false) { pr_err("wolfSSL module load aborted -- bad or missing module signature with FIPS dynamic hash.\n"); return -ECANCELED; } ret = updateFipsHash(); if (ret < 0) { pr_err("wolfSSL module load aborted -- updateFipsHash: %s\n",wc_GetErrorString(ret)); return -ECANCELED; } #endif #ifdef USE_WOLFSSL_LINUXKM_PIE_REDIRECT_TABLE ret = set_up_wolfssl_linuxkm_pie_redirect_table(); if (ret < 0) return ret; #endif #ifdef HAVE_LINUXKM_PIE_SUPPORT #if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 5, 0) #define THIS_MODULE_BASE (THIS_MODULE->core_layout.base) #define THIS_MODULE_TEXT_SIZE (THIS_MODULE->core_layout.text_size) #define THIS_MODULE_RO_SIZE (THIS_MODULE->core_layout.ro_size) #else #define THIS_MODULE_BASE (THIS_MODULE->module_core) #define THIS_MODULE_TEXT_SIZE (THIS_MODULE->core_text_size) #define THIS_MODULE_RO_SIZE (THIS_MODULE->core_ro_size) #endif { char *pie_text_start = (char *)wolfCrypt_PIE_first_function; char *pie_text_end = (char *)wolfCrypt_PIE_last_function; char *pie_rodata_start = (char *)wolfCrypt_PIE_rodata_start; char *pie_rodata_end = (char *)wolfCrypt_PIE_rodata_end; unsigned int text_hash, rodata_hash; if ((pie_text_start < pie_text_end) && (pie_text_start >= (char *)THIS_MODULE_BASE) && (pie_text_end - (char *)THIS_MODULE_BASE <= THIS_MODULE_TEXT_SIZE)) { text_hash = hash_span(pie_text_start, pie_text_end); } else { pr_info("out-of-bounds PIE fenceposts! pie_text_start=%px pie_text_end=%px (span=%lu)" " core_layout.base=%px text_end=%px\n", pie_text_start, pie_text_end, pie_text_end-pie_text_start, THIS_MODULE_BASE, (char *)THIS_MODULE_BASE + THIS_MODULE_TEXT_SIZE); text_hash = 0; } if ((pie_rodata_start < pie_rodata_end) && // cppcheck-suppress comparePointers (pie_rodata_start >= (char *)THIS_MODULE_BASE + THIS_MODULE_TEXT_SIZE) && (pie_rodata_end - (char *)THIS_MODULE_BASE <= THIS_MODULE_RO_SIZE)) { rodata_hash = hash_span(pie_rodata_start, pie_rodata_end); } else { pr_info("out-of-bounds PIE fenceposts! pie_rodata_start=%px pie_rodata_end=%px (span=%lu)" " core_layout.base+core_layout.text_size=%px rodata_end=%px\n", pie_rodata_start, pie_rodata_end, pie_rodata_end-pie_rodata_start, (char *)THIS_MODULE_BASE + THIS_MODULE_TEXT_SIZE, (char *)THIS_MODULE_BASE + THIS_MODULE_RO_SIZE); rodata_hash = 0; } /* note, "%pK" conceals the actual layout information. "%px" exposes * the true module start address, which is potentially useful to an * attacker. */ pr_info("wolfCrypt container hashes (spans): %x (%lu) %x (%lu), module base %pK\n", text_hash, pie_text_end-pie_text_start, rodata_hash, pie_rodata_end-pie_rodata_start, THIS_MODULE_BASE); } #endif /* HAVE_LINUXKM_PIE_SUPPORT */ #ifdef HAVE_FIPS ret = wolfCrypt_SetCb_fips(lkmFipsCb); if (ret != 0) { pr_err("wolfCrypt_SetCb_fips() failed: %s\n", wc_GetErrorString(ret)); return -ECANCELED; } fipsEntry(); ret = wolfCrypt_GetStatus_fips(); if (ret != 0) { pr_err("wolfCrypt_GetStatus_fips() failed: %s\n", wc_GetErrorString(ret)); if (ret == IN_CORE_FIPS_E) { const char *newhash = wolfCrypt_GetCoreHash_fips(); pr_err("Update verifyCore[] in fips_test.c with new hash \"%s\" and rebuild.\n", newhash ? newhash : ""); } return -ECANCELED; } pr_info("wolfCrypt FIPS [" #if defined(HAVE_FIPS_VERSION) && (HAVE_FIPS_VERSION == 3) "ready" #elif defined(HAVE_FIPS_VERSION) && (HAVE_FIPS_VERSION == 2) \ && defined(WOLFCRYPT_FIPS_RAND) "140-2 rand" #elif defined(HAVE_FIPS_VERSION) && (HAVE_FIPS_VERSION == 2) "140-2" #else "140" #endif "] POST succeeded.\n"); #endif /* HAVE_FIPS */ #ifdef WOLFCRYPT_ONLY ret = wolfCrypt_Init(); if (ret != 0) { pr_err("wolfCrypt_Init() failed: %s\n", wc_GetErrorString(ret)); return -ECANCELED; } #else ret = wolfSSL_Init(); if (ret != WOLFSSL_SUCCESS) { pr_err("wolfSSL_Init() failed: %s\n", wc_GetErrorString(ret)); return -ECANCELED; } #endif #ifndef NO_CRYPT_TEST #ifdef WC_RNG_SEED_CB ret = wc_SetSeed_Cb(wc_GenerateSeed); if (ret == 0) #endif { ret = wolfcrypt_test(NULL); } if (ret < 0) { pr_err("wolfcrypt self-test failed with return code %d.\n", ret); (void)libwolfssl_cleanup(); msleep(10); return -ECANCELED; } pr_info("wolfCrypt self-test passed.\n"); #endif #ifdef WOLFCRYPT_ONLY pr_info("wolfCrypt " LIBWOLFSSL_VERSION_STRING " loaded%s" ".\nSee https://www.wolfssl.com/ for more information.\n" "wolfCrypt Copyright (C) 2006-present wolfSSL Inc. Licensed under " WOLFSSL_LICENSE ".\n", #ifdef CONFIG_MODULE_SIG THIS_MODULE->sig_ok ? " with valid module signature" : " without valid module signature" #else "" #endif ); #else pr_info("wolfSSL " LIBWOLFSSL_VERSION_STRING " loaded%s" ".\nSee https://www.wolfssl.com/ for more information.\n" "wolfSSL Copyright (C) 2006-present wolfSSL Inc. Licensed under " WOLFSSL_LICENSE ".\n", #ifdef CONFIG_MODULE_SIG THIS_MODULE->sig_ok ? " with valid module signature" : " without valid module signature" #else "" #endif ); #endif return 0; } module_init(wolfssl_init); #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 0, 0) static void __exit wolfssl_exit(void) #else static void wolfssl_exit(void) #endif { (void)libwolfssl_cleanup(); return; } module_exit(wolfssl_exit); MODULE_LICENSE(WOLFSSL_LICENSE); MODULE_AUTHOR("https://www.wolfssl.com/"); MODULE_DESCRIPTION("libwolfssl cryptographic and protocol facilities"); MODULE_VERSION(LIBWOLFSSL_VERSION_STRING); #ifdef USE_WOLFSSL_LINUXKM_PIE_REDIRECT_TABLE /* get_current() is an inline or macro, depending on the target -- sidestep the whole issue with a wrapper func. */ static struct task_struct *my_get_current_thread(void) { return get_current(); } /* ditto for preempt_count(). */ static int my_preempt_count(void) { return preempt_count(); } #if defined(WOLFSSL_LINUXKM_SIMD_X86) && (LINUX_VERSION_CODE < KERNEL_VERSION(5, 14, 0)) static int my_copy_fpregs_to_fpstate(struct fpu *fpu) { return copy_fpregs_to_fpstate(fpu); } static void my_copy_kernel_to_fpregs(union fpregs_state *fpstate) { copy_kernel_to_fpregs(fpstate); } #endif static int set_up_wolfssl_linuxkm_pie_redirect_table(void) { memset( &wolfssl_linuxkm_pie_redirect_table, 0, sizeof wolfssl_linuxkm_pie_redirect_table); #ifndef __ARCH_MEMCMP_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.memcmp = memcmp; #endif #ifndef __ARCH_MEMCPY_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.memcpy = memcpy; #endif #ifndef __ARCH_MEMSET_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.memset = memset; #endif #ifndef __ARCH_MEMMOVE_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.memmove = memmove; #endif #ifndef __ARCH_STRCMP_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strcmp = strcmp; #endif #ifndef __ARCH_STRNCMP_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strncmp = strncmp; #endif #ifndef __ARCH_STRCASECMP_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strcasecmp = strcasecmp; #endif #ifndef __ARCH_STRNCASECMP_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strncasecmp = strncasecmp; #endif #ifndef __ARCH_STRLEN_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strlen = strlen; #endif #ifndef __ARCH_STRSTR_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strstr = strstr; #endif #ifndef __ARCH_STRNCPY_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strncpy = strncpy; #endif #ifndef __ARCH_STRNCAT_NO_REDIRECT wolfssl_linuxkm_pie_redirect_table.strncat = strncat; #endif wolfssl_linuxkm_pie_redirect_table.kstrtoll = kstrtoll; #if LINUX_VERSION_CODE >= KERNEL_VERSION(5, 15, 0) wolfssl_linuxkm_pie_redirect_table._printk = _printk; #else wolfssl_linuxkm_pie_redirect_table.printk = printk; #endif wolfssl_linuxkm_pie_redirect_table.snprintf = snprintf; wolfssl_linuxkm_pie_redirect_table._ctype = _ctype; wolfssl_linuxkm_pie_redirect_table.kmalloc = kmalloc; wolfssl_linuxkm_pie_redirect_table.kfree = kfree; wolfssl_linuxkm_pie_redirect_table.ksize = ksize; wolfssl_linuxkm_pie_redirect_table.krealloc = krealloc; #ifdef HAVE_KVMALLOC wolfssl_linuxkm_pie_redirect_table.kvmalloc_node = kvmalloc_node; wolfssl_linuxkm_pie_redirect_table.kvfree = kvfree; #endif wolfssl_linuxkm_pie_redirect_table.is_vmalloc_addr = is_vmalloc_addr; wolfssl_linuxkm_pie_redirect_table.kmem_cache_alloc_trace = kmem_cache_alloc_trace; wolfssl_linuxkm_pie_redirect_table.kmalloc_order_trace = kmalloc_order_trace; wolfssl_linuxkm_pie_redirect_table.get_random_bytes = get_random_bytes; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 0, 0) wolfssl_linuxkm_pie_redirect_table.getnstimeofday = getnstimeofday; #elif LINUX_VERSION_CODE < KERNEL_VERSION(5, 0, 0) wolfssl_linuxkm_pie_redirect_table.current_kernel_time64 = current_kernel_time64; #else wolfssl_linuxkm_pie_redirect_table.ktime_get_coarse_real_ts64 = ktime_get_coarse_real_ts64; #endif wolfssl_linuxkm_pie_redirect_table.get_current = my_get_current_thread; wolfssl_linuxkm_pie_redirect_table.preempt_count = my_preempt_count; #ifdef WOLFSSL_LINUXKM_SIMD_X86 wolfssl_linuxkm_pie_redirect_table.irq_fpu_usable = irq_fpu_usable; #ifdef kernel_fpu_begin wolfssl_linuxkm_pie_redirect_table.kernel_fpu_begin_mask = kernel_fpu_begin_mask; #else wolfssl_linuxkm_pie_redirect_table.kernel_fpu_begin = kernel_fpu_begin; #endif wolfssl_linuxkm_pie_redirect_table.kernel_fpu_end = kernel_fpu_end; #ifdef LINUXKM_SIMD_IRQ #if LINUX_VERSION_CODE < KERNEL_VERSION(5, 14, 0) wolfssl_linuxkm_pie_redirect_table.copy_fpregs_to_fpstate = my_copy_fpregs_to_fpstate; wolfssl_linuxkm_pie_redirect_table.copy_kernel_to_fpregs = my_copy_kernel_to_fpregs; #elif LINUX_VERSION_CODE < KERNEL_VERSION(5, 16, 0) wolfssl_linuxkm_pie_redirect_table.save_fpregs_to_fpstate = save_fpregs_to_fpstate; wolfssl_linuxkm_pie_redirect_table.__restore_fpregs_from_fpstate = __restore_fpregs_from_fpstate; wolfssl_linuxkm_pie_redirect_table.xfeatures_mask_all = &xfeatures_mask_all; /* * #else * wolfssl_linuxkm_pie_redirect_table.save_fpregs_to_fpstate = save_fpregs_to_fpstate; * wolfssl_linuxkm_pie_redirect_table.restore_fpregs_from_fpstate = restore_fpregs_from_fpstate; * wolfssl_linuxkm_pie_redirect_table.fpu_kernel_cfg = &fpu_kernel_cfg; */ #endif #endif wolfssl_linuxkm_pie_redirect_table.cpu_number = &cpu_number; wolfssl_linuxkm_pie_redirect_table.nr_cpu_ids = &nr_cpu_ids; #endif wolfssl_linuxkm_pie_redirect_table.__mutex_init = __mutex_init; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 0, 0) wolfssl_linuxkm_pie_redirect_table.mutex_lock_nested = mutex_lock_nested; #else wolfssl_linuxkm_pie_redirect_table.mutex_lock = mutex_lock; #endif wolfssl_linuxkm_pie_redirect_table.mutex_unlock = mutex_unlock; #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 0, 0) wolfssl_linuxkm_pie_redirect_table.mutex_destroy = mutex_destroy; #endif #ifdef HAVE_FIPS wolfssl_linuxkm_pie_redirect_table.wolfCrypt_FIPS_first = wolfCrypt_FIPS_first; wolfssl_linuxkm_pie_redirect_table.wolfCrypt_FIPS_last = wolfCrypt_FIPS_last; #endif #if !defined(WOLFCRYPT_ONLY) && !defined(NO_CERTS) wolfssl_linuxkm_pie_redirect_table.GetCA = GetCA; #ifndef NO_SKID wolfssl_linuxkm_pie_redirect_table.GetCAByName = GetCAByName; #endif #endif /* runtime assert that the table has no null slots after initialization. */ { unsigned long *i; for (i = (unsigned long *)&wolfssl_linuxkm_pie_redirect_table; i < (unsigned long *)&wolfssl_linuxkm_pie_redirect_table._last_slot; ++i) if (*i == 0) { pr_err("wolfCrypt container redirect table initialization was incomplete.\n"); return -EFAULT; } } return 0; } #endif /* USE_WOLFSSL_LINUXKM_PIE_REDIRECT_TABLE */ #ifdef WOLFCRYPT_FIPS_CORE_DYNAMIC_HASH_VALUE #include PRAGMA_GCC_DIAG_PUSH; PRAGMA_GCC("GCC diagnostic ignored \"-Wnested-externs\""); PRAGMA_GCC("GCC diagnostic ignored \"-Wpointer-arith\""); #include PRAGMA_GCC_DIAG_POP; extern char verifyCore[WC_SHA256_DIGEST_SIZE*2 + 1]; extern const char coreKey[WC_SHA256_DIGEST_SIZE*2 + 1]; extern const unsigned int wolfCrypt_FIPS_ro_start[]; extern const unsigned int wolfCrypt_FIPS_ro_end[]; #define FIPS_IN_CORE_KEY_SZ 32 #define FIPS_IN_CORE_VERIFY_SZ FIPS_IN_CORE_KEY_SZ typedef int (*fips_address_function)(void); #define MAX_FIPS_DATA_SZ 100000 #define MAX_FIPS_CODE_SZ 1000000 extern int GenBase16_Hash(const byte* in, int length, char* out, int outSz); static int updateFipsHash(void) { struct crypto_shash *tfm = NULL; struct shash_desc *desc = NULL; word32 verifySz = FIPS_IN_CORE_VERIFY_SZ; word32 binCoreSz = FIPS_IN_CORE_KEY_SZ; int ret; byte *hash = NULL; char *base16_hash = NULL; byte *binCoreKey = NULL; byte *binVerify = NULL; fips_address_function first = wolfCrypt_FIPS_first; fips_address_function last = wolfCrypt_FIPS_last; char* start = (char*)wolfCrypt_FIPS_ro_start; char* end = (char*)wolfCrypt_FIPS_ro_end; unsigned long code_sz = (unsigned long)last - (unsigned long)first; unsigned long data_sz = (unsigned long)end - (unsigned long)start; if (data_sz == 0 || data_sz > MAX_FIPS_DATA_SZ) return BAD_FUNC_ARG; /* bad fips data size */ if (code_sz == 0 || code_sz > MAX_FIPS_CODE_SZ) return BAD_FUNC_ARG; /* bad fips code size */ hash = XMALLOC(WC_SHA256_DIGEST_SIZE, 0, DYNAMIC_TYPE_TMP_BUFFER); if (hash == NULL) { ret = MEMORY_E; goto out; } base16_hash = XMALLOC(WC_SHA256_DIGEST_SIZE*2 + 1, 0, DYNAMIC_TYPE_TMP_BUFFER); if (base16_hash == NULL) { ret = MEMORY_E; goto out; } binCoreKey = XMALLOC(binCoreSz, 0, DYNAMIC_TYPE_TMP_BUFFER); if (binCoreKey == NULL) { ret = MEMORY_E; goto out; } binVerify = XMALLOC(verifySz, 0, DYNAMIC_TYPE_TMP_BUFFER); if (binVerify == NULL) { ret = MEMORY_E; goto out; } { word32 base16_out_len = binCoreSz; ret = Base16_Decode((const byte *)coreKey, sizeof coreKey - 1, binCoreKey, &base16_out_len); if (ret != 0) { pr_err("Base16_Decode for coreKey: %s\n", wc_GetErrorString(ret)); goto out; } if (base16_out_len != binCoreSz) { pr_err("unexpected output length %u for coreKey from Base16_Decode.\n",base16_out_len); ret = BAD_STATE_E; goto out; } } tfm = crypto_alloc_shash("hmac(sha256)", 0, 0); if (IS_ERR(tfm)) { if (PTR_ERR(tfm) == -ENOMEM) { pr_err("crypto_alloc_shash failed: out of memory\n"); ret = MEMORY_E; } else if (PTR_ERR(tfm) == -ENOENT) { pr_err("crypto_alloc_shash failed: kernel is missing hmac(sha256) implementation\n"); pr_err("check for CONFIG_CRYPTO_SHA256 and CONFIG_CRYPTO_HMAC.\n"); ret = NOT_COMPILED_IN; } else { pr_err("crypto_alloc_shash failed with ret %ld\n",PTR_ERR(tfm)); ret = HASH_TYPE_E; } tfm = NULL; goto out; } { size_t desc_size = crypto_shash_descsize(tfm) + sizeof *desc; desc = XMALLOC(desc_size, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (desc == NULL) { pr_err("failed allocating desc."); ret = MEMORY_E; goto out; } XMEMSET(desc, 0, desc_size); } ret = crypto_shash_setkey(tfm, binCoreKey, binCoreSz); if (ret) { pr_err("crypto_ahash_setkey failed: err %d\n", ret); ret = BAD_STATE_E; goto out; } desc->tfm = tfm; ret = crypto_shash_init(desc); if (ret) { pr_err("crypto_shash_init failed: err %d\n", ret); ret = BAD_STATE_E; goto out; } ret = crypto_shash_update(desc, (byte *)(wc_ptr_t)first, (word32)code_sz); if (ret) { pr_err("crypto_shash_update failed: err %d\n", ret); ret = BAD_STATE_E; goto out; } /* don't hash verifyCore or changing verifyCore will change hash */ if (verifyCore >= start && verifyCore < end) { data_sz = (unsigned long)verifyCore - (unsigned long)start; ret = crypto_shash_update(desc, (byte*)start, (word32)data_sz); if (ret) { pr_err("crypto_shash_update failed: err %d\n", ret); ret = BAD_STATE_E; goto out; } start = (char*)verifyCore + sizeof(verifyCore); data_sz = (unsigned long)end - (unsigned long)start; } ret = crypto_shash_update(desc, (byte*)start, (word32)data_sz); if (ret) { pr_err("crypto_shash_update failed: err %d\n", ret); ret = BAD_STATE_E; goto out; } ret = crypto_shash_final(desc, hash); if (ret) { pr_err("crypto_shash_final failed: err %d\n", ret); ret = BAD_STATE_E; goto out; } ret = GenBase16_Hash(hash, WC_SHA256_DIGEST_SIZE, base16_hash, WC_SHA256_DIGEST_SIZE*2 + 1); if (ret != 0) { pr_err("GenBase16_Hash failed: %s\n", wc_GetErrorString(ret)); goto out; } { word32 base16_out_len = verifySz; ret = Base16_Decode((const byte *)verifyCore, sizeof verifyCore - 1, binVerify, &base16_out_len); if (ret != 0) { pr_err("Base16_Decode for verifyCore: %s\n", wc_GetErrorString(ret)); goto out; } if (base16_out_len != binCoreSz) { pr_err("unexpected output length %u for verifyCore from Base16_Decode.\n",base16_out_len); ret = BAD_STATE_E; goto out; } } if (XMEMCMP(hash, binVerify, WC_SHA256_DIGEST_SIZE) == 0) pr_info("updateFipsHash: verifyCore already matches.\n"); else { XMEMCPY(verifyCore, base16_hash, WC_SHA256_DIGEST_SIZE*2 + 1); pr_info("updateFipsHash: verifyCore updated.\n"); } ret = 0; out: if (tfm != NULL) crypto_free_shash(tfm); if (desc != NULL) XFREE(desc, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (hash != NULL) XFREE(hash, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (base16_hash != NULL) XFREE(base16_hash, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (binCoreKey != NULL) XFREE(binCoreKey, NULL, DYNAMIC_TYPE_TMP_BUFFER); if (binVerify != NULL) XFREE(binVerify, NULL, DYNAMIC_TYPE_TMP_BUFFER); return ret; } #endif /* WOLFCRYPT_FIPS_CORE_DYNAMIC_HASH_VALUE */