/* * Copyright The Mbed TLS Contributors * SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later */ #include #include #include #include #include #include "psa/crypto.h" /* This block is present to support Visual Studio builds prior to 2015 */ #if defined(_MSC_VER) && _MSC_VER < 1900 #include int snprintf(char *s, size_t n, const char *fmt, ...) { int ret; va_list argp; /* Avoid calling the invalid parameter handler by checking ourselves */ if (s == NULL || n == 0 || fmt == NULL) { return -1; } va_start(argp, fmt); #if defined(_TRUNCATE) && !defined(__MINGW32__) ret = _vsnprintf_s(s, n, _TRUNCATE, fmt, argp); #else ret = _vsnprintf(s, n, fmt, argp); if (ret < 0 || (size_t) ret == n) { s[n-1] = '\0'; ret = -1; } #endif va_end(argp); return ret; } #endif static void append(char **buffer, size_t buffer_size, size_t *required_size, const char *string, size_t length) { *required_size += length; if (*required_size < buffer_size) { memcpy(*buffer, string, length); *buffer += length; } } static void append_integer(char **buffer, size_t buffer_size, size_t *required_size, const char *format /*printf format for value*/, unsigned long value) { size_t n = snprintf(*buffer, buffer_size - *required_size, format, value); if (n < buffer_size - *required_size) { *buffer += n; } *required_size += n; } /* The code of these function is automatically generated and included below. */ static const char *psa_ecc_family_name(psa_ecc_family_t curve); static const char *psa_dh_family_name(psa_dh_family_t group); static const char *psa_hash_algorithm_name(psa_algorithm_t hash_alg); static void append_with_curve(char **buffer, size_t buffer_size, size_t *required_size, const char *string, size_t length, psa_ecc_family_t curve) { const char *family_name = psa_ecc_family_name(curve); append(buffer, buffer_size, required_size, string, length); append(buffer, buffer_size, required_size, "(", 1); if (family_name != NULL) { append(buffer, buffer_size, required_size, family_name, strlen(family_name)); } else { append_integer(buffer, buffer_size, required_size, "0x%02x", curve); } append(buffer, buffer_size, required_size, ")", 1); } static void append_with_group(char **buffer, size_t buffer_size, size_t *required_size, const char *string, size_t length, psa_dh_family_t group) { const char *group_name = psa_dh_family_name(group); append(buffer, buffer_size, required_size, string, length); append(buffer, buffer_size, required_size, "(", 1); if (group_name != NULL) { append(buffer, buffer_size, required_size, group_name, strlen(group_name)); } else { append_integer(buffer, buffer_size, required_size, "0x%02x", group); } append(buffer, buffer_size, required_size, ")", 1); } typedef const char *(*psa_get_algorithm_name_func_ptr)(psa_algorithm_t alg); static void append_with_alg(char **buffer, size_t buffer_size, size_t *required_size, psa_get_algorithm_name_func_ptr get_name, psa_algorithm_t alg) { const char *name = get_name(alg); if (name != NULL) { append(buffer, buffer_size, required_size, name, strlen(name)); } else { append_integer(buffer, buffer_size, required_size, "0x%08lx", alg); } } #include "psa_constant_names_generated.c" static int psa_snprint_status(char *buffer, size_t buffer_size, psa_status_t status) { const char *name = psa_strerror(status); if (name == NULL) { return snprintf(buffer, buffer_size, "%ld", (long) status); } else { size_t length = strlen(name); if (length < buffer_size) { memcpy(buffer, name, length + 1); return (int) length; } else { return (int) buffer_size; } } } static int psa_snprint_ecc_curve(char *buffer, size_t buffer_size, psa_ecc_family_t curve) { const char *name = psa_ecc_family_name(curve); if (name == NULL) { return snprintf(buffer, buffer_size, "0x%02x", (unsigned) curve); } else { size_t length = strlen(name); if (length < buffer_size) { memcpy(buffer, name, length + 1); return (int) length; } else { return (int) buffer_size; } } } static int psa_snprint_dh_group(char *buffer, size_t buffer_size, psa_dh_family_t group) { const char *name = psa_dh_family_name(group); if (name == NULL) { return snprintf(buffer, buffer_size, "0x%02x", (unsigned) group); } else { size_t length = strlen(name); if (length < buffer_size) { memcpy(buffer, name, length + 1); return (int) length; } else { return (int) buffer_size; } } } static void usage(const char *program_name) { printf("Usage: %s TYPE VALUE [VALUE...]\n", program_name == NULL ? "psa_constant_names" : program_name); printf("Print the symbolic name whose numerical value is VALUE in TYPE.\n"); printf("Supported types (with = between aliases):\n"); printf(" alg=algorithm Algorithm (psa_algorithm_t)\n"); printf(" curve=ecc_curve Elliptic curve identifier (psa_ecc_family_t)\n"); printf(" group=dh_group Diffie-Hellman group identifier (psa_dh_family_t)\n"); printf(" type=key_type Key type (psa_key_type_t)\n"); printf(" usage=key_usage Key usage (psa_key_usage_t)\n"); printf(" error=status Status code (psa_status_t)\n"); } typedef enum { TYPE_STATUS, } signed_value_type; int process_signed(signed_value_type type, long min, long max, char **argp) { for (; *argp != NULL; argp++) { char buffer[200]; char *end; long value = strtol(*argp, &end, 0); if (*end) { printf("Non-numeric value: %s\n", *argp); return EXIT_FAILURE; } if (value < min || (errno == ERANGE && value < 0)) { printf("Value too small: %s\n", *argp); return EXIT_FAILURE; } if (value > max || (errno == ERANGE && value > 0)) { printf("Value too large: %s\n", *argp); return EXIT_FAILURE; } switch (type) { case TYPE_STATUS: psa_snprint_status(buffer, sizeof(buffer), (psa_status_t) value); break; } puts(buffer); } return EXIT_SUCCESS; } typedef enum { TYPE_ALGORITHM, TYPE_ECC_CURVE, TYPE_DH_GROUP, TYPE_KEY_TYPE, TYPE_KEY_USAGE, } unsigned_value_type; int process_unsigned(unsigned_value_type type, unsigned long max, char **argp) { for (; *argp != NULL; argp++) { char buffer[200]; char *end; unsigned long value = strtoul(*argp, &end, 0); if (*end) { printf("Non-numeric value: %s\n", *argp); return EXIT_FAILURE; } if (value > max || errno == ERANGE) { printf("Value out of range: %s\n", *argp); return EXIT_FAILURE; } switch (type) { case TYPE_ALGORITHM: psa_snprint_algorithm(buffer, sizeof(buffer), (psa_algorithm_t) value); break; case TYPE_ECC_CURVE: psa_snprint_ecc_curve(buffer, sizeof(buffer), (psa_ecc_family_t) value); break; case TYPE_DH_GROUP: psa_snprint_dh_group(buffer, sizeof(buffer), (psa_dh_family_t) value); break; case TYPE_KEY_TYPE: psa_snprint_key_type(buffer, sizeof(buffer), (psa_key_type_t) value); break; case TYPE_KEY_USAGE: psa_snprint_key_usage(buffer, sizeof(buffer), (psa_key_usage_t) value); break; } puts(buffer); } return EXIT_SUCCESS; } int main(int argc, char *argv[]) { if (argc <= 1 || !strcmp(argv[1], "help") || !strcmp(argv[1], "--help")) { usage(argv[0]); return EXIT_FAILURE; } if (!strcmp(argv[1], "error") || !strcmp(argv[1], "status")) { /* There's no way to obtain the actual range of a signed type, * so hard-code it here: psa_status_t is int32_t. */ return process_signed(TYPE_STATUS, INT32_MIN, INT32_MAX, argv + 2); } else if (!strcmp(argv[1], "alg") || !strcmp(argv[1], "algorithm")) { return process_unsigned(TYPE_ALGORITHM, (psa_algorithm_t) (-1), argv + 2); } else if (!strcmp(argv[1], "curve") || !strcmp(argv[1], "ecc_curve")) { return process_unsigned(TYPE_ECC_CURVE, (psa_ecc_family_t) (-1), argv + 2); } else if (!strcmp(argv[1], "group") || !strcmp(argv[1], "dh_group")) { return process_unsigned(TYPE_DH_GROUP, (psa_dh_family_t) (-1), argv + 2); } else if (!strcmp(argv[1], "type") || !strcmp(argv[1], "key_type")) { return process_unsigned(TYPE_KEY_TYPE, (psa_key_type_t) (-1), argv + 2); } else if (!strcmp(argv[1], "usage") || !strcmp(argv[1], "key_usage")) { return process_unsigned(TYPE_KEY_USAGE, (psa_key_usage_t) (-1), argv + 2); } else { printf("Unknown type: %s\n", argv[1]); return EXIT_FAILURE; } }