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-rw-r--r--lib/crypto_backend/argon2/argon2.c456
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diff --git a/lib/crypto_backend/argon2/argon2.c b/lib/crypto_backend/argon2/argon2.c
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+++ b/lib/crypto_backend/argon2/argon2.c
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+/*
+ * Argon2 reference source code package - reference C implementations
+ *
+ * Copyright 2015
+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves
+ *
+ * You may use this work under the terms of a Creative Commons CC0 1.0
+ * License/Waiver or the Apache Public License 2.0, at your option. The terms of
+ * these licenses can be found at:
+ *
+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0
+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * You should have received a copy of both of these licenses along with this
+ * software. If not, they may be obtained at the above URLs.
+ */
+
+#include <string.h>
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "argon2.h"
+#include "encoding.h"
+#include "core.h"
+
+/* to silent gcc -Wcast-qual for const cast */
+#define CONST_CAST(x) (x)(uintptr_t)
+
+const char *argon2_type2string(argon2_type type, int uppercase) {
+ switch (type) {
+ case Argon2_d:
+ return uppercase ? "Argon2d" : "argon2d";
+ case Argon2_i:
+ return uppercase ? "Argon2i" : "argon2i";
+ case Argon2_id:
+ return uppercase ? "Argon2id" : "argon2id";
+ }
+
+ return NULL;
+}
+
+int argon2_ctx(argon2_context *context, argon2_type type) {
+ /* 1. Validate all inputs */
+ int result = validate_inputs(context);
+ uint32_t memory_blocks, segment_length;
+ argon2_instance_t instance;
+
+ if (ARGON2_OK != result) {
+ return result;
+ }
+
+ if (Argon2_d != type && Argon2_i != type && Argon2_id != type) {
+ return ARGON2_INCORRECT_TYPE;
+ }
+
+ /* 2. Align memory size */
+ /* Minimum memory_blocks = 8L blocks, where L is the number of lanes */
+ memory_blocks = context->m_cost;
+
+ if (memory_blocks < 2 * ARGON2_SYNC_POINTS * context->lanes) {
+ memory_blocks = 2 * ARGON2_SYNC_POINTS * context->lanes;
+ }
+
+ segment_length = memory_blocks / (context->lanes * ARGON2_SYNC_POINTS);
+ /* Ensure that all segments have equal length */
+ memory_blocks = segment_length * (context->lanes * ARGON2_SYNC_POINTS);
+
+ instance.version = context->version;
+ instance.memory = NULL;
+ instance.passes = context->t_cost;
+ instance.memory_blocks = memory_blocks;
+ instance.segment_length = segment_length;
+ instance.lane_length = segment_length * ARGON2_SYNC_POINTS;
+ instance.lanes = context->lanes;
+ instance.threads = context->threads;
+ instance.type = type;
+
+ if (instance.threads > instance.lanes) {
+ instance.threads = instance.lanes;
+ }
+
+ /* 3. Initialization: Hashing inputs, allocating memory, filling first
+ * blocks
+ */
+ result = initialize(&instance, context);
+
+ if (ARGON2_OK != result) {
+ return result;
+ }
+
+ /* 4. Filling memory */
+ result = fill_memory_blocks(&instance);
+
+ if (ARGON2_OK != result) {
+ return result;
+ }
+ /* 5. Finalization */
+ finalize(context, &instance);
+
+ return ARGON2_OK;
+}
+
+int argon2_hash(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt, const size_t saltlen,
+ void *hash, const size_t hashlen, char *encoded,
+ const size_t encodedlen, argon2_type type,
+ const uint32_t version){
+
+ argon2_context context;
+ int result;
+ uint8_t *out;
+
+ if (pwdlen > ARGON2_MAX_PWD_LENGTH) {
+ return ARGON2_PWD_TOO_LONG;
+ }
+
+ if (saltlen > ARGON2_MAX_SALT_LENGTH) {
+ return ARGON2_SALT_TOO_LONG;
+ }
+
+ if (hashlen > ARGON2_MAX_OUTLEN) {
+ return ARGON2_OUTPUT_TOO_LONG;
+ }
+
+ if (hashlen < ARGON2_MIN_OUTLEN) {
+ return ARGON2_OUTPUT_TOO_SHORT;
+ }
+
+ out = malloc(hashlen);
+ if (!out) {
+ return ARGON2_MEMORY_ALLOCATION_ERROR;
+ }
+
+ context.out = (uint8_t *)out;
+ context.outlen = (uint32_t)hashlen;
+ context.pwd = CONST_CAST(uint8_t *)pwd;
+ context.pwdlen = (uint32_t)pwdlen;
+ context.salt = CONST_CAST(uint8_t *)salt;
+ context.saltlen = (uint32_t)saltlen;
+ context.secret = NULL;
+ context.secretlen = 0;
+ context.ad = NULL;
+ context.adlen = 0;
+ context.t_cost = t_cost;
+ context.m_cost = m_cost;
+ context.lanes = parallelism;
+ context.threads = parallelism;
+ context.allocate_cbk = NULL;
+ context.free_cbk = NULL;
+ context.flags = ARGON2_DEFAULT_FLAGS;
+ context.version = version;
+
+ result = argon2_ctx(&context, type);
+
+ if (result != ARGON2_OK) {
+ clear_internal_memory(out, hashlen);
+ free(out);
+ return result;
+ }
+
+ /* if raw hash requested, write it */
+ if (hash) {
+ memcpy(hash, out, hashlen);
+ }
+
+ /* if encoding requested, write it */
+ if (encoded && encodedlen) {
+ if (encode_string(encoded, encodedlen, &context, type) != ARGON2_OK) {
+ clear_internal_memory(out, hashlen); /* wipe buffers if error */
+ clear_internal_memory(encoded, encodedlen);
+ free(out);
+ return ARGON2_ENCODING_FAIL;
+ }
+ }
+ clear_internal_memory(out, hashlen);
+ free(out);
+
+ return ARGON2_OK;
+}
+
+int argon2i_hash_encoded(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt,
+ const size_t saltlen, const size_t hashlen,
+ char *encoded, const size_t encodedlen) {
+
+ return argon2_hash(t_cost, m_cost, parallelism, pwd, pwdlen, salt, saltlen,
+ NULL, hashlen, encoded, encodedlen, Argon2_i,
+ ARGON2_VERSION_NUMBER);
+}
+
+int argon2i_hash_raw(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt,
+ const size_t saltlen, void *hash, const size_t hashlen) {
+
+ return argon2_hash(t_cost, m_cost, parallelism, pwd, pwdlen, salt, saltlen,
+ hash, hashlen, NULL, 0, Argon2_i, ARGON2_VERSION_NUMBER);
+}
+
+int argon2d_hash_encoded(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt,
+ const size_t saltlen, const size_t hashlen,
+ char *encoded, const size_t encodedlen) {
+
+ return argon2_hash(t_cost, m_cost, parallelism, pwd, pwdlen, salt, saltlen,
+ NULL, hashlen, encoded, encodedlen, Argon2_d,
+ ARGON2_VERSION_NUMBER);
+}
+
+int argon2d_hash_raw(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt,
+ const size_t saltlen, void *hash, const size_t hashlen) {
+
+ return argon2_hash(t_cost, m_cost, parallelism, pwd, pwdlen, salt, saltlen,
+ hash, hashlen, NULL, 0, Argon2_d, ARGON2_VERSION_NUMBER);
+}
+
+int argon2id_hash_encoded(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt,
+ const size_t saltlen, const size_t hashlen,
+ char *encoded, const size_t encodedlen) {
+
+ return argon2_hash(t_cost, m_cost, parallelism, pwd, pwdlen, salt, saltlen,
+ NULL, hashlen, encoded, encodedlen, Argon2_id,
+ ARGON2_VERSION_NUMBER);
+}
+
+int argon2id_hash_raw(const uint32_t t_cost, const uint32_t m_cost,
+ const uint32_t parallelism, const void *pwd,
+ const size_t pwdlen, const void *salt,
+ const size_t saltlen, void *hash, const size_t hashlen) {
+ return argon2_hash(t_cost, m_cost, parallelism, pwd, pwdlen, salt, saltlen,
+ hash, hashlen, NULL, 0, Argon2_id,
+ ARGON2_VERSION_NUMBER);
+}
+
+static int argon2_compare(const uint8_t *b1, const uint8_t *b2, size_t len) {
+ size_t i;
+ uint8_t d = 0U;
+
+ for (i = 0U; i < len; i++) {
+ d |= b1[i] ^ b2[i];
+ }
+ return (int)((1 & ((d - 1) >> 8)) - 1);
+}
+
+int argon2_verify(const char *encoded, const void *pwd, const size_t pwdlen,
+ argon2_type type) {
+
+ argon2_context ctx;
+ uint8_t *desired_result = NULL;
+
+ int ret = ARGON2_OK;
+
+ size_t encoded_len;
+ uint32_t max_field_len;
+
+ if (pwdlen > ARGON2_MAX_PWD_LENGTH) {
+ return ARGON2_PWD_TOO_LONG;
+ }
+
+ if (encoded == NULL) {
+ return ARGON2_DECODING_FAIL;
+ }
+
+ encoded_len = strlen(encoded);
+ if (encoded_len > UINT32_MAX) {
+ return ARGON2_DECODING_FAIL;
+ }
+
+ /* No field can be longer than the encoded length */
+ /* coverity[strlen_assign] */
+ max_field_len = (uint32_t)encoded_len;
+
+ ctx.saltlen = max_field_len;
+ ctx.outlen = max_field_len;
+
+ ctx.salt = malloc(ctx.saltlen);
+ ctx.out = malloc(ctx.outlen);
+ if (!ctx.salt || !ctx.out) {
+ ret = ARGON2_MEMORY_ALLOCATION_ERROR;
+ goto fail;
+ }
+
+ ctx.pwd = CONST_CAST(uint8_t *)pwd;
+ ctx.pwdlen = (uint32_t)pwdlen;
+
+ ret = decode_string(&ctx, encoded, type);
+ if (ret != ARGON2_OK) {
+ goto fail;
+ }
+
+ /* Set aside the desired result, and get a new buffer. */
+ desired_result = ctx.out;
+ ctx.out = malloc(ctx.outlen);
+ if (!ctx.out) {
+ ret = ARGON2_MEMORY_ALLOCATION_ERROR;
+ goto fail;
+ }
+
+ ret = argon2_verify_ctx(&ctx, (char *)desired_result, type);
+ if (ret != ARGON2_OK) {
+ goto fail;
+ }
+
+fail:
+ free(ctx.salt);
+ free(ctx.out);
+ free(desired_result);
+
+ return ret;
+}
+
+int argon2i_verify(const char *encoded, const void *pwd, const size_t pwdlen) {
+
+ return argon2_verify(encoded, pwd, pwdlen, Argon2_i);
+}
+
+int argon2d_verify(const char *encoded, const void *pwd, const size_t pwdlen) {
+
+ return argon2_verify(encoded, pwd, pwdlen, Argon2_d);
+}
+
+int argon2id_verify(const char *encoded, const void *pwd, const size_t pwdlen) {
+
+ return argon2_verify(encoded, pwd, pwdlen, Argon2_id);
+}
+
+int argon2d_ctx(argon2_context *context) {
+ return argon2_ctx(context, Argon2_d);
+}
+
+int argon2i_ctx(argon2_context *context) {
+ return argon2_ctx(context, Argon2_i);
+}
+
+int argon2id_ctx(argon2_context *context) {
+ return argon2_ctx(context, Argon2_id);
+}
+
+int argon2_verify_ctx(argon2_context *context, const char *hash,
+ argon2_type type) {
+ int ret = argon2_ctx(context, type);
+ if (ret != ARGON2_OK) {
+ return ret;
+ }
+
+ if (argon2_compare(CONST_CAST(uint8_t *)hash, context->out, context->outlen)) {
+ return ARGON2_VERIFY_MISMATCH;
+ }
+
+ return ARGON2_OK;
+}
+
+int argon2d_verify_ctx(argon2_context *context, const char *hash) {
+ return argon2_verify_ctx(context, hash, Argon2_d);
+}
+
+int argon2i_verify_ctx(argon2_context *context, const char *hash) {
+ return argon2_verify_ctx(context, hash, Argon2_i);
+}
+
+int argon2id_verify_ctx(argon2_context *context, const char *hash) {
+ return argon2_verify_ctx(context, hash, Argon2_id);
+}
+
+const char *argon2_error_message(int error_code) {
+ switch (error_code) {
+ case ARGON2_OK:
+ return "OK";
+ case ARGON2_OUTPUT_PTR_NULL:
+ return "Output pointer is NULL";
+ case ARGON2_OUTPUT_TOO_SHORT:
+ return "Output is too short";
+ case ARGON2_OUTPUT_TOO_LONG:
+ return "Output is too long";
+ case ARGON2_PWD_TOO_SHORT:
+ return "Password is too short";
+ case ARGON2_PWD_TOO_LONG:
+ return "Password is too long";
+ case ARGON2_SALT_TOO_SHORT:
+ return "Salt is too short";
+ case ARGON2_SALT_TOO_LONG:
+ return "Salt is too long";
+ case ARGON2_AD_TOO_SHORT:
+ return "Associated data is too short";
+ case ARGON2_AD_TOO_LONG:
+ return "Associated data is too long";
+ case ARGON2_SECRET_TOO_SHORT:
+ return "Secret is too short";
+ case ARGON2_SECRET_TOO_LONG:
+ return "Secret is too long";
+ case ARGON2_TIME_TOO_SMALL:
+ return "Time cost is too small";
+ case ARGON2_TIME_TOO_LARGE:
+ return "Time cost is too large";
+ case ARGON2_MEMORY_TOO_LITTLE:
+ return "Memory cost is too small";
+ case ARGON2_MEMORY_TOO_MUCH:
+ return "Memory cost is too large";
+ case ARGON2_LANES_TOO_FEW:
+ return "Too few lanes";
+ case ARGON2_LANES_TOO_MANY:
+ return "Too many lanes";
+ case ARGON2_PWD_PTR_MISMATCH:
+ return "Password pointer is NULL, but password length is not 0";
+ case ARGON2_SALT_PTR_MISMATCH:
+ return "Salt pointer is NULL, but salt length is not 0";
+ case ARGON2_SECRET_PTR_MISMATCH:
+ return "Secret pointer is NULL, but secret length is not 0";
+ case ARGON2_AD_PTR_MISMATCH:
+ return "Associated data pointer is NULL, but ad length is not 0";
+ case ARGON2_MEMORY_ALLOCATION_ERROR:
+ return "Memory allocation error";
+ case ARGON2_FREE_MEMORY_CBK_NULL:
+ return "The free memory callback is NULL";
+ case ARGON2_ALLOCATE_MEMORY_CBK_NULL:
+ return "The allocate memory callback is NULL";
+ case ARGON2_INCORRECT_PARAMETER:
+ return "Argon2_Context context is NULL";
+ case ARGON2_INCORRECT_TYPE:
+ return "There is no such version of Argon2";
+ case ARGON2_OUT_PTR_MISMATCH:
+ return "Output pointer mismatch";
+ case ARGON2_THREADS_TOO_FEW:
+ return "Not enough threads";
+ case ARGON2_THREADS_TOO_MANY:
+ return "Too many threads";
+ case ARGON2_MISSING_ARGS:
+ return "Missing arguments";
+ case ARGON2_ENCODING_FAIL:
+ return "Encoding failed";
+ case ARGON2_DECODING_FAIL:
+ return "Decoding failed";
+ case ARGON2_THREAD_FAIL:
+ return "Threading failure";
+ case ARGON2_DECODING_LENGTH_FAIL:
+ return "Some of encoded parameters are too long or too short";
+ case ARGON2_VERIFY_MISMATCH:
+ return "The password does not match the supplied hash";
+ default:
+ return "Unknown error code";
+ }
+}
+
+size_t argon2_encodedlen(uint32_t t_cost, uint32_t m_cost, uint32_t parallelism,
+ uint32_t saltlen, uint32_t hashlen, argon2_type type) {
+ return strlen("$$v=$m=,t=,p=$$") + strlen(argon2_type2string(type, 0)) +
+ numlen(t_cost) + numlen(m_cost) + numlen(parallelism) +
+ b64len(saltlen) + b64len(hashlen) + numlen(ARGON2_VERSION_NUMBER) + 1;
+}