/* * SPDX-FileCopyrightText: 2020-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #include #include "esp_mbedtls_dynamic_impl.h" #define COUNTER_SIZE (8) #define CACHE_IV_SIZE (16) #define CACHE_BUFFER_SIZE (CACHE_IV_SIZE + COUNTER_SIZE) #define TX_IDLE_BUFFER_SIZE (MBEDTLS_SSL_HEADER_LEN + CACHE_BUFFER_SIZE) static const char *TAG = "Dynamic Impl"; static void esp_mbedtls_set_buf_state(unsigned char *buf, esp_mbedtls_ssl_buf_states state) { struct esp_mbedtls_ssl_buf *temp = __containerof(buf, struct esp_mbedtls_ssl_buf, buf[0]); temp->state = state; } static esp_mbedtls_ssl_buf_states esp_mbedtls_get_buf_state(unsigned char *buf) { struct esp_mbedtls_ssl_buf *temp = __containerof(buf, struct esp_mbedtls_ssl_buf, buf[0]); return temp->state; } void esp_mbedtls_free_buf(unsigned char *buf) { struct esp_mbedtls_ssl_buf *temp = __containerof(buf, struct esp_mbedtls_ssl_buf, buf[0]); ESP_LOGV(TAG, "free buffer @ %p", temp); mbedtls_free(temp); } static void esp_mbedtls_init_ssl_buf(struct esp_mbedtls_ssl_buf *buf, unsigned int len) { if (buf) { buf->state = ESP_MBEDTLS_SSL_BUF_CACHED; buf->len = len; } } static void esp_mbedtls_parse_record_header(mbedtls_ssl_context *ssl) { ssl->in_msgtype = ssl->in_hdr[0]; ssl->in_msglen = (ssl->in_len[0] << 8) | ssl->in_len[1]; } static int tx_buffer_len(mbedtls_ssl_context *ssl, int len) { (void)ssl; if (!len) { return MBEDTLS_SSL_OUT_BUFFER_LEN; } else { return len + MBEDTLS_SSL_HEADER_LEN + MBEDTLS_SSL_COMPRESSION_ADD + MBEDTLS_MAX_IV_LENGTH + MBEDTLS_SSL_MAC_ADD + MBEDTLS_SSL_PADDING_ADD; } } static void init_tx_buffer(mbedtls_ssl_context *ssl, unsigned char *buf) { /** * In mbedtls, ssl->out_msg = ssl->out_buf + offset; */ if (!buf) { int out_msg_off = (int)ssl->out_msg - (int)ssl->out_buf; if (!out_msg_off) { out_msg_off = MBEDTLS_SSL_HEADER_LEN; } ssl->out_buf = NULL; ssl->out_ctr = NULL; ssl->out_hdr = NULL; ssl->out_len = NULL; ssl->out_iv = NULL; ssl->out_msg = (unsigned char *)out_msg_off; } else { int out_msg_off = (int)ssl->out_msg; ssl->out_buf = buf; ssl->out_ctr = ssl->out_buf; ssl->out_hdr = ssl->out_buf + 8; ssl->out_len = ssl->out_buf + 11; ssl->out_iv = ssl->out_buf + MBEDTLS_SSL_HEADER_LEN; ssl->out_msg = ssl->out_buf + out_msg_off; ESP_LOGV(TAG, "out msg offset is %d", out_msg_off); } ssl->out_msgtype = 0; ssl->out_msglen = 0; ssl->out_left = 0; } static void init_rx_buffer(mbedtls_ssl_context *ssl, unsigned char *buf) { /** * In mbedtls, ssl->in_msg = ssl->in_buf + offset; */ if (!buf) { int in_msg_off = (int)ssl->in_msg - (int)ssl->in_buf; if (!in_msg_off) { in_msg_off = MBEDTLS_SSL_HEADER_LEN; } ssl->in_buf = NULL; ssl->in_ctr = NULL; ssl->in_hdr = NULL; ssl->in_len = NULL; ssl->in_iv = NULL; ssl->in_msg = (unsigned char *)in_msg_off; } else { int in_msg_off = (int)ssl->in_msg; ssl->in_buf = buf; ssl->in_ctr = ssl->in_buf; ssl->in_hdr = ssl->in_buf + 8; ssl->in_len = ssl->in_buf + 11; ssl->in_iv = ssl->in_buf + MBEDTLS_SSL_HEADER_LEN; ssl->in_msg = ssl->in_buf + in_msg_off; ESP_LOGV(TAG, "in msg offset is %d", in_msg_off); } ssl->in_msgtype = 0; ssl->in_msglen = 0; ssl->in_left = 0; } static int esp_mbedtls_alloc_tx_buf(mbedtls_ssl_context *ssl, int len) { struct esp_mbedtls_ssl_buf *esp_buf; if (ssl->out_buf) { esp_mbedtls_free_buf(ssl->out_buf); ssl->out_buf = NULL; } esp_buf = mbedtls_calloc(1, SSL_BUF_HEAD_OFFSET_SIZE + len); if (!esp_buf) { ESP_LOGE(TAG, "alloc(%d bytes) failed", SSL_BUF_HEAD_OFFSET_SIZE + len); return MBEDTLS_ERR_SSL_ALLOC_FAILED; } ESP_LOGV(TAG, "add out buffer %d bytes @ %p", len, esp_buf->buf); esp_mbedtls_init_ssl_buf(esp_buf, len); /** * Mark the out_msg offset from ssl->out_buf. * * In mbedtls, ssl->out_msg = ssl->out_buf + offset; */ ssl->out_msg = (unsigned char *)MBEDTLS_SSL_HEADER_LEN; init_tx_buffer(ssl, esp_buf->buf); return 0; } int esp_mbedtls_setup_tx_buffer(mbedtls_ssl_context *ssl) { CHECK_OK(esp_mbedtls_alloc_tx_buf(ssl, TX_IDLE_BUFFER_SIZE)); /* mark the out buffer has no data cached */ esp_mbedtls_set_buf_state(ssl->out_buf, ESP_MBEDTLS_SSL_BUF_NO_CACHED); return 0; } void esp_mbedtls_setup_rx_buffer(mbedtls_ssl_context *ssl) { ssl->in_msg = ssl->in_buf = NULL; init_rx_buffer(ssl, NULL); } int esp_mbedtls_reset_add_tx_buffer(mbedtls_ssl_context *ssl) { return esp_mbedtls_alloc_tx_buf(ssl, MBEDTLS_SSL_OUT_BUFFER_LEN); } int esp_mbedtls_reset_free_tx_buffer(mbedtls_ssl_context *ssl) { esp_mbedtls_free_buf(ssl->out_buf); init_tx_buffer(ssl, NULL); CHECK_OK(esp_mbedtls_setup_tx_buffer(ssl)); return 0; } int esp_mbedtls_reset_add_rx_buffer(mbedtls_ssl_context *ssl) { struct esp_mbedtls_ssl_buf *esp_buf; if (ssl->in_buf) { esp_mbedtls_free_buf(ssl->in_buf); ssl->in_buf = NULL; } esp_buf = mbedtls_calloc(1, SSL_BUF_HEAD_OFFSET_SIZE + MBEDTLS_SSL_IN_BUFFER_LEN); if (!esp_buf) { ESP_LOGE(TAG, "alloc(%d bytes) failed", SSL_BUF_HEAD_OFFSET_SIZE + MBEDTLS_SSL_IN_BUFFER_LEN); return MBEDTLS_ERR_SSL_ALLOC_FAILED; } ESP_LOGV(TAG, "add in buffer %d bytes @ %p", MBEDTLS_SSL_IN_BUFFER_LEN, esp_buf->buf); esp_mbedtls_init_ssl_buf(esp_buf, MBEDTLS_SSL_IN_BUFFER_LEN); /** * Mark the in_msg offset from ssl->in_buf. * * In mbedtls, ssl->in_msg = ssl->in_buf + offset; */ ssl->in_msg = (unsigned char *)MBEDTLS_SSL_HEADER_LEN; init_rx_buffer(ssl, esp_buf->buf); return 0; } void esp_mbedtls_reset_free_rx_buffer(mbedtls_ssl_context *ssl) { esp_mbedtls_free_buf(ssl->in_buf); init_rx_buffer(ssl, NULL); } int esp_mbedtls_add_tx_buffer(mbedtls_ssl_context *ssl, size_t buffer_len) { int ret = 0; int cached = 0; struct esp_mbedtls_ssl_buf *esp_buf; unsigned char cache_buf[CACHE_BUFFER_SIZE]; ESP_LOGV(TAG, "--> add out"); if (ssl->out_buf) { if (esp_mbedtls_get_buf_state(ssl->out_buf) == ESP_MBEDTLS_SSL_BUF_CACHED) { ESP_LOGV(TAG, "out buffer is not empty"); ret = 0; goto exit; } else { memcpy(cache_buf, ssl->out_buf, CACHE_BUFFER_SIZE); esp_mbedtls_free_buf(ssl->out_buf); init_tx_buffer(ssl, NULL); cached = 1; } } buffer_len = tx_buffer_len(ssl, buffer_len); esp_buf = mbedtls_calloc(1, SSL_BUF_HEAD_OFFSET_SIZE + buffer_len); if (!esp_buf) { ESP_LOGE(TAG, "alloc(%zu bytes) failed", SSL_BUF_HEAD_OFFSET_SIZE + buffer_len); ret = MBEDTLS_ERR_SSL_ALLOC_FAILED; goto exit; } ESP_LOGV(TAG, "add out buffer %zu bytes @ %p", buffer_len, esp_buf->buf); esp_mbedtls_init_ssl_buf(esp_buf, buffer_len); init_tx_buffer(ssl, esp_buf->buf); if (cached) { memcpy(ssl->out_ctr, cache_buf, COUNTER_SIZE); memcpy(ssl->out_iv, cache_buf + COUNTER_SIZE, CACHE_IV_SIZE); } ESP_LOGV(TAG, "ssl->out_buf=%p ssl->out_msg=%p", ssl->out_buf, ssl->out_msg); exit: ESP_LOGV(TAG, "<-- add out"); return ret; } int esp_mbedtls_free_tx_buffer(mbedtls_ssl_context *ssl) { int ret = 0; unsigned char buf[CACHE_BUFFER_SIZE]; struct esp_mbedtls_ssl_buf *esp_buf; ESP_LOGV(TAG, "--> free out"); if (!ssl->out_buf || (ssl->out_buf && (esp_mbedtls_get_buf_state(ssl->out_buf) == ESP_MBEDTLS_SSL_BUF_NO_CACHED))) { ret = 0; goto exit; } memcpy(buf, ssl->out_ctr, COUNTER_SIZE); memcpy(buf + COUNTER_SIZE, ssl->out_iv, CACHE_IV_SIZE); esp_mbedtls_free_buf(ssl->out_buf); init_tx_buffer(ssl, NULL); esp_buf = mbedtls_calloc(1, SSL_BUF_HEAD_OFFSET_SIZE + TX_IDLE_BUFFER_SIZE); if (!esp_buf) { ESP_LOGE(TAG, "alloc(%d bytes) failed", SSL_BUF_HEAD_OFFSET_SIZE + TX_IDLE_BUFFER_SIZE); return MBEDTLS_ERR_SSL_ALLOC_FAILED; } esp_mbedtls_init_ssl_buf(esp_buf, TX_IDLE_BUFFER_SIZE); memcpy(esp_buf->buf, buf, CACHE_BUFFER_SIZE); init_tx_buffer(ssl, esp_buf->buf); esp_mbedtls_set_buf_state(ssl->out_buf, ESP_MBEDTLS_SSL_BUF_NO_CACHED); exit: ESP_LOGV(TAG, "<-- free out"); return ret; } int esp_mbedtls_add_rx_buffer(mbedtls_ssl_context *ssl) { int cached = 0; int ret = 0; int buffer_len; struct esp_mbedtls_ssl_buf *esp_buf; unsigned char cache_buf[16]; unsigned char msg_head[5]; size_t in_msglen, in_left; ESP_LOGV(TAG, "--> add rx"); if (ssl->in_buf) { if (esp_mbedtls_get_buf_state(ssl->in_buf) == ESP_MBEDTLS_SSL_BUF_CACHED) { ESP_LOGV(TAG, "in buffer is not empty"); ret = 0; goto exit; } else { cached = 1; } } ssl->in_hdr = msg_head; ssl->in_len = msg_head + 3; if ((ret = mbedtls_ssl_fetch_input(ssl, mbedtls_ssl_in_hdr_len(ssl))) != 0) { if (ret == MBEDTLS_ERR_SSL_TIMEOUT) { ESP_LOGD(TAG, "mbedtls_ssl_fetch_input reads data times out"); } else if (ret == MBEDTLS_ERR_SSL_WANT_READ) { ESP_LOGD(TAG, "mbedtls_ssl_fetch_input wants to read more data"); } else { ESP_LOGE(TAG, "mbedtls_ssl_fetch_input error=%d", -ret); } goto exit; } esp_mbedtls_parse_record_header(ssl); in_left = ssl->in_left; in_msglen = ssl->in_msglen; buffer_len = tx_buffer_len(ssl, in_msglen); ESP_LOGV(TAG, "message length is %d RX buffer length should be %d left is %d", (int)in_msglen, (int)buffer_len, (int)ssl->in_left); if (cached) { memcpy(cache_buf, ssl->in_buf, 16); esp_mbedtls_free_buf(ssl->in_buf); init_rx_buffer(ssl, NULL); } esp_buf = mbedtls_calloc(1, SSL_BUF_HEAD_OFFSET_SIZE + buffer_len); if (!esp_buf) { ESP_LOGE(TAG, "alloc(%d bytes) failed", SSL_BUF_HEAD_OFFSET_SIZE + buffer_len); ret = MBEDTLS_ERR_SSL_ALLOC_FAILED; goto exit; } ESP_LOGV(TAG, "add in buffer %d bytes @ %p", buffer_len, esp_buf->buf); esp_mbedtls_init_ssl_buf(esp_buf, buffer_len); init_rx_buffer(ssl, esp_buf->buf); if (cached) { memcpy(ssl->in_ctr, cache_buf, 8); memcpy(ssl->in_iv, cache_buf + 8, 8); } memcpy(ssl->in_hdr, msg_head, in_left); ssl->in_left = in_left; ssl->in_msglen = 0; exit: ESP_LOGV(TAG, "<-- add rx"); return ret; } int esp_mbedtls_free_rx_buffer(mbedtls_ssl_context *ssl) { int ret = 0; unsigned char buf[16]; struct esp_mbedtls_ssl_buf *esp_buf; ESP_LOGV(TAG, "--> free rx"); /** * When have read multi messages once, can't free the input buffer directly. */ if (!ssl->in_buf || (ssl->in_hslen && (ssl->in_hslen < ssl->in_msglen)) || (ssl->in_buf && (esp_mbedtls_get_buf_state(ssl->in_buf) == ESP_MBEDTLS_SSL_BUF_NO_CACHED))) { ret = 0; goto exit; } /** * The previous processing is just skipped, so "ssl->in_msglen = 0" */ if (!ssl->in_msgtype) { goto exit; } memcpy(buf, ssl->in_ctr, 8); memcpy(buf + 8, ssl->in_iv, 8); esp_mbedtls_free_buf(ssl->in_buf); init_rx_buffer(ssl, NULL); esp_buf = mbedtls_calloc(1, SSL_BUF_HEAD_OFFSET_SIZE + 16); if (!esp_buf) { ESP_LOGE(TAG, "alloc(%d bytes) failed", SSL_BUF_HEAD_OFFSET_SIZE + 16); ret = MBEDTLS_ERR_SSL_ALLOC_FAILED; goto exit; } esp_mbedtls_init_ssl_buf(esp_buf, 16); memcpy(esp_buf->buf, buf, 16); init_rx_buffer(ssl, esp_buf->buf); esp_mbedtls_set_buf_state(ssl->in_buf, ESP_MBEDTLS_SSL_BUF_NO_CACHED); exit: ESP_LOGV(TAG, "<-- free rx"); return ret; } size_t esp_mbedtls_get_crt_size(mbedtls_x509_crt *cert, size_t *num) { size_t n = 0; size_t bytes = 0; while (cert) { bytes += cert->raw.len; n++; cert = cert->next; } *num = n; return bytes; } #ifdef CONFIG_MBEDTLS_DYNAMIC_FREE_CONFIG_DATA void esp_mbedtls_free_dhm(mbedtls_ssl_context *ssl) { mbedtls_mpi_free((mbedtls_mpi *)&ssl->conf->dhm_P); mbedtls_mpi_free((mbedtls_mpi *)&ssl->conf->dhm_G); } void esp_mbedtls_free_keycert(mbedtls_ssl_context *ssl) { mbedtls_ssl_config *conf = (mbedtls_ssl_config *)ssl->conf; mbedtls_ssl_key_cert *keycert = conf->key_cert, *next; while (keycert) { next = keycert->next; if (keycert) { mbedtls_free(keycert); } keycert = next; } conf->key_cert = NULL; } void esp_mbedtls_free_keycert_key(mbedtls_ssl_context *ssl) { mbedtls_ssl_key_cert *keycert = ssl->conf->key_cert; while (keycert) { if (keycert->key) { mbedtls_pk_free(keycert->key); keycert->key = NULL; } keycert = keycert->next; } } void esp_mbedtls_free_keycert_cert(mbedtls_ssl_context *ssl) { mbedtls_ssl_key_cert *keycert = ssl->conf->key_cert; while (keycert) { if (keycert->cert) { mbedtls_x509_crt_free(keycert->cert); keycert->cert = NULL; } keycert = keycert->next; } } #endif /* CONFIG_MBEDTLS_DYNAMIC_FREE_CONFIG_DATA */ #ifdef CONFIG_MBEDTLS_DYNAMIC_FREE_CA_CERT void esp_mbedtls_free_cacert(mbedtls_ssl_context *ssl) { if (ssl->conf->ca_chain) { mbedtls_ssl_config *conf = (mbedtls_ssl_config *)ssl->conf; mbedtls_x509_crt_free(conf->ca_chain); conf->ca_chain = NULL; } } #endif /* CONFIG_MBEDTLS_DYNAMIC_FREE_CA_CERT */