Azure IoT common library
Fork of azure_c_shared_utility by
tlsio_wolfssl.c
- Committer:
- AzureIoTClient
- Date:
- 2016-04-24
- Revision:
- 1:9190c0f4d23a
- Parent:
- 0:fa2de1b79154
- Child:
- 6:c55b013dfc2a
File content as of revision 1:9190c0f4d23a:
// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #include <stdlib.h> #ifdef _CRTDBG_MAP_ALLOC #include <crtdbg.h> #endif #include "wolfssl/ssl.h" #include "wolfssl/error-ssl.h" #include <stdio.h> #include <stdbool.h> #include <string.h> #include "azure_c_shared_utility/tlsio.h" #include "azure_c_shared_utility/tlsio_wolfssl.h" #include "azure_c_shared_utility/socketio.h" typedef enum TLSIO_STATE_ENUM_TAG { TLSIO_STATE_NOT_OPEN, TLSIO_STATE_OPENING_UNDERLYING_IO, TLSIO_STATE_IN_HANDSHAKE, TLSIO_STATE_OPEN, TLSIO_STATE_CLOSING, TLSIO_STATE_ERROR } TLSIO_STATE_ENUM; typedef struct TLS_IO_INSTANCE_TAG { XIO_HANDLE socket_io; ON_BYTES_RECEIVED on_bytes_received; ON_IO_OPEN_COMPLETE on_io_open_complete; ON_IO_CLOSE_COMPLETE on_io_close_complete; ON_IO_ERROR on_io_error; void* on_bytes_received_context; void* on_io_open_complete_context; void* on_io_close_complete_context; void* on_io_error_context; LOGGER_LOG logger_log; WOLFSSL* ssl; WOLFSSL_CTX* ssl_context; TLSIO_STATE_ENUM tlsio_state; unsigned char* socket_io_read_bytes; size_t socket_io_read_byte_count; ON_SEND_COMPLETE on_send_complete; void* on_send_complete_callback_context; } TLS_IO_INSTANCE; static const IO_INTERFACE_DESCRIPTION tlsio_wolfssl_interface_description = { tlsio_wolfssl_create, tlsio_wolfssl_destroy, tlsio_wolfssl_open, tlsio_wolfssl_close, tlsio_wolfssl_send, tlsio_wolfssl_dowork, tlsio_wolfssl_setoption }; static void indicate_error(TLS_IO_INSTANCE* tls_io_instance) { if (tls_io_instance->on_io_error != NULL) { tls_io_instance->on_io_error(tls_io_instance->on_io_error_context); } } static void indicate_open_complete(TLS_IO_INSTANCE* tls_io_instance, IO_OPEN_RESULT open_result) { if (tls_io_instance->on_io_open_complete != NULL) { tls_io_instance->on_io_open_complete(tls_io_instance->on_io_open_complete_context, open_result); } } static int decode_ssl_received_bytes(TLS_IO_INSTANCE* tls_io_instance) { int result = 0; unsigned char buffer[64]; int rcv_bytes = 1; while (rcv_bytes > 0) { rcv_bytes = wolfSSL_read(tls_io_instance->ssl, buffer, sizeof(buffer)); if (rcv_bytes > 0) { if (tls_io_instance->on_bytes_received != NULL) { tls_io_instance->on_bytes_received(tls_io_instance->on_bytes_received_context, buffer, rcv_bytes); } } } return result; } static void on_underlying_io_open_complete(void* context, IO_OPEN_RESULT open_result) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; if (open_result != IO_OPEN_OK) { tls_io_instance->tlsio_state = TLSIO_STATE_ERROR; indicate_open_complete(tls_io_instance, IO_OPEN_ERROR); } else { int res; tls_io_instance->tlsio_state = TLSIO_STATE_IN_HANDSHAKE; res = wolfSSL_connect(tls_io_instance->ssl); if (res != SSL_SUCCESS) { indicate_open_complete(tls_io_instance, IO_OPEN_ERROR); } } } static void on_underlying_io_bytes_received(void* context, const unsigned char* buffer, size_t size) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; unsigned char* new_socket_io_read_bytes = (unsigned char*)realloc(tls_io_instance->socket_io_read_bytes, tls_io_instance->socket_io_read_byte_count + size); if (new_socket_io_read_bytes == NULL) { tls_io_instance->tlsio_state = TLSIO_STATE_ERROR; indicate_error(tls_io_instance); } else { tls_io_instance->socket_io_read_bytes = new_socket_io_read_bytes; (void)memcpy(tls_io_instance->socket_io_read_bytes + tls_io_instance->socket_io_read_byte_count, buffer, size); tls_io_instance->socket_io_read_byte_count += size; } } static void on_underlying_io_error(void* context) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; switch (tls_io_instance->tlsio_state) { default: case TLSIO_STATE_NOT_OPEN: case TLSIO_STATE_ERROR: break; case TLSIO_STATE_OPENING_UNDERLYING_IO: case TLSIO_STATE_IN_HANDSHAKE: tls_io_instance->tlsio_state = TLSIO_STATE_ERROR; indicate_open_complete(tls_io_instance, IO_OPEN_ERROR); break; case TLSIO_STATE_OPEN: tls_io_instance->tlsio_state = TLSIO_STATE_ERROR; indicate_error(tls_io_instance); break; } } static void on_underlying_io_close_complete(void* context) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; if (tls_io_instance->tlsio_state == TLSIO_STATE_CLOSING) { if (tls_io_instance->on_io_close_complete != NULL) { tls_io_instance->on_io_close_complete(tls_io_instance->on_io_close_complete_context); } } } static int on_io_recv(WOLFSSL *ssl, char *buf, int sz, void *context) { int result; TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; unsigned char* new_socket_io_read_bytes; while (tls_io_instance->socket_io_read_byte_count == 0) { xio_dowork(tls_io_instance->socket_io); if (tls_io_instance->tlsio_state == TLSIO_STATE_OPEN) { break; } } result = tls_io_instance->socket_io_read_byte_count; if (result > sz) { result = sz; } if (result > 0) { (void)memcpy(buf, tls_io_instance->socket_io_read_bytes, result); (void)memmove(tls_io_instance->socket_io_read_bytes, tls_io_instance->socket_io_read_bytes + result, tls_io_instance->socket_io_read_byte_count - result); tls_io_instance->socket_io_read_byte_count -= result; if (tls_io_instance->socket_io_read_byte_count > 0) { new_socket_io_read_bytes = (unsigned char*)realloc(tls_io_instance->socket_io_read_bytes, tls_io_instance->socket_io_read_byte_count); if (new_socket_io_read_bytes != NULL) { tls_io_instance->socket_io_read_bytes = new_socket_io_read_bytes; } } else { free(tls_io_instance->socket_io_read_bytes); tls_io_instance->socket_io_read_bytes = NULL; } } if ((result == 0) && (tls_io_instance->tlsio_state == TLSIO_STATE_OPEN)) { result = WOLFSSL_CBIO_ERR_WANT_READ; } return result; } static int on_io_send(WOLFSSL *ssl, char *buf, int sz, void *context) { int result; TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; if (xio_send(tls_io_instance->socket_io, buf, sz, tls_io_instance->on_send_complete, tls_io_instance->on_send_complete_callback_context) != 0) { tls_io_instance->tlsio_state = TLSIO_STATE_ERROR; indicate_error(tls_io_instance); result = 0; } else { result = sz; } return result; } static int on_handshake_done(WOLFSSL* ssl, void* context) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context; if (tls_io_instance->tlsio_state == TLSIO_STATE_IN_HANDSHAKE) { tls_io_instance->tlsio_state = TLSIO_STATE_OPEN; indicate_open_complete(tls_io_instance, IO_OPEN_OK); } return 0; } int tlsio_wolfssl_init(void) { (void)wolfSSL_library_init(); wolfSSL_load_error_strings(); return 0; } void tlsio_wolfssl_deinit(void) { } CONCRETE_IO_HANDLE tlsio_wolfssl_create(void* io_create_parameters, LOGGER_LOG logger_log) { TLSIO_CONFIG* tls_io_config = io_create_parameters; TLS_IO_INSTANCE* result; if (tls_io_config == NULL) { result = NULL; } else { result = malloc(sizeof(TLS_IO_INSTANCE)); if (result != NULL) { SOCKETIO_CONFIG socketio_config; socketio_config.hostname = tls_io_config->hostname; socketio_config.port = tls_io_config->port; socketio_config.accepted_socket = NULL; result->on_bytes_received = NULL; result->on_bytes_received_context = NULL; result->on_io_open_complete = NULL; result->on_io_open_complete_context = NULL; result->on_io_close_complete = NULL; result->on_io_close_complete_context = NULL; result->on_io_error = NULL; result->on_io_error_context = NULL; result->logger_log = logger_log; result->ssl_context = wolfSSL_CTX_new(wolfTLSv1_client_method()); if (result->ssl_context == NULL) { free(result); result = NULL; } else { const IO_INTERFACE_DESCRIPTION* socket_io_interface = socketio_get_interface_description(); if (socket_io_interface == NULL) { wolfSSL_CTX_free(result->ssl_context); free(result); result = NULL; } else { result->socket_io = xio_create(socket_io_interface, &socketio_config, logger_log); if (result->socket_io == NULL) { wolfSSL_CTX_free(result->ssl_context); free(result); result = NULL; } else { result->ssl = wolfSSL_new(result->ssl_context); if (result->ssl == NULL) { wolfSSL_CTX_free(result->ssl_context); free(result); result = NULL; } else { result->socket_io_read_bytes = NULL; result->socket_io_read_byte_count = 0; result->on_send_complete = NULL; result->on_send_complete_callback_context = NULL; wolfSSL_set_using_nonblock(result->ssl, 1); wolfSSL_SetIOSend(result->ssl_context, on_io_send); wolfSSL_SetIORecv(result->ssl_context, on_io_recv); wolfSSL_SetHsDoneCb(result->ssl, on_handshake_done, result); wolfSSL_SetIOWriteCtx(result->ssl, result); wolfSSL_SetIOReadCtx(result->ssl, result); result->tlsio_state = TLSIO_STATE_NOT_OPEN; } } } } } } return result; } void tlsio_wolfssl_destroy(CONCRETE_IO_HANDLE tls_io) { if (tls_io != NULL) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io; wolfSSL_free(tls_io_instance->ssl); wolfSSL_CTX_free(tls_io_instance->ssl_context); if (tls_io_instance->socket_io_read_bytes != NULL) { free(tls_io_instance->socket_io_read_bytes); } xio_destroy(tls_io_instance->socket_io); free(tls_io); } } int tlsio_wolfssl_open(CONCRETE_IO_HANDLE tls_io, ON_IO_OPEN_COMPLETE on_io_open_complete, void* on_io_open_complete_context, ON_BYTES_RECEIVED on_bytes_received, void* on_bytes_received_context, ON_IO_ERROR on_io_error, void* on_io_error_context) { int result; if (tls_io == NULL) { result = __LINE__; } else { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io; if (tls_io_instance->tlsio_state != TLSIO_STATE_NOT_OPEN) { result = __LINE__; } else { tls_io_instance->on_bytes_received = on_bytes_received; tls_io_instance->on_bytes_received_context = on_bytes_received_context; tls_io_instance->on_io_open_complete = on_io_open_complete; tls_io_instance->on_io_open_complete_context = on_io_open_complete_context; tls_io_instance->on_io_error = on_io_error; tls_io_instance->on_io_error_context = on_io_error_context; tls_io_instance->tlsio_state = TLSIO_STATE_OPENING_UNDERLYING_IO; if (xio_open(tls_io_instance->socket_io, on_underlying_io_open_complete, tls_io_instance, on_underlying_io_bytes_received, tls_io_instance, on_underlying_io_error, tls_io_instance) != 0) { tls_io_instance->tlsio_state = TLSIO_STATE_NOT_OPEN; result = __LINE__; } else { int res; tls_io_instance->tlsio_state = TLSIO_STATE_IN_HANDSHAKE; res = wolfSSL_connect(tls_io_instance->ssl); if (res != SSL_SUCCESS) { result = __LINE__; } else { result = 0; } } } } return result; } int tlsio_wolfssl_close(CONCRETE_IO_HANDLE tls_io, ON_IO_CLOSE_COMPLETE on_io_close_complete, void* callback_context) { int result = 0; if (tls_io == NULL) { result = __LINE__; } else { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io; if ((tls_io_instance->tlsio_state == TLSIO_STATE_NOT_OPEN) || (tls_io_instance->tlsio_state == TLSIO_STATE_CLOSING)) { result = __LINE__; } else { tls_io_instance->tlsio_state = TLSIO_STATE_CLOSING; tls_io_instance->on_io_close_complete = on_io_close_complete; tls_io_instance->on_io_close_complete_context = callback_context; if (xio_close(tls_io_instance->socket_io, on_underlying_io_close_complete, tls_io_instance) != 0) { result = __LINE__; } else { result = 0; } } } return result; } int tlsio_wolfssl_send(CONCRETE_IO_HANDLE tls_io, const void* buffer, size_t size, ON_SEND_COMPLETE on_send_complete, void* callback_context) { int result; if (tls_io == NULL) { result = __LINE__; } else { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io; if (tls_io_instance->tlsio_state != TLSIO_STATE_OPEN) { result = __LINE__; } else { tls_io_instance->on_send_complete = on_send_complete; tls_io_instance->on_send_complete_callback_context = callback_context; int res = wolfSSL_write(tls_io_instance->ssl, buffer, size); if (res != size) { result = __LINE__; } else { result = 0; } } } return result; } void tlsio_wolfssl_dowork(CONCRETE_IO_HANDLE tls_io) { if (tls_io != NULL) { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io; if ((tls_io_instance->tlsio_state != TLSIO_STATE_NOT_OPEN) && (tls_io_instance->tlsio_state != TLSIO_STATE_ERROR)) { decode_ssl_received_bytes(tls_io_instance); xio_dowork(tls_io_instance->socket_io); } } } const IO_INTERFACE_DESCRIPTION* tlsio_wolfssl_get_interface_description(void) { return &tlsio_wolfssl_interface_description; } int tlsio_wolfssl_setoption(CONCRETE_IO_HANDLE tls_io, const char* optionName, const void* value) { int result; if (tls_io == NULL || optionName == NULL) { result = __LINE__; } else { TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io; if (strcmp("TrustedCerts", optionName) == 0) { int res = wolfSSL_CTX_load_verify_buffer(tls_io_instance->ssl_context, (const unsigned char*)value, strlen(value) + 1, SSL_FILETYPE_PEM); if (res != SSL_SUCCESS) { result = __LINE__; } else { result = 0; } } else if (tls_io_instance->socket_io == NULL) { result = __LINE__; } else { result = xio_setoption(tls_io_instance->socket_io, optionName, value); } } return result; }