Azure IoT
Azure IoT common library
Dependents: STM32F746_iothub_client_sample_mqtt f767zi_mqtt iothub_client_sample_amqp iothub_client_sample_http ... more
tlsio_wolfssl.c
- Committer:
- AzureIoTClient
- Date:
- 2018-10-04
- Revision:
- 49:6bb8b9a66642
- Parent:
- 48:81866008bba4
File content as of revision 49:6bb8b9a66642:
// 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>
#define WOLFSSL_OPTIONS_IGNORE_SYS
#include "wolfssl/options.h"
#include "wolfssl/ssl.h"
#include "wolfssl/error-ssl.h"
#include "wolfssl/wolfcrypt/types.h"
#include <stdio.h>
#include <stdbool.h>
#include <string.h>
#include "azure_c_shared_utility/gballoc.h"
#include "azure_c_shared_utility/tlsio.h"
#include "azure_c_shared_utility/tlsio_wolfssl.h"
#include "azure_c_shared_utility/socketio.h"
#include "azure_c_shared_utility/crt_abstractions.h"
#include "azure_c_shared_utility/optimize_size.h"
#include "azure_c_shared_utility/xlogging.h"
#include "azure_c_shared_utility/shared_util_options.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;
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;
char* certificate;
char* x509certificate;
char* x509privatekey;
int wolfssl_device_id;
} TLS_IO_INSTANCE;
STATIC_VAR_UNUSED const char* const OPTION_WOLFSSL_SET_DEVICE_ID = "SetDeviceId";
static const size_t SOCKET_READ_LIMIT = 5;
/*this function will clone an option given by name and value*/
static void* tlsio_wolfssl_CloneOption(const char* name, const void* value)
{
void* result;
if ((name == NULL) || (value == NULL))
{
LogError("invalid parameter detected: const char* name=%p, const void* value=%p", name, value);
result = NULL;
}
else
{
if (strcmp(name, OPTION_TRUSTED_CERT) == 0)
{
if (mallocAndStrcpy_s((char**)&result, value) != 0)
{
LogError("unable to mallocAndStrcpy_s TrustedCerts value");
result = NULL;
}
else
{
/*return as is*/
}
}
else if (strcmp(name, SU_OPTION_X509_CERT) == 0)
{
if (mallocAndStrcpy_s((char**)&result, value) != 0)
{
LogError("unable to mallocAndStrcpy_s x509certificate value");
result = NULL;
}
else
{
/*return as is*/
}
}
else if (strcmp(name, SU_OPTION_X509_PRIVATE_KEY) == 0)
{
if (mallocAndStrcpy_s((char**)&result, value) != 0)
{
LogError("unable to mallocAndStrcpy_s x509privatekey value");
result = NULL;
}
else
{
/*return as is*/
}
}
else
{
LogError("not handled option : %s", name);
result = NULL;
}
}
return result;
}
/*this function destroys an option previously created*/
static void tlsio_wolfssl_DestroyOption(const char* name, const void* value)
{
/*since all options for this layer are actually string copies., disposing of one is just calling free*/
if ((name == NULL) || (value == NULL))
{
LogError("invalid parameter detected: const char* name=%p, const void* value=%p", name, value);
}
else
{
if ((strcmp(name, OPTION_TRUSTED_CERT) == 0) ||
(strcmp(name, SU_OPTION_X509_CERT) == 0) ||
(strcmp(name, SU_OPTION_X509_PRIVATE_KEY) == 0))
{
free((void*)value);
}
else
{
LogError("not handled option : %s", name);
}
}
}
static OPTIONHANDLER_HANDLE tlsio_wolfssl_retrieveoptions(CONCRETE_IO_HANDLE tls_io)
{
OPTIONHANDLER_HANDLE result;
if (tls_io == NULL)
{
LogError("NULL tls_io parameter");
result = NULL;
}
else
{
result = OptionHandler_Create(tlsio_wolfssl_CloneOption, tlsio_wolfssl_DestroyOption, tlsio_wolfssl_setoption);
if (result == NULL)
{
LogError("unable to OptionHandler_Create");
/*return as is*/
}
else
{
/*this layer cares about the certificates and the x509 credentials*/
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io;
if (
(tls_io_instance->x509certificate != NULL) &&
(OptionHandler_AddOption(result, SU_OPTION_X509_CERT, tls_io_instance->x509certificate) != 0)
)
{
LogError("unable to save x509certificate option");
OptionHandler_Destroy(result);
result = NULL;
}
else if (
(tls_io_instance->x509privatekey != NULL) &&
(OptionHandler_AddOption(result, SU_OPTION_X509_PRIVATE_KEY, tls_io_instance->x509privatekey) != 0)
)
{
LogError("unable to save x509privatekey option");
OptionHandler_Destroy(result);
result = NULL;
}
else if (
(tls_io_instance->certificate != NULL) &&
(OptionHandler_AddOption(result, OPTION_TRUSTED_CERT, tls_io_instance->certificate) != 0)
)
{
LogError("unable to save TrustedCerts option");
OptionHandler_Destroy(result);
result = NULL;
}
else
{
/*all is fine, all interesting options have been saved*/
/*return as is*/
}
}
}
return result;
}
static const IO_INTERFACE_DESCRIPTION tlsio_wolfssl_interface_description =
{
tlsio_wolfssl_retrieveoptions,
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 = 0;
do
{
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);
}
}
} while (rcv_bytes > 0);
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)
{
LogError("Underlying IO open failed");
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)
{
LogError("WolfSSL connect failed");
indicate_open_complete(tls_io_instance, IO_OPEN_ERROR);
tls_io_instance->tlsio_state = TLSIO_STATE_ERROR;
}
}
}
static void on_underlying_io_bytes_received(void* context, const unsigned char* buffer, size_t size)
{
if (context != NULL)
{
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)
{
LogError("Failed allocating memory for received bytes");
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;
}
}
else
{
LogInfo("Supplied context is NULL on bytes_received");
}
}
static void on_underlying_io_error(void* context)
{
if (context != NULL)
{
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context;
switch (tls_io_instance->tlsio_state)
{
default:
LogError("Unknown TLS IO WolfSSL state: %d", (int)tls_io_instance->tlsio_state);
break;
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;
}
}
else
{
LogInfo("Supplied context is NULL on io_error");
}
}
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)
{
LogError("on_underlying_io_close_complete called when not in CLOSING state");
}
else
{
if (tls_io_instance->on_io_close_complete != NULL)
{
tls_io_instance->on_io_close_complete(tls_io_instance->on_io_close_complete_context);
}
tls_io_instance->tlsio_state = TLSIO_STATE_NOT_OPEN;
}
}
static int on_io_recv(WOLFSSL *ssl, char *buf, int sz, void *context)
{
int result;
if (context != NULL)
{
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context;
unsigned char* new_socket_io_read_bytes;
size_t socket_reads = 0;
AZURE_UNREFERENCED_PARAMETER(ssl);
while (tls_io_instance->socket_io_read_byte_count == 0 && socket_reads < SOCKET_READ_LIMIT)
{
xio_dowork(tls_io_instance->socket_io);
if (tls_io_instance->tlsio_state != TLSIO_STATE_IN_HANDSHAKE)
{
break;
}
socket_reads++;
}
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 (tls_io_instance->tlsio_state == TLSIO_STATE_ERROR)
{
result = WOLFSSL_CBIO_ERR_GENERAL;
}
else if ( (result == 0) && (tls_io_instance->tlsio_state == TLSIO_STATE_OPEN))
{
result = WOLFSSL_CBIO_ERR_WANT_READ;
}
else if ((result == 0) && (tls_io_instance->tlsio_state == TLSIO_STATE_CLOSING || tls_io_instance->tlsio_state == TLSIO_STATE_NOT_OPEN))
{
result = WOLFSSL_CBIO_ERR_CONN_CLOSE;
}
}
else
{
result = WOLFSSL_CBIO_ERR_GENERAL;
}
return result;
}
static int on_io_send(WOLFSSL *ssl, char *buf, int sz, void *context)
{
int result;
AZURE_UNREFERENCED_PARAMETER(ssl);
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)
{
LogError("Failed sending bytes through underlying IO");
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)
{
AZURE_UNREFERENCED_PARAMETER(ssl);
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)context;
if (tls_io_instance->tlsio_state != TLSIO_STATE_IN_HANDSHAKE)
{
LogInfo("on_handshake_done called when not in IN_HANDSHAKE state");
}
else
{
tls_io_instance->tlsio_state = TLSIO_STATE_OPEN;
indicate_open_complete(tls_io_instance, IO_OPEN_OK);
}
return 0;
}
static int add_certificate_to_store(TLS_IO_INSTANCE* tls_io_instance)
{
int result;
if (tls_io_instance->certificate != NULL)
{
int res = wolfSSL_CTX_load_verify_buffer(tls_io_instance->ssl_context, (const unsigned char*)tls_io_instance->certificate, strlen(tls_io_instance->certificate), SSL_FILETYPE_PEM);
if (res != SSL_SUCCESS)
{
LogError("wolfSSL_CTX_load_verify_buffer failed");
result = __FAILURE__;
}
else
{
result = 0;
}
}
else
{
result = 0;
}
return result;
}
static int x509_wolfssl_add_credentials(WOLFSSL* ssl, char* x509certificate, char* x509privatekey) {
int result;
if (wolfSSL_use_certificate_chain_buffer(ssl, (unsigned char*)x509certificate, strlen(x509certificate)) != SSL_SUCCESS)
{
LogError("unable to load x509 client certificate");
result = __FAILURE__;
}
else if (wolfSSL_use_PrivateKey_buffer(ssl, (unsigned char*)x509privatekey, strlen(x509privatekey), SSL_FILETYPE_PEM) != SSL_SUCCESS)
{
LogError("unable to load x509 client private key");
result = __FAILURE__;
}
#ifdef HAVE_SECURE_RENEGOTIATION
else if (wolfSSL_UseSecureRenegotiation(ssl) != SSL_SUCCESS)
{
LogError("unable to enable secure renegotiation");
result = __FAILURE__;
}
#endif
else
{
result = 0;
}
return result;
}
static void destroy_wolfssl_instance(TLS_IO_INSTANCE* tls_io_instance)
{
wolfSSL_free(tls_io_instance->ssl);
tls_io_instance->ssl = NULL;
}
static int create_wolfssl_instance(TLS_IO_INSTANCE* tls_io_instance)
{
int result;
tls_io_instance->ssl = wolfSSL_new(tls_io_instance->ssl_context);
if (tls_io_instance->ssl == NULL)
{
LogError("Failed to add certificates to store");
result = __FAILURE__;
}
else
{
tls_io_instance->socket_io_read_bytes = NULL;
tls_io_instance->socket_io_read_byte_count = 0;
tls_io_instance->on_send_complete = NULL;
tls_io_instance->on_send_complete_callback_context = NULL;
#ifdef INVALID_DEVID
tls_io_instance->wolfssl_device_id = INVALID_DEVID;
#endif
wolfSSL_set_using_nonblock(tls_io_instance->ssl, 1);
wolfSSL_SetHsDoneCb(tls_io_instance->ssl, on_handshake_done, tls_io_instance);
wolfSSL_SetIOWriteCtx(tls_io_instance->ssl, tls_io_instance);
wolfSSL_SetIOReadCtx(tls_io_instance->ssl, tls_io_instance);
tls_io_instance->tlsio_state = TLSIO_STATE_NOT_OPEN;
result = 0;
}
return result;
}
static int prepare_wolfssl_open(TLS_IO_INSTANCE* tls_io_instance)
{
int result;
if (add_certificate_to_store(tls_io_instance) != 0)
{
LogError("Failed to add certificates to store");
result = __FAILURE__;
}
/*x509 authentication can only be build before underlying connection is realized*/
else if ((tls_io_instance->x509certificate != NULL) &&
(tls_io_instance->x509privatekey != NULL) &&
(x509_wolfssl_add_credentials(tls_io_instance->ssl, tls_io_instance->x509certificate, tls_io_instance->x509privatekey) != 0))
{
destroy_wolfssl_instance(tls_io_instance);
LogError("unable to use x509 authentication");
result = __FAILURE__;
}
#ifdef INVALID_DEVID
else if (tls_io_instance->wolfssl_device_id != INVALID_DEVID && wolfSSL_SetDevId(tls_io_instance->ssl, tls_io_instance->wolfssl_device_id) != WOLFSSL_SUCCESS)
{
LogError("Failure setting device id");
result = __FAILURE__;
}
#endif
else
{
result = 0;
}
return result;
}
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)
{
TLS_IO_INSTANCE* result;
if (io_create_parameters == NULL)
{
LogError("NULL io_create_parameters");
result = NULL;
}
else
{
TLSIO_CONFIG* tls_io_config = io_create_parameters;
result = (TLS_IO_INSTANCE*)malloc(sizeof(TLS_IO_INSTANCE));
if (result == NULL)
{
LogError("Failed allocating memory for the TLS IO instance.");
}
else
{
(void)memset(result, 0, sizeof(TLS_IO_INSTANCE));
result->tlsio_state = TLSIO_STATE_NOT_OPEN;
result->ssl_context = wolfSSL_CTX_new(wolfTLSv1_2_client_method());
if (result->ssl_context == NULL)
{
LogError("Cannot create the wolfSSL context");
free(result);
result = NULL;
}
else
{
// Set the recv and send function on the wolfssl context object
wolfSSL_SetIOSend(result->ssl_context, on_io_send);
wolfSSL_SetIORecv(result->ssl_context, on_io_recv);
SOCKETIO_CONFIG socketio_config;
const IO_INTERFACE_DESCRIPTION* underlying_io_interface;
void* io_interface_parameters;
if (tls_io_config->underlying_io_interface != NULL)
{
underlying_io_interface = tls_io_config->underlying_io_interface;
io_interface_parameters = tls_io_config->underlying_io_parameters;
}
else
{
socketio_config.hostname = tls_io_config->hostname;
socketio_config.port = tls_io_config->port;
socketio_config.accepted_socket = NULL;
underlying_io_interface = socketio_get_interface_description();
io_interface_parameters = &socketio_config;
}
if (underlying_io_interface == NULL)
{
LogError("Failed getting socket IO interface description.");
wolfSSL_CTX_free(result->ssl_context);
free(result);
result = NULL;
}
else
{
result->socket_io = xio_create(underlying_io_interface, io_interface_parameters);
if (result->socket_io == NULL)
{
LogError("Failure connecting to underlying socket_io");
wolfSSL_CTX_free(result->ssl_context);
free(result);
result = NULL;
}
else if (create_wolfssl_instance(result) != 0)
{
LogError("Failure connecting to underlying socket_io");
wolfSSL_CTX_free(result->ssl_context);
free(result);
result = NULL;
}
}
}
}
}
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;
if (tls_io_instance->socket_io_read_bytes != NULL)
{
free(tls_io_instance->socket_io_read_bytes);
tls_io_instance->socket_io_read_bytes = NULL;
}
if (tls_io_instance->certificate != NULL)
{
free(tls_io_instance->certificate);
tls_io_instance->certificate = NULL;
}
if (tls_io_instance->x509certificate != NULL)
{
free(tls_io_instance->x509certificate);
tls_io_instance->x509certificate = NULL;
}
if (tls_io_instance->x509privatekey != NULL)
{
free(tls_io_instance->x509privatekey);
tls_io_instance->x509privatekey = NULL;
}
destroy_wolfssl_instance(tls_io_instance);
wolfSSL_CTX_free(tls_io_instance->ssl_context);
tls_io_instance->ssl_context = NULL;
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)
{
LogError("NULL tls_io instance");
result = __FAILURE__;
}
else
{
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io;
if (tls_io_instance->tlsio_state != TLSIO_STATE_NOT_OPEN)
{
LogError("Invalid state encountered.");
result = __FAILURE__;
}
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 (prepare_wolfssl_open(tls_io_instance) != 0)
{
LogError("Cannot create wolfssl instance.");
tls_io_instance->tlsio_state = TLSIO_STATE_NOT_OPEN;
result = __FAILURE__;
}
else 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)
{
LogError("Cannot open the underlying IO.");
tls_io_instance->tlsio_state = TLSIO_STATE_NOT_OPEN;
result = __FAILURE__;
}
else
{
// The state can get changed in the on_underlying_io_open_complete
if (tls_io_instance->tlsio_state != TLSIO_STATE_OPEN)
{
LogError("Failed to connect to server. The certificates may not be correct.");
result = __FAILURE__;
}
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)
{
LogError("NULL tls_io handle.");
result = __FAILURE__;
}
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))
{
LogError("Close called while not open.");
result = __FAILURE__;
}
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)
{
LogError("xio_close failed.");
result = __FAILURE__;
}
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 || buffer == NULL || size == 0)
{
LogError("Invalid parameter specified tls_io: %p, buffer: %p, size: %d", tls_io, buffer, size);
result = __FAILURE__;
}
else
{
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io;
if (tls_io_instance->tlsio_state != TLSIO_STATE_OPEN)
{
LogError("send called while not open");
result = __FAILURE__;
}
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 < 0) || ((size_t)res != size)) // Best way I can think of to safely compare an int to a size_t
{
LogError("Error writing data through WolfSSL");
result = __FAILURE__;
}
else
{
result = 0;
}
}
}
return result;
}
void tlsio_wolfssl_dowork(CONCRETE_IO_HANDLE tls_io)
{
if (tls_io == NULL)
{
LogError("NULL tls_io");
}
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_ERROR))
{
decode_ssl_received_bytes(tls_io_instance);
xio_dowork(tls_io_instance->socket_io);
}
}
}
static int process_option(char** destination, const char* name, const char* value)
{
int result;
if (*destination != NULL)
{
free(*destination);
*destination = NULL;
}
if (mallocAndStrcpy_s(destination, value) != 0)
{
LogError("unable to process option %s",name);
result = __FAILURE__;
}
else
{
result = 0;
}
return result;
}
int tlsio_wolfssl_setoption(CONCRETE_IO_HANDLE tls_io, const char* optionName, const void* value)
{
int result;
if (tls_io == NULL || optionName == NULL)
{
LogError("Bad arguments, tls_io = %p, optionName = %p", tls_io, optionName);
result = __FAILURE__;
}
else
{
TLS_IO_INSTANCE* tls_io_instance = (TLS_IO_INSTANCE*)tls_io;
if (strcmp(OPTION_TRUSTED_CERT, optionName) == 0)
{
result = process_option(&tls_io_instance->certificate, optionName, value);
}
else if (strcmp(SU_OPTION_X509_CERT, optionName) == 0 || strcmp(OPTION_X509_ECC_CERT, optionName) == 0)
{
result = process_option(&tls_io_instance->x509certificate, optionName, value);
}
else if (strcmp(SU_OPTION_X509_PRIVATE_KEY, optionName) == 0 || strcmp(OPTION_X509_ECC_KEY, optionName) == 0)
{
result = process_option(&tls_io_instance->x509privatekey, optionName, value);
}
#ifdef INVALID_DEVID
else if (strcmp(OPTION_WOLFSSL_SET_DEVICE_ID, optionName) == 0)
{
int device_id = *((int *)value);
if (tls_io_instance->ssl != NULL)
{
if (tls_io_instance->ssl != NULL && wolfSSL_SetDevId(tls_io_instance->ssl, device_id) != WOLFSSL_SUCCESS)
{
LogError("Failure setting device id on ssl");
result = __FAILURE__;
}
else
{
result = 0;
}
}
else
{
// Save the id till we create the ssl object
tls_io_instance->wolfssl_device_id = device_id;
result = 0;
}
}
#endif
else
{
if (tls_io_instance->socket_io == NULL)
{
LogError("NULL underlying IO handle");
result = __FAILURE__;
}
else
{
result = xio_setoption(tls_io_instance->socket_io, optionName, value);
}
}
}
return result;
}
const IO_INTERFACE_DESCRIPTION* tlsio_wolfssl_get_interface_description(void)
{
return &tlsio_wolfssl_interface_description;
}
