Ashley Mills / CyaSSL_DTLS_Ethernet

CyaSSL example using x509 certs and DTLS over ethernet.

Dependencies:   EthernetInterface NTPClient cyassl-lib mbed-rtos mbed-src CyaSSL_DTLS_Ethernet

Dependents:   CyaSSL_DTLS_Ethernet

Testing DTLS out

To test this client you need to setup a server and use the correct CA certificate, server certificate, and server private key. This will allow the client to authenticate to the server, and enable the server to authenticate the client. The server can authenticate the client because the test program includes a device certificate signed by the server CA.

The server certificate and and CA certificate are identical as this is a self-signed certificate:

-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

The server private key is as follows:

-----BEGIN PRIVATE KEY-----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-----END PRIVATE KEY-----

Both the certificate and the private key are in PEM format. It is worth noting that all the certificates and keys on the device are in DER format to save space. You might be wondering how to easily get PEM keys and certs into a format suitable for the mbed, well it's easy, you can just use the openssl tools to convert, and then xxd to get a hex sequence which you can put into an array. To convert a cert, use the following command:

openssl x509 -in cert.pem -outform DER | xxd -i

This will dump the x509 cert in DER format and pipe it to xxd, where the -i switch is used to convert the byte sequence into c-include style. All it really does is dump the bytes in hexadecimal, you still need to wrap it in an array like this:

const static unsigned char deviceCertificate[] = {
   OUTPUT OF ABOVE
};
const static int deviceCertificateLength = sizeof(deviceCertificate);

For converting keys, the command is the same buy you use the rsa subcommand of openssl (or dsa if you used DSA keys):

openssl rsa -in key.pem -outform DER | xxd -i

In anycase, to use the PEM files with the CyaSSL server, download the CyaSSL example server from here: http://yassl.com/yaSSL/download/downloadForm.php. Configure it with debugging and dtls before compiling (I've also enabled PSK because I'm testing that):

./configure --enable-psk --enable-debug --enable-dtls

Then do

make

Now, the cyaSSL server needs the PEM certificates above to work with those setup on the mbed device, but it is particular about where these PEM certs are found. You need to put them in the certs directory in the root of the unzipped code (it seems to ignore flags which point it elsewhere).

And for some reason cyaSSL calls the CA certificate the "client-cert.pem", so copy the server certificate above into "certs/client-cert.pem" and also copy it into "certs/server-cert.pem". Copy the server private key into "certs/server-key.pem".

Now change directory into example/server/ and run the server like this:

./server -u -b -f

These flags are -u for UDP i.e DTLS, -b to bind to all interfaces, and -f to group messages (fewer packets). For some reason this last flag is needed to work properly with the mbed.

You should now be able to fire up the mbed, change the code to point to your server, and see the handshake and test messages go back and forth. You can see it works because you should see the message "I hear you fa shizzle!" on the mbed (this is the message they define), and you should see the message "onion" received on the server.

Generating your own keys and certificates

OK so you want to generate your own self-signed certificate for your server and device. Great, but I'm too busy/lazy to write a detailed tutorial right now. Instead I've created you a shell script that randomly generates a new self-signed CA/server-cert and uses this to sign a device certificate.

The device certificate and private key are placed into a directory called mbed/certs where as the server certs are placed in server/certs. You'll have to read up on these commands to work out how to generate and sign more device certs, and how to change options etc. HTH.

#!/bin/sh
CA_KEY_FILE=ca_key.pem
CA_KEY_FORMAT=PEM
CA_KEY_ALGORITHM=rsa
CA_KEY_BITS=1024
# 1. Make a key for the CA (in this case the server)
echo Generating $CA_KEY_ALGORITHM key: $CA_KEY_FILE
openssl genpkey \
	-out $CA_KEY_FILE \
	-outform $CA_KEY_FORMAT \
	-algorithm $CA_KEY_ALGORITHM \
	-pkeyopt rsa_keygen_bits:$CA_KEY_BITS
echo DONE 
# extract public key (for vanity)
openssl pkey \
	-in $CA_KEY_FILE \
	-pubout \
	-out $CA_KEY_FILE.pub

# 2. Make a self signed certificate for the CA (trusted certificate)
# req - PKCS#10 certificate request and certificate generating utility.
CA_CERT_EXPIRY=3600
CA_CERT_SERIAL=0x1111
CA_CERT_FILE=ca_cert.pem
CA_CERT_REQ=ca_cert_req.pem
CA_ID=DMServer
echo Generating self signed root CA certificate: $CA_CERT_FILE
openssl req \
	-new \
	-key $CA_KEY_FILE \
	-days $CA_CERT_EXPIRY \
	-set_serial $CA_CERT_SERIAL \
	-subj "/C=GB/ST=Berkshire/L=Newbury/O=Vodafone/OU=R&D/CN=$CA_ID" \
	-out $CA_CERT_FILE \
	-x509 \
	-verbose 
echo DONE.

# 3. Make a key for the device
DEV_KEY_FILE=dev_key.pem
DEV_KEY_FORMAT=PEM
DEV_KEY_ALGORITHM=rsa
DEV_KEY_BITS=1024
echo Generating $DEV_KEY_ALGORITHM key: $DEV_KEY_FILE
openssl genpkey \
	-out $DEV_KEY_FILE \
	-outform $DEV_KEY_FORMAT \
	-algorithm $DEV_KEY_ALGORITHM \
	-pkeyopt rsa_keygen_bits:$DEV_KEY_BITS
echo DONE 
# extract public key (for vanity)
openssl pkey \
	-in $DEV_KEY_FILE \
	-pubout \
	-out $DEV_KEY_FILE.pub

# 4. Make a certificate request for the device
DEV_CERT_EXPIRY=3600
DEV_CERT_SERIAL=2222
DEV_CERT_REQ_FILE=dev_cert_req.pem
DEV_CERT_FILE=dev_cert.pem
DEV_ID=Device1
echo Generating certificate request for device: $DEV_CERT_REQ_FILE
openssl req \
	-new \
	-key $DEV_KEY_FILE \
	-days $DEV_CERT_EXPIRY \
	-set_serial $DEV_CERT_SERIAL \
	-subj "/C=GB/ST=Berkshire/L=Newbury/O=Vodafone/OU=R&D/CN=$DEV_ID" \
	-out $DEV_CERT_REQ_FILE \
	-verbose 

echo DONE.

# 5. Sign the device certificate using the root CA certificate
echo Creating directories and other stuff I really wish was not needed
mkdir -p demoCA/newcerts
touch demoCA/index.txt
echo $DEV_CERT_SERIAL > demoCA/serial
echo DONE.
# do the actual signing
echo Signing certificate request $DEV_CERT_REQ_FILE with certificate $CA_CERT_FILE
openssl ca \
	-in $DEV_CERT_REQ_FILE \
	-out $DEV_CERT_FILE \
	-days $DEV_CERT_EXPIRY \
	-keyfile $CA_KEY_FILE \
	-cert $CA_CERT_FILE \
	-batch \
	-verbose

echo DONE.

# 6 convert this stuff into a format suitable for mbed
echo Creating mbed include files
MBED_DIR=mbed/certs
mkdir -p $MBED_DIR
# private key
OUT=$MBED_DIR/device_private_key.h
echo "#pragma once" > $OUT
echo "const static unsigned char devicePrivateKey[] = {" >> $OUT
openssl $DEV_KEY_ALGORITHM -in $DEV_KEY_FILE -outform DER | xxd -i >> $OUT
echo "};" >> $OUT
echo "const static int devicePrivateKeyLength = sizeof(devicePrivateKey);" >> $OUT

# device cert
OUT=$MBED_DIR/device_certificate.h
echo "#pragma once" > $OUT
echo "const static unsigned char deviceCertificate[] = {" >> $OUT
openssl x509 -in $DEV_CERT_FILE -outform DER | xxd -i >> $OUT
echo "};" >> $OUT
echo "const static int deviceCertificateLength = sizeof(deviceCertificate);" >> $OUT

# CA cert
OUT=$MBED_DIR/root_certificate.h
echo "#pragma once" > $OUT
echo "const static unsigned char rootCertificate[] = {" >> $OUT
openssl x509 -in $CA_CERT_FILE -outform DER | xxd -i >> $OUT
echo "};" >> $OUT
echo "const static int rootCertificateLength = sizeof(rootCertificate);" >> $OUT
echo DONE.

# create (copy) the server files for CyaSSL
echo Creating PEM file structure of CyaSSL server
OUT=server/certs
mkdir -p $OUT
cp $CA_CERT_FILE $OUT/client_cert.pem
cp $CA_CERT_FILE $OUT/server_cert.pem
cp $CA_KEY_FILE $OUT/server_key.pem
echo DONE.

main.cpp@4:df1e7ada3ef2, 2013-09-19 (annotated)

Committer:
ashleymills
Date:
Thu Sep 19 13:26:15 2013 +0000
Revision:
4:df1e7ada3ef2
Parent:
3:48795329999a 
Added DN verification.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
ashleymills 0:00174d07d068 1 #define __DEBUG__ 4 //Maximum verbosity
ashleymills 0:00174d07d068 2 #ifndef __MODULE__
ashleymills 0:00174d07d068 3 #define __MODULE__ "main.cpp"
ashleymills 0:00174d07d068 4 #endif
ashleymills 0:00174d07d068 5
ashleymills 0:00174d07d068 6 #define DEBUG_CYASSL 1
ashleymills 0:00174d07d068 7 #include "bsd_socket.h"
ashleymills 0:00174d07d068 8 #include "mbed.h"
ashleymills 0:00174d07d068 9 #include "rtos.h"
ashleymills 0:00174d07d068 10 #include "dbg.h"
ashleymills 0:00174d07d068 11 #include "cyassl/ssl.h"
ashleymills 0:00174d07d068 12 #include "EthernetInterface.h"
ashleymills 0:00174d07d068 13 #include "NTPClient.h"
ashleymills 0:00174d07d068 14
ashleymills 0:00174d07d068 15 #include "logging.h"
ashleymills 0:00174d07d068 16
ashleymills 0:00174d07d068 17 #include "certs/device_certificate.h"
ashleymills 0:00174d07d068 18 #include "certs/device_private_key.h"
ashleymills 0:00174d07d068 19 #include "certs/root_certificate.h"
ashleymills 3:48795329999a 20
ashleymills 4:df1e7ada3ef2 21 /*
ashleymills 4:df1e7ada3ef2 22 // this is how you would setup a client PSK
ashleymills 0:00174d07d068 23 static INLINE unsigned int my_psk_client_cb(CYASSL* ssl, const char* hint,
ashleymills 0:00174d07d068 24 char* identity, unsigned int id_max_len, unsigned char* key,
ashleymills 0:00174d07d068 25 unsigned int key_max_len)
ashleymills 0:00174d07d068 26 {
ashleymills 0:00174d07d068 27 (void)ssl;
ashleymills 0:00174d07d068 28 (void)hint;
ashleymills 0:00174d07d068 29 (void)key_max_len;
ashleymills 0:00174d07d068 30
ashleymills 0:00174d07d068 31 DBG("PSK client callback callled.");
ashleymills 0:00174d07d068 32
ashleymills 0:00174d07d068 33 // identity is OpenSSL testing default for openssl s_client, keep same
ashleymills 0:00174d07d068 34 strncpy(identity, "Client_identity", id_max_len);
ashleymills 0:00174d07d068 35
ashleymills 0:00174d07d068 36
ashleymills 0:00174d07d068 37 // test key in hex is 0x1a2b3c4d , in decimal 439,041,101 , we're using
ashleymills 0:00174d07d068 38 // unsigned binary
ashleymills 0:00174d07d068 39 key[0] = 26;
ashleymills 0:00174d07d068 40 key[1] = 43;
ashleymills 0:00174d07d068 41 key[2] = 60;
ashleymills 0:00174d07d068 42 key[3] = 77;
ashleymills 0:00174d07d068 43
ashleymills 0:00174d07d068 44 return 4; // length of key in octets or 0 for error
ashleymills 0:00174d07d068 45 }
ashleymills 0:00174d07d068 46 */
ashleymills 0:00174d07d068 47
ashleymills 0:00174d07d068 48 sockaddr_in bindAddr,serverAddress;
ashleymills 0:00174d07d068 49
ashleymills 0:00174d07d068 50 bool connectToSocketUDP(char *ipAddress, int port, int *sockfd) {
ashleymills 0:00174d07d068 51 *sockfd = -1;
ashleymills 0:00174d07d068 52 // create the socket
ashleymills 0:00174d07d068 53 if((*sockfd=socket(AF_INET,SOCK_DGRAM,0))<0) {
ashleymills 0:00174d07d068 54 DBG("Error opening socket");
ashleymills 0:00174d07d068 55 return false;
ashleymills 0:00174d07d068 56 }
ashleymills 0:00174d07d068 57 socklen_t sockAddrInLen = sizeof(struct sockaddr_in);
ashleymills 0:00174d07d068 58
ashleymills 0:00174d07d068 59 // bind socket to 11111
ashleymills 0:00174d07d068 60 memset(&bindAddr, 0x00, sockAddrInLen);
ashleymills 0:00174d07d068 61 bindAddr.sin_family = AF_INET; // IP family
ashleymills 0:00174d07d068 62 bindAddr.sin_port = htons(11111);
ashleymills 0:00174d07d068 63 bindAddr.sin_addr.s_addr = IPADDR_ANY; // 32 bit IP representation
ashleymills 0:00174d07d068 64 // call bind
ashleymills 0:00174d07d068 65 if(bind(*sockfd,(const struct sockaddr *)&bindAddr,sockAddrInLen)!=0) {
ashleymills 0:00174d07d068 66 DBG("Error binding socket");
ashleymills 0:00174d07d068 67 perror(NULL);
ashleymills 0:00174d07d068 68 }
ashleymills 0:00174d07d068 69
ashleymills 0:00174d07d068 70 INFO("UDP socket created and bound to: %s:%d",inet_ntoa(bindAddr.sin_addr),ntohs(bindAddr.sin_port));
ashleymills 0:00174d07d068 71
ashleymills 0:00174d07d068 72 // create the socket address
ashleymills 0:00174d07d068 73
ashleymills 0:00174d07d068 74 memset(&serverAddress, 0x00, sizeof(struct sockaddr_in));
ashleymills 0:00174d07d068 75 serverAddress.sin_addr.s_addr = inet_addr(ipAddress);
ashleymills 0:00174d07d068 76 serverAddress.sin_family = AF_INET;
ashleymills 0:00174d07d068 77 serverAddress.sin_port = htons(port);
ashleymills 0:00174d07d068 78
ashleymills 0:00174d07d068 79 // do socket connect
ashleymills 0:00174d07d068 80 //LOG("Connecting socket to %s:%d", inet_ntoa(serverAddress.sin_addr), ntohs(serverAddress.sin_port));
ashleymills 0:00174d07d068 81 if(connect(*sockfd, (const struct sockaddr *)&serverAddress, sizeof(serverAddress))<0) {
ashleymills 0:00174d07d068 82 shutdown(*sockfd,SHUT_RDWR);
ashleymills 0:00174d07d068 83 close(*sockfd);
ashleymills 0:00174d07d068 84 DBG("Could not connect");
ashleymills 0:00174d07d068 85 return false;
ashleymills 0:00174d07d068 86 }
ashleymills 0:00174d07d068 87 return true;
ashleymills 0:00174d07d068 88 }
ashleymills 0:00174d07d068 89
ashleymills 0:00174d07d068 90 DigitalOut myled(LED1);
ashleymills 0:00174d07d068 91 #define INTERFACE EthernetInterface
ashleymills 0:00174d07d068 92
ashleymills 0:00174d07d068 93 void printError(CYASSL *ssl, int resultCode) {
ashleymills 0:00174d07d068 94 int err = CyaSSL_get_error(ssl, resultCode);
ashleymills 0:00174d07d068 95 char errorString[80];
ashleymills 0:00174d07d068 96 CyaSSL_ERR_error_string(err, errorString);
ashleymills 0:00174d07d068 97 DBG("Error: CyaSSL_write %s", errorString);
ashleymills 0:00174d07d068 98 }
ashleymills 0:00174d07d068 99
ashleymills 0:00174d07d068 100 void debugCallback(const int logLevel,const char *const logMessage) {
ashleymills 0:00174d07d068 101 DBG(logMessage);
ashleymills 0:00174d07d068 102 }
ashleymills 0:00174d07d068 103
ashleymills 0:00174d07d068 104
ashleymills 0:00174d07d068 105 int main() {
ashleymills 0:00174d07d068 106 DBG_INIT();
ashleymills 0:00174d07d068 107 DBG_SET_SPEED(115200);
ashleymills 0:00174d07d068 108 DBG_SET_NEWLINE("\r\n");
ashleymills 0:00174d07d068 109 DBG("\r\n\r\n\r\n\r\n");
ashleymills 0:00174d07d068 110
ashleymills 0:00174d07d068 111 int ret = 0;
ashleymills 0:00174d07d068 112
ashleymills 4:df1e7ada3ef2 113 // init ethernet
ashleymills 4:df1e7ada3ef2 114 EthernetInterface ethernet;
ashleymills 4:df1e7ada3ef2 115 // connnect ethernet
ashleymills 4:df1e7ada3ef2 116 DBG("Cnnecting to network interface");
ashleymills 4:df1e7ada3ef2 117 ethernet.init();
ashleymills 4:df1e7ada3ef2 118 if(ethernet.connect(10000)) {
ashleymills 0:00174d07d068 119 DBG("Error initialising ethernet interface");
ashleymills 0:00174d07d068 120 }
ashleymills 0:00174d07d068 121 DBG("Connected to network interface");
ashleymills 0:00174d07d068 122
ashleymills 4:df1e7ada3ef2 123 DBG("IP: %s",ethernet.getIPAddress());
ashleymills 0:00174d07d068 124
ashleymills 0:00174d07d068 125 // need to set the time before doing anything else
ashleymills 0:00174d07d068 126 NTPClient ntp;
ashleymills 0:00174d07d068 127 time_t currentTime = time(NULL);
ashleymills 0:00174d07d068 128 int obtainedTimeSuccessfully = false;
ashleymills 0:00174d07d068 129 // try 100 times and then just force a watchdog reboot
ashleymills 0:00174d07d068 130 for(int i=0; i<100; i++) {
ashleymills 0:00174d07d068 131 obtainedTimeSuccessfully = false;
ashleymills 0:00174d07d068 132
ashleymills 0:00174d07d068 133 if(ntp.setTime("0.pool.ntp.org")==0) {
ashleymills 0:00174d07d068 134 // there is a bug from somewhere which results in a negative timestamp
ashleymills 0:00174d07d068 135 currentTime = time(NULL);
ashleymills 0:00174d07d068 136 if(currentTime>0) {
ashleymills 0:00174d07d068 137 obtainedTimeSuccessfully = true;
ashleymills 0:00174d07d068 138 INFO("Time set successfully, time is now (UTC): %s", ctime(&currentTime));
ashleymills 0:00174d07d068 139 }
ashleymills 0:00174d07d068 140 }
ashleymills 0:00174d07d068 141 if(obtainedTimeSuccessfully) {
ashleymills 0:00174d07d068 142 break;
ashleymills 0:00174d07d068 143 }
ashleymills 0:00174d07d068 144 }
ashleymills 3:48795329999a 145
ashleymills 0:00174d07d068 146 CyaSSL_Init();// Initialize CyaSSL
ashleymills 0:00174d07d068 147 if(CyaSSL_Debugging_ON()==0) {
ashleymills 0:00174d07d068 148 DBG("CyaSSL debugging enabled");
ashleymills 0:00174d07d068 149 } else {
ashleymills 0:00174d07d068 150 DBG("CyaSSL debugging not compiled in");
ashleymills 0:00174d07d068 151 }
ashleymills 0:00174d07d068 152
ashleymills 4:df1e7ada3ef2 153 // use our own debugging system for CyaSSL debugging
ashleymills 0:00174d07d068 154 CyaSSL_SetLoggingCb(&debugCallback);
ashleymills 0:00174d07d068 155
ashleymills 0:00174d07d068 156 // set client method
ashleymills 0:00174d07d068 157
ashleymills 0:00174d07d068 158 // DTLS
ashleymills 0:00174d07d068 159 CYASSL_METHOD* method = CyaDTLSv1_2_client_method();
ashleymills 0:00174d07d068 160 if(method == NULL) {
ashleymills 0:00174d07d068 161 // unable to get method
ashleymills 0:00174d07d068 162 }
ashleymills 0:00174d07d068 163 CYASSL_CTX* ctx;
ashleymills 0:00174d07d068 164 ctx = CyaSSL_CTX_new(method);
ashleymills 0:00174d07d068 165 if(ctx == NULL){
ashleymills 0:00174d07d068 166 DBG("CyaSSL_CTX_new error.\n");
ashleymills 0:00174d07d068 167 exit(EXIT_FAILURE);
ashleymills 0:00174d07d068 168 }
ashleymills 0:00174d07d068 169
ashleymills 0:00174d07d068 170 DBG("Setup SSL context");
ashleymills 0:00174d07d068 171
ashleymills 0:00174d07d068 172 // use pre-shared keys
ashleymills 0:00174d07d068 173 //CyaSSL_CTX_set_psk_client_callback(ctx,my_psk_client_cb);
ashleymills 0:00174d07d068 174
ashleymills 0:00174d07d068 175 // load certificates for CA and us
ashleymills 0:00174d07d068 176 // load CA cert
ashleymills 0:00174d07d068 177 ret = CyaSSL_CTX_load_verify_buffer(ctx,rootCertificate, rootCertificateLength,SSL_FILETYPE_ASN1);
ashleymills 0:00174d07d068 178 // load device cert
ashleymills 0:00174d07d068 179 ret = CyaSSL_CTX_use_certificate_buffer(ctx, deviceCertificate, deviceCertificateLength, SSL_FILETYPE_ASN1);
ashleymills 0:00174d07d068 180 // load device private key
ashleymills 0:00174d07d068 181 ret = CyaSSL_CTX_use_PrivateKey_buffer(ctx, devicePrivateKey, devicePrivateKeyLength, SSL_FILETYPE_ASN1);
ashleymills 0:00174d07d068 182
ashleymills 3:48795329999a 183 // setup UDP socket
ashleymills 0:00174d07d068 184 int sockfd = NULL;
ashleymills 0:00174d07d068 185 if(!connectToSocketUDP("192.168.1.99", 11111, &sockfd)) {
ashleymills 0:00174d07d068 186 DBG("Error connecting to socket");
ashleymills 0:00174d07d068 187 }
ashleymills 0:00174d07d068 188
ashleymills 0:00174d07d068 189 DBG("Connected to non-SSL socket");
ashleymills 0:00174d07d068 190
ashleymills 0:00174d07d068 191 // hook into SSL
ashleymills 0:00174d07d068 192 // Create CYASSL object
ashleymills 0:00174d07d068 193 CYASSL* ssl;
ashleymills 0:00174d07d068 194 ssl = CyaSSL_new(ctx);
ashleymills 0:00174d07d068 195 if(ssl == NULL) {
ashleymills 0:00174d07d068 196 DBG("CyaSSL_new error.");
ashleymills 0:00174d07d068 197 exit(EXIT_FAILURE);
ashleymills 0:00174d07d068 198 }
ashleymills 0:00174d07d068 199 DBG("CyaSSL_new OK");
ashleymills 0:00174d07d068 200
ashleymills 4:df1e7ada3ef2 201 // this is where you set the peer name for the server
ashleymills 4:df1e7ada3ef2 202 // CyaSSL_connect() will return an error which resolves to
ashleymills 4:df1e7ada3ef2 203 // DOMAIN_NAME_MISMATCH via CyaSSL_get_error()
ashleymills 4:df1e7ada3ef2 204 // this is how you ensure that the peer is who you think it is
ashleymills 4:df1e7ada3ef2 205 CyaSSL_check_domain_name(ssl, "DMServer");
ashleymills 0:00174d07d068 206
ashleymills 0:00174d07d068 207 // attach to socket
ashleymills 0:00174d07d068 208 DBG("Attaching CyaSSL to socket");
ashleymills 0:00174d07d068 209 CyaSSL_set_fd(ssl, sockfd);
ashleymills 0:00174d07d068 210 DBG("Attached CyaSSL to socket");
ashleymills 0:00174d07d068 211
ashleymills 0:00174d07d068 212 // DTLS stuff
ashleymills 0:00174d07d068 213 ret = CyaSSL_dtls_set_peer(ssl, &serverAddress, sizeof(serverAddress));
ashleymills 0:00174d07d068 214 if(ret != SSL_SUCCESS) {
ashleymills 0:00174d07d068 215 // failed to set DTLS peer
ashleymills 0:00174d07d068 216 DBG("Failed to set DTLS peer");
ashleymills 0:00174d07d068 217 }
ashleymills 0:00174d07d068 218
ashleymills 0:00174d07d068 219 ret = CyaSSL_dtls(ssl);
ashleymills 0:00174d07d068 220 if(ret) {
ashleymills 0:00174d07d068 221 // SSL session has been configured to use DTLS
ashleymills 0:00174d07d068 222 DBG("DTLS configured");
ashleymills 0:00174d07d068 223 } else {
ashleymills 0:00174d07d068 224 DBG("DTLS not configured");
ashleymills 0:00174d07d068 225 }
ashleymills 0:00174d07d068 226
ashleymills 0:00174d07d068 227 DBG("Issuing CyaSSL_connect");
ashleymills 0:00174d07d068 228 int result = CyaSSL_connect(ssl);
ashleymills 0:00174d07d068 229 if(result!=SSL_SUCCESS) {
ashleymills 0:00174d07d068 230 DBG("CyaSSL_connect failed");
ashleymills 0:00174d07d068 231 printError(ssl,result);
ashleymills 0:00174d07d068 232 }
ashleymills 0:00174d07d068 233 DBG("CyaSSL_connect OK");
ashleymills 0:00174d07d068 234
ashleymills 0:00174d07d068 235 result = CyaSSL_write(ssl,"onion",5);
ashleymills 0:00174d07d068 236 DBG("Wrote %d things",result);
ashleymills 0:00174d07d068 237 if(result<0) {
ashleymills 0:00174d07d068 238 printError(ssl,result);
ashleymills 0:00174d07d068 239 }
ashleymills 0:00174d07d068 240
ashleymills 0:00174d07d068 241 char buffer[200];
ashleymills 0:00174d07d068 242 int d =0;
ashleymills 0:00174d07d068 243 if((d=CyaSSL_read(ssl, &buffer, 200))>0) {
ashleymills 0:00174d07d068 244 DBG("Received %d bytes: %s",d,buffer);
ashleymills 0:00174d07d068 245 }
ashleymills 0:00174d07d068 246
ashleymills 0:00174d07d068 247 // clean up
ashleymills 0:00174d07d068 248 CyaSSL_CTX_free(ctx);
ashleymills 0:00174d07d068 249 CyaSSL_Cleanup();
ashleymills 0:00174d07d068 250
ashleymills 0:00174d07d068 251 }