Francois Berder / TLS_axTLS

This is a fork of the mbed port of axTLS

Dependents:   TLS_axTLS-Example HTTPSClientExample

Overview

This library is a fork from the mbed port of axTLS. It attempts to :

  • reduce the usage of dynamic memory
  • verify certificates with key size up to 2048 bits
  • provide a simple interface

Encryption

This library uses either RC4 or AES for encryption.

Memory usage

During the establishment of a connection, about 10KB of memory is allocated dynamically (it depends on certificates). Once the connection is established, the memory consumption is relatively low. This means that your program must not use too much static memory or allocate memory before you establish a TLS connection.

Certificates

Certificates are the major source of problem and will often be the reason why your program will crash. Due to memory constraint, there are some limitations on certificates :

  • Each certificate must not be bigger than 2KB
  • TLS client can only handle a chain of up to three certificates (excluding the root certificate). This means that the server must not send more than three certificates.

Also, this library can only load certificates following these specifications :

  • encoded in binary DER format (PKCS1)
  • The public key must use RSA only

Once the connection is established, you should free all loaded certificates by calling CertificateManager::clear(). This will free a few kilobytes (it depends on your certificates). In addition, to enable certificate verification during the connection, this library has a "precomputed mode". This mode uses much less memory than a normal certificate verification.

Normal mode

You need to copy the root certificate in binary-DER format on the mbed. Then in your code, let's say that your root certificate is saved on the mbed as "root.der", assuming that you include CertificateManager.h and that you created a LocalFileSystem, you can load this certificate as this ;

Load root certificate

CertificateManager::add("/local/root.der");
CertificateManager::load();

Do not forget that this mode takes quite a lot of memory ( the memory peak is high while verifying certificates) and will only work if the key size is not bigger than 1024 bits (otherwise it will crash while verifying certificates).

Precomputed mode

In this mode, you need to save the entire chain of certificates (in binary-DER format) including the root certificate on the mbed. In practice, this means that you must first retrieve all certificates that the server sends during a connection and then find the right root certificate. In your code, you must call CertificateManager::add for each certificate and in the right order : from the server certificate to the root certificate. Here is how you shoud load certificates in this mode :

Loadcertificates in precomputed mode

CertificateManager::add("/local/server1.der");
CertificateManager::add("/local/server2.der");
CertificateManager::add("/local/server3.der");
CertificateManager::add("/local/root.der");
CertificateManager::load(true);

Using this mode, you should be able to verify certificates with key size up to 2048 bits.

How do I find these certificates ?

I posted an entry in my notebook detailing how to get certificates from a server. You should be able to get all certificates you need except the root certificate. Here is a way how to get the root certificate on windows :

  1. Open (double-click) the last certificate sent by the server
  2. Go to details panel and click on the entry called Issuer. The first line gives you the name of this certificate and the second line indicates the company who created this certificate
  3. Open firefox
  4. Go to options, advanced panel and click on View Certificates
  5. Go to Authorities panel
  6. Choose the certificate whose name match the issuer of the last certificate sent by the server
  7. Export this certificate to binary-DER format.

Connect to mbed.org !

Import programTLS_axTLS-Example

Establishing a connection to mbed.org using TLS

Last commit 12 Sep 2013 by Francois Berder

CertificateManager.cpp@0:85fceccc1a7c, 2013-09-12 (annotated)

Committer:
feb11
Date:
Thu Sep 12 15:18:04 2013 +0000
Revision:
0:85fceccc1a7c
intial import

Who changed what in which revision?

UserRevisionLine numberNew contents of line
feb11 0:85fceccc1a7c 1 #include "CertificateManager.h"
feb11 0:85fceccc1a7c 2 #include "axTLS/crypto/bigint.h"
feb11 0:85fceccc1a7c 3 #include "cert_manager.h"
feb11 0:85fceccc1a7c 4 #include "axTLS/ssl/crypto_misc.h"
feb11 0:85fceccc1a7c 5
feb11 0:85fceccc1a7c 6 CertificateManager::CertificateManager():
feb11 0:85fceccc1a7c 7 files(),
feb11 0:85fceccc1a7c 8 certs(NULL),
feb11 0:85fceccc1a7c 9 precomputedCerts()
feb11 0:85fceccc1a7c 10 {
feb11 0:85fceccc1a7c 11 }
feb11 0:85fceccc1a7c 12
feb11 0:85fceccc1a7c 13 CertificateManager::~CertificateManager()
feb11 0:85fceccc1a7c 14 {
feb11 0:85fceccc1a7c 15 clear();
feb11 0:85fceccc1a7c 16 }
feb11 0:85fceccc1a7c 17
feb11 0:85fceccc1a7c 18 CertificateManager& CertificateManager::instance()
feb11 0:85fceccc1a7c 19 {
feb11 0:85fceccc1a7c 20 static CertificateManager cm;
feb11 0:85fceccc1a7c 21 return cm;
feb11 0:85fceccc1a7c 22 }
feb11 0:85fceccc1a7c 23
feb11 0:85fceccc1a7c 24 void CertificateManager::add(const char *fileName)
feb11 0:85fceccc1a7c 25 {
feb11 0:85fceccc1a7c 26 CertificateManager::instance().files.push_back(fileName);
feb11 0:85fceccc1a7c 27 }
feb11 0:85fceccc1a7c 28
feb11 0:85fceccc1a7c 29 bool CertificateManager::load(bool precompute)
feb11 0:85fceccc1a7c 30 {
feb11 0:85fceccc1a7c 31 if(precompute)
feb11 0:85fceccc1a7c 32 return CertificateManager::instance().loadPrecomputeCertificates();
feb11 0:85fceccc1a7c 33 else
feb11 0:85fceccc1a7c 34 return CertificateManager::instance().loadCertificates();
feb11 0:85fceccc1a7c 35 }
feb11 0:85fceccc1a7c 36
feb11 0:85fceccc1a7c 37 bool CertificateManager::loadCertificates()
feb11 0:85fceccc1a7c 38 {
feb11 0:85fceccc1a7c 39 X509_CTX *cert = certs;
feb11 0:85fceccc1a7c 40 for(std::list<std::string>::iterator itor = files.begin();
feb11 0:85fceccc1a7c 41 itor != files.end();
feb11 0:85fceccc1a7c 42 ++itor) {
feb11 0:85fceccc1a7c 43 FILE *fp = fopen(itor->c_str(), "r");
feb11 0:85fceccc1a7c 44 if(fp == NULL)
feb11 0:85fceccc1a7c 45 return false;
feb11 0:85fceccc1a7c 46
feb11 0:85fceccc1a7c 47 fseek(fp, 0, SEEK_END);
feb11 0:85fceccc1a7c 48 int length = ftell(fp);
feb11 0:85fceccc1a7c 49 fseek(fp, 0, SEEK_SET);
feb11 0:85fceccc1a7c 50 uint8_t *data = new uint8_t[length];
feb11 0:85fceccc1a7c 51 fread(data, sizeof(uint8_t), length, fp);
feb11 0:85fceccc1a7c 52 fclose(fp);
feb11 0:85fceccc1a7c 53
feb11 0:85fceccc1a7c 54 if(x509_new(data, NULL, &cert) != 0) {
feb11 0:85fceccc1a7c 55 x509_free(certs);
feb11 0:85fceccc1a7c 56 delete[] data;
feb11 0:85fceccc1a7c 57 return false;
feb11 0:85fceccc1a7c 58 }
feb11 0:85fceccc1a7c 59
feb11 0:85fceccc1a7c 60 delete[] data;
feb11 0:85fceccc1a7c 61 cert = cert->next;
feb11 0:85fceccc1a7c 62 }
feb11 0:85fceccc1a7c 63 files.clear();
feb11 0:85fceccc1a7c 64 return true;
feb11 0:85fceccc1a7c 65 }
feb11 0:85fceccc1a7c 66
feb11 0:85fceccc1a7c 67 /* Check cert1 with cert2
feb11 0:85fceccc1a7c 68 */
feb11 0:85fceccc1a7c 69 bool CertificateManager::check(X509_CTX *cert1, X509_CTX* cert2)
feb11 0:85fceccc1a7c 70 {
feb11 0:85fceccc1a7c 71 if(asn1_compare_dn(cert1->ca_cert_dn, cert2->cert_dn))
feb11 0:85fceccc1a7c 72 return false;
feb11 0:85fceccc1a7c 73 if (time(NULL) < cert1->not_before)
feb11 0:85fceccc1a7c 74 return false;
feb11 0:85fceccc1a7c 75 if (time(NULL) > cert1->not_after)
feb11 0:85fceccc1a7c 76 return false;
feb11 0:85fceccc1a7c 77
feb11 0:85fceccc1a7c 78 /* Cannot check : takes too much memory
feb11 0:85fceccc1a7c 79 BI_CTX *ctx = cert2->rsa_ctx->bi_ctx;
feb11 0:85fceccc1a7c 80 bigint *mod = bi_clone(ctx, cert2->rsa_ctx->m);
feb11 0:85fceccc1a7c 81 bigint *expn = bi_clone(ctx , cert2->rsa_ctx->e);
feb11 0:85fceccc1a7c 82 bigint *digest = sig_verify(ctx, cert1->signature, cert1->sig_len, mod, expn);
feb11 0:85fceccc1a7c 83 if(digest && cert1->digest)
feb11 0:85fceccc1a7c 84 {
feb11 0:85fceccc1a7c 85 if(bi_compare(digest, cert1->digest) != 0)
feb11 0:85fceccc1a7c 86 {
feb11 0:85fceccc1a7c 87 bi_free(ctx, digest);
feb11 0:85fceccc1a7c 88 return false;
feb11 0:85fceccc1a7c 89 }
feb11 0:85fceccc1a7c 90 bi_free(ctx, digest);
feb11 0:85fceccc1a7c 91 }
feb11 0:85fceccc1a7c 92 else
feb11 0:85fceccc1a7c 93 return false;
feb11 0:85fceccc1a7c 94 */
feb11 0:85fceccc1a7c 95 return true;
feb11 0:85fceccc1a7c 96 }
feb11 0:85fceccc1a7c 97
feb11 0:85fceccc1a7c 98 bool CertificateManager::loadPrecomputeCertificates()
feb11 0:85fceccc1a7c 99 {
feb11 0:85fceccc1a7c 100 if(files.size() < 2)
feb11 0:85fceccc1a7c 101 return false;
feb11 0:85fceccc1a7c 102 precomputedCerts.reserve(files.size()-1);
feb11 0:85fceccc1a7c 103 X509_CTX *cert1 = NULL, *cert2 = NULL;
feb11 0:85fceccc1a7c 104
feb11 0:85fceccc1a7c 105 // load cert1
feb11 0:85fceccc1a7c 106 FILE *fp = fopen(files.front().c_str(), "r");
feb11 0:85fceccc1a7c 107 if(fp == NULL) {
feb11 0:85fceccc1a7c 108 printf("Could not open file %s\n", files.front().c_str());
feb11 0:85fceccc1a7c 109 clear();
feb11 0:85fceccc1a7c 110 return false;
feb11 0:85fceccc1a7c 111 }
feb11 0:85fceccc1a7c 112 files.pop_front();
feb11 0:85fceccc1a7c 113
feb11 0:85fceccc1a7c 114 fseek(fp, 0, SEEK_END);
feb11 0:85fceccc1a7c 115 int length = ftell(fp);
feb11 0:85fceccc1a7c 116 fseek(fp, 0, SEEK_SET);
feb11 0:85fceccc1a7c 117 uint8_t *data = new uint8_t[length];
feb11 0:85fceccc1a7c 118 fread(data, sizeof(uint8_t), length, fp);
feb11 0:85fceccc1a7c 119 fclose(fp);
feb11 0:85fceccc1a7c 120
feb11 0:85fceccc1a7c 121 if(x509_new(data, NULL, &cert1) != 0) {
feb11 0:85fceccc1a7c 122 delete[] data;
feb11 0:85fceccc1a7c 123 clear();
feb11 0:85fceccc1a7c 124 return false;
feb11 0:85fceccc1a7c 125 }
feb11 0:85fceccc1a7c 126 delete[] data;
feb11 0:85fceccc1a7c 127
feb11 0:85fceccc1a7c 128 while(!files.empty()) {
feb11 0:85fceccc1a7c 129 // load cert2
feb11 0:85fceccc1a7c 130 fp = fopen(files.front().c_str(), "r");
feb11 0:85fceccc1a7c 131 if(fp == NULL) {
feb11 0:85fceccc1a7c 132 printf("Could not open file %s\n", files.front().c_str());
feb11 0:85fceccc1a7c 133 x509_free(cert1);
feb11 0:85fceccc1a7c 134 clear();
feb11 0:85fceccc1a7c 135 return false;
feb11 0:85fceccc1a7c 136 }
feb11 0:85fceccc1a7c 137 files.pop_front();
feb11 0:85fceccc1a7c 138
feb11 0:85fceccc1a7c 139 fseek(fp, 0, SEEK_END);
feb11 0:85fceccc1a7c 140 length = ftell(fp);
feb11 0:85fceccc1a7c 141 fseek(fp, 0, SEEK_SET);
feb11 0:85fceccc1a7c 142 data = new uint8_t[length];
feb11 0:85fceccc1a7c 143 fread(data, sizeof(uint8_t), length, fp);
feb11 0:85fceccc1a7c 144 fclose(fp);
feb11 0:85fceccc1a7c 145
feb11 0:85fceccc1a7c 146 if(x509_new(data, NULL, &cert2) != 0) {
feb11 0:85fceccc1a7c 147 x509_free(cert1);
feb11 0:85fceccc1a7c 148 delete[] data;
feb11 0:85fceccc1a7c 149 clear();
feb11 0:85fceccc1a7c 150 return false;
feb11 0:85fceccc1a7c 151 }
feb11 0:85fceccc1a7c 152 delete[] data;
feb11 0:85fceccc1a7c 153
feb11 0:85fceccc1a7c 154
feb11 0:85fceccc1a7c 155 if(!check(cert1, cert2)) {
feb11 0:85fceccc1a7c 156 printf("Certificates verification failed\n");
feb11 0:85fceccc1a7c 157 x509_free(cert1);
feb11 0:85fceccc1a7c 158 x509_free(cert2);
feb11 0:85fceccc1a7c 159 clear();
feb11 0:85fceccc1a7c 160 return false;
feb11 0:85fceccc1a7c 161 }
feb11 0:85fceccc1a7c 162
feb11 0:85fceccc1a7c 163
feb11 0:85fceccc1a7c 164 // Create certificate
feb11 0:85fceccc1a7c 165 PrecomputedCertificate pc;
feb11 0:85fceccc1a7c 166 memset(&pc, 0, sizeof(PrecomputedCertificate));
feb11 0:85fceccc1a7c 167 for(int i = 0; i < X509_NUM_DN_TYPES; ++i) {
feb11 0:85fceccc1a7c 168 if(cert1->ca_cert_dn[i] != NULL) {
feb11 0:85fceccc1a7c 169 pc.ca_cert_dn[i] = new char[strlen(cert1->ca_cert_dn[i])+1];
feb11 0:85fceccc1a7c 170 strcpy(pc.ca_cert_dn[i], cert1->ca_cert_dn[i]);
feb11 0:85fceccc1a7c 171 }
feb11 0:85fceccc1a7c 172 if(cert1->cert_dn[i] != NULL) {
feb11 0:85fceccc1a7c 173 pc.cert_dn[i] = new char[strlen(cert1->cert_dn[i])+1];
feb11 0:85fceccc1a7c 174 strcpy(pc.cert_dn[i], cert1->cert_dn[i]);
feb11 0:85fceccc1a7c 175 }
feb11 0:85fceccc1a7c 176 }
feb11 0:85fceccc1a7c 177
feb11 0:85fceccc1a7c 178 uint8_t buffer[512];
feb11 0:85fceccc1a7c 179 uint16_t paddingLength;
feb11 0:85fceccc1a7c 180 bi_permanent(cert1->digest);
feb11 0:85fceccc1a7c 181 bi_export(cert1->rsa_ctx->bi_ctx, cert1->digest, buffer, 512);
feb11 0:85fceccc1a7c 182 bi_depermanent(cert1->digest);
feb11 0:85fceccc1a7c 183
feb11 0:85fceccc1a7c 184 paddingLength = 0;
feb11 0:85fceccc1a7c 185 while(buffer[paddingLength] == 0 && paddingLength < 512) paddingLength++;
feb11 0:85fceccc1a7c 186 pc.digest_len = 512 - paddingLength;
feb11 0:85fceccc1a7c 187 pc.digest = new uint8_t[pc.digest_len];
feb11 0:85fceccc1a7c 188 memcpy(pc.digest, &buffer[paddingLength], pc.digest_len);
feb11 0:85fceccc1a7c 189
feb11 0:85fceccc1a7c 190 bi_export(cert2->rsa_ctx->bi_ctx, cert2->rsa_ctx->m, buffer, 512);
feb11 0:85fceccc1a7c 191
feb11 0:85fceccc1a7c 192 paddingLength = 0;
feb11 0:85fceccc1a7c 193 while(buffer[paddingLength] == 0) paddingLength++;
feb11 0:85fceccc1a7c 194 pc.mod_len = 512 - paddingLength;
feb11 0:85fceccc1a7c 195 pc.mod = new uint8_t[pc.mod_len];
feb11 0:85fceccc1a7c 196 memcpy(pc.mod, &buffer[paddingLength], pc.mod_len);
feb11 0:85fceccc1a7c 197
feb11 0:85fceccc1a7c 198
feb11 0:85fceccc1a7c 199 bi_export(cert2->rsa_ctx->bi_ctx, cert2->rsa_ctx->e, buffer, 512);
feb11 0:85fceccc1a7c 200 paddingLength = 0;
feb11 0:85fceccc1a7c 201 while(buffer[paddingLength] == 0) paddingLength++;
feb11 0:85fceccc1a7c 202 pc.expn_len = 512 - paddingLength;
feb11 0:85fceccc1a7c 203 pc.expn = new uint8_t[pc.expn_len];
feb11 0:85fceccc1a7c 204 memcpy(pc.expn, &buffer[paddingLength], pc.expn_len);
feb11 0:85fceccc1a7c 205
feb11 0:85fceccc1a7c 206 pc.sig = new uint8_t[cert1->sig_len];
feb11 0:85fceccc1a7c 207 pc.sig_len = cert1->sig_len;
feb11 0:85fceccc1a7c 208 memcpy(pc.sig, cert1->signature, pc.sig_len);
feb11 0:85fceccc1a7c 209
feb11 0:85fceccc1a7c 210
feb11 0:85fceccc1a7c 211 precomputedCerts.push_back(pc);
feb11 0:85fceccc1a7c 212
feb11 0:85fceccc1a7c 213 x509_free(cert1);
feb11 0:85fceccc1a7c 214 cert1 = cert2;
feb11 0:85fceccc1a7c 215 }
feb11 0:85fceccc1a7c 216 x509_free(cert2);
feb11 0:85fceccc1a7c 217 certs = NULL;
feb11 0:85fceccc1a7c 218 return true;
feb11 0:85fceccc1a7c 219 }
feb11 0:85fceccc1a7c 220
feb11 0:85fceccc1a7c 221 void CertificateManager::clear()
feb11 0:85fceccc1a7c 222 {
feb11 0:85fceccc1a7c 223 CertificateManager &cm = CertificateManager::instance();
feb11 0:85fceccc1a7c 224 cm.files.clear();
feb11 0:85fceccc1a7c 225 x509_free(cm.certs);
feb11 0:85fceccc1a7c 226 cm.certs = NULL;
feb11 0:85fceccc1a7c 227 for(int i = 0; i < cm.precomputedCerts.size(); ++i) {
feb11 0:85fceccc1a7c 228 for(int j = 0; j < X509_NUM_DN_TYPES; ++j) {
feb11 0:85fceccc1a7c 229 delete cm.precomputedCerts[i].cert_dn[j];
feb11 0:85fceccc1a7c 230 delete cm.precomputedCerts[i].ca_cert_dn[j];
feb11 0:85fceccc1a7c 231 }
feb11 0:85fceccc1a7c 232
feb11 0:85fceccc1a7c 233 delete[] cm.precomputedCerts[i].sig;
feb11 0:85fceccc1a7c 234 delete[] cm.precomputedCerts[i].mod;
feb11 0:85fceccc1a7c 235 delete[] cm.precomputedCerts[i].expn;
feb11 0:85fceccc1a7c 236 delete[] cm.precomputedCerts[i].digest;
feb11 0:85fceccc1a7c 237 }
feb11 0:85fceccc1a7c 238 cm.precomputedCerts.clear();
feb11 0:85fceccc1a7c 239 }
feb11 0:85fceccc1a7c 240
feb11 0:85fceccc1a7c 241 extern "C" char is_precomputed(void)
feb11 0:85fceccc1a7c 242 {
feb11 0:85fceccc1a7c 243 return CertificateManager::instance().precomputedCerts.size() > 0 ? 1 : 0;
feb11 0:85fceccc1a7c 244 }
feb11 0:85fceccc1a7c 245
feb11 0:85fceccc1a7c 246 extern "C" PrecomputedCertificate get_precomputed_cert(char *cert_dn[], char *ca_cert_dn[])
feb11 0:85fceccc1a7c 247 {
feb11 0:85fceccc1a7c 248 std::vector<PrecomputedCertificate> &precomputedCerts = CertificateManager::instance().precomputedCerts;
feb11 0:85fceccc1a7c 249
feb11 0:85fceccc1a7c 250 for(int i = 0; i < precomputedCerts.size(); ++i) {
feb11 0:85fceccc1a7c 251
feb11 0:85fceccc1a7c 252 PrecomputedCertificate pc = precomputedCerts[i];
feb11 0:85fceccc1a7c 253 int j = 0;
feb11 0:85fceccc1a7c 254 for(; j < X509_NUM_DN_TYPES; ++j) {
feb11 0:85fceccc1a7c 255
feb11 0:85fceccc1a7c 256 if( (cert_dn[j] == NULL && pc.cert_dn[j] != NULL)
feb11 0:85fceccc1a7c 257 || (cert_dn[j] != NULL && pc.cert_dn[j] == NULL)
feb11 0:85fceccc1a7c 258 || (ca_cert_dn[j] == NULL && pc.ca_cert_dn[j] != NULL)
feb11 0:85fceccc1a7c 259 || (ca_cert_dn[j] != NULL && pc.ca_cert_dn[j] == NULL))
feb11 0:85fceccc1a7c 260 break;
feb11 0:85fceccc1a7c 261
feb11 0:85fceccc1a7c 262 if(cert_dn[j] && pc.cert_dn[j]) {
feb11 0:85fceccc1a7c 263 if(strcmp(cert_dn[j], pc.cert_dn[j]))
feb11 0:85fceccc1a7c 264 break;
feb11 0:85fceccc1a7c 265 }
feb11 0:85fceccc1a7c 266
feb11 0:85fceccc1a7c 267 if(ca_cert_dn[j] && pc.ca_cert_dn[j]) {
feb11 0:85fceccc1a7c 268 if(strcmp(ca_cert_dn[j], pc.ca_cert_dn[j]))
feb11 0:85fceccc1a7c 269 break;
feb11 0:85fceccc1a7c 270 }
feb11 0:85fceccc1a7c 271 }
feb11 0:85fceccc1a7c 272 if(j == X509_NUM_DN_TYPES)
feb11 0:85fceccc1a7c 273 return pc;
feb11 0:85fceccc1a7c 274 }
feb11 0:85fceccc1a7c 275
feb11 0:85fceccc1a7c 276 PrecomputedCertificate pc;
feb11 0:85fceccc1a7c 277 memset(&pc, 0, sizeof(PrecomputedCertificate));
feb11 0:85fceccc1a7c 278 return pc;
feb11 0:85fceccc1a7c 279 }
feb11 0:85fceccc1a7c 280
feb11 0:85fceccc1a7c 281
feb11 0:85fceccc1a7c 282 extern "C" X509_CTX* get_cert(char *ca_cert_dn[])
feb11 0:85fceccc1a7c 283 {
feb11 0:85fceccc1a7c 284 X509_CTX *cert = CertificateManager::instance().certs;
feb11 0:85fceccc1a7c 285
feb11 0:85fceccc1a7c 286 while(1) {
feb11 0:85fceccc1a7c 287 if(cert == NULL)
feb11 0:85fceccc1a7c 288 return NULL;
feb11 0:85fceccc1a7c 289 int i = 0;
feb11 0:85fceccc1a7c 290 for(; i < X509_NUM_DN_TYPES; ++i) {
feb11 0:85fceccc1a7c 291 if(strcmp(ca_cert_dn[i], cert->cert_dn[i]))
feb11 0:85fceccc1a7c 292 break;
feb11 0:85fceccc1a7c 293 }
feb11 0:85fceccc1a7c 294 if(i == X509_NUM_DN_TYPES)
feb11 0:85fceccc1a7c 295 return cert;
feb11 0:85fceccc1a7c 296 cert = cert->next;
feb11 0:85fceccc1a7c 297 }
feb11 0:85fceccc1a7c 298 }
feb11 0:85fceccc1a7c 299
feb11 0:85fceccc1a7c 300
feb11 0:85fceccc1a7c 301 extern "C" void cert_manager_clear(void)
feb11 0:85fceccc1a7c 302 {
feb11 0:85fceccc1a7c 303 CertificateManager::clear();
feb11 0:85fceccc1a7c 304 }
feb11 0:85fceccc1a7c 305
feb11 0:85fceccc1a7c 306
feb11 0:85fceccc1a7c 307