mirror of
https://codeberg.org/grunfink/snac2.git
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261 lines
5.9 KiB
C
261 lines
5.9 KiB
C
/* copyright (c) 2022 grunfink - MIT license */
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#ifndef _XS_OPENSSL_H
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#define _XS_OPENSSL_H
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d_char *xs_md5_hex(const void *input, int size);
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d_char *xs_sha1_hex(const void *input, int size);
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d_char *xs_sha256_hex(const void *input, int size);
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d_char *xs_sha256_base64(const void *input, int size);
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d_char *xs_rsa_genkey(int bits);
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d_char *xs_rsa_sign(char *secret, char *mem, int size);
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int xs_rsa_verify(char *pubkey, char *mem, int size, char *b64sig);
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d_char *xs_evp_sign(char *secret, char *mem, int size);
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int xs_evp_verify(char *pubkey, char *mem, int size, char *b64sig);
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#ifdef XS_IMPLEMENTATION
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#include "openssl/md5.h"
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#include "openssl/sha.h"
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#include "openssl/rsa.h"
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#include "openssl/pem.h"
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#include "openssl/evp.h"
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d_char *xs_md5_hex(const void *input, int size)
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{
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unsigned char md5[16];
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MD5_CTX ctx;
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MD5_Init(&ctx);
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MD5_Update(&ctx, input, size);
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MD5_Final(md5, &ctx);
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return xs_hex_enc((char *)md5, sizeof(md5));
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}
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d_char *xs_sha1_hex(const void *input, int size)
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{
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unsigned char sha1[20];
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SHA_CTX ctx;
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SHA1_Init(&ctx);
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SHA1_Update(&ctx, input, size);
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SHA1_Final(sha1, &ctx);
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return xs_hex_enc((char *)sha1, sizeof(sha1));
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}
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unsigned char *_xs_sha256(const void *input, int size, unsigned char *sha256)
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{
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SHA256_CTX ctx;
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SHA256_Init(&ctx);
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SHA256_Update(&ctx, input, size);
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SHA256_Final(sha256, &ctx);
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return sha256;
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}
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d_char *xs_sha256_hex(const void *input, int size)
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{
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unsigned char sha256[32];
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_xs_sha256(input, size, sha256);
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return xs_hex_enc((char *)sha256, sizeof(sha256));
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}
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d_char *xs_sha256_base64(const void *input, int size)
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{
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unsigned char sha256[32];
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_xs_sha256(input, size, sha256);
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return xs_base64_enc((char *)sha256, sizeof(sha256));
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}
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d_char *xs_rsa_genkey(int bits)
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/* generates an RSA keypair */
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{
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BIGNUM *bne;
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RSA *rsa;
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d_char *keypair = NULL;
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if ((bne = BN_new()) != NULL) {
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if (BN_set_word(bne, RSA_F4) == 1) {
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if ((rsa = RSA_new()) != NULL) {
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if (RSA_generate_key_ex(rsa, bits, bne, NULL) == 1) {
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BIO *bs = BIO_new(BIO_s_mem());
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BIO *bp = BIO_new(BIO_s_mem());
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BUF_MEM *sptr;
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BUF_MEM *pptr;
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PEM_write_bio_RSAPrivateKey(bs, rsa, NULL, NULL, 0, 0, NULL);
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BIO_get_mem_ptr(bs, &sptr);
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PEM_write_bio_RSA_PUBKEY(bp, rsa);
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BIO_get_mem_ptr(bp, &pptr);
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keypair = xs_dict_new();
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keypair = xs_dict_append(keypair, "secret", sptr->data);
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keypair = xs_dict_append(keypair, "public", pptr->data);
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BIO_free(bs);
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BIO_free(bp);
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}
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}
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}
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}
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return keypair;
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}
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d_char *xs_rsa_sign(char *secret, char *mem, int size)
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/* signs a memory block (secret is in PEM format) */
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{
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d_char *signature = NULL;
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BIO *b;
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RSA *rsa;
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unsigned char *sig;
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unsigned int sig_len;
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/* un-PEM the key */
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b = BIO_new_mem_buf(secret, strlen(secret));
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rsa = PEM_read_bio_RSAPrivateKey(b, NULL, NULL, NULL);
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/* alloc space */
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sig = malloc(RSA_size(rsa));
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if (RSA_sign(NID_sha256, (unsigned char *)mem, size, sig, &sig_len, rsa) == 1)
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signature = xs_base64_enc((char *)sig, sig_len);
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BIO_free(b);
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RSA_free(rsa);
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free(sig);
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return signature;
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}
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int xs_rsa_verify(char *pubkey, char *mem, int size, char *b64sig)
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/* verifies a base64 block, returns non-zero on ok */
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{
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int r = 0;
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BIO *b;
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RSA *rsa;
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/* un-PEM the key */
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b = BIO_new_mem_buf(pubkey, strlen(pubkey));
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rsa = PEM_read_bio_RSA_PUBKEY(b, NULL, NULL, NULL);
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if (rsa != NULL) {
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xs *sig = NULL;
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int s_size;
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/* de-base64 */
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sig = xs_base64_dec(b64sig, &s_size);
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if (sig != NULL)
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r = RSA_verify(NID_sha256, (unsigned char *)mem, size,
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(unsigned char *)sig, s_size, rsa);
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}
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BIO_free(b);
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RSA_free(rsa);
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return r;
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}
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d_char *xs_evp_sign(char *secret, char *mem, int size)
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/* signs a memory block (secret is in PEM format) */
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{
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d_char *signature = NULL;
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BIO *b;
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unsigned char *sig;
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unsigned int sig_len;
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EVP_PKEY *pkey;
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EVP_MD_CTX *mdctx;
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const EVP_MD *md;
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/* un-PEM the key */
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b = BIO_new_mem_buf(secret, strlen(secret));
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pkey = PEM_read_bio_PrivateKey(b, NULL, NULL, NULL);
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/* I've learnt all these magical incantations by watching
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the Python module code and the OpenSSL manual pages */
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/* Well, "learnt" may be an overstatement */
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md = EVP_get_digestbyname("sha256");
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mdctx = EVP_MD_CTX_new();
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sig_len = EVP_PKEY_size(pkey);
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sig = malloc(sig_len);
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EVP_SignInit(mdctx, md);
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EVP_SignUpdate(mdctx, mem, size);
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if (EVP_SignFinal(mdctx, sig, &sig_len, pkey) == 1)
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signature = xs_base64_enc((char *)sig, sig_len);
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EVP_MD_CTX_free(mdctx);
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EVP_PKEY_free(pkey);
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BIO_free(b);
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free(sig);
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return signature;
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}
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int xs_evp_verify(char *pubkey, char *mem, int size, char *b64sig)
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/* verifies a base64 block, returns non-zero on ok */
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{
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int r = 0;
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BIO *b;
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EVP_PKEY *pkey;
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EVP_MD_CTX *mdctx;
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const EVP_MD *md;
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/* un-PEM the key */
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b = BIO_new_mem_buf(pubkey, strlen(pubkey));
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pkey = PEM_read_bio_PUBKEY(b, NULL, NULL, NULL);
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md = EVP_get_digestbyname("sha256");
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mdctx = EVP_MD_CTX_new();
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if (pkey != NULL) {
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xs *sig = NULL;
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int s_size;
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/* de-base64 */
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sig = xs_base64_dec(b64sig, &s_size);
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if (sig != NULL) {
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EVP_VerifyInit(mdctx, md);
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EVP_VerifyUpdate(mdctx, mem, size);
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r = EVP_VerifyFinal(mdctx, (unsigned char *)sig, s_size, pkey);
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}
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}
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EVP_MD_CTX_free(mdctx);
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EVP_PKEY_free(pkey);
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BIO_free(b);
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return r;
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}
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#endif /* XS_IMPLEMENTATION */
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#endif /* _XS_OPENSSL_H */
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