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@ -48,6 +48,10 @@
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#include <sxt/ciphers.h>
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#include <sxt/ciphers.h>
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#include <sxt/base64.h>
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#include <sxt/base64.h>
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#if 0
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#define blub(a) printf("%s:%d -> %d\n", __FUNCTION__, __LINE__, (a))
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#endif
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/* locals */
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/* locals */
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static int sxtkey_export_priv_ed25519(const sxtkey_t *key, const char *pass, sxtsafebuffer_t **bin);
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static int sxtkey_export_priv_ed25519(const sxtkey_t *key, const char *pass, sxtsafebuffer_t **bin);
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static int sxt_public_ed25519_2sb(const sxtkey_t *key, sxtsafebuffer_t **buf);
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static int sxt_public_ed25519_2sb(const sxtkey_t *key, sxtsafebuffer_t **buf);
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@ -103,6 +107,7 @@ sxtkey_t *sxtkey_alloc(void)
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sxtkey_t *key = malloc(sizeof(sxtkey_t));
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sxtkey_t *key = malloc(sizeof(sxtkey_t));
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if(!key) return NULL;
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if(!key) return NULL;
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else memset(key, 0, sizeof(sxtkey_t));
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return key;
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return key;
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}
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}
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@ -183,10 +188,10 @@ int sxtkey_assign_hash(sxtkey_t *key, uint64_t hash)
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{
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{
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if(!key) return SXT_EINVAL;
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if(!key) return SXT_EINVAL;
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if(!sxtkey_private(key)) return SXT_EINVAL;
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// if(!sxtkey_private(key)) return SXT_EINVAL;
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if(key->hash) return SXT_EKEY;
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//if(key->hash) return SXT_EKEY;
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else key->hash = hash;
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key->hash = hash;
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return SXT_SUCCESS;
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return SXT_SUCCESS;
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}
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}
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@ -332,7 +337,7 @@ int sxtkey_import_priv_file(const char *file, const char *passkey,
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char *rawfbuf = NULL, *tbuf, *tebuf, *tuple = NULL, *b64pk = NULL;
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char *rawfbuf = NULL, *tbuf, *tebuf, *tuple = NULL, *b64pk = NULL;
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struct stat stbuf;
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struct stat stbuf;
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uint8_t keytype = 0;
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uint8_t keytype = 0;
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int r = SXT_SUCCESS, tc = 0, tcc = 0, len;
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int r = SXT_SUCCESS, tcc = 0, len;
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*ik = NULL;
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*ik = NULL;
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@ -345,9 +350,9 @@ int sxtkey_import_priv_file(const char *file, const char *passkey,
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if((stream = fopen(file, "r")) == NULL) return SXT_EIO;
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if((stream = fopen(file, "r")) == NULL) return SXT_EIO;
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if(!(rawfbuf = malloc(stbuf.st_size + sizeof(char)))) goto __failed;
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if(!(rawfbuf = malloc(stbuf.st_size + sizeof(char)))) goto __failed;
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else rawfbuf[stbuf.st_size + sizeof(char)] = '\0';
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else rawfbuf[stbuf.st_size] = '\0';
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if(fread(rawfbuf, stbuf.st_size + sizeof(char), 1, stream) != 1) {
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if(fread(rawfbuf, stbuf.st_size, 1, stream) != 1) {
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r = SXT_EIO;
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r = SXT_EIO;
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goto __failed;
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goto __failed;
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}
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}
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@ -357,7 +362,7 @@ int sxtkey_import_priv_file(const char *file, const char *passkey,
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if(r != SXT_SUCCESS) goto __failed;
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if(r != SXT_SUCCESS) goto __failed;
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/* now we need to get a keytype and decode b64blob */
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/* now we need to get a keytype and decode b64blob */
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for(tbuf = rawfbuf, tc = 0, tcc = 0, tebuf = NULL; *tbuf != '\0'; tbuf++) {
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for(tbuf = rawfbuf, tcc = 0, tebuf = NULL; *tbuf != '\0'; tbuf++) {
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switch(tcc) {
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switch(tcc) {
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case 0: /* just entering */
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case 0: /* just entering */
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if(*tbuf == '(') tcc++;
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if(*tbuf == '(') tcc++;
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@ -365,7 +370,6 @@ int sxtkey_import_priv_file(const char *file, const char *passkey,
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case 1: /* first e.g. key type plain text description */
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case 1: /* first e.g. key type plain text description */
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if(!tebuf) tebuf = tbuf;
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if(!tebuf) tebuf = tbuf;
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else if(tebuf && *tbuf == ' ') {
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else if(tebuf && *tbuf == ' ') {
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if(!tebuf) goto __failed;
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len = (tbuf - tebuf) + sizeof(char);
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len = (tbuf - tebuf) + sizeof(char);
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if(!(tuple = malloc(len))) {
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if(!(tuple = malloc(len))) {
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r = SXT_ENOMEM;
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r = SXT_ENOMEM;
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@ -388,14 +392,13 @@ int sxtkey_import_priv_file(const char *file, const char *passkey,
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break;
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break;
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case 2: /* private key contents */
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case 2: /* private key contents */
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if(!tebuf && *tbuf != ' ') tebuf = tbuf;
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if(!tebuf && *tbuf != ' ') tebuf = tbuf;
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else if(tebuf && *tbuf == ' ') {
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else if(tebuf && *tbuf == '"') {
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len = (tbuf - tebuf) + sizeof(char);
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/* check format */
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if(*tebuf != '"') tc = SXT_EKEYFMT;
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if(!tc && tebuf[len - 2] != '"') tc = SXT_EKEYFMT;
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len -= 2;
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if(tc || len <= 0) { r = tc; goto __failed; }
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tebuf++;
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tebuf++;
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len = (tbuf - tebuf) + sizeof(char);
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if(len <= 1) {
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r = SXT_EKEYFMT;
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goto __failed;
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}
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if(!(tuple = malloc(len))) { r = SXT_ENOMEM; goto __failed; }
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if(!(tuple = malloc(len))) { r = SXT_ENOMEM; goto __failed; }
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else memset(tuple, 0, len);
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else memset(tuple, 0, len);
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@ -418,7 +421,8 @@ int sxtkey_import_priv_file(const char *file, const char *passkey,
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}
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}
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if(tcc < 3) {
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if(tcc < 3) {
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r = SXT_EKEYFMT; goto __failed;
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r = SXT_EKEYFMT;
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goto __failed;
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}
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}
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r = sxtkey_privkey_import_fbase64blob(b64pk, keytype, ask_passkey, priv, ik);
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r = sxtkey_privkey_import_fbase64blob(b64pk, keytype, ask_passkey, priv, ik);
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@ -443,15 +447,15 @@ int sxtkey_privkey_import_rdbuf(sxtrdb_t *buf, uint8_t keytype,
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sxtkey_t *key = NULL;
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sxtkey_t *key = NULL;
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char *keyname = NULL, *ciphername = NULL, *kdfname = NULL, *magic = NULL;
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char *keyname = NULL, *ciphername = NULL, *kdfname = NULL, *magic = NULL;
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uint64_t hash = 0;
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uint64_t hash = 0;
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uint32_t r1 = 0, r2 = 0;
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uint32_t r1 = 0, r2 = 0, ctrl_pklen = 0;
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int r = SXT_SUCCESS, decrypt = 0;
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int r = SXT_SUCCESS, decrypt = 0;
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if(!buf) return SXT_EINVAL;
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if(!buf) return SXT_EINVAL;
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if(!sxtrdb_length(buf)) return SXT_EINVAL;
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if(!sxtrdb_length(buf)) return SXT_EINVAL;
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if(keytype == 0) return SXT_EKEY;
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if(keytype == 0) return SXT_EKEY;
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r = sxtrdb_escan(buf, "sbsssRRR", &magic, &flags, &keyname, &ciphername, &kdfname,
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r = sxtrdb_escan(buf, "sbsssRdRR", &magic, &flags, &keyname, &ciphername, &kdfname,
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&kdfopt, &ctrl_pubkey, &privkey);
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&kdfopt, &ctrl_pklen, &ctrl_pubkey, &privkey);
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if(r != SXT_SUCCESS) goto __failed;
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if(r != SXT_SUCCESS) goto __failed;
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if(strcmp(PPKP_MAGIC, magic)) { /* magic should be right */
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if(strcmp(PPKP_MAGIC, magic)) { /* magic should be right */
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@ -471,6 +475,11 @@ int sxtkey_privkey_import_rdbuf(sxtrdb_t *buf, uint8_t keytype,
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switch(keytype) {
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switch(keytype) {
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case PPKP_ED25519:
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case PPKP_ED25519:
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/* check public key length first */
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if(ctrl_pklen != ED25519_PK_LEN + sizeof(uint32_t)) {
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r = SXT_EKEY;
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goto __failed;
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}
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/* check for encryption details */
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/* check for encryption details */
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if(decrypt) {
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if(decrypt) {
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if(strcmp(ciphername, "aes128-cbc") || strcmp(kdfname, "bcrypt")) {
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if(strcmp(ciphername, "aes128-cbc") || strcmp(kdfname, "bcrypt")) {
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@ -507,8 +516,9 @@ int sxtkey_privkey_import_rdbuf(sxtrdb_t *buf, uint8_t keytype,
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}
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}
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/* control check for random numbers */
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/* control check for random numbers */
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if(r1 != r2) goto __invalid;
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if(r1 != r2) goto __invalid;
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/* control check of public keys */
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/* control check of public keys */
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if(sxtrdb_cmp(ctrl_pubkey, ed25519_privbuf)) {
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if(sxtrdb_cmp(ctrl_pubkey, ed25519_pubbuf)) {
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__invalid:
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__invalid:
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sxtrdb_free(ed25519_pubbuf);
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sxtrdb_free(ed25519_pubbuf);
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sxtrdb_free(ed25519_privbuf);
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sxtrdb_free(ed25519_privbuf);
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@ -619,6 +629,7 @@ int sxtkey_pubkey_import_fbase64blob(const char *b64b, uint8_t keytype,
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sxtrdb_t *keybuf = NULL;
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sxtrdb_t *keybuf = NULL;
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char *blob = NULL, *ed25519pk = NULL;
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char *blob = NULL, *ed25519pk = NULL;
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uint64_t hash;
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uint64_t hash;
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uint32_t klen = 0;
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int len, r = SXT_SUCCESS;
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int len, r = SXT_SUCCESS;
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if(!b64b) return SXT_EINVAL;
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if(!b64b) return SXT_EINVAL;
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@ -643,7 +654,13 @@ int sxtkey_pubkey_import_fbase64blob(const char *b64b, uint8_t keytype,
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}
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}
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/* <pubkey><hash> */
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/* <pubkey><hash> */
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sxtrdb_write_raw(keybuf, blob, len);
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sxtrdb_write_raw(keybuf, blob, len);
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sxtrdb_escan(keybuf, "pq", ED25519_PK_LEN, ed25519pk, &hash);
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sxtrdb_resetcur(keybuf);
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sxtrdb_escan(keybuf, "dpq", &klen, ED25519_PK_LEN, ed25519pk, &hash);
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if(klen != ED25519_PK_LEN) {
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r = SXT_EKEY;
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goto __failed;
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}
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if(hash != ctrl_hash) {
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if(hash != ctrl_hash) {
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r = SXT_EKEY;
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r = SXT_EKEY;
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@ -699,9 +716,9 @@ int sxtkey_import_public_file(const char *file, sxtkey_t **ik)
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if((stream = fopen(file, "r")) == NULL) return SXT_EIO;
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if((stream = fopen(file, "r")) == NULL) return SXT_EIO;
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if(!(rawfbuf = malloc(stbuf.st_size + sizeof(char)))) goto __failed;
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if(!(rawfbuf = malloc(stbuf.st_size + sizeof(char)))) goto __failed;
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else rawfbuf[stbuf.st_size + sizeof(char)] = '\0';
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else rawfbuf[stbuf.st_size] = '\0';
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if(fread(rawfbuf, stbuf.st_size + sizeof(char), 1, stream) != 1) {
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if(fread(rawfbuf, stbuf.st_size, 1, stream) != 1) {
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r = SXT_EIO;
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r = SXT_EIO;
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goto __failed;
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goto __failed;
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}
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}
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@ -807,7 +824,7 @@ int sxtkey_import_public_file(const char *file, sxtkey_t **ik)
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free(tuple);
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free(tuple);
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r = SXT_ENOMEM; goto __failed;
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r = SXT_ENOMEM; goto __failed;
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} else memset(tebuf, 0, len);
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} else memset(tebuf, 0, len);
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len = sxt_b64decode_in(tuple, len, tebuf, len);
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len = sxt_b64decode_in(tuple, strlen(tuple), tebuf, len);
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free(tuple);
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free(tuple);
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if(!(chbuf = sxtrdb_new())) {
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if(!(chbuf = sxtrdb_new())) {
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@ -815,6 +832,7 @@ int sxtkey_import_public_file(const char *file, sxtkey_t **ik)
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r = SXT_ENOMEM; goto __failed;
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r = SXT_ENOMEM; goto __failed;
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}
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}
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sxtrdb_write_raw(chbuf, tebuf, len);
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sxtrdb_write_raw(chbuf, tebuf, len);
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sxtrdb_resetcur(chbuf);
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sxtrdb_read_u64(chbuf, &ctrl_hash);
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sxtrdb_read_u64(chbuf, &ctrl_hash);
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sxtrdb_free(chbuf);
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sxtrdb_free(chbuf);
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free(tebuf);
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free(tebuf);
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