mirror of
https://github.com/servalproject/serval-dna.git
synced 2024-12-19 05:07:56 +00:00
1eb4c34015
(also some temporary debugging has been added in some places)
175 lines
6.2 KiB
C
175 lines
6.2 KiB
C
/*
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Serval Distributed Numbering Architecture (DNA)
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Copyright (C) 2010 Paul Gardner-Stephen
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include "serval.h"
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#include "rhizome.h"
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#include <stdlib.h>
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int rhizome_manifest_createid(rhizome_manifest *m)
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{
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m->haveSecret=1;
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int r=crypto_sign_edwards25519sha512batch_keypair(m->cryptoSignPublic,m->cryptoSignSecret);
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if (!r) return rhizome_store_keypair_bytes(m->cryptoSignPublic,m->cryptoSignSecret);
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return WHY("Failed to create keypair for manifest ID.");
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}
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int rhizome_store_keypair_bytes(unsigned char *p,unsigned char *s) {
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/* XXX TODO Secrets should be encrypted using a keyring password. */
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if (sqlite_exec_int64("INSERT INTO KEYPAIRS(public,private) VALUES('%s','%s');",
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rhizome_bytes_to_hex(p,crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES),
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rhizome_bytes_to_hex(s,crypto_sign_edwards25519sha512batch_SECRETKEYBYTES))<0)
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return WHY("Failed to store key pair.");
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return 0;
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}
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int rhizome_find_keypair_bytes(unsigned char *p,unsigned char *s) {
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sqlite3_stmt *statement;
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char sql[1024];
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const char *cmdtail;
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snprintf(sql,1024,"SELECT private from KEYPAIRS WHERE public='%s';",
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rhizome_bytes_to_hex(p,crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES));
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if (sqlite3_prepare_v2(rhizome_db,sql,strlen(sql)+1,&statement,&cmdtail)
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!= SQLITE_OK) {
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sqlite3_finalize(statement);
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return WHY(sqlite3_errmsg(rhizome_db));
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}
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if ( sqlite3_step(statement) == SQLITE_ROW ) {
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if (sqlite3_column_type(statement,0)==SQLITE_TEXT) {
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const unsigned char *hex=sqlite3_column_text(statement,0);
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rhizome_hex_to_bytes((char *)hex,s,
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crypto_sign_edwards25519sha512batch_SECRETKEYBYTES*2);
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/* XXX TODO Decrypt secret using a keyring password */
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sqlite3_finalize(statement);
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return 0;
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}
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}
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sqlite3_finalize(statement);
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return WHY("Could not find matching secret key.");
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}
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rhizome_signature *rhizome_sign_hash(unsigned char *hash,unsigned char *publicKeyBytes)
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{
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unsigned char secretKeyBytes[crypto_sign_edwards25519sha512batch_SECRETKEYBYTES];
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if (rhizome_find_keypair_bytes(publicKeyBytes,secretKeyBytes))
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{
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WHY("Cannot find secret key to sign manifest data.");
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return NULL;
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}
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/* Signature is formed by running crypto_sign_edwards25519sha512batch() on the
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hash of the manifest. The signature actually contains the hash, so to save
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space we cut the hash out of the signature. */
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unsigned char signatureBuffer[crypto_sign_edwards25519sha512batch_BYTES+crypto_hash_sha512_BYTES];
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unsigned long long sigLen=0;
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int mLen=crypto_hash_sha512_BYTES;
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int r=crypto_sign_edwards25519sha512batch(signatureBuffer,&sigLen,
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&hash[0],mLen,secretKeyBytes);
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if (r) {
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WHY("crypto_sign() failed.");
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return NULL;
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}
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rhizome_signature *out=calloc(sizeof(rhizome_signature),1);
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/* Here we use knowledge of the internal structure of the signature block
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to remove the hash, since that is implicitly transported, thus reducing the
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actual signature size down to 64 bytes.
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We do then need to add the public key of the signatory on. */
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bcopy(&signatureBuffer[0],&out->signature[1],32);
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bcopy(&signatureBuffer[96],&out->signature[33],32);
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bcopy(&publicKeyBytes[0],&out->signature[65],crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES);
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out->signatureLength=65+crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES;
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out->signature[0]=out->signatureLength;
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return out;
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}
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int rhizome_manifest_extract_signature(rhizome_manifest *m,int *ofs)
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{
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unsigned char sigBuf[256];
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unsigned char verifyBuf[256];
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unsigned char publicKey[256];
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if (!m) return WHY("NULL pointer passed in as manifest");
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if ((*ofs)>=m->manifest_bytes) return 0;
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int len=m->manifestdata[*ofs];
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if (!len) {
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(*ofs)=m->manifest_bytes;
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m->errors++;
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return WHY("Zero byte signature blocks are not allowed, assuming signature section corrupt.");
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}
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/* Each signature type is required to have a different length to detect it.
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At present only crypto_sign_edwards25519sha512batch() signatures are
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supported. */
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if (m->sig_count<MAX_MANIFEST_VARS)
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switch(len)
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{
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case 0x61: /* crypto_sign_edwards25519sha512batch() */
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/* Reconstitute signature block */
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bcopy(&m->manifestdata[(*ofs)+1],&sigBuf[0],32);
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bcopy(&m->manifesthash[0],&sigBuf[32],crypto_hash_sha512_BYTES);
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bcopy(&m->manifestdata[(*ofs)+1+32],&sigBuf[96],32);
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/* Get public key of signatory */
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bcopy(&m->manifestdata[(*ofs)+1+64],&publicKey[0],crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES);
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unsigned long long mlen=0;
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int r=crypto_sign_edwards25519sha512batch_open(verifyBuf,&mlen,&sigBuf[0],128,
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publicKey);
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fflush(stdout); fflush(stderr);
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if (r) {
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(*ofs)+=len;
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m->errors++;
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return WHY("Error in signature block (verification failed).");
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} else {
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/* Signature block passes, so add to list of signatures */
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m->signatureTypes[m->sig_count]=len;
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m->signatories[m->sig_count]
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=malloc(crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES);
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if(!m->signatories[m->sig_count]) {
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(*ofs)+=len;
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return WHY("malloc() failed when reading signature block");
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}
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bcopy(&publicKey[0],m->signatories[m->sig_count],
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crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES);
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m->sig_count++;
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if (debug&DEBUG_RHIZOME) WHY("Signature passed.");
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}
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break;
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default:
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(*ofs)+=len;
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m->errors++;
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return WHY("Encountered illegal or malformed signature block");
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}
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else
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{
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(*ofs)+=len;
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WHY("Too many signature blocks in manifest.");
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m->errors++;
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}
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(*ofs)+=len;
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return 0;
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}
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