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https://github.com/servalproject/serval-dna.git
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866ddea189
- new test cases to cover new payload with different versions - exit status of 2 when duplicate is detected - tighten up other test cases - fix bug in sqlite_exec_int64()
320 lines
12 KiB
C
320 lines
12 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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/* Import a bundle from the inbox folder. The bundle is contained a pair of files, one containing
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the manifest and the optional other containing the payload.
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The logic is all in rhizome_add_manifest(). This function just wraps that function and manages
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file and object buffers and lifetimes.
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*/
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int rhizome_bundle_import(rhizome_manifest *m_in, rhizome_manifest **m_out, char *bundle,
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char *groups[], int ttl,
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int verifyP, int checkFileP, int signP)
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{
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if (m_out) *m_out = NULL;
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char filename[1024];
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char manifestname[1024];
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if (snprintf(filename, sizeof(filename), "%s/import/file.%s", rhizome_datastore_path, bundle) >= sizeof(filename)
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|| snprintf(manifestname, sizeof(manifestname), "%s/import/manifest.%s", rhizome_datastore_path, bundle) >= sizeof(manifestname)) {
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return WHY("Manifest bundle name too long");
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}
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/* Read manifest file if no manifest was given */
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rhizome_manifest *m = m_in;
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if (!m_in) {
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m = rhizome_read_manifest_file(manifestname, 0 /* file not buffer */, RHIZOME_VERIFY);
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if (!m)
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return WHY("Could not read manifest file.");
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} else {
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if (debug&DEBUG_RHIZOMESYNC)
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fprintf(stderr,"Importing direct from manifest structure hashP=%d\n",m->fileHashedP);
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}
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/* Add the manifest and its associated file to the Rhizome database. */
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rhizome_manifest *dupm;
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int ret = rhizome_add_manifest(m, &dupm, filename, groups, ttl, verifyP, checkFileP, signP);
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unlink(filename);
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if (ret == -1) {
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unlink(manifestname);
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} else {
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/* >>> For testing, write manifest file back to disk and leave it there */
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// unlink(manifestname);
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if (rhizome_write_manifest_file(m, manifestname))
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ret = WHY("Could not write manifest file.");
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}
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/* If the manifest structure was allocated in this function, and it is not being returned to the
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caller, then this function is responsible for freeing it */
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if (m_out)
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*m_out = m;
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else if (!m_in)
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rhizome_manifest_free(m);
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return ret;
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}
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/* Add a manifest/payload pair ("bundle") to the rhizome data store.
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Returns:
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0 if successful
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2 if a duplicate is already in the store (same name, version and filehash)
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-1 on error or failure
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Fills in any missing manifest fields (generating a new, random manifest ID if necessary),
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optionally performs consistency checks (see below), adds the manifest to the given groups (for
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which private keys must be held), optionally signs it, and inserts the manifest and payload into
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the rhizome store unless the store already contains a manifest with the same ID and a higher
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version number or an identical manifest (in which case the stored version number is bumped to the
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maximum of the two).
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This function is called in three different situations:
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(a) when the user injects a file (with or without a complete manifest) into rhizome,
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(b) when a manifest is received via the mesh and the file is already present in the rhizome store,
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(c) when a file is received via the mesh for a manifest that was received previously.
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The following arguments distinguish these situations:
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ttl
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- In case (a) ttl will be typically set to the initial (maximum?) TTL for a manifest. In
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cases (b) and (c) ttl will be the TTL of the received manifest decremented by one. This
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function clamps the supplied value into the legal range 0..255, so callers need not perform
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range checking after decrement.
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verifyP
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- If set, then checks that no signature verifications failed when the manifest was loaded.
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(If checkFileP is given, then also checks that the payload and manifest are consistent.)
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This is used in case (a) if the user provided a manifest file, and always for cases (b) and
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(c). It ensures the integrity of the received/provided manifest, and ensures that the
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received/provided payload is actually the one that the manifest belongs to. If verifyP is
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false, then the new manifest will be overwritten with the correct values for the payload.
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checkFileP
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- If set then checks that the payload file is readable, and will cause verifyP to also check
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that the payload matches the values in the manifest, specifically length and content hash.
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This is always used in cases (a) and (c), but not in case (b) because in that case, the
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file's contents with the given file hash are known to be already in the database.
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signP
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- If set, then signs the manifest after all its fields have been filled in. Only used in case
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(a), because in cases (b) and (c) the manifest has already been signed, since it is already
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on the air.
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A bundle can either be an ordinary manifest-payload pair, or a group description.
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- Group descriptions are manifests with no payload that have the "isagroup" variable set. They
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get stored in the manifests table AND a reference is added to the grouplist table. Any
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manifest, including any group manifest, may be a member of zero or one group. This allows a
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nested, i.e., multi-level group hierarchy where sub-groups will only typically be discovered
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by joining the parent group.
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*/
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int rhizome_add_manifest(rhizome_manifest *m_in,
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rhizome_manifest **m_out,
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const char *filename,
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char *groups[],
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int ttl,
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int verifyP, // verify that file's hash is consistent with manifest
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int checkFileP,
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int signP
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)
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{
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if (m_out) *m_out = NULL;
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/* Ensure manifest meets basic sanity checks. */
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const char *name = rhizome_manifest_get(m_in, "name", NULL, 0);
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if (name == NULL || !name[0])
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return WHY("Manifest missing 'name' field");
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if (rhizome_manifest_get_ll(m_in, "date") == -1)
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return WHY("Manifest missing 'date' field");
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/* Keep payload file name handy for later */
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m_in->dataFileName = strdup(filename);
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/* Store time to live, clamped to within legal range */
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m_in->ttl = ttl < 0 ? 0 : ttl > 254 ? 254 : ttl;
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/* Check payload file is accessible and discover its length, then check that it matches
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the file size stored in the manifest */
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if (checkFileP) {
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struct stat stat;
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if (lstat(filename,&stat))
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return WHY("Could not stat() payload file");
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m_in->fileLength = stat.st_size;
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long long mfilesize = rhizome_manifest_get_ll(m_in, "filesize");
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if (mfilesize != -1 && mfilesize != m_in->fileLength) {
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WHYF("Manifest.filesize (%lld) != actual file size (%lld)", mfilesize, m_in->fileLength);
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if (verifyP)
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return -1;
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}
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}
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/* Bail out now if errors occurred loading the manifest file, eg signature failed to validate */
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if (verifyP && m_in->errors)
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return WHYF("Manifest.errors (%d) is non-zero", m_in->errors);
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/* Compute hash of payload unless we know verification has already failed */
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if (checkFileP || signP) {
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char hexhash[SHA512_DIGEST_STRING_LENGTH];
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if (rhizome_hash_file(filename, hexhash))
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return WHY("Could not hash file.");
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memcpy(&m_in->fileHexHash[0], &hexhash[0], SHA512_DIGEST_STRING_LENGTH);
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m_in->fileHashedP = 1;
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}
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/* Check that payload hash matches manifest */
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if (checkFileP) {
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const char *mhexhash = rhizome_manifest_get(m_in, "filehash", NULL, 0);
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if (mhexhash && strcmp(m_in->fileHexHash, mhexhash)) {
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WHYF("Manifest.filehash (%s) does not match payload hash (%s)", mhexhash, m_in->fileHexHash);
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if (verifyP)
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return -1;
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}
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}
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/* Fill in the manifest so that duplicate detection can be performed, and to avoid redundant work
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by rhizome_manifest_finalise() below. */
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if (checkFileP) {
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rhizome_manifest_set(m_in, "filehash", m_in->fileHexHash);
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rhizome_manifest_set_ll(m_in, "first_byte", 0);
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rhizome_manifest_set_ll(m_in, "last_byte", m_in->fileLength);
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}
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/* Make sure the manifest structure contains the version number, which may legitimately be -1 if
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the caller did not provide a version. */
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m_in->version = rhizome_manifest_get_ll(m_in, "version");
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/* Check if a manifest is already stored for the same payload with the same details.
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This catches the case of "dna rhizome add file <filename>" on the same file more than once.
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(Debounce!) */
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rhizome_manifest *dupm = NULL;
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if (rhizome_find_duplicate(m_in, &dupm) == -1)
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return WHY("Errors encountered searching for duplicate manifest");
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if (dupm) {
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if (debug & DEBUG_RHIZOME)
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fprintf(stderr, "Found duplicate payload: name=\"%s\" version=%llu hexhash=%s -- not adding\n", name, dupm->version, dupm->fileHexHash);
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/* If the caller wants the duplicate manifest, it must be finalised, otherwise discarded. */
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if (m_out) {
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if (rhizome_manifest_finalise(dupm, 0))
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return WHY("Failed to finalise manifest.\n");
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*m_out = dupm;
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}
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else
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rhizome_manifest_free(dupm);
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return 2;
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}
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/* Supply manifest version number if missing, so we can do the version check below */
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if (m_in->version == -1) {
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m_in->version = overlay_gettime_ms();
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rhizome_manifest_set_ll(m_in, "version", m_in->version);
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}
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/* If the manifest already has an ID */
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char *id = NULL;
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if ((id = rhizome_manifest_get(m_in, "id", NULL, 0))) {
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/* Discard the new manifest unless it is newer than the most recent known version with the same ID */
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long long storedversion = sqlite_exec_int64("SELECT version from manifests where id='%s';", id);
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if (debug & DEBUG_RHIZOME)
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fprintf(stderr, "Found existing version=%lld, new version=%lld\n", storedversion, m_in->version);
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if (m_in->version < storedversion) {
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return WHY("Newer version exists");
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}
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if (m_in->version == storedversion) {
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return WHY("Same version exists");
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}
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/* Check if we know its private key */
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rhizome_hex_to_bytes(id, m_in->cryptoSignPublic, crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES*2);
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if (!rhizome_find_keypair_bytes(m_in->cryptoSignPublic, m_in->cryptoSignSecret))
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m_in->haveSecret=1;
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} else {
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/* The manifest had no ID (256 bit random string being a public key in the NaCl CryptoSign
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crypto system), so create one. */
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printf("manifest does not have an id\n");
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rhizome_manifest_createid(m_in);
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/* The ID is implicit in transit, but we need to store it in the file, so that reimporting
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manifests on receiver nodes works easily. We might implement something that strips the id
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variable out of the manifest when sending it, or some other scheme to avoid sending all the
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extra bytes. */
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id = rhizome_bytes_to_hex(m_in->cryptoSignPublic, crypto_sign_edwards25519sha512batch_PUBLICKEYBYTES);
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rhizome_manifest_set(m_in, "id", id);
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}
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/* Add group memberships */
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if (groups) {
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int i;
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for(i = 0; groups[i]; i++)
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rhizome_manifest_add_group(m_in, groups[i]);
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}
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/* Finish completing the manifest */
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if (rhizome_manifest_finalise(m_in, signP))
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return WHY("Failed to finalise manifest.\n");
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/* Okay, it is written, and can be put directly into the rhizome database now */
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if (rhizome_store_bundle(m_in, filename) == -1)
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return WHY("rhizome_store_bundle() failed.");
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if (m_out) *m_out = m_in;
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return 0;
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}
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/* Update an existing Rhizome bundle */
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int rhizome_bundle_push_update(char *id,long long version,unsigned char *data,int appendP)
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{
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return WHY("Not implemented");
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}
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char nybltochar(int nybl)
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{
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if (nybl<0) return '?';
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if (nybl>15) return '?';
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if (nybl<10) return '0'+nybl;
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return 'A'+nybl-10;
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}
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int chartonybl(int c)
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{
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if (c>='A'&&c<='F') return 0x0a+(c-'A');
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if (c>='a'&&c<='f') return 0x0a+(c-'a');
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if (c>='0'&&c<='9') return 0x00+(c-'0');
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return 0;
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}
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int rhizome_hex_to_bytes(char *in,unsigned char *out,int hexChars)
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{
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int i;
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for(i=0;i<hexChars;i++)
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{
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int byte=i>>1;
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int nybl=chartonybl(in[i]);
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out[byte]=out[byte]<<4;
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out[byte]|=nybl;
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}
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return 0;
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}
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