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|
/*
This file is part of GNUnet
Copyright (C) 2003-2013 GNUnet e.V.
GNUnet is free software: you can redistribute it and/or modify it
under the terms of the GNU Affero General Public License as published
by the Free Software Foundation, either version 3 of the License,
or (at your option) any later version.
GNUnet is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file fs/fs_namespace.c
* @brief publishing to namespaces, and tracking updateable entries
* for our namespaces
* @author Christian Grothoff
*/
#include "platform.h"
#include "gnunet_constants.h"
#include "gnunet_signatures.h"
#include "gnunet_util_lib.h"
#include "gnunet_fs_service.h"
#include "fs_api.h"
#include "fs_publish_ublock.h"
/**
* Information about an (updateable) node in the
* namespace.
*/
struct NamespaceUpdateNode
{
/**
* Identifier for this node.
*/
char *id;
/**
* Identifier of children of this node.
*/
char *update;
/**
* Metadata for this entry.
*/
struct GNUNET_CONTAINER_MetaData *md;
/**
* URI of this entry in the namespace.
*/
struct GNUNET_FS_Uri *uri;
/**
* Namespace update generation ID. Used to ensure
* freshness of the tree_id.
*/
unsigned int nug;
/**
* TREE this entry belongs to (if nug is current).
*/
unsigned int tree_id;
};
/**
* Handle to update information for a namespace.
*/
struct GNUNET_FS_UpdateInformationGraph
{
/**
* Handle to the FS service context.
*/
struct GNUNET_FS_Handle *h;
/**
* Array with information about nodes in the namespace.
*/
struct NamespaceUpdateNode **update_nodes;
/**
* Private key for the namespace.
*/
struct GNUNET_CRYPTO_EcdsaPrivateKey ns;
/**
* Hash map mapping identifiers of update nodes
* to the update nodes (initialized on-demand).
*/
struct GNUNET_CONTAINER_MultiHashMap *update_map;
/**
* Size of the update nodes array.
*/
unsigned int update_node_count;
/**
* Reference counter.
*/
unsigned int rc;
/**
* Generator for unique nug numbers.
*/
unsigned int nug_gen;
};
/**
* Return the name of the directory in which we store
* the update information graph for the given local namespace.
*
* @param h file-sharing handle
* @param ns namespace handle
* @return NULL on error, otherwise the name of the directory
*/
static char *
get_update_information_directory (struct GNUNET_FS_Handle *h,
const struct GNUNET_CRYPTO_EcdsaPrivateKey *ns)
{
char *dn;
char *ret;
struct GNUNET_CRYPTO_EcdsaPublicKey pub;
struct GNUNET_HashCode hc;
struct GNUNET_CRYPTO_HashAsciiEncoded enc;
if (GNUNET_OK !=
GNUNET_CONFIGURATION_get_value_filename (h->cfg, "FS", "UPDATE_DIR",
&dn))
{
GNUNET_log_config_missing (GNUNET_ERROR_TYPE_ERROR,
"fs", "UPDATE_DIR");
return NULL;
}
GNUNET_CRYPTO_ecdsa_key_get_public (ns, &pub);
GNUNET_CRYPTO_hash (&pub, sizeof (pub), &hc);
GNUNET_CRYPTO_hash_to_enc (&hc,
&enc);
GNUNET_asprintf (&ret, "%s%s%s",
dn,
DIR_SEPARATOR_STR,
(const char *) enc.encoding);
GNUNET_free (dn);
return ret;
}
/**
* Release memory occupied by UIG datastructure.
*
* @param uig data structure to free
*/
static void
free_update_information_graph (struct GNUNET_FS_UpdateInformationGraph *uig)
{
unsigned int i;
struct NamespaceUpdateNode *nsn;
for (i = 0; i < uig->update_node_count; i++)
{
nsn = uig->update_nodes[i];
GNUNET_CONTAINER_meta_data_destroy (nsn->md);
GNUNET_FS_uri_destroy (nsn->uri);
GNUNET_free (nsn->id);
GNUNET_free (nsn->update);
GNUNET_free (nsn);
}
GNUNET_array_grow (uig->update_nodes, uig->update_node_count,
0);
if (NULL != uig->update_map)
GNUNET_CONTAINER_multihashmap_destroy (uig->update_map);
GNUNET_free (uig);
}
/**
* Write a namespace's update node graph to a file.
*
* @param uig update information graph to dump
*/
static void
write_update_information_graph (struct GNUNET_FS_UpdateInformationGraph *uig)
{
char *fn;
struct GNUNET_BIO_WriteHandle *wh;
unsigned int i;
struct NamespaceUpdateNode *n;
char *uris;
fn = get_update_information_directory (uig->h,
&uig->ns);
wh = GNUNET_BIO_write_open (fn);
if (NULL == wh)
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
_("Failed to open `%s' for writing: %s\n"),
fn,
STRERROR (errno));
GNUNET_free (fn);
return;
}
if (GNUNET_OK != GNUNET_BIO_write_int32 (wh, uig->update_node_count))
goto END;
for (i = 0; i < uig->update_node_count; i++)
{
n = uig->update_nodes[i];
uris = GNUNET_FS_uri_to_string (n->uri);
if ((GNUNET_OK != GNUNET_BIO_write_string (wh, n->id)) ||
(GNUNET_OK != GNUNET_BIO_write_meta_data (wh, n->md)) ||
(GNUNET_OK != GNUNET_BIO_write_string (wh, n->update)) ||
(GNUNET_OK != GNUNET_BIO_write_string (wh, uris)))
{
GNUNET_free (uris);
break;
}
GNUNET_free (uris);
}
END:
if (GNUNET_OK != GNUNET_BIO_write_close (wh))
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
_("Failed to write `%s': %s\n"),
fn,
STRERROR (errno));
GNUNET_free (fn);
}
/**
* Read the namespace update node graph from a file.
*
* @param h FS handle to use
* @param ns namespace to read
* @return update graph, never NULL
*/
static struct GNUNET_FS_UpdateInformationGraph *
read_update_information_graph (struct GNUNET_FS_Handle *h,
const struct GNUNET_CRYPTO_EcdsaPrivateKey *ns)
{
struct GNUNET_FS_UpdateInformationGraph *uig;
char *fn;
struct GNUNET_BIO_ReadHandle *rh;
unsigned int i;
struct NamespaceUpdateNode *n;
char *uris;
uint32_t count;
char *emsg;
uig = GNUNET_new (struct GNUNET_FS_UpdateInformationGraph);
uig->h = h;
uig->ns = *ns;
fn = get_update_information_directory (h, ns);
if (GNUNET_YES != GNUNET_DISK_file_test (fn))
{
GNUNET_free (fn);
return uig;
}
rh = GNUNET_BIO_read_open (fn);
if (NULL == rh)
{
GNUNET_free (fn);
return uig;
}
if (GNUNET_OK != GNUNET_BIO_read_int32 (rh, &count))
{
GNUNET_break (0);
goto END;
}
if (count > 1024 * 1024)
{
GNUNET_break (0);
goto END;
}
if (0 == count)
goto END;
uig->update_nodes =
GNUNET_malloc (count * sizeof (struct NamespaceUpdateNode *));
for (i = 0; i < count; i++)
{
n = GNUNET_new (struct NamespaceUpdateNode);
if ((GNUNET_OK != GNUNET_BIO_read_string (rh, "identifier", &n->id, 1024))
|| (GNUNET_OK != GNUNET_BIO_read_meta_data (rh, "meta", &n->md)) ||
(GNUNET_OK !=
GNUNET_BIO_read_string (rh, "update-id", &n->update, 1024)) ||
(GNUNET_OK != GNUNET_BIO_read_string (rh, "uri", &uris, 1024 * 2)))
{
GNUNET_break (0);
GNUNET_free_non_null (n->id);
GNUNET_free_non_null (n->update);
if (n->md != NULL)
GNUNET_CONTAINER_meta_data_destroy (n->md);
GNUNET_free (n);
break;
}
n->uri = GNUNET_FS_uri_parse (uris, &emsg);
GNUNET_free (uris);
if (n->uri == NULL)
{
GNUNET_break (0);
GNUNET_free (emsg);
GNUNET_free (n->id);
GNUNET_free_non_null (n->update);
GNUNET_CONTAINER_meta_data_destroy (n->md);
GNUNET_free (n);
break;
}
uig->update_nodes[i] = n;
}
uig->update_node_count = i;
END:
if (GNUNET_OK != GNUNET_BIO_read_close (rh, &emsg))
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR, _("Failed to read `%s': %s\n"),
fn, emsg);
GNUNET_free (emsg);
}
GNUNET_free (fn);
return uig;
}
/**
* Context for the SKS publication.
*/
struct GNUNET_FS_PublishSksContext
{
/**
* URI of the new entry in the namespace.
*/
struct GNUNET_FS_Uri *uri;
/**
* Namespace update node to add to namespace on success (or to be
* deleted if publishing failed).
*/
struct NamespaceUpdateNode *nsn;
/**
* Namespace we're publishing to.
*/
struct GNUNET_CRYPTO_EcdsaPrivateKey ns;
/**
* Handle to the datastore.
*/
struct GNUNET_DATASTORE_Handle *dsh;
/**
* Handle to FS.
*/
struct GNUNET_FS_Handle *h;
/**
* Function to call once we're done.
*/
GNUNET_FS_PublishContinuation cont;
/**
* Closure for cont.
*/
void *cont_cls;
/**
* Handle for our UBlock operation request.
*/
struct GNUNET_FS_PublishUblockContext *uc;
};
/**
* Function called by the UBlock construction with
* the result from the PUT (UBlock) request.
*
* @param cls closure of type "struct GNUNET_FS_PublishSksContext*"
* @param msg error message (or NULL)
*/
static void
sks_publish_cont (void *cls,
const char *msg)
{
struct GNUNET_FS_PublishSksContext *psc = cls;
struct GNUNET_FS_UpdateInformationGraph *uig;
psc->uc = NULL;
if (NULL != msg)
{
if (NULL != psc->cont)
psc->cont (psc->cont_cls, NULL, msg);
GNUNET_FS_publish_sks_cancel (psc);
return;
}
if (NULL != psc->nsn)
{
/* FIXME: this can be done much more
* efficiently by simply appending to the
* file and overwriting the 4-byte header */
uig = read_update_information_graph (psc->h,
&psc->ns);
GNUNET_array_append (uig->update_nodes,
uig->update_node_count,
psc->nsn);
psc->nsn = NULL;
write_update_information_graph (uig);
free_update_information_graph (uig);
}
if (NULL != psc->cont)
psc->cont (psc->cont_cls, psc->uri, NULL);
GNUNET_FS_publish_sks_cancel (psc);
}
/**
* Publish an SBlock on GNUnet.
*
* @param h handle to the file sharing subsystem
* @param ns namespace to publish in
* @param identifier identifier to use
* @param update update identifier to use
* @param meta metadata to use
* @param uri URI to refer to in the SBlock
* @param bo block options
* @param options publication options
* @param cont continuation
* @param cont_cls closure for cont
* @return NULL on error ('cont' will still be called)
*/
struct GNUNET_FS_PublishSksContext *
GNUNET_FS_publish_sks (struct GNUNET_FS_Handle *h,
const struct GNUNET_CRYPTO_EcdsaPrivateKey *ns,
const char *identifier, const char *update,
const struct GNUNET_CONTAINER_MetaData *meta,
const struct GNUNET_FS_Uri *uri,
const struct GNUNET_FS_BlockOptions *bo,
enum GNUNET_FS_PublishOptions options,
GNUNET_FS_PublishContinuation cont, void *cont_cls)
{
struct GNUNET_FS_PublishSksContext *psc;
struct GNUNET_FS_Uri *sks_uri;
sks_uri = GNUNET_new (struct GNUNET_FS_Uri);
sks_uri->type = GNUNET_FS_URI_SKS;
sks_uri->data.sks.identifier = GNUNET_strdup (identifier);
GNUNET_CRYPTO_ecdsa_key_get_public (ns,
&sks_uri->data.sks.ns);
psc = GNUNET_new (struct GNUNET_FS_PublishSksContext);
psc->h = h;
psc->uri = sks_uri;
psc->cont = cont;
psc->cont_cls = cont_cls;
psc->ns = *ns;
if (0 == (options & GNUNET_FS_PUBLISH_OPTION_SIMULATE_ONLY))
{
psc->dsh = GNUNET_DATASTORE_connect (h->cfg);
if (NULL == psc->dsh)
{
sks_publish_cont (psc,
_("Failed to connect to datastore."));
return NULL;
}
}
if (NULL != update)
{
psc->nsn = GNUNET_new (struct NamespaceUpdateNode);
psc->nsn->id = GNUNET_strdup (identifier);
psc->nsn->update = GNUNET_strdup (update);
psc->nsn->md = GNUNET_CONTAINER_meta_data_duplicate (meta);
psc->nsn->uri = GNUNET_FS_uri_dup (uri);
}
psc->uc = GNUNET_FS_publish_ublock_ (h,
psc->dsh,
identifier,
update,
ns,
meta,
uri,
bo,
options,
&sks_publish_cont,
psc);
return psc;
}
/**
* Abort the SKS publishing operation.
*
* @param psc context of the operation to abort.
*/
void
GNUNET_FS_publish_sks_cancel (struct GNUNET_FS_PublishSksContext *psc)
{
if (NULL != psc->uc)
{
GNUNET_FS_publish_ublock_cancel_ (psc->uc);
psc->uc = NULL;
}
if (NULL != psc->dsh)
{
GNUNET_DATASTORE_disconnect (psc->dsh, GNUNET_NO);
psc->dsh = NULL;
}
GNUNET_FS_uri_destroy (psc->uri);
if (NULL != psc->nsn)
{
GNUNET_CONTAINER_meta_data_destroy (psc->nsn->md);
GNUNET_FS_uri_destroy (psc->nsn->uri);
GNUNET_free (psc->nsn->id);
GNUNET_free (psc->nsn->update);
GNUNET_free (psc->nsn);
}
GNUNET_free (psc);
}
/**
* Closure for 'process_update_node'.
*/
struct ProcessUpdateClosure
{
/**
* Function to call for each node.
*/
GNUNET_FS_IdentifierProcessor ip;
/**
* Closure for 'ip'.
*/
void *ip_cls;
};
/**
* Call the iterator in the closure for each node.
*
* @param cls closure (of type 'struct ProcessUpdateClosure *')
* @param key current key code
* @param value value in the hash map (of type 'struct NamespaceUpdateNode *')
* @return GNUNET_YES if we should continue to
* iterate,
* GNUNET_NO if not.
*/
static int
process_update_node (void *cls,
const struct GNUNET_HashCode *key,
void *value)
{
struct ProcessUpdateClosure *pc = cls;
struct NamespaceUpdateNode *nsn = value;
pc->ip (pc->ip_cls,
nsn->id,
nsn->uri,
nsn->md,
nsn->update);
return GNUNET_YES;
}
/**
* Closure for 'find_trees'.
*/
struct FindTreeClosure
{
/**
* UIG we are operating on.
*/
struct GNUNET_FS_UpdateInformationGraph *uig;
/**
* Array with 'head's of TREEs.
*/
struct NamespaceUpdateNode **tree_array;
/**
* Size of 'tree_array'
*/
unsigned int tree_array_size;
/**
* Current generational ID used.
*/
unsigned int nug;
/**
* Identifier for the current TREE, or UINT_MAX for none yet.
*/
unsigned int id;
};
/**
* Find all nodes reachable from the current node (including the
* current node itself). If they are in no tree, add them to the
* current one. If they are the head of another tree, merge the
* trees. If they are in the middle of another tree, let them be.
* We can tell that a node is already in an tree by checking if
* its 'nug' field is set to the current 'nug' value. It is the
* head of an tree if it is in the 'tree_array' under its respective
* 'tree_id'.
*
* In short, we're trying to find the smallest number of tree to
* cover a directed graph.
*
* @param cls closure (of type 'struct FindTreeClosure')
* @param key current key code
* @param value value in the hash map
* @return GNUNET_YES if we should continue to
* iterate,
* GNUNET_NO if not.
*/
static int
find_trees (void *cls,
const struct GNUNET_HashCode *key,
void *value)
{
struct FindTreeClosure *fc = cls;
struct NamespaceUpdateNode *nsn = value;
struct GNUNET_HashCode hc;
if (nsn->nug == fc->nug)
{
if (UINT_MAX == nsn->tree_id)
return GNUNET_YES; /* circular */
GNUNET_assert (nsn->tree_id < fc->tree_array_size);
if (fc->tree_array[nsn->tree_id] != nsn)
return GNUNET_YES; /* part of "another" (directed) TREE,
* and not root of it, end trace */
if (nsn->tree_id == fc->id)
return GNUNET_YES; /* that's our own root (can this be?) */
/* merge existing TREE, we have a root for both */
fc->tree_array[nsn->tree_id] = NULL;
if (UINT_MAX == fc->id)
fc->id = nsn->tree_id; /* take over ID */
}
else
{
nsn->nug = fc->nug;
nsn->tree_id = UINT_MAX; /* mark as undef */
/* trace */
GNUNET_CRYPTO_hash (nsn->update, strlen (nsn->update), &hc);
GNUNET_CONTAINER_multihashmap_get_multiple (fc->uig->update_map, &hc,
&find_trees, fc);
}
return GNUNET_YES;
}
/**
* List all of the identifiers in the namespace for which we could
* produce an update. Namespace updates form a graph where each node
* has a name. Each node can have any number of URI/meta-data entries
* which can each be linked to other nodes. Cycles are possible.
*
* Calling this function with "next_id" NULL will cause the library to
* call "ip" with a root for each strongly connected component of the
* graph (a root being a node from which all other nodes in the Tree
* are reachable).
*
* Calling this function with "next_id" being the name of a node will
* cause the library to call "ip" with all children of the node. Note
* that cycles within the final tree are possible (including self-loops).
* I know, odd definition of a tree, but the GUI will display an actual
* tree (GtkTreeView), so that's what counts for the term here.
*
* @param h fs handle to use
* @param ns namespace to inspect for updateable content
* @param next_id ID to look for; use NULL to look for tree roots
* @param ip function to call on each updateable identifier
* @param ip_cls closure for ip
*/
void
GNUNET_FS_namespace_list_updateable (struct GNUNET_FS_Handle *h,
const struct GNUNET_CRYPTO_EcdsaPrivateKey *ns,
const char *next_id,
GNUNET_FS_IdentifierProcessor ip,
void *ip_cls)
{
unsigned int i;
unsigned int nug;
struct GNUNET_HashCode hc;
struct NamespaceUpdateNode *nsn;
struct ProcessUpdateClosure pc;
struct FindTreeClosure fc;
struct GNUNET_FS_UpdateInformationGraph *uig;
uig = read_update_information_graph (h, ns);
if (NULL == uig->update_nodes)
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"No updateable nodes found for ID `%s'\n", next_id);
free_update_information_graph (uig);
return; /* no nodes */
}
uig->update_map =
GNUNET_CONTAINER_multihashmap_create (2 +
3 * uig->update_node_count /
4,
GNUNET_NO);
for (i = 0; i < uig->update_node_count; i++)
{
nsn = uig->update_nodes[i];
GNUNET_CRYPTO_hash (nsn->id, strlen (nsn->id), &hc);
GNUNET_CONTAINER_multihashmap_put (uig->update_map, &hc, nsn,
GNUNET_CONTAINER_MULTIHASHMAPOPTION_MULTIPLE);
}
if (NULL != next_id)
{
GNUNET_CRYPTO_hash (next_id, strlen (next_id), &hc);
pc.ip = ip;
pc.ip_cls = ip_cls;
GNUNET_CONTAINER_multihashmap_get_multiple (uig->update_map, &hc,
&process_update_node, &pc);
free_update_information_graph (uig);
return;
}
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Calculating TREEs to find roots of update trees\n");
/* Find heads of TREEs in update graph */
nug = ++uig->nug_gen;
fc.tree_array = NULL;
fc.tree_array_size = 0;
for (i = 0; i < uig->update_node_count; i++)
{
nsn = uig->update_nodes[i];
if (nsn->nug == nug)
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "TREE of node `%s' is %u\n", nsn->id,
nsn->nug);
continue; /* already placed in TREE */
}
GNUNET_CRYPTO_hash (nsn->update, strlen (nsn->update), &hc);
nsn->nug = nug;
nsn->tree_id = UINT_MAX;
fc.id = UINT_MAX;
fc.nug = nug;
fc.uig = uig;
GNUNET_CONTAINER_multihashmap_get_multiple (uig->update_map, &hc,
&find_trees, &fc);
if (UINT_MAX == fc.id)
{
/* start new TREE */
for (fc.id = 0; fc.id < fc.tree_array_size; fc.id++)
{
if (NULL == fc.tree_array[fc.id])
{
fc.tree_array[fc.id] = nsn;
nsn->tree_id = fc.id;
break;
}
}
if (fc.id == fc.tree_array_size)
{
GNUNET_array_append (fc.tree_array, fc.tree_array_size, nsn);
nsn->tree_id = fc.id;
}
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Starting new TREE %u with node `%s'\n", nsn->tree_id,
nsn->id);
/* put all nodes with same identifier into this TREE */
GNUNET_CRYPTO_hash (nsn->id, strlen (nsn->id), &hc);
fc.id = nsn->tree_id;
fc.nug = nug;
fc.uig = uig;
GNUNET_CONTAINER_multihashmap_get_multiple (uig->update_map, &hc,
&find_trees, &fc);
}
else
{
/* make head of TREE "id" */
fc.tree_array[fc.id] = nsn;
nsn->tree_id = fc.id;
}
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"TREE of node `%s' is %u\n", nsn->id,
fc.id);
}
for (i = 0; i < fc.tree_array_size; i++)
{
nsn = fc.tree_array[i];
if (NULL != nsn)
{
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Root of TREE %u is node `%s'\n", i,
nsn->id);
ip (ip_cls, nsn->id, nsn->uri, nsn->md, nsn->update);
}
}
GNUNET_array_grow (fc.tree_array, fc.tree_array_size, 0);
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG, "Done processing TREEs\n");
free_update_information_graph (uig);
}
/* end of fs_namespace.c */
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