Implemented client side of journaling protocol

This commit is contained in:
jmjatlanta 2017-08-28 06:56:22 -05:00
parent 60c6085469
commit 1b69cdf1e8
6 changed files with 210 additions and 26 deletions

View file

@ -12,17 +12,19 @@
#include "libp2p/net/p2pnet.h" #include "libp2p/net/p2pnet.h"
#include "libp2p/net/protocol.h" #include "libp2p/net/protocol.h"
#include "libp2p/nodeio/nodeio.h" #include "libp2p/nodeio/nodeio.h"
#include "libp2p/os/utils.h"
#include "libp2p/record/message.h" #include "libp2p/record/message.h"
#include "libp2p/routing/dht_protocol.h" #include "libp2p/routing/dht_protocol.h"
#include "libp2p/secio/secio.h" #include "libp2p/secio/secio.h"
#include "libp2p/utils/logger.h" #include "libp2p/utils/logger.h"
#include "ipfs/core/daemon.h" #include "ipfs/core/daemon.h"
#include "ipfs/routing/routing.h"
#include "ipfs/core/ipfs_node.h" #include "ipfs/core/ipfs_node.h"
#include "ipfs/exchange/bitswap/network.h"
#include "ipfs/journal/journal.h"
#include "ipfs/merkledag/merkledag.h" #include "ipfs/merkledag/merkledag.h"
#include "ipfs/merkledag/node.h" #include "ipfs/merkledag/node.h"
#include "ipfs/routing/routing.h"
#include "ipfs/util/thread_pool.h" #include "ipfs/util/thread_pool.h"
#include "ipfs/exchange/bitswap/network.h"
#define BUF_SIZE 4096 #define BUF_SIZE 4096
@ -127,6 +129,38 @@ void ipfs_null_connection (void *ptr) {
return; return;
} }
int ipfs_null_do_maintenance(struct IpfsNode* local_node, struct Libp2pPeer* peer) {
if (peer == NULL)
return 0;
if (peer->is_local)
return 1;
// Is this peer one of our backup partners?
struct ReplicationPeer* replication_peer = repo_config_get_replication_peer(local_node->repo->config->replication, peer);
long long announce_secs = local_node->repo->config->replication->announce_minutes * 60;
// If so, has there been enough time since the last attempt a backup?
if (replication_peer != NULL) {
announce_secs -= os_utils_gmtime() - repo_config_replication_last_attempt(local_node->repo->config->replication, peer);
}
// should we attempt to connect if we're not already?
if (replication_peer != NULL && announce_secs < 0) {
// try to connect if we aren't already
if (peer->connection_type != CONNECTION_TYPE_CONNECTED) {
if (!libp2p_peer_connect(&local_node->identity->private_key, peer, local_node->peerstore, 10)) {
return 0;
}
}
// attempt a backup, don't forget to reset timer
ipfs_journal_sync(local_node, replication_peer);
} else {
// try a ping, but only if we're connected
if (peer->connection_type == CONNECTION_TYPE_CONNECTED && !local_node->routing->Ping(local_node->routing, peer)) {
peer->connection_type = CONNECTION_TYPE_NOT_CONNECTED;
}
}
return 1;
}
/*** /***
* Called by the daemon to listen for connections * Called by the daemon to listen for connections
* @param ptr a pointer to an IpfsNodeListenParams struct * @param ptr a pointer to an IpfsNodeListenParams struct
@ -187,12 +221,7 @@ void* ipfs_null_listen (void *ptr)
} else { } else {
// timeout... do maintenance // timeout... do maintenance
struct PeerEntry* entry = current_peer_entry->item; struct PeerEntry* entry = current_peer_entry->item;
if (current_peer_entry != NULL && !entry->peer->is_local && entry->peer->connection_type == CONNECTION_TYPE_CONNECTED) { ipfs_null_do_maintenance(listen_param->local_node, entry->peer);
libp2p_logger_debug("null", "Attempting to ping %s.\n", entry->peer->id);
if (!listen_param->local_node->routing->Ping(listen_param->local_node->routing, entry->peer)) {
entry->peer->connection_type = CONNECTION_TYPE_NOT_CONNECTED;
}
}
if (current_peer_entry != NULL) if (current_peer_entry != NULL)
current_peer_entry = current_peer_entry->next; current_peer_entry = current_peer_entry->next;
if (current_peer_entry == NULL) if (current_peer_entry == NULL)

View file

@ -44,8 +44,7 @@ struct Libp2pProtocolHandler* ipfs_journal_build_protocol_handler(const struct I
/*** /***
* Send a journal message to a remote peer * Send a journal message to a remote peer
* @param local_node the local node * @param replication_peer the peer to send it to
* @param peer the peer to send it to
* @returns true(1) on success, false(0) otherwise. * @returns true(1) on success, false(0) otherwise.
*/ */
int ipfs_journal_sync(struct IpfsNode* local_node, struct Libp2pPeer* peer); int ipfs_journal_sync(struct IpfsNode* local_node, struct ReplicationPeer* replication_peer);

View file

@ -1,10 +1,32 @@
#pragma once
#include "libp2p/utils/vector.h" #include "libp2p/utils/vector.h"
#include "libp2p/peer/peer.h"
struct ReplicationPeer {
struct Libp2pPeer* peer;
unsigned long long lastConnect;
unsigned long long lastJournalTime;
};
struct Replication { struct Replication {
int announce_minutes; int announce_minutes;
struct Libp2pVector* nodes; struct Libp2pVector* replication_peers;
}; };
/**
* Allocate a new ReplicationPeer struct
* @returns the new struct
*/
struct ReplicationPeer* repo_config_replication_peer_new();
/***
* Free the resources of a ReplicationPeer
* @param rp the ReplicationPeer to free
* @returns true(1)
*/
int repo_config_replication_peer_free(struct ReplicationPeer* rp);
/*** /***
* allocate memory and initialize the replication struct * allocate memory and initialize the replication struct
* @param replication a pointer to the struct to be allocated * @param replication a pointer to the struct to be allocated
@ -18,3 +40,36 @@ int repo_config_replication_new(struct Replication** replication);
* @returns true(1); * @returns true(1);
*/ */
int repo_config_replication_free(struct Replication* replication); int repo_config_replication_free(struct Replication* replication);
/***
* Determines if this peer is one of our approved replication nodes
* @param replication the replication struct
* @param peer the peer to examine
* @returns true(1) if this peer should be kept syncronized, false(0) otherwise
*/
int repo_config_replication_approved_node(struct Replication* replication, struct Libp2pPeer* peer);
/**
* Determine the last time a replication was successful for this peer (at least we sent it something without error)
* @param replication the replication struct
* @param peer the peer to examine
* @returns the time since the last replication, or the announce time if we have no record
*/
unsigned long long repo_config_replication_last_attempt(struct Replication* replication, struct Libp2pPeer* peer);
/***
* Determine the last journal record time that was sent to this peer
* @param replication the replication struct
* @param peer the peer to examine
* @returns the time of the last journal entry successfully sent
*/
unsigned long long repo_config_replication_last_journal_time(struct Replication* replication, struct Libp2pPeer* peer);
/***
* Given a peer, return the ReplicationPeer record
* @param replication the context
* @param key the peer to look for
* @returns the ReplicationPeer struct, or NULL if not found
*/
struct ReplicationPeer* repo_config_get_replication_peer(struct Replication* replication, struct Libp2pPeer* key);

View file

@ -6,6 +6,7 @@
#include "ipfs/journal/journal_message.h" #include "ipfs/journal/journal_message.h"
#include "ipfs/journal/journal_entry.h" #include "ipfs/journal/journal_entry.h"
#include "ipfs/repo/fsrepo/journalstore.h" #include "ipfs/repo/fsrepo/journalstore.h"
#include "ipfs/repo/config/replication.h"
/*** /***
* See if we can handle this message * See if we can handle this message
@ -124,14 +125,14 @@ int ipfs_journal_send_message(struct IpfsNode* node, struct Libp2pPeer* peer, st
/*** /***
* Send a journal message to a remote peer * Send a journal message to a remote peer
* @param peer the peer to send it to * @param replication_peer the peer to send it to
* @returns true(1) on success, false(0) otherwise. * @returns true(1) on success, false(0) otherwise.
*/ */
int ipfs_journal_sync(struct IpfsNode* local_node, struct Libp2pPeer* peer) { int ipfs_journal_sync(struct IpfsNode* local_node, struct ReplicationPeer* replication_peer) {
// make sure we're connected securely // make sure we're connected securely
if (peer->is_local) if (replication_peer->peer->is_local)
return 0; return 0;
if (peer->sessionContext->secure_stream == NULL) if (replication_peer->peer->sessionContext->secure_stream == NULL)
return 0; return 0;
// grab the last 10? files // grab the last 10? files
@ -164,7 +165,11 @@ int ipfs_journal_sync(struct IpfsNode* local_node, struct Libp2pPeer* peer) {
} }
// send the message // send the message
message->current_epoch = os_utils_gmtime(); message->current_epoch = os_utils_gmtime();
int retVal = ipfs_journal_send_message(local_node, peer, message); int retVal = ipfs_journal_send_message(local_node, replication_peer->peer, message);
if (retVal) {
replication_peer->lastConnect = message->current_epoch;
replication_peer->lastJournalTime = message->end_epoch;
}
// clean up // clean up
ipfs_journal_message_free(message); ipfs_journal_message_free(message);
ipfs_journal_free_records(journal_records); ipfs_journal_free_records(journal_records);

View file

@ -1,7 +1,37 @@
#include <stdlib.h> #include <stdlib.h>
#include "multiaddr/multiaddr.h" #include "multiaddr/multiaddr.h"
#include "libp2p/utils/linked_list.h"
#include "ipfs/repo/config/replication.h" #include "ipfs/repo/config/replication.h"
/**
* Allocate a new ReplicationPeer struct
* @returns the new struct
*/
struct ReplicationPeer* repo_config_replication_peer_new() {
struct ReplicationPeer* rp = (struct ReplicationPeer*) malloc(sizeof(struct ReplicationPeer));
if (rp != NULL) {
rp->lastConnect = 0;
rp->lastJournalTime = 0;
rp->peer = NULL;
}
return rp;
}
/***
* Free the resources of a ReplicationPeer
* @param rp the ReplicationPeer to free
* @returns true(1)
*/
int repo_config_replication_peer_free(struct ReplicationPeer* rp) {
if (rp != NULL) {
// we allocated the peer structure, so we must remove it
libp2p_peer_free(rp->peer);
free(rp);
}
return 1;
}
/*** /***
* allocate memory and initialize the replication struct * allocate memory and initialize the replication struct
* @param replication a pointer to the struct to be allocated * @param replication a pointer to the struct to be allocated
@ -13,7 +43,7 @@ int repo_config_replication_new(struct Replication** replication) {
return 0; return 0;
struct Replication* out = *replication; struct Replication* out = *replication;
out->announce_minutes = 0; out->announce_minutes = 0;
out->nodes = NULL; out->replication_peers = NULL;
return 1; return 1;
} }
@ -25,15 +55,77 @@ int repo_config_replication_new(struct Replication** replication) {
int repo_config_replication_free(struct Replication* replication) { int repo_config_replication_free(struct Replication* replication) {
if (replication != NULL) { if (replication != NULL) {
// free the vector // free the vector
if (replication->nodes != NULL) { if (replication->replication_peers != NULL) {
for(int i = 0; i < replication->nodes->total; i++) { for(int i = 0; i < replication->replication_peers->total; i++) {
struct MultiAddress* currAddr = (struct MultiAddress*)libp2p_utils_vector_get(replication->nodes, i); struct ReplicationPeer* currAddr = (struct ReplicationPeer*)libp2p_utils_vector_get(replication->replication_peers, i);
multiaddress_free(currAddr); repo_config_replication_peer_free(currAddr);
} }
libp2p_utils_vector_free(replication->nodes); libp2p_utils_vector_free(replication->replication_peers);
} }
// free the struct // free the struct
free(replication); free(replication);
} }
return 1; return 1;
} }
/***
* Given a peer, return the ReplicationPeer record
* @param replication the context
* @param key the peer to look for
* @returns the ReplicationPeer struct, or NULL if not found
*/
struct ReplicationPeer* repo_config_get_replication_peer(struct Replication* replication, struct Libp2pPeer* key) {
if (replication != NULL) {
if (replication->replication_peers != NULL) {
for(int i = 0; i < replication->replication_peers->total; i++) {
struct ReplicationPeer* confAddr = (struct ReplicationPeer*) libp2p_utils_vector_get(replication->replication_peers, i);
if (libp2p_peer_compare(confAddr->peer, key) == 0)
return confAddr;
}
}
}
return NULL;
}
/***
* Determines if this peer is one of our approved replication nodes
* @param replication the replication struct
* @param peer the peer to examine
* @returns true(1) if this peer should be kept syncronized, false(0) otherwise
*/
int repo_config_replication_approved_node(struct Replication* replication, struct Libp2pPeer* peer) {
if (replication != NULL) {
if (repo_config_get_replication_peer(replication, peer) != NULL) {
return 1;
}
}
return 0;
}
/**
* Determine the last time a replication was successful for this peer (at least we sent it something without error)
* @param replication the replication struct
* @param peer the peer to examine
* @returns the time since the last replication, or the announce time if we have no record
*/
unsigned long long repo_config_replication_last_attempt(struct Replication* replication, struct Libp2pPeer* peer) {
struct ReplicationPeer* rp = repo_config_get_replication_peer(replication, peer);
if (rp != NULL) {
return rp->lastConnect;
}
return 0;
}
/***
* Determine the last journal record time that was sent to this peer
* @param replication the replication struct
* @param peer the peer to examine
* @returns the time of the last journal entry successfully sent
*/
unsigned long long repo_config_replication_last_journal_time(struct Replication* replication, struct Libp2pPeer* peer) {
struct ReplicationPeer* rp = repo_config_get_replication_peer(replication, peer);
if (rp != NULL) {
return rp->lastJournalTime;
}
return 0;
}

View file

@ -484,11 +484,11 @@ int fs_repo_open_config(struct FSRepo* repo) {
curr_pos++; curr_pos++;
_get_json_int_value(data, tokens, num_tokens, curr_pos, "AnnounceMinutes", &repo->config->replication->announce_minutes); _get_json_int_value(data, tokens, num_tokens, curr_pos, "AnnounceMinutes", &repo->config->replication->announce_minutes);
// nodes list // nodes list
int nodes_pos = _find_token(data, tokens, num_tokens, curr_pos, "Nodes"); int nodes_pos = _find_token(data, tokens, num_tokens, curr_pos, "Peers");
if (nodes_pos >= 0) { if (nodes_pos >= 0) {
if (tokens[nodes_pos].type == JSMN_ARRAY) { if (tokens[nodes_pos].type == JSMN_ARRAY) {
int nodes_size = tokens[nodes_pos].size; int nodes_size = tokens[nodes_pos].size;
repo->config->replication->nodes = libp2p_utils_vector_new(nodes_size); repo->config->replication->replication_peers = libp2p_utils_vector_new(nodes_size);
nodes_pos++; nodes_pos++;
for(int i = 0; i < nodes_size; i++) { for(int i = 0; i < nodes_size; i++) {
char* val = NULL; char* val = NULL;
@ -497,7 +497,11 @@ int fs_repo_open_config(struct FSRepo* repo) {
struct MultiAddress* cur = multiaddress_new_from_string(val); struct MultiAddress* cur = multiaddress_new_from_string(val);
if (cur == NULL) if (cur == NULL)
continue; continue;
libp2p_utils_vector_add(repo->config->replication->nodes, cur); // make multiaddress a peer
struct Libp2pPeer* peer = libp2p_peer_new_from_multiaddress(cur);
struct ReplicationPeer* rp = repo_config_replication_peer_new();
rp->peer = peer;
libp2p_utils_vector_add(repo->config->replication->replication_peers, rp);
free(val); free(val);
} }
} }