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| author | Dimitri Staessens <dimitri@ouroboros.rocks> | 2020-02-12 22:31:16 +0100 |
|---|---|---|
| committer | Sander Vrijders <sander@ouroboros.rocks> | 2020-02-16 18:19:11 +0100 |
| commit | a63edb8e9d3ba5eef03c1bbb454522ea7b369087 (patch) | |
| tree | 7d9479ac669dd5e69a87ee07d25fc891aec0cecb | |
| parent | 524445d9c625b05334818e2d900cf79d1ced5aba (diff) | |
| download | ouroboros-a63edb8e9d3ba5eef03c1bbb454522ea7b369087.tar.gz ouroboros-a63edb8e9d3ba5eef03c1bbb454522ea7b369087.zip | |
ipcpd: Refactor graph to self-contain LFA
The LFA algorithm modifies the output of the simple routing algorithm,
but the output was mixed in the general call. This moves the LFA
subroutine to be self-contained. This makes for a cleaner entry point
when adding more routing algorithms.
Signed-off-by: Dimitri Staessens <dimitri@ouroboros.rocks>
Signed-off-by: Sander Vrijders <sander@ouroboros.rocks>
| -rw-r--r-- | src/ipcpd/unicast/pol/graph.c | 158 |
1 files changed, 86 insertions, 72 deletions
diff --git a/src/ipcpd/unicast/pol/graph.c b/src/ipcpd/unicast/pol/graph.c index 379d6b95..d5c1a9e9 100644 --- a/src/ipcpd/unicast/pol/graph.c +++ b/src/ipcpd/unicast/pol/graph.c @@ -578,12 +578,11 @@ static int add_lfa_to_table(struct list_head * table, return -1; } -int graph_routing_table(struct graph * graph, - enum routing_algo algo, - uint64_t s_addr, - struct list_head * table) +static int graph_routing_table_lfa(struct graph * graph, + uint64_t s_addr, + struct list_head * table, + int ** dist) { - int * s_dist; int * n_dist[PROG_MAX_FLOWS]; uint64_t addrs[PROG_MAX_FLOWS]; int n_index[PROG_MAX_FLOWS]; @@ -592,83 +591,104 @@ int graph_routing_table(struct graph * graph, struct vertex * v; struct edge * e; struct vertex ** nhops; - int i = 0; - int j = 0; + int i; + int j; int k; - assert(graph); - assert(table); - - pthread_mutex_lock(&graph->lock); + if (graph_routing_table_lfa(graph, s_addr, table, dist)) + goto fail_table; - /* Get the simple next hops routing table. */ - if (graph_routing_table_simple(graph, s_addr, table, &s_dist)) - goto fail_table_simple; + for (j = 0; j < PROG_MAX_FLOWS; j++) { + n_dist[j] = NULL; + n_index[j] = -1; + addrs[j] = -1; + } - /* Possibly augment the routing table. */ - switch (algo) { - case ROUTING_SIMPLE: - break; - case ROUTING_LFA: - for (j = 0; j < PROG_MAX_FLOWS; j++) { - n_dist[j] = NULL; - n_index[j] = -1; - addrs[j] = -1; - } + list_for_each(p, &graph->vertices) { + v = list_entry(p, struct vertex, next); - list_for_each(p, &graph->vertices) { - v = list_entry(p, struct vertex, next); + if (v->addr != s_addr) + continue; - if (v->addr != s_addr) - continue; + /* + * Get the distances for every neighbor + * of the source. + */ + list_for_each(q, &v->edges) { + e = list_entry(q, struct edge, next); - /* - * Get the distances for every neighbor - * of the source. - */ - list_for_each(q, &v->edges) { - e = list_entry(q, struct edge, next); + addrs[i] = e->nb->addr; + n_index[i] = e->nb->index; + if (dijkstra(graph, e->nb->addr, + &nhops, &(n_dist[i++]))) + goto fail_dijkstra; - addrs[i] = e->nb->addr; - n_index[i] = e->nb->index; - if (dijkstra(graph, e->nb->addr, - &nhops, &(n_dist[i++]))) - goto fail_dijkstra; + free(nhops); + } - free(nhops); - } + break; + } - break; - } + /* Loop though all nodes to see if we have a LFA for them. */ + list_for_each(p, &graph->vertices) { + v = list_entry(p, struct vertex, next); - /* Loop though all nodes to see if we have a LFA for them. */ - list_for_each(p, &graph->vertices) { - v = list_entry(p, struct vertex, next); + if (v->addr == s_addr) + continue; - if (v->addr == s_addr) + /* + * Check for every neighbor if + * dist(neighbor, destination) < + * dist(neighbor, source) + dist(source, destination). + */ + for (j = 0; j < i; j++) { + /* Exclude ourselves. */ + if (addrs[j] == v->addr) continue; - /* - * Check for every neighbor if - * dist(neighbor, destination) < - * dist(neighbor, source) + dist(source, destination). - */ - for (j = 0; j < i; j++) { - /* Exclude ourselves. */ - if (addrs[j] == v->addr) - continue; - - if (n_dist[j][v->index] < - s_dist[n_index[j]] + s_dist[v->index]) - if (add_lfa_to_table(table, v->addr, - addrs[j])) - goto fail_add_lfa; - } + if (n_dist[j][v->index] < + *dist[n_index[j]] + *dist[v->index]) + if (add_lfa_to_table(table, v->addr, + addrs[j])) + goto fail_add_lfa; } + } + + for (j = 0; j < i; j++) + free(n_dist[j]); + + return 0; + + fail_add_lfa: + for (k = j; k < i; k++) + free(n_dist[k]); + fail_dijkstra: + free_routing_table(table); + fail_table: + return -1; +} + +int graph_routing_table(struct graph * graph, + enum routing_algo algo, + uint64_t s_addr, + struct list_head * table) +{ + int * s_dist; + + assert(graph); + assert(table); - for (j = 0; j < i; j++) - free(n_dist[j]); + pthread_mutex_lock(&graph->lock); + switch (algo) { + case ROUTING_SIMPLE: + /* LFA uses the s_dist this returns. */ + if (graph_routing_table_simple(graph, s_addr, table, &s_dist)) + goto fail_table; + break; + case ROUTING_LFA: + if (graph_routing_table_lfa(graph, s_addr, table, &s_dist)) + goto fail_table; break; default: log_err("Unsupported algorithm."); @@ -681,15 +701,9 @@ int graph_routing_table(struct graph * graph, return 0; - fail_add_lfa: - for (k = j; k < i; k++) - free(n_dist[k]); - fail_dijkstra: - free_routing_table(table); fail_algo: free(s_dist); - fail_table_simple: + fail_table: pthread_mutex_unlock(&graph->lock); - return -1; } |