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|
/*
This file is part of GNUnet
Copyright (C) 2008--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.
*/
/**
* @file testbed/testbed_api_topology.c
* @brief topology-generation functions
* @author Christian Grothoff
*/
#include "platform.h"
#include "gnunet_testbed_service.h"
#include "testbed_api.h"
#include "testbed_api_peers.h"
#include "testbed_api_operations.h"
#include "testbed_api_topology.h"
/**
* Generic loggins shorthand
*/
#define LOG(kind,...) \
GNUNET_log_from (kind, "testbed-api-topology", __VA_ARGS__)
/**
* Default number of retires
*/
#define DEFAULT_RETRY_CNT 3
/**
* Context information for topology operations
*/
struct TopologyContext;
/**
* Representation of an overlay link
*/
struct OverlayLink
{
/**
* An operation corresponding to this link
*/
struct GNUNET_TESTBED_Operation *op;
/**
* The topology context this link is a part of
*/
struct TopologyContext *tc;
/**
* position of peer A's handle in peers array
*/
uint32_t A;
/**
* position of peer B's handle in peers array
*/
uint32_t B;
};
/**
* Representation of an underlay link
*/
struct UnderlayLink
{
/**
* position of peer A's handle in peers array
*/
uint32_t A;
/**
* position of peer B's handle in peers array
*/
uint32_t B;
/**
* Bandwidth of the link in bytes per second
*/
uint32_t bandwidth;
/**
* Latency of the link in milliseconds
*/
uint32_t latency;
/**
* Loss in the link in percentage of message dropped
*/
uint32_t loss;
};
struct RetryListEntry
{
/**
* the next pointer for the DLL
*/
struct RetryListEntry *next;
/**
* the prev pointer for the DLL
*/
struct RetryListEntry *prev;
/**
* The link to be retired
*/
struct OverlayLink *link;
};
/**
* Context information for overlay topologies
*/
struct TopologyContextOverlay
{
/**
* The array of peers
*/
struct GNUNET_TESTBED_Peer **peers;
/**
* An array of links; this array is of size link_array_size
*/
struct OverlayLink *link_array;
/**
* The operation closure
*/
void *op_cls;
/**
* topology generation completion callback
*/
GNUNET_TESTBED_TopologyCompletionCallback comp_cb;
/**
* The closure for the above callback
*/
void *comp_cb_cls;
/**
* DLL head for retry list
*/
struct RetryListEntry *rl_head;
/**
* DLL tail for retry list
*/
struct RetryListEntry *rl_tail;
/**
* How many retries to do before we give up
*/
unsigned int retry_cnt;
/**
* Number of links to try
*/
unsigned int nlinks;
/**
* How many links have been completed
*/
unsigned int ncompleted;
/**
* Total successfully established overlay connections
*/
unsigned int nsuccess;
/**
* Total failed overlay connections
*/
unsigned int nfailures;
};
/**
* Topology context information for underlay topologies
*/
struct TopologyContextUnderlay
{
/**
* The link array
*/
struct UnderlayLink *link_array;
};
/**
* Context information for topology operations
*/
struct TopologyContext
{
/**
* The type of this context
*/
enum {
/**
* Type for underlay topology
*/
TOPOLOGYCONTEXT_TYPE_UNDERLAY = 0,
/**
* Type for overlay topology
*/
TOPOLOGYCONTEXT_TYPE_OVERLAY
} type;
union {
/**
* Topology context information for overlay topology
*/
struct TopologyContextOverlay overlay;
/**
* Topology context information for underlay topology
*/
struct TopologyContextUnderlay underlay;
} u;
/**
* The number of peers
*/
unsigned int num_peers;
/**
* The size of the link array
*/
unsigned int link_array_size;
};
/**
* A array of names representing topologies. Should be in sync with enum
* GNUNET_TESTBED_TopologyOption
*/
static const char *topology_strings[] = {
/**
* A clique (everyone connected to everyone else). No options. If there are N
* peers this topology results in (N * (N -1)) connections.
*/
"CLIQUE",
/*
* Small-world network (2d torus plus random links). Followed
* by the number of random links to add (unsigned int).
*/
"SMALL_WORLD",
/**
* Small-world network (ring plus random links). Followed
* by the number of random links to add (unsigned int).
*/
"SMALL_WORLD_RING",
/**
* Ring topology. No options.
*/
"RING",
/**
* Star topology. No options.
*/
"STAR",
/**
* 2-d torus. No options.
*/
"2D_TORUS",
/**
* Random graph. Followed by the number of random links to be established
* (unsigned int)
*/
"RANDOM", // GNUNET_TESTBED_TOPOLOGY_ERDOS_RENYI
/**
* Certain percentage of peers are unable to communicate directly
* replicating NAT conditions. Followed by the fraction of
* NAT'ed peers (float).
*/
"INTERNAT",
/**
* Scale free topology. Followed by the maximum number of links a node can
* have (unsigned int); and the number of links a new node should have when
* it is added to the network (unsigned int)
*/
"SCALE_FREE",
/**
* Straight line topology. No options.
*/
"LINE",
/**
* Read a topology from a given file. Followed by the name of the file (const char *).
*/
"FROM_FILE",
/**
* All peers are disconnected. No options.
*/
"NONE",
/**
* End of strings
*/
NULL
};
/**
* Callback to be called when an overlay_link operation complete
*
* @param cls element of the link_op array which points to the corresponding operation
* @param op the operation that has been finished
* @param emsg error message in case the operation has failed; will be NULL if
* operation has executed successfully.
*/
static void
overlay_link_completed (void *cls,
struct GNUNET_TESTBED_Operation *op,
const char *emsg)
{
struct OverlayLink *link = cls;
struct TopologyContext *tc;
struct TopologyContextOverlay *overlay;
struct RetryListEntry *retry_entry;
GNUNET_assert (op == link->op);
GNUNET_TESTBED_operation_done (op);
link->op = NULL;
tc = link->tc;
GNUNET_assert (TOPOLOGYCONTEXT_TYPE_OVERLAY == tc->type);
overlay = &tc->u.overlay;
if (NULL != emsg)
{
overlay->nfailures++;
if (0 != overlay->retry_cnt)
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"Error while establishing a link: %s -- Retrying\n",
emsg);
retry_entry = GNUNET_new (struct RetryListEntry);
retry_entry->link = link;
GNUNET_CONTAINER_DLL_insert_tail (overlay->rl_head,
overlay->rl_tail,
retry_entry);
}
}
else
overlay->nsuccess++;
overlay->ncompleted++;
if (overlay->ncompleted < overlay->nlinks)
return;
if ((0 != overlay->retry_cnt) && (NULL != overlay->rl_head))
{
overlay->retry_cnt--;
overlay->ncompleted = 0;
overlay->nlinks = 0;
while (NULL != (retry_entry = overlay->rl_head))
{
link = retry_entry->link;
link->op =
GNUNET_TESTBED_overlay_connect (overlay->op_cls,
&overlay_link_completed,
link,
overlay->peers[link->A],
overlay->peers[link->B]);
overlay->nlinks++;
GNUNET_CONTAINER_DLL_remove (overlay->rl_head,
overlay->rl_tail,
retry_entry);
GNUNET_free (retry_entry);
}
return;
}
if (NULL != overlay->comp_cb)
{
overlay->comp_cb (overlay->comp_cb_cls,
overlay->nsuccess,
overlay->nfailures);
}
}
/**
* Function called when a overlay connect operation is ready
*
* @param cls the Topology context
*/
static void
opstart_overlay_configure_topology (void *cls)
{
struct TopologyContext *tc = cls;
struct TopologyContextOverlay *overlay;
unsigned int p;
GNUNET_assert (TOPOLOGYCONTEXT_TYPE_OVERLAY == tc->type);
overlay = &tc->u.overlay;
overlay->nlinks = tc->link_array_size;
for (p = 0; p < tc->link_array_size; p++)
{
overlay->link_array[p].op =
GNUNET_TESTBED_overlay_connect (overlay->op_cls,
&overlay_link_completed,
&overlay->link_array[p],
overlay->peers[overlay->link_array[p].A],
overlay->peers[overlay->link_array[p].B]);
}
}
/**
* Callback which will be called when overlay connect operation is released
*
* @param cls the Topology context
*/
static void
oprelease_overlay_configure_topology (void *cls)
{
struct TopologyContext *tc = cls;
struct TopologyContextOverlay *overlay;
struct RetryListEntry *retry_entry;
unsigned int p;
GNUNET_assert (TOPOLOGYCONTEXT_TYPE_OVERLAY == tc->type);
overlay = &tc->u.overlay;
while (NULL != (retry_entry = overlay->rl_head))
{
GNUNET_CONTAINER_DLL_remove (overlay->rl_head, overlay->rl_tail, retry_entry);
GNUNET_free (retry_entry);
}
if (NULL != overlay->link_array)
{
for (p = 0; p < tc->link_array_size; p++)
if (NULL != overlay->link_array[p].op)
GNUNET_TESTBED_operation_done (overlay->link_array[p].op);
GNUNET_free (overlay->link_array);
}
GNUNET_free (tc);
}
/**
* Populates the OverlayLink structure.
*
* @param offset the offset of the link array to use
* @param A the peer A. Should be different from B
* @param B the peer B. Should be different from A
* @param tc the TopologyContext
* @return
*/
static void
make_link (unsigned int offset,
uint32_t A,
uint32_t B,
struct TopologyContext *tc)
{
GNUNET_assert (A != B);
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
struct OverlayLink *olink;
overlay = &tc->u.overlay;
GNUNET_assert (offset < tc->link_array_size);
olink = &overlay->link_array[offset];
LOG (GNUNET_ERROR_TYPE_DEBUG, "Connecting peer %u to %u\n", B, A);
olink->A = A;
olink->B = B;
olink->op = NULL;
olink->tc = tc;
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
struct UnderlayLink *ulink;
underlay = &tc->u.underlay;
GNUNET_assert (offset < tc->link_array_size);
ulink = &underlay->link_array[offset];
ulink->A = A;
ulink->B = B;
}
break;
}
}
/**
* Generates line topology
*
* @param tc the topology context
*/
static void
gen_topo_line (struct TopologyContext *tc)
{
unsigned int cnt;
tc->link_array_size = tc->num_peers - 1;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array =
GNUNET_new_array (tc->link_array_size,
struct OverlayLink);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array =
GNUNET_new_array (tc->link_array_size,
struct UnderlayLink);
}
break;
}
for (cnt = 0; cnt < (tc->link_array_size); cnt++)
make_link (cnt, cnt, cnt + 1, tc);
}
/**
* Generates star topology
*
* @param tc the topology context
*/
static void
gen_topo_star (struct TopologyContext *tc)
{
unsigned int cnt;
tc->link_array_size = tc->num_peers - 1;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array =
GNUNET_new_array (tc->link_array_size,
struct OverlayLink);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array =
GNUNET_new_array (tc->link_array_size,
struct UnderlayLink);
}
break;
}
for (cnt = tc->link_array_size; cnt; cnt--)
make_link (cnt - 1,
0,
cnt,
tc);
}
/**
* Generates ring topology
*
* @param tc the topology context
*/
static void
gen_topo_ring (struct TopologyContext *tc)
{
gen_topo_line (tc);
tc->link_array_size++;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array =
GNUNET_realloc (overlay->link_array, sizeof (struct OverlayLink) *
tc->link_array_size);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array =
GNUNET_realloc (underlay->link_array, sizeof (struct UnderlayLink) *
tc->link_array_size);
}
break;
}
make_link (tc->link_array_size - 1, tc->num_peers - 1, 0, tc);
}
/**
* Returns the number of links that are required to generate a 2d torus for the
* given number of peers. Also returns the arrangment (number of rows and the
* length of each row)
*
* @param num_peers number of peers
* @param rows number of rows in the 2d torus. Can be NULL
* @param rows_len the length of each row. This array will be allocated
* fresh. The caller should free it. Can be NULL
* @return the number of links that are required to generate a 2d torus for the
* given number of peers
*/
unsigned int
GNUNET_TESTBED_2dtorus_calc_links (unsigned int num_peers, unsigned int *rows,
unsigned int **rows_len)
{
double sq;
unsigned int sq_floor;
unsigned int _rows;
unsigned int *_rows_len;
unsigned int x;
unsigned int y;
unsigned int _num_peers;
unsigned int cnt;
sq = sqrt (num_peers);
sq = floor (sq);
sq_floor = (unsigned int) sq;
_rows = (sq_floor + 1);
_rows_len = GNUNET_malloc (sizeof (unsigned int) * _rows);
for (y = 0; y < _rows - 1; y++)
_rows_len[y] = sq_floor;
_num_peers = sq_floor * sq_floor;
cnt = (_num_peers < 2) ? _num_peers : 2 * _num_peers;
x = 0;
y = 0;
while (_num_peers < num_peers)
{
if (x < y)
_rows_len[_rows - 1] = ++x;
else
_rows_len[y++]++;
_num_peers++;
}
cnt += (x < 2) ? x : 2 * x;
cnt += (y < 2) ? y : 2 * y;
if (0 == _rows_len[_rows - 1])
_rows--;
if (NULL != rows)
*rows = _rows;
if (NULL != rows_len)
*rows_len = _rows_len;
else
GNUNET_free (_rows_len);
return cnt;
}
/**
* Generates ring topology
*
* @param tc the topology context
*/
static void
gen_topo_2dtorus (struct TopologyContext *tc)
{
unsigned int rows;
unsigned int *rows_len;
unsigned int x;
unsigned int y;
unsigned int cnt;
unsigned int offset;
tc->link_array_size =
GNUNET_TESTBED_2dtorus_calc_links (tc->num_peers, &rows, &rows_len);
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array =
GNUNET_malloc (sizeof (struct OverlayLink) * tc->link_array_size);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array =
GNUNET_malloc (sizeof (struct UnderlayLink) * tc->link_array_size);
break;
}
}
cnt = 0;
offset = 0;
for (y = 0; y < rows; y++)
{
for (x = 0; x < rows_len[y] - 1; x++)
{
make_link (cnt, offset + x, offset + x + 1, tc);
cnt++;
}
if (0 == x)
break;
make_link (cnt, offset + x, offset, tc);
cnt++;
offset += rows_len[y];
}
for (x = 0; x < rows_len[0]; x++)
{
offset = 0;
for (y = 0; y < rows - 1; y++)
{
if (x >= rows_len[y + 1])
break;
GNUNET_assert (x < rows_len[y + 1]);
make_link (cnt, offset + x, offset + rows_len[y] + x, tc);
offset += rows_len[y];
cnt++;
}
if (0 == offset)
break;
make_link (cnt, offset + x, x, tc);
cnt++;
}
GNUNET_assert (cnt == tc->link_array_size);
GNUNET_free (rows_len);
}
/**
* Generates ring topology
*
* @param tc the topology context
* @param links the number of random links to establish
* @param append #GNUNET_YES to add links to existing link array; #GNUNET_NO to
* create a new link array
*/
static void
gen_topo_random (struct TopologyContext *tc,
unsigned int links,
int append)
{
unsigned int cnt;
unsigned int index;
uint32_t A_rand;
uint32_t B_rand;
if (1 == tc->num_peers)
return;
if (GNUNET_YES == append)
{
index = tc->link_array_size;
tc->link_array_size += links;
}
else
{
index = 0;
tc->link_array_size = links;
}
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
if (GNUNET_YES != append)
{
GNUNET_assert (NULL == overlay->link_array);
overlay->link_array =
GNUNET_malloc (sizeof (struct OverlayLink) * tc->link_array_size);
break;
}
GNUNET_assert ((0 < tc->link_array_size) && (NULL != overlay->link_array));
overlay->link_array =
GNUNET_realloc (overlay->link_array,
sizeof (struct OverlayLink) * tc->link_array_size);
break;
}
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
if (GNUNET_YES != append)
{
GNUNET_assert (NULL == underlay->link_array);
underlay->link_array =
GNUNET_malloc (sizeof (struct UnderlayLink) * tc->link_array_size);
break;
}
GNUNET_assert ((0 < tc->link_array_size) && (NULL != underlay->link_array));
underlay->link_array =
GNUNET_realloc (underlay->link_array,
sizeof (struct UnderlayLink) * tc->link_array_size);
break;
}
}
for (cnt = 0; cnt < links; cnt++)
{
do
{
A_rand =
GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, tc->num_peers);
B_rand =
GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, tc->num_peers);
}
while (A_rand == B_rand);
make_link (index+cnt, A_rand, B_rand, tc);
}
}
/**
* Generates scale free network. Its construction is described in:
*
* "Emergence of Scaling in Random Networks." Science 286, 509-512, 1999.
*
* @param tc the topology context
* @param cap maximum allowed node degree
* @param m number of edges to establish for a new node when it is added to the
* network
*/
static void
gen_topo_scale_free (struct TopologyContext *tc,
uint16_t cap,
uint8_t m)
{
unsigned int *deg;
unsigned int *etab;
unsigned int *used;
unsigned int etaboff;
unsigned int cnt;
unsigned int cnt2;
unsigned int peer;
unsigned int random_peer;
unsigned int links;
unsigned int off;
unsigned int redo_threshold;
etaboff = 0;
tc->link_array_size = tc->num_peers * m;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array = GNUNET_malloc_large (sizeof (struct OverlayLink) *
tc->link_array_size);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array = GNUNET_malloc_large (sizeof (struct UnderlayLink) *
tc->link_array_size);
}
break;
}
etab = GNUNET_malloc_large (sizeof (unsigned int) * 2 * tc->link_array_size);
deg = GNUNET_malloc (sizeof (unsigned int) * tc->num_peers);
used = GNUNET_malloc (sizeof (unsigned int) * m);
/* start by connecting peer 1 to peer 0 */
make_link (0, 0, 1, tc);
deg[0]++;
deg[1]++;
etab[etaboff++] = 0;
etab[etaboff++] = 1;
links = 1;
for (peer = 2; peer < tc->num_peers; peer++)
{
if (cap < deg[peer])
continue;
for (cnt = 0; cnt < GNUNET_MIN (peer, m); cnt++)
{
redo_threshold = 0;
redo:
off = GNUNET_CRYPTO_random_u64 (GNUNET_CRYPTO_QUALITY_WEAK, etaboff);
random_peer = etab[off];
if (cap < deg[random_peer])
{
if (++redo_threshold > GNUNET_MAX (1, cap / 2))
{
redo_threshold = 0;
off = 0;
for (cnt2 = 0; cnt2 < etaboff; cnt2++)
{
if (random_peer == etab[cnt2])
{
off++;
continue;
}
etab[cnt2 - off] = etab[cnt2];
}
etaboff -= off;
}
goto redo;
}
for (cnt2 = 0; cnt2 < cnt; cnt2++)
if (random_peer == used[cnt2])
goto redo;
make_link (links + cnt, random_peer, peer, tc);
deg[random_peer]++;
deg[peer]++;
used[cnt] = random_peer;
}
for (cnt = 0; cnt < GNUNET_MIN (peer, m); cnt++)
{
etab[etaboff++] = used[cnt];
etab[etaboff++] = peer;
}
links += GNUNET_MIN (peer, m);
}
GNUNET_free (etab);
GNUNET_free (used);
GNUNET_free (deg);
GNUNET_assert (links <= tc->link_array_size);
tc->link_array_size = links;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array =
GNUNET_realloc (overlay->link_array, sizeof (struct OverlayLink) * tc->link_array_size);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array =
GNUNET_realloc (underlay->link_array, sizeof (struct UnderlayLink) * tc->link_array_size);
}
break;
}
}
/**
* Generates topology from the given file
*
* @param tc the topology context
* @param filename the filename of the file containing topology data
*/
static void
gen_topo_from_file (struct TopologyContext *tc,
const char *filename)
{
char *data;
char *end;
char *buf;
uint64_t fs;
uint64_t offset;
unsigned long int peer_id;
unsigned long int other_peer_id;
enum ParseState
{
/**
* We read the peer index
*/
PEER_INDEX,
/**
* We read the other peer indices
*/
OTHER_PEER_INDEX,
} state;
int status;
status = GNUNET_SYSERR;
if (GNUNET_YES != GNUNET_DISK_file_test (filename))
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Topology file %s not found\n"),
filename);
return;
}
if (GNUNET_OK !=
GNUNET_DISK_file_size (filename, &fs, GNUNET_YES, GNUNET_YES))
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Topology file %s has no data\n"),
filename);
return;
}
data = GNUNET_malloc (fs);
if (fs != GNUNET_DISK_fn_read (filename, data, fs))
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Topology file %s cannot be read\n"),
filename);
goto _exit;
}
offset = 0;
peer_id = 0;
state = PEER_INDEX;
while (offset < fs)
{
if (0 != isspace ((unsigned char) data[offset]))
{
offset++;
continue;
}
switch (state)
{
case PEER_INDEX:
buf = strchr (&data[offset], ':');
if (NULL == buf)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Failed to read peer index from toology file: %s"), filename);
goto _exit;
}
*buf = '\0';
errno = 0;
peer_id = (unsigned int) strtoul (&data[offset], &end, 10);
if (0 != errno)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Value in given topology file: %s out of range\n"), filename);
goto _exit;
}
if (&data[offset] == end)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Failed to read peer index from topology file: %s"), filename);
goto _exit;
}
if (tc->num_peers <= peer_id)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Topology file needs more peers than given ones\n"), filename);
goto _exit;
}
state = OTHER_PEER_INDEX;
offset += ((unsigned int) (buf - &data[offset])) + 1;
break;
case OTHER_PEER_INDEX:
errno = 0;
other_peer_id = (unsigned int) strtoul (&data[offset], &end, 10);
if (0 != errno)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Value in given topology file: %s out of range\n"), filename);
goto _exit;
}
if (&data[offset] == end)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Failed to read peer index from topology file: %s"), filename);
goto _exit;
}
if (tc->num_peers <= other_peer_id)
{
LOG (GNUNET_ERROR_TYPE_ERROR,
_("Topology file needs more peers than given ones\n"), filename);
goto _exit;
}
if (peer_id != other_peer_id)
{
tc->link_array_size++;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array =
GNUNET_realloc (overlay->link_array,
sizeof (struct OverlayLink) * tc->link_array_size);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array =
GNUNET_realloc (underlay->link_array,
sizeof (struct UnderlayLink) * tc->link_array_size);
}
break;
}
offset += end - &data[offset];
make_link (tc->link_array_size - 1, peer_id, other_peer_id, tc);
}
else
LOG (GNUNET_ERROR_TYPE_WARNING,
_("Ignoring to connect peer %u to peer %u\n"),
peer_id,
other_peer_id);
while (('\n' != data[offset]) && ('|' != data[offset]) && (offset < fs))
offset++;
if ( (offset < fs) &&
('\n' == data[offset]) )
state = PEER_INDEX;
else if ( (offset < fs) &&
('|' == data[offset]) )
{
state = OTHER_PEER_INDEX;
offset++;
}
break;
}
}
status = GNUNET_OK;
_exit:
GNUNET_free (data);
if (GNUNET_OK != status)
{
LOG (GNUNET_ERROR_TYPE_WARNING,
"Removing link data read from the file\n");
tc->link_array_size = 0;
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
GNUNET_free_non_null (overlay->link_array);
overlay->link_array = NULL;
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
GNUNET_free_non_null (underlay->link_array);
underlay->link_array = NULL;
}
break;
}
}
}
/**
* Generates clique topology
*
* @param tc the topology context
*/
static void
gen_topo_clique (struct TopologyContext *tc)
{
unsigned int cnt;
unsigned int offset;
unsigned int neighbour;
tc->link_array_size = tc->num_peers * (tc->num_peers - 1);
switch (tc->type)
{
case TOPOLOGYCONTEXT_TYPE_OVERLAY:
{
struct TopologyContextOverlay *overlay;
overlay = &tc->u.overlay;
overlay->link_array = GNUNET_new_array (tc->link_array_size,
struct OverlayLink);
}
break;
case TOPOLOGYCONTEXT_TYPE_UNDERLAY:
{
struct TopologyContextUnderlay *underlay;
underlay = &tc->u.underlay;
underlay->link_array = GNUNET_new_array (tc->link_array_size,
struct UnderlayLink);
}
}
offset = 0;
for (cnt = 0; cnt < tc->num_peers; cnt++)
{
for (neighbour = 0; neighbour < tc->num_peers; neighbour++)
{
if (neighbour == cnt)
continue;
make_link (offset, cnt, neighbour, tc);
offset++;
}
}
}
/**
* Configure overall network topology to have a particular shape.
*
* @param op_cls closure argument to give with the operation event
* @param num_peers number of peers in @a peers
* @param peers array of @a num_peers with the peers to configure
* @param topo desired underlay topology to use
* @param ap topology-specific options
* @return handle to the operation, NULL if configuring the topology
* is not allowed at this time
*/
struct GNUNET_TESTBED_Operation *
GNUNET_TESTBED_underlay_configure_topology_va (void *op_cls,
unsigned int num_peers,
struct GNUNET_TESTBED_Peer
**peers,
enum
GNUNET_TESTBED_TopologyOption
topo, va_list ap)
{
GNUNET_break (0);
return NULL;
}
/**
* Configure overall network topology to have a particular shape.
*
* @param op_cls closure argument to give with the operation event
* @param num_peers number of peers in @a peers
* @param peers array of @a num_peers with the peers to configure
* @param topo desired underlay topology to use
* @param ... topology-specific options
* @return handle to the operation, NULL if configuring the topology
* is not allowed at this time
*/
struct GNUNET_TESTBED_Operation *
GNUNET_TESTBED_underlay_configure_topology (void *op_cls,
unsigned int num_peers,
struct GNUNET_TESTBED_Peer **peers,
enum GNUNET_TESTBED_TopologyOption
topo, ...)
{
GNUNET_break (0);
return NULL;
}
/**
* All peers must have been started before calling this function.
* This function then connects the given peers in the P2P overlay
* using the given topology.
*
* @param op_cls closure argument to give with the peer connect operation events
* generated through this function
* @param num_peers number of peers in @a peers
* @param peers array of @a num_peers with the peers to configure
* @param max_connections the maximums number of overlay connections that will
* be made to achieve the given topology
* @param comp_cb the completion callback to call when the topology generation
* is completed
* @param comp_cb_cls closure for the above completion callback
* @param topo desired underlay topology to use
* @param va topology-specific options
* @return handle to the operation, NULL if connecting these
* peers is fundamentally not possible at this time (peers
* not running or underlay disallows) or if num_peers is less than 2
*/
struct GNUNET_TESTBED_Operation *
GNUNET_TESTBED_overlay_configure_topology_va (void *op_cls,
unsigned int num_peers,
struct GNUNET_TESTBED_Peer **peers,
unsigned int *max_connections,
GNUNET_TESTBED_TopologyCompletionCallback
comp_cb,
void *comp_cb_cls,
enum GNUNET_TESTBED_TopologyOption topo,
va_list va)
{
struct TopologyContext *tc;
struct TopologyContextOverlay *overlay;
struct GNUNET_TESTBED_Operation *op;
struct GNUNET_TESTBED_Controller *c;
enum GNUNET_TESTBED_TopologyOption secondary_option;
if (num_peers < 2)
return NULL;
c = peers[0]->controller;
tc = GNUNET_new (struct TopologyContext);
tc->type = TOPOLOGYCONTEXT_TYPE_OVERLAY;
overlay = &tc->u.overlay;
overlay->peers = peers;
tc->num_peers = num_peers;
overlay->op_cls = op_cls;
overlay->retry_cnt = DEFAULT_RETRY_CNT;
overlay->comp_cb = comp_cb;
overlay->comp_cb_cls = comp_cb_cls;
switch (topo)
{
case GNUNET_TESTBED_TOPOLOGY_LINE:
gen_topo_line (tc);
break;
case GNUNET_TESTBED_TOPOLOGY_STAR:
gen_topo_star (tc);
break;
case GNUNET_TESTBED_TOPOLOGY_RING:
gen_topo_ring (tc);
break;
case GNUNET_TESTBED_TOPOLOGY_ERDOS_RENYI:
gen_topo_random (tc, va_arg (va, unsigned int), GNUNET_NO);
break;
case GNUNET_TESTBED_TOPOLOGY_SMALL_WORLD_RING:
gen_topo_ring (tc);
gen_topo_random (tc, va_arg (va, unsigned int), GNUNET_YES);
break;
case GNUNET_TESTBED_TOPOLOGY_CLIQUE:
gen_topo_clique (tc);
break;
case GNUNET_TESTBED_TOPOLOGY_2D_TORUS:
gen_topo_2dtorus (tc);
break;
case GNUNET_TESTBED_TOPOLOGY_SMALL_WORLD:
gen_topo_2dtorus (tc);
gen_topo_random (tc, va_arg (va, unsigned int), GNUNET_YES);
break;
case GNUNET_TESTBED_TOPOLOGY_SCALE_FREE:
{
uint16_t cap;
uint8_t m;
cap = (uint16_t) va_arg (va, unsigned int);
m = (uint8_t) va_arg (va, unsigned int);
gen_topo_scale_free (tc, cap, m);
}
break;
case GNUNET_TESTBED_TOPOLOGY_FROM_FILE:
{
const char *filename;
filename = va_arg (va, const char *);
GNUNET_assert (NULL != filename);
gen_topo_from_file (tc, filename);
}
break;
default:
GNUNET_break (0);
GNUNET_free (tc);
return NULL;
}
do
{
secondary_option = va_arg (va, enum GNUNET_TESTBED_TopologyOption);
switch (secondary_option)
{
case GNUNET_TESTBED_TOPOLOGY_RETRY_CNT:
overlay->retry_cnt = va_arg (va, unsigned int);
break;
case GNUNET_TESTBED_TOPOLOGY_OPTION_END:
break;
default:
GNUNET_break (0); /* Should not use any other option apart from
* the ones handled here */
GNUNET_free_non_null (overlay->link_array);
GNUNET_free (tc);
return NULL;
}
}
while (GNUNET_TESTBED_TOPOLOGY_OPTION_END != secondary_option);
op = GNUNET_TESTBED_operation_create_ (tc,
&opstart_overlay_configure_topology,
&oprelease_overlay_configure_topology);
GNUNET_TESTBED_operation_queue_insert_
(c->opq_parallel_topology_config_operations, op);
GNUNET_TESTBED_operation_begin_wait_ (op);
LOG (GNUNET_ERROR_TYPE_DEBUG,
"Generated %u connections\n",
tc->link_array_size);
if (NULL != max_connections)
*max_connections = tc->link_array_size;
return op;
}
/**
* All peers must have been started before calling this function.
* This function then connects the given peers in the P2P overlay
* using the given topology.
*
* @param op_cls closure argument to give with the peer connect operation events
* generated through this function
* @param num_peers number of peers in 'peers'
* @param peers array of 'num_peers' with the peers to configure
* @param max_connections the maximums number of overlay connections that will
* be made to achieve the given topology
* @param comp_cb the completion callback to call when the topology generation
* is completed
* @param comp_cb_cls closure for the above completion callback
* @param topo desired underlay topology to use
* @param ... topology-specific options
* @return handle to the operation, NULL if connecting these
* peers is fundamentally not possible at this time (peers
* not running or underlay disallows) or if num_peers is less than 2
*/
struct GNUNET_TESTBED_Operation *
GNUNET_TESTBED_overlay_configure_topology (void *op_cls,
unsigned int num_peers,
struct GNUNET_TESTBED_Peer **peers,
unsigned int *max_connections,
GNUNET_TESTBED_TopologyCompletionCallback
comp_cb,
void *comp_cb_cls,
enum GNUNET_TESTBED_TopologyOption topo,
...)
{
struct GNUNET_TESTBED_Operation *op;
va_list vargs;
GNUNET_assert (topo < GNUNET_TESTBED_TOPOLOGY_OPTION_END);
va_start (vargs, topo);
op = GNUNET_TESTBED_overlay_configure_topology_va (op_cls, num_peers, peers,
max_connections,
comp_cb, comp_cb_cls,
topo,
vargs);
va_end (vargs);
return op;
}
/**
* Get a topology from a string input.
*
* @param topology where to write the retrieved topology
* @param topology_string The string to attempt to
* get a configuration value from
* @return #GNUNET_YES if topology string matched a
* known topology, #GNUNET_NO if not
*/
int
GNUNET_TESTBED_topology_get_ (enum GNUNET_TESTBED_TopologyOption *topology,
const char *topology_string)
{
unsigned int cnt;
for (cnt = 0; NULL != topology_strings[cnt]; cnt++)
{
if (0 == strcasecmp (topology_string, topology_strings[cnt]))
{
if (NULL != topology)
*topology = (enum GNUNET_TESTBED_TopologyOption) cnt;
GNUNET_assert (GNUNET_TESTBED_TOPOLOGY_OPTION_END != (enum GNUNET_TESTBED_TopologyOption) cnt);
return GNUNET_YES;
}
}
return GNUNET_NO;
}
/**
* Returns the string corresponding to the given topology
*
* @param topology the topology
* @return the string (freshly allocated) of given topology; NULL if topology cannot be
* expressed as a string
*/
char *
GNUNET_TESTBED_topology_to_str_ (enum GNUNET_TESTBED_TopologyOption topology)
{
if (GNUNET_TESTBED_TOPOLOGY_OPTION_END <= topology)
return NULL;
return GNUNET_strdup (topology_strings[topology]);
}
/**
* Function to construct an underlay topology
*
* @param num_peers the number of peers for which the topology should be
* generated
* @param proc the underlay link processor callback. Will be called for each
* underlay link generated unless a previous call to this callback
* returned #GNUNET_SYSERR. Cannot be NULL.
* @param cls closure for @a proc
* @param ... variable arguments denoting the topology and its parameters. They
* should start with the type of topology to generate followed by their
* options.
* @return #GNUNET_OK if underlay link generation is successful; #GNUNET_SYSERR
* upon error in generating the underlay or if any calls to the
* underlay link processor returned #GNUNET_SYSERR
*/
int
GNUNET_TESTBED_underlay_construct_ (int num_peers,
underlay_link_processor proc,
void *cls,
...)
{
struct TopologyContext tc;
struct TopologyContextUnderlay *underlay;
struct UnderlayLink *ulink;
va_list vargs;
enum GNUNET_TESTBED_TopologyOption topology;
unsigned int cnt;
int ret;
GNUNET_assert (NULL != proc);
ret = GNUNET_OK;
memset (&tc, 0, sizeof (tc));
tc.num_peers = num_peers;
tc.type = TOPOLOGYCONTEXT_TYPE_UNDERLAY;
underlay = &tc.u.underlay;
va_start (vargs, cls);
topology = va_arg (vargs, enum GNUNET_TESTBED_TopologyOption);
switch (topology)
{
case GNUNET_TESTBED_TOPOLOGY_LINE:
gen_topo_line (&tc);
break;
case GNUNET_TESTBED_TOPOLOGY_STAR:
gen_topo_star (&tc);
break;
case GNUNET_TESTBED_TOPOLOGY_RING:
gen_topo_ring (&tc);
break;
case GNUNET_TESTBED_TOPOLOGY_CLIQUE:
gen_topo_clique (&tc);
break;
case GNUNET_TESTBED_TOPOLOGY_2D_TORUS:
gen_topo_2dtorus (&tc);
break;
case GNUNET_TESTBED_TOPOLOGY_ERDOS_RENYI:
gen_topo_random (&tc, va_arg (vargs, unsigned int), GNUNET_NO);
break;
case GNUNET_TESTBED_TOPOLOGY_SMALL_WORLD_RING:
gen_topo_ring (&tc);
gen_topo_random (&tc, va_arg (vargs, unsigned int), GNUNET_YES);
break;
case GNUNET_TESTBED_TOPOLOGY_SMALL_WORLD:
gen_topo_2dtorus (&tc);
gen_topo_random (&tc, va_arg (vargs, unsigned int), GNUNET_YES);
break;
case GNUNET_TESTBED_TOPOLOGY_FROM_FILE:
{
const char *filename;
filename = va_arg (vargs, char *);
GNUNET_assert (NULL != filename);
gen_topo_from_file (&tc, filename);
}
break;
case GNUNET_TESTBED_TOPOLOGY_SCALE_FREE:
{
uint16_t cap;
uint8_t m;
cap = (uint16_t) va_arg (vargs, unsigned int);
m = (uint8_t) va_arg (vargs, unsigned int);
gen_topo_scale_free (&tc, cap, m);
}
break;
default:
GNUNET_assert (0);
}
va_end (vargs);
for (cnt = 0; cnt < tc.link_array_size; cnt++)
{
ulink = &underlay->link_array[cnt];
if (GNUNET_SYSERR == proc (cls,
ulink->A,
ulink->B,
ulink->bandwidth,
ulink->latency,
ulink->loss))
{
ret = GNUNET_SYSERR;
break;
}
}
GNUNET_free_non_null (underlay->link_array);
return ret;
}
/* end of testbed_api_topology.c */
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