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diff --git a/libknet/libknet.h b/libknet/libknet.h
index e1f0fb32..9b5a8973 100644
--- a/libknet/libknet.h
+++ b/libknet/libknet.h
@@ -1,1584 +1,1585 @@
/*
* Copyright (C) 2010-2015 Red Hat, Inc. All rights reserved.
*
* Authors: Fabio M. Di Nitto <fabbione@kronosnet.org>
* Federico Simoncelli <fsimon@kronosnet.org>
*
* This software licensed under GPL-2.0+, LGPL-2.0+
*/
#ifndef __LIBKNET_H__
#define __LIBKNET_H__
#include <stdint.h>
#include <time.h>
#include <netinet/in.h>
/*
* libknet limits
*/
/*
* Maximum number of hosts
*/
typedef uint16_t knet_node_id_t;
#define KNET_MAX_HOST 65536
/*
* Maximum number of links between 2 hosts
*/
#define KNET_MAX_LINK 8
/*
* Maximum packet size that should be written to datafd
* see knet_handle_new for details
*/
#define KNET_MAX_PACKET_SIZE 65536
/*
* Buffers used for pretty logging
* host is used to store both ip addresses and hostnames
*/
#define KNET_MAX_HOST_LEN 256
#define KNET_MAX_PORT_LEN 6
/*
* Some notifications can be generated either on TX or RX
*/
#define KNET_NOTIFY_TX 0
#define KNET_NOTIFY_RX 1
/*
* Link flags
*/
/*
* Where possible, set traffic priority to high.
* On Linux this sets the TOS to INTERACTIVE (6),
* see tc-prio(8) for more infomation
*/
#define KNET_LINK_FLAG_TRAFFICHIPRIO (1ULL << 0)
typedef struct knet_handle *knet_handle_t;
/*
* Handle structs/API calls
*/
/*
* knet_handle_new
*
* host_id - Each host in a knet is identified with a unique
* ID. when creating a new handle local host_id
* must be specified (0 to UINT16T_MAX are all valid).
* It is the user's responsibility to check that the value
* is unique, or bad things might happen.
*
* log_fd - Write file descriptor. If set to a value > 0, it will be used
* to write log packets (see below) from libknet to the application.
* Setting to 0 will disable logging from libknet.
* It is possible to enable logging at any given time (see logging API
* below).
* Make sure to either read from this filedescriptor properly and/or
* mark it O_NONBLOCK, otherwise if the fd becomes full, libknet could
* block.
*
* default_log_level -
* If logfd is specified, it will initialize all subsystems to log
* at default_log_level value. (see logging API below)
*
* on success, a new knet_handle_t is returned.
* on failure, NULL is returned and errno is set.
*/
knet_handle_t knet_handle_new(knet_node_id_t host_id,
int log_fd,
uint8_t default_log_level);
/*
* knet_handle_free
*
* knet_h - pointer to knet_handle_t
*
* Destroy a knet handle, free all resources
*
* knet_handle_free returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_free(knet_handle_t knet_h);
/*
* knet_handle_enable_sock_notify
*
* knet_h - pointer to knet_handle_t
*
* sock_notify_fn_private_data
* void pointer to data that can be used to identify
* the callback.
*
* sock_notify_fn
* A callback function that is invoked every time
* a socket in the datafd pool will report an error (-1)
* or an end of read (0) (see socket.7).
* This function MUST NEVER block or add substantial delays.
* The callback is invoked in an internal unlocked area
* to allow calls to knet_handle_add_datafd/knet_handle_remove_datafd
* to swap/replace the bad fd.
* if both err and errno are 0, it means that the socket
* has received a 0 byte packet (EOF?).
* The callback function must either remove the fd from knet
* (by calling knet_handle_remove_fd()) or dup a new fd in its place.
* Failure to do this can cause problems.
*
* knet_handle_enable_sock_notify returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_enable_sock_notify(knet_handle_t knet_h,
void *sock_notify_fn_private_data,
void (*sock_notify_fn) (
void *private_data,
int datafd,
int8_t channel,
uint8_t tx_rx,
int error,
int errorno)); /* sorry! can't call it errno ;) */
/*
* knet_handle_add_datafd
*
* IMPORTANT: In order to add datafd to knet, knet_handle_enable_sock_notify
* _MUST_ be set and be able to handle both errors (-1) and
* 0 bytes read / write from the provided datafd.
* On read error (< 0) from datafd, the socket is automatically
* removed from polling to avoid spinning on dead sockets.
* It is safe to call knet_handle_remove_datafd even on sockets
* that have been removed.
*
* knet_h - pointer to knet_handle_t
*
* *datafd - read/write file descriptor.
* knet will read data here to send to the other hosts
* and will write data received from the network.
* Each data packet can be of max size KNET_MAX_PACKET_SIZE!
* Applications using knet_send/knet_recv will receive a
* proper error if the packet size is not within boundaries.
* Applications using their own functions to write to the
* datafd should NOT write more than KNET_MAX_PACKET_SIZE.
*
* Please refer to handle.c on how to set up a socketpair.
*
* datafd can be 0, and knet_handle_add_datafd will create a properly
* populated socket pair the same way as ping_test, or a value
* higher than 0. A negative number will return an error.
* On exit knet_handle_free will take care to cleanup the
* socketpair only if they have been created by knet_handle_add_datafd.
*
* It is possible to pass either sockets or normal fds.
* User provided datafd will be marked as non-blocking and close-on-exit.
*
* *channel - This value has the same effect of VLAN tagging.
* A negative value will auto-allocate a channel.
* Setting a value between 0 and 31 will try to allocate that
* specific channel (unless already in use).
*
* It is possible to add up to 32 datafds but be aware that each
* one of them must have a receiving end on the other host.
*
* Example:
* hostA channel 0 will be delivered to datafd on hostB channel 0
* hostA channel 1 to hostB channel 1.
*
* Each channel must have a unique file descriptor.
*
* If your application could have 2 channels on one host and one
* channel on another host, then you can use dst_host_filter
* to manipulate channel values on TX and RX.
*
* knet_handle_add_datafd returns:
*
* 0 on success
* *datafd will be populated with a socket if the original value was 0
* or if a specific fd was set, the value is untouched.
* *channel will be populated with a channel number if the original value
* was negative or the value is untouched if a specific channel
* was requested.
*
* -1 on error and errno is set.
* *datafd and *channel are untouched or empty.
*/
#define KNET_DATAFD_MAX 32
int knet_handle_add_datafd(knet_handle_t knet_h, int *datafd, int8_t *channel);
/*
* knet_handle_remove_datafd
*
* knet_h - pointer to knet_handle_t
*
* datafd - file descriptor to remove.
* NOTE that if the socket/fd was created by knet_handle_add_datafd,
* the socket will be closed by libknet.
*
* knet_handle_remove_datafd returns:
*
* 0 on success
*
* -1 on error and errno is set.
*/
int knet_handle_remove_datafd(knet_handle_t knet_h, int datafd);
/*
* knet_handle_get_channel
*
* knet_h - pointer to knet_handle_t
*
* datafd - get the channel associated to this datafd
*
* *channel - will contain the result
*
* knet_handle_get_channel returns:
*
* 0 on success
* and *channel will contain the result
*
* -1 on error and errno is set.
* and *channel content is meaningless
*/
int knet_handle_get_channel(knet_handle_t knet_h, const int datafd, int8_t *channel);
/*
* knet_handle_get_datafd
*
* knet_h - pointer to knet_handle_t
*
* channel - get the datafd associated to this channel
*
* *datafd - will contain the result
*
* knet_handle_get_datafd returns:
*
* 0 on success
* and *datafd will contain the results
*
* -1 on error and errno is set.
* and *datafd content is meaningless
*/
int knet_handle_get_datafd(knet_handle_t knet_h, const int8_t channel, int *datafd);
/*
* knet_recv
*
* knet_h - pointer to knet_handle_t
*
* buff - pointer to buffer to store the received data
*
* buff_len - buffer lenght
*
* knet_recv is a commodity function to wrap iovec operations
* around a socket. It returns a call to readv(2).
*/
ssize_t knet_recv(knet_handle_t knet_h,
char *buff,
const size_t buff_len,
const int8_t channel);
/*
* knet_send
*
* knet_h - pointer to knet_handle_t
*
* buff - pointer to the buffer of data to send
*
* buff_len - length of data to send
*
* knet_send is a commodity function to wrap iovec operations
* around a socket. It returns a call to writev(2).
*/
ssize_t knet_send(knet_handle_t knet_h,
const char *buff,
const size_t buff_len,
const int8_t channel);
/*
* knet_send_sync
*
* knet_h - pointer to knet_handle_t
*
* buff - pointer to the buffer of data to send
*
* buff_len - length of data to send
*
* channel - data channel to use (see knet_handle_add_datafd)
*
* All knet RX/TX operations are async for performance reasons.
* There are applications that might need a sync version of data
* transmission and receive errors in case of failure to deliver
* to another host.
* knet_send_sync bypasses the whole TX async layer and delivers
* data directly to the link layer, and returns errors accordingly.
* knet_send_sync allows to send only one packet to one host at
* a time. It does NOT support multiple destinations or multicast
* packets. Decision is still based on dst_host_filter_fn.
*
* knet_send_sync returns 0 on success and -1 on error.
*
* In addition to normal sendmmsg errors, knet_send_sync can fail
* due to:
*
* ECANCELED - data forward is disabled
* EFAULT - dst_host_filter fatal error
* EINVAL - dst_host_filter did not provide
* dst_host_ids_entries on unicast pckts
* E2BIG - dst_host_filter did return more than one
* dst_host_ids_entries on unicast pckts
* ENOMSG - received unknown message type
* EHOSTDOWN - unicast pckt cannot be delivered because
* dest host is not connected yet
* ECHILD - crypto failed
* EAGAIN - sendmmsg was unable to send all messages and
* there was no progress during retry
*/
int knet_send_sync(knet_handle_t knet_h,
const char *buff,
const size_t buff_len,
const int8_t channel);
/*
* knet_handle_enable_filter
*
* knet_h - pointer to knet_handle_t
*
* dst_host_filter_fn_private_data
* void pointer to data that can be used to identify
* the callback.
*
* dst_host_filter_fn -
* is a callback function that is invoked every time
* a packet hits datafd (see knet_handle_new).
* the function allows users to tell libknet where the
* packet has to be delivered.
*
* const unsigned char *outdata - is a pointer to the
* current packet
* ssize_t outdata_len - lenght of the above data
* uint8_t tx_rx - filter is called on tx or rx
* (see defines below)
* knet_node_id_t this_host_id - host_id processing the packet
* knet_node_id_t src_host_id - host_id that generated the
* packet
* knet_node_id_t *dst_host_ids - array of KNET_MAX_HOST knet_node_id_t
* where to store the destinations
* size_t *dst_host_ids_entries - number of hosts to send the message
*
* dst_host_filter_fn should return
* -1 on error, packet is discarded.
* 0 packet is unicast and should be sent to dst_host_ids and there are
* dst_host_ids_entries in the buffer.
* 1 packet is broadcast/multicast and is sent all hosts.
* contents of dst_host_ids and dst_host_ids_entries are ignored.
* (see also kronosnetd/etherfilter.* for an example that filters based
* on ether protocol)
*
* knet_handle_enable_filter returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_enable_filter(knet_handle_t knet_h,
void *dst_host_filter_fn_private_data,
int (*dst_host_filter_fn) (
void *private_data,
const unsigned char *outdata,
ssize_t outdata_len,
uint8_t tx_rx,
knet_node_id_t this_host_id,
knet_node_id_t src_host_id,
int8_t *channel,
knet_node_id_t *dst_host_ids,
size_t *dst_host_ids_entries));
/*
* knet_handle_setfwd
*
* knet_h - pointer to knet_handle_t
*
* enable - set to 1 to allow data forwarding, 0 to disable data forwarding.
*
* knet_handle_setfwd returns:
*
* 0 on success
* -1 on error and errno is set.
*
* By default data forwarding is off and no traffic will pass through knet until
* it is set on.
*/
int knet_handle_setfwd(knet_handle_t knet_h, unsigned int enabled);
/*
* knet_handle_pmtud_setfreq
*
* knet_h - pointer to knet_handle_t
*
* interval - define the interval in seconds between PMTUd scans
* range from 1 to 86400 (24h)
*
* knet_handle_pmtud_setfreq returns:
*
* 0 on success
* -1 on error and errno is set.
*
* default interval is 60.
*/
#define KNET_PMTUD_DEFAULT_INTERVAL 60
int knet_handle_pmtud_setfreq(knet_handle_t knet_h, unsigned int interval);
/*
* knet_handle_pmtud_getfreq
*
* knet_h - pointer to knet_handle_t
*
* interval - pointer where to store the current interval value
*
* knet_handle_pmtud_setfreq returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_pmtud_getfreq(knet_handle_t knet_h, unsigned int *interval);
/*
* knet_handle_enable_pmtud_notify
*
* knet_h - pointer to knet_handle_t
*
* pmtud_notify_fn_private_data
* void pointer to data that can be used to identify
* the callback.
*
* pmtud_notify_fn
* is a callback function that is invoked every time
* a path MTU size change is detected.
* The function allows libknet to notify the user
* of data MTU, that's the max value that can be send
* onwire without fragmentation. The data MTU will always
* be lower than real link MTU because it accounts for
* protocol overhead, knet packet header and (if configured)
* crypto overhead,
* This function MUST NEVER block or add substantial delays.
*
* knet_handle_enable_pmtud_notify returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_enable_pmtud_notify(knet_handle_t knet_h,
void *pmtud_notify_fn_private_data,
void (*pmtud_notify_fn) (
void *private_data,
unsigned int data_mtu));
/*
* knet_handle_pmtud_get
*
* knet_h - pointer to knet_handle_t
*
* data_mtu - pointer where to store data_mtu (see above)
*
* knet_handle_pmtud_get returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_pmtud_get(knet_handle_t knet_h,
unsigned int *data_mtu);
/*
* knet_handle_crypto
*
* knet_h - pointer to knet_handle_t
*
* knet_handle_crypto_cfg -
* pointer to a knet_handle_crypto_cfg structure
*
* crypto_model should contain the model name.
* Currently only "nss" is supported.
* Setting to "none" will disable crypto.
*
* crypto_cipher_type
* should contain the cipher algo name.
* It can be set to "none" to disable
* encryption.
* Currently supported by "nss" model:
* "3des", "aes128", "aes192" and "aes256".
*
* crypto_hash_type
* should contain the hashing algo name.
* It can be set to "none" to disable
* hashing.
* Currently supported by "nss" model:
* "md5", "sha1", "sha256", "sha384" and "sha512".
*
* private_key will contain the private shared key.
* It has to be at least KNET_MIN_KEY_LEN long.
*
* private_key_len
* length of the provided private_key.
*
* Implementation notes/current limitations:
* - enabling crypto, will increase latency as packets have
* to processed.
* - enabling crypto might reduce the overall throughtput
* due to crypto data overhead.
* - re-keying is not implemented yet.
* - private/public key encryption/hashing is not currently
* planned.
* - crypto key must be the same for all hosts in the same
* knet instance.
* - it is safe to call knet_handle_crypto multiple times at runtime.
* The last config will be used.
* IMPORTANT: a call to knet_handle_crypto can fail due to:
* 1) failure to obtain locking
* 2) errors to initializing the crypto level.
* This can happen even in subsequent calls to knet_handle_crypto.
* A failure in crypto init, might leave your traffic unencrypted!
* It's best to stop data forwarding (see above), change crypto config,
* start forward again.
*
* knet_handle_crypto returns:
*
* 0 on success
* -1 on error and errno is set.
* -2 on crypto subsystem initialization error. No errno is provided at the moment (yet).
*/
#define KNET_MIN_KEY_LEN 256
#define KNET_MAX_KEY_LEN 4096
struct knet_handle_crypto_cfg {
char crypto_model[16];
char crypto_cipher_type[16];
char crypto_hash_type[16];
unsigned char private_key[KNET_MAX_KEY_LEN];
unsigned int private_key_len;
};
int knet_handle_crypto(knet_handle_t knet_h,
struct knet_handle_crypto_cfg *knet_handle_crypto_cfg);
/*
* host structs/API calls
*/
/*
* knet_host_add
*
* knet_h - pointer to knet_handle_t
*
* host_id - each host in a knet is identified with a unique ID
* (see also knet_handle_new documentation above)
*
* knet_host_add returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_add(knet_handle_t knet_h, knet_node_id_t host_id);
/*
* knet_host_remove
*
* knet_h - pointer to knet_handle_t
*
* host_id - each host in a knet is identified with a unique ID
* (see also knet_handle_new documentation above)
*
* knet_host_remove returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_remove(knet_handle_t knet_h, knet_node_id_t host_id);
/*
* knet_host_set_name
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* name - this name will be used for pretty logging and eventually
* search for hosts (see also get_name and get_id below).
* Only up to KNET_MAX_HOST_LEN - 1 bytes will be accepted and
* name has to be unique for each host.
*
* knet_host_set_name returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_set_name(knet_handle_t knet_h, knet_node_id_t host_id,
const char *name);
/*
* knet_host_get_name_by_host_id
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* name - pointer to a preallocated buffer of at least size KNET_MAX_HOST_LEN
* where the current host name will be stored
* (as set by knet_host_set_name or default by knet_host_add)
*
* knet_host_get_name_by_host_id returns:
*
* 0 on success
* -1 on error and errno is set (name is left untouched)
*/
int knet_host_get_name_by_host_id(knet_handle_t knet_h, knet_node_id_t host_id,
char *name);
/*
* knet_host_get_id_by_host_name
*
* knet_h - pointer to knet_handle_t
*
* name - name to lookup, max len KNET_MAX_HOST_LEN
*
* host_id - where to store the result
*
* knet_host_get_id_by_host_name returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_get_id_by_host_name(knet_handle_t knet_h, const char *name,
knet_node_id_t *host_id);
/*
* knet_host_get_host_list
*
* knet_h - pointer to knet_handle_t
*
* host_ids - array of at lest KNET_MAX_HOST size
*
* host_ids_entries -
* number of entries writted in host_ids
*
* knet_host_get_host_list returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_get_host_list(knet_handle_t knet_h,
knet_node_id_t *host_ids, size_t *host_ids_entries);
/*
* define switching policies
*/
#define KNET_LINK_POLICY_PASSIVE 0
#define KNET_LINK_POLICY_ACTIVE 1
#define KNET_LINK_POLICY_RR 2
/*
* knet_host_set_policy
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* policy - there are currently 3 kind of simple switching policies
* as defined above, based on link configuration.
* KNET_LINK_POLICY_PASSIVE - the active link with the lowest
* priority will be used.
* if one or more active links share
* the same priority, the one with
* lowest link_id will be used.
*
* KNET_LINK_POLICY_ACTIVE - all active links will be used
* simultaneously to send traffic.
* link priority is ignored.
*
* KNET_LINK_POLICY_RR - round-robin policy, every packet
* will be send on a different active
* link.
*
* knet_host_set_policy returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_set_policy(knet_handle_t knet_h, knet_node_id_t host_id,
uint8_t policy);
/*
* knet_host_get_policy
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* policy - will contain the current configured switching policy.
* Default is passive when creating a new host.
*
* knet_host_get_policy returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_get_policy(knet_handle_t knet_h, knet_node_id_t host_id,
uint8_t *policy);
/*
* knet_host_enable_status_change_notify
*
* knet_h - pointer to knet_handle_t
*
* host_status_change_notify_fn_private_data
* void pointer to data that can be used to identify
* the callback.
*
* host_status_change_notify_fn
* is a callback function that is invoked every time
* there is a change in the host status.
* host status is identified by:
* - reachable, this host can send/receive data to/from host_id
* - remote, 0 if the host_id is connected locally or 1 if
* the there is one or more knet host(s) in between.
* NOTE: re-switching is NOT currently implemented,
* but this is ready for future and can avoid
* an API/ABI breakage later on.
* - external, 0 if the host_id is configured locally or 1 if
* it has been added from remote nodes config.
* NOTE: dynamic topology is NOT currently implemented,
* but this is ready for future and can avoid
* an API/ABI breakage later on.
* This function MUST NEVER block or add substantial delays.
*
* knet_host_status_change_notify returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_enable_status_change_notify(knet_handle_t knet_h,
void *host_status_change_notify_fn_private_data,
void (*host_status_change_notify_fn) (
void *private_data,
knet_node_id_t host_id,
uint8_t reachable,
uint8_t remote,
uint8_t external));
/*
* define host status structure for quick lookup
* struct is in flux as more stats will be added soon
*
* reachable host_id can be seen either directly connected
* or via another host_id
*
* remote 0 = node is connected locally, 1 is visible via
* via another host_id
*
* external 0 = node is configured/known locally,
* 1 host_id has been received via another host_id
*/
struct knet_host_status {
uint8_t reachable;
uint8_t remote;
uint8_t external;
/* add host statistics */
};
/*
* knet_host_status_get
*
* knet_h - pointer to knet_handle_t
*
* status - pointer to knet_host_status struct (see above)
*
* knet_handle_pmtud_get returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_host_get_status(knet_handle_t knet_h, knet_node_id_t host_id,
struct knet_host_status *status);
/*
* link structs/API calls
*
* every host allocated/managed by knet_host_* has
* KNET_MAX_LINK structures to define the network
* paths that connect 2 hosts.
*
* Each link is identified by a link_id that has a
* values between 0 and KNET_MAX_LINK - 1.
*
* KNOWN LIMITATIONS:
*
* - let's assume the scenario where two hosts are connected
* with any number of links. link_id must match on both sides.
* If host_id 0 link_id 0 is configured to connect IP1 to IP2 and
* host_id 0 link_id 1 is configured to connect IP3 to IP4,
* host_id 1 link_id 0 _must_ connect IP2 to IP1 and likewise
* host_id 1 link_id 1 _must_ connect IP4 to IP3.
* We might be able to lift this restriction in future, by using
* other data to determine src/dst link_id, but for now, deal with it.
*
* -
*/
/*
* commodity functions to convert strings to sockaddr and viceversa
*/
/*
* knet_strtoaddr
*
* host - IPaddr/hostname to convert
* be aware only the first IP address will be returned
* in case a hostname resolves to multiple IP
*
* port - port to connect to
*
* ss - sockaddr_storage where to store the converted data
*
* sslen - len of the sockaddr_storage
*
* knet_strtoaddr returns same error codes as getaddrinfo
*
*/
int knet_strtoaddr(const char *host, const char *port,
struct sockaddr_storage *ss, socklen_t sslen);
/*
* knet_addrtostr
*
* ss - sockaddr_storage to convert
*
* sslen - len of the sockaddr_storage
*
* host - IPaddr/hostname where to store data
* (recommended size: KNET_MAX_HOST_LEN)
*
* port - port buffer where to store data
* (recommended size: KNET_MAX_PORT_LEN)
*
* knet_strtoaddr returns same error codes as getnameinfo
*
*/
int knet_addrtostr(const struct sockaddr_storage *ss, socklen_t sslen,
char *addr_buf, size_t addr_buf_size,
char *port_buf, size_t port_buf_size);
/*
* knet_handle_get_transport_list
*
* knet_h - pointer to knet_handle_t
*
* transport_list - an array of struct transport_info that must be
* at least of size struct transport_info * KNET_MAX_TRANSPORTS
*
* transport_list_entries - pointer to a size_t where to store how many transports
* are available in this build of libknet.
*
* knet_handle_get_transport_list returns:
*
* 0 on success
* -1 on error and errno is set.
*/
#define KNET_TRANSPORT_LOOPBACK 0
#define KNET_TRANSPORT_UDP 1
#define KNET_TRANSPORT_SCTP 2
#define KNET_MAX_TRANSPORTS 3
/*
* The Loopback transport is only valid for connections to localhost, the host
* with the same node_id specified in knet_handle_new(). Only one link of this
* type is allowed. Data sent down a LOOPBACK link will be copied directly from
* the knet send datafd to the knet receive datafd so the application must be set
* up to take data from that socket at least as often as it is sent or deadlocks
- * could occur.
+ * could occur. If used, a LOOPBACK link must be the only link configured to the
+ * local host.
*/
struct transport_info {
const char *name; /* UDP/SCTP/etc... */
uint8_t id; /* value that can be used for link_set_config */
uint8_t properties; /* currently unused */
};
int knet_handle_get_transport_list(knet_handle_t knet_h,
struct transport_info *transport_list, size_t *transport_list_entries);
/*
* knet_handle_get_transport_name_by_id
*
* knet_h - pointer to knet_handle_t
*
* transport - one of the above KNET_TRANSPORT_xxx constants
*
* knet_handle_get_transport_name_by_id returns:
*
* pointer to the name on success or
* NULL on error and errno is set.
*/
const char *knet_handle_get_transport_name_by_id(knet_handle_t knet_h, uint8_t transport);
/*
* knet_handle_get_transport_id_by_name
*
* knet_h - pointer to knet_handle_t
*
* name - transport name (UDP/SCTP/etc)
*
* knet_handle_get_transport_name_by_id returns:
*
* KNET_MAX_TRANSPORTS on error and errno is set accordingly
* KNET_TRANSPORT_xxx on success.
*/
uint8_t knet_handle_get_transport_id_by_name(knet_handle_t knet_h, const char *name);
/*
* knet_handle_set_transport_reconnect_interval
*
* knet_h - pointer to knet_handle_t
*
* msecs - milliseconds
*
* knet_handle_set_transport_reconnect_interval returns:
*
* 0 on success
* -1 on error and errno is set.
*/
#define KNET_TRANSPORT_DEFAULT_RECONNECT_INTERVAL 1000
int knet_handle_set_transport_reconnect_interval(knet_handle_t knet_h, uint32_t msecs);
/*
* knet_handle_get_transport_reconnect_interval
*
* knet_h - pointer to knet_handle_t
*
* msecs - milliseconds
*
* knet_handle_get_transport_reconnect_interval returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_handle_get_transport_reconnect_interval(knet_handle_t knet_h, uint32_t *msecs);
/*
* knet_link_set_config
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* transport - one of the above KNET_TRANSPORT_xxx constants
*
* src_addr - sockaddr_storage that can be either IPv4 or IPv6
*
* dst_addr - sockaddr_storage that can be either IPv4 or IPv6
* this can be null if we don't know the incoming
* IP address/port and the link will remain quiet
* till the node on the other end will initiate a
* connection
*
* flags - KNET_LINK_FLAG_*
*
* knet_link_set_config returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_set_config(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t transport,
struct sockaddr_storage *src_addr,
struct sockaddr_storage *dst_addr,
uint64_t flags);
/*
* knet_link_get_config
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* transport - see above
*
* src_addr - sockaddr_storage that can be either IPv4 or IPv6
*
* dst_addr - sockaddr_storage that can be either IPv4 or IPv6
*
* dynamic - 0 if dst_addr is static or 1 if dst_addr is dynamic.
* In case of 1, dst_addr can be NULL and it will be left
* untouched.
*
* flags - KNET_LINK_FLAG_*
*
* knet_link_get_config returns:
*
* 0 on success.
* -1 on error and errno is set.
*/
int knet_link_get_config(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t *transport,
struct sockaddr_storage *src_addr,
struct sockaddr_storage *dst_addr,
uint8_t *dynamic,
uint64_t *flags);
/*
* knet_link_clear_config
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* knet_link_clear_config returns:
*
* 0 on success.
* -1 on error and errno is set.
*/
int knet_link_clear_config(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id);
/*
* knet_link_set_enable
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* enabled - 0 disable the link, 1 enable the link
*
* knet_link_set_enable returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_set_enable(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
unsigned int enabled);
/*
* knet_link_get_enable
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* enabled - 0 disable the link, 1 enable the link
*
* knet_link_get_enable returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_get_enable(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
unsigned int *enabled);
/*
* knet_link_set_ping_timers
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* interval - specify the ping interval
*
* timeout - if no pong is received within this time,
* the link is declared dead
*
* precision - how many values of latency are used to calculate
* the average link latency (see also get_status below)
*
* knet_link_set_ping_timers returns:
*
* 0 on success
* -1 on error and errno is set.
*/
#define KNET_LINK_DEFAULT_PING_INTERVAL 1000 /* 1 second */
#define KNET_LINK_DEFAULT_PING_TIMEOUT 2000 /* 2 seconds */
#define KNET_LINK_DEFAULT_PING_PRECISION 2048 /* samples */
int knet_link_set_ping_timers(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
time_t interval, time_t timeout, unsigned int precision);
/*
* knet_link_get_ping_timers
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* interval - ping intervall
*
* timeout - if no pong is received within this time,
* the link is declared dead
*
* precision - how many values of latency are used to calculate
* the average link latency (see also get_status below)
*
* knet_link_get_ping_timers returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_get_ping_timers(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
time_t *interval, time_t *timeout, unsigned int *precision);
/*
* knet_link_set_pong_count
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* pong_count - how many valid ping/pongs before a link is marked UP.
* default: 5, value should be > 0
*
* knet_link_set_pong_count returns:
*
* 0 on success
* -1 on error and errno is set.
*/
#define KNET_LINK_DEFAULT_PONG_COUNT 5
int knet_link_set_pong_count(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t pong_count);
/*
* knet_link_get_pong_count
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* pong_count - see above
*
* knet_link_get_pong_count returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_get_pong_count(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t *pong_count);
/*
* knet_link_set_priority
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* priority - specify the switching priority for this link
* see also knet_host_set_policy
*
* knet_link_set_priority returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_set_priority(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t priority);
/*
* knet_link_get_priority
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* priority - gather the switching priority for this link
* see also knet_host_set_policy
*
* knet_link_get_priority returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_get_priority(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t *priority);
/*
* knet_link_get_link_list
*
* knet_h - pointer to knet_handle_t
*
* link_ids - array of at lest KNET_MAX_LINK size
* with the list of configured links for a certain host.
*
* link_ids_entries -
* number of entries contained in link_ids
*
* knet_link_get_link_list returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_get_link_list(knet_handle_t knet_h, knet_node_id_t host_id,
uint8_t *link_ids, size_t *link_ids_entries);
/*
* define link status structure for quick lookup
*
* src/dst_{ipaddr,port} strings are filled by
* getnameinfo(3) when configuring the link.
* if the link is dynamic (see knet_link_set_config)
* dst_ipaddr/port will contain ipaddr/port of the currently
* connected peer or "Unknown" if it was not possible
* to determine the ipaddr/port at runtime.
*
* enabled see also knet_link_set/get_enable.
*
* connected the link is connected to a peer and ping/pong traffic
* is flowing.
*
* dynconnected the link has dynamic ip on the other end, and
* we can see the other host is sending pings to us.
*
* latency average latency of this link
* see also knet_link_set/get_timeout.
*
* pong_last if the link is down, this value tells us how long
* ago this link was active. A value of 0 means that the link
* has never been active.
*
* knet_link_stats structure that contains details statistics for the link
*/
#define MAX_LINK_EVENTS 16
struct knet_link_stats {
/* onwire values */
uint64_t tx_data_packets;
uint64_t rx_data_packets;
uint64_t tx_data_bytes;
uint64_t rx_data_bytes;
uint64_t rx_ping_packets;
uint64_t tx_ping_packets;
uint64_t rx_ping_bytes;
uint64_t tx_ping_bytes;
uint64_t rx_pong_packets;
uint64_t tx_pong_packets;
uint64_t rx_pong_bytes;
uint64_t tx_pong_bytes;
uint64_t rx_pmtu_packets;
uint64_t tx_pmtu_packets;
uint64_t rx_pmtu_bytes;
uint64_t tx_pmtu_bytes;
/* Only filled in when requested */
uint64_t tx_total_packets;
uint64_t rx_total_packets;
uint64_t tx_total_bytes;
uint64_t rx_total_bytes;
uint64_t tx_total_errors;
uint64_t tx_total_retries;
uint32_t tx_pmtu_errors;
uint32_t tx_pmtu_retries;
uint32_t tx_ping_errors;
uint32_t tx_ping_retries;
uint32_t tx_pong_errors;
uint32_t tx_pong_retries;
uint32_t tx_data_errors;
uint32_t tx_data_retries;
/* measured in usecs */
uint32_t latency_min;
uint32_t latency_max;
uint32_t latency_ave;
uint32_t latency_samples;
/* how many times the link has been going up/down */
uint32_t down_count;
uint32_t up_count;
/*
* circular buffer of time_t structs collecting the history
* of up/down events on this link.
* the index indicates current/last event.
* it is safe to walk back the history by decreasing the index
*/
time_t last_up_times[MAX_LINK_EVENTS];
time_t last_down_times[MAX_LINK_EVENTS];
int8_t last_up_time_index;
int8_t last_down_time_index;
/* Always add new stats at the end */
};
struct knet_link_status {
size_t size; /* For ABI checking */
char src_ipaddr[KNET_MAX_HOST_LEN];
char src_port[KNET_MAX_PORT_LEN];
char dst_ipaddr[KNET_MAX_HOST_LEN];
char dst_port[KNET_MAX_PORT_LEN];
uint8_t enabled; /* link is configured and admin enabled for traffic */
uint8_t connected; /* link is connected for data (local view) */
uint8_t dynconnected; /* link has been activated by remote dynip */
unsigned long long latency; /* average latency computed by fix/exp */
struct timespec pong_last;
unsigned int mtu; /* current detected MTU on this link */
unsigned int proto_overhead; /* contains the size of the IP protocol, knet headers and
* crypto headers (if configured). This value is filled in
* ONLY after the first PMTUd run on that given link,
* and can change if link configuration or crypto configuration
* changes at runtime.
* WARNING: in general mtu + proto_overhead might or might
* not match the output of ifconfig mtu due to crypto
* requirements to pad packets to some specific boundaries. */
/* Link statistics */
struct knet_link_stats stats;
};
/*
* knet_link_get_status
*
* knet_h - pointer to knet_handle_t
*
* host_id - see above
*
* link_id - see above
*
* status - pointer to knet_link_status struct (see above)
*
* struct_size - max size of knet_link_status - allows library to
* add fields without ABI change. Returned structure
* will be truncated to this length and .size member
* indicates the full size.
*
* knet_link_get_status returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_link_get_status(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
struct knet_link_status *status, size_t struct_size);
/*
* logging structs/API calls
*/
/*
* libknet is composed of several subsystems. In order
* to easily distinguish log messages coming from different
* places, each subsystem has its own ID.
*
* 0-19 config/management
* 20-39 internal threads
* 40-59 transports
* 60-69 crypto implementations
*/
#define KNET_SUB_COMMON 0 /* common.c */
#define KNET_SUB_HANDLE 1 /* handle.c alloc/dealloc config changes */
#define KNET_SUB_HOST 2 /* host add/del/modify */
#define KNET_SUB_LISTENER 3 /* listeners add/del/modify... */
#define KNET_SUB_LINK 4 /* link add/del/modify */
#define KNET_SUB_TRANSPORT 5 /* Transport common */
#define KNET_SUB_CRYPTO 6 /* crypto.c config generic layer */
#define KNET_SUB_FILTER 19 /* allocated for users to log from dst_filter */
#define KNET_SUB_DSTCACHE 20 /* switching thread (destination cache handling) */
#define KNET_SUB_HEARTBEAT 21 /* heartbeat thread */
#define KNET_SUB_PMTUD 22 /* Path MTU Discovery thread */
#define KNET_SUB_TX 23 /* send to link thread */
#define KNET_SUB_RX 24 /* recv from link thread */
#define KNET_SUB_TRANSP_BASE 40 /* Base log level for transports */
#define KNET_SUB_TRANSP_LOOPBACK (KNET_SUB_TRANSP_BASE + KNET_TRANSPORT_LOOPBACK)
#define KNET_SUB_TRANSP_UDP (KNET_SUB_TRANSP_BASE + KNET_TRANSPORT_UDP)
#define KNET_SUB_TRANSP_SCTP (KNET_SUB_TRANSP_BASE + KNET_TRANSPORT_SCTP)
#define KNET_SUB_NSSCRYPTO 60 /* nsscrypto.c */
#define KNET_SUB_UNKNOWN 254
#define KNET_MAX_SUBSYSTEMS KNET_SUB_UNKNOWN + 1
/*
* Convert between subsystem IDs and names
*/
/*
* knet_log_get_subsystem_name
*
* return internal name of the subsystem or "common"
*/
const char *knet_log_get_subsystem_name(uint8_t subsystem);
/*
* knet_log_get_subsystem_id
*
* return internal ID of the subsystem or KNET_SUB_COMMON
*/
uint8_t knet_log_get_subsystem_id(const char *name);
/*
* 4 log levels are enough for everybody
*/
#define KNET_LOG_ERR 0 /* unrecoverable errors/conditions */
#define KNET_LOG_WARN 1 /* recoverable errors/conditions */
#define KNET_LOG_INFO 2 /* info, link up/down, config changes.. */
#define KNET_LOG_DEBUG 3
/*
* Convert between log level values and names
*/
/*
* knet_log_get_loglevel_name
*
* return internal name of the log level or "ERROR" for unknown values
*/
const char *knet_log_get_loglevel_name(uint8_t level);
/*
* knet_log_get_loglevel_id
*
* return internal log level ID or KNET_LOG_ERR for invalid names
*/
uint8_t knet_log_get_loglevel_id(const char *name);
/*
* every log message is composed by a text message (including a trailing \n)
* and message level/subsystem IDs.
* In order to make debugging easier it is possible to send those packets
* straight to stdout/stderr (see knet_bench.c stdout option).
*/
#define KNET_MAX_LOG_MSG_SIZE 256
struct knet_log_msg {
char msg[KNET_MAX_LOG_MSG_SIZE - (sizeof(uint8_t)*2)];
uint8_t subsystem; /* KNET_SUB_* */
uint8_t msglevel; /* KNET_LOG_* */
};
/*
* knet_log_set_log_level
*
* knet_h - same as above
*
* subsystem - same as above
*
* level - same as above
*
* knet_log_set_loglevel allows fine control of log levels by subsystem.
* See also knet_handle_new for defaults.
*
* knet_log_set_loglevel returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_log_set_loglevel(knet_handle_t knet_h, uint8_t subsystem,
uint8_t level);
/*
* knet_log_get_log_level
*
* knet_h - same as above
*
* subsystem - same as above
*
* level - same as above
*
* knet_log_get_loglevel returns:
*
* 0 on success
* -1 on error and errno is set.
*/
int knet_log_get_loglevel(knet_handle_t knet_h, uint8_t subsystem,
uint8_t *level);
#endif
diff --git a/libknet/link.c b/libknet/link.c
index 0fafe572..e7e6bfd0 100644
--- a/libknet/link.c
+++ b/libknet/link.c
@@ -1,1055 +1,1068 @@
/*
* Copyright (C) 2010-2015 Red Hat, Inc. All rights reserved.
*
* Authors: Fabio M. Di Nitto <fabbione@kronosnet.org>
* Federico Simoncelli <fsimon@kronosnet.org>
*
* This software licensed under GPL-2.0+, LGPL-2.0+
*/
#include "config.h"
#include <errno.h>
#include <netdb.h>
#include <string.h>
#include <pthread.h>
#include "internals.h"
#include "logging.h"
#include "link.h"
#include "transports.h"
#include "host.h"
int _link_updown(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
unsigned int enabled, unsigned int connected)
{
struct knet_link *link = &knet_h->host_index[host_id]->link[link_id];
if ((link->status.enabled == enabled) &&
(link->status.connected == connected))
return 0;
link->status.enabled = enabled;
link->status.connected = connected;
_host_dstcache_update_async(knet_h, knet_h->host_index[host_id]);
if ((link->status.dynconnected) &&
(!link->status.connected))
link->status.dynconnected = 0;
if (connected) {
time(&link->status.stats.last_up_times[link->status.stats.last_up_time_index]);
link->status.stats.up_count++;
if (++link->status.stats.last_up_time_index > MAX_LINK_EVENTS) {
link->status.stats.last_up_time_index = 0;
}
} else {
time(&link->status.stats.last_down_times[link->status.stats.last_down_time_index]);
link->status.stats.down_count++;
if (++link->status.stats.last_down_time_index > MAX_LINK_EVENTS) {
link->status.stats.last_down_time_index = 0;
}
}
return 0;
}
int knet_link_set_config(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t transport,
struct sockaddr_storage *src_addr,
struct sockaddr_storage *dst_addr,
uint64_t flags)
{
- int savederrno = 0, err = 0;
+ int savederrno = 0, err = 0, i;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!src_addr) {
errno = EINVAL;
return -1;
}
if (transport >= KNET_MAX_TRANSPORTS) {
errno = EINVAL;
return -1;
}
if (!knet_h->transport_ops[transport]) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get write lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
if (transport == KNET_TRANSPORT_LOOPBACK && knet_h->host_id != host_id) {
log_err(knet_h, KNET_SUB_LINK, "Cannot create loopback link to remote node");
- errno = EINVAL;
+ err = -1;
+ savederrno = EINVAL;
goto exit_unlock;
}
- if (transport == KNET_TRANSPORT_LOOPBACK && knet_h->host_id != host_id && knet_h->has_loop_link) {
- log_err(knet_h, KNET_SUB_LINK, "Cannot create more than 1 loopback link");
- errno = EINVAL;
+ if (knet_h->host_id == host_id && knet_h->has_loop_link) {
+ log_err(knet_h, KNET_SUB_LINK, "Cannot create more than 1 link when loopback is active");
+ err = -1;
+ savederrno = EINVAL;
goto exit_unlock;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
+ if (transport == KNET_TRANSPORT_LOOPBACK && knet_h->host_id == host_id) {
+ for (i=0; i<KNET_MAX_LINK; i++) {
+ if (host->link[i].configured) {
+ log_err(knet_h, KNET_SUB_LINK, "Cannot add loopback link when other links are already configured.");
+ err = -1;
+ savederrno = EINVAL;
+ goto exit_unlock;
+ }
+ }
+ }
+
link = &host->link[link_id];
if (link->configured != 0) {
err =-1;
savederrno = EBUSY;
log_err(knet_h, KNET_SUB_LINK, "Host %u link %u is currently configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
if (link->status.enabled != 0) {
err =-1;
savederrno = EBUSY;
log_err(knet_h, KNET_SUB_LINK, "Host %u link %u is currently in use: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
memmove(&link->src_addr, src_addr, sizeof(struct sockaddr_storage));
err = knet_addrtostr(src_addr, sizeof(struct sockaddr_storage),
link->status.src_ipaddr, KNET_MAX_HOST_LEN,
link->status.src_port, KNET_MAX_PORT_LEN);
if (err) {
if (err == EAI_SYSTEM) {
savederrno = errno;
log_warn(knet_h, KNET_SUB_LINK,
"Unable to resolve host: %u link: %u source addr/port: %s",
host_id, link_id, strerror(savederrno));
} else {
savederrno = EINVAL;
log_warn(knet_h, KNET_SUB_LINK,
"Unable to resolve host: %u link: %u source addr/port: %s",
host_id, link_id, gai_strerror(err));
}
err = -1;
goto exit_unlock;
}
if (!dst_addr) {
link->dynamic = KNET_LINK_DYNIP;
} else {
link->dynamic = KNET_LINK_STATIC;
memmove(&link->dst_addr, dst_addr, sizeof(struct sockaddr_storage));
err = knet_addrtostr(dst_addr, sizeof(struct sockaddr_storage),
link->status.dst_ipaddr, KNET_MAX_HOST_LEN,
link->status.dst_port, KNET_MAX_PORT_LEN);
if (err) {
if (err == EAI_SYSTEM) {
savederrno = errno;
log_warn(knet_h, KNET_SUB_LINK,
"Unable to resolve host: %u link: %u destination addr/port: %s",
host_id, link_id, strerror(savederrno));
} else {
savederrno = EINVAL;
log_warn(knet_h, KNET_SUB_LINK,
"Unable to resolve host: %u link: %u destination addr/port: %s",
host_id, link_id, gai_strerror(err));
}
err = -1;
goto exit_unlock;
}
}
link->transport_type = transport;
link->transport_connected = 0;
link->proto_overhead = knet_h->transport_ops[link->transport_type]->transport_mtu_overhead;
link->configured = 1;
link->pong_count = KNET_LINK_DEFAULT_PONG_COUNT;
link->has_valid_mtu = 0;
link->ping_interval = KNET_LINK_DEFAULT_PING_INTERVAL * 1000; /* microseconds */
link->pong_timeout = KNET_LINK_DEFAULT_PING_TIMEOUT * 1000; /* microseconds */
link->latency_fix = KNET_LINK_DEFAULT_PING_PRECISION;
link->latency_exp = KNET_LINK_DEFAULT_PING_PRECISION - \
((link->ping_interval * KNET_LINK_DEFAULT_PING_PRECISION) / 8000000);
link->flags = flags;
if (knet_h->transport_ops[link->transport_type]->transport_link_set_config(knet_h, link) < 0) {
savederrno = errno;
err = -1;
goto exit_unlock;
}
log_debug(knet_h, KNET_SUB_LINK, "host: %u link: %u is configured",
host_id, link_id);
if (transport == KNET_TRANSPORT_LOOPBACK) {
knet_h->has_loop_link = 1;
knet_h->loop_link = link_id;
host->status.reachable = 1;
}
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_config(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t *transport,
struct sockaddr_storage *src_addr,
struct sockaddr_storage *dst_addr,
uint8_t *dynamic,
uint64_t *flags)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!src_addr) {
errno = EINVAL;
return -1;
}
if (!dynamic) {
errno = EINVAL;
return -1;
}
if (!transport) {
errno = EINVAL;
return -1;
}
if (!flags) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
if ((link->dynamic == KNET_LINK_STATIC) && (!dst_addr)) {
savederrno = EINVAL;
err = -1;
goto exit_unlock;
}
memmove(src_addr, &link->src_addr, sizeof(struct sockaddr_storage));
*transport = link->transport_type;
*flags = link->flags;
if (link->dynamic == KNET_LINK_STATIC) {
*dynamic = 0;
memmove(dst_addr, &link->dst_addr, sizeof(struct sockaddr_storage));
} else {
*dynamic = 1;
}
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_clear_config(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get write lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (link->configured != 1) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
if (link->status.enabled != 0) {
err = -1;
savederrno = EBUSY;
log_err(knet_h, KNET_SUB_LINK, "Host %u link %u is currently in use: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
if ((knet_h->transport_ops[link->transport_type]->transport_link_clear_config(knet_h, link) < 0) &&
(errno != EBUSY)) {
savederrno = errno;
err = -1;
goto exit_unlock;
}
memset(link, 0, sizeof(struct knet_link));
link->link_id = link_id;
if (knet_h->has_loop_link && link_id == knet_h->loop_link) {
knet_h->has_loop_link = 0;
if (host->active_link_entries == 0) {
host->status.reachable = 0;
}
}
log_debug(knet_h, KNET_SUB_LINK, "host: %u link: %u config has been wiped",
host_id, link_id);
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_set_enable(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
unsigned int enabled)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (enabled > 1) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
if (link->status.enabled == enabled) {
err = 0;
goto exit_unlock;
}
err = _link_updown(knet_h, host_id, link_id, enabled, link->status.connected);
savederrno = errno;
if (enabled) {
goto exit_unlock;
}
log_debug(knet_h, KNET_SUB_LINK, "host: %u link: %u is disabled",
host_id, link_id);
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_enable(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
unsigned int *enabled)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!enabled) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
*enabled = link->status.enabled;
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_set_pong_count(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t pong_count)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (pong_count < 1) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get write lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
link->pong_count = pong_count;
log_debug(knet_h, KNET_SUB_LINK,
"host: %u link: %u pong count update: %u",
host_id, link_id, link->pong_count);
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_pong_count(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t *pong_count)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!pong_count) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
*pong_count = link->pong_count;
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_set_ping_timers(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
time_t interval, time_t timeout, unsigned int precision)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!interval) {
errno = EINVAL;
return -1;
}
if (!timeout) {
errno = EINVAL;
return -1;
}
if (!precision) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get write lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
link->ping_interval = interval * 1000; /* microseconds */
link->pong_timeout = timeout * 1000; /* microseconds */
link->latency_fix = precision;
link->latency_exp = precision - \
((link->ping_interval * precision) / 8000000);
log_debug(knet_h, KNET_SUB_LINK,
"host: %u link: %u timeout update - interval: %llu timeout: %llu precision: %u",
host_id, link_id, link->ping_interval, link->pong_timeout, precision);
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_ping_timers(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
time_t *interval, time_t *timeout, unsigned int *precision)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!interval) {
errno = EINVAL;
return -1;
}
if (!timeout) {
errno = EINVAL;
return -1;
}
if (!precision) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
*interval = link->ping_interval / 1000; /* microseconds */
*timeout = link->pong_timeout / 1000;
*precision = link->latency_fix;
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_set_priority(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t priority)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
uint8_t old_priority;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get write lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
old_priority = link->priority;
if (link->priority == priority) {
err = 0;
goto exit_unlock;
}
link->priority = priority;
if (_host_dstcache_update_sync(knet_h, host)) {
savederrno = errno;
log_debug(knet_h, KNET_SUB_LINK,
"Unable to update link priority (host: %u link: %u priority: %u): %s",
host_id, link_id, link->priority, strerror(savederrno));
link->priority = old_priority;
err = -1;
goto exit_unlock;
}
log_debug(knet_h, KNET_SUB_LINK,
"host: %u link: %u priority set to: %u",
host_id, link_id, link->priority);
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_priority(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
uint8_t *priority)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!priority) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
*priority = link->priority;
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_link_list(knet_handle_t knet_h, knet_node_id_t host_id,
uint8_t *link_ids, size_t *link_ids_entries)
{
int savederrno = 0, err = 0, i, count = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (!link_ids) {
errno = EINVAL;
return -1;
}
if (!link_ids_entries) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
for (i = 0; i < KNET_MAX_LINK; i++) {
link = &host->link[i];
if (!link->configured) {
continue;
}
link_ids[count] = i;
count++;
}
*link_ids_entries = count;
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
int knet_link_get_status(knet_handle_t knet_h, knet_node_id_t host_id, uint8_t link_id,
struct knet_link_status *status, size_t struct_size)
{
int savederrno = 0, err = 0;
struct knet_host *host;
struct knet_link *link;
if (!knet_h) {
errno = EINVAL;
return -1;
}
if (link_id >= KNET_MAX_LINK) {
errno = EINVAL;
return -1;
}
if (!status) {
errno = EINVAL;
return -1;
}
savederrno = pthread_rwlock_wrlock(&knet_h->global_rwlock);
if (savederrno) {
log_err(knet_h, KNET_SUB_LINK, "Unable to get read lock: %s",
strerror(savederrno));
errno = savederrno;
return -1;
}
host = knet_h->host_index[host_id];
if (!host) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "Unable to find host %u: %s",
host_id, strerror(savederrno));
goto exit_unlock;
}
link = &host->link[link_id];
if (!link->configured) {
err = -1;
savederrno = EINVAL;
log_err(knet_h, KNET_SUB_LINK, "host %u link %u is not configured: %s",
host_id, link_id, strerror(savederrno));
goto exit_unlock;
}
memmove(status, &link->status, struct_size);
/* Calculate totals - no point in doing this on-the-fly */
status->stats.rx_total_packets =
status->stats.rx_data_packets +
status->stats.rx_ping_packets +
status->stats.rx_pong_packets +
status->stats.rx_pmtu_packets;
status->stats.tx_total_packets =
status->stats.tx_data_packets +
status->stats.tx_ping_packets +
status->stats.tx_pong_packets +
status->stats.tx_pmtu_packets;
status->stats.rx_total_bytes =
status->stats.rx_data_bytes +
status->stats.rx_ping_bytes +
status->stats.rx_pong_bytes +
status->stats.rx_pmtu_bytes;
status->stats.tx_total_bytes =
status->stats.tx_data_bytes +
status->stats.tx_ping_bytes +
status->stats.tx_pong_bytes +
status->stats.tx_pmtu_bytes;
status->stats.tx_total_errors =
status->stats.tx_data_errors +
status->stats.tx_ping_errors +
status->stats.tx_pong_errors +
status->stats.tx_pmtu_errors;
status->stats.tx_total_retries =
status->stats.tx_data_retries +
status->stats.tx_ping_retries +
status->stats.tx_pong_retries +
status->stats.tx_pmtu_retries;
/* Tell the caller our full size in case they have an old version */
status->size = sizeof(struct knet_link_status);
exit_unlock:
pthread_rwlock_unlock(&knet_h->global_rwlock);
errno = savederrno;
return err;
}
diff --git a/libknet/tests/api_knet_send_loopback.c b/libknet/tests/api_knet_send_loopback.c
index c36d9fd2..1f91c0fb 100644
--- a/libknet/tests/api_knet_send_loopback.c
+++ b/libknet/tests/api_knet_send_loopback.c
@@ -1,262 +1,300 @@
/*
* Copyright (C) 2016 Red Hat, Inc. All rights reserved.
*
* Authors: Fabio M. Di Nitto <fabbione@kronosnet.org>
*
* This software licensed under GPL-2.0+, LGPL-2.0+
*/
#include "config.h"
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "libknet.h"
#include "internals.h"
#include "netutils.h"
#include "test-common.h"
static int private_data;
static void sock_notify(void *pvt_data,
int datafd,
int8_t channel,
uint8_t tx_rx,
int error,
int errorno)
{
return;
}
static void test(void)
{
knet_handle_t knet_h;
int logfds[2];
int datafd = 0;
int8_t channel = 0;
struct knet_link_status link_status;
char send_buff[KNET_MAX_PACKET_SIZE];
char recv_buff[KNET_MAX_PACKET_SIZE];
ssize_t send_len = 0;
int recv_len = 0;
int savederrno;
struct sockaddr_storage lo;
memset(&lo, 0, sizeof(struct sockaddr_storage));
if (knet_strtoaddr("127.0.0.1", "50000", &lo, sizeof(struct sockaddr_storage)) < 0) {
printf("Unable to convert loopback to sockaddr: %s\n", strerror(errno));
exit(FAIL);
}
memset(send_buff, 0, sizeof(send_buff));
setup_logpipes(logfds);
knet_h = knet_handle_new(1, logfds[1], KNET_LOG_DEBUG);
if (!knet_h) {
printf("knet_handle_new failed: %s\n", strerror(errno));
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
- printf("Test knet_send with no send_buff\n");
+ flush_logs(logfds[0], stdout);
+
+ printf("Test configuring multiple links with loopback\n");
- if ((!knet_send(knet_h, NULL, KNET_MAX_PACKET_SIZE, channel)) || (errno != EINVAL)) {
- printf("knet_send accepted invalid send_buff or returned incorrect error: %s\n", strerror(errno));
+ if (knet_handle_enable_sock_notify(knet_h, &private_data, sock_notify) < 0) {
+ printf("knet_handle_enable_sock_notify failed: %s\n", strerror(errno));
+ knet_handle_free(knet_h);
+ flush_logs(logfds[0], stdout);
+ close_logpipes(logfds);
+ exit(FAIL);
+ }
+
+ datafd = 0;
+ channel = -1;
+
+ if (knet_handle_add_datafd(knet_h, &datafd, &channel) < 0) {
+ printf("knet_handle_add_datafd failed: %s\n", strerror(errno));
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
- flush_logs(logfds[0], stdout);
+ if (knet_host_add(knet_h, 1) < 0) {
+ printf("knet_host_add failed: %s\n", strerror(errno));
+ knet_handle_free(knet_h);
+ flush_logs(logfds[0], stdout);
+ close_logpipes(logfds);
+ exit(FAIL);
+ }
- printf("Test knet_send with invalid send_buff len (0)\n");
+ if (knet_link_set_config(knet_h, 1, 0, KNET_TRANSPORT_LOOPBACK, &lo, &lo, 0) < 0) {
+ printf("Unable to configure link: %s\n", strerror(errno));
+ knet_host_remove(knet_h, 1);
+ knet_handle_free(knet_h);
+ flush_logs(logfds[0], stdout);
+ close_logpipes(logfds);
+ exit(FAIL);
+ }
- if ((!knet_send(knet_h, send_buff, 0, channel)) || (errno != EINVAL)) {
- printf("knet_send accepted invalid send_buff len (0) or returned incorrect error: %s\n", strerror(errno));
+ if (knet_link_set_config(knet_h, 1, 1, KNET_TRANSPORT_LOOPBACK, &lo, &lo, 0) == 0) {
+ printf("Managed to configure two LOOPBACK links - this is wrong\n");
+ knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
flush_logs(logfds[0], stdout);
+ printf("Test configuring UDP link after loopback\n");
- printf("Test knet_send with invalid send_buff len (> KNET_MAX_PACKET_SIZE)\n");
-
- if ((!knet_send(knet_h, send_buff, KNET_MAX_PACKET_SIZE + 1, channel)) || (errno != EINVAL)) {
- printf("knet_send accepted invalid send_buff len (> KNET_MAX_PACKET_SIZE) or returned incorrect error: %s\n", strerror(errno));
+ if (knet_link_set_config(knet_h, 1, 1, KNET_TRANSPORT_UDP, &lo, &lo, 0) == 0) {
+ printf("Managed to configure UDP and LOOPBACK links together: %s\n", strerror(errno));
+ knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
flush_logs(logfds[0], stdout);
+ printf("Test configuring UDP link before loopback\n");
- printf("Test knet_send with valid data\n");
-
- if (knet_handle_enable_sock_notify(knet_h, &private_data, sock_notify) < 0) {
- printf("knet_handle_enable_sock_notify failed: %s\n", strerror(errno));
+ if (knet_link_clear_config(knet_h, 1, 0) < 0) {
+ printf("Failed to clear existing LOOPBACK link: %s\n", strerror(errno));
+ knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
- }
+ }
- datafd = 0;
- channel = -1;
+ if (knet_link_set_config(knet_h, 1, 0, KNET_TRANSPORT_UDP, &lo, &lo, 0) < 0) {
+ printf("Failed to configure UDP link for testing: %s\n", strerror(errno));
+ knet_host_remove(knet_h, 1);
+ knet_handle_free(knet_h);
+ flush_logs(logfds[0], stdout);
+ close_logpipes(logfds);
+ exit(FAIL);
+ }
- if (knet_handle_add_datafd(knet_h, &datafd, &channel) < 0) {
- printf("knet_handle_add_datafd failed: %s\n", strerror(errno));
+ if (knet_link_set_config(knet_h, 1, 1, KNET_TRANSPORT_LOOPBACK, &lo, &lo, 0) == 0) {
+ printf("Managed to configure LOOPBACK link after UDP: %s\n", strerror(errno));
+ knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
- if (knet_host_add(knet_h, 1) < 0) {
- printf("knet_host_add failed: %s\n", strerror(errno));
+ flush_logs(logfds[0], stdout);
+ printf("Test knet_send with valid data\n");
+
+ if (knet_link_clear_config(knet_h, 1, 0) < 0) {
+ printf("Failed to clear existing UDP link: %s\n", strerror(errno));
+ knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
if (knet_link_set_config(knet_h, 1, 0, KNET_TRANSPORT_LOOPBACK, &lo, &lo, 0) < 0) {
- printf("Unable to configure link: %s\n", strerror(errno));
+ printf("Failed configure LOOPBACK link for sending: %s\n", strerror(errno));
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
if (knet_link_set_enable(knet_h, 1, 0, 1) < 0) {
printf("knet_link_set_enable failed: %s\n", strerror(errno));
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
if (knet_handle_setfwd(knet_h, 1) < 0) {
printf("knet_handle_setfwd failed: %s\n", strerror(errno));
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
while(knet_h->host_index[1]->status.reachable != 1) {
printf("waiting host to be reachable\n");
sleep(1);
}
send_len = knet_send(knet_h, send_buff, KNET_MAX_PACKET_SIZE, channel);
if (send_len <= 0) {
printf("knet_send failed: %s\n", strerror(errno));
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
if (send_len != sizeof(send_buff)) {
printf("knet_send sent only %zd bytes: %s\n", send_len, strerror(errno));
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
flush_logs(logfds[0], stdout);
sleep(1);
recv_len = knet_recv(knet_h, recv_buff, KNET_MAX_PACKET_SIZE, channel);
savederrno = errno;
if (recv_len != send_len) {
printf("knet_recv received only %d bytes: %s (errno: %d)\n", recv_len, strerror(errno), errno);
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
if ((is_helgrind()) && (recv_len == -1) && (savederrno == EAGAIN)) {
printf("helgrind exception. this is normal due to possible timeouts\n");
exit(PASS);
}
exit(FAIL);
}
if (memcmp(recv_buff, send_buff, KNET_MAX_PACKET_SIZE)) {
printf("recv and send buffers are different!\n");
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
/* A sanity check on the stats */
if (knet_link_get_status(knet_h, 1, 0, &link_status, sizeof(link_status)) < 0) {
printf("knet_link_get_status failed: %s\n", strerror(errno));
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
exit(FAIL);
}
if (link_status.stats.tx_data_packets != 1 ||
link_status.stats.rx_data_packets != 0 ||
link_status.stats.tx_data_bytes != KNET_MAX_PACKET_SIZE) {
printf("stats look wrong: tx_packets: %lu (%lu bytes), rx_packets: %lu (%lu bytes)\n",
link_status.stats.tx_data_packets,
link_status.stats.tx_data_bytes,
link_status.stats.rx_data_packets,
link_status.stats.rx_data_bytes);
}
flush_logs(logfds[0], stdout);
knet_link_set_enable(knet_h, 1, 0, 0);
knet_link_clear_config(knet_h, 1, 0);
knet_host_remove(knet_h, 1);
knet_handle_free(knet_h);
flush_logs(logfds[0], stdout);
close_logpipes(logfds);
}
int main(int argc, char *argv[])
{
need_root();
test();
return PASS;
}

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