/* * Copyright (c) 2014 Cisco Systems, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #ifndef OPAL_BTL_USNIC_CONNECTIVITY_H #define OPAL_BTL_USNIC_CONNECTIVITY_H #include "opal_config.h" #include "opal/util/show_help.h" #include "btl_usnic_util.h" #include "btl_usnic_proc.h" /** * Agent-based service to verify UDP connectivity between two peers. * * Generally, it is a client-server pattern with three entities * involved: * * 1. Agent thread: running in MPI process local rank 0 * 2. Client: running in the main application thread in every MPI process * 3. RTE thread: running in every MPI process * * If enabled (via MCA param), the usnic module_init() will setup the * client (and server on local rank 0). For each usnic module, Each * client will send a request to the server (via local Unix domain * socket) asking it to listen on its usnic interface. The agent will * discard duplicates and setup a single UDP socket listener on the * eth interface corresponding to each requested usnic interface. The * agent returns the listening UDP port number to the client, and each * client puts this UDP port number in their modex information. * * At the first send to a given MPI process peer, the client will send * another request to the server asking it to verify connectivity to * the peer (supplying the peer's UDP listener port number from the * peer's modex info). Again, the agent will discard duplicates -- it * will only verify connectivity to each peer's *server* once. The * agent will send a short UDP message and a long UDP message * (basically, the MTU-68 bytes -- see comment in btl_usnic_cagent.c * for the reasons why) to the listening peer UDP port. * * When the peer agent gets PING messages, it sends short ACK control * messages back to the sending agent. When the sending agent gets * all ACKs back from the peer, it rules that connectivity is GOOD and * no further action is taken. If the sending agent doesn't get one * or both ACKs back in a timely fashion, it re-sends the PING(s) that * wasn't(weren't) ACKed. Eventually if the sending agent re-sends * too many times and does not get an ACK back, it gives up, displays * and error, and aborts the MPI job. * * Note that the client/server interaction is intentionally quite * primitive: * * 1. Client requests agent to listen on interface X. Server responds * with UDP port number of listener. * * 2. Client requests ping check to peer Y. Client does not wait for * the answer; the agent either verifies the connectivity successfully * or aborts the job. * * All client/agent communication is via blocking calls to a local * Unix domain socket. * * As mentioned above, the agent is smart about discarding duplicate * ping requests from clients. Since a single agent serves all MPI * processes on a given server, this cuts down on a lot of PING * traffic. */ /* * Forward declaration */ struct opal_btl_usnic_module_t; /** @internal * This macro just makes the macros below a little easier to read. */ #define ABORT(msg) opal_btl_usnic_util_abort((msg), __FILE__, __LINE__) /** * Local IPC socket message types. This value is either sent or * packed as the first field in each message to identify its type. * Use a non-zero value as the first enum just as defensive * programming (i.e., it's a slightly lower chance that an * uninitialized message type would randomly match these values). */ enum { CONNECTIVITY_AGENT_CMD_LISTEN = 17, CONNECTIVITY_AGENT_CMD_PING, CONNECTIVITY_AGENT_CMD_MAX }; #define CONNECTIVITY_NODENAME_LEN 128 #define CONNECTIVITY_IFNAME_LEN 32 /* * Unix domain socket name */ #define CONNECTIVITY_SOCK_NAME "btl-usnic-cagent-socket" /* * Magic token to ensure that client/server recognize each other */ #define CONNECTIVITY_MAGIC_TOKEN "-*-I am usNIC; hear me roar-*-" /* * Fields for the LISTEN command. This struct is sent down the IPC * socket from the cclient to the cagent. */ typedef struct { void *module; uint32_t ipv4_addr; uint32_t cidrmask; uint32_t mtu; char nodename[CONNECTIVITY_NODENAME_LEN]; char if_name[CONNECTIVITY_IFNAME_LEN]; char usnic_name[CONNECTIVITY_IFNAME_LEN]; uint8_t mac[6]; } opal_btl_usnic_connectivity_cmd_listen_t; /* * Command+fields for the reply to the LISTEN command. This struct is * sent down the IPC socket from the cagent to the cclient. */ typedef struct { int32_t cmd; uint32_t ipv4_addr; uint32_t udp_port; } opal_btl_usnic_connectivity_cmd_listen_reply_t; /* * Fields for the PING command. This struct is sent down the IPC * socket from the cclient to the cagent. */ typedef struct { uint32_t src_ipv4_addr; uint32_t src_udp_port; uint32_t dest_ipv4_addr; uint32_t dest_cidrmask; uint32_t dest_udp_port; uint32_t mtu; char dest_nodename[CONNECTIVITY_NODENAME_LEN]; uint8_t dest_mac[6]; } opal_btl_usnic_connectivity_cmd_ping_t; /** * Startup the connectivity client. * * @returns OPAL_SUCCESS or an OPAL error code. * * It is safe to call this function even if the connectivity check is * disabled; it will be a no-op in this case. */ int opal_btl_usnic_connectivity_client_init(void); /** * Tell the agent to establsh a listening port on the given IP * address. * * @params[in] module The module that is requesting the listen. * * @returns OPAL_SUCCESS or an OPAL error code. * * The module contains the local interface addressing information, * which tells the agent one which interface to listen. * * This routine will request the new listen from the agent, and wait * for the agent to reply with the UDP port that is being used/was * created. The UDP listening port will then be stuffed in * module->local_addr.connectivity_udp_port (i.e., data that will be * sent in the modex). * * It is safe to call this function even if the connectivity check is * disabled; it will be a no-op in this case. */ int opal_btl_usnic_connectivity_listen(struct opal_btl_usnic_module_t *module); /** * Tell the agent to ping a specific IP address and UDP port number * with a specific message size. * * @param[in] src_ipv4_addr The source module IPv4 address * @param[in] src_port The source module listening UDP port * @param[in] dest_ipv4_addr The destination IPv4 address * @param[in] dest_cidrmask The destination CIDR mask * @param[in] dest_port The destination UDP port * @param[in] dest_mac The destination MAC address * @param[in] dest_nodename The destination server name * @param[in] mtu The max ping message size to send * * @returns OPAL_SUCCESS or an OPAL error code. * * Note that several of the above parameters are only passed so that * they can be used in a complete/helpful error message, if necessary. * * This function does not wait for a reply from the agent; it assumes * the agent will successfully ping the remote peer or will abort the * MPI job if the pinging fails. * * It is safe to call this function even if the connectivity check is * disabled; it will be a no-op in this case. */ int opal_btl_usnic_connectivity_ping(uint32_t src_ipv4_addr, int src_port, uint32_t dest_ipv4_addr, uint32_t dest_cidrmask, int dest_port, uint8_t *dest_mac, char *dest_nodename, size_t mtu); /** * Shut down the connectivity service client. * * @returns OPAL_SUCCESS or an OPAL error code. * * It is safe to call this function even if the connectivity check is * disabled; it will be a no-op in this case. */ int opal_btl_usnic_connectivity_client_finalize(void); /** * Startup the connectivity agent. * * @returns OPAL_SUCCESS or an OPAL error code. * * This function will be a no-op if this process is not the local rank * 0. */ int opal_btl_usnic_connectivity_agent_init(void); /** * Shut down the connectivity agent * * @returns OPAL_SUCCESS or an OPAL error code. * * This function will be a no-op if this process is not the local rank * 0. */ int opal_btl_usnic_connectivity_agent_finalize(void); /** * Helper function invoked in the BTL that will invoke a ping, if the * ping hasn't already been invoked. */ static inline void opal_btl_usnic_check_connectivity(opal_btl_usnic_module_t *module, opal_btl_usnic_endpoint_t *endpoint) { if (OPAL_LIKELY(mca_btl_usnic_component.connectivity_enabled) && OPAL_UNLIKELY(!endpoint->endpoint_connectivity_checked)) { opal_btl_usnic_connectivity_ping(module->local_addr.ipv4_addr, module->local_addr.connectivity_udp_port, endpoint->endpoint_remote_addr.ipv4_addr, endpoint->endpoint_remote_addr.cidrmask, endpoint->endpoint_remote_addr.connectivity_udp_port, endpoint->endpoint_remote_addr.mac, endpoint->endpoint_proc->proc_opal->proc_hostname, endpoint->endpoint_remote_addr.mtu); endpoint->endpoint_connectivity_checked = true; } } #endif /* OPAL_BTL_USNIC_CONNECITIVITY_H */