diff --git a/libknet/internals.h b/libknet/internals.h index a980d19c..3e4bbfaf 100644 --- a/libknet/internals.h +++ b/libknet/internals.h @@ -1,509 +1,514 @@ /* * Copyright (C) 2010-2018 Red Hat, Inc. All rights reserved. * * Authors: Fabio M. Di Nitto * Federico Simoncelli * * This software licensed under GPL-2.0+, LGPL-2.0+ */ #ifndef __KNET_INTERNALS_H__ #define __KNET_INTERNALS_H__ /* * NOTE: you shouldn't need to include this header normally */ #include #include "libknet.h" #include "onwire.h" #include "compat.h" #include "threads_common.h" #define KNET_DATABUFSIZE KNET_MAX_PACKET_SIZE + KNET_HEADER_ALL_SIZE #define KNET_DATABUFSIZE_CRYPT_PAD 1024 #define KNET_DATABUFSIZE_CRYPT KNET_DATABUFSIZE + KNET_DATABUFSIZE_CRYPT_PAD #define KNET_DATABUFSIZE_COMPRESS_PAD 1024 #define KNET_DATABUFSIZE_COMPRESS KNET_DATABUFSIZE + KNET_DATABUFSIZE_COMPRESS_PAD #define KNET_RING_RCVBUFF 8388608 #define PCKT_FRAG_MAX UINT8_MAX #define PCKT_RX_BUFS 512 #define KNET_EPOLL_MAX_EVENTS KNET_DATAFD_MAX typedef void *knet_transport_link_t; /* per link transport handle */ typedef void *knet_transport_t; /* per knet_h transport handle */ struct knet_transport_ops; /* Forward because of circular dependancy */ struct knet_mmsghdr { struct msghdr msg_hdr; /* Message header */ unsigned int msg_len; /* Number of bytes transmitted */ }; struct knet_link { /* required */ struct sockaddr_storage src_addr; struct sockaddr_storage dst_addr; /* configurable */ unsigned int dynamic; /* see KNET_LINK_DYN_ define above */ uint8_t priority; /* higher priority == preferred for A/P */ unsigned long long ping_interval; /* interval */ unsigned long long pong_timeout; /* timeout */ unsigned long long pong_timeout_adj; /* timeout adjusted for latency */ uint8_t pong_timeout_backoff; /* see link.h for definition */ unsigned int latency_fix; /* precision */ uint8_t pong_count; /* how many ping/pong to send/receive before link is up */ uint64_t flags; /* status */ struct knet_link_status status; /* internals */ uint8_t link_id; uint8_t transport_type; /* #defined constant from API */ knet_transport_link_t transport_link; /* link_info_t from transport */ int outsock; unsigned int configured:1; /* set to 1 if src/dst have been configured transport initialized on this link*/ unsigned int transport_connected:1; /* set to 1 if lower level transport is connected */ unsigned int latency_exp; uint8_t received_pong; struct timespec ping_last; /* used by PMTUD thread as temp per-link variables and should always contain the onwire_len value! */ uint32_t proto_overhead; struct timespec pmtud_last; uint32_t last_ping_size; uint32_t last_good_mtu; uint32_t last_bad_mtu; uint32_t last_sent_mtu; uint32_t last_recv_mtu; uint8_t has_valid_mtu; }; #define KNET_CBUFFER_SIZE 4096 struct knet_host_defrag_buf { char buf[KNET_DATABUFSIZE]; uint8_t in_use; /* 0 buffer is free, 1 is in use */ seq_num_t pckt_seq; /* identify the pckt we are receiving */ uint8_t frag_recv; /* how many frags did we receive */ uint8_t frag_map[PCKT_FRAG_MAX];/* bitmap of what we received? */ uint8_t last_first; /* special case if we receive the last fragment first */ uint16_t frag_size; /* normal frag size (not the last one) */ uint16_t last_frag_size; /* the last fragment might not be aligned with MTU size */ struct timespec last_update; /* keep time of the last pckt */ }; struct knet_host { /* required */ knet_node_id_t host_id; /* configurable */ uint8_t link_handler_policy; char name[KNET_MAX_HOST_LEN]; /* status */ struct knet_host_status status; /* internals */ char circular_buffer[KNET_CBUFFER_SIZE]; seq_num_t rx_seq_num; seq_num_t untimed_rx_seq_num; seq_num_t timed_rx_seq_num; uint8_t got_data; /* defrag/reassembly buffers */ struct knet_host_defrag_buf defrag_buf[KNET_MAX_LINK]; char circular_buffer_defrag[KNET_CBUFFER_SIZE]; /* link stuff */ struct knet_link link[KNET_MAX_LINK]; uint8_t active_link_entries; uint8_t active_links[KNET_MAX_LINK]; struct knet_host *next; }; struct knet_sock { int sockfd[2]; /* sockfd[0] will always be application facing * and sockfd[1] internal if sockpair has been created by knet */ int is_socket; /* check if it's a socket for recvmmsg usage */ int is_created; /* knet created this socket and has to clean up on exit/del */ int in_use; /* set to 1 if it's use, 0 if free */ int has_error; /* set to 1 if there were errors reading from the sock * and socket has been removed from epoll */ }; struct knet_fd_trackers { uint8_t transport; /* transport type (UDP/SCTP...) */ uint8_t data_type; /* internal use for transport to define what data are associated * to this fd */ void *data; /* pointer to the data */ }; #define KNET_MAX_FDS KNET_MAX_HOST * KNET_MAX_LINK * 4 #define KNET_MAX_COMPRESS_METHODS UINT8_MAX struct knet_handle_stats_extra { uint64_t tx_crypt_pmtu_packets; uint64_t tx_crypt_pmtu_reply_packets; uint64_t tx_crypt_ping_packets; uint64_t tx_crypt_pong_packets; }; struct knet_handle { knet_node_id_t host_id; unsigned int enabled:1; struct knet_sock sockfd[KNET_DATAFD_MAX]; int logfd; uint8_t log_levels[KNET_MAX_SUBSYSTEMS]; int hostsockfd[2]; int dstsockfd[2]; int send_to_links_epollfd; int recv_from_links_epollfd; int dst_link_handler_epollfd; unsigned int pmtud_interval; unsigned int data_mtu; /* contains the max data size that we can send onwire * without frags */ struct knet_host *host_head; struct knet_host *host_index[KNET_MAX_HOST]; knet_transport_t transports[KNET_MAX_TRANSPORTS+1]; struct knet_fd_trackers knet_transport_fd_tracker[KNET_MAX_FDS]; /* track status for each fd handled by transports */ struct knet_handle_stats stats; struct knet_handle_stats_extra stats_extra; uint32_t reconnect_int; knet_node_id_t host_ids[KNET_MAX_HOST]; size_t host_ids_entries; struct knet_header *recv_from_sock_buf; struct knet_header *send_to_links_buf[PCKT_FRAG_MAX]; struct knet_header *recv_from_links_buf[PCKT_RX_BUFS]; struct knet_header *pingbuf; struct knet_header *pmtudbuf; uint8_t threads_status[KNET_THREAD_MAX]; pthread_mutex_t threads_status_mutex; pthread_t send_to_links_thread; pthread_t recv_from_links_thread; pthread_t heartbt_thread; pthread_t dst_link_handler_thread; pthread_t pmtud_link_handler_thread; pthread_rwlock_t global_rwlock; /* global config lock */ pthread_mutex_t pmtud_mutex; /* pmtud mutex to handle conditional send/recv + timeout */ pthread_cond_t pmtud_cond; /* conditional for above */ pthread_mutex_t tx_mutex; /* used to protect knet_send_sync and TX thread */ pthread_mutex_t hb_mutex; /* used to protect heartbeat thread and seq_num broadcasting */ pthread_mutex_t backoff_mutex; /* used to protect dst_link->pong_timeout_adj */ pthread_mutex_t kmtu_mutex; /* used to protect kernel_mtu */ uint32_t kernel_mtu; /* contains the MTU detected by the kernel on a given link */ int pmtud_waiting; int pmtud_running; int pmtud_forcerun; int pmtud_abort; struct crypto_instance *crypto_instance; size_t sec_header_size; size_t sec_block_size; size_t sec_hash_size; size_t sec_salt_size; unsigned char *send_to_links_buf_crypt[PCKT_FRAG_MAX]; unsigned char *recv_from_links_buf_crypt; unsigned char *recv_from_links_buf_decrypt; unsigned char *pingbuf_crypt; unsigned char *pmtudbuf_crypt; int compress_model; int compress_level; size_t compress_threshold; void *compress_int_data[KNET_MAX_COMPRESS_METHODS]; /* for compress method private data */ unsigned char *recv_from_links_buf_decompress; unsigned char *send_to_links_buf_compress; seq_num_t tx_seq_num; pthread_mutex_t tx_seq_num_mutex; uint8_t has_loop_link; uint8_t loop_link; 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_node_id, int8_t *channel, knet_node_id_t *dst_host_ids, size_t *dst_host_ids_entries); void *pmtud_notify_fn_private_data; void (*pmtud_notify_fn) ( void *private_data, unsigned int data_mtu); 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); 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); int fini_in_progress; uint64_t flags; }; extern pthread_rwlock_t shlib_rwlock; /* global shared lib load lock */ /* * NOTE: every single operation must be implementend * for every protocol. */ typedef struct knet_transport_ops { /* * transport generic information */ const char *transport_name; const uint8_t transport_id; const uint8_t built_in; uint32_t transport_mtu_overhead; /* * transport init must allocate the new transport * and perform all internal initializations * (threads, lists, etc). */ int (*transport_init)(knet_handle_t knet_h); /* * transport free must releases _all_ resources * allocated by tranport_init */ int (*transport_free)(knet_handle_t knet_h); /* * link operations should take care of all the * sockets and epoll management for a given link/transport set * transport_link_disable should return err = -1 and errno = EBUSY * if listener is still in use, and any other errno in case * the link cannot be disabled. * * set_config/clear_config are invoked in global write lock context */ int (*transport_link_set_config)(knet_handle_t knet_h, struct knet_link *link); int (*transport_link_clear_config)(knet_handle_t knet_h, struct knet_link *link); /* * transport callback for incoming dynamic connections * this is called in global read lock context */ int (*transport_link_dyn_connect)(knet_handle_t knet_h, int sockfd, struct knet_link *link); /* * per transport error handling of recvmmsg * (see _handle_recv_from_links comments for details) */ /* * transport_rx_sock_error is invoked when recvmmsg returns <= 0 * * transport_rx_sock_error is invoked with both global_rdlock */ int (*transport_rx_sock_error)(knet_handle_t knet_h, int sockfd, int recv_err, int recv_errno); /* * transport_tx_sock_error is invoked with global_rwlock and * it's invoked when sendto or sendmmsg returns =< 0 * * it should return: * -1 on internal error * 0 ignore error and continue * 1 retry * any sleep or wait action should happen inside the transport code */ int (*transport_tx_sock_error)(knet_handle_t knet_h, int sockfd, int recv_err, int recv_errno); /* * this function is called on _every_ received packet * to verify if the packet is data or internal protocol error handling * * it should return: * -1 on error * 0 packet is not data and we should continue the packet process loop * 1 packet is not data and we should STOP the packet process loop * 2 packet is data and should be parsed as such * * transport_rx_is_data is invoked with both global_rwlock * and fd_tracker read lock (from RX thread) */ int (*transport_rx_is_data)(knet_handle_t knet_h, int sockfd, struct knet_mmsghdr *msg); } knet_transport_ops_t; socklen_t sockaddr_len(const struct sockaddr_storage *ss); +struct pretty_names { + const char *name; + uint8_t val; +}; + /** * This is a kernel style list implementation. * * @author Steven Dake */ struct knet_list_head { struct knet_list_head *next; struct knet_list_head *prev; }; /** * @def KNET_LIST_DECLARE() * Declare and initialize a list head. */ #define KNET_LIST_DECLARE(name) \ struct knet_list_head name = { &(name), &(name) } #define KNET_INIT_LIST_HEAD(ptr) do { \ (ptr)->next = (ptr); (ptr)->prev = (ptr); \ } while (0) /** * Initialize the list entry. * * Points next and prev pointers to head. * @param head pointer to the list head */ static inline void knet_list_init(struct knet_list_head *head) { head->next = head; head->prev = head; } /** * Add this element to the list. * * @param element the new element to insert. * @param head pointer to the list head */ static inline void knet_list_add(struct knet_list_head *element, struct knet_list_head *head) { head->next->prev = element; element->next = head->next; element->prev = head; head->next = element; } /** * Add to the list (but at the end of the list). * * @param element pointer to the element to add * @param head pointer to the list head * @see knet_list_add() */ static inline void knet_list_add_tail(struct knet_list_head *element, struct knet_list_head *head) { head->prev->next = element; element->next = head; element->prev = head->prev; head->prev = element; } /** * Delete an entry from the list. * * @param _remove the list item to remove */ static inline void knet_list_del(struct knet_list_head *_remove) { _remove->next->prev = _remove->prev; _remove->prev->next = _remove->next; } /** * Replace old entry by new one * @param old: the element to be replaced * @param new: the new element to insert */ static inline void knet_list_replace(struct knet_list_head *old, struct knet_list_head *new) { new->next = old->next; new->next->prev = new; new->prev = old->prev; new->prev->next = new; } /** * Tests whether list is the last entry in list head * @param list: the entry to test * @param head: the head of the list * @return boolean true/false */ static inline int knet_list_is_last(const struct knet_list_head *list, const struct knet_list_head *head) { return list->next == head; } /** * A quick test to see if the list is empty (pointing to it's self). * @param head pointer to the list head * @return boolean true/false */ static inline int32_t knet_list_empty(const struct knet_list_head *head) { return head->next == head; } /** * Get the struct for this entry * @param ptr: the &struct list_head pointer. * @param type: the type of the struct this is embedded in. * @param member: the name of the list_struct within the struct. */ #define knet_list_entry(ptr,type,member)\ ((type *)((char *)(ptr)-(char*)(&((type *)0)->member))) /** * Get the first element from a list * @param ptr: the &struct list_head pointer. * @param type: the type of the struct this is embedded in. * @param member: the name of the list_struct within the struct. */ #define knet_list_first_entry(ptr, type, member) \ knet_list_entry((ptr)->next, type, member) /** * Iterate over a list * @param pos: the &struct list_head to use as a loop counter. * @param head: the head for your list. */ #define knet_list_for_each(pos, head) \ for (pos = (head)->next; pos != (head); pos = pos->next) /** * Iterate over a list backwards * @param pos: the &struct list_head to use as a loop counter. * @param head: the head for your list. */ #define knet_list_for_each_reverse(pos, head) \ for (pos = (head)->prev; pos != (head); pos = pos->prev) /** * Iterate over a list safe against removal of list entry * @param pos: the &struct list_head to use as a loop counter. * @param n: another &struct list_head to use as temporary storage * @param head: the head for your list. */ #define knet_list_for_each_safe(pos, n, head) \ for (pos = (head)->next, n = pos->next; pos != (head); \ pos = n, n = pos->next) /** * Iterate over list of given type * @param pos: the type * to use as a loop counter. * @param head: the head for your list. * @param member: the name of the list_struct within the struct. */ #define knet_list_for_each_entry(pos, head, member) \ for (pos = knet_list_entry((head)->next, typeof(*pos), member); \ &pos->member != (head); \ pos = knet_list_entry(pos->member.next, typeof(*pos), member)) #endif diff --git a/libknet/logging.c b/libknet/logging.c index 5d7191bf..543269a5 100644 --- a/libknet/logging.c +++ b/libknet/logging.c @@ -1,246 +1,241 @@ /* * Copyright (C) 2010-2018 Red Hat, Inc. All rights reserved. * * Author: Fabio M. Di Nitto * * This software licensed under GPL-2.0+, LGPL-2.0+ */ #include "config.h" #include #include #include #include #include #include #include #include "internals.h" #include "logging.h" #include "threads_common.h" -struct pretty_names { - const char *name; - uint8_t val; -}; - static struct pretty_names subsystem_names[] = { { "common", KNET_SUB_COMMON }, { "handle", KNET_SUB_HANDLE }, { "host", KNET_SUB_HOST }, { "listener", KNET_SUB_LISTENER }, { "link", KNET_SUB_LINK }, { "transport", KNET_SUB_TRANSPORT }, { "crypto", KNET_SUB_CRYPTO }, { "compress", KNET_SUB_COMPRESS }, { "filter", KNET_SUB_FILTER }, { "dstcache", KNET_SUB_DSTCACHE }, { "heartbeat", KNET_SUB_HEARTBEAT }, { "pmtud", KNET_SUB_PMTUD }, { "tx", KNET_SUB_TX }, { "rx", KNET_SUB_RX }, { "loopback", KNET_SUB_TRANSP_LOOPBACK }, { "udp", KNET_SUB_TRANSP_UDP }, { "sctp", KNET_SUB_TRANSP_SCTP }, { "nsscrypto", KNET_SUB_NSSCRYPTO }, { "opensslcrypto", KNET_SUB_OPENSSLCRYPTO }, { "zlibcomp", KNET_SUB_ZLIBCOMP }, { "lz4comp", KNET_SUB_LZ4COMP }, { "lz4hccomp", KNET_SUB_LZ4HCCOMP }, { "lzo2comp", KNET_SUB_LZO2COMP }, { "lzmacomp", KNET_SUB_LZMACOMP }, { "bzip2comp", KNET_SUB_BZIP2COMP }, { "unknown", KNET_SUB_UNKNOWN } /* unknown MUST always be last in this array */ }; const char *knet_log_get_subsystem_name(uint8_t subsystem) { unsigned int i; for (i = 0; i < KNET_MAX_SUBSYSTEMS; i++) { if (subsystem_names[i].val == KNET_SUB_UNKNOWN) { break; } if (subsystem_names[i].val == subsystem) { return subsystem_names[i].name; } } return "unknown"; } uint8_t knet_log_get_subsystem_id(const char *name) { unsigned int i; for (i = 0; i < KNET_MAX_SUBSYSTEMS; i++) { if (subsystem_names[i].val == KNET_SUB_UNKNOWN) { break; } if (strcasecmp(name, subsystem_names[i].name) == 0) { return subsystem_names[i].val; } } return KNET_SUB_UNKNOWN; } static int is_valid_subsystem(uint8_t subsystem) { unsigned int i; for (i = 0; i < KNET_MAX_SUBSYSTEMS; i++) { if ((subsystem != KNET_SUB_UNKNOWN) && (subsystem_names[i].val == KNET_SUB_UNKNOWN)) { break; } if (subsystem_names[i].val == subsystem) { return 0; } } return -1; } static struct pretty_names loglevel_names[] = { { "ERROR", KNET_LOG_ERR }, { "WARNING", KNET_LOG_WARN }, { "info", KNET_LOG_INFO }, { "debug", KNET_LOG_DEBUG } }; const char *knet_log_get_loglevel_name(uint8_t level) { unsigned int i; for (i = 0; i <= KNET_LOG_DEBUG; i++) { if (loglevel_names[i].val == level) { return loglevel_names[i].name; } } return "ERROR"; } uint8_t knet_log_get_loglevel_id(const char *name) { unsigned int i; for (i = 0; i <= KNET_LOG_DEBUG; i++) { if (strcasecmp(name, loglevel_names[i].name) == 0) { return loglevel_names[i].val; } } return KNET_LOG_ERR; } int knet_log_set_loglevel(knet_handle_t knet_h, uint8_t subsystem, uint8_t level) { int savederrno = 0; if (!knet_h) { errno = EINVAL; return -1; } if (is_valid_subsystem(subsystem) < 0) { errno = EINVAL; return -1; } if (level > KNET_LOG_DEBUG) { errno = EINVAL; return -1; } savederrno = get_global_wrlock(knet_h); if (savederrno) { log_err(knet_h, subsystem, "Unable to get write lock: %s", strerror(savederrno)); errno = savederrno; return -1; } knet_h->log_levels[subsystem] = level; pthread_rwlock_unlock(&knet_h->global_rwlock); return 0; } int knet_log_get_loglevel(knet_handle_t knet_h, uint8_t subsystem, uint8_t *level) { int savederrno = 0; if (!knet_h) { errno = EINVAL; return -1; } if (is_valid_subsystem(subsystem) < 0) { errno = EINVAL; return -1; } if (!level) { errno = EINVAL; return -1; } savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock); if (savederrno) { log_err(knet_h, subsystem, "Unable to get write lock: %s", strerror(savederrno)); errno = savederrno; return -1; } *level = knet_h->log_levels[subsystem]; pthread_rwlock_unlock(&knet_h->global_rwlock); return 0; } void log_msg(knet_handle_t knet_h, uint8_t subsystem, uint8_t msglevel, const char *fmt, ...) { va_list ap; struct knet_log_msg msg; size_t byte_cnt = 0; int len; if ((!knet_h) || (subsystem == KNET_MAX_SUBSYSTEMS) || (msglevel > knet_h->log_levels[subsystem])) return; if (knet_h->logfd <= 0) goto out; memset(&msg, 0, sizeof(struct knet_log_msg)); msg.subsystem = subsystem; msg.msglevel = msglevel; va_start(ap, fmt); #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wformat-nonliteral" #endif vsnprintf(msg.msg, sizeof(msg.msg), fmt, ap); #ifdef __clang__ #pragma clang diagnostic pop #endif va_end(ap); while (byte_cnt < sizeof(struct knet_log_msg)) { len = write(knet_h->logfd, &msg, sizeof(struct knet_log_msg) - byte_cnt); if (len <= 0) { goto out; } byte_cnt += len; } out: return; } diff --git a/libknet/threads_common.c b/libknet/threads_common.c index efa0ab8d..fc10a029 100644 --- a/libknet/threads_common.c +++ b/libknet/threads_common.c @@ -1,108 +1,159 @@ /* * Copyright (C) 2016-2018 Red Hat, Inc. All rights reserved. * * Authors: Fabio M. Di Nitto * Federico Simoncelli * * This software licensed under GPL-2.0+, LGPL-2.0+ */ #include "config.h" #include #include #include #include "internals.h" #include "logging.h" #include "threads_common.h" int shutdown_in_progress(knet_handle_t knet_h) { int savederrno = 0; int ret; savederrno = pthread_rwlock_rdlock(&knet_h->global_rwlock); if (savederrno) { log_err(knet_h, KNET_SUB_COMMON, "Unable to get read lock: %s", strerror(savederrno)); errno = savederrno; return -1; } ret = knet_h->fini_in_progress; pthread_rwlock_unlock(&knet_h->global_rwlock); return ret; } static int pmtud_reschedule(knet_handle_t knet_h) { if (pthread_mutex_lock(&knet_h->pmtud_mutex) != 0) { log_debug(knet_h, KNET_SUB_PMTUD, "Unable to get mutex lock"); return -1; } if (knet_h->pmtud_running) { knet_h->pmtud_abort = 1; if (knet_h->pmtud_waiting) { pthread_cond_signal(&knet_h->pmtud_cond); } } pthread_mutex_unlock(&knet_h->pmtud_mutex); return 0; } int get_global_wrlock(knet_handle_t knet_h) { if (pmtud_reschedule(knet_h) < 0) { log_info(knet_h, KNET_SUB_PMTUD, "Unable to notify PMTUd to reschedule. Expect delays in executing API calls"); } return pthread_rwlock_wrlock(&knet_h->global_rwlock); } +static struct pretty_names thread_names[] = +{ + { "TX", KNET_THREAD_TX }, + { "RX", KNET_THREAD_RX }, + { "HB", KNET_THREAD_HB }, + { "PMTUD", KNET_THREAD_PMTUD }, +#ifdef HAVE_NETINET_SCTP_H + { "SCTP_LISTEN", KNET_THREAD_SCTP_LISTEN }, + { "SCTP_CONN", KNET_THREAD_SCTP_CONN }, +#endif + { "DST_LINK", KNET_THREAD_DST_LINK } +}; + +static struct pretty_names thread_status[] = +{ + { "stopped", KNET_THREAD_STOPPED }, + { "running", KNET_THREAD_RUNNING } +}; + +/* + * this seems overloaded at the moment but + * we might want to expand status checks + * to include "starting" and "stopping" + */ + +static const char *get_thread_status_name(uint8_t status) +{ + unsigned int i; + + for (i = 0; i < KNET_THREAD_STATUS_MAX; i++) { + if (thread_status[i].val == status) { + return thread_status[i].name; + } + } + return "unknown"; +} + +static const char *get_thread_name(uint8_t thread_id) +{ + unsigned int i; + + for (i = 0; i < KNET_THREAD_MAX; i++) { + if (thread_names[i].val == thread_id) { + return thread_names[i].name; + } + } + return "unknown"; +} + int set_thread_status(knet_handle_t knet_h, uint8_t thread_id, uint8_t status) { if (pthread_mutex_lock(&knet_h->threads_status_mutex) != 0) { log_debug(knet_h, KNET_SUB_HANDLE, "Unable to get mutex lock"); return -1; } knet_h->threads_status[thread_id] = status; - log_debug(knet_h, KNET_SUB_HANDLE, "Updated status for thread %u to %u", - thread_id, status); + log_debug(knet_h, KNET_SUB_HANDLE, "Updated status for thread %s to %s", + get_thread_name(thread_id), get_thread_status_name(status)); pthread_mutex_unlock(&knet_h->threads_status_mutex); return 0; } int wait_all_threads_status(knet_handle_t knet_h, uint8_t status) { uint8_t i = 0, found = 0; while (!found) { usleep(KNET_THREADS_TIMERES); if (pthread_mutex_lock(&knet_h->threads_status_mutex) != 0) { continue; } found = 1; for (i = 0; i < KNET_THREAD_MAX; i++) { - log_debug(knet_h, KNET_SUB_HANDLE, "Checking thread: %u status: %u req: %u", - i, knet_h->threads_status[i], status); + log_debug(knet_h, KNET_SUB_HANDLE, "Checking thread: %s status: %s req: %s", + get_thread_name(i), + get_thread_status_name(knet_h->threads_status[i]), + get_thread_status_name(status)); if (knet_h->threads_status[i] != status) { found = 0; } } pthread_mutex_unlock(&knet_h->threads_status_mutex); } return 0; } diff --git a/libknet/threads_common.h b/libknet/threads_common.h index 45e36e2c..78e1cf02 100644 --- a/libknet/threads_common.h +++ b/libknet/threads_common.h @@ -1,47 +1,48 @@ /* * Copyright (C) 2012-2018 Red Hat, Inc. All rights reserved. * * Authors: Fabio M. Di Nitto * Federico Simoncelli * * This software licensed under GPL-2.0+, LGPL-2.0+ */ #ifndef __KNET_THREADS_COMMON_H__ #define __KNET_THREADS_COMMON_H__ #include "internals.h" #define KNET_THREADS_TIMERES 200000 #define KNET_THREAD_STOPPED 0 #define KNET_THREAD_RUNNING 1 +#define KNET_THREAD_STATUS_MAX KNET_THREAD_RUNNING + 1 #define KNET_THREAD_TX 0 #define KNET_THREAD_RX 1 #define KNET_THREAD_HB 2 #define KNET_THREAD_PMTUD 3 #define KNET_THREAD_DST_LINK 4 #ifndef HAVE_NETINET_SCTP_H #define KNET_THREAD_MAX KNET_THREAD_DST_LINK + 1 #else #define KNET_THREAD_SCTP_LISTEN 5 #define KNET_THREAD_SCTP_CONN 6 #define KNET_THREAD_MAX KNET_THREAD_SCTP_CONN + 1 #endif #define timespec_diff(start, end, diff) \ do { \ if (end.tv_sec > start.tv_sec) \ *(diff) = ((end.tv_sec - start.tv_sec) * 1000000000llu) \ + end.tv_nsec - start.tv_nsec; \ else \ *(diff) = end.tv_nsec - start.tv_nsec; \ } while (0); int shutdown_in_progress(knet_handle_t knet_h); int get_global_wrlock(knet_handle_t knet_h); int set_thread_status(knet_handle_t knet_h, uint8_t thread_id, uint8_t status); int wait_all_threads_status(knet_handle_t knet_h, uint8_t status); #endif