/* *------------------------------------------------------------------ * Copyright (c) 2017 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* we need to use control pings for some stuff and because we're forced to put * the code in headers, we need a way to be able to grab the ids of these * messages - so declare them here as extern */ vapi_msg_id_t vapi_msg_id_control_ping = 0; vapi_msg_id_t vapi_msg_id_control_ping_reply = 0; DEFINE_VAPI_MSG_IDS_MEMCLNT_API_JSON; DEFINE_VAPI_MSG_IDS_VPE_API_JSON; struct { size_t count; vapi_message_desc_t **msgs; size_t max_len_name_with_crc; } __vapi_metadata; typedef struct { u32 context; vapi_cb_t callback; void *callback_ctx; bool is_dump; } vapi_req_t; static const u32 context_counter_mask = (1 << 31); typedef struct { vapi_error_e (*cb) (vapi_ctx_t ctx, void *callback_ctx, vapi_msg_id_t id, void *payload); void *ctx; } vapi_generic_cb_with_ctx; typedef struct { vapi_error_e (*cb) (vapi_ctx_t ctx, void *callback_ctx, void *payload); void *ctx; } vapi_event_cb_with_ctx; struct vapi_ctx_s { vapi_mode_e mode; int requests_size; /* size of the requests array (circular queue) */ int requests_start; /* index of first request */ int requests_count; /* number of used slots */ vapi_req_t *requests; u32 context_counter; vapi_generic_cb_with_ctx generic_cb; vapi_event_cb_with_ctx *event_cbs; u16 *vapi_msg_id_t_to_vl_msg_id; u16 vl_msg_id_max; vapi_msg_id_t *vl_msg_id_to_vapi_msg_t; bool connected; bool handle_keepalives; pthread_mutex_t requests_mutex; }; u32 vapi_gen_req_context (vapi_ctx_t ctx) { ++ctx->context_counter; ctx->context_counter %= context_counter_mask; return ctx->context_counter | context_counter_mask; } size_t vapi_get_request_count (vapi_ctx_t ctx) { return ctx->requests_count; } bool vapi_requests_full (vapi_ctx_t ctx) { return (ctx->requests_count == ctx->requests_size); } bool vapi_requests_empty (vapi_ctx_t ctx) { return (0 == ctx->requests_count); } static int vapi_requests_end (vapi_ctx_t ctx) { return (ctx->requests_start + ctx->requests_count) % ctx->requests_size; } void vapi_store_request (vapi_ctx_t ctx, u32 context, bool is_dump, vapi_cb_t callback, void *callback_ctx) { assert (!vapi_requests_full (ctx)); /* if the mutex is not held, bad things will happen */ assert (0 != pthread_mutex_trylock (&ctx->requests_mutex)); const int requests_end = vapi_requests_end (ctx); vapi_req_t *slot = &ctx->requests[requests_end]; slot->is_dump = is_dump; slot->context = context; slot->callback = callback; slot->callback_ctx = callback_ctx; VAPI_DBG ("stored@%d: context:%x (start is @%d)", requests_end, context, ctx->requests_start); ++ctx->requests_count; assert (!vapi_requests_empty (ctx)); } #if VAPI_DEBUG_ALLOC struct to_be_freed_s; struct to_be_freed_s { void *v; struct to_be_freed_s *next; }; static struct to_be_freed_s *to_be_freed = NULL; void vapi_add_to_be_freed (void *v) { struct to_be_freed_s *prev = NULL; struct to_be_freed_s *tmp; tmp = to_be_freed; while (tmp && tmp->v) { prev = tmp; tmp = tmp->next; } if (!tmp) { if (!prev) { tmp = to_be_freed = calloc (1, sizeof (*to_be_freed)); } else { tmp = prev->next = calloc (1, sizeof (*to_be_freed)); } } VAPI_DBG ("To be freed %p", v); tmp->v = v; } void vapi_trace_free (void *v) { struct to_be_freed_s *tmp = to_be_freed; while (tmp && tmp->v != v) { tmp = tmp->next; } if (tmp && tmp->v == v) { VAPI_DBG ("Freed %p", v); tmp->v = NULL; } else { VAPI_ERR ("Trying to free untracked pointer %p", v); abort (); } } void vapi_to_be_freed_validate () { struct to_be_freed_s *tmp = to_be_freed; while (tmp) { if (tmp->v) { VAPI_ERR ("Unfreed msg %p!", tmp->v); } tmp = tmp->next; } } #endif void * vapi_msg_alloc (vapi_ctx_t ctx, size_t size) { if (!ctx->connected) { return NULL; } void *rv = vl_msg_api_alloc_or_null (size); return rv; } void vapi_msg_free (vapi_ctx_t ctx, void *msg) { if (!ctx->connected) { return; } #if VAPI_DEBUG_ALLOC vapi_trace_free (msg); #endif vl_msg_api_free (msg); } vapi_msg_id_t vapi_lookup_vapi_msg_id_t (vapi_ctx_t ctx, u16 vl_msg_id) { if (vl_msg_id <= ctx->vl_msg_id_max) { return ctx->vl_msg_id_to_vapi_msg_t[vl_msg_id]; } return VAPI_INVALID_MSG_ID; } vapi_error_e vapi_ctx_alloc (vapi_ctx_t * result) { vapi_ctx_t ctx = calloc (1, sizeof (struct vapi_ctx_s)); if (!ctx) { return VAPI_ENOMEM; } ctx->context_counter = 0; ctx->vapi_msg_id_t_to_vl_msg_id = malloc (__vapi_metadata.count * sizeof (*ctx->vapi_msg_id_t_to_vl_msg_id)); if (!ctx->vapi_msg_id_t_to_vl_msg_id) { goto fail; } clib_memset (ctx->vapi_msg_id_t_to_vl_msg_id, ~0, __vapi_metadata.count * sizeof (*ctx->vapi_msg_id_t_to_vl_msg_id)); ctx->event_cbs = calloc (__vapi_metadata.count, sizeof (*ctx->event_cbs)); if (!ctx->event_cbs) { goto fail; } pthread_mutex_init (&ctx->requests_mutex, NULL); *result = ctx; return VAPI_OK; fail: vapi_ctx_free (ctx); return VAPI_ENOMEM; } void vapi_ctx_free (vapi_ctx_t ctx) { assert (!ctx->connected); free (ctx->requests); free (ctx->vapi_msg_id_t_to_vl_msg_id); free (ctx->event_cbs); free (ctx->vl_msg_id_to_vapi_msg_t); pthread_mutex_destroy (&ctx->requests_mutex); free (ctx); } bool vapi_is_msg_available (vapi_ctx_t ctx, vapi_msg_id_t id) { return vapi_lookup_vl_msg_id (ctx, id) != UINT16_MAX; } vapi_error_e vapi_connect (vapi_ctx_t ctx, const char *name, const char *chroot_prefix, int max_outstanding_requests, int response_queue_size, vapi_mode_e mode, bool handle_keepalives) { if (response_queue_size <= 0 || max_outstanding_requests <= 0) { return VAPI_EINVAL; } if (!clib_mem_get_per_cpu_heap () && !clib_mem_init (0, 1024 * 1024 * 32)) { return VAPI_ENOMEM; } ctx->requests_size = max_outstanding_requests; const size_t size = ctx->requests_size * sizeof (*ctx->requests); void *tmp = realloc (ctx->requests, size); if (!tmp) { return VAPI_ENOMEM; } ctx->requests = tmp; clib_memset (ctx->requests, 0, size); /* coverity[MISSING_LOCK] - 177211 requests_mutex is not needed here */ ctx->requests_start = ctx->requests_count = 0; if (chroot_prefix) { VAPI_DBG ("set memory root path `%s'", chroot_prefix); vl_set_memory_root_path ((char *) chroot_prefix); } static char api_map[] = "/vpe-api"; VAPI_DBG ("client api map `%s'", api_map); if ((vl_client_api_map (api_map)) < 0) { return VAPI_EMAP_FAIL; } VAPI_DBG ("connect client `%s'", name); if (vl_client_connect ((char *) name, 0, response_queue_size) < 0) { vl_client_api_unmap (); return VAPI_ECON_FAIL; } #if VAPI_DEBUG_CONNECT VAPI_DBG ("start probing messages"); #endif int rv; int i; for (i = 0; i < __vapi_metadata.count; ++i) { vapi_message_desc_t *m = __vapi_metadata.msgs[i]; u8 scratch[m->name_with_crc_len + 1]; memcpy (scratch, m->name_with_crc, m->name_with_crc_len + 1); u32 id = vl_msg_api_get_msg_index (scratch); if (VAPI_INVALID_MSG_ID != id) { if (id > UINT16_MAX) { VAPI_ERR ("Returned vl_msg_id `%u' > UINT16MAX `%u'!", id, UINT16_MAX); rv = VAPI_EINVAL; goto fail; } if (id > ctx->vl_msg_id_max) { vapi_msg_id_t *tmp = realloc (ctx->vl_msg_id_to_vapi_msg_t, sizeof (*ctx->vl_msg_id_to_vapi_msg_t) * (id + 1)); if (!tmp) { rv = VAPI_ENOMEM; goto fail; } ctx->vl_msg_id_to_vapi_msg_t = tmp; ctx->vl_msg_id_max = id; } ctx->vl_msg_id_to_vapi_msg_t[id] = m->id; ctx->vapi_msg_id_t_to_vl_msg_id[m->id] = id; #if VAPI_DEBUG_CONNECT VAPI_DBG ("Message `%s' has vl_msg_id `%u'", m->name_with_crc, (unsigned) id); #endif } else { ctx->vapi_msg_id_t_to_vl_msg_id[m->id] = UINT16_MAX; VAPI_DBG ("Message `%s' not available", m->name_with_crc); } } #if VAPI_DEBUG_CONNECT VAPI_DBG ("finished probing messages"); #endif if (!vapi_is_msg_available (ctx, vapi_msg_id_control_ping) || !vapi_is_msg_available (ctx, vapi_msg_id_control_ping_reply)) { VAPI_ERR ("control ping or control ping reply not available, cannot connect"); rv = VAPI_EINCOMPATIBLE; goto fail; } ctx->mode = mode; ctx->connected = true; if (vapi_is_msg_available (ctx, vapi_msg_id_memclnt_keepalive)) { ctx->handle_keepalives = handle_keepalives; } else { ctx->handle_keepalives = false; } return VAPI_OK; fail: vl_client_disconnect (); vl_client_api_unmap (); return rv; } vapi_error_e vapi_disconnect (vapi_ctx_t ctx) { if (!ctx->connected) { return VAPI_EINVAL; } vl_client_disconnect (); vl_client_api_unmap (); #if VAPI_DEBUG_ALLOC vapi_to_be_freed_validate (); #endif ctx->connected = false; return VAPI_OK; } vapi_error_e vapi_get_fd (vapi_ctx_t ctx, int *fd) { return VAPI_ENOTSUP; } vapi_error_e vapi_send (vapi_ctx_t ctx, void *msg) { vapi_error_e rv = VAPI_OK; if (!ctx || !msg || !ctx->connected) { rv = VAPI_EINVAL; goto out; } int tmp; svm_queue_t *q = api_main.shmem_hdr->vl_input_queue; #if VAPI_DEBUG unsigned msgid = be16toh (*(u16 *) msg); if (msgid <= ctx->vl_msg_id_max) { vapi_msg_id_t id = ctx->vl_msg_id_to_vapi_msg_t[msgid]; if (id < __vapi_metadata.count) { VAPI_DBG ("send msg@%p:%u[%s]", msg, msgid, __vapi_metadata.msgs[id]->name); } else { VAPI_DBG ("send msg@%p:%u[UNKNOWN]", msg, msgid); } } else { VAPI_DBG ("send msg@%p:%u[UNKNOWN]", msg, msgid); } #endif tmp = svm_queue_add (q, (u8 *) & msg, VAPI_MODE_BLOCKING == ctx->mode ? 0 : 1); if (tmp < 0) { rv = VAPI_EAGAIN; } out: VAPI_DBG ("vapi_send() rv = %d", rv); return rv; } vapi_error_e vapi_send2 (vapi_ctx_t ctx, void *msg1, void *msg2) { vapi_error_e rv = VAPI_OK; if (!ctx || !msg1 || !msg2 || !ctx->connected) { rv = VAPI_EINVAL; goto out; } svm_queue_t *q = api_main.shmem_hdr->vl_input_queue; #if VAPI_DEBUG unsigned msgid1 = be16toh (*(u16 *) msg1); unsigned msgid2 = be16toh (*(u16 *) msg2); const char *name1 = "UNKNOWN"; const char *name2 = "UNKNOWN"; if (msgid1 <= ctx->vl_msg_id_max) { vapi_msg_id_t id = ctx->vl_msg_id_to_vapi_msg_t[msgid1]; if (id < __vapi_metadata.count) { name1 = __vapi_metadata.msgs[id]->name; } } if (msgid2 <= ctx->vl_msg_id_max) { vapi_msg_id_t id = ctx->vl_msg_id_to_vapi_msg_t[msgid2]; if (id < __vapi_metadata.count) { name2 = __vapi_metadata.msgs[id]->name; } } VAPI_DBG ("send two: %u[%s], %u[%s]", msgid1, name1, msgid2, name2); #endif int tmp = svm_queue_add2 (q, (u8 *) & msg1, (u8 *) & msg2, VAPI_MODE_BLOCKING == ctx->mode ? 0 : 1); if (tmp < 0) { rv = VAPI_EAGAIN; } out: VAPI_DBG ("vapi_send() rv = %d", rv); return rv; } vapi_error_e vapi_recv (vapi_ctx_t ctx, void **msg, size_t * msg_size, svm_q_conditional_wait_t cond, u32 time) { if (!ctx || !ctx->connected || !msg || !msg_size) { return VAPI_EINVAL; } vapi_error_e rv = VAPI_OK; api_main_t *am = &api_main; uword data; if (am->our_pid == 0) { return VAPI_EINVAL; } svm_queue_t *q = am->vl_input_queue; again: VAPI_DBG ("doing shm queue sub"); int tmp = svm_queue_sub (q, (u8 *) & data, cond, time); if (tmp == 0) { #if VAPI_DEBUG_ALLOC vapi_add_to_be_freed ((void *) data); #endif msgbuf_t *msgbuf = (msgbuf_t *) ((u8 *) data - offsetof (msgbuf_t, data)); if (!msgbuf->data_len) { vapi_msg_free (ctx, (u8 *) data); return VAPI_EAGAIN; } *msg = (u8 *) data; *msg_size = ntohl (msgbuf->data_len); #if VAPI_DEBUG unsigned msgid = be16toh (*(u16 *) * msg); if (msgid <= ctx->vl_msg_id_max) { vapi_msg_id_t id = ctx->vl_msg_id_to_vapi_msg_t[msgid]; if (id < __vapi_metadata.count) { VAPI_DBG ("recv msg@%p:%u[%s]", *msg, msgid, __vapi_metadata.msgs[id]->name); } else { VAPI_DBG ("recv msg@%p:%u[UNKNOWN]", *msg, msgid); } } else { VAPI_DBG ("recv msg@%p:%u[UNKNOWN]", *msg, msgid); } #endif if (ctx->handle_keepalives) { unsigned msgid = be16toh (*(u16 *) * msg); if (msgid == vapi_lookup_vl_msg_id (ctx, vapi_msg_id_memclnt_keepalive)) { vapi_msg_memclnt_keepalive_reply *reply = NULL; do { reply = vapi_msg_alloc (ctx, sizeof (*reply)); } while (!reply); reply->header.context = vapi_get_client_index (ctx); reply->header._vl_msg_id = vapi_lookup_vl_msg_id (ctx, vapi_msg_id_memclnt_keepalive_reply); reply->payload.retval = 0; vapi_msg_memclnt_keepalive_reply_hton (reply); while (VAPI_EAGAIN == vapi_send (ctx, reply)); vapi_msg_free (ctx, *msg); VAPI_DBG ("autohandled memclnt_keepalive"); goto again; } } } else { rv = VAPI_EAGAIN; } return rv; } vapi_error_e vapi_wait (vapi_ctx_t ctx, vapi_wait_mode_e mode) { return VAPI_ENOTSUP; } static vapi_error_e vapi_dispatch_response (vapi_ctx_t ctx, vapi_msg_id_t id, u32 context, void *msg) { int mrv; if (0 != (mrv = pthread_mutex_lock (&ctx->requests_mutex))) { VAPI_DBG ("pthread_mutex_lock() failed, rv=%d:%s", mrv, strerror (mrv)); return VAPI_MUTEX_FAILURE; } int tmp = ctx->requests_start; const int requests_end = vapi_requests_end (ctx); while (ctx->requests[tmp].context != context && tmp != requests_end) { ++tmp; if (tmp == ctx->requests_size) { tmp = 0; } } VAPI_DBG ("dispatch, search from %d, %s at %d", ctx->requests_start, ctx->requests[tmp].context == context ? "matched" : "stopped", tmp); vapi_error_e rv = VAPI_OK; if (ctx->requests[tmp].context == context) { while (ctx->requests_start != tmp) { VAPI_ERR ("No response to req with context=%u", (unsigned) ctx->requests[tmp].context); ctx->requests[ctx->requests_start].callback (ctx, ctx->requests [ctx-> requests_start].callback_ctx, VAPI_ENORESP, true, NULL); clib_memset (&ctx->requests[ctx->requests_start], 0, sizeof (ctx->requests[ctx->requests_start])); ++ctx->requests_start; --ctx->requests_count; if (ctx->requests_start == ctx->requests_size) { ctx->requests_start = 0; } } // now ctx->requests_start == tmp int payload_offset = vapi_get_payload_offset (id); void *payload = ((u8 *) msg) + payload_offset; bool is_last = true; if (ctx->requests[tmp].is_dump) { if (vapi_msg_id_control_ping_reply == id) { payload = NULL; } else { is_last = false; } } if (payload_offset != -1) { rv = ctx->requests[tmp].callback (ctx, ctx->requests[tmp].callback_ctx, VAPI_OK, is_last, payload); } else { /* this is a message without payload, so bend the callback a little */ rv = ((vapi_error_e (*)(vapi_ctx_t, void *, vapi_error_e, bool)) ctx->requests[tmp].callback) (ctx, ctx->requests[tmp].callback_ctx, VAPI_OK, is_last); } if (is_last) { clib_memset (&ctx->requests[ctx->requests_start], 0, sizeof (ctx->requests[ctx->requests_start])); ++ctx->requests_start; --ctx->requests_count; if (ctx->requests_start == ctx->requests_size) { ctx->requests_start = 0; } } VAPI_DBG ("after dispatch, req start = %d, end = %d, count = %d", ctx->requests_start, requests_end, ctx->requests_count); } if (0 != (mrv = pthread_mutex_unlock (&ctx->requests_mutex))) { VAPI_DBG ("pthread_mutex_unlock() failed, rv=%d:%s", mrv, strerror (mrv)); abort (); /* this really shouldn't happen */ } return rv; } static vapi_error_e vapi_dispatch_event (vapi_ctx_t ctx, vapi_msg_id_t id, void *msg) { if (ctx->event_cbs[id].cb) { return ctx->event_cbs[id].cb (ctx, ctx->event_cbs[id].ctx, msg); } else if (ctx->generic_cb.cb) { return ctx->generic_cb.cb (ctx, ctx->generic_cb.ctx, id, msg); } else { VAPI_DBG ("No handler/generic handler for msg id %u[%s], message ignored", (unsigned) id, __vapi_metadata.msgs[id]->name); } return VAPI_OK; } bool vapi_msg_is_with_context (vapi_msg_id_t id) { assert (id <= __vapi_metadata.count); return __vapi_metadata.msgs[id]->has_context; } vapi_error_e vapi_dispatch_one (vapi_ctx_t ctx) { VAPI_DBG ("vapi_dispatch_one()"); void *msg; size_t size; vapi_error_e rv = vapi_recv (ctx, &msg, &size, SVM_Q_WAIT, 0); if (VAPI_OK != rv) { VAPI_DBG ("vapi_recv failed with rv=%d", rv); return rv; } u16 vpp_id = be16toh (*(u16 *) msg); if (vpp_id > ctx->vl_msg_id_max) { VAPI_ERR ("Unknown msg ID received, id `%u', out of range <0,%u>", (unsigned) vpp_id, (unsigned) ctx->vl_msg_id_max); vapi_msg_free (ctx, msg); return VAPI_EINVAL; } if (VAPI_INVALID_MSG_ID == (unsigned) ctx->vl_msg_id_to_vapi_msg_t[vpp_id]) { VAPI_ERR ("Unknown msg ID received, id `%u' marked as not supported", (unsigned) vpp_id); vapi_msg_free (ctx, msg); return VAPI_EINVAL; } const vapi_msg_id_t id = ctx->vl_msg_id_to_vapi_msg_t[vpp_id]; const size_t expect_size = vapi_get_message_size (id); if (size < expect_size) { VAPI_ERR ("Invalid msg received, unexpected size `%zu' < expected min `%zu'", size, expect_size); vapi_msg_free (ctx, msg); return VAPI_EINVAL; } u32 context; vapi_get_swap_to_host_func (id) (msg); if (vapi_msg_is_with_context (id)) { context = *(u32 *) (((u8 *) msg) + vapi_get_context_offset (id)); /* is this a message originating from VAPI? */ VAPI_DBG ("dispatch, context is %x", context); if (context & context_counter_mask) { rv = vapi_dispatch_response (ctx, id, context, msg); goto done; } } rv = vapi_dispatch_event (ctx, id, msg); done: vapi_msg_free (ctx, msg); return rv; } vapi_error_e vapi_dispatch (vapi_ctx_t ctx) { vapi_error_e rv = VAPI_OK; while (!vapi_requests_empty (ctx)) { rv = vapi_dispatch_one (ctx); if (VAPI_OK != rv) { return rv; } } return rv; } void vapi_set_event_cb (vapi_ctx_t ctx, vapi_msg_id_t id, vapi_event_cb callback, void *callback_ctx) { vapi_event_cb_with_ctx *c = &ctx->event_cbs[id]; c->cb = callback; c->ctx = callback_ctx; } void vapi_clear_event_cb (vapi_ctx_t ctx, vapi_msg_id_t id) { vapi_set_event_cb (ctx, id, NULL, NULL); } void vapi_set_generic_event_cb (vapi_ctx_t ctx, vapi_generic_event_cb callback, void *callback_ctx) { ctx->generic_cb.cb = callback; ctx->generic_cb.ctx = callback_ctx; } void vapi_clear_generic_event_cb (vapi_ctx_t ctx) { ctx->generic_cb.cb = NULL; ctx->generic_cb.ctx = NULL; } u16 vapi_lookup_vl_msg_id (vapi_ctx_t ctx, vapi_msg_id_t id) { assert (id < __vapi_metadata.count); return ctx->vapi_msg_id_t_to_vl_msg_id[id]; } int vapi_get_client_index (vapi_ctx_t ctx) { return api_main.my_client_index; } bool vapi_is_nonblocking (vapi_ctx_t ctx) { return (VAPI_MODE_NONBLOCKING == ctx->mode); } size_t vapi_get_max_request_count (vapi_ctx_t ctx) { return ctx->requests_size - 1; } int vapi_get_payload_offset (vapi_msg_id_t id) { assert (id < __vapi_metadata.count); return __vapi_metadata.msgs[id]->payload_offset; } void (*vapi_get_swap_to_host_func (vapi_msg_id_t id)) (void *msg) { assert (id < __vapi_metadata.count); return __vapi_metadata.msgs[id]->swap_to_host; } void (*vapi_get_swap_to_be_func (vapi_msg_id_t id)) (void *msg) { assert (id < __vapi_metadata.count); return __vapi_metadata.msgs[id]->swap_to_be; } size_t vapi_get_message_size (vapi_msg_id_t id) { assert (id < __vapi_metadata.count); return __vapi_metadata.msgs[id]->size; } size_t vapi_get_context_offset (vapi_msg_id_t id) { assert (id < __vapi_metadata.count); return __vapi_metadata.msgs[id]->context_offset; } vapi_msg_id_t vapi_register_msg (vapi_message_desc_t * msg) { int i = 0; for (i = 0; i < __vapi_metadata.count; ++i) { if (!strcmp (msg->name_with_crc, __vapi_metadata.msgs[i]->name_with_crc)) { /* this happens if somebody is linking together several objects while * using the static inline headers, just fill in the already * assigned id here so that all the objects are in sync */ msg->id = __vapi_metadata.msgs[i]->id; return msg->id; } } vapi_msg_id_t id = __vapi_metadata.count; ++__vapi_metadata.count; __vapi_metadata.msgs = realloc (__vapi_metadata.msgs, sizeof (*__vapi_metadata.msgs) * __vapi_metadata.count); __vapi_metadata.msgs[id] = msg; size_t s = strlen (msg->name_with_crc); if (s > __vapi_metadata.max_len_name_with_crc) { __vapi_metadata.max_len_name_with_crc = s; } msg->id = id; return id; } vapi_error_e vapi_producer_lock (vapi_ctx_t ctx) { int mrv; if (0 != (mrv = pthread_mutex_lock (&ctx->requests_mutex))) { VAPI_DBG ("pthread_mutex_lock() failed, rv=%d:%s", mrv, strerror (mrv)); (void) mrv; /* avoid warning if the above debug is not enabled */ return VAPI_MUTEX_FAILURE; } return VAPI_OK; } vapi_error_e vapi_producer_unlock (vapi_ctx_t ctx) { int mrv; if (0 != (mrv = pthread_mutex_unlock (&ctx->requests_mutex))) { VAPI_DBG ("pthread_mutex_unlock() failed, rv=%d:%s", mrv, strerror (mrv)); (void) mrv; /* avoid warning if the above debug is not enabled */ return VAPI_MUTEX_FAILURE; } return VAPI_OK; } size_t vapi_get_message_count () { return __vapi_metadata.count; } const char * vapi_get_msg_name (vapi_msg_id_t id) { return __vapi_metadata.msgs[id]->name; } /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */