/* * Copyright (C) Max Romanov * Copyright (C) NGINX, Inc. */ #include #if (NXT_HAVE_MEMFD_CREATE) #include #include #include #endif #include nxt_inline void nxt_port_mmap_handler_use(nxt_port_mmap_handler_t *mmap_handler, int i) { int c; c = nxt_atomic_fetch_add(&mmap_handler->use_count, i); if (i < 0 && c == -i) { if (mmap_handler->hdr != NULL) { nxt_mem_munmap(mmap_handler->hdr, PORT_MMAP_SIZE); mmap_handler->hdr = NULL; } nxt_free(mmap_handler); } } static nxt_port_mmap_t * nxt_port_mmap_at(nxt_port_mmaps_t *port_mmaps, uint32_t i) { uint32_t cap; cap = port_mmaps->cap; if (cap == 0) { cap = i + 1; } while (i + 1 > cap) { if (cap < 16) { cap = cap * 2; } else { cap = cap + cap / 2; } } if (cap != port_mmaps->cap) { port_mmaps->elts = nxt_realloc(port_mmaps->elts, cap * sizeof(nxt_port_mmap_t)); if (nxt_slow_path(port_mmaps->elts == NULL)) { return NULL; } nxt_memzero(port_mmaps->elts + port_mmaps->cap, sizeof(nxt_port_mmap_t) * (cap - port_mmaps->cap)); port_mmaps->cap = cap; } if (i + 1 > port_mmaps->size) { port_mmaps->size = i + 1; } return port_mmaps->elts + i; } void nxt_port_mmaps_destroy(nxt_port_mmaps_t *port_mmaps, nxt_bool_t free_elts) { uint32_t i; nxt_port_mmap_t *port_mmap; if (port_mmaps == NULL) { return; } port_mmap = port_mmaps->elts; for (i = 0; i < port_mmaps->size; i++) { nxt_port_mmap_handler_use(port_mmap[i].mmap_handler, -1); } port_mmaps->size = 0; if (free_elts != 0) { nxt_free(port_mmaps->elts); } } #define nxt_port_mmap_free_junk(p, size) \ memset((p), 0xA5, size) static void nxt_port_mmap_buf_completion(nxt_task_t *task, void *obj, void *data) { u_char *p; nxt_mp_t *mp; nxt_buf_t *b; nxt_chunk_id_t c; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; if (nxt_buf_ts_handle(task, obj, data)) { return; } b = obj; mp = b->data; #if (NXT_DEBUG) if (nxt_slow_path(data != b->parent)) { nxt_log_alert(task->log, "completion data (%p) != b->parent (%p)", data, b->parent); nxt_abort(); } #endif mmap_handler = data; hdr = mmap_handler->hdr; if (nxt_slow_path(hdr->src_pid != nxt_pid && hdr->dst_pid != nxt_pid)) { nxt_debug(task, "mmap buf completion: mmap for other process pair " "%PI->%PI", hdr->src_pid, hdr->dst_pid); goto release_buf; } if (b->is_port_mmap_sent && b->mem.pos > b->mem.start) { /* * Chunks until b->mem.pos has been sent to other side, * let's release rest (if any). */ p = b->mem.pos - 1; c = nxt_port_mmap_chunk_id(hdr, p) + 1; p = nxt_port_mmap_chunk_start(hdr, c); } else { p = b->mem.start; c = nxt_port_mmap_chunk_id(hdr, p); } nxt_port_mmap_free_junk(p, b->mem.end - p); nxt_debug(task, "mmap buf completion: %p [%p,%d] (sent=%d), " "%PI->%PI,%d,%d", b, b->mem.start, b->mem.end - b->mem.start, b->is_port_mmap_sent, hdr->src_pid, hdr->dst_pid, hdr->id, c); while (p < b->mem.end) { nxt_port_mmap_set_chunk_free(hdr->free_map, c); p += PORT_MMAP_CHUNK_SIZE; c++; } release_buf: nxt_port_mmap_handler_use(mmap_handler, -1); nxt_mp_free(mp, b); nxt_mp_release(mp); } nxt_port_mmap_handler_t * nxt_port_incoming_port_mmap(nxt_task_t *task, nxt_process_t *process, nxt_fd_t fd) { void *mem; struct stat mmap_stat; nxt_port_mmap_t *port_mmap; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; nxt_debug(task, "got new mmap fd #%FD from process %PI", fd, process->pid); port_mmap = NULL; if (fstat(fd, &mmap_stat) == -1) { nxt_log(task, NXT_LOG_WARN, "fstat(%FD) failed %E", fd, nxt_errno); return NULL; } mem = nxt_mem_mmap(NULL, mmap_stat.st_size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (nxt_slow_path(mem == MAP_FAILED)) { nxt_log(task, NXT_LOG_WARN, "mmap() failed %E", nxt_errno); return NULL; } hdr = mem; mmap_handler = nxt_zalloc(sizeof(nxt_port_mmap_handler_t)); if (nxt_slow_path(mmap_handler == NULL)) { nxt_log(task, NXT_LOG_WARN, "failed to allocate mmap_handler"); nxt_mem_munmap(mem, PORT_MMAP_SIZE); return NULL; } mmap_handler->hdr = hdr; nxt_thread_mutex_lock(&process->incoming.mutex); port_mmap = nxt_port_mmap_at(&process->incoming, hdr->id); if (nxt_slow_path(port_mmap == NULL)) { nxt_log(task, NXT_LOG_WARN, "failed to add mmap to incoming array"); nxt_mem_munmap(mem, PORT_MMAP_SIZE); hdr = NULL; nxt_free(mmap_handler); mmap_handler = NULL; goto fail; } nxt_assert(hdr->src_pid == process->pid); nxt_assert(hdr->dst_pid == nxt_pid); port_mmap->mmap_handler = mmap_handler; nxt_port_mmap_handler_use(mmap_handler, 1); hdr->sent_over = 0xFFFFu; fail: nxt_thread_mutex_unlock(&process->incoming.mutex); return mmap_handler; } static nxt_port_mmap_handler_t * nxt_port_new_port_mmap(nxt_task_t *task, nxt_process_t *process, nxt_port_t *port, nxt_bool_t tracking) { void *mem; u_char *p, name[64]; nxt_fd_t fd; nxt_free_map_t *free_map; nxt_port_mmap_t *port_mmap; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; mmap_handler = nxt_zalloc(sizeof(nxt_port_mmap_handler_t)); if (nxt_slow_path(mmap_handler == NULL)) { nxt_log(task, NXT_LOG_WARN, "failed to allocate mmap_handler"); return NULL; } port_mmap = nxt_port_mmap_at(&process->outgoing, process->outgoing.size); if (nxt_slow_path(port_mmap == NULL)) { nxt_log(task, NXT_LOG_WARN, "failed to add port mmap to outgoing array"); nxt_free(mmap_handler); return NULL; } p = nxt_sprintf(name, name + sizeof(name), NXT_SHM_PREFIX "unit.%PI.%uxD", nxt_pid, nxt_random(&task->thread->random)); *p = '\0'; #if (NXT_HAVE_MEMFD_CREATE) fd = syscall(SYS_memfd_create, name, MFD_CLOEXEC); if (nxt_slow_path(fd == -1)) { nxt_log(task, NXT_LOG_CRIT, "memfd_create(%s) failed %E", name, nxt_errno); goto remove_fail; } nxt_debug(task, "memfd_create(%s): %FD", name, fd); #elif (NXT_HAVE_SHM_OPEN) /* Just in case. */ shm_unlink((char *) name); fd = shm_open((char *) name, O_CREAT | O_EXCL | O_RDWR, S_IRUSR | S_IWUSR); nxt_debug(task, "shm_open(%s): %FD", name, fd); if (nxt_slow_path(fd == -1)) { nxt_log(task, NXT_LOG_CRIT, "shm_open(%s) failed %E", name, nxt_errno); goto remove_fail; } if (nxt_slow_path(shm_unlink((char *) name) == -1)) { nxt_log(task, NXT_LOG_WARN, "shm_unlink(%s) failed %E", name, nxt_errno); } #else #error No working shared memory implementation. #endif if (nxt_slow_path(ftruncate(fd, PORT_MMAP_SIZE) == -1)) { nxt_log(task, NXT_LOG_WARN, "ftruncate() failed %E", nxt_errno); goto remove_fail; } mem = nxt_mem_mmap(NULL, PORT_MMAP_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (nxt_slow_path(mem == MAP_FAILED)) { goto remove_fail; } mmap_handler->hdr = mem; port_mmap->mmap_handler = mmap_handler; nxt_port_mmap_handler_use(mmap_handler, 1); /* Init segment header. */ hdr = mmap_handler->hdr; nxt_memset(hdr->free_map, 0xFFU, sizeof(hdr->free_map)); nxt_memset(hdr->free_tracking_map, 0xFFU, sizeof(hdr->free_tracking_map)); hdr->id = process->outgoing.size - 1; hdr->src_pid = nxt_pid; hdr->dst_pid = process->pid; hdr->sent_over = port->id; /* Mark first chunk as busy */ free_map = tracking ? hdr->free_tracking_map : hdr->free_map; nxt_port_mmap_set_chunk_busy(free_map, 0); /* Mark as busy chunk followed the last available chunk. */ nxt_port_mmap_set_chunk_busy(hdr->free_map, PORT_MMAP_CHUNK_COUNT); nxt_port_mmap_set_chunk_busy(hdr->free_tracking_map, PORT_MMAP_CHUNK_COUNT); nxt_debug(task, "send mmap fd %FD to process %PI", fd, port->pid); /* TODO handle error */ (void) nxt_port_socket_write(task, port, NXT_PORT_MSG_MMAP, fd, 0, 0, NULL); nxt_log(task, NXT_LOG_DEBUG, "new mmap #%D created for %PI -> %PI", hdr->id, nxt_pid, process->pid); return mmap_handler; remove_fail: nxt_free(mmap_handler); process->outgoing.size--; return NULL; } static nxt_port_mmap_handler_t * nxt_port_mmap_get(nxt_task_t *task, nxt_port_t *port, nxt_chunk_id_t *c, nxt_bool_t tracking) { nxt_process_t *process; nxt_free_map_t *free_map; nxt_port_mmap_t *port_mmap; nxt_port_mmap_t *end_port_mmap; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; process = port->process; if (nxt_slow_path(process == NULL)) { return NULL; } *c = 0; nxt_thread_mutex_lock(&process->outgoing.mutex); end_port_mmap = process->outgoing.elts + process->outgoing.size; for (port_mmap = process->outgoing.elts; port_mmap < end_port_mmap; port_mmap++) { mmap_handler = port_mmap->mmap_handler; hdr = mmap_handler->hdr; if (hdr->sent_over != 0xFFFFu && hdr->sent_over != port->id) { continue; } free_map = tracking ? hdr->free_tracking_map : hdr->free_map; if (nxt_port_mmap_get_free_chunk(free_map, c)) { goto unlock_return; } } /* TODO introduce port_mmap limit and release wait. */ mmap_handler = nxt_port_new_port_mmap(task, process, port, tracking); unlock_return: nxt_thread_mutex_unlock(&process->outgoing.mutex); return mmap_handler; } static nxt_port_mmap_handler_t * nxt_port_get_port_incoming_mmap(nxt_task_t *task, nxt_pid_t spid, uint32_t id) { nxt_process_t *process; nxt_port_mmap_handler_t *mmap_handler; process = nxt_runtime_process_find(task->thread->runtime, spid); if (nxt_slow_path(process == NULL)) { return NULL; } nxt_thread_mutex_lock(&process->incoming.mutex); if (nxt_fast_path(process->incoming.size > id)) { mmap_handler = process->incoming.elts[id].mmap_handler; } else { mmap_handler = NULL; nxt_debug(task, "invalid incoming mmap id %uD for pid %PI", id, spid); } nxt_thread_mutex_unlock(&process->incoming.mutex); return mmap_handler; } nxt_int_t nxt_port_mmap_get_tracking(nxt_task_t *task, nxt_port_t *port, nxt_port_mmap_tracking_t *tracking, uint32_t stream) { nxt_chunk_id_t c; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; nxt_debug(task, "request tracking for stream #%uD", stream); mmap_handler = nxt_port_mmap_get(task, port, &c, 1); if (nxt_slow_path(mmap_handler == NULL)) { return NXT_ERROR; } nxt_port_mmap_handler_use(mmap_handler, 1); hdr = mmap_handler->hdr; tracking->mmap_handler = mmap_handler; tracking->tracking = hdr->tracking + c; *tracking->tracking = stream; nxt_debug(task, "outgoing tracking allocation: %PI->%PI,%d,%d", hdr->src_pid, hdr->dst_pid, hdr->id, c); return NXT_OK; } nxt_bool_t nxt_port_mmap_tracking_cancel(nxt_task_t *task, nxt_port_mmap_tracking_t *tracking, uint32_t stream) { nxt_bool_t res; nxt_chunk_id_t c; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; mmap_handler = tracking->mmap_handler; if (nxt_slow_path(mmap_handler == NULL)) { return 0; } hdr = mmap_handler->hdr; res = nxt_atomic_cmp_set(tracking->tracking, stream, 0); nxt_debug(task, "%s tracking for stream #%uD", (res ? "cancelled" : "failed to cancel"), stream); if (!res) { c = tracking->tracking - hdr->tracking; nxt_port_mmap_set_chunk_free(hdr->free_tracking_map, c); } nxt_port_mmap_handler_use(mmap_handler, -1); return res; } nxt_int_t nxt_port_mmap_tracking_write(uint32_t *buf, nxt_port_mmap_tracking_t *t) { nxt_atomic_t *tracking; nxt_port_mmap_handler_t *mmap_handler; mmap_handler = t->mmap_handler; tracking = mmap_handler->hdr->tracking; nxt_assert(t->tracking >= tracking); nxt_assert(t->tracking < tracking + PORT_MMAP_CHUNK_COUNT); buf[0] = mmap_handler->hdr->id; buf[1] = t->tracking - mmap_handler->hdr->tracking; return NXT_OK; } nxt_bool_t nxt_port_mmap_tracking_read(nxt_task_t *task, nxt_port_recv_msg_t *msg) { nxt_buf_t *b; nxt_bool_t res; nxt_chunk_id_t c; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; nxt_port_mmap_tracking_msg_t *tracking_msg; b = msg->buf; if (nxt_buf_used_size(b) < (int)sizeof(nxt_port_mmap_tracking_msg_t)) { nxt_debug(task, "too small message %u", nxt_buf_used_size(b)); return 0; } tracking_msg = (nxt_port_mmap_tracking_msg_t *) b->mem.pos; b->mem.pos += sizeof(nxt_port_mmap_tracking_msg_t); mmap_handler = nxt_port_get_port_incoming_mmap(task, msg->port_msg.pid, tracking_msg->mmap_id); if (nxt_slow_path(mmap_handler == NULL)) { return 0; } hdr = mmap_handler->hdr; c = tracking_msg->tracking_id; res = nxt_atomic_cmp_set(hdr->tracking + c, msg->port_msg.stream, 0); nxt_debug(task, "tracking for stream #%uD %s", msg->port_msg.stream, (res ? "received" : "already cancelled")); if (!res) { nxt_port_mmap_set_chunk_free(hdr->free_tracking_map, c); } return res; } nxt_buf_t * nxt_port_mmap_get_buf(nxt_task_t *task, nxt_port_t *port, size_t size) { size_t nchunks; nxt_mp_t *mp; nxt_buf_t *b; nxt_chunk_id_t c; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; nxt_debug(task, "request %z bytes shm buffer", size); b = nxt_buf_mem_ts_alloc(task, task->thread->engine->mem_pool, 0); if (nxt_slow_path(b == NULL)) { return NULL; } b->completion_handler = nxt_port_mmap_buf_completion; nxt_buf_set_port_mmap(b); mmap_handler = nxt_port_mmap_get(task, port, &c, 0); if (nxt_slow_path(mmap_handler == NULL)) { mp = task->thread->engine->mem_pool; nxt_mp_free(mp, b); nxt_mp_release(mp); return NULL; } b->parent = mmap_handler; nxt_port_mmap_handler_use(mmap_handler, 1); hdr = mmap_handler->hdr; b->mem.start = nxt_port_mmap_chunk_start(hdr, c); b->mem.pos = b->mem.start; b->mem.free = b->mem.start; b->mem.end = b->mem.start + PORT_MMAP_CHUNK_SIZE; nchunks = size / PORT_MMAP_CHUNK_SIZE; if ((size % PORT_MMAP_CHUNK_SIZE) != 0 || nchunks == 0) { nchunks++; } nxt_debug(task, "outgoing mmap buf allocation: %p [%p,%d] %PI->%PI,%d,%d", b, b->mem.start, b->mem.end - b->mem.start, hdr->src_pid, hdr->dst_pid, hdr->id, c); c++; nchunks--; /* Try to acquire as much chunks as required. */ while (nchunks > 0) { if (nxt_port_mmap_chk_set_chunk_busy(hdr->free_map, c) == 0) { break; } b->mem.end += PORT_MMAP_CHUNK_SIZE; c++; nchunks--; } return b; } nxt_int_t nxt_port_mmap_increase_buf(nxt_task_t *task, nxt_buf_t *b, size_t size, size_t min_size) { size_t nchunks, free_size; nxt_chunk_id_t c, start; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; nxt_debug(task, "request increase %z bytes shm buffer", size); if (nxt_slow_path(nxt_buf_is_port_mmap(b) == 0)) { nxt_log(task, NXT_LOG_WARN, "failed to increase, not a mmap buffer"); return NXT_ERROR; } free_size = nxt_buf_mem_free_size(&b->mem); if (nxt_slow_path(size <= free_size)) { return NXT_OK; } mmap_handler = b->parent; hdr = mmap_handler->hdr; start = nxt_port_mmap_chunk_id(hdr, b->mem.end); size -= free_size; nchunks = size / PORT_MMAP_CHUNK_SIZE; if ((size % PORT_MMAP_CHUNK_SIZE) != 0 || nchunks == 0) { nchunks++; } c = start; /* Try to acquire as much chunks as required. */ while (nchunks > 0) { if (nxt_port_mmap_chk_set_chunk_busy(hdr->free_map, c) == 0) { break; } c++; nchunks--; } if (nchunks != 0 && min_size > free_size + PORT_MMAP_CHUNK_SIZE * (c - start)) { c--; while (c >= start) { nxt_port_mmap_set_chunk_free(hdr->free_map, c); c--; } nxt_debug(task, "failed to increase, %d chunks busy", nchunks); return NXT_ERROR; } else { b->mem.end += PORT_MMAP_CHUNK_SIZE * (c - start); return NXT_OK; } } static nxt_buf_t * nxt_port_mmap_get_incoming_buf(nxt_task_t *task, nxt_port_t *port, nxt_pid_t spid, nxt_port_mmap_msg_t *mmap_msg) { size_t nchunks; nxt_buf_t *b; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; mmap_handler = nxt_port_get_port_incoming_mmap(task, spid, mmap_msg->mmap_id); if (nxt_slow_path(mmap_handler == NULL)) { return NULL; } b = nxt_buf_mem_ts_alloc(task, port->mem_pool, 0); if (nxt_slow_path(b == NULL)) { return NULL; } b->completion_handler = nxt_port_mmap_buf_completion; nxt_buf_set_port_mmap(b); nchunks = mmap_msg->size / PORT_MMAP_CHUNK_SIZE; if ((mmap_msg->size % PORT_MMAP_CHUNK_SIZE) != 0) { nchunks++; } hdr = mmap_handler->hdr; b->mem.start = nxt_port_mmap_chunk_start(hdr, mmap_msg->chunk_id); b->mem.pos = b->mem.start; b->mem.free = b->mem.start + mmap_msg->size; b->mem.end = b->mem.start + nchunks * PORT_MMAP_CHUNK_SIZE; b->parent = mmap_handler; nxt_port_mmap_handler_use(mmap_handler, 1); nxt_debug(task, "incoming mmap buf allocation: %p [%p,%d] %PI->%PI,%d,%d", b, b->mem.start, b->mem.end - b->mem.start, hdr->src_pid, hdr->dst_pid, hdr->id, mmap_msg->chunk_id); return b; } void nxt_port_mmap_write(nxt_task_t *task, nxt_port_t *port, nxt_port_send_msg_t *msg, nxt_sendbuf_coalesce_t *sb) { size_t bsize; nxt_buf_t *bmem; nxt_uint_t i; nxt_port_mmap_msg_t *mmap_msg; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; nxt_debug(task, "prepare %z bytes message for transfer to process %PI " "via shared memory", sb->size, port->pid); bsize = sb->niov * sizeof(nxt_port_mmap_msg_t); mmap_msg = port->mmsg_buf; bmem = msg->buf; for (i = 0; i < sb->niov; i++, mmap_msg++) { /* Lookup buffer which starts current iov_base. */ while (bmem && sb->iobuf[i].iov_base != bmem->mem.pos) { bmem = bmem->next; } if (nxt_slow_path(bmem == NULL)) { nxt_log_error(NXT_LOG_ERR, task->log, "failed to find buf for iobuf[%d]", i); return; /* TODO clear b and exit */ } mmap_handler = bmem->parent; hdr = mmap_handler->hdr; mmap_msg->mmap_id = hdr->id; mmap_msg->chunk_id = nxt_port_mmap_chunk_id(hdr, bmem->mem.pos); mmap_msg->size = sb->iobuf[i].iov_len; nxt_debug(task, "mmap_msg={%D, %D, %D} to %PI", mmap_msg->mmap_id, mmap_msg->chunk_id, mmap_msg->size, port->pid); } sb->iobuf[0].iov_base = port->mmsg_buf; sb->iobuf[0].iov_len = bsize; sb->niov = 1; sb->size = bsize; msg->port_msg.mmap = 1; } void nxt_port_mmap_read(nxt_task_t *task, nxt_port_recv_msg_t *msg) { nxt_buf_t *b, **pb; nxt_port_mmap_msg_t *end, *mmap_msg; pb = &msg->buf; msg->size = 0; for (b = msg->buf; b != NULL; b = b->next) { mmap_msg = (nxt_port_mmap_msg_t *) b->mem.pos; end = (nxt_port_mmap_msg_t *) b->mem.free; while (mmap_msg < end) { nxt_assert(mmap_msg + 1 <= end); nxt_debug(task, "mmap_msg={%D, %D, %D} from %PI", mmap_msg->mmap_id, mmap_msg->chunk_id, mmap_msg->size, msg->port_msg.pid); *pb = nxt_port_mmap_get_incoming_buf(task, msg->port, msg->port_msg.pid, mmap_msg); if (nxt_slow_path(*pb == NULL)) { nxt_log_error(NXT_LOG_ERR, task->log, "failed to get mmap buffer"); break; } msg->size += mmap_msg->size; pb = &(*pb)->next; mmap_msg++; /* Mark original buf as complete. */ b->mem.pos += sizeof(nxt_port_mmap_msg_t); } } } nxt_port_method_t nxt_port_mmap_get_method(nxt_task_t *task, nxt_port_t *port, nxt_buf_t *b) { nxt_port_method_t m; nxt_port_mmap_header_t *hdr; nxt_port_mmap_handler_t *mmap_handler; m = NXT_PORT_METHOD_ANY; for (; b != NULL; b = b->next) { if (nxt_buf_used_size(b) == 0) { /* empty buffers does not affect method */ continue; } if (nxt_buf_is_port_mmap(b)) { mmap_handler = b->parent; hdr = mmap_handler->hdr; if (m == NXT_PORT_METHOD_PLAIN) { nxt_log_error(NXT_LOG_ERR, task->log, "mixing plain and mmap buffers, " "using plain mode"); break; } if (port->pid != hdr->dst_pid) { nxt_log_error(NXT_LOG_ERR, task->log, "send mmap buffer for %PI to %PI, " "using plain mode", hdr->dst_pid, port->pid); m = NXT_PORT_METHOD_PLAIN; break; } if (m == NXT_PORT_METHOD_ANY) { nxt_debug(task, "using mmap mode"); m = NXT_PORT_METHOD_MMAP; } } else { if (m == NXT_PORT_METHOD_MMAP) { nxt_log_error(NXT_LOG_ERR, task->log, "mixing mmap and plain buffers, " "switching to plain mode"); m = NXT_PORT_METHOD_PLAIN; break; } if (m == NXT_PORT_METHOD_ANY) { nxt_debug(task, "using plain mode"); m = NXT_PORT_METHOD_PLAIN; } } } return m; }