/* * MARS Long Distance Replication Software * * This file is part of MARS project: http://schoebel.github.io/mars/ * * Copyright (C) 2010-2014 Thomas Schoebel-Theuer * Copyright (C) 2011-2014 1&1 Internet AG * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ //#define BRICK_DEBUGGING //#define MARS_DEBUGGING //#define IO_DEBUGGING //#define LOWLEVEL_DEBUGGING #ifdef LOWLEVEL_DEBUGGING #define MARS_LOW MARS_IO #else #define MARS_LOW(args...) /*empty*/ #endif #include #include #include #include #include "mars.h" #include "mars_net.h" #undef USE_SENDPAGE // FIXME: does not work, leads to data corruption (probably due to races with asynchrous sending) #define USE_BUFFERING /* Low-level network traffic */ int mars_net_default_port = CONFIG_MARS_DEFAULT_PORT; EXPORT_SYMBOL_GPL(mars_net_default_port); module_param_named(mars_port, mars_net_default_port, int, 0); /* TODO: allow binding to specific source addresses instead of catch-all. * TODO: make all the socket options configurable. * TODO: implement signal handling. * TODO: add authentication. * TODO: add compression / encryption. */ struct mars_tcp_params default_tcp_params = { .ip_tos = IPTOS_LOWDELAY, .tcp_window_size = 8 * 1024 * 1024, // for long distance replications .tcp_nodelay = 0, .tcp_timeout = 2, .tcp_keepcnt = 3, .tcp_keepintvl = 3, // keepalive ping time .tcp_keepidle = 4, }; EXPORT_SYMBOL(default_tcp_params); static void __setsockopt(struct socket *sock, int level, int optname, char *optval, int optsize) { int status = kernel_setsockopt(sock, level, optname, optval, optsize); if (status < 0) { MARS_WRN("cannot set %d socket option %d to value %d, status = %d\n", level, optname, *(int*)optval, status); } } #define _setsockopt(sock,level,optname,val) __setsockopt(sock, level, optname, (char*)&(val), sizeof(val)) int mars_create_sockaddr(struct sockaddr_storage *addr, const char *spec) { struct sockaddr_in *sockaddr = (void*)addr; const char *new_spec; const char *tmp_spec; int status = 0; memset(addr, 0, sizeof(*addr)); sockaddr->sin_family = AF_INET; sockaddr->sin_port = htons(mars_net_default_port); /* Try to translate hostnames to IPs if possible. */ if (mars_translate_hostname) { new_spec = mars_translate_hostname(spec); } else { new_spec = brick_strdup(spec); } tmp_spec = new_spec; /* This is PROVISIONARY! * TODO: add IPV6 syntax and many more features :) */ if (!*tmp_spec) goto done; if (*tmp_spec != ':') { unsigned char u0 = 0, u1 = 0, u2 = 0, u3 = 0; status = sscanf(tmp_spec, "%hhu.%hhu.%hhu.%hhu", &u0, &u1, &u2, &u3); if (status != 4) { MARS_ERR("invalid sockaddr IP syntax '%s', status = %d\n", tmp_spec, status); status = -EINVAL; goto done; } MARS_DBG("decoded IP = %u.%u.%u.%u\n", u0, u1, u2, u3); sockaddr->sin_addr.s_addr = (__be32)u0 | (__be32)u1 << 8 | (__be32)u2 << 16 | (__be32)u3 << 24; } // deocde port number (when present) tmp_spec = spec; while (*tmp_spec && *tmp_spec++ != ':') /*empty*/; if (*tmp_spec) { int port = 0; status = sscanf(tmp_spec, "%d", &port); if (status != 1) { MARS_ERR("invalid sockaddr PORT syntax '%s', status = %d\n", tmp_spec, status); status = -EINVAL; goto done; } MARS_DBG("decoded PORT = %d\n", port); sockaddr->sin_port = htons(port); } status = 0; done: brick_string_free(new_spec); return status; } EXPORT_SYMBOL_GPL(mars_create_sockaddr); static int current_debug_nr = 0; // no locking, just for debugging static void _set_socketopts(struct socket *sock) { struct timeval t = { .tv_sec = default_tcp_params.tcp_timeout, }; int x_true = 1; /* TODO: improve this by a table-driven approach */ sock->sk->sk_rcvtimeo = sock->sk->sk_sndtimeo = default_tcp_params.tcp_timeout * HZ; sock->sk->sk_reuse = 1; _setsockopt(sock, SOL_SOCKET, SO_SNDBUFFORCE, default_tcp_params.tcp_window_size); _setsockopt(sock, SOL_SOCKET, SO_RCVBUFFORCE, default_tcp_params.tcp_window_size); _setsockopt(sock, SOL_IP, SO_PRIORITY, default_tcp_params.ip_tos); _setsockopt(sock, IPPROTO_TCP, TCP_NODELAY, default_tcp_params.tcp_nodelay); _setsockopt(sock, SOL_SOCKET, SO_KEEPALIVE, x_true); _setsockopt(sock, IPPROTO_TCP, TCP_KEEPCNT, default_tcp_params.tcp_keepcnt); _setsockopt(sock, IPPROTO_TCP, TCP_KEEPINTVL, default_tcp_params.tcp_keepintvl); _setsockopt(sock, IPPROTO_TCP, TCP_KEEPIDLE, default_tcp_params.tcp_keepidle); _setsockopt(sock, SOL_SOCKET, SO_SNDTIMEO, t); _setsockopt(sock, SOL_SOCKET, SO_RCVTIMEO, t); if (sock->file) { // switch back to blocking mode sock->file->f_flags &= ~O_NONBLOCK; } } int mars_create_socket(struct mars_socket *msock, struct sockaddr_storage *addr, bool is_server) { struct socket *sock; struct sockaddr *sockaddr = (void*)addr; int status = -EEXIST; if (unlikely(atomic_read(&msock->s_count))) { MARS_ERR("#%d socket already in use\n", msock->s_debug_nr); goto final; } if (unlikely(msock->s_socket)) { MARS_ERR("#%d socket already open\n", msock->s_debug_nr); goto final; } atomic_set(&msock->s_count, 1); status = sock_create_kern(AF_INET, SOCK_STREAM, IPPROTO_TCP, &msock->s_socket); if (unlikely(status < 0 || !msock->s_socket)) { msock->s_socket = NULL; MARS_WRN("cannot create socket, status = %d\n", status); goto final; } msock->s_debug_nr = ++current_debug_nr; sock = msock->s_socket; CHECK_PTR(sock, done); msock->s_alive = true; _set_socketopts(sock); if (is_server) { status = kernel_bind(sock, sockaddr, sizeof(*sockaddr)); if (unlikely(status < 0)) { MARS_WRN("#%d bind failed, status = %d\n", msock->s_debug_nr, status); goto done; } status = kernel_listen(sock, 16); if (status < 0) { MARS_WRN("#%d listen failed, status = %d\n", msock->s_debug_nr, status); } } else { status = kernel_connect(sock, sockaddr, sizeof(*sockaddr), 0); /* Treat non-blocking connects as successful. * Any potential errors will show up later during traffic. */ if (status == -EINPROGRESS) { MARS_DBG("#%d connect in progress\n", msock->s_debug_nr); status = 0; } if (status < 0) { MARS_DBG("#%d connect failed, status = %d\n", msock->s_debug_nr, status); } } done: if (status < 0) { mars_put_socket(msock); } else { MARS_DBG("successfully created socket #%d\n", msock->s_debug_nr); } final: return status; } EXPORT_SYMBOL_GPL(mars_create_socket); int mars_accept_socket(struct mars_socket *new_msock, struct mars_socket *old_msock) { int status = -ENOENT; struct socket *new_socket = NULL; bool ok; ok = mars_get_socket(old_msock); if (likely(ok)) { struct socket *sock = old_msock->s_socket; if (unlikely(!sock)) { goto err; } status = kernel_accept(sock, &new_socket, O_NONBLOCK); if (unlikely(status < 0)) { goto err; } if (unlikely(!new_socket)) { status = -EBADF; goto err; } MARS_IO("old#%d status = %d file = %p flags = 0x%x\n", old_msock->s_debug_nr, status, new_socket->file, new_socket->file ? new_socket->file->f_flags : 0); _set_socketopts(new_socket); memset(new_msock, 0, sizeof(struct mars_socket)); new_msock->s_socket = new_socket; atomic_set(&new_msock->s_count, 1); new_msock->s_alive = true; new_msock->s_debug_nr = ++current_debug_nr; MARS_DBG("#%d successfully accepted socket #%d\n", old_msock->s_debug_nr, new_msock->s_debug_nr); status = 0; err: mars_put_socket(old_msock); } return status; } EXPORT_SYMBOL_GPL(mars_accept_socket); bool mars_get_socket(struct mars_socket *msock) { MARS_LOW("#%d get socket %p s_count=%d\n", msock->s_debug_nr, msock->s_socket, atomic_read(&msock->s_count)); if (unlikely(atomic_read(&msock->s_count) <= 0)) { MARS_ERR("#%d bad nesting on msock = %p\n", msock->s_debug_nr, msock); return false; } atomic_inc(&msock->s_count); if (unlikely(!msock->s_socket || !msock->s_alive)) { mars_put_socket(msock); return false; } MARS_LOW("#%d got socket\n", msock->s_debug_nr); return true; } EXPORT_SYMBOL_GPL(mars_get_socket); void mars_put_socket(struct mars_socket *msock) { MARS_LOW("#%d put socket %p s_count=%d\n", msock->s_debug_nr, msock->s_socket, atomic_read(&msock->s_count)); if (unlikely(atomic_read(&msock->s_count) <= 0)) { MARS_ERR("#%d bad nesting on msock = %p sock = %p\n", msock->s_debug_nr, msock, msock->s_socket); } else if (atomic_dec_and_test(&msock->s_count)) { struct socket *sock = msock->s_socket; int i; MARS_DBG("#%d closing socket %p\n", msock->s_debug_nr, sock); if (likely(sock && cmpxchg(&msock->s_alive, true, false))) { kernel_sock_shutdown(sock, SHUT_WR); } if (likely(sock && !msock->s_alive)) { MARS_DBG("#%d releasing socket %p\n", msock->s_debug_nr, sock); sock_release(sock); } for (i = 0; i < MAX_DESC_CACHE; i++) { if (msock->s_desc_send[i]) brick_block_free(msock->s_desc_send[i], PAGE_SIZE); if (msock->s_desc_recv[i]) brick_block_free(msock->s_desc_recv[i], PAGE_SIZE); } brick_block_free(msock->s_buffer, PAGE_SIZE); memset(msock, 0, sizeof(struct mars_socket)); } } EXPORT_SYMBOL_GPL(mars_put_socket); void mars_shutdown_socket(struct mars_socket *msock) { MARS_IO("#%d shutdown socket %p s_count=%d\n", msock->s_debug_nr, msock->s_socket, atomic_read(&msock->s_count)); if (msock->s_socket) { bool ok = mars_get_socket(msock); if (likely(ok)) { struct socket *sock = msock->s_socket; if (likely(sock && cmpxchg(&msock->s_alive, true, false))) { MARS_DBG("#%d shutdown socket %p\n", msock->s_debug_nr, sock); kernel_sock_shutdown(sock, SHUT_WR); } mars_put_socket(msock); } } } EXPORT_SYMBOL_GPL(mars_shutdown_socket); bool mars_socket_is_alive(struct mars_socket *msock) { bool res = false; if (!msock->s_socket || !msock->s_alive) goto done; if (unlikely(atomic_read(&msock->s_count) <= 0)) { MARS_ERR("#%d bad nesting on msock = %p sock = %p\n", msock->s_debug_nr, msock, msock->s_socket); goto done; } res = true; done: MARS_LOW("#%d %p s_count = %d\n", msock->s_debug_nr, msock->s_socket, atomic_read(&msock->s_count)); return res; } EXPORT_SYMBOL_GPL(mars_socket_is_alive); static int _mars_send_raw(struct mars_socket *msock, const void *buf, int len) { int sleeptime = 1000 / HZ; int sent = 0; int status = 0; msock->s_send_cnt = 0; while (len > 0) { int this_len = len; struct socket *sock = msock->s_socket; if (unlikely(!sock || !mars_net_is_alive || brick_thread_should_stop())) { MARS_WRN("interrupting, sent = %d\n", sent); status = -EIDRM; break; } #ifdef USE_SENDPAGE // FIXME: does not work, leads to data corruption (probably due to races with asynchrous sending) { int page_offset = 0; struct page *page; int flags = MSG_NOSIGNAL; page = brick_iomap(buf, &page_offset, &this_len); if (unlikely(!page)) { MARS_ERR("cannot iomap() kernel address %p\n", buf); status = -EINVAL; break; } if (this_len < len) flags |= MSG_MORE; status = kernel_sendpage(sock, page, page_offset, this_len, flags); if (status > 0 && status != this_len) { MARS_WRN("#%d status = %d this_len = %d\n", msock->s_debug_nr, status, this_len); } } #else // spare code, activate in case of problems with sendpage() { struct kvec iov = { .iov_base = (void*)buf, .iov_len = this_len, }; struct msghdr msg = { .msg_iov = (struct iovec*)&iov, .msg_flags = 0 | MSG_NOSIGNAL, }; status = kernel_sendmsg(sock, &msg, &iov, 1, this_len); } #endif if (status == -EAGAIN) { if (msock->s_send_abort > 0 && ++msock->s_send_cnt > msock->s_send_abort) { MARS_WRN("#%d reached send abort %d\n", msock->s_debug_nr, msock->s_send_abort); status = -EINTR; break; } brick_msleep(sleeptime); // linearly increasing backoff if (sleeptime < 100) { sleeptime += 1000 / HZ; } continue; } msock->s_send_cnt = 0; if (unlikely(status == -EINTR)) { // ignore it flush_signals(current); MARS_IO("#%d got signal\n", msock->s_debug_nr); brick_msleep(50); continue; } if (unlikely(!status)) { MARS_WRN("#%d EOF from socket upon send_page()\n", msock->s_debug_nr); brick_msleep(50); status = -ECOMM; break; } if (unlikely(status < 0)) { MARS_WRN("#%d bad socket sendmsg, len=%d, this_len=%d, sent=%d, status = %d\n", msock->s_debug_nr, len, this_len, sent, status); break; } len -= status; buf += status; sent += status; sleeptime = 1000 / HZ; } if (status >= 0) status = sent; return status; } int mars_send_raw(struct mars_socket *msock, const void *buf, int len, bool cork) { #ifdef USE_BUFFERING int sent = 0; int rest = len; #endif int status = -EINVAL; if (!mars_get_socket(msock)) goto final; MARS_IO("#%d cork=%d sending len=%d bytes\n", msock->s_debug_nr, cork, len); #ifdef USE_BUFFERING restart: while (!msock->s_buffer) { msock->s_pos = 0; msock->s_buffer = brick_block_alloc(0, PAGE_SIZE); if (unlikely(!msock->s_buffer)) brick_msleep(100); } if (msock->s_pos + rest < PAGE_SIZE) { memcpy(msock->s_buffer + msock->s_pos, buf, rest); msock->s_pos += rest; sent += rest; rest = 0; status = sent; if (cork) goto done; } if (msock->s_pos > 0) { status = _mars_send_raw(msock, msock->s_buffer, msock->s_pos); MARS_IO("#%d buffer send %d bytes status=%d\n", msock->s_debug_nr, msock->s_pos, status); if (status < 0) goto done; brick_block_free(msock->s_buffer, PAGE_SIZE); msock->s_buffer = NULL; msock->s_pos = 0; } if (rest >= PAGE_SIZE) { status = _mars_send_raw(msock, buf, rest); MARS_IO("#%d bulk send %d bytes status=%d\n", msock->s_debug_nr, rest, status); goto done; } else if (rest > 0) { goto restart; } status = sent; done: #else status = _mars_send_raw(msock, buf, len); #endif if (status < 0 && msock->s_shutdown_on_err) mars_shutdown_socket(msock); mars_put_socket(msock); final: return status; } EXPORT_SYMBOL_GPL(mars_send_raw); /** * mars_recv_raw() - Get [min,max] number of bytes * @msock: socket to read from * @buf: buffer to put the data in * @minlen: minimum number of bytes to read * @maxlen: maximum number of bytes to read * * Returns a negative error code or a number between [@minlen,@maxlen]. * Short reads are mapped to an error. * * Hint: by setting @minlen to 1, you can read any number up to @maxlen. * However, the most important use case is @minlen == @maxlen. * * Note: buf may be NULL. In this case, the data is simply consumed, * like /dev/null */ int mars_recv_raw(struct mars_socket *msock, void *buf, int minlen, int maxlen) { void *dummy = NULL; int sleeptime = 1000 / HZ; int status = -EIDRM; int done = 0; if (!buf) { buf = dummy = brick_block_alloc(0, maxlen); } if (!buf) { MARS_WRN("#%d bad receive buffer\n", msock->s_debug_nr); return -EINVAL; } if (!mars_get_socket(msock)) goto final; if (minlen < maxlen) { struct socket *sock = msock->s_socket; if (sock && sock->file) { /* Use nonblocking reads to consume as much data * as possible */ sock->file->f_flags |= O_NONBLOCK; } } MARS_IO("#%d receiving len=%d/%d bytes\n", msock->s_debug_nr, minlen, maxlen); msock->s_recv_cnt = 0; while (done < minlen || (!minlen && !done)) { struct kvec iov = { .iov_base = buf + done, .iov_len = maxlen - done, }; struct msghdr msg = { .msg_iovlen = 1, .msg_iov = (struct iovec*)&iov, .msg_flags = MSG_NOSIGNAL, }; struct socket *sock = msock->s_socket; if (unlikely(!sock)) { MARS_WRN("#%d socket has disappeared\n", msock->s_debug_nr); status = -EIDRM; goto err; } if (!mars_net_is_alive || brick_thread_should_stop()) { MARS_WRN("#%d interrupting, done = %d\n", msock->s_debug_nr, done); status = -EIDRM; goto err; } MARS_LOW("#%d done %d, fetching %d bytes\n", msock->s_debug_nr, done, maxlen-done); status = kernel_recvmsg(sock, &msg, &iov, 1, maxlen-done, msg.msg_flags); MARS_LOW("#%d status = %d\n", msock->s_debug_nr, status); if (!mars_net_is_alive || brick_thread_should_stop()) { MARS_WRN("#%d interrupting, done = %d\n", msock->s_debug_nr, done); status = -EIDRM; goto err; } if (status == -EAGAIN) { if (msock->s_recv_abort > 0 && ++msock->s_recv_cnt > msock->s_recv_abort) { MARS_WRN("#%d reached recv abort %d\n", msock->s_debug_nr, msock->s_recv_abort); status = -EINTR; goto err; } brick_msleep(sleeptime); if (minlen <= 0) break; // linearly increasing backoff if (sleeptime < 100) { sleeptime += 1000 / HZ; } continue; } msock->s_recv_cnt = 0; if (!status) { // EOF MARS_WRN("#%d got EOF from socket (done=%d, req_size=%d)\n", msock->s_debug_nr, done, maxlen - done); status = -EPIPE; goto err; } if (status < 0) { MARS_WRN("#%d bad recvmsg, status = %d\n", msock->s_debug_nr, status); goto err; } done += status; sleeptime = 1000 / HZ; } status = done; MARS_IO("#%d got %d bytes\n", msock->s_debug_nr, done); err: if (status < 0 && msock->s_shutdown_on_err) mars_shutdown_socket(msock); mars_put_socket(msock); final: if (dummy) brick_block_free(dummy, maxlen); return status; } EXPORT_SYMBOL_GPL(mars_recv_raw); /////////////////////////////////////////////////////////////////////// /* Mid-level field data exchange */ static void dump_meta(const struct meta *meta) { int count = 0; for (; meta->field_name != NULL; meta++) { MARS_ERR("%2d %4d %4d %p '%s'\n", meta->field_type, meta->field_size, meta->field_offset, meta->field_ref, meta->field_name); count++; } MARS_ERR("-------- %d fields.\n", count); } static int _add_fields(struct mars_desc_item *mi, const struct meta *meta, int offset, const char *prefix, int maxlen) { int count = 0; for (; meta->field_name != NULL; meta++) { const char *new_prefix; int new_offset; int len; new_prefix = mi->field_name; new_offset = offset + meta->field_offset; MARS_IO("input field_name='%s' field_type=%d\n", meta->field_name, meta->field_type); if (unlikely(maxlen < sizeof(struct mars_desc_item))) { MARS_ERR("desc cache item overflow\n"); count = -1; goto done; } len = scnprintf(mi->field_name, MAX_FIELD_LEN, "%s.%s", prefix, meta->field_name); if (unlikely(len >= MAX_FIELD_LEN)) { MARS_ERR("field len overflow on '%s.%s'\n", prefix, meta->field_name); count = -1; goto done; } mi->field_type = meta->field_type; mi->field_size = meta->field_size; mi->field_sender_offset = new_offset; mi->field_recver_offset = -1; MARS_IO("output field_name='%s' field_type=%d\n", mi->field_name, mi->field_type); mi++; maxlen -= sizeof(struct mars_desc_item); count++; if (meta->field_type == FIELD_SUB) { int sub_count; sub_count = _add_fields(mi, meta->field_ref, new_offset, new_prefix, maxlen); if (sub_count < 0) return sub_count; mi += sub_count; count += sub_count; maxlen -= sub_count * sizeof(struct mars_desc_item); } } done: MARS_IO("count=%d\n", count); return count; } static struct mars_desc_cache *make_sender_cache(struct mars_socket *msock, const struct meta *meta, int *cache_index) { int orig_len = PAGE_SIZE; int maxlen = orig_len; struct mars_desc_cache *mc; struct mars_desc_item *mi; int i; int status; for (i = 0; i < MAX_DESC_CACHE; i++) { mc = msock->s_desc_send[i]; if (!mc) break; if (mc->cache_sender_cookie == (u64)meta) goto done; } MARS_IO("#%d meta=%p i=%d\n", msock->s_debug_nr, meta, i); if (unlikely(i >= MAX_DESC_CACHE - 1)) { MARS_ERR("#%d desc cache overflow\n", msock->s_debug_nr); return NULL; } mc = brick_block_alloc(0, maxlen); if (unlikely(!mc)) { MARS_ERR("#%d desc cache alloc error\n", msock->s_debug_nr); goto done; } memset(mc, 0, maxlen); mc->cache_sender_cookie = (u64)meta; maxlen -= sizeof(struct mars_desc_cache); mi = (void*)(mc + 1); status = _add_fields(mi, meta, 0, "", maxlen); if (likely(status > 0)) { mc->cache_items = status; msock->s_desc_send[i] = mc; *cache_index = i; } else { brick_block_free(mc, orig_len); mc = NULL; } done: return mc; } static int _make_recver_cache(struct mars_desc_cache *mc, const struct meta *meta, int offset, const char *prefix) { char *tmp = brick_string_alloc(MAX_FIELD_LEN); int count = 0; int i; for (; meta->field_name != NULL; meta++, count++) { snprintf(tmp, MAX_FIELD_LEN, "%s.%s", prefix, meta->field_name); for (i = 0; i < mc->cache_items; i++) { struct mars_desc_item *mi = ((struct mars_desc_item*)(mc + 1)) + i; if (meta->field_type == mi->field_type && !strcmp(tmp, mi->field_name)) { mi->field_recver_offset = offset + meta->field_offset; if (meta->field_type == FIELD_SUB) { int sub_count = _make_recver_cache(mc, meta->field_ref, mi->field_recver_offset, tmp); if (unlikely(sub_count <= 0)) { count = 0; goto done; } } goto found; } } if (unlikely(!count)) { MARS_ERR("field '%s' is missing\n", meta->field_name); goto done; } MARS_WRN("field %2d '%s' is missing\n", count, meta->field_name); found:; } done: brick_string_free(tmp); return count; } static int make_recver_cache(struct mars_desc_cache *mc, const struct meta *meta) { int count; int i; mc->cache_recver_cookie = (u64)meta; count = _make_recver_cache(mc, meta, 0, ""); for (i = 0; i < mc->cache_items; i++) { struct mars_desc_item *mi = ((struct mars_desc_item*)(mc + 1)) + i; if (unlikely(mi->field_recver_offset < 0)) { MARS_WRN("field '%s' is not transferred\n", mi->field_name); } } return count; } static int _desc_send_item(struct mars_socket *msock, const void *data, const struct mars_desc_cache *mc, int index, bool cork) { struct mars_desc_item *mi = ((struct mars_desc_item*)(mc + 1)) + index; const void *item = data + mi->field_sender_offset; int len = mi->field_size; int status; int res = -1; MARS_IO("#%d cork=%d mc=%p field_name='%s' field_type=%d\n", msock->s_debug_nr, cork, mc, mi->field_name, mi->field_type); switch (mi->field_type) { case FIELD_REF: MARS_ERR("NYI\n"); goto done; case FIELD_SUB: /* skip this */ res = 0; break; case FIELD_STRING: item = *(void**)item; len = 0; if (item) len = strlen(item) + 1; status = mars_send_raw(msock, &len, sizeof(len), cork || len > 0); if (unlikely(status < 0)) goto done; /* fallthrough */ default: if (likely(len > 0)) { status = mars_send_raw(msock, item, len, cork); if (unlikely(status < 0)) goto done; } res = len; } done: return res; } static int _desc_recv_item(struct mars_socket *msock, void *data, const struct mars_desc_cache *mc, int index, int line) { struct mars_desc_item *mi = ((struct mars_desc_item*)(mc + 1)) + index; void *item = NULL; int len = mi->field_size; int status; int res = -1; if (likely(data && mi->field_recver_offset >= 0)) { item = data + mi->field_recver_offset; } switch (mi->field_type) { case FIELD_REF: MARS_ERR("NYI\n"); goto done; case FIELD_SUB: /* skip this */ res = 0; break; case FIELD_STRING: len = 0; status = mars_recv_raw(msock, &len, sizeof(len), sizeof(len)); if (unlikely(status < 0)) goto done; if (len > 0 && item) { char *str = _brick_string_alloc(len, line); if (unlikely(!str)) { MARS_ERR("#%d string alloc error\n", msock->s_debug_nr); goto done; } *(void**)item = str; item = str; } /* fallthrough */ default: if (likely(len > 0)) { status = mars_recv_raw(msock, item, len, len); if (unlikely(status < 0)) goto done; } res = len; } done: return res; } #define MARS_DESC_MAGIC 0x73f0A2ec6148f48dll struct mars_desc_header { u64 h_magic; u64 h_cookie; s16 h_meta_len; s16 h_index; }; static inline int _desc_send_struct(struct mars_socket *msock, int cache_index, const void *data, int h_meta_len, bool cork) { const struct mars_desc_cache *mc = msock->s_desc_send[cache_index]; struct mars_desc_header header = { .h_magic = MARS_DESC_MAGIC, .h_cookie = mc->cache_sender_cookie, .h_meta_len = h_meta_len, .h_index = data ? cache_index : -1, }; int index; int count = 0; int status = 0; MARS_IO("#%d cork=%d mc=%p h_meta_len=%d\n", msock->s_debug_nr, cork, mc, h_meta_len); status = mars_send_raw(msock, &header, sizeof(header), cork || data); if (unlikely(status < 0)) goto err; if (unlikely(h_meta_len > 0)) { status = mars_send_raw(msock, mc, h_meta_len, true); MARS_IO("#%d sent mc=%p h_meta_len=%d status=%d\n", msock->s_debug_nr, mc, h_meta_len, status); if (unlikely(status < 0)) goto err; } if (likely(data)) { for (index = 0; index < mc->cache_items; index++) { status = _desc_send_item(msock, data, mc, index, cork || index < mc->cache_items-1); if (unlikely(status < 0)) goto err; count++; } } if (status >= 0) status = count; err: return status; } static int desc_send_struct(struct mars_socket *msock, const void *data, const struct meta *meta, bool cork) { struct mars_desc_cache *mc; int i; int h_meta_len = 0; int status = -EINVAL; for (i = 0; i < MAX_DESC_CACHE; i++) { mc = msock->s_desc_send[i]; if (!mc) break; if (mc->cache_sender_cookie == (u64)meta) goto found; } mc = make_sender_cache(msock, meta, &i); if (unlikely(!mc)) goto done; h_meta_len = mc->cache_items * sizeof(struct mars_desc_item) + sizeof(struct mars_desc_cache); found: status = _desc_send_struct(msock, i, data, h_meta_len, cork); done: return status; } static int desc_recv_struct(struct mars_socket *msock, void *data, const struct meta *meta, int line) { struct mars_desc_header header = {}; struct mars_desc_cache *mc; int cache_index; int index; int count = 0; int status = 0; status = mars_recv_raw(msock, &header, sizeof(header), sizeof(header)); if (unlikely(status < 0)) goto err; if (unlikely(header.h_magic != MARS_DESC_MAGIC)) { MARS_WRN("#%d called from line %d bad packet header magic = %llx\n", msock->s_debug_nr, line, header.h_magic); status = -ENOMSG; goto err; } cache_index = header.h_index; if (cache_index < 0) { // EOR goto done; } if (unlikely(cache_index >= MAX_DESC_CACHE - 1)) { MARS_WRN("#%d called from line %d bad cache index %d\n", msock->s_debug_nr, line, cache_index); status = -EBADF; goto err; } mc = msock->s_desc_recv[cache_index]; if (unlikely(!mc)) { if (unlikely(header.h_meta_len <= 0)) { MARS_WRN("#%d called from line %d missing meta information\n", msock->s_debug_nr, line); status = -ENOMSG; goto err; } mc = _brick_block_alloc(0, PAGE_SIZE, line); if (unlikely(!mc)) { MARS_WRN("#%d called from line %d out of memory\n", msock->s_debug_nr, line); status = -ENOMEM; goto err; } status = mars_recv_raw(msock, mc, header.h_meta_len, header.h_meta_len); MARS_IO("#%d got mc=%p h_meta_len=%d status=%d\n", msock->s_debug_nr, mc, header.h_meta_len, status); if (unlikely(status < 0)) { brick_block_free(mc, PAGE_SIZE); goto err; } status = make_recver_cache(mc, meta); if (unlikely(status < 0)) { brick_block_free(mc, PAGE_SIZE); goto err; } msock->s_desc_recv[cache_index] = mc; } else if (unlikely(header.h_meta_len > 0)) { MARS_WRN("#%d called from line %d has %d unexpected meta bytes\n", msock->s_debug_nr, line, header.h_meta_len); status = -EMSGSIZE; goto err; } else if (unlikely(mc->cache_recver_cookie != (u64)meta)) { MARS_ERR("#%d protocol error %p != %p\n", msock->s_debug_nr, meta, (void*)mc->cache_recver_cookie); dump_meta((void*)mc->cache_recver_cookie); dump_meta(meta); status = -EPROTO; goto err; } for (index = 0; index < mc->cache_items; index++) { status = _desc_recv_item(msock, data, mc, index, line); if (unlikely(status < 0)) goto err; count++; } done: if (status >= 0) status = count; err: return status; } int mars_send_struct(struct mars_socket *msock, const void *data, const struct meta *meta) { MARS_IO("#%d meta=%p\n", msock->s_debug_nr, meta); return desc_send_struct(msock, data, meta, false); } EXPORT_SYMBOL_GPL(mars_send_struct); int _mars_recv_struct(struct mars_socket *msock, void *data, const struct meta *meta, int line) { MARS_IO("#%d meta=%p called from line %d\n", msock->s_debug_nr, meta, line); return desc_recv_struct(msock, data, meta, line); } EXPORT_SYMBOL_GPL(_mars_recv_struct); /////////////////////////////////////////////////////////////////////// /* High-level transport of mars structures */ const struct meta mars_cmd_meta[] = { META_INI_SUB(cmd_stamp, struct mars_cmd, mars_timespec_meta), META_INI(cmd_code, struct mars_cmd, FIELD_INT), META_INI(cmd_int1, struct mars_cmd, FIELD_INT), META_INI(cmd_str1, struct mars_cmd, FIELD_STRING), {} }; EXPORT_SYMBOL_GPL(mars_cmd_meta); int mars_send_mref(struct mars_socket *msock, struct mref_object *mref) { struct mars_cmd cmd = { .cmd_code = CMD_MREF, .cmd_int1 = mref->ref_id, }; int seq = 0; int status; if (mref->ref_rw != 0 && mref->ref_data && mref->ref_cs_mode < 2) cmd.cmd_code |= CMD_FLAG_HAS_DATA; get_lamport(&cmd.cmd_stamp); status = desc_send_struct(msock, &cmd, mars_cmd_meta, true); if (status < 0) goto done; seq = 0; status = desc_send_struct(msock, mref, mars_mref_meta, cmd.cmd_code & CMD_FLAG_HAS_DATA); if (status < 0) goto done; if (cmd.cmd_code & CMD_FLAG_HAS_DATA) { status = mars_send_raw(msock, mref->ref_data, mref->ref_len, false); } done: return status; } EXPORT_SYMBOL_GPL(mars_send_mref); int mars_recv_mref(struct mars_socket *msock, struct mref_object *mref, struct mars_cmd *cmd) { int status; status = desc_recv_struct(msock, mref, mars_mref_meta, __LINE__); if (status < 0) goto done; set_lamport(&cmd->cmd_stamp); if (cmd->cmd_code & CMD_FLAG_HAS_DATA) { if (!mref->ref_data) mref->ref_data = brick_block_alloc(0, mref->ref_len); if (!mref->ref_data) { status = -ENOMEM; goto done; } status = mars_recv_raw(msock, mref->ref_data, mref->ref_len, mref->ref_len); if (status < 0) MARS_WRN("#%d mref_len = %d, status = %d\n", msock->s_debug_nr, mref->ref_len, status); } done: return status; } EXPORT_SYMBOL_GPL(mars_recv_mref); int mars_send_cb(struct mars_socket *msock, struct mref_object *mref) { struct mars_cmd cmd = { .cmd_code = CMD_CB, .cmd_int1 = mref->ref_id, }; int seq = 0; int status; if (mref->ref_rw == 0 && mref->ref_data && mref->ref_cs_mode < 2) cmd.cmd_code |= CMD_FLAG_HAS_DATA; get_lamport(&cmd.cmd_stamp); status = desc_send_struct(msock, &cmd, mars_cmd_meta, true); if (status < 0) goto done; seq = 0; status = desc_send_struct(msock, mref, mars_mref_meta, cmd.cmd_code & CMD_FLAG_HAS_DATA); if (status < 0) goto done; if (cmd.cmd_code & CMD_FLAG_HAS_DATA) { MARS_IO("#%d sending blocklen = %d\n", msock->s_debug_nr, mref->ref_len); status = mars_send_raw(msock, mref->ref_data, mref->ref_len, false); } done: return status; } EXPORT_SYMBOL_GPL(mars_send_cb); int mars_recv_cb(struct mars_socket *msock, struct mref_object *mref, struct mars_cmd *cmd) { int status; status = desc_recv_struct(msock, mref, mars_mref_meta, __LINE__); if (status < 0) goto done; set_lamport(&cmd->cmd_stamp); if (cmd->cmd_code & CMD_FLAG_HAS_DATA) { if (!mref->ref_data) { MARS_WRN("#%d no internal buffer available\n", msock->s_debug_nr); status = -EINVAL; goto done; } MARS_IO("#%d receiving blocklen = %d\n", msock->s_debug_nr, mref->ref_len); status = mars_recv_raw(msock, mref->ref_data, mref->ref_len, mref->ref_len); } done: return status; } EXPORT_SYMBOL_GPL(mars_recv_cb); ////////////////// module init stuff ///////////////////////// char *(*mars_translate_hostname)(const char *name) = NULL; EXPORT_SYMBOL_GPL(mars_translate_hostname); bool mars_net_is_alive = false; EXPORT_SYMBOL_GPL(mars_net_is_alive); int __init init_mars_net(void) { MARS_INF("init_net()\n"); mars_net_is_alive = true; return 0; } void exit_mars_net(void) { mars_net_is_alive = false; MARS_INF("exit_net()\n"); } #ifndef CONFIG_MARS_HAVE_BIGMODULE MODULE_DESCRIPTION("MARS network infrastructure"); MODULE_AUTHOR("Thomas Schoebel-Theuer "); MODULE_LICENSE("GPL"); module_init(init_mars_net); module_exit(exit_mars_net); #endif