/* Copyright (c) 2007-2011 iMatix Corporation Copyright (c) 2007-2011 Other contributors as noted in the AUTHORS file This file is part of 0MQ. 0MQ is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. 0MQ 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #include "platform.hpp" #ifdef ZMQ_HAVE_WINDOWS #include "windows.hpp" #include #else #include #endif #include "../include/zmq.h" #include #include #include #include #include #include #include "swap.hpp" #include "config.hpp" #include "atomic_counter.hpp" #include "err.hpp" zmq::swap_t::swap_t (int64_t filesize_) : fd (-1), filesize (filesize_), file_pos (0), write_pos (0), read_pos (0), block_size (swap_block_size), write_buf_start_addr (0) { zmq_assert (filesize > 0); zmq_assert (block_size > 0); buf1 = new (std::nothrow) char [block_size]; alloc_assert (buf1); buf2 = new (std::nothrow) char [block_size]; alloc_assert (buf2); read_buf = write_buf = buf1; } zmq::swap_t::~swap_t () { delete [] buf1; delete [] buf2; if (fd == -1) return; #ifdef ZMQ_HAVE_WINDOWS int rc = _close (fd); #else int rc = close (fd); #endif errno_assert (rc == 0); #ifdef ZMQ_HAVE_WINDOWS rc = _unlink (filename.c_str ()); #else rc = unlink (filename.c_str ()); #endif errno_assert (rc == 0); } int zmq::swap_t::init () { static zmq::atomic_counter_t seqnum (0); // Get process ID. #ifdef ZMQ_HAVE_WINDOWS int pid = GetCurrentThreadId (); #else pid_t pid = getpid (); #endif std::ostringstream outs; outs << "zmq_" << pid << '_' << seqnum.get () << ".swap"; filename = outs.str (); seqnum.add (1); // Open the backing file. #ifdef ZMQ_HAVE_WINDOWS fd = _open (filename.c_str (), _O_RDWR | _O_CREAT, 0600); #else fd = open (filename.c_str (), O_RDWR | O_CREAT, 0600); #endif if (fd == -1) return -1; #ifdef ZMQ_HAVE_LINUX // Enable more aggresive read-ahead optimization. posix_fadvise (fd, 0, filesize, POSIX_FADV_SEQUENTIAL); #endif return 0; } bool zmq::swap_t::store (zmq_msg_t *msg_) { size_t msg_size = zmq_msg_size (msg_); // Check buffer space availability. // NOTE: We always keep one byte open. if (buffer_space () <= (int64_t) (sizeof msg_size + 1 + msg_size)) return false; // Don't store the ZMQ_MSG_SHARED flag. uint8_t msg_flags = msg_->flags & ~ZMQ_MSG_SHARED; // Write message length, flags, and message body. copy_to_file (&msg_size, sizeof msg_size); copy_to_file (&msg_flags, sizeof msg_flags); copy_to_file (zmq_msg_data (msg_), msg_size); zmq_msg_close (msg_); return true; } void zmq::swap_t::fetch (zmq_msg_t *msg_) { // There must be at least one message available. zmq_assert (read_pos != write_pos); // Retrieve the message size. size_t msg_size; copy_from_file (&msg_size, sizeof msg_size); // Initialize the message. zmq_msg_init_size (msg_, msg_size); // Retrieve the message flags. copy_from_file (&msg_->flags, sizeof msg_->flags); // Retrieve the message payload. copy_from_file (zmq_msg_data (msg_), msg_size); } void zmq::swap_t::commit () { commit_pos = write_pos; } void zmq::swap_t::rollback () { if (commit_pos == write_pos || read_pos == write_pos) return; if (write_pos > read_pos) zmq_assert (read_pos <= commit_pos && commit_pos <= write_pos); else zmq_assert (read_pos <= commit_pos || commit_pos <= write_pos); if (commit_pos / block_size == read_pos / block_size) { write_buf_start_addr = commit_pos % block_size; write_buf = read_buf; } else if (commit_pos / block_size != write_pos / block_size) { write_buf_start_addr = commit_pos % block_size; fill_buf (write_buf, write_buf_start_addr); } write_pos = commit_pos; } bool zmq::swap_t::empty () { return read_pos == write_pos; } /* bool zmq::swap_t::full () { // Check that at least the message size can be written to the swap. return buffer_space () < (int64_t) (sizeof (size_t) + 1); } */ bool zmq::swap_t::fits (zmq_msg_t *msg_) { // Check whether whole binary representation of the message // fits into the swap. size_t msg_size = zmq_msg_size (msg_); if (buffer_space () <= (int64_t) (sizeof msg_size + 1 + msg_size)) return false; return true; } void zmq::swap_t::copy_from_file (void *buffer_, size_t count_) { char *dest_ptr = (char *) buffer_; size_t chunk_size, remainder = count_; while (remainder > 0) { chunk_size = std::min (remainder, std::min ((size_t) (filesize - read_pos), (size_t) (block_size - read_pos % block_size))); memcpy (dest_ptr, &read_buf [read_pos % block_size], chunk_size); dest_ptr += chunk_size; read_pos = (read_pos + chunk_size) % filesize; if (read_pos % block_size == 0) { if (read_pos / block_size == write_pos / block_size) read_buf = write_buf; else fill_buf (read_buf, read_pos); } remainder -= chunk_size; } } void zmq::swap_t::copy_to_file (const void *buffer_, size_t count_) { char *source_ptr = (char *) buffer_; size_t chunk_size, remainder = count_; while (remainder > 0) { chunk_size = std::min (remainder, std::min ((size_t) (filesize - write_pos), (size_t) (block_size - write_pos % block_size))); memcpy (&write_buf [write_pos % block_size], source_ptr, chunk_size); source_ptr += chunk_size; write_pos = (write_pos + chunk_size) % filesize; if (write_pos % block_size == 0) { save_write_buf (); write_buf_start_addr = write_pos; if (write_buf == read_buf) { if (read_buf == buf2) write_buf = buf1; else write_buf = buf2; } } remainder -= chunk_size; } } void zmq::swap_t::fill_buf (char *buf, int64_t pos) { if (file_pos != pos) { #ifdef ZMQ_HAVE_WINDOWS __int64 offset = _lseeki64 (fd, pos, SEEK_SET); #else off_t offset = lseek (fd, (off_t) pos, SEEK_SET); #endif errno_assert (offset == pos); file_pos = pos; } size_t octets_stored = 0; size_t octets_total = std::min (block_size, (size_t) (filesize - file_pos)); while (octets_stored < octets_total) { #ifdef ZMQ_HAVE_WINDOWS int rc = _read (fd, &buf [octets_stored], octets_total - octets_stored); #else ssize_t rc = read (fd, &buf [octets_stored], octets_total - octets_stored); #endif errno_assert (rc > 0); octets_stored += rc; } file_pos += octets_total; } void zmq::swap_t::save_write_buf () { if (file_pos != write_buf_start_addr) { #ifdef ZMQ_HAVE_WINDOWS __int64 offset = _lseeki64 (fd, write_buf_start_addr, SEEK_SET); #else off_t offset = lseek (fd, (off_t) write_buf_start_addr, SEEK_SET); #endif errno_assert (offset == write_buf_start_addr); file_pos = write_buf_start_addr; } size_t octets_stored = 0; size_t octets_total = std::min (block_size, (size_t) (filesize - file_pos)); while (octets_stored < octets_total) { #ifdef ZMQ_HAVE_WINDOWS int rc = _write (fd, &write_buf [octets_stored], octets_total - octets_stored); #else ssize_t rc = write (fd, &write_buf [octets_stored], octets_total - octets_stored); #endif errno_assert (rc > 0); octets_stored += rc; } file_pos += octets_total; } int64_t zmq::swap_t::buffer_space () { if (write_pos < read_pos) return read_pos - write_pos; return filesize - (write_pos - read_pos); }