/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You 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. */ /*************************************************************************** * Description: Simple buffer object to handle buffered socket IO * * Author: Gal Shachor * * Version: $Revision: 466585 $ * ***************************************************************************/ #include "jk_global.h" #include "jk_sockbuf.h" static int fill_buffer(jk_sockbuf_t *sb); int jk_sb_open(jk_sockbuf_t *sb, jk_sock_t sd) { if (sb && sd >= 0) { sb->end = 0; sb->start = 0; sb->sd = sd; return JK_TRUE; } return JK_FALSE; } int jk_sb_write(jk_sockbuf_t *sb, const void *buf, unsigned sz) { if (sb && buf && sz) { if ((SOCKBUF_SIZE - sb->end) >= sz) { memcpy(sb->buf + sb->end, buf, sz); sb->end += sz; } else { if (!jk_sb_flush(sb)) { return JK_FALSE; } if (sz > SOCKBUF_SIZE) { return (send(sb->sd, (char *)buf, sz, 0) == (int)sz); } memcpy(sb->buf + sb->end, buf, sz); sb->end += sz; } return JK_TRUE; } return JK_FALSE; } int jk_sb_flush(jk_sockbuf_t *sb) { if (sb) { int save_out = sb->end; sb->end = sb->start = 0; if (save_out) { return send(sb->sd, sb->buf, save_out, 0) == save_out; } return JK_TRUE; } return JK_FALSE; } int jk_sb_read(jk_sockbuf_t *sb, char **buf, unsigned sz, unsigned *ac) { if (sb && buf && ac) { unsigned avail; *ac = 0; *buf = NULL; if (sb->end == sb->start) { sb->end = sb->start = 0; if (fill_buffer(sb) < 0) { return JK_FALSE; } } *buf = sb->buf + sb->start; avail = sb->end - sb->start; if (avail > sz) { *ac = sz; } else { *ac = avail; } sb->start += *ac; return JK_TRUE; } return JK_FALSE; } int jk_sb_gets(jk_sockbuf_t *sb, char **ps) { int ret; if (sb) { while (1) { unsigned i; for (i = sb->start; i < sb->end; i++) { if (JK_LF == sb->buf[i]) { if (i > sb->start && JK_CR == sb->buf[i - 1]) { sb->buf[i - 1] = '\0'; } else { sb->buf[i] = '\0'; } *ps = sb->buf + sb->start; sb->start = (i + 1); return JK_TRUE; } } if ((ret = fill_buffer(sb)) < 0) { return JK_FALSE; } else if (ret == 0) { *ps = sb->buf + sb->start; if ((SOCKBUF_SIZE - sb->end) > 0) { sb->buf[sb->end] = '\0'; } else { sb->buf[sb->end - 1] = '\0'; } return JK_TRUE; } } } return JK_FALSE; } /* * Read data from the socket into the associated buffer, and update the * start and end indices. May move the data currently in the buffer. If * new data is read into the buffer (or if it is already full), returns 1. * If EOF is received on the socket, returns 0. In case of error returns * -1. */ static int fill_buffer(jk_sockbuf_t *sb) { int ret; /* * First move the current data to the beginning of the buffer */ if (sb->start < sb->end) { if (sb->start > 0) { unsigned to_copy = sb->end - sb->start; memmove(sb->buf, sb->buf + sb->start, to_copy); sb->start = 0; sb->end = to_copy; } } else { sb->start = sb->end = 0; } /* * In the unlikely case where the buffer is already full, we won't be * reading anything and we'd be calling recv with a 0 count. */ if ((SOCKBUF_SIZE - sb->end) > 0) { /* * Now, read more data */ ret = recv(sb->sd, sb->buf + sb->end, SOCKBUF_SIZE - sb->end, 0); /* 0 is EOF/SHUTDOWN, -1 is SOCK_ERROR */ if (ret <= 0) { return ret; } sb->end += ret; } return 1; }