/* $Id: buffer.c,v 1.21 2002-05-23 18:22:48 rjkaes Exp $ * * The buffer used in each connection is a linked list of lines. As the lines * are read in and written out the buffer expands and contracts. Basically, * by using this method we can increase the buffer size dynamicly. However, * we have a hard limit of 64 KB for the size of the buffer. The buffer can be * thought of as a queue were we act on both the head and tail. The various * functions act on each end (the names are taken from what Perl uses to act on * the ends of an array. :) * * Copyright (C) 1999,2001 Robert James Kaes (rjkaes@users.sourceforge.net) * * 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, 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. */ #include "tinyproxy.h" #include "buffer.h" #include "heap.h" #include "log.h" #define BUFFER_HEAD(x) (x)->head #define BUFFER_TAIL(x) (x)->tail struct bufline_s { unsigned char *string; /* the actual string of data */ struct bufline_s *next; /* pointer to next in linked list */ size_t length; /* length of the string of data */ size_t pos; /* start sending from this offset */ }; /* * The buffer structure points to the beginning and end of the buffer list * (and includes the total size) */ struct buffer_s { struct bufline_s *head; /* top of the buffer */ struct bufline_s *tail; /* bottom of the buffer */ size_t size; /* total size of the buffer */ }; /* * Take a string of data and a length and make a new line which can be added * to the buffer. The data IS copied, so make sure if you allocated your * data buffer on the heap, delete it because you now have TWO copies. */ static struct bufline_s * makenewline(unsigned char *data, size_t length) { struct bufline_s *newline; assert(data != NULL); assert(length > 0); if (!(newline = safemalloc(sizeof(struct bufline_s)))) return NULL; if (!(newline->string = safemalloc(length))) { safefree(newline); return NULL; } memcpy(newline->string, data, length); newline->next = NULL; newline->length = length; /* Position our "read" pointer at the beginning of the data */ newline->pos = 0; return newline; } /* * Free the allocated buffer line */ static void free_line(struct bufline_s *line) { assert(line != NULL); if (!line) return; if (line->string) safefree(line->string); safefree(line); } /* * Create a new buffer */ struct buffer_s * new_buffer(void) { struct buffer_s *buffptr; if (!(buffptr = safemalloc(sizeof(struct buffer_s)))) return NULL; /* * Since the buffer is initially empty, set the HEAD and TAIL * pointers to NULL since they can't possibly point anywhere at the * moment. */ BUFFER_HEAD(buffptr) = BUFFER_TAIL(buffptr) = NULL; buffptr->size = 0; return buffptr; } /* * Delete all the lines in the buffer and the buffer itself */ void delete_buffer(struct buffer_s *buffptr) { struct bufline_s *next; assert(buffptr != NULL); while (BUFFER_HEAD(buffptr)) { next = BUFFER_HEAD(buffptr)->next; free_line(BUFFER_HEAD(buffptr)); BUFFER_HEAD(buffptr) = next; } safefree(buffptr); } /* * Return the current size of the buffer. */ size_t buffer_size(struct buffer_s *buffptr) { return buffptr->size; } /* * Push a new line on to the end of the buffer. */ int add_to_buffer(struct buffer_s *buffptr, unsigned char *data, size_t length) { struct bufline_s *newline; assert(buffptr != NULL); assert(data != NULL); assert(length > 0); /* * Sanity check here. A buffer with a non-NULL head pointer must * have a size greater than zero, and vice-versa. */ if (BUFFER_HEAD(buffptr) == NULL) assert(buffptr->size == 0); else assert(buffptr->size > 0); /* * Make a new line so we can add it to the buffer. */ if (!(newline = makenewline(data, length))) return -1; if (buffptr->size == 0) BUFFER_HEAD(buffptr) = BUFFER_TAIL(buffptr) = newline; else { BUFFER_TAIL(buffptr)->next = newline; BUFFER_TAIL(buffptr) = newline; } buffptr->size += length; return 0; } /* * Remove the first line from the top of the buffer */ static struct bufline_s * remove_from_buffer(struct buffer_s *buffptr) { struct bufline_s *line; assert(buffptr != NULL); assert(BUFFER_HEAD(buffptr) != NULL); line = BUFFER_HEAD(buffptr); BUFFER_HEAD(buffptr) = line->next; buffptr->size -= line->length; return line; } /* * Reads the bytes from the socket, and adds them to the buffer. * Takes a connection and returns the number of bytes read. */ #define READ_BUFFER_SIZE (1024 * 2) ssize_t read_buffer(int fd, struct buffer_s * buffptr) { ssize_t bytesin; unsigned char buffer[READ_BUFFER_SIZE]; assert(fd >= 0); assert(buffptr != NULL); /* * Don't allow the buffer to grow larger than MAXBUFFSIZE */ if (buffptr->size >= MAXBUFFSIZE) return 0; bytesin = read(fd, buffer, READ_BUFFER_SIZE); if (bytesin > 0) { if (add_to_buffer(buffptr, buffer, bytesin) < 0) { log_message(LOG_ERR, "readbuff: add_to_buffer() error."); return -1; } return bytesin; } else { if (bytesin == 0) { /* connection was closed by client */ return -1; } else { switch (errno) { #ifdef EWOULDBLOCK case EWOULDBLOCK: #else # ifdef EAGAIN case EAGAIN: # endif #endif case EINTR: return 0; default: log_message(LOG_ERR, "readbuff: recv() error \"%s\" on file descriptor %d", strerror(errno), fd); return -1; } } } } /* * Write the bytes in the buffer to the socket. * Takes a connection and returns the number of bytes written. */ ssize_t write_buffer(int fd, struct buffer_s * buffptr) { ssize_t bytessent; struct bufline_s *line; assert(fd >= 0); assert(buffptr != NULL); if (buffptr->size == 0) return 0; /* Sanity check. It would be bad to be using a NULL pointer! */ assert(BUFFER_HEAD(buffptr) != NULL); line = BUFFER_HEAD(buffptr); bytessent = send(fd, line->string + line->pos, line->length - line->pos, MSG_NOSIGNAL); if (bytessent >= 0) { /* bytes sent, adjust buffer */ line->pos += bytessent; if (line->pos == line->length) free_line(remove_from_buffer(buffptr)); return bytessent; } else { switch (errno) { #ifdef EWOULDBLOCK case EWOULDBLOCK: #else # ifdef EAGAIN case EAGAIN: # endif #endif case EINTR: return 0; case ENOBUFS: case ENOMEM: log_message(LOG_ERR, "writebuff: write() error [NOBUFS/NOMEM] \"%s\" on file descriptor %d", strerror(errno), fd); return 0; default: log_message(LOG_ERR, "writebuff: write() error \"%s\" on file descriptor %d", strerror(errno), fd); return -1; } } }