/* Socket utility routines. * * (C) 2003 Anope Team * Contact us at info@anope.org * * Please read COPYING and README for furhter details. * * Based on the original code of Epona by Lara. * Based on the original code of Services by Andy Church. * * $Id: sockutil.c 5 2004-03-29 01:29:50Z dane $ * */ #include "services.h" /*************************************************************************/ /*************************************************************************/ /* Read from a socket with buffering. */ static char read_netbuf[NET_BUFSIZE]; static char *read_curpos = read_netbuf; /* Next byte to return */ static char *read_bufend = read_netbuf; /* Next position for data from socket */ static char *const read_buftop = read_netbuf + NET_BUFSIZE; int32 total_read = 0; /* Return amount of data in read buffer. */ int32 read_buffer_len() { if (read_bufend >= read_curpos) return read_bufend - read_curpos; else return (read_bufend + NET_BUFSIZE) - read_curpos; } /* Read data. */ static int buffered_read(int fd, char *buf, int len) { int nread, left = len; fd_set fds; struct timeval tv = { 0, 0 }; int errno_save = errno; if (fd < 0) { errno = EBADF; return -1; } while (left > 0) { struct timeval *tvptr = (read_bufend == read_curpos ? NULL : &tv); FD_ZERO(&fds); FD_SET(fd, &fds); while (read_bufend != read_curpos - 1 && !(read_curpos == read_netbuf && read_bufend == read_buftop - 1) && select(fd + 1, &fds, 0, 0, tvptr) == 1) { int maxread; tvptr = &tv; /* don't wait next time */ if (read_bufend < read_curpos) /* wrapped around? */ maxread = (read_curpos - 1) - read_bufend; else if (read_curpos == read_netbuf) maxread = read_buftop - read_bufend - 1; else maxread = read_buftop - read_bufend; nread = read(fd, read_bufend, maxread); errno_save = errno; if (debug >= 3) alog("debug: buffered_read wanted %d, got %d", maxread, nread); if (nread <= 0) break; read_bufend += nread; if (read_bufend == read_buftop) read_bufend = read_netbuf; } if (read_curpos == read_bufend) /* No more data on socket */ break; /* See if we can gobble up the rest of the buffer. */ if (read_curpos + left >= read_buftop && read_bufend < read_curpos) { nread = read_buftop - read_curpos; memcpy(buf, read_curpos, nread); buf += nread; left -= nread; read_curpos = read_netbuf; } /* Now everything we need is in a single chunk at read_curpos. */ if (read_bufend > read_curpos && read_bufend - read_curpos < left) nread = read_bufend - read_curpos; else nread = left; if (nread) { memcpy(buf, read_curpos, nread); buf += nread; left -= nread; read_curpos += nread; } } total_read += len - left; if (debug >= 4) { alog("debug: buffered_read(%d,%p,%d) returning %d", fd, buf, len, len - left); } errno = errno_save; return len - left; } /* Optimized version of the above for reading a single character; returns * the character in an int or EOF, like fgetc(). */ static int buffered_read_one(int fd) { int nread; fd_set fds; struct timeval tv = { 0, 0 }; char c; struct timeval *tvptr = (read_bufend == read_curpos ? NULL : &tv); int errno_save = errno; if (fd < 0) { errno = EBADF; return -1; } FD_ZERO(&fds); FD_SET(fd, &fds); while (read_bufend != read_curpos - 1 && !(read_curpos == read_netbuf && read_bufend == read_buftop - 1) && select(fd + 1, &fds, 0, 0, tvptr) == 1) { int maxread; tvptr = &tv; /* don't wait next time */ if (read_bufend < read_curpos) /* wrapped around? */ maxread = (read_curpos - 1) - read_bufend; else if (read_curpos == read_netbuf) maxread = read_buftop - read_bufend - 1; else maxread = read_buftop - read_bufend; nread = read(fd, read_bufend, maxread); errno_save = errno; if (debug >= 3) alog("debug: buffered_read_one wanted %d, got %d", maxread, nread); if (nread <= 0) break; read_bufend += nread; if (read_bufend == read_buftop) read_bufend = read_netbuf; } if (read_curpos == read_bufend) { /* No more data on socket */ if (debug >= 4) alog("debug: buffered_read_one(%d) returning %d", fd, EOF); errno = errno_save; return EOF; } c = *read_curpos++; if (read_curpos == read_buftop) read_curpos = read_netbuf; total_read++; if (debug >= 4) alog("debug: buffered_read_one(%d) returning %d", fd, c); return (int) c & 0xFF; } /*************************************************************************/ /* Write to a socket with buffering. Note that this assumes only one * socket. */ static char write_netbuf[NET_BUFSIZE]; static char *write_curpos = write_netbuf; /* Next byte to write to socket */ static char *write_bufend = write_netbuf; /* Next position for data to socket */ static char *const write_buftop = write_netbuf + NET_BUFSIZE; static int write_fd = -1; int32 total_written; /* Return amount of data in write buffer. */ int32 write_buffer_len() { if (write_bufend >= write_curpos) return write_bufend - write_curpos; else return (write_bufend + NET_BUFSIZE) - write_curpos; } /* Helper routine to try and write up to one chunk of data from the buffer * to the socket. Return how much was written. */ static int flush_write_buffer(int wait) { fd_set fds; struct timeval tv = { 0, 0 }; int errno_save = errno; if (write_bufend == write_curpos || write_fd == -1) return 0; FD_ZERO(&fds); FD_SET(write_fd, &fds); if (select(write_fd + 1, 0, &fds, 0, wait ? NULL : &tv) == 1) { int maxwrite, nwritten; if (write_curpos > write_bufend) /* wrapped around? */ maxwrite = write_buftop - write_curpos; else if (write_bufend == write_netbuf) maxwrite = write_buftop - write_curpos - 1; else maxwrite = write_bufend - write_curpos; nwritten = write(write_fd, write_curpos, maxwrite); errno_save = errno; if (debug >= 3) alog("debug: flush_write_buffer wanted %d, got %d", maxwrite, nwritten); if (nwritten > 0) { write_curpos += nwritten; if (write_curpos == write_buftop) write_curpos = write_netbuf; total_written += nwritten; return nwritten; } } errno = errno_save; return 0; } /* Write data. */ static int buffered_write(int fd, char *buf, int len) { int nwritten, left = len; int errno_save = errno; if (fd < 0) { errno = EBADF; return -1; } write_fd = fd; while (left > 0) { /* Don't try putting anything in the buffer if it's full. */ if (write_curpos != write_bufend + 1 && (write_curpos != write_netbuf || write_bufend != write_buftop - 1)) { /* See if we need to write up to the end of the buffer. */ if (write_bufend + left >= write_buftop && write_curpos <= write_bufend) { nwritten = write_buftop - write_bufend; memcpy(write_bufend, buf, nwritten); buf += nwritten; left -= nwritten; write_bufend = write_netbuf; } /* Now we can copy a single chunk to write_bufend. */ if (write_curpos > write_bufend && write_curpos - write_bufend - 1 < left) nwritten = write_curpos - write_bufend - 1; else nwritten = left; if (nwritten) { memcpy(write_bufend, buf, nwritten); buf += nwritten; left -= nwritten; write_bufend += nwritten; } } /* Now write to the socket as much as we can. */ if (write_curpos == write_bufend + 1 || (write_curpos == write_netbuf && write_bufend == write_buftop - 1)) flush_write_buffer(1); else flush_write_buffer(0); errno_save = errno; if (write_curpos == write_bufend + 1 || (write_curpos == write_netbuf && write_bufend == write_buftop - 1)) { /* Write failed on full buffer */ break; } } if (debug >= 4) { alog("debug: buffered_write(%d,%p,%d) returning %d", fd, buf, len, len - left); } errno = errno_save; return len - left; } /* Optimized version of the above for writing a single character; returns * the character in an int or EOF, like fputc(). Commented out because it * isn't currently used. */ #if 0 static int buffered_write_one(int c, int fd) { struct timeval tv = { 0, 0 }; if (fd < 0) { errno = EBADF; return -1; } write_fd = fd; /* Try to flush the buffer if it's full. */ if (write_curpos == write_bufend + 1 || (write_curpos == write_netbuf && write_bufend == write_buftop - 1)) { flush_write_buffer(1); if (write_curpos == write_bufend + 1 || (write_curpos == write_netbuf && write_bufend == write_buftop - 1)) { /* Write failed */ if (debug >= 4) alog("debug: buffered_write_one(%d) returning %d", fd, EOF); return EOF; } } /* Write the character. */ *write_bufend++ = c; if (write_bufend == write_buftop) write_bufend = write_netbuf; /* Move it to the socket if we can. */ flush_write_buffer(0); if (debug >= 4) alog("debug: buffered_write_one(%d) returning %d", fd, c); return (int) c & 0xFF; } #endif /* 0 */ /*************************************************************************/ /*************************************************************************/ static int lastchar = EOF; int sgetc(int s) { int c; if (lastchar != EOF) { c = lastchar; lastchar = EOF; return c; } return buffered_read_one(s); } int sungetc(int c, int s) { return lastchar = c; } /*************************************************************************/ /* If connection was broken, return NULL. If the read timed out, return * (char *)-1. */ char *sgets(char *buf, int len, int s) { int c = 0; struct timeval tv; fd_set fds; char *ptr = buf; if (len == 0) return NULL; FD_SET(s, &fds); tv.tv_sec = ReadTimeout; tv.tv_usec = 0; while (read_buffer_len() == 0 && (c = select(s + 1, &fds, NULL, NULL, &tv)) < 0) { if (errno != EINTR) break; } if (read_buffer_len() == 0 && c == 0) return (char *) -1; c = sgetc(s); while (--len && (*ptr++ = c) != '\n' && (c = sgetc(s)) >= 0); if (c < 0) return NULL; *ptr = 0; return buf; } /*************************************************************************/ /* sgets2: Read a line of text from a socket, and strip newline and * carriage return characters from the end of the line. */ char *sgets2(char *buf, int len, int s) { char *str = sgets(buf, len, s); if (!str || str == (char *) -1) return str; str = buf + strlen(buf) - 1; if (*str == '\n') *str-- = 0; if (*str == '\r') *str = 0; return buf; } /*************************************************************************/ /* Read from a socket. (Use this instead of read() because it has * buffering.) */ int sread(int s, char *buf, int len) { return buffered_read(s, buf, len); } /*************************************************************************/ int sputs(char *str, int s) { return buffered_write(s, str, strlen(str)); } /*************************************************************************/ int sockprintf(int s, char *fmt, ...) { va_list args; char buf[16384]; /* Really huge, to try and avoid truncation */ va_start(args, fmt); return buffered_write(s, buf, vsnprintf(buf, sizeof(buf), fmt, args)); } /*************************************************************************/ /*************************************************************************/ #if !HAVE_GETHOSTBYNAME /* Translate an IP dotted-quad address to a 4-byte character string. * Return NULL if the given string is not in dotted-quad format. */ static char *pack_ip(const char *ipaddr) { static char ipbuf[4]; int tmp[4], i; if (sscanf(ipaddr, "%d.%d.%d.%d", &tmp[0], &tmp[1], &tmp[2], &tmp[3]) != 4) return NULL; for (i = 0; i < 4; i++) { if (tmp[i] < 0 || tmp[i] > 255) return NULL; ipbuf[i] = tmp[i]; } return ipbuf; } #endif /*************************************************************************/ /* lhost/lport specify the local side of the connection. If they are not * given (lhost==NULL, lport==0), then they are left free to vary. */ int conn(const char *host, int port, const char *lhost, int lport) { #if HAVE_GETHOSTBYNAME struct hostent *hp; #else char *addr; #endif struct sockaddr_in sa, lsa; int sock; memset(&lsa, 0, sizeof(lsa)); if (lhost) { #if HAVE_GETHOSTBYNAME if ((hp = gethostbyname(lhost)) != NULL) { memcpy((char *) &lsa.sin_addr, hp->h_addr, hp->h_length); lsa.sin_family = hp->h_addrtype; #else if (addr = pack_ip(lhost)) { memcpy((char *) &lsa.sin_addr, addr, 4); lsa.sin_family = AF_INET; #endif } else { lhost = NULL; } } if (lport) lsa.sin_port = htons((unsigned short) lport); memset(&sa, 0, sizeof(sa)); #if HAVE_GETHOSTBYNAME if (!(hp = gethostbyname(host))) return -1; memcpy((char *) &sa.sin_addr, hp->h_addr, hp->h_length); sa.sin_family = hp->h_addrtype; #else if (!(addr = pack_ip(host))) { alog("conn(): `%s' is not a valid IP address", host); errno = EINVAL; return -1; } memcpy((char *) &sa.sin_addr, addr, 4); sa.sin_family = AF_INET; #endif sa.sin_port = htons((unsigned short) port); if ((sock = socket(sa.sin_family, SOCK_STREAM, 0)) < 0) return -1; if ((lhost || lport) && bind(sock, (struct sockaddr *) &lsa, sizeof(lsa)) < 0) { int errno_save = errno; close(sock); errno = errno_save; return -1; } if (connect(sock, (struct sockaddr *) &sa, sizeof(sa)) < 0) { int errno_save = errno; close(sock); errno = errno_save; return -1; } return sock; } /*************************************************************************/ void disconn(int s) { shutdown(s, 2); close(s); }