/* probe serial port for PnP/Legacy devices * * Copyright 1999 Red Hat, Inc. * * This software may be freely redistributed under the terms of the GNU * public license. * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "serial.h" /* character strings ARE null-terminated in the following structure */ /* these elements are marked with a (string) in the comment */ /* If PnP device sent 6 bit data stream, we've xlated by a 0x20 offset */ /* When computing checksum, must remove this offset */ struct pnp_com_id { unsigned char xlate_6bit; /* does this contain xlated data */ unsigned char other_id[17]; /* backward compatibility with pre-PNP */ unsigned char other_len; /* length of the other_id */ unsigned char pnp_rev[2]; /* PnP revision bytes */ unsigned char pnp_rev_str[8]; /* PnP revision (string version) */ unsigned char eisa_id[4]; /* EISA Mfr identifier (string) */ unsigned char product_id[5]; /* Mfr determined product ID (string) */ unsigned char serial_number[9];/* Optional dev serial number (string) */ unsigned char class_name[33]; /* Optional PnP Class name (string) */ unsigned char driver_id[42]; /* Optional compat device IDs (string) */ unsigned char user_name[42]; /* Optional verbose product descr (string)*/ unsigned char checksum[2]; /* Optional checksum */ }; /* there are two possible bytes to signify the start of a PnP ID string */ #define BeginPnP1 0x28 #define BeginPnP2 0x08 /* Likewise, two possible stop bytes */ #define EndPnP1 0x29 #define EndPnP2 0x09 /* these chars indicate extensions to the base dev id exist */ #define ExtendPnP1 0x5c #define ExtendPnP2 0x3c #define PNP_COM_MAXLEN 256 /* results from initiating hardware probe of a hardware device */ #define PNP_COM_FATAL 1 /* system error, check errno */ #define PNP_COM_FAIL 2 /* probe ok, but found nothing */ #define PNP_COM_OK 3 /* probe ok, we found it */ /* types of devices we might find */ /* if PNP_COM_PNPDEV is NOT set, its a legacy device */ #define PNP_COM_MOUSE 1 /* its a mouse */ #define PNP_COM_MODEM 2 /* its a modem */ #define PNP_COM_OTHER 4 /* device is there, cant tell what kind */ #define PNP_COM_NOEXIST 8 /* no device seen */ #define PNP_COM_PNPDEV 512 /* its a PNP device */ /* level of debugging output */ /* current any value > 0 dumps all available debugging output */ static int debug_level=0; static void serialFreeDevice(struct serialDevice *dev) { if (dev->pnpmfr) free(dev->pnpmfr); if (dev->pnpmodel) free(dev->pnpmodel); if (dev->pnpcompat) free(dev->pnpcompat); if (dev->pnpdesc) free(dev->pnpdesc); freeDevice((struct device *)dev); } static void serialWriteDevice(FILE *file, struct serialDevice *dev) { writeDevice(file, (struct device *) dev); if (dev->pnpmfr) fprintf(file,"pnpmfr: %s\n",dev->pnpmfr); if (dev->pnpmodel) fprintf(file,"pnpmodel: %s\n",dev->pnpmodel); if (dev->pnpcompat) fprintf(file,"pnpcompat: %s\n",dev->pnpcompat); if (dev->pnpdesc) fprintf(file,"pnpdesc: %s\n",dev->pnpdesc); } static int serialCompareDevice( struct serialDevice *dev1, struct serialDevice *dev2) { int x; if ((x=compareDevice((struct device *)dev1, (struct device *)dev2))) return x; if (dev1->pnpmfr && dev2->pnpmfr && strcmp(dev1->pnpmfr,dev2->pnpmfr)) return 1; if ((!dev1->pnpmfr || !dev2->pnpmfr) && (dev1->pnpmfr != dev2->pnpmfr)) return 1; if (dev1->pnpmodel && dev2->pnpmodel && strcmp(dev1->pnpmodel,dev2->pnpmodel)) return 1; if ((!dev1->pnpmodel || !dev2->pnpmodel) && (dev1->pnpmodel != dev2->pnpmodel)) return 1; if (dev1->pnpcompat && dev2->pnpcompat && strcmp(dev1->pnpcompat,dev2->pnpcompat)) return 1; if ((!dev1->pnpcompat || !dev2->pnpcompat) && (dev1->pnpcompat != dev2->pnpcompat)) return 1; if (dev1->pnpdesc && dev2->pnpdesc && strcmp(dev1->pnpdesc,dev2->pnpdesc)) return 1; if ((!dev1->pnpdesc || !dev2->pnpdesc) && (dev1->pnpdesc != dev2->pnpdesc)) return 1; return 0; } struct serialDevice * serialNewDevice(struct serialDevice *dev) { struct serialDevice *ret; ret = malloc(sizeof(struct serialDevice)); memset(ret,'\0',sizeof(struct serialDevice)); ret=(struct serialDevice *)newDevice((struct device *)dev,(struct device *)ret); ret->bus = BUS_SERIAL; ret->newDevice = serialNewDevice; ret->freeDevice = serialFreeDevice; ret->writeDevice = serialWriteDevice; ret->compareDevice = serialCompareDevice; if (dev && dev->bus == BUS_SERIAL) { if (dev->pnpmfr) ret->pnpmfr=strdup(dev->pnpmfr); if (dev->pnpmodel) ret->pnpmodel=strdup(dev->pnpmodel); if (dev->pnpcompat) ret->pnpcompat=strdup(dev->pnpcompat); if (dev->pnpdesc) ret->pnpdesc=strdup(dev->pnpdesc); } return ret; } /* UNUSED */ void print_status_lines( int fd ) { int modem_lines; ioctl(fd, TIOCMGET, &modem_lines); printf("DTR : %s\n",(modem_lines & TIOCM_DTR ? "On" : "Off")); printf("RTS : %s\n",(modem_lines & TIOCM_RTS ? "On" : "Off")); printf("CTS : %s\n",(modem_lines & TIOCM_CTS ? "On" : "Off")); printf("DSR : %s\n",(modem_lines & TIOCM_DSR ? "On" : "Off")); printf("CD : %s\n",(modem_lines & TIOCM_CD ? "On" : "Off")); printf("RI : %s\n",(modem_lines & TIOCM_RI ? "On" : "Off")); } /* UNUSED except in debug */ /* outputs data in a hex table, 8 values per row */ void print_hex_data( unsigned char *data, int len ) { int i, j, pos; if (len == 0) { printf("No data to print.\n"); return; } pos = 0; for (i=0; i< len; i+=8) { printf("0x%.4x ", i); for (j=i; j < len && j < i+8; j++) { printf("0x%.2x ",data[pos++]); } printf("\n"); } } /* * wait_input - wait until there is data available on fd, * for the length of time specified by *timo (indefinite * if timo is NULL). */ int wait_for_input (int fd, struct timeval *timo) { fd_set ready; int n; FD_ZERO(&ready); FD_SET(fd, &ready); n = select(fd+1, &ready, NULL, &ready, timo); return n; } /* UNUSED */ /* read characters into the buffer buf, until one of: */ /* char_timeout expired before next character arrives */ /* total_timeout expires */ /* maxlen characters are retrieved */ /* */ /* returns < 0 if it fails */ /* otherwise the # of characters received is returned */ /* char_timeout is in microseconds (millionths of a sec) */ /* total_timeout is in seconds */ int timed_serial_read(int fd, int char_timeout, int total_timeout, unsigned char *buf, int maxlen ) { int done, pos, starttime, temp; struct timeval timo; unsigned char intbuf[2]; /* start reading */ done = 0; pos = 0; starttime=time(NULL); memset(buf, 0, maxlen); while (!done) { timo.tv_sec=0; timo.tv_usec=char_timeout; if (wait_for_input(fd, &timo) > 0) { temp = read( fd, intbuf, 1 ); if (temp < 0) { if (errno != EAGAIN) return -1; } else { buf[pos++] = intbuf[0]; buf[pos] = 0; } } else done = 1; /* shouldnt run more than 5 seconds */ if (time(NULL)-starttime > total_timeout ) done = 1; if (pos > maxlen) done = 1; } return pos; } int open_serial_port( char *port ) { int fd; fd = open( port, O_RDWR | O_NONBLOCK); if (fd < 0) return -1; /* reset file so it is no longer in non-blocking mode */ if (fcntl(fd, F_SETFL, 0) < 0) { close(fd); return -1; } return fd; } /* <0 means ioctl error occurred */ int get_serial_lines( int fd ) { int modem_lines; ioctl(fd, TIOCMGET, &modem_lines); return modem_lines; } /* <0 means ioctl error occurred */ int set_serial_lines( int fd, int modem_lines ) { return ioctl(fd, TIOCMSET, &modem_lines); } int get_serial_attr( int fd, struct termios *attr ) { return tcgetattr(fd, attr); } int set_serial_attr( int fd, struct termios *attr ) { return tcsetattr(fd, TCSANOW, attr ); } /* set serial port to 1200 baud, 'nbits' bits, 1 stop, no parity */ int setup_serial_port( int fd, int nbits, struct termios *attr ) { attr->c_iflag = IGNBRK | IGNPAR; attr->c_cflag = 0; attr->c_cflag &= ~(CSIZE | CSTOPB | PARENB | PARODD | PARENB); attr->c_cflag |= CREAD | CLOCAL; /*| CRTSCTS ; */ if (nbits == 7) attr->c_cflag |= CS7 | CSTOPB; else attr->c_cflag |= CS8; attr->c_oflag = 0; attr->c_lflag = 0; attr->c_cc[VMIN] = 1; attr->c_cc[VTIME] = 5; cfsetospeed( attr, B1200); cfsetispeed( attr, B1200); return set_serial_attr(fd, attr); } /* Request for PnP info from serial device */ /* See page 6 of the pnpcom doc from Microsoft */ /* Return code tells us what happened */ /* */ /* PNP_COM_FATAL - error, errno has reason */ /* PNP_COM_OK - probe initiated successfully */ /* PNP_COM_FAIL - DSR never came on - try alterntives */ /* means (ATI9?) to get PnP string */ int init_pnp_com_seq1( int fd ) { int modem_lines; int temp; int dsr_status; int rc = PNP_COM_OK; struct termios portattr; modem_lines = get_serial_lines(fd); /* turn off RTS */ modem_lines &= ~TIOCM_RTS; set_serial_lines(fd, modem_lines); /* wait 200ms for DSR=1 */ usleep(200000); dsr_status = get_serial_lines(fd) & TIOCM_DSR; /* see if we got DSR coming up */ if (!dsr_status) { /* turn DTR and RTS back on and try alternative methods */ modem_lines |= TIOCM_DTR | TIOCM_RTS; set_serial_lines(fd, modem_lines); rc = PNP_COM_OK; } /* COM port Setup, 1st phase */ /* now we set port to be 1200 baud, 7 bits, no parity, 1 stop bit */ temp = get_serial_attr(fd, &portattr); if (temp < 0) return PNP_COM_FATAL; /* goto 1200 baud, etc etc as PnP requires */ temp = setup_serial_port( fd, 7, &portattr ); if (temp < 0) return PNP_COM_FATAL; /* we drop DTR and RTS */ modem_lines &= ~( TIOCM_RTS | TIOCM_DTR); set_serial_lines(fd, modem_lines); usleep(200000); /* bring DTR back up */ modem_lines |= TIOCM_DTR; set_serial_lines(fd, modem_lines); usleep(200000); /* now entering next phase */ modem_lines |= TIOCM_RTS; set_serial_lines(fd, modem_lines); usleep(200000); return rc; } /* Request for PnP info from serial device */ /* Uses ATI9 code, may not do anything but return 'ERROR' */ /* Return code tells us what happened */ /* */ /* PNP_COM_FATAL - error, errno has reason */ /* PNP_COM_OK - probe initiated successfully */ /* PNP_COM_FAIL - DSR never came on - try alterntives */ /* means (ATI9?) to get PnP string */ int init_pnp_com_ati9( int fd ) { int modem_lines; int temp; int done; int respindex; int starttime; unsigned char resp[100], buf[2]; struct timeval timo; struct termios portattr; modem_lines = get_serial_lines(fd); /* turn off RTS */ modem_lines &= ~TIOCM_RTS; set_serial_lines(fd, modem_lines); /* wait 200ms for DSR=1 */ usleep(200000); /* now we set port to be 1200 baud, 8 bits, no parity, 1 stop bit */ temp = get_serial_attr(fd, &portattr); if (temp < 0) return PNP_COM_FATAL; /* goto 1200 baud, 8 bits */ temp = setup_serial_port( fd, 8, &portattr ); if (temp < 0) return PNP_COM_FATAL; /* turn on DTR and RTS */ modem_lines = get_serial_lines(fd); modem_lines &= TIOCM_RTS | TIOCM_DTR; set_serial_lines(fd, modem_lines); usleep(200000); /* send the 'AT' command */ if (debug_level > 0) printf("Sending ATI9 command to modem\n"); write(fd, "ATI9\r", 5); /* start reading - read the AT command back */ done = 0; respindex= 0; starttime=time(NULL); memset(resp, 0, sizeof(resp)); while (!done) { timo.tv_sec=0; timo.tv_usec=250000; if (wait_for_input(fd, &timo) > 0) { temp = read( fd, buf, 1 ); if (temp < 0) { if (errno != EAGAIN) return PNP_COM_FATAL; } else { resp[respindex++] = buf[0]; resp[respindex] = 0; } } else done = 1; /* shouldnt run more than 5 seconds */ if (time(NULL)-starttime > 5 ) done = 1; if (respindex > 6) done = 1; if (strstr(resp, "ATI9\r")) done = 1; if (debug_level > 0) printf("ATI9 probe ->%d \"%s\"\n",respindex, resp); } /* see if we saw the 'OK' response */ if (strstr(resp, "(")) return PNP_COM_OK; else return PNP_COM_FAIL; return PNP_COM_OK; } /* See if this is a legacy mouse device */ /* Only called if the PnP probe above failed */ /* We turn off the mouse via RS232 lines, then turn it on */ /* If it spits out an 'M' character (at 1200 baud, 7N1) */ /* it could be a mouse. */ /* */ /* Return code tells us what happened */ /* */ /* PNP_COM_FATAL - error, errno has reason */ /* PNP_COM_OK - probe saw 'M' */ /* PNP_COM_FAIL - Never saw the 'M' response */ int find_legacy_mouse( int fd ) { int modem_lines; int temp; int done; int starttime; unsigned char resp[2]; struct timeval timo; struct termios portattr; /* now we set port to be 1200 baud, 7 bits, no parity, 1 stop bit */ temp = get_serial_attr(fd, &portattr); if (temp < 0) return PNP_COM_FATAL; /* goto 1200 baud, etc etc*/ temp = setup_serial_port( fd, 7, &portattr ); if (temp < 0) return PNP_COM_FATAL; /* we drop DTR and RTS */ modem_lines = get_serial_lines(fd); modem_lines &= ~( TIOCM_RTS | TIOCM_DTR); set_serial_lines(fd, modem_lines); usleep(200000); /* bring them DTR back up */ modem_lines |= TIOCM_DTR | TIOCM_RTS; set_serial_lines(fd, modem_lines); /* start reading - after first character we quit */ done = 0; starttime=time(NULL); while (!done) { timo.tv_sec=0; timo.tv_usec=250000; if (wait_for_input(fd, &timo) > 0) { temp = read( fd, resp, 1 ); if (temp < 0) { if (errno != EAGAIN) return PNP_COM_FATAL; } else { done = 1; } } else done = 1; /* shouldnt run more than 2 seconds */ if (time(NULL)-starttime > 2 ) done = 1; } if (*resp == 'M') return PNP_COM_OK; else return PNP_COM_FAIL; } /* See if this is a legacy modem device */ /* Only called if the PnP probe above failed */ /* We send a '!AT' and see if we get an 'OK' back */ /* */ /* Return code tells us what happened */ /* */ /* PNP_COM_FATAL - error, errno has reason */ /* PNP_COM_OK - probe saw 'OK' */ /* PNP_COM_FAIL - Never saw the 'OK' response */ int find_legacy_modem( int fd ) { int modem_lines; int temp; int done; int respindex; int starttime; unsigned char resp[10], buf[2]; struct timeval timo; struct termios portattr; /* now we set port to be 1200 baud, 8 bits, no parity, 1 stop bit */ temp = get_serial_attr(fd, &portattr); if (temp < 0) return PNP_COM_FATAL; /* goto 1200 baud, 8 bits */ temp = setup_serial_port( fd, 8, &portattr ); if (temp < 0) return PNP_COM_FATAL; /* turn on DTR and RTS */ modem_lines = get_serial_lines(fd); modem_lines &= TIOCM_RTS | TIOCM_DTR; set_serial_lines(fd, modem_lines); usleep(200000); /* send the 'AT' command */ if (debug_level > 0) printf("Sending AT command to modem\n"); write(fd, "AT\r", 3); /* start reading - we'll get AT command back first, then modem response */ done = 0; respindex= 0; starttime=time(NULL); memset(resp, 0, sizeof(resp)); while (!done) { timo.tv_sec=0; timo.tv_usec=250000; if (wait_for_input(fd, &timo) > 0) { temp = read( fd, buf, 1 ); if (temp < 0) { if (errno != EAGAIN) return PNP_COM_FATAL; } else { resp[respindex++] = buf[0]; } } else done = 1; /* shouldnt run more than 5 seconds */ if (time(NULL)-starttime > 5 ) done = 1; if (respindex > 9) done = 1; } /* see if we saw the 'OK' response */ if (strstr(resp, "OK")) return PNP_COM_OK; else return PNP_COM_FAIL; } /* retrieve the PnP ID string */ /* timeout after 3 seconds */ /* should probably set a 200 msec timeout per char, as spec says */ /* if no char received, we're done */ int read_pnp_string( int fd, unsigned char *pnp_string, int *pnp_len ) { int pnp_index; int temp, done, counter; int seen_start; time_t starttime; struct timeval timo; unsigned char buf[80]; unsigned char end_char; /* see if we have any input waiting */ pnp_index =0; seen_start = 0; done = 0; end_char = 0; starttime=time(NULL); while (!done) { timo.tv_sec=0; timo.tv_usec=250000; if (wait_for_input(fd, &timo) > 0) { temp = read( fd, buf, 1 ); if (temp < 0) { if (errno != EAGAIN) return PNP_COM_FATAL; } else { for (counter=0; counter < temp; counter++) { pnp_string[pnp_index++] = buf[counter]; if (seen_start) { if (buf[counter] == end_char) { done=1; break; } } else { if (buf[counter] == BeginPnP1) { seen_start = 1; end_char = EndPnP1; } else if (buf[counter] == BeginPnP2) { seen_start = 1; end_char = EndPnP2; } } } } } else done = 1; /* shouldnt run more than 4 seconds */ if (time(NULL)-starttime > 4 ) done = 1; } pnp_string[pnp_index] = 0; *pnp_len=pnp_index; return 0; } /* UNUSED */ /* simple little helper function */ void xlate_memcpy( void *dest, void *src, int len, int xlate_flag ) { unsigned char *d, *s; int i; for (i=0,d=dest,s=src; i 17) return -1; /* setup end character we are looking for based on the start character */ if (start == p2) { pnp_id->xlate_6bit = 1; end_char = EndPnP2; /* we need to xlate data in PnP fields */ /* remember to skip the revision fields (bytes 1 and 2 after start) */ temppos=start; while (1) { if (*temppos == EndPnP2) { *temppos += 0x20; break; } else if (temppos != start+1 && temppos != start+2 ) *temppos += 0x20; temppos++; } } else { pnp_id->xlate_6bit = 0; end_char = EndPnP1; } /* move everything before the start of the PnP block */ memcpy(pnp_id->other_id, pnp_string, start-pnp_string); pnp_id->other_len = start - pnp_string; /* now we get the PnP fields - all were zero'd out above */ curpos = start+1; memcpy(pnp_id->pnp_rev,curpos,2); curpos += 2; memcpy(pnp_id->eisa_id,curpos,3); curpos += 3; memcpy(pnp_id->product_id,curpos,4); curpos += 4; /* now we see if have extension fields */ no_more_extensions = 0; stage = 0; while (!no_more_extensions) { if (*curpos == ExtendPnP1 || *curpos == ExtendPnP2) { curpos++; endfield = strpbrk(curpos, extension_delims); if (!endfield) return -1; /* if we reached the end of all PnP data, back off */ /* cause there is a checksum at the end of extension data */ if (*endfield == EndPnP1 || *endfield == EndPnP2) endfield -= 2; } else break; len = endfield - curpos; switch (stage) { case 0: if (len != 8 && len != 0 ) return -1; memcpy(pnp_id->serial_number,curpos,len); curpos += len; break; case 1: if (len > 33) return -1; memcpy(pnp_id->class_name, curpos, len); curpos = endfield; break; case 2: if (len > 41) return -1; memcpy(pnp_id->driver_id, curpos, len); curpos = endfield; break; case 3: if (len > 41) return -1; memcpy(pnp_id->user_name, curpos, len); curpos = endfield; break; } stage++; } /* now find the end of all PnP data */ end = strpbrk(curpos, end_delims); if (!end) return -1; /* if we had any extensions, we expect an checksum */ if (stage != 0) { /* copy checksum into struct */ memcpy(pnp_id->checksum, curpos, 2); /* compute the checksum as the sum of all PnP bytes, excluding */ /* the two byte checksum. */ checksum = 0; for (temppos=start; temppos <= end; temppos++) { /* skip checksum in calculation */ if (temppos == (end-2) || temppos == (end-1)) continue; /* dont xlate the revision at start */ if (temppos != (start+1) && temppos != (start+2)) checksum += *temppos - ((pnp_id->xlate_6bit) ? 0x20 : 0); else checksum += *temppos; } sprintf(hex_checksum, "%.2X", checksum & 0xff); if (strncmp(hex_checksum, pnp_id->checksum, 2)) return -1; } /* checksum was ok, so we're done */ return 0; } /* UNUSED except for debugging */ void print_pnp_id( struct pnp_com_id id ) { int i; int extensions_exist; int revision_temp; if (id.other_len != 0) { printf("Detected non-PnP data stream at start.\n"); printf(" Length = 0x%x\n",id.other_len); printf(" Contents ="); for (i=0; i 0) { printf("\nPNP string = |%s|\n\n",pnp_string); print_hex_data(pnp_string, *pnp_strlen); } if (*pnp_strlen == 1 && pnp_string[0] == 'M') /* legacy mouse */ return PNP_COM_OK; /* see if we got anything useful, if not try at command */ /* to prod device into correct serial params */ if (parse_pnp_string( pnp_string, *pnp_strlen, &pnp_id )<0) if (!tried_at_prodding) { write(fd, "AT\r", 3); tried_at_prodding=1; } else give_up = 1; else return PNP_COM_OK; } else give_up = 1; } /* try sending a ATI9 code to the modem to see if we get PnP id back */ init_pnp_com_ati9(fd); read_pnp_string(fd, pnp_string, pnp_strlen ); if (parse_pnp_string( pnp_string, *pnp_strlen, &pnp_id )<0) { *pnp_strlen = 0; pnp_string[0] = 0; return PNP_COM_FAIL; } else return PNP_COM_OK; } struct device *serialProbe(enum deviceClass probeClass, int probeFlags, struct device *devlist) { int fd; int temp; int pnp_strlen; int devicetype=-1; unsigned char pnp_string[100]; char *port; struct termios origattr; struct pnp_com_id pnp_id; struct serialDevice *serdev; if (probeFlags & PROBE_SAFE) return devlist; if ( (probeClass == CLASS_UNSPEC) || (probeClass == CLASS_OTHER) || (probeClass == CLASS_MOUSE) || (probeClass == CLASS_MODEM) || (probeClass == CLASS_PRINTER) ) { int x; for (x=0; x<=3 ; x++) { port=malloc(20*sizeof(char)); snprintf(port,20,"/dev/ttyS%d",x); if ((fd=open_serial_port(port)) < 0) { continue; } /* save the current state of the port */ temp = get_serial_attr(fd, &origattr); if (temp < 0) { close(fd); continue; } /* try twiddling RS232 control lines and see if it talks to us */ devicetype=-1; pnp_strlen = 0; attempt_pnp_retrieve( fd, pnp_string, &pnp_strlen ); /* see if we found any PnP signature */ if (pnp_strlen != 0) { if (*pnp_string == 'M') { /* Legacy mouse */ if (probeClass == CLASS_MOUSE || probeClass == CLASS_UNSPEC) { serdev = serialNewDevice(NULL); serdev->class=CLASS_MOUSE; serdev->device=strdup(port+5); serdev->desc=strdup("Generic Serial Mouse"); serdev->driver=strdup("ignore"); set_serial_attr(fd, &origattr); close(fd); if (devlist) serdev->next = devlist; devlist = (struct device *)serdev; if (probeFlags & PROBE_ONE) { return devlist; } } continue; } /* fill in the PnP com structure */ if (parse_pnp_string( pnp_string, pnp_strlen, &pnp_id )<0) { goto endprobe; } else { char *foo; int len; if (debug_level > 0) { printf("PnP ID string for serial device on port %s\n",port); print_pnp_id( pnp_id ); } serdev = serialNewDevice(NULL); if (pnp_id.user_name[0]) { serdev->pnpdesc = strdup(pnp_id.user_name); len = strlen(pnp_id.eisa_id)+strlen(pnp_id.product_id)+strlen(pnp_id.user_name)+3; foo = malloc(len); snprintf(foo,len,"%s|%s %s",pnp_id.eisa_id,pnp_id.product_id,pnp_id.user_name); } else { len = strlen(pnp_id.eisa_id)+strlen(pnp_id.product_id)+3; foo = malloc(len); snprintf(foo,len,"%s|%s",pnp_id.eisa_id,pnp_id.product_id); } serdev->desc=strdup(foo); serdev->device=strdup(port+5); serdev->driver=strdup("ignore"); serdev->pnpmfr = strdup(pnp_id.eisa_id); serdev->pnpmodel = strdup(pnp_id.product_id); free(foo); foo=pnp_id.product_id; if (pnp_id.driver_id) { if (strstr(pnp_id.driver_id,"PNP")) foo = strstr(pnp_id.driver_id,"PNP")+3; serdev->pnpcompat = strdup(pnp_id.driver_id); } if (!strncmp(foo, "0F", 2)) serdev->class = CLASS_MOUSE; else if (!strncmp(foo, "C", 1)) serdev->class = CLASS_MODEM; else serdev->class = CLASS_OTHER; if (serdev->class == probeClass || probeClass == CLASS_UNSPEC) { if (devlist) serdev->next = devlist; devlist = (struct device *)serdev; if (probeFlags & PROBE_ONE) { set_serial_attr(fd, &origattr); close(fd); return devlist; } } else { serdev->freeDevice(serdev); } goto endprobe; } } else { /* try to find a legacy device */ temp = find_legacy_mouse(fd); if (temp == PNP_COM_FATAL) { goto endprobe; } else if (temp == PNP_COM_OK) { if (probeClass == CLASS_UNSPEC || probeClass == CLASS_MOUSE) { serdev=serialNewDevice(NULL); serdev->class = CLASS_MOUSE; serdev->device = strdup(port+5); serdev->driver= strdup("ignore"); serdev->desc = strdup("Generic Serial Mouse"); if (devlist) serdev->next = devlist; devlist = (struct device *)serdev; if (probeFlags & PROBE_ONE) { set_serial_attr(fd, &origattr); close(fd); return devlist; } } goto endprobe; } else { if (debug_level > 0) printf("Didnt see a legacy mouse, need to ATI it now.\n"); temp = find_legacy_modem(fd); if (temp == PNP_COM_FATAL) { goto endprobe; } else if (temp == PNP_COM_OK) { if (debug_level > 0) printf("\nLegacy modem signature seen.\n\n"); if (probeClass == CLASS_UNSPEC || probeClass == CLASS_MODEM) { serdev=serialNewDevice(NULL); serdev->class = CLASS_MODEM; serdev->device = strdup(port+5); serdev->driver= strdup("ignore"); serdev->desc = strdup("Generic Serial Modem"); if (devlist) serdev->next = devlist; devlist = (struct device *)serdev; if (probeFlags & PROBE_ONE) { set_serial_attr(fd, &origattr); close(fd); return devlist; } } goto endprobe; } else { if (debug_level > 0) printf("Didnt see a legacy modem, game over.\n"); } } } endprobe: set_serial_attr(fd, &origattr); tcflush(fd, TCIOFLUSH); close(fd); } } return devlist; }