cups/backend/ieee1284.c

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2022-05-13 20:08:20 +08:00
/*
* IEEE-1284 support functions for CUPS.
*
* Copyright © 2007-2015 by Apple Inc.
* Copyright © 1997-2007 by Easy Software Products, all rights reserved.
*
* Licensed under Apache License v2.0. See the file "LICENSE" for more
* information.
*/
/*
* Include necessary headers.
*/
#include "backend-private.h"
#include <cups/ppd-private.h>
/*
* 'backendGetDeviceID()' - Get the IEEE-1284 device ID string and
* corresponding URI.
*/
int /* O - 0 on success, -1 on failure */
backendGetDeviceID(
int fd, /* I - File descriptor */
char *device_id, /* O - 1284 device ID */
int device_id_size, /* I - Size of buffer */
char *make_model, /* O - Make/model */
int make_model_size, /* I - Size of buffer */
const char *scheme, /* I - URI scheme */
char *uri, /* O - Device URI */
int uri_size) /* I - Size of buffer */
{
#ifdef __APPLE__ /* This function is a no-op */
(void)fd;
(void)device_id;
(void)device_id_size;
(void)make_model;
(void)make_model_size;
(void)scheme;
(void)uri;
(void)uri_size;
return (-1);
#else /* Get the device ID from the specified file descriptor... */
# ifdef __linux
int length; /* Length of device ID info */
int got_id = 0;
# endif /* __linux */
# if defined(__sun) && defined(ECPPIOC_GETDEVID)
struct ecpp_device_id did; /* Device ID buffer */
# endif /* __sun && ECPPIOC_GETDEVID */
char *ptr; /* Pointer into device ID */
/*
* Range check input...
*/
if (!device_id || device_id_size < 32)
{
return (-1);
}
if (make_model)
*make_model = '\0';
if (fd >= 0)
{
/*
* Get the device ID string...
*/
*device_id = '\0';
# ifdef __linux
if (ioctl(fd, LPIOC_GET_DEVICE_ID((unsigned)device_id_size), device_id))
{
/*
* Linux has to implement things differently for every device it seems.
* Since the standard parallel port driver does not provide a simple
* ioctl() to get the 1284 device ID, we have to open the "raw" parallel
* device corresponding to this port and do some negotiation trickery
* to get the current device ID.
*/
if (uri && !strncmp(uri, "parallel:/dev/", 14))
{
char devparport[16]; /* /dev/parportN */
int devparportfd, /* File descriptor for raw device */
mode; /* Port mode */
/*
* Since the Linux parallel backend only supports 4 parallel port
* devices, just grab the trailing digit and use it to construct a
* /dev/parportN filename...
*/
snprintf(devparport, sizeof(devparport), "/dev/parport%s",
uri + strlen(uri) - 1);
if ((devparportfd = open(devparport, O_RDWR | O_NOCTTY)) != -1)
{
/*
* Claim the device...
*/
if (!ioctl(devparportfd, PPCLAIM))
{
fcntl(devparportfd, F_SETFL, fcntl(devparportfd, F_GETFL) | O_NONBLOCK);
mode = IEEE1284_MODE_COMPAT;
if (!ioctl(devparportfd, PPNEGOT, &mode))
{
/*
* Put the device into Device ID mode...
*/
mode = IEEE1284_MODE_NIBBLE | IEEE1284_DEVICEID;
if (!ioctl(devparportfd, PPNEGOT, &mode))
{
/*
* Read the 1284 device ID...
*/
if ((length = read(devparportfd, device_id, (size_t)device_id_size - 1)) >= 2)
{
device_id[length] = '\0';
got_id = 1;
}
}
}
/*
* Release the device...
*/
ioctl(devparportfd, PPRELEASE);
}
close(devparportfd);
}
}
}
else
got_id = 1;
if (got_id)
{
/*
* Extract the length of the device ID string from the first two
* bytes. The 1284 spec says the length is stored MSB first...
*/
length = (int)((((unsigned)device_id[0] & 255) << 8) + ((unsigned)device_id[1] & 255));
/*
* Check to see if the length is larger than our buffer; first
* assume that the vendor incorrectly implemented the 1284 spec,
* and then limit the length to the size of our buffer...
*/
if (length > device_id_size || length < 14)
length = (int)((((unsigned)device_id[1] & 255) << 8) + ((unsigned)device_id[0] & 255));
if (length > device_id_size)
length = device_id_size;
/*
* The length field counts the number of bytes in the string
* including the length field itself (2 bytes). The minimum
* length for a valid/usable device ID is 14 bytes:
*
* <LENGTH> MFG: <MFG> ;MDL: <MDL> ;
* 2 + 4 + 1 + 5 + 1 + 1
*/
if (length < 14)
{
/*
* Can't use this device ID, so don't try to copy it...
*/
device_id[0] = '\0';
got_id = 0;
}
else
{
/*
* Copy the device ID text to the beginning of the buffer and
* nul-terminate.
*/
length -= 2;
memmove(device_id, device_id + 2, (size_t)length);
device_id[length] = '\0';
}
}
else
{
*device_id = '\0';
}
# endif /* __linux */
# if defined(__sun) && defined(ECPPIOC_GETDEVID)
did.mode = ECPP_CENTRONICS;
did.len = device_id_size - 1;
did.rlen = 0;
did.addr = device_id;
if (!ioctl(fd, ECPPIOC_GETDEVID, &did))
{
/*
* Nul-terminate the device ID text.
*/
if (did.rlen < (device_id_size - 1))
device_id[did.rlen] = '\0';
else
device_id[device_id_size - 1] = '\0';
}
# endif /* __sun && ECPPIOC_GETDEVID */
}
/*
* Check whether device ID is valid. Turn line breaks and tabs to spaces and
* reject device IDs with non-printable characters.
*/
for (ptr = device_id; *ptr; ptr ++)
if (_cups_isspace(*ptr))
*ptr = ' ';
else if ((*ptr & 255) < ' ' || *ptr == 127)
{
*device_id = '\0';
break;
}
if (scheme && uri)
*uri = '\0';
if (!*device_id)
return (-1);
/*
* Get the make and model...
*/
if (make_model)
backendGetMakeModel(device_id, make_model, (size_t)make_model_size);
/*
* Then generate a device URI...
*/
if (scheme && uri && uri_size > 32)
{
int num_values; /* Number of keys and values */
cups_option_t *values; /* Keys and values in device ID */
const char *mfg, /* Manufacturer */
*mdl, /* Model */
*sern; /* Serial number */
char temp[256], /* Temporary manufacturer string */
*tempptr; /* Pointer into temp string */
/*
* Get the make, model, and serial numbers...
*/
num_values = _cupsGet1284Values(device_id, &values);
if ((sern = cupsGetOption("SERIALNUMBER", num_values, values)) == NULL)
if ((sern = cupsGetOption("SERN", num_values, values)) == NULL)
sern = cupsGetOption("SN", num_values, values);
if ((mfg = cupsGetOption("MANUFACTURER", num_values, values)) == NULL)
mfg = cupsGetOption("MFG", num_values, values);
if ((mdl = cupsGetOption("MODEL", num_values, values)) == NULL)
mdl = cupsGetOption("MDL", num_values, values);
if (mfg)
{
if (!_cups_strcasecmp(mfg, "Hewlett-Packard"))
mfg = "HP";
else if (!_cups_strcasecmp(mfg, "Lexmark International"))
mfg = "Lexmark";
}
else
{
strlcpy(temp, make_model, sizeof(temp));
if ((tempptr = strchr(temp, ' ')) != NULL)
*tempptr = '\0';
mfg = temp;
}
if (!mdl)
mdl = "";
if (!_cups_strncasecmp(mdl, mfg, strlen(mfg)))
{
mdl += strlen(mfg);
while (isspace(*mdl & 255))
mdl ++;
}
/*
* Generate the device URI from the manufacturer, make_model, and
* serial number strings.
*/
httpAssembleURIf(HTTP_URI_CODING_ALL, uri, uri_size, scheme, NULL, mfg, 0,
"/%s%s%s", mdl, sern ? "?serial=" : "", sern ? sern : "");
cupsFreeOptions(num_values, values);
}
return (0);
#endif /* __APPLE__ */
}
/*
* 'backendGetMakeModel()' - Get the make and model string from the device ID.
*/
int /* O - 0 on success, -1 on failure */
backendGetMakeModel(
const char *device_id, /* O - 1284 device ID */
char *make_model, /* O - Make/model */
size_t make_model_size) /* I - Size of buffer */
{
int num_values; /* Number of keys and values */
cups_option_t *values; /* Keys and values */
const char *mfg, /* Manufacturer string */
*mdl, /* Model string */
*des; /* Description string */
/*
* Range check input...
*/
if (!device_id || !*device_id || !make_model || make_model_size < 32)
return (-1);
*make_model = '\0';
/*
* Look for the description field...
*/
num_values = _cupsGet1284Values(device_id, &values);
if ((mdl = cupsGetOption("MODEL", num_values, values)) == NULL)
mdl = cupsGetOption("MDL", num_values, values);
if (mdl)
{
/*
* Build a make-model string from the manufacturer and model attributes...
*/
if ((mfg = cupsGetOption("MANUFACTURER", num_values, values)) == NULL)
mfg = cupsGetOption("MFG", num_values, values);
if (!mfg || !_cups_strncasecmp(mdl, mfg, strlen(mfg)))
{
/*
* Just copy the model string, since it has the manufacturer...
*/
_ppdNormalizeMakeAndModel(mdl, make_model, make_model_size);
}
else
{
/*
* Concatenate the make and model...
*/
char temp[1024]; /* Temporary make and model */
snprintf(temp, sizeof(temp), "%s %s", mfg, mdl);
_ppdNormalizeMakeAndModel(temp, make_model, make_model_size);
}
}
else if ((des = cupsGetOption("DESCRIPTION", num_values, values)) != NULL ||
(des = cupsGetOption("DES", num_values, values)) != NULL)
{
/*
* Make sure the description contains something useful, since some
* printer manufacturers (HP) apparently don't follow the standards
* they helped to define...
*
* Here we require the description to be 8 or more characters in length,
* containing at least one space and one letter.
*/
if (strlen(des) >= 8)
{
const char *ptr; /* Pointer into description */
int letters, /* Number of letters seen */
spaces; /* Number of spaces seen */
for (ptr = des, letters = 0, spaces = 0; *ptr; ptr ++)
{
if (isspace(*ptr & 255))
spaces ++;
else if (isalpha(*ptr & 255))
letters ++;
if (spaces && letters)
break;
}
if (spaces && letters)
_ppdNormalizeMakeAndModel(des, make_model, make_model_size);
}
}
if (!make_model[0])
{
/*
* Use "Unknown" as the printer make and model...
*/
strlcpy(make_model, "Unknown", make_model_size);
}
cupsFreeOptions(num_values, values);
return (0);
}