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/* ---------------------------------------------------------------------- */
/* sane - Scanner Access Now Easy.
umax - usb . c
( C ) 2001 - 2002 Frank Zago
This file is part of the SANE package .
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 of the
License , 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 .
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 . , 59 Temple Place - Suite 330 , Boston ,
MA 02111 - 1307 , USA .
As a special exception , the authors of SANE give permission for
additional uses of the libraries contained in this release of SANE .
The exception is that , if you link a SANE library with other files
to produce an executable , this does not by itself cause the
resulting executable to be covered by the GNU General Public
License . Your use of that executable is in no way restricted on
account of linking the SANE library code into it .
This exception does not , however , invalidate any other reasons why
the executable file might be covered by the GNU General Public
License .
If you submit changes to SANE to the maintainers to be included in
a subsequent release , you agree by submitting the changes that
those changes may be distributed with this exception intact .
If you write modifications of your own for SANE , it is your choice
whether to permit this exception to apply to your modifications .
If you do not wish that , delete this exception notice .
This file implements a SANE backend for UMAX USB flatbed scanners . */
/* ---------------------------------------------------------------------- */
# include "../include/sane/sanei_usb.h"
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# include "../include/sane/sanei_pv8630.h"
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/* USB specific parts */
/* Apparently this will recover from some errors. */
static void pv8630_mini_init_scanner ( int fd )
{
DBG ( DBG_info , " mini_init_scanner \n " ) ;
/* (re-)init the device (?) */
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xd0 , 0xff , 1000 ) ;
}
/* Length of the CDB given the SCSI command. The last two are not
correct ( vendor reserved ) . */
static u_char cdb_sizes [ 8 ] = {
6 , 10 , 10 , 6 , 16 , 12 , 0 , 0
} ;
# define CDB_SIZE(opcode) cdb_sizes[(((opcode) >> 5) & 7)]
/* Sends a CDB to the scanner. Also sends the parameters and receives
* the data , if necessary . When this function returns with a
* SANE_STATUS_GOOD , the SCSI command has been completed .
*
* Note : I don ' t know about deferred commands .
*/
static SANE_Status sanei_umaxusb_cmd ( int fd , const void * src , size_t src_size , void * dst , size_t * dst_size )
{
unsigned char result ;
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size_t cmd_size = CDB_SIZE ( * ( const char * ) src ) ;
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size_t param_size = src_size - cmd_size ;
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const char * param_ptr = ( ( const char * ) src ) + cmd_size ;
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size_t tmp_len ;
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DBG ( DBG_info , " Sending SCSI cmd 0x%02x cdb len %ld, param len %ld, result len %ld \n " , ( ( const unsigned char * ) src ) [ 0 ] , ( long ) cmd_size , ( long ) param_size , dst_size ? ( long ) * dst_size : ( long ) 0 ) ;
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/* This looks like some kind of pre-initialization. */
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sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x0c ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf0 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
/* Send the CDB and check it's been received OK. */
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x16 ) ;
sanei_pv8630_flush_buffer ( fd ) ;
sanei_pv8630_prep_bulkwrite ( fd , cmd_size ) ;
tmp_len = cmd_size ;
sanei_pv8630_bulkwrite ( fd , src , & tmp_len ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf8 , 0xff , 1000 ) ;
sanei_pv8630_flush_buffer ( fd ) ;
sanei_pv8630_prep_bulkread ( fd , 1 ) ;
result = 0xA5 ; /* to be sure */
tmp_len = 1 ;
sanei_pv8630_bulkread ( fd , & result , & tmp_len ) ;
if ( result ! = 0 ) {
DBG ( DBG_info , " error in sanei_pv8630_bulkread (got %02x) \n " , result ) ;
if ( result = = 8 ) {
pv8630_mini_init_scanner ( fd ) ;
}
return ( SANE_STATUS_IO_ERROR ) ;
}
/* Send the parameters and check they've been received OK. */
if ( param_size ) {
sanei_pv8630_flush_buffer ( fd ) ;
sanei_pv8630_prep_bulkwrite ( fd , param_size ) ;
tmp_len = param_size ;
sanei_pv8630_bulkwrite ( fd , param_ptr , & tmp_len ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf8 , 0xff , 1000 ) ;
sanei_pv8630_flush_buffer ( fd ) ;
sanei_pv8630_prep_bulkread ( fd , 1 ) ;
result = 0xA5 ; /* to be sure */
tmp_len = 1 ;
sanei_pv8630_bulkread ( fd , & result , & tmp_len ) ;
if ( result ! = 0 ) {
DBG ( DBG_info , " error in sanei_pv8630_bulkread (got %02x) \n " , result ) ;
if ( result = = 8 ) {
pv8630_mini_init_scanner ( fd ) ;
}
return ( SANE_STATUS_IO_ERROR ) ;
}
}
/* If the SCSI command expect a return, get it. */
if ( dst_size ! = NULL & & * dst_size ! = 0 & & dst ! = NULL ) {
sanei_pv8630_flush_buffer ( fd ) ;
sanei_pv8630_prep_bulkread ( fd , * dst_size ) ;
sanei_pv8630_bulkread ( fd , dst , dst_size ) ;
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DBG ( DBG_info , " SCSI cmd returned %lu bytes \n " , ( u_long ) * dst_size ) ;
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sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf8 , 0xff , 1000 ) ;
sanei_pv8630_flush_buffer ( fd ) ;
sanei_pv8630_prep_bulkread ( fd , 1 ) ;
result = 0x5A ; /* just to be sure */
tmp_len = 1 ;
sanei_pv8630_bulkread ( fd , & result , & tmp_len ) ;
if ( result ! = 0 ) {
DBG ( DBG_info , " error in sanei_pv8630_bulkread (got %02x) \n " , result ) ;
if ( result = = 8 ) {
pv8630_mini_init_scanner ( fd ) ;
}
return ( SANE_STATUS_IO_ERROR ) ;
}
}
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xd0 , 0xff , 1000 ) ;
DBG ( DBG_info , " SCSI command successfully executed \n " ) ;
return ( SANE_STATUS_GOOD ) ;
}
/* Initialize the PowerVision 8630. */
static SANE_Status pv8630_init_umaxusb_scanner ( int fd )
{
DBG ( DBG_info , " Initializing the PV8630 \n " ) ;
/* Init the device */
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xd0 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x0c ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf0 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf0 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x0c ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf0 , 0xff , 1000 ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf8 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x02 ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xd0 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x0c ) ;
sanei_pv8630_wait_byte ( fd , PV8630_RSTATUS , 0xf0 , 0xff , 1000 ) ;
sanei_pv8630_write_byte ( fd , PV8630_UNKNOWN , 0x04 ) ;
sanei_pv8630_write_byte ( fd , PV8630_RMODE , 0x16 ) ;
DBG ( DBG_info , " PV8630 initialized \n " ) ;
return ( SANE_STATUS_GOOD ) ;
}
/*
* SCSI functions for the emulation .
*
* The following functions emulate their sanei_scsi_ * counterpart .
*
*/
/*
* sanei_umaxusb_req_wait ( ) and sanei_umaxusb_req_enter ( )
*
* I don ' t know if it is possible to queue the reads to the
* scanner . So The queing is disabled . The performance does not seems
* to be bad anyway .
*/
static void * umaxusb_req_buffer ; /* keep the buffer ptr as an ID */
static SANE_Status sanei_umaxusb_req_enter ( int fd ,
const void * src , size_t src_size ,
void * dst , size_t * dst_size , void * * idp )
{
umaxusb_req_buffer = * idp = dst ;
return ( sanei_umaxusb_cmd ( fd , src , src_size , dst , dst_size ) ) ;
}
static SANE_Status
sanei_umaxusb_req_wait ( void * id )
{
if ( id ! = umaxusb_req_buffer ) {
DBG ( DBG_info , " sanei_umaxusb_req_wait: AIE, invalid id \n " ) ;
return ( SANE_STATUS_IO_ERROR ) ;
}
return ( SANE_STATUS_GOOD ) ;
}
/* Open the device.
*/
static SANE_Status
sanei_umaxusb_open ( const char * dev , int * fdp ,
SANEI_SCSI_Sense_Handler handler , void * handler_arg )
{
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SANE_Status status ;
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handler = handler ; /* silence gcc */
handler_arg = handler_arg ; /* silence gcc */
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status = sanei_usb_open ( dev , fdp ) ;
if ( status ! = SANE_STATUS_GOOD ) {
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DBG ( 1 , " sanei_umaxusb_open: open of `%s' failed: %s \n " ,
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dev , sane_strstatus ( status ) ) ;
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return status ;
} else {
SANE_Word vendor ;
SANE_Word product ;
/* We have openned the device. Check that it is a USB scanner. */
if ( sanei_usb_get_vendor_product ( * fdp , & vendor , & product ) ! = SANE_STATUS_GOOD ) {
/* This is not a USB scanner, or SANE or the OS doesn't support it. */
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sanei_usb_close ( * fdp ) ;
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* fdp = - 1 ;
return SANE_STATUS_UNSUPPORTED ;
}
/* So it's a scanner. Does this backend support it?
* Only the UMAX 2200 USB is currently supported . */
if ( ( vendor ! = 0x1606 ) | | ( product ! = 0x0230 ) ) {
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sanei_usb_close ( * fdp ) ;
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* fdp = - 1 ;
return SANE_STATUS_UNSUPPORTED ;
}
/* It's a good scanner. Initialize it.
*
* Note : pv8630_init_umaxusb_scanner ( ) is for the UMAX
* 2200. Other UMAX scanner might need a different
* initialization routine . */
pv8630_init_umaxusb_scanner ( * fdp ) ;
}
return ( SANE_STATUS_GOOD ) ;
}
/* sanei_umaxusb_open_extended() is just a passthrough for sanei_umaxusb_open(). */
static SANE_Status
sanei_umaxusb_open_extended ( const char * dev , int * fdp ,
SANEI_SCSI_Sense_Handler handler , void * handler_arg , int * buffersize )
{
buffersize = buffersize ;
return ( sanei_umaxusb_open ( dev , fdp , handler , handler_arg ) ) ;
}
/* Close the scanner. */
static void
sanei_umaxusb_close ( int fd )
{
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sanei_usb_close ( fd ) ;
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}