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gecko-dev/lib/libmsg/appledbl.c
spider 749a763205 Adding libmsg in Normandy merge
1998-06-22 22:39:40 +00:00

616 lines
14 KiB
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
/*
*
* apple-double.c
* --------------
*
* The codes to do apple double encoding/decoding.
*
* 02aug95 mym created.
* 27sep95 mym Add the XP_Mac to ensure the cross-platform.
*
*/
#include "msg.h"
#include "appledbl.h"
#include "ad_codes.h"
#ifdef XP_MAC
#pragma warn_unusedarg off
#include "m_cvstrm.h"
#pragma cplusplus on
#include "InternetConfig.h"
#include "ufilemgr.h"
#include "BufferStream.h"
#include "Umimemap.h"
#include "uprefd.h"
#include "ulaunch.h"
void DecodingDone( appledouble_decode_object* p_ap_decode_obj );
OSErr my_FSSpecFromPathname(char* src_filename, FSSpec* fspec)
{
/* don't resolve aliases... */
return CFileMgr::FSSpecFromLocalUnixPath(src_filename, fspec, false);
}
char* my_PathnameFromFSSpec(FSSpec* fspec)
{
return CFileMgr::GetURLFromFileSpec(*fspec);
}
/* returns true if the resource fork should be sent */
XP_Bool isMacFile(char* filename)
{
Boolean returnValue = FALSE;
FSSpec fspec;
my_FSSpecFromPathname(filename, &fspec);
returnValue = CFileMgr::FileHasResourceFork(fspec);
/* always use IC even if the pref isn't checked since we have no
other way to determine if the resource is significant */
if ( returnValue )
{
CMimeMapper * mapper = CPrefs::sMimeTypes.FindMimeType(fspec);
if ( mapper )
{
returnValue = mapper->GetFileFlags()& ICmap_resource_fork_mask;
return returnValue;
}
// Get the Internet Config file mapping for this type
// and see if the existing resources are significant.
// First, get the type/creator of the file.
FInfo fileInfo;
OSErr err = ::FSpGetFInfo(&fspec, &fileInfo);
if (err == noErr)
{
if ( fileInfo.fdType == 'APPL' )
return TRUE;
ICMapEntry ent;
err = CInternetConfigInterface::GetInternetConfigFileMapping(fileInfo.fdType,
fileInfo.fdCreator,
fspec.name, &ent);
if (err == noErr)
{
// resource fork is significant if the resource fork mask bit is set
returnValue = (ent.flags & ICmap_resource_fork_mask) != 0;
}
}
}
return (XP_Bool) returnValue;
}
void DecodingDone( appledouble_decode_object* p_ap_decode_obj )
{
FSSpec fspec;
fspec.vRefNum = p_ap_decode_obj->vRefNum;
fspec.parID = p_ap_decode_obj->dirId;
fspec.name[0] = XP_STRLEN(p_ap_decode_obj->fname);
XP_STRCPY((char*)fspec.name+1, p_ap_decode_obj->fname);
CMimeMapper * mapper = CPrefs::sMimeTypes.FindMimeType(fspec);
if( mapper && (mapper->GetLoadAction() == CMimeMapper::Launch ) )
{
LFileBufferStream file( fspec );
LaunchFile( &file );
}
}
#pragma cplusplus reset
/*
* ap_encode_init
* --------------
*
* Setup the encode envirment
*/
int ap_encode_init(
appledouble_encode_object *p_ap_encode_obj,
char* fname,
char* separator)
{
FSSpec fspec;
if (my_FSSpecFromPathname(fname, &fspec) != noErr )
return -1;
XP_MEMSET(p_ap_encode_obj, 0, sizeof(appledouble_encode_object));
/*
** Fill out the source file inforamtion.
*/
XP_MEMCPY(p_ap_encode_obj->fname, fspec.name+1, *fspec.name);
p_ap_encode_obj->fname[*fspec.name] = '\0';
p_ap_encode_obj->vRefNum = fspec.vRefNum;
p_ap_encode_obj->dirId = fspec.parID;
p_ap_encode_obj->boundary = XP_STRDUP(separator);
return noErr;
}
/*
** ap_encode_next
** --------------
**
** return :
** noErr : everything is ok
** errDone : when encoding is done.
** errors : otherwise.
*/
int ap_encode_next(
appledouble_encode_object* p_ap_encode_obj,
char *to_buff,
int32 buff_size,
int32* real_size)
{
int status;
/*
** install the out buff now.
*/
p_ap_encode_obj->outbuff = to_buff;
p_ap_encode_obj->s_outbuff = buff_size;
p_ap_encode_obj->pos_outbuff = 0;
/*
** first copy the outstandind data in the overflow buff to the out buffer.
*/
if (p_ap_encode_obj->s_overflow)
{
status = write_stream(p_ap_encode_obj,
p_ap_encode_obj->b_overflow,
p_ap_encode_obj->s_overflow);
if (status != noErr)
return status;
p_ap_encode_obj->s_overflow = 0;
}
/*
** go the next processing stage based on the current state.
*/
switch (p_ap_encode_obj->state)
{
case kInit:
/*
** We are in the starting position, fill out the header.
*/
status = fill_apple_mime_header(p_ap_encode_obj);
if (status != noErr)
break; /* some error happens */
p_ap_encode_obj->state = kDoingHeaderPortion;
status = ap_encode_header(p_ap_encode_obj, true);
/* it is the first time to calling */
if (status == errDone)
{
p_ap_encode_obj->state = kDoneHeaderPortion;
}
else
{
break; /* we need more work on header portion. */
}
/*
** we are done with the header, so let's go to the data port.
*/
p_ap_encode_obj->state = kDoingDataPortion;
status = ap_encode_data(p_ap_encode_obj, true);
/* it is first time call do data portion */
if (status == errDone)
{
p_ap_encode_obj->state = kDoneDataPortion;
status = noErr;
}
break;
case kDoingHeaderPortion:
status = ap_encode_header(p_ap_encode_obj, false);
/* continue with the header portion. */
if (status == errDone)
{
p_ap_encode_obj->state = kDoneHeaderPortion;
}
else
{
break; /* we need more work on header portion. */
}
/*
** start the data portion.
*/
p_ap_encode_obj->state = kDoingDataPortion;
status = ap_encode_data(p_ap_encode_obj, true);
/* it is the first time calling */
if (status == errDone)
{
p_ap_encode_obj->state = kDoneDataPortion;
status = noErr;
}
break;
case kDoingDataPortion:
status = ap_encode_data(p_ap_encode_obj, false);
/* it is not the first time */
if (status == errDone)
{
p_ap_encode_obj->state = kDoneDataPortion;
status = noErr;
}
break;
case kDoneDataPortion:
#if 0
status = write_stream(p_ap_encode_obj,
"\n-----\n\n",
8);
if (status == noErr)
#endif
status = errDone; /* we are really done. */
break;
}
*real_size = p_ap_encode_obj->pos_outbuff;
return status;
}
/*
** ap_encode_end
** -------------
**
** clear the apple encoding.
*/
int ap_encode_end(
appledouble_encode_object *p_ap_encode_obj,
XP_Bool is_aborting)
{
/*
** clear up the apple doubler.
*/
if (p_ap_encode_obj == NULL)
return noErr;
if (p_ap_encode_obj->fileId) /* close the file if it is open. */
FSClose(p_ap_encode_obj->fileId);
FREEIF(p_ap_encode_obj->boundary); /* the boundary string. */
return noErr;
}
#endif /* the ifdef of XP_MAC */
/*
** The initial of the apple double decoder.
**
** Set up the next output stream based on the input.
*/
int ap_decode_init(
appledouble_decode_object* p_ap_decode_obj,
XP_Bool is_apple_single,
XP_Bool write_as_binhex,
void *closure)
{
XP_MEMSET(p_ap_decode_obj, 0, sizeof(appledouble_decode_object));
/* presume first buff starts a line */
p_ap_decode_obj->uu_starts_line = TRUE;
if (write_as_binhex)
{
p_ap_decode_obj->write_as_binhex = TRUE;
p_ap_decode_obj->binhex_stream = (NET_StreamClass*)closure;
p_ap_decode_obj->data_size = 0;
}
else
{
p_ap_decode_obj->write_as_binhex = FALSE;
p_ap_decode_obj->binhex_stream = NULL;
p_ap_decode_obj->context = (MWContext*)closure;
}
p_ap_decode_obj->is_apple_single = is_apple_single;
if (is_apple_single)
{
p_ap_decode_obj->encoding = kEncodeNone;
}
return NOERR;
}
static int ap_decode_state_machine(appledouble_decode_object* p_ap_decode_obj);
/*
* process the buffer
*/
int ap_decode_next(
appledouble_decode_object* p_ap_decode_obj,
char *in_buff,
int32 buff_size)
{
/*
** install the buff to the decoder.
*/
p_ap_decode_obj->inbuff = in_buff;
p_ap_decode_obj->s_inbuff = buff_size;
p_ap_decode_obj->pos_inbuff = 0;
/*
** run off the decode state machine
*/
return ap_decode_state_machine(p_ap_decode_obj);
}
PRIVATE int ap_decode_state_machine(
appledouble_decode_object* p_ap_decode_obj)
{
int status = NOERR;
int32 size;
switch (p_ap_decode_obj->state)
{
case kInit:
/*
** Make sure that there are stuff in the buff
** before we can parse the file head .
*/
if (p_ap_decode_obj->s_inbuff <=1 )
return NOERR;
if (p_ap_decode_obj->is_apple_single)
{
p_ap_decode_obj->state = kBeginHeaderPortion;
}
else
{
status = ap_seek_part_start(p_ap_decode_obj);
if (status != errDone)
return status;
p_ap_decode_obj->state = kBeginParseHeader;
}
status = ap_decode_state_machine(p_ap_decode_obj);
break;
case kBeginSeekBoundary:
p_ap_decode_obj->state = kSeekingBoundary;
status = ap_seek_to_boundary(p_ap_decode_obj, TRUE);
if (status == errDone)
{
p_ap_decode_obj->state = kBeginParseHeader;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kSeekingBoundary:
status = ap_seek_to_boundary(p_ap_decode_obj, FALSE);
if (status == errDone)
{
p_ap_decode_obj->state = kBeginParseHeader;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kBeginParseHeader:
p_ap_decode_obj->state = kParsingHeader;
status = ap_parse_header(p_ap_decode_obj, TRUE);
if (status == errDone)
{
if (p_ap_decode_obj->which_part == kDataPortion)
p_ap_decode_obj->state = kBeginDataPortion;
else if (p_ap_decode_obj->which_part == kHeaderPortion)
p_ap_decode_obj->state = kBeginHeaderPortion;
else
p_ap_decode_obj->state = kFinishing;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kParsingHeader:
status = ap_parse_header(p_ap_decode_obj, FALSE);
if (status == errDone)
{
if (p_ap_decode_obj->which_part == kDataPortion)
p_ap_decode_obj->state = kBeginDataPortion;
else if (p_ap_decode_obj->which_part == kHeaderPortion)
p_ap_decode_obj->state = kBeginHeaderPortion;
else
p_ap_decode_obj->state = kFinishing;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kBeginHeaderPortion:
p_ap_decode_obj->state = kProcessingHeaderPortion;
status = ap_decode_process_header(p_ap_decode_obj, TRUE);
if (status == errDone)
{
if (p_ap_decode_obj->is_apple_single)
p_ap_decode_obj->state = kBeginDataPortion;
else
p_ap_decode_obj->state = kBeginSeekBoundary;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kProcessingHeaderPortion:
status = ap_decode_process_header(p_ap_decode_obj, FALSE);
if (status == errDone)
{
if (p_ap_decode_obj->is_apple_single)
p_ap_decode_obj->state = kBeginDataPortion;
else
p_ap_decode_obj->state = kBeginSeekBoundary;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kBeginDataPortion:
p_ap_decode_obj->state = kProcessingDataPortion;
status = ap_decode_process_data(p_ap_decode_obj, TRUE);
if (status == errDone)
{
if (p_ap_decode_obj->is_apple_single)
p_ap_decode_obj->state = kFinishing;
else
p_ap_decode_obj->state = kBeginSeekBoundary;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kProcessingDataPortion:
status = ap_decode_process_data(p_ap_decode_obj, FALSE);
if (status == errDone)
{
if (p_ap_decode_obj->is_apple_single)
p_ap_decode_obj->state = kFinishing;
else
p_ap_decode_obj->state = kBeginSeekBoundary;
status = ap_decode_state_machine(p_ap_decode_obj);
}
break;
case kFinishing:
if (p_ap_decode_obj->write_as_binhex)
{
if (p_ap_decode_obj->tmpfd)
{
/*
** It is time to append the data fork to bin hex encoder.
**
** The reason behind this dirt work is resource fork is the last
** piece in the binhex, while it is the first piece in apple double.
*/
XP_FileSeek(p_ap_decode_obj->tmpfd, 0L, SEEK_SET);
while (p_ap_decode_obj->data_size > 0)
{
char buff[1024];
size = MIN(1024, p_ap_decode_obj->data_size);
XP_FileRead(buff, size, p_ap_decode_obj->tmpfd);
status = (*p_ap_decode_obj->binhex_stream->put_block)
(p_ap_decode_obj->binhex_stream->data_object,
buff,
size);
p_ap_decode_obj->data_size -= size;
}
}
if (p_ap_decode_obj->data_size <= 0)
{
/* CALL put_block with size == 0 to close a part. */
status = (*p_ap_decode_obj->binhex_stream->put_block)
(p_ap_decode_obj->binhex_stream->data_object,
NULL,
0);
if (status != NOERR)
break;
/* and now we are really done. */
status = errDone;
}
else
status = NOERR;
}
break;
}
return (status == errEOB) ? NOERR : status;
}
int ap_decode_end(
appledouble_decode_object* p_ap_decode_obj,
XP_Bool is_aborting)
{
/*
** clear up the apple doubler object.
*/
if (p_ap_decode_obj == NULL)
return NOERR;
FREEIF(p_ap_decode_obj->boundary0);
#ifdef XP_MAC
if (p_ap_decode_obj->fileId)
FSClose(p_ap_decode_obj->fileId);
if( p_ap_decode_obj->vRefNum )
FlushVol(nil, p_ap_decode_obj->vRefNum );
#endif
if (p_ap_decode_obj->write_as_binhex)
{
/*
** make sure close the binhex stream too.
*/
if (is_aborting)
{
(*p_ap_decode_obj->binhex_stream->abort)
(p_ap_decode_obj->binhex_stream->data_object, 0);
}
else
{
(*p_ap_decode_obj->binhex_stream->complete)
(p_ap_decode_obj->binhex_stream->data_object);
}
if (p_ap_decode_obj->tmpfd)
XP_FileClose(p_ap_decode_obj->tmpfd);
if (p_ap_decode_obj->tmpfname)
{
XP_FileRemove(p_ap_decode_obj->tmpfname, xpTemporary);
/* remove tmp file if we used it */
XP_FREE(p_ap_decode_obj->tmpfname); /* and release the file name too. */
}
}
else if (p_ap_decode_obj->fd)
{
XP_FileClose(p_ap_decode_obj->fd);
}
#ifdef XP_MAC
if( !is_aborting )
DecodingDone( p_ap_decode_obj);
#endif
return NOERR;
}
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