gecko-dev/network/main/MacBinSupport.c

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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.
*/
/* MacBinary support.c
This file implements MacBinary (actually MacBinary II) support for the following:
-Determine the size of a file when encoded in MacBinary
-Inline encoding of a file in MacBinary format
The MacBinary II format consists of a 128-byte header containing all the
information necessary to reproduce the document's directory entry on the
receiving Macintosh; followed by the document's Data Fork (if it has one),
padded with nulls to a multiple of 128 bytes (if necessary); followed by the
document's Resource Fork (again, padded if necessary). The lengths of these
forks (either or both of which may be zero) are contained in the header.
The format of the header for MacBinary II is as follows:
Offset 000 Byte old version number, must be kept at zero for compatibility
Offset 001 Byte Length of filename (must be in the range 1-63)
Offset 002 1 to 63 chars, filename (only "length" bytes are significant).
Offset 065 Long file type (normally expressed as four characters)
Offset 069 Long file creator (normally expressed as four characters)
Offset 073 Byte original Finder flags
Bit 7 - Locked.
Bit 6 - Invisible.
Bit 5 - Bundle.
Bit 4 - System.
Bit 3 - Bozo.
Bit 2 - Busy.
Bit 1 - Changed.
Bit 0 - Inited.
Offset 074 Byte zero fill, must be zero for compatibility
Offset 075 Short file's vertical position within its window.
Offset 077 Short file's horizontal position within its window.
Offset 079 Short file's window or folder ID.
Offset 081 Byte "Protected" flag (in low order bit).
Offset 082 Byte zero fill, must be zero for compatibility
Offset 083 Long Data Fork length (bytes, zero if no Data Fork).
Offset 087 Long Resource Fork length (bytes, zero if no R.F.).
Offset 091 Long File's creation date
Offset 095 Long File's "last modified" date.
Offset 099 Short zero fill (was file comment length which is not supported)
Offset 101 Byte Finder Flags, bits 0-7. (Bits 8-15 are already in byte 73)
Offset 116 Long Length of total files when packed files are unpacked.
This is only used by programs that pack and unpack on the fly,
mimicing a standalone utility such as PackIt. A program that is
uploading a single file must zero this location when sending a
file. Programs that do not unpack/uncompress files when
downloading may ignore this value.
Offset 120 Short zero fill (was length of a secondary header which is not supported)
Offset 122 Byte Version number of Macbinary II that the uploading program
is written for (the version begins at 129)
Offset 123 Byte Minimum MacBinary II version needed to read this file
(start this value at 129)
Offset 124 Short CRC of previous 124 bytes
All values are stored in normal 68000 order, with Most Significant Byte
appearing first then the file. Any bytes in the header not defined above
should be set to zero.
MacBinary header creation and CRC calculation based on Erny Tontlinger's free 'Terminal' source
*/
#include "xp.h"
#include "MacBinSupport.h"
#include "MoreFilesExtras.h"
#include <Errors.h>
enum
{
kMB_SendingHeader, /* Data from read is MB header */
kMB_SetupDataFork, /* Finished sending MB header so prepare data fork */
kMB_SendingDataFork, /* Data from read is file's data fork */
kMB_SetupResFork, /* Finished sending data fork so prepare res fork */
kMB_SendingResFork, /* Data from read is file's data fork */
kMB_FinishedFile /* Nothing left to send - file finished */
};
static Byte fillerBuf[kMBHeaderLength];
static unsigned short CalcMacBinaryCRC(Byte *ptr, unsigned long count)
{
unsigned short crc;
unsigned short i;
crc = 0;
while (count-- > 0) {
crc = crc ^ (unsigned short)*ptr++ << 8;
for (i = 0; i < 8; ++i)
if (crc & 0x8000)
crc = crc << 1 ^ 0x1021;
else
crc = crc << 1;
}
return crc;
}
static OSErr InitMacBinaryHeader(MB_FileSpec *mbFileSpec)
{
#define MB_VersionNumber 129
#define MBH_name 1
#define MBH_info1 65
#define MBH_protected 81
#define MBH_dLength 83
#define MBH_rLength 87
#define MBH_creation 91
#define MBH_modification 95
#define MBH_getInfoLength 99
#define MBH_info2 101
#define MBH_filesLength 116
#define MBH_sHeaderLength 120
#define MBH_newVersion 122
#define MBH_minimumVersion 123
#define MBH_crc 124
OSErr theErr;
unsigned short crc;
HParamBlockRec param;
XP_MEMSET(&param, 0, sizeof(param));
param.fileParam.ioNamePtr = (StringPtr)mbFileSpec->theFileSpec.name;
param.fileParam.ioVRefNum = mbFileSpec->theFileSpec.vRefNum;
param.fileParam.ioDirID = mbFileSpec->theFileSpec.parID;
theErr = PBHGetFInfoSync(&param);
if (theErr != noErr)
return (theErr);
XP_MEMSET(mbFileSpec->mbHeader, 0, kMBHeaderLength);
XP_MEMCPY(
&mbFileSpec->mbHeader[MBH_name],
mbFileSpec->theFileSpec.name, mbFileSpec->theFileSpec.name[0] + 1);
mbFileSpec->mbHeader[MBH_info2] = param.fileParam.ioFlFndrInfo.fdFlags & 0x00FF;
param.fileParam.ioFlFndrInfo.fdFlags &= 0xFF00;
*(long *)&param.fileParam.ioFlFndrInfo.fdLocation = 0;
param.fileParam.ioFlFndrInfo.fdFldr = 0;
XP_MEMCPY(&mbFileSpec->mbHeader[MBH_info1], (void *)&param.fileParam.ioFlFndrInfo, 16);
mbFileSpec->mbHeader[MBH_protected] = (Byte)(param.fileParam.ioFlAttrib) & 0x01;
XP_MEMCPY(&mbFileSpec->mbHeader[MBH_dLength], (void *)&param.fileParam.ioFlLgLen, 4);
XP_MEMCPY(&mbFileSpec->mbHeader[MBH_rLength], (void *)&param.fileParam.ioFlRLgLen, 4);
XP_MEMCPY(&mbFileSpec->mbHeader[MBH_creation], (void *)&param.fileParam.ioFlCrDat, 4);
XP_MEMCPY(&mbFileSpec->mbHeader[MBH_modification], (void *)&param.fileParam.ioFlMdDat, 4);
mbFileSpec->mbHeader[MBH_newVersion] = MB_VersionNumber;
mbFileSpec->mbHeader[MBH_minimumVersion] = MB_VersionNumber;
crc = CalcMacBinaryCRC(mbFileSpec->mbHeader, 124);
XP_MEMCPY(&mbFileSpec->mbHeader[MBH_crc], (void *)&crc, 2);
mbFileSpec->dataForkLength = param.fileParam.ioFlLgLen;
mbFileSpec->resForkLength = param.fileParam.ioFlRLgLen;
return (noErr);
}
static long PadBufferToMacBinBlock(char *buf, long bytesInBuf)
{
long paddingNeeded = 0;
if (bytesInBuf % kMBHeaderLength)
{
paddingNeeded = kMBHeaderLength - (bytesInBuf % kMBHeaderLength);
XP_MEMCPY(&buf[bytesInBuf], fillerBuf, paddingNeeded);
}
return (bytesInBuf + paddingNeeded);
}
/* MB_Stat
Returns the size of the file when encoded in MacBinary format
This is computed as 128 bytes for the MacBinary header + the size of the data fork
rounded up to a multiple of 128 bytes + the size of the resource fork rounded up to
a multiple of 128 bytes.
*/
int MB_Stat( const char* name, XP_StatStruct * outStat, XP_FileType type )
{
int result = -1;
long totalFileSize = 0;
char *newName = WH_FileName( name, type );
FSSpec fileSpec = {0, 0, "\p"};
OSErr theErr;
long dataSize;
long rsrcSize;
long sizeRemainder;
/* See if we managed to copy the name */
if (!newName)
return (result);
/* Now see if we can find out something about the file */
theErr = FSSpecFromPathname_CWrapper(newName, &fileSpec);
if (theErr == noErr)
{
theErr = FSpGetFileSize(&fileSpec, &dataSize, &rsrcSize);
if (theErr == noErr)
{
result = 0; /* Set the result code to success */
totalFileSize = kMBHeaderLength; /* 128 bytes for the MacBin header */
/* Make sure data and rsrc sizes are multiples of 128 bytes
before adding them to totalFileSize */
sizeRemainder = dataSize % kMBHeaderLength;
if (sizeRemainder)
{
dataSize += (kMBHeaderLength - sizeRemainder);
}
totalFileSize += dataSize;
sizeRemainder = rsrcSize % kMBHeaderLength;
if (sizeRemainder)
{
rsrcSize += (kMBHeaderLength - sizeRemainder);
}
totalFileSize += rsrcSize;
/* Stuff the calculated file size into the appropriate stat field */
outStat->st_size = totalFileSize;
}
}
XP_FREE(newName);
return (result);
}
/* MB_Open
Prepares a file for inline encoding in the MacBinary format. It builds the
MacBinary header and initializes the state machine for the encoding process.
Get file info
Build MacBinary header
Set state machine to kMB_SendingHeader
*/
OSErr MB_Open(const char *name, MB_FileSpec *mbFileSpec)
{
char *newName = WH_FileName( name, xpFileToPost );
OSErr theErr = noErr;
/* See if we managed to copy the name */
if (!newName)
return (fnfErr);
/* Now see if we can find make an FSSpec for the file */
theErr = FSSpecFromPathname_CWrapper(newName, &mbFileSpec->theFileSpec);
if (theErr == noErr)
{
theErr = InitMacBinaryHeader(mbFileSpec);
if (theErr == noErr)
{
// Set up the rest of the MB_FileSpec info
mbFileSpec->fileState = kMB_SendingHeader;
mbFileSpec->fileRefNum = -1;
mbFileSpec->dataBytesRead = 0;
mbFileSpec->resBytesRead = 0;
}
}
/* Make sure our filler buffer is cleared */
XP_MEMSET(fillerBuf, 0, kMBHeaderLength);
return (theErr);
}
/* MB_Read
Provides a MacBinary encoded version of a file. All reads are done to the supplied
buffer. The MB_Read function just returns how many bytes have been placed in the
buffer.
Switch on state
kMB_SendingHeader
set state to kMB_SetupDataFork
Return the # of bytes in an MB header
kMB_SetupDataFork
If hasDataFork
Open the data fork of the file
Set the state to kMB_SendingDataFork
GOTO kMB_SendingDataFork
else
GOTO kMB_SetupResFork
kMB_SendingDataFork
Read a buffer's worth of data
Make sure buffer is padded to MB block boundary
If EOF set state to kMB_SetupResFork
Return the # of bytes in buffer
kMB_SetupResFork
Close data fork if open
If hasResFork
Open the resource fork of the file
Set the state to kMB_SendingResFork
GOTO kMB_SendingResFork
else
GOTO kMB_FinishedFile
kMB_SendingResFork
Read a buffer's worth of data
Make sure buffer is padded to MB block boundary
If EOF set state to kMB_FinishedFile
Return the # of bytes in buffer
kMB_FinishedFile
Close resource fork if open
Set the state to kMB_FinishedFile
*/
int32 MB_Read(char *buf, int bufSize, MB_FileSpec *mbFileSpec)
{
long bytesInBuf = 0;
OSErr theErr = noErr;
long count = bufSize;
switch (mbFileSpec->fileState)
{
case kMB_SendingHeader:
XP_MEMCPY(buf, mbFileSpec->mbHeader, kMBHeaderLength);
bytesInBuf = kMBHeaderLength;
mbFileSpec->fileState = kMB_SetupDataFork;
break;
case kMB_SetupDataFork:
if (mbFileSpec->dataForkLength)
{
theErr = FSpOpenDF(&mbFileSpec->theFileSpec, fsRdPerm, &mbFileSpec->fileRefNum);
if (theErr == noErr)
{
mbFileSpec->fileState = kMB_SendingDataFork;
/* Now that the data fork is open jump into the read state */
goto SendingDataFork;
}
else
{ /* Couldn't open the data fork so exit the state machine */
goto FinishedFile;
}
}
else
{ /* Apparently no data fork so go ahead and try the res fork */
goto SetupResFork;
}
break;
case kMB_SendingDataFork:
SendingDataFork:
theErr = FSRead(mbFileSpec->fileRefNum, &count, buf);
if (theErr == noErr || theErr == eofErr)
{
bytesInBuf = PadBufferToMacBinBlock(buf, count);
mbFileSpec->dataBytesRead += count;
/* See if we've reached EOF for the data */
if (mbFileSpec->dataBytesRead == mbFileSpec->dataForkLength)
mbFileSpec->fileState = kMB_SetupResFork;
}
else
{ /* Got some sort of error reading the data fork so exit the state machine */
goto FinishedFile;
}
break;
case kMB_SetupResFork:
SetupResFork:
/* Close the data fork */
if (mbFileSpec->fileRefNum != -1)
{
FSClose(mbFileSpec->fileRefNum);
mbFileSpec->fileRefNum = -1;
}
/* See if we have a res fork to send */
if (mbFileSpec->resForkLength)
{
theErr = FSpOpenRF(&mbFileSpec->theFileSpec, fsRdPerm, &mbFileSpec->fileRefNum);
if (theErr == noErr)
{
mbFileSpec->fileState = kMB_SendingResFork;
/* Now that the res fork is open jump into the read state */
goto SendingResFork;
}
else
{ /* Couldn't open the res fork so exit the state machine */
goto FinishedFile;
}
}
else
{ /* Apparently no res fork so go ahead and exite the state machine */
goto FinishedFile;
}
case kMB_SendingResFork:
SendingResFork:
theErr = FSRead(mbFileSpec->fileRefNum, &count, buf);
if (theErr == noErr || theErr == eofErr)
{
bytesInBuf = PadBufferToMacBinBlock(buf, count);
mbFileSpec->resBytesRead += count;
/* See if we've reached EOF for the res fork */
if (mbFileSpec->resBytesRead == mbFileSpec->resForkLength)
mbFileSpec->fileState = kMB_FinishedFile;
}
else
{ /* Got some sort of error reading the res fork so exit the state machine */
goto FinishedFile;
}
break;
case kMB_FinishedFile:
FinishedFile:
/* If we're here then we're done with the file */
mbFileSpec->fileState = kMB_FinishedFile;
/* If we have a fork open, close it */
if (mbFileSpec->fileRefNum != -1)
{
FSClose(mbFileSpec->fileRefNum);
mbFileSpec->fileRefNum = -1;
}
break;
}
return ((int32)bytesInBuf);
}
/* MB_Close
Nothing really to do since the file forks are actually closed in the MB_Read
routine after they have been sent.
*/
void MB_Close(MB_FileSpec *mbFileSpec)
{
if (mbFileSpec->fileRefNum != -1)
FSClose(mbFileSpec->fileRefNum);
mbFileSpec->fileState = kMB_FinishedFile;
}