private void GenVolumeDescriptorTerminator() // ISO 9660 - 8.3
{
var vdt = new FieldValidator(this.generator);
vdt.Byte(255, 1); // Volume Descriptor Type ( 8.3.1 )
vdt.AString("CD001", 2, 6); // Standard Identifier ( 8.4.2 )
vdt.Byte(1, 7); // Volume Descriptor Version ( 8.4.3 )
this.generator.FinishBlock();
}
private void GenBootRecordDescriptor() // ( ISO 9660 - 8.2, El Torito Figure 7 )
{
var br = new FieldValidator(this.generator);
br.Byte(0, 1); // Volume Descriptor Type ( 8.2.1 ), Boot Record Indicator - must be 0 ( offset 0x00 )
br.AString("CD001", 2, 6); // Standard Identifier ( 8.2.2 ), ( offset 0x01-0x05 )
br.Byte(1, 7); // Volume Descriptor Version ( 8.2.3 ), must be 1 for El Torito also ( offset 0x06 )
br.AString("EL TORITO SPECIFICATION", 8, 39); // Boot System Identifier ( 8.2.4 ), ( offset 0x07-0x26 )
br.Zero(40, 71); // Boot Identifier ( 8.2.5 ), Unused - must be 0 ( offset 0x27-0x46 )
br.IntLSB(BootCatalog, 72, 75); // Boot System Use ( 8.2.6 ), Absolute Pointer to first sector of Boot Catalog ( offset 0x47-0x4A )
this.generator.FinishBlock();
}
public void BinaryDateTime(System.DateTime d, int start, int end) // ( 9.1.5 )
{
BeginField(start);
var dt = new FieldValidator(this.generator);
dt.Byte((byte)(d.Year - 1900), 1);
dt.Byte((byte)d.Month, 2);
dt.Byte((byte)d.Day, 3);
dt.Byte((byte)d.Hour, 4);
dt.Byte((byte)d.Minute, 5);
dt.Byte((byte)d.Second, 6);
dt.Byte(0, 7); // TODO FIXME - unsure about how to encode time zone exactly... :(
EndField(end);
}
public void AnsiDateTime(System.DateTime d, int start, int end) // ( 8.4.26.1 )
{
BeginField(start);
var dt = new FieldValidator(this.generator);
dt.Digits(d.Year, 1, 4);
dt.Digits(d.Month, 5, 6);
dt.Digits(d.Day, 7, 8);
dt.Digits(d.Hour, 9, 10);
dt.Digits(d.Minute, 11, 12);
dt.Digits(d.Second, 13, 14);
dt.Digits(d.Millisecond / 10, 15, 16);
dt.Digits(0, 17, 17); // TODO FIXME - I don't understand the docs for how to encode the GMT offset...
EndField(end);
}
private void GenBootCatalog(IsoFile f)
{
BootCatalog = this.generator.Index / LogicalBlockSize;
// write validation entry first... see El Torito section 2.1
var ve = new FieldValidator(this.generator);
ve.Byte(1, 1); // Header ID, must be 0x01
ve.Byte(0, 2); // 0 == x86 - TODO FIXME: 1 == PowerPC, 2 == Mac, see El Torito figure 2
ve.DupByte(0, 3, 4); // Reserved
ve.DupByte(0, 5, 0x1C); // Manufacturer/Developer of CD-ROM, see El Torito figure 2
ve.ShortLSB(0x55AA, 0x1D, 0x1E); // checksum - TODO FIXME - allow custom Manufacturer string - calculate checksum dynamically
ve.Byte(0x55, 0x1F); // 1st Key Byte
ve.Byte(0xAA, 0x20); // 2nd Key Byte
// initial/default entry... see El Torito section 2.2 and figure 3
var ide = new FieldValidator(this.generator);
ide.Byte(0x88, 1); // 0x88 = bootable, 0x00 = not bootable
// TODO FIXME - this is extremely hackish... fix me...
ide.Byte(0, 2); // no emulation
/*if ( f.fileInfo.Length <= 1182720 )
* ide.Byte(1, 2); // 1.2 meg diskette
* else if ( f.fileInfo.Length <= 1440 * 1024 )
* ide.Byte(2,2); // 1.44 meg diskette
* else if ( f.fileInfo.Length <= 2880 * 1024 )
* ide.Byte(3,2); // 2.88 meg diskette
* else
* ide.Byte(4,2);*/
// Hard Disk ( drive 80 )
ide.ShortLSB(0, 3, 4); // Load Segment - 0 == default of 0x7C0
ide.Byte(0, 5); // System Type, according to El Torito figure 3 this MUST be a copy of the "System Type" from the boot image. In practice this appears to not be the case.
ide.Byte(0, 6); // Unused, must be 0
if (this.bootLoadSize == 0)
{
this.bootLoadSize = (short)((f.fileInfo.Length - 1) / 0x200 + 1);
}
ide.ShortLSB(this.bootLoadSize, 7, 8); // Sector Count
ide.IntLSB(this.boot.DataBlock, 9, 12); // Logical Block of boot image
ide.Zero(13, 32); // unused
this.generator.FinishBlock();
}
private void GenPrimaryVolumeDescriptor() // ( 8.4 )
{
PrimaryVolumeDescriptor = this.generator.Index / LogicalBlockSize;
var pvd = new FieldValidator(this.generator);
pvd.Byte(1, 1); // Volume Descriptor Type ( 8.4.1 )
pvd.AString("CD001", 2, 6); // Standard Identifier ( 8.4.2 )
pvd.Byte(1, 7); // Volume Descriptor Version ( 8.4.3 )
pvd.Zero(8, 8); // Unused Field ( 8.4.4 )
pvd.AString("?", 9, 40); // System Identifier ( 8.4.5 )
pvd.DString(this.volumeLabel, 41, 72); // Volume Identifier ( 8.4.6 )
pvd.Zero(73, 80); // Unused Field ( 8.4.7 )
pvd.IntLSBMSB((TotalSize + LogicalBlockSize - 1) / LogicalBlockSize, 81, 88); // Volume Space Size ( 8.4.8 )
pvd.Zero(89, 120); // Unused Field ( 8.4.9 )
pvd.ShortLSBMSB(1, 121, 124); // Volume Set Size ( 8.4.10 )
pvd.ShortLSBMSB(1, 125, 128); // Volume Sequence Number ( 8.4.11 )
pvd.ShortLSBMSB(LogicalBlockSize, 129, 132); // Logical Block Size ( 8.4.12 )
pvd.IntLSBMSB(PathTableSize, 133, 140); // Path Table Size ( 8.4.13 )
pvd.IntLSB(LPathTable, 141, 144); // L Path Table ( 8.4.14 )
pvd.IntLSB(0, 145, 148); // Optional L Path Table ( 8.4.15 )
pvd.IntMSB(MPathTable, 149, 152); // M Path Table ( 8.4.16 )
pvd.IntMSB(0, 153, 156); // Optional M Path Table ( 8.4.17 )
pvd.BeginField(157);
DirectoryRecord(".", this.isoRoot, 1); // Directory Record for Root Directory ( 8.4.18 )
pvd.EndField(190);
pvd.DupByte(0x20, 191, 318); // Volume Set Identifier ( 8.4.19 )
pvd.DupByte(0x20, 319, 446); // Publisher Identifier ( 8.4.20 )
pvd.DupByte(0x20, 447, 574); // Data Preparer ( 8.4.21 )
pvd.DupByte(0x20, 575, 702); // Application Identifier ( 8.4.22 )
pvd.DupByte(0x20, 703, 739); // Copyright File Identifier ( 8.4.23 )
pvd.DupByte(0x20, 740, 776); // Abstract File Identifier ( 8.4.24 )
pvd.DupByte(0x20, 777, 813); // Bibliographic File Identifier ( 8.4.25 )
System.DateTime now = System.DateTime.Now;
pvd.AnsiDateTime(now, 814, 830); // Volume Creation Date and Time ( 8.4.26 )
pvd.AnsiDateTime(now, 831, 847); // Volume Modification Date and Time ( 8.4.27 )
pvd.Zero(848, 864); // Volume Expiration Date and Time ( 8.4.28 )
pvd.Zero(865, 881); // Volume Effective Date and Time ( 8.4.29 )
pvd.Byte(1, 882); // File Structure Version ( 8.4.30 )
pvd.Zero(883, 883); // Reserved ( 8.4.31 )
pvd.Zero(884, 1395); // Application Use ( 8.4.32 )
pvd.Zero(1396, 2048); // Reserved for Future Standardization ( 8.4.33 )
}
private string DirectoryRecordEx(byte[] fileName, string realName, IsoEntry e, byte root, bool secondPass)
{
byte[] /*b_fi,*/ b_su = null;
/*if (fileName == ".")
{
b_fi = new byte[] { 0 };
realName = "";
}
else if (fileName == "..")
{
b_fi = new byte[] { 1 };
realName = "";
}
else
b_fi = generator.Ascii.GetBytes(fileName);*/
byte LEN_FI = (byte)fileName.Length;
byte LEN_DR = (byte)(33 + LEN_FI);
bool fi_padding = ((LEN_DR & 1) != 0);
if (fi_padding) LEN_DR++;
// as much as I HATE to do it, I have to generate this data in both passes for now.
// I don't yet understand enough about what and how many DR entries have to be made to figure out how to do it "right"
byte LEN_SU = 0;
#if ROCKRIDGE
if (root != 1) // don't generate susp on PVD's root entry...
{
b_su = Susp(ref realName, e, root == 2, secondPass, (byte)(255 - LEN_DR));
if (b_su.Length > 255)
throw new NotImplementedException("can't yet handle SUSP > 255 bytes");
LEN_SU = (byte)b_su.Length;
}
else
realName = "";
#endif
LEN_DR += LEN_SU;
var dr = new FieldValidator(this.generator);
dr.Byte(LEN_DR, 1); // Length of Directory Record ( 9.1.1 )
dr.Byte(0, 2); // Extended Attribute Record Length ( 9.1.2 )
dr.IntLSBMSB(e.DataBlock, 3, 10); // Location of Extent ( 9.1.3 )
#if true
// in this test - I round the data length up to the next multiple of 2048, didn't help fix my booting problem though...
dr.IntLSBMSB(((e.DataLength - 1) / 2048 + 1) * 2048, 11, 18); // Data Length ( 9.1.4 )
#else
dr.IntLSBMSB(e.DataLength, 11, 18); // Data Length ( 9.1.4 )
#endif
dr.BinaryDateTime(System.DateTime.Now, 19, 25); // Recording Date and Time ( 9.1.5 )
byte flags = 0;
if (e.IsFile) {
IsoFile f = (IsoFile)e;
if ((f.fileInfo.Attributes & FileAttributes.Hidden) != 0)
flags |= 1; // hidden
}
else {
// TODO FIXME - not supporting hidden folders right now
//IsoFolder f = (IsoFolder)e;
//if ((f.dirInfo.Attributes & DirectoryAttributes.Hidden) != 0)
// flags |= 1; // hidden
}
if (e.IsFolder)
flags |= 2; // directory
#if false // I'm disabling this because analysing of a working ISO never sets this bit...
if (real_name.Length == 0)
flags |= 128; // final
#endif
dr.Byte(flags, 26); // flags ( 9.1.6 )
dr.Byte(0, 27); // File Unit Size ( 9.1.7 )
dr.Byte(0, 28); // Interleave Gap Size ( 9.1.8 )
dr.ShortLSBMSB(1, 29, 32); // Volume Sequence Number ( 9.1.9 )
dr.Byte(LEN_FI, 33); // Length of File Identifier ( 9.1.10 )
dr.Bytes(fileName, 34, 33 + LEN_FI);
if (fi_padding) dr.Zero(34 + LEN_FI, 34 + LEN_FI);
if (LEN_SU > 0) dr.Bytes(b_su, LEN_DR - LEN_SU + 1, LEN_DR);
return realName;
}
private void GenContinuationBlock()
{
ContinuationBlock = this.generator.Index / LogicalBlockSize;
ContinuationLength = -this.generator.Index; // HACK ALERT: we will add the final offset when done, and that will give us the length
// ER - Extensions Reference - see P1281 section 5.5
byte[] b_id = this.generator.Ascii.GetBytes("RRIP_1991A"); // I can't find documentation anywhere for these values, but they came from an ISO I analyzed.
byte[] b_des = this.generator.Ascii.GetBytes("THE ROCK RIDGE INTERCHANGE PROTOCOL PROVIDES SUPPORT FOR POSIX FILE SYSTEM SEMANTICS");
byte[] b_src = this.generator.Ascii.GetBytes("PLEASE CONTACT DISC PUBLISHER FOR SPECIFICATION SOURCE. SEE PUBLISHER IDENTIFIER IN PRIMARY VOLUME DESCRIPTOR FOR CONTACT INFORMATION.");
var er = new FieldValidator(this.generator);
er.Byte((byte)'E', 1);
er.Byte((byte)'R', 2);
System.Diagnostics.Debug.Assert((9 + b_id.Length + b_des.Length + b_src.Length) < 256);
er.Byte((byte)(8 + b_id.Length + b_des.Length + b_src.Length), 3);
er.Byte(1, 4); // version
er.Byte((byte)b_id.Length, 5);
er.Byte((byte)b_des.Length, 6);
er.Byte((byte)b_src.Length, 7);
er.Byte(1, 8); // extension version ( got this value from peeking at another ISO file )
er.Bytes(b_id, 9, 9 + b_id.Length - 1);
er.Bytes(b_des, 9 + b_id.Length, 9 + b_id.Length + b_des.Length - 1);
er.Bytes(b_src, 9 + b_id.Length + b_des.Length, 9 + b_id.Length + b_des.Length + b_src.Length - 1);
ContinuationLength += this.generator.Index;
this.generator.FinishBlock();
}
private void GenPathTableEx(IsoFolder parentFolder, IsoFolder thisFolder, bool lsb)
{
var di = new FieldValidator(this.generator);
// Path table record ( ECMA-119 section 9.4 )
byte[] b_di = this.generator.IsoName(thisFolder.Name, true);
di.Byte((byte)b_di.Length, 1);
di.Byte(0, 2); // Extended Attribute Record Length
if (lsb) {
di.IntLSB(thisFolder.DataBlock, 3, 6); // Location of Extent
di.ShortLSB(parentFolder.PathTableEntry, 7, 8); // Parent Directory Number
}
else {
di.IntMSB(thisFolder.DataBlock, 3, 6); // Location of Extent
di.ShortMSB(parentFolder.PathTableEntry, 7, 8); // Parent Directory Number
}
di.Bytes(b_di, 9, 8 + b_di.Length); // Directory Identifier
if ((b_di.Length & 1) != 0)
di.Byte(0, 9 + b_di.Length); // optional padding if LEN_DI is odd
foreach (KeyValuePair<string, IsoEntry> it in thisFolder.entries)
if (it.Value.IsFolder)
GenPathTableEx(thisFolder, (IsoFolder)it.Value, lsb);
}
private void GenBootCatalog(IsoFile f)
{
BootCatalog = this.generator.Index / LogicalBlockSize;
// write validation entry first... see El Torito section 2.1
var ve = new FieldValidator(this.generator);
ve.Byte(1, 1); // Header ID, must be 0x01
ve.Byte(0, 2); // 0 == x86 - TODO FIXME: 1 == PowerPC, 2 == Mac, see El Torito figure 2
ve.DupByte(0, 3, 4); // Reserved
ve.DupByte(0, 5, 0x1C); // Manufacturer/Developer of CD-ROM, see El Torito figure 2
ve.ShortLSB(0x55AA, 0x1D, 0x1E); // checksum - TODO FIXME - allow custom Manufacturer string - calculate checksum dynamically
ve.Byte(0x55, 0x1F); // 1st Key Byte
ve.Byte(0xAA, 0x20); // 2nd Key Byte
// initial/default entry... see El Torito section 2.2 and figure 3
var ide = new FieldValidator(this.generator);
ide.Byte(0x88, 1); // 0x88 = bootable, 0x00 = not bootable
// TODO FIXME - this is extremely hackish... fix me...
ide.Byte(0, 2); // no emulation
/*if ( f.fileInfo.Length <= 1182720 )
ide.Byte(1, 2); // 1.2 meg diskette
else if ( f.fileInfo.Length <= 1440 * 1024 )
ide.Byte(2,2); // 1.44 meg diskette
else if ( f.fileInfo.Length <= 2880 * 1024 )
ide.Byte(3,2); // 2.88 meg diskette
else
ide.Byte(4,2);*/
// Hard Disk ( drive 80 )
ide.ShortLSB(0, 3, 4); // Load Segment - 0 == default of 0x7C0
ide.Byte(0, 5); // System Type, according to El Torito figure 3 this MUST be a copy of the "System Type" from the boot image. In practice this appears to not be the case.
ide.Byte(0, 6); // Unused, must be 0
if (this.bootLoadSize == 0)
this.bootLoadSize = (short)((f.fileInfo.Length - 1) / 0x200 + 1);
ide.ShortLSB(this.bootLoadSize, 7, 8); // Sector Count
ide.IntLSB(this.boot.DataBlock, 9, 12); // Logical Block of boot image
ide.Zero(13, 32); // unused
this.generator.FinishBlock();
}
private void GenBootRecordDescriptor() // ( ISO 9660 - 8.2, El Torito Figure 7 )
{
var br = new FieldValidator(this.generator);
br.Byte(0, 1); // Volume Descriptor Type ( 8.2.1 ), Boot Record Indicator - must be 0 ( offset 0x00 )
br.AString("CD001", 2, 6); // Standard Identifier ( 8.2.2 ), ( offset 0x01-0x05 )
br.Byte(1, 7); // Volume Descriptor Version ( 8.2.3 ), must be 1 for El Torito also ( offset 0x06 )
br.AString("EL TORITO SPECIFICATION", 8, 39); // Boot System Identifier ( 8.2.4 ), ( offset 0x07-0x26 )
br.Zero(40, 71); // Boot Identifier ( 8.2.5 ), Unused - must be 0 ( offset 0x27-0x46 )
br.IntLSB(BootCatalog, 72, 75); // Boot System Use ( 8.2.6 ), Absolute Pointer to first sector of Boot Catalog ( offset 0x47-0x4A )
this.generator.FinishBlock();
}
private void GenVolumeDescriptorTerminator() // ISO 9660 - 8.3
{
var vdt = new FieldValidator(this.generator);
vdt.Byte(255, 1); // Volume Descriptor Type ( 8.3.1 )
vdt.AString("CD001", 2, 6); // Standard Identifier ( 8.4.2 )
vdt.Byte(1, 7); // Volume Descriptor Version ( 8.4.3 )
this.generator.FinishBlock();
}
private void GenPrimaryVolumeDescriptor() // ( 8.4 )
{
PrimaryVolumeDescriptor = this.generator.Index / LogicalBlockSize;
var pvd = new FieldValidator(this.generator);
pvd.Byte(1, 1); // Volume Descriptor Type ( 8.4.1 )
pvd.AString("CD001", 2, 6); // Standard Identifier ( 8.4.2 )
pvd.Byte(1, 7); // Volume Descriptor Version ( 8.4.3 )
pvd.Zero(8, 8); // Unused Field ( 8.4.4 )
pvd.AString("?", 9, 40); // System Identifier ( 8.4.5 )
pvd.DString(this.volumeLabel, 41, 72); // Volume Identifier ( 8.4.6 )
pvd.Zero(73, 80); // Unused Field ( 8.4.7 )
pvd.IntLSBMSB((TotalSize + LogicalBlockSize - 1) / LogicalBlockSize, 81, 88); // Volume Space Size ( 8.4.8 )
pvd.Zero(89, 120); // Unused Field ( 8.4.9 )
pvd.ShortLSBMSB(1, 121, 124); // Volume Set Size ( 8.4.10 )
pvd.ShortLSBMSB(1, 125, 128); // Volume Sequence Number ( 8.4.11 )
pvd.ShortLSBMSB(LogicalBlockSize, 129, 132); // Logical Block Size ( 8.4.12 )
pvd.IntLSBMSB(PathTableSize, 133, 140); // Path Table Size ( 8.4.13 )
pvd.IntLSB(LPathTable, 141, 144); // L Path Table ( 8.4.14 )
pvd.IntLSB(0, 145, 148); // Optional L Path Table ( 8.4.15 )
pvd.IntMSB(MPathTable, 149, 152); // M Path Table ( 8.4.16 )
pvd.IntMSB(0, 153, 156); // Optional M Path Table ( 8.4.17 )
pvd.BeginField(157);
DirectoryRecord(".", this.isoRoot, 1); // Directory Record for Root Directory ( 8.4.18 )
pvd.EndField(190);
pvd.DupByte(0x20, 191, 318); // Volume Set Identifier ( 8.4.19 )
pvd.DupByte(0x20, 319, 446); // Publisher Identifier ( 8.4.20 )
pvd.DupByte(0x20, 447, 574); // Data Preparer ( 8.4.21 )
pvd.DupByte(0x20, 575, 702); // Application Identifier ( 8.4.22 )
pvd.DupByte(0x20, 703, 739); // Copyright File Identifier ( 8.4.23 )
pvd.DupByte(0x20, 740, 776); // Abstract File Identifier ( 8.4.24 )
pvd.DupByte(0x20, 777, 813); // Bibliographic File Identifier ( 8.4.25 )
System.DateTime now = System.DateTime.Now;
pvd.AnsiDateTime(now, 814, 830); // Volume Creation Date and Time ( 8.4.26 )
pvd.AnsiDateTime(now, 831, 847); // Volume Modification Date and Time ( 8.4.27 )
pvd.Zero(848, 864); // Volume Expiration Date and Time ( 8.4.28 )
pvd.Zero(865, 881); // Volume Effective Date and Time ( 8.4.29 )
pvd.Byte(1, 882); // File Structure Version ( 8.4.30 )
pvd.Zero(883, 883); // Reserved ( 8.4.31 )
pvd.Zero(884, 1395); // Application Use ( 8.4.32 )
pvd.Zero(1396, 2048); // Reserved for Future Standardization ( 8.4.33 )
}
private string DirectoryRecordEx(byte[] fileName, string realName, IsoEntry e, byte root, bool secondPass)
{
byte[] /*b_fi,*/ b_su = null;
/*if (fileName == ".")
* {
* b_fi = new byte[] { 0 };
* realName = "";
* }
* else if (fileName == "..")
* {
* b_fi = new byte[] { 1 };
* realName = "";
* }
* else
* b_fi = generator.Ascii.GetBytes(fileName);*/
byte LEN_FI = (byte)fileName.Length;
byte LEN_DR = (byte)(33 + LEN_FI);
bool fi_padding = ((LEN_DR & 1) != 0);
if (fi_padding)
{
LEN_DR++;
}
// as much as I HATE to do it, I have to generate this data in both passes for now.
// I don't yet understand enough about what and how many DR entries have to be made to figure out how to do it "right"
byte LEN_SU = 0;
#if ROCKRIDGE
if (root != 1) // don't generate susp on PVD's root entry...
{
b_su = Susp(ref realName, e, root == 2, secondPass, (byte)(255 - LEN_DR));
if (b_su.Length > 255)
{
throw new NotImplementedException("can't yet handle SUSP > 255 bytes");
}
LEN_SU = (byte)b_su.Length;
}
else
{
realName = "";
}
#endif
LEN_DR += LEN_SU;
var dr = new FieldValidator(this.generator);
dr.Byte(LEN_DR, 1); // Length of Directory Record ( 9.1.1 )
dr.Byte(0, 2); // Extended Attribute Record Length ( 9.1.2 )
dr.IntLSBMSB(e.DataBlock, 3, 10); // Location of Extent ( 9.1.3 )
#if true
// in this test - I round the data length up to the next multiple of 2048, didn't help fix my booting problem though...
dr.IntLSBMSB(((e.DataLength - 1) / 2048 + 1) * 2048, 11, 18); // Data Length ( 9.1.4 )
#else
dr.IntLSBMSB(e.DataLength, 11, 18); // Data Length ( 9.1.4 )
#endif
dr.BinaryDateTime(System.DateTime.Now, 19, 25); // Recording Date and Time ( 9.1.5 )
byte flags = 0;
if (e.IsFile)
{
IsoFile f = (IsoFile)e;
if ((f.fileInfo.Attributes & FileAttributes.Hidden) != 0)
{
flags |= 1; // hidden
}
}
else
{
// TODO FIXME - not supporting hidden folders right now
//IsoFolder f = (IsoFolder)e;
//if ((f.dirInfo.Attributes & DirectoryAttributes.Hidden) != 0)
// flags |= 1; // hidden
}
if (e.IsFolder)
{
flags |= 2; // directory
}
#if false // I'm disabling this because analysing of a working ISO never sets this bit...
if (real_name.Length == 0)
{
flags |= 128; // final
}
#endif
dr.Byte(flags, 26); // flags ( 9.1.6 )
dr.Byte(0, 27); // File Unit Size ( 9.1.7 )
dr.Byte(0, 28); // Interleave Gap Size ( 9.1.8 )
dr.ShortLSBMSB(1, 29, 32); // Volume Sequence Number ( 9.1.9 )
dr.Byte(LEN_FI, 33); // Length of File Identifier ( 9.1.10 )
dr.Bytes(fileName, 34, 33 + LEN_FI);
if (fi_padding)
{
dr.Zero(34 + LEN_FI, 34 + LEN_FI);
}
if (LEN_SU > 0)
{
dr.Bytes(b_su, LEN_DR - LEN_SU + 1, LEN_DR);
}
return(realName);
}
public void BinaryDateTime(System.DateTime d, int start, int end) // ( 9.1.5 )
{
BeginField(start);
var dt = new FieldValidator(this.generator);
dt.Byte((byte)(d.Year - 1900), 1);
dt.Byte((byte)d.Month, 2);
dt.Byte((byte)d.Day, 3);
dt.Byte((byte)d.Hour, 4);
dt.Byte((byte)d.Minute, 5);
dt.Byte((byte)d.Second, 6);
dt.Byte(0, 7); // TODO FIXME - unsure about how to encode time zone exactly... :(
EndField(end);
}
public void AnsiDateTime(System.DateTime d, int start, int end) // ( 8.4.26.1 )
{
BeginField(start);
var dt = new FieldValidator(this.generator);
dt.Digits(d.Year, 1, 4);
dt.Digits(d.Month, 5, 6);
dt.Digits(d.Day, 7, 8);
dt.Digits(d.Hour, 9, 10);
dt.Digits(d.Minute, 11, 12);
dt.Digits(d.Second, 13, 14);
dt.Digits(d.Millisecond / 10, 15, 16);
dt.Digits(0, 17, 17); // TODO FIXME - I don't understand the docs for how to encode the GMT offset...
EndField(end);
}