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This commit is contained in:
Natalia Portillo
2022-03-06 13:29:37 +00:00
parent c7178d94c6
commit 3b6091c02c
119 changed files with 38048 additions and 38172 deletions
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513
CD/PMA.cs
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@@ -35,311 +35,310 @@ using System.Text;
using Aaru.Console;
using Aaru.Helpers;
namespace Aaru.Decoders.CD
namespace Aaru.Decoders.CD;
// Information from the following standards:
// ANSI X3.304-1997
// T10/1048-D revision 9.0
// T10/1048-D revision 10a
// T10/1228-D revision 7.0c
// T10/1228-D revision 11a
// T10/1363-D revision 10g
// T10/1545-D revision 1d
// T10/1545-D revision 5
// T10/1545-D revision 5a
// T10/1675-D revision 2c
// T10/1675-D revision 4
// T10/1836-D revision 2g
[SuppressMessage("ReSharper", "InconsistentNaming"), SuppressMessage("ReSharper", "MemberCanBeInternal"),
SuppressMessage("ReSharper", "MemberCanBePrivate.Global")]
public static class PMA
{
// Information from the following standards:
// ANSI X3.304-1997
// T10/1048-D revision 9.0
// T10/1048-D revision 10a
// T10/1228-D revision 7.0c
// T10/1228-D revision 11a
// T10/1363-D revision 10g
// T10/1545-D revision 1d
// T10/1545-D revision 5
// T10/1545-D revision 5a
// T10/1675-D revision 2c
// T10/1675-D revision 4
// T10/1836-D revision 2g
[SuppressMessage("ReSharper", "InconsistentNaming"), SuppressMessage("ReSharper", "MemberCanBeInternal"),
SuppressMessage("ReSharper", "MemberCanBePrivate.Global")]
public static class PMA
public static CDPMA? Decode(byte[] CDPMAResponse)
{
public static CDPMA? Decode(byte[] CDPMAResponse)
if(CDPMAResponse == null ||
CDPMAResponse.Length <= 4)
return null;
var decoded = new CDPMA
{
if(CDPMAResponse == null ||
CDPMAResponse.Length <= 4)
return null;
DataLength = BigEndianBitConverter.ToUInt16(CDPMAResponse, 0),
Reserved1 = CDPMAResponse[2],
Reserved2 = CDPMAResponse[3]
};
var decoded = new CDPMA
{
DataLength = BigEndianBitConverter.ToUInt16(CDPMAResponse, 0),
Reserved1 = CDPMAResponse[2],
Reserved2 = CDPMAResponse[3]
};
decoded.PMADescriptors = new CDPMADescriptors[(decoded.DataLength - 2) / 11];
decoded.PMADescriptors = new CDPMADescriptors[(decoded.DataLength - 2) / 11];
if(decoded.PMADescriptors.Length == 0)
return null;
if(decoded.PMADescriptors.Length == 0)
return null;
if(decoded.DataLength + 2 != CDPMAResponse.Length)
{
AaruConsole.DebugWriteLine("CD PMA decoder",
"Expected CDPMA size ({0} bytes) is not received size ({1} bytes), not decoding",
decoded.DataLength + 2, CDPMAResponse.Length);
if(decoded.DataLength + 2 != CDPMAResponse.Length)
{
AaruConsole.DebugWriteLine("CD PMA decoder",
"Expected CDPMA size ({0} bytes) is not received size ({1} bytes), not decoding",
decoded.DataLength + 2, CDPMAResponse.Length);
return null;
}
for(int i = 0; i < (decoded.DataLength - 2) / 11; i++)
{
decoded.PMADescriptors[i].Reserved = CDPMAResponse[0 + (i * 11) + 4];
decoded.PMADescriptors[i].ADR = (byte)((CDPMAResponse[1 + (i * 11) + 4] & 0xF0) >> 4);
decoded.PMADescriptors[i].CONTROL = (byte)(CDPMAResponse[1 + (i * 11) + 4] & 0x0F);
decoded.PMADescriptors[i].TNO = CDPMAResponse[2 + (i * 11) + 4];
decoded.PMADescriptors[i].POINT = CDPMAResponse[3 + (i * 11) + 4];
decoded.PMADescriptors[i].Min = CDPMAResponse[4 + (i * 11) + 4];
decoded.PMADescriptors[i].Sec = CDPMAResponse[5 + (i * 11) + 4];
decoded.PMADescriptors[i].Frame = CDPMAResponse[6 + (i * 11) + 4];
decoded.PMADescriptors[i].HOUR = (byte)((CDPMAResponse[7 + (i * 11) + 4] & 0xF0) >> 4);
decoded.PMADescriptors[i].PHOUR = (byte)(CDPMAResponse[7 + (i * 11) + 4] & 0x0F);
decoded.PMADescriptors[i].PMIN = CDPMAResponse[8 + (i * 11) + 4];
decoded.PMADescriptors[i].PSEC = CDPMAResponse[9 + (i * 11) + 4];
decoded.PMADescriptors[i].PFRAME = CDPMAResponse[10 + (i * 11) + 4];
}
return decoded;
return null;
}
public static string Prettify(CDPMA? CDPMAResponse)
for(int i = 0; i < (decoded.DataLength - 2) / 11; i++)
{
if(CDPMAResponse == null)
return null;
decoded.PMADescriptors[i].Reserved = CDPMAResponse[0 + (i * 11) + 4];
decoded.PMADescriptors[i].ADR = (byte)((CDPMAResponse[1 + (i * 11) + 4] & 0xF0) >> 4);
decoded.PMADescriptors[i].CONTROL = (byte)(CDPMAResponse[1 + (i * 11) + 4] & 0x0F);
decoded.PMADescriptors[i].TNO = CDPMAResponse[2 + (i * 11) + 4];
decoded.PMADescriptors[i].POINT = CDPMAResponse[3 + (i * 11) + 4];
decoded.PMADescriptors[i].Min = CDPMAResponse[4 + (i * 11) + 4];
decoded.PMADescriptors[i].Sec = CDPMAResponse[5 + (i * 11) + 4];
decoded.PMADescriptors[i].Frame = CDPMAResponse[6 + (i * 11) + 4];
decoded.PMADescriptors[i].HOUR = (byte)((CDPMAResponse[7 + (i * 11) + 4] & 0xF0) >> 4);
decoded.PMADescriptors[i].PHOUR = (byte)(CDPMAResponse[7 + (i * 11) + 4] & 0x0F);
decoded.PMADescriptors[i].PMIN = CDPMAResponse[8 + (i * 11) + 4];
decoded.PMADescriptors[i].PSEC = CDPMAResponse[9 + (i * 11) + 4];
decoded.PMADescriptors[i].PFRAME = CDPMAResponse[10 + (i * 11) + 4];
}
CDPMA response = CDPMAResponse.Value;
return decoded;
}
var sb = new StringBuilder();
public static string Prettify(CDPMA? CDPMAResponse)
{
if(CDPMAResponse == null)
return null;
CDPMA response = CDPMAResponse.Value;
var sb = new StringBuilder();
#if DEBUG
if(response.Reserved1 != 0)
sb.AppendFormat("Reserved1 = 0x{0:X2}", response.Reserved1).AppendLine();
if(response.Reserved2 != 0)
sb.AppendFormat("Reserved2 = 0x{0:X2}", response.Reserved2).AppendLine();
#endif
foreach(CDPMADescriptors descriptor in response.PMADescriptors)
{
#if DEBUG
if(response.Reserved1 != 0)
sb.AppendFormat("Reserved1 = 0x{0:X2}", response.Reserved1).AppendLine();
if(response.Reserved2 != 0)
sb.AppendFormat("Reserved2 = 0x{0:X2}", response.Reserved2).AppendLine();
if(descriptor.Reserved != 0)
sb.AppendFormat("Reserved = 0x{0:X2}", descriptor.Reserved).AppendLine();
#endif
foreach(CDPMADescriptors descriptor in response.PMADescriptors)
switch(descriptor.ADR)
{
#if DEBUG
if(descriptor.Reserved != 0)
sb.AppendFormat("Reserved = 0x{0:X2}", descriptor.Reserved).AppendLine();
#endif
case 1:
if(descriptor.POINT > 0)
{
sb.AppendFormat("Track {0}", descriptor.POINT);
switch(descriptor.ADR)
{
case 1:
if(descriptor.POINT > 0)
switch((TocControl)(descriptor.CONTROL & 0x0D))
{
sb.AppendFormat("Track {0}", descriptor.POINT);
case TocControl.TwoChanNoPreEmph:
sb.Append(" (Stereo audio track with no pre-emphasis)");
switch((TocControl)(descriptor.CONTROL & 0x0D))
{
case TocControl.TwoChanNoPreEmph:
sb.Append(" (Stereo audio track with no pre-emphasis)");
break;
case TocControl.TwoChanPreEmph:
sb.Append(" (Stereo audio track with 50/15 μs pre-emphasis)");
break;
case TocControl.TwoChanPreEmph:
sb.Append(" (Stereo audio track with 50/15 μs pre-emphasis)");
break;
case TocControl.FourChanNoPreEmph:
sb.Append(" (Quadraphonic audio track with no pre-emphasis)");
break;
case TocControl.FourChanNoPreEmph:
sb.Append(" (Quadraphonic audio track with no pre-emphasis)");
break;
case TocControl.FourChanPreEmph:
sb.Append(" (Quadraphonic audio track with 50/15 μs pre-emphasis)");
break;
case TocControl.FourChanPreEmph:
sb.Append(" (Quadraphonic audio track with 50/15 μs pre-emphasis)");
break;
case TocControl.DataTrack:
sb.Append(" (Data track, recorded uninterrupted)");
break;
case TocControl.DataTrack:
sb.Append(" (Data track, recorded uninterrupted)");
break;
case TocControl.DataTrackIncremental:
sb.Append(" (Data track, recorded incrementally)");
break;
case TocControl.DataTrackIncremental:
sb.Append(" (Data track, recorded incrementally)");
break;
}
if(descriptor.PHOUR > 0)
sb.AppendFormat(" starts at {3}:{0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME, descriptor.PHOUR);
else
sb.AppendFormat(" starts at {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME);
if(descriptor.PHOUR > 0)
sb.AppendFormat(" and ends at {3}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec,
descriptor.Frame, descriptor.HOUR);
else
sb.AppendFormat(" and ends at {0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec,
descriptor.Frame);
sb.AppendLine();
break;
}
else
goto default;
break;
case 2:
uint id = (uint)((descriptor.Min << 16) + (descriptor.Sec << 8) + descriptor.Frame);
sb.AppendFormat("Disc ID: {0:X6}", id & 0x00FFFFFF).AppendLine();
break;
case 3:
sb.AppendFormat("Skip track assignment {0} says that tracks ", descriptor.POINT);
if(descriptor.Min > 0)
sb.AppendFormat("{0} ", descriptor.Min);
if(descriptor.Sec > 0)
sb.AppendFormat("{0} ", descriptor.Sec);
if(descriptor.Frame > 0)
sb.AppendFormat("{0} ", descriptor.Frame);
if(descriptor.PMIN > 0)
sb.AppendFormat("{0} ", descriptor.PMIN);
if(descriptor.PSEC > 0)
sb.AppendFormat("{0} ", descriptor.PSEC);
if(descriptor.PFRAME > 0)
sb.AppendFormat("{0} ", descriptor.PFRAME);
sb.AppendLine("should be skipped");
break;
case 4:
sb.AppendFormat("Unskip track assignment {0} says that tracks ", descriptor.POINT);
if(descriptor.Min > 0)
sb.AppendFormat("{0} ", descriptor.Min);
if(descriptor.Sec > 0)
sb.AppendFormat("{0} ", descriptor.Sec);
if(descriptor.Frame > 0)
sb.AppendFormat("{0} ", descriptor.Frame);
if(descriptor.PMIN > 0)
sb.AppendFormat("{0} ", descriptor.PMIN);
if(descriptor.PSEC > 0)
sb.AppendFormat("{0} ", descriptor.PSEC);
if(descriptor.PFRAME > 0)
sb.AppendFormat("{0} ", descriptor.PFRAME);
sb.AppendLine("should not be skipped");
break;
case 5:
sb.AppendFormat("Skip time interval assignment {0} says that from ", descriptor.POINT);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
sb.AppendFormat(" starts at {3}:{0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME, descriptor.PHOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
sb.AppendFormat(" starts at {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec,
sb.AppendFormat(" and ends at {3}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec,
descriptor.Frame, descriptor.HOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec, descriptor.Frame);
sb.AppendFormat(" and ends at {0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec,
descriptor.Frame);
sb.AppendLine("should be skipped");
sb.AppendLine();
}
else
goto default;
break;
case 6:
sb.AppendFormat("Unskip time interval assignment {0} says that from ", descriptor.POINT);
break;
case 2:
uint id = (uint)((descriptor.Min << 16) + (descriptor.Sec << 8) + descriptor.Frame);
sb.AppendFormat("Disc ID: {0:X6}", id & 0x00FFFFFF).AppendLine();
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME, descriptor.PHOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME);
break;
case 3:
sb.AppendFormat("Skip track assignment {0} says that tracks ", descriptor.POINT);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec,
descriptor.Frame, descriptor.HOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec, descriptor.Frame);
if(descriptor.Min > 0)
sb.AppendFormat("{0} ", descriptor.Min);
sb.AppendLine("should not be skipped");
if(descriptor.Sec > 0)
sb.AppendFormat("{0} ", descriptor.Sec);
break;
default:
if(descriptor.Frame > 0)
sb.AppendFormat("{0} ", descriptor.Frame);
sb.AppendFormat("ADR = {0}", descriptor.ADR).AppendLine();
sb.AppendFormat("CONTROL = {0}", descriptor.CONTROL).AppendLine();
sb.AppendFormat("TNO = {0}", descriptor.TNO).AppendLine();
sb.AppendFormat("POINT = {0}", descriptor.POINT).AppendLine();
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("HOUR = {0}", descriptor.HOUR).AppendLine();
sb.AppendFormat("PHOUR = {0}", descriptor.PHOUR).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
if(descriptor.PMIN > 0)
sb.AppendFormat("{0} ", descriptor.PMIN);
break;
}
if(descriptor.PSEC > 0)
sb.AppendFormat("{0} ", descriptor.PSEC);
if(descriptor.PFRAME > 0)
sb.AppendFormat("{0} ", descriptor.PFRAME);
sb.AppendLine("should be skipped");
break;
case 4:
sb.AppendFormat("Unskip track assignment {0} says that tracks ", descriptor.POINT);
if(descriptor.Min > 0)
sb.AppendFormat("{0} ", descriptor.Min);
if(descriptor.Sec > 0)
sb.AppendFormat("{0} ", descriptor.Sec);
if(descriptor.Frame > 0)
sb.AppendFormat("{0} ", descriptor.Frame);
if(descriptor.PMIN > 0)
sb.AppendFormat("{0} ", descriptor.PMIN);
if(descriptor.PSEC > 0)
sb.AppendFormat("{0} ", descriptor.PSEC);
if(descriptor.PFRAME > 0)
sb.AppendFormat("{0} ", descriptor.PFRAME);
sb.AppendLine("should not be skipped");
break;
case 5:
sb.AppendFormat("Skip time interval assignment {0} says that from ", descriptor.POINT);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME, descriptor.PHOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec,
descriptor.Frame, descriptor.HOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec, descriptor.Frame);
sb.AppendLine("should be skipped");
break;
case 6:
sb.AppendFormat("Unskip time interval assignment {0} says that from ", descriptor.POINT);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME, descriptor.PHOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} to ", descriptor.PMIN, descriptor.PSEC,
descriptor.PFRAME);
if(descriptor.PHOUR > 0)
sb.AppendFormat("{3}:{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec,
descriptor.Frame, descriptor.HOUR);
else
sb.AppendFormat("{0:D2}:{1:D2}:{2:D2} ", descriptor.Min, descriptor.Sec, descriptor.Frame);
sb.AppendLine("should not be skipped");
break;
default:
sb.AppendFormat("ADR = {0}", descriptor.ADR).AppendLine();
sb.AppendFormat("CONTROL = {0}", descriptor.CONTROL).AppendLine();
sb.AppendFormat("TNO = {0}", descriptor.TNO).AppendLine();
sb.AppendFormat("POINT = {0}", descriptor.POINT).AppendLine();
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("HOUR = {0}", descriptor.HOUR).AppendLine();
sb.AppendFormat("PHOUR = {0}", descriptor.PHOUR).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
break;
}
return sb.ToString();
}
public static string Prettify(byte[] CDPMAResponse)
{
CDPMA? decoded = Decode(CDPMAResponse);
return sb.ToString();
}
return Prettify(decoded);
}
public static string Prettify(byte[] CDPMAResponse)
{
CDPMA? decoded = Decode(CDPMAResponse);
public struct CDPMA
{
/// <summary>Total size of returned session information minus this field</summary>
public ushort DataLength;
/// <summary>Reserved</summary>
public byte Reserved1;
/// <summary>Reserved</summary>
public byte Reserved2;
/// <summary>Track descriptors</summary>
public CDPMADescriptors[] PMADescriptors;
}
return Prettify(decoded);
}
public struct CDPMADescriptors
{
/// <summary>Byte 0 Reserved</summary>
public byte Reserved;
/// <summary>Byte 1, bits 7 to 4 Type of information in Q subchannel of block where this TOC entry was found</summary>
public byte ADR;
/// <summary>Byte 1, bits 3 to 0 Track attributes</summary>
public byte CONTROL;
/// <summary>Byte 2</summary>
public byte TNO;
/// <summary>Byte 3</summary>
public byte POINT;
/// <summary>Byte 4</summary>
public byte Min;
/// <summary>Byte 5</summary>
public byte Sec;
/// <summary>Byte 6</summary>
public byte Frame;
/// <summary>Byte 7, bits 7 to 4</summary>
public byte HOUR;
/// <summary>Byte 7, bits 3 to 0</summary>
public byte PHOUR;
/// <summary>Byte 8</summary>
public byte PMIN;
/// <summary>Byte 9</summary>
public byte PSEC;
/// <summary>Byte 10</summary>
public byte PFRAME;
}
public struct CDPMA
{
/// <summary>Total size of returned session information minus this field</summary>
public ushort DataLength;
/// <summary>Reserved</summary>
public byte Reserved1;
/// <summary>Reserved</summary>
public byte Reserved2;
/// <summary>Track descriptors</summary>
public CDPMADescriptors[] PMADescriptors;
}
public struct CDPMADescriptors
{
/// <summary>Byte 0 Reserved</summary>
public byte Reserved;
/// <summary>Byte 1, bits 7 to 4 Type of information in Q subchannel of block where this TOC entry was found</summary>
public byte ADR;
/// <summary>Byte 1, bits 3 to 0 Track attributes</summary>
public byte CONTROL;
/// <summary>Byte 2</summary>
public byte TNO;
/// <summary>Byte 3</summary>
public byte POINT;
/// <summary>Byte 4</summary>
public byte Min;
/// <summary>Byte 5</summary>
public byte Sec;
/// <summary>Byte 6</summary>
public byte Frame;
/// <summary>Byte 7, bits 7 to 4</summary>
public byte HOUR;
/// <summary>Byte 7, bits 3 to 0</summary>
public byte PHOUR;
/// <summary>Byte 8</summary>
public byte PMIN;
/// <summary>Byte 9</summary>
public byte PSEC;
/// <summary>Byte 10</summary>
public byte PFRAME;
}
}