IccUtilspublic class IccUtils extends Object Various methods, useful for dealing with SIM data. |
Fields Summary |
---|
static final String | LOG_TAG |
Methods Summary |
---|
public static java.lang.String | adnStringFieldToString(byte[] data, int offset, int length)Decodes a string field that's formatted like the EF[ADN] alpha
identifier
From TS 51.011 10.5.1:
Coding:
this alpha tagging shall use either
- the SMS default 7 bit coded alphabet as defined in
TS 23.038 [12] with bit 8 set to 0. The alpha identifier
shall be left justified. Unused bytes shall be set to 'FF'; or
- one of the UCS2 coded options as defined in annex B.
Annex B from TS 11.11 V8.13.0:
1) If the first octet in the alpha string is '80', then the
remaining octets are 16 bit UCS2 characters ...
2) if the first octet in the alpha string is '81', then the
second octet contains a value indicating the number of
characters in the string, and the third octet contains an
8 bit number which defines bits 15 to 8 of a 16 bit
base pointer, where bit 16 is set to zero and bits 7 to 1
are also set to zero. These sixteen bits constitute a
base pointer to a "half page" in the UCS2 code space, to be
used with some or all of the remaining octets in the string.
The fourth and subsequent octets contain codings as follows:
If bit 8 of the octet is set to zero, the remaining 7 bits
of the octet contain a GSM Default Alphabet character,
whereas if bit 8 of the octet is set to one, then the
remaining seven bits are an offset value added to the
16 bit base pointer defined earlier...
3) If the first octet of the alpha string is set to '82', then
the second octet contains a value indicating the number of
characters in the string, and the third and fourth octets
contain a 16 bit number which defines the complete 16 bit
base pointer to a "half page" in the UCS2 code space...
if (length == 0) {
return "";
}
if (length >= 1) {
if (data[offset] == (byte) 0x80) {
int ucslen = (length - 1) / 2;
String ret = null;
try {
ret = new String(data, offset + 1, ucslen * 2, "utf-16be");
} catch (UnsupportedEncodingException ex) {
Rlog.e(LOG_TAG, "implausible UnsupportedEncodingException",
ex);
}
if (ret != null) {
// trim off trailing FFFF characters
ucslen = ret.length();
while (ucslen > 0 && ret.charAt(ucslen - 1) == '\uFFFF")
ucslen--;
return ret.substring(0, ucslen);
}
}
}
boolean isucs2 = false;
char base = '\0";
int len = 0;
if (length >= 3 && data[offset] == (byte) 0x81) {
len = data[offset + 1] & 0xFF;
if (len > length - 3)
len = length - 3;
base = (char) ((data[offset + 2] & 0xFF) << 7);
offset += 3;
isucs2 = true;
} else if (length >= 4 && data[offset] == (byte) 0x82) {
len = data[offset + 1] & 0xFF;
if (len > length - 4)
len = length - 4;
base = (char) (((data[offset + 2] & 0xFF) << 8) |
(data[offset + 3] & 0xFF));
offset += 4;
isucs2 = true;
}
if (isucs2) {
StringBuilder ret = new StringBuilder();
while (len > 0) {
// UCS2 subset case
if (data[offset] < 0) {
ret.append((char) (base + (data[offset] & 0x7F)));
offset++;
len--;
}
// GSM character set case
int count = 0;
while (count < len && data[offset + count] >= 0)
count++;
ret.append(GsmAlphabet.gsm8BitUnpackedToString(data,
offset, count));
offset += count;
len -= count;
}
return ret.toString();
}
Resources resource = Resources.getSystem();
String defaultCharset = "";
try {
defaultCharset =
resource.getString(com.android.internal.R.string.gsm_alphabet_default_charset);
} catch (NotFoundException e) {
// Ignore Exception and defaultCharset is set to a empty string.
}
return GsmAlphabet.gsm8BitUnpackedToString(data, offset, length, defaultCharset.trim());
| public static java.lang.String | bcdToString(byte[] data, int offset, int length)Many fields in GSM SIM's are stored as nibble-swizzled BCD
Assumes left-justified field that may be padded right with 0xf
values.
Stops on invalid BCD value, returning string so far
StringBuilder ret = new StringBuilder(length*2);
for (int i = offset ; i < offset + length ; i++) {
byte b;
int v;
v = data[i] & 0xf;
if (v > 9) break;
ret.append((char)('0" + v));
v = (data[i] >> 4) & 0xf;
// Some PLMNs have 'f' as high nibble, ignore it
if (v == 0xf) continue;
if (v > 9) break;
ret.append((char)('0" + v));
}
return ret.toString();
| private static int | bitToRGB(int bit)
if(bit == 1){
return Color.WHITE;
} else {
return Color.BLACK;
}
| public static java.lang.String | bytesToHexString(byte[] bytes)Converts a byte array into a String of hexadecimal characters.
if (bytes == null) return null;
StringBuilder ret = new StringBuilder(2*bytes.length);
for (int i = 0 ; i < bytes.length ; i++) {
int b;
b = 0x0f & (bytes[i] >> 4);
ret.append("0123456789abcdef".charAt(b));
b = 0x0f & bytes[i];
ret.append("0123456789abcdef".charAt(b));
}
return ret.toString();
| public static int | cdmaBcdByteToInt(byte b)Decodes a CDMA style BCD byte like {@link #gsmBcdByteToInt}, but
opposite nibble format. The least significant BCD digit
is in the least significant nibble and the most significant
is in the most significant nibble.
int ret = 0;
// treat out-of-range BCD values as 0
if ((b & 0xf0) <= 0x90) {
ret = ((b >> 4) & 0xf) * 10;
}
if ((b & 0x0f) <= 0x09) {
ret += (b & 0xf);
}
return ret;
| public static java.lang.String | cdmaBcdToString(byte[] data, int offset, int length)Decode cdma byte into String.
StringBuilder ret = new StringBuilder(length);
int count = 0;
for (int i = offset; count < length; i++) {
int v;
v = data[i] & 0xf;
if (v > 9) v = 0;
ret.append((char)('0" + v));
if (++count == length) break;
v = (data[i] >> 4) & 0xf;
if (v > 9) v = 0;
ret.append((char)('0" + v));
++count;
}
return ret.toString();
| private static int[] | getCLUT(byte[] rawData, int offset, int number)
if (null == rawData) {
return null;
}
int[] result = new int[number];
int endIndex = offset + (number * 3); // 1 color use 3 bytes
int valueIndex = offset;
int colorIndex = 0;
int alpha = 0xff << 24;
do {
result[colorIndex++] = alpha
| ((rawData[valueIndex++] & 0xFF) << 16)
| ((rawData[valueIndex++] & 0xFF) << 8)
| ((rawData[valueIndex++] & 0xFF));
} while (valueIndex < endIndex);
return result;
| public static int | gsmBcdByteToInt(byte b)Decodes a GSM-style BCD byte, returning an int ranging from 0-99.
In GSM land, the least significant BCD digit is stored in the most
significant nibble.
Out-of-range digits are treated as 0 for the sake of the time stamp,
because of this:
TS 23.040 section 9.2.3.11
"if the MS receives a non-integer value in the SCTS, it shall
assume the digit is set to 0 but shall store the entire field
exactly as received"
int ret = 0;
// treat out-of-range BCD values as 0
if ((b & 0xf0) <= 0x90) {
ret = (b >> 4) & 0xf;
}
if ((b & 0x0f) <= 0x09) {
ret += (b & 0xf) * 10;
}
return ret;
| static int | hexCharToInt(char c)
if (c >= '0" && c <= '9") return (c - '0");
if (c >= 'A" && c <= 'F") return (c - 'A" + 10);
if (c >= 'a" && c <= 'f") return (c - 'a" + 10);
throw new RuntimeException ("invalid hex char '" + c + "'");
| public static byte[] | hexStringToBytes(java.lang.String s)Converts a hex String to a byte array.
byte[] ret;
if (s == null) return null;
int sz = s.length();
ret = new byte[sz/2];
for (int i=0 ; i <sz ; i+=2) {
ret[i/2] = (byte) ((hexCharToInt(s.charAt(i)) << 4)
| hexCharToInt(s.charAt(i+1)));
}
return ret;
| private static int[] | mapTo2OrderBitColor(byte[] data, int valueIndex, int length, int[] colorArray, int bits)
if (0 != (8 % bits)) {
Rlog.e(LOG_TAG, "not event number of color");
return mapToNon2OrderBitColor(data, valueIndex, length, colorArray,
bits);
}
int mask = 0x01;
switch (bits) {
case 1:
mask = 0x01;
break;
case 2:
mask = 0x03;
break;
case 4:
mask = 0x0F;
break;
case 8:
mask = 0xFF;
break;
}
int[] resultArray = new int[length];
int resultIndex = 0;
int run = 8 / bits;
while (resultIndex < length) {
byte tempByte = data[valueIndex++];
for (int runIndex = 0; runIndex < run; ++runIndex) {
int offset = run - runIndex - 1;
resultArray[resultIndex++] = colorArray[(tempByte >> (offset * bits))
& mask];
}
}
return resultArray;
| private static int[] | mapToNon2OrderBitColor(byte[] data, int valueIndex, int length, int[] colorArray, int bits)
if (0 == (8 % bits)) {
Rlog.e(LOG_TAG, "not odd number of color");
return mapTo2OrderBitColor(data, valueIndex, length, colorArray,
bits);
}
int[] resultArray = new int[length];
// TODO fix me:
return resultArray;
| public static java.lang.String | networkNameToString(byte[] data, int offset, int length)Convert a TS 24.008 Section 10.5.3.5a Network Name field to a string
"offset" points to "octet 3", the coding scheme byte
empty string returned on decode error
String ret;
if ((data[offset] & 0x80) != 0x80 || length < 1) {
return "";
}
switch ((data[offset] >>> 4) & 0x7) {
case 0:
// SMS character set
int countSeptets;
int unusedBits = data[offset] & 7;
countSeptets = (((length - 1) * 8) - unusedBits) / 7 ;
ret = GsmAlphabet.gsm7BitPackedToString(data, offset + 1, countSeptets);
break;
case 1:
// UCS2
try {
ret = new String(data,
offset + 1, length - 1, "utf-16");
} catch (UnsupportedEncodingException ex) {
ret = "";
Rlog.e(LOG_TAG,"implausible UnsupportedEncodingException", ex);
}
break;
// unsupported encoding
default:
ret = "";
break;
}
// "Add CI"
// "The MS should add the letters for the Country's Initials and
// a separator (e.g. a space) to the text string"
if ((data[offset] & 0x40) != 0) {
// FIXME(mkf) add country initials here
}
return ret;
| public static android.graphics.Bitmap | parseToBnW(byte[] data, int length)Convert a TS 131.102 image instance of code scheme '11' into Bitmap
int valueIndex = 0;
int width = data[valueIndex++] & 0xFF;
int height = data[valueIndex++] & 0xFF;
int numOfPixels = width*height;
int[] pixels = new int[numOfPixels];
int pixelIndex = 0;
int bitIndex = 7;
byte currentByte = 0x00;
while (pixelIndex < numOfPixels) {
// reassign data and index for every byte (8 bits).
if (pixelIndex % 8 == 0) {
currentByte = data[valueIndex++];
bitIndex = 7;
}
pixels[pixelIndex++] = bitToRGB((currentByte >> bitIndex-- ) & 0x01);
}
if (pixelIndex != numOfPixels) {
Rlog.e(LOG_TAG, "parse end and size error");
}
return Bitmap.createBitmap(pixels, width, height, Bitmap.Config.ARGB_8888);
| public static android.graphics.Bitmap | parseToRGB(byte[] data, int length, boolean transparency)a TS 131.102 image instance of code scheme '11' into color Bitmap
int valueIndex = 0;
int width = data[valueIndex++] & 0xFF;
int height = data[valueIndex++] & 0xFF;
int bits = data[valueIndex++] & 0xFF;
int colorNumber = data[valueIndex++] & 0xFF;
int clutOffset = ((data[valueIndex++] & 0xFF) << 8)
| (data[valueIndex++] & 0xFF);
int[] colorIndexArray = getCLUT(data, clutOffset, colorNumber);
if (true == transparency) {
colorIndexArray[colorNumber - 1] = Color.TRANSPARENT;
}
int[] resultArray = null;
if (0 == (8 % bits)) {
resultArray = mapTo2OrderBitColor(data, valueIndex,
(width * height), colorIndexArray, bits);
} else {
resultArray = mapToNon2OrderBitColor(data, valueIndex,
(width * height), colorIndexArray, bits);
}
return Bitmap.createBitmap(resultArray, width, height,
Bitmap.Config.RGB_565);
|
|