mirror of
https://github.com/Martin-P/OpenV2G.git
synced 2024-11-18 12:53:58 +00:00
fix: add support for big integer (see X509SerialNumber in ISO1)
git-svn-id: https://svn.code.sf.net/p/openv2g/code/trunk@112 d9f2db14-54d0-4bde-b00c-16405c910529
This commit is contained in:
parent
5f83aa31eb
commit
5e02082f8b
8 changed files with 379 additions and 17 deletions
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@ -167,7 +167,7 @@ int decodeUnsignedInteger(bitstream_t* stream, exi_integer_t* iv) {
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int decodeUnsignedInteger16(bitstream_t* stream, uint16_t* uint16) {
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unsigned int mShift = 0;
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int errn = 0;
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uint8_t b;
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uint8_t b = 0;
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*uint16 = 0;
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do {
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@ -190,7 +190,7 @@ int decodeUnsignedInteger32(bitstream_t* stream, uint32_t* uint32) {
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/* 0XXXXXXX ... 1XXXXXXX 1XXXXXXX */
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unsigned int mShift = 0;
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int errn = 0;
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uint8_t b;
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uint8_t b = 0;
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*uint32 = 0;
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do {
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@ -263,6 +263,182 @@ int decodeUnsignedInteger64(bitstream_t* stream, uint64_t* uint64) {
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}
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void _reverseArray(uint8_t *array, int number) {
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int x, t;
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number--;
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for(x = 0; x < number; x ++, number --) {
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t = array[x];
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array[x] = array[number];
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array[number] = t;
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}
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}
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/**
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* Decode an arbitrary precision non negative integer using a sequence of
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* octets. The most significant bit of the last octet is set to zero to
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* indicate sequence termination. Only seven bits per octet are used to
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* store the integer's value.
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*/
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int decodeUnsignedIntegerBig(bitstream_t* stream, size_t size, uint8_t* data, size_t* len) {
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int errn = 0;
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uint8_t b = 0;
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unsigned int mShift1 = 0;
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unsigned int mShift2 = 0;
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unsigned int mShift3 = 0;
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unsigned int mShift4 = 0;
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unsigned int nBytesRead = 0;
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unsigned int nBitsAvailable = 0;
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uint64_t uint64_1 = 0;
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uint64_t uint64_2 = 0;
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uint64_t uint64_3 = 0;
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uint64_t uint64_4 = 0;
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*len = 0;
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do {
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errn = decode(stream, &b);
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nBytesRead++;
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nBitsAvailable += 7;
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if(nBytesRead <= 8) {
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uint64_1 += ((uint64_t) (b & 127)) << mShift1;
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mShift1 += 7;
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} else if(nBytesRead <= 16) {
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uint64_2 += ((uint64_t) (b & 127)) << mShift2;
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mShift2 += 7;
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} else if(nBytesRead <= 24) {
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uint64_3 += ((uint64_t) (b & 127)) << mShift3;
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mShift3 += 7;
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} else if(nBytesRead <= 32) {
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uint64_4 += ((uint64_t) (b & 127)) << mShift4;
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mShift4 += 7;
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} else {
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return -1; // too large
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}
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} while (errn == 0 && (b >> 7) == 1);
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// shift actual data into array
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if(uint64_4 != 0) {
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// 7 octets for uint64_1
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 1
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 2
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 3
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 4
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 5
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 6
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 7
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// 7 octets for uint64_2
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 1
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 2
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 3
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 4
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 5
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 6
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 7
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// 7 octets for uint64_3
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 1
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uint64_3 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 2
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uint64_3 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 3
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uint64_3 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 4
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uint64_3 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 5
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uint64_3 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 6
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uint64_3 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_3 & 0xFF); // 7
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// remaining octets of uint64_4
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while (uint64_4 != 0 && errn == 0) {
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data[(*len)++] = uint64_4 & 0xFF;
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uint64_4 >>= 8;
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}
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} else if(uint64_3 != 0) {
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// 7 octets for uint64_1
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 1
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 2
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 3
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 4
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 5
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 6
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 7
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// 7 octets for uint64_2
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 1
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 2
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 3
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 4
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 5
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 6
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uint64_2 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_2 & 0xFF); // 7
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// remaining octets of uint64_3
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while (uint64_3 != 0 && errn == 0) {
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data[(*len)++] = uint64_3 & 0xFF;
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uint64_3 >>= 8;
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}
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} else if(uint64_2 != 0) {
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// 7 octets for uint64_1
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 1
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 2
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 3
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 4
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 5
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 6
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uint64_1 >>= 8;
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data[(*len)++] = (uint8_t)(uint64_1 & 0xFF); // 7
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// remaining octets of uint64_2
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while (uint64_2 != 0 && errn == 0) {
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data[(*len)++] = uint64_2 & 0xFF;
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uint64_2 >>= 8;
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}
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} else if(uint64_1 != 0) {
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while (uint64_1 != 0 && errn == 0) {
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data[(*len)++] = uint64_1 & 0xFF;
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uint64_1 >>= 8;
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}
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}
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_reverseArray(data, *len);
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return errn;
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}
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int decodeInteger(bitstream_t* stream, exi_integer_t* iv) {
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int b;
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int errn = decodeBoolean(stream, &b);
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@ -355,6 +531,28 @@ int decodeInteger64(bitstream_t* stream, int64_t* int64) {
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return errn;
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}
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/**
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* Decode an arbitrary precision integer using a sign bit followed by a
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* sequence of octets. The most significant bit of the last octet is set to
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* zero to indicate sequence termination. Only seven bits per octet are used
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* to store the integer's value.
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*/
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int decodeIntegerBig(bitstream_t* stream, int* negative, size_t size, uint8_t* data, size_t* len) {
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int errn = decodeBoolean(stream, negative);
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if (errn == 0) {
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if (*negative) {
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/* For negative values, the Unsigned Integer holds the
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* magnitude of the value minus 1 */
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} else {
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/* positive */
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}
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errn = decodeUnsignedIntegerBig(stream, size, data, len);
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}
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return errn;
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}
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/**
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* Decode a Float datatype as two consecutive Integers.
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* The first Integer represents the mantissa of the floating point
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@ -554,7 +752,7 @@ int decodeBinary(bitstream_t* stream, exi_bytes_t* bytes) {
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int decodeBytes(bitstream_t* stream, size_t len, uint8_t* data) {
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unsigned int i;
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int errn = 0;
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uint8_t b;
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uint8_t b = 0;
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for (i = 0; i < len && errn == 0; i++) {
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errn = decode(stream, &b);
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@ -163,6 +163,23 @@ int decodeUnsignedIntegerSizeT(bitstream_t* stream, size_t* sizeT);
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*/
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int decodeUnsignedInteger64(bitstream_t* stream, uint64_t* uint64);
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/**
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* \brief Decode unsigned integer
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*
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* Decode an arbitrary precision non negative integer using
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* a sequence of octets. The most significant bit of the last
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* octet is set to zero to indicate sequence termination.
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* Only seven bits per octet are used to store the integer's value.
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*
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* \param stream Input Stream
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* \param size size array
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* \param data data array
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* \param len length array
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* \return Error-Code <> 0
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*
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*/
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int decodeUnsignedIntegerBig(bitstream_t* stream, size_t size, uint8_t* data, size_t* len);
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/**
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* \brief Decode integer
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@ -227,6 +244,23 @@ int decodeInteger32(bitstream_t* stream, int32_t* int32);
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*/
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int decodeInteger64(bitstream_t* stream, int64_t* int64);
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/**
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* \brief Decode integer
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*
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* Decode an arbitrary precision integer using a sign bit
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* followed by a sequence of octets. The most significant bit
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* of the last octet is set to zero to indicate sequence termination.
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* Only seven bits per octet are used to store the integer's value.
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*
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* \param stream Input Stream
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* \param negative negative integer
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* \param size size array
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* \param data data array
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* \param len length array
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* \return Error-Code <> 0
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*
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*/
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int decodeIntegerBig(bitstream_t* stream, int* negative, size_t size, uint8_t* data, size_t* len);
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/**
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* \brief Decode float
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@ -437,14 +437,9 @@ typedef struct {
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exi_name_entry_t localName;
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} exi_qname_t;
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/*TODO Doxygen Documentation */
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/* ==================================== */
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/* URI and LocalName Entries */
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typedef struct exiNameTablePrepopulated {
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@ -205,6 +205,69 @@ int encodeUnsignedInteger64(bitstream_t* stream, uint64_t n) {
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return errn;
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}
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void _shiftRight7(uint8_t* buf, int len) {
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const int shift = 7;
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unsigned char tmp = 0x00, tmp2 = 0x00;
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for (int k = 0; k <= len; k++) {
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if (k == 0) {
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tmp = buf[k];
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buf[k] >>= shift;
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} else {
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tmp2 = buf[k];
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buf[k] >>= shift;
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buf[k] |= ((tmp & 0x7F) << (8 - shift));
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if (k != len) {
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tmp = tmp2;
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}
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}
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}
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}
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/**
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* Encode an arbitrary precision non negative integer using a sequence of
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* octets. The most significant bit of the last octet is set to zero to
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* indicate sequence termination. Only seven bits per octet are used to
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* store the integer's value.
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*/
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int encodeUnsignedIntegerBig(bitstream_t* stream, size_t size, uint8_t* data, size_t len) {
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int errn = 0;
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int i;
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int lenM1 = len - 1;
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const int MAX_BIGINT_ARRAY = 25;
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uint8_t lastEncode = 0;
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uint8_t bytesToShift[MAX_BIGINT_ARRAY]; // MAXIMUM
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size_t bitsToEncode = len * 8;
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if(MAX_BIGINT_ARRAY <= len) {
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return -1;
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}
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/* init */
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for(i=0; i<MAX_BIGINT_ARRAY; i++) {
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bytesToShift[i] = 0;
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}
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/* copy bytes first in same order for shifting */
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for(i=0; i < len; i++) {
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bytesToShift[i] = data[i];
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}
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while(bitsToEncode > 7) {
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lastEncode = bytesToShift[lenM1];
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lastEncode = lastEncode | 128;
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errn = encode(stream, lastEncode);
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_shiftRight7(bytesToShift, len);
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bitsToEncode -= 7;
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}
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if (errn == 0) {
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errn = encode(stream, bytesToShift[lenM1]);
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}
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return errn;
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}
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int encodeInteger(bitstream_t* stream, exi_integer_t* iv) {
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int errn = 0;
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switch (iv->type) {
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@ -314,6 +377,30 @@ int encodeInteger64(bitstream_t* stream, int64_t n) {
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return errn;
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}
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/**
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* Encode an arbitrary precision integer using a sign bit followed by a
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* sequence of octets. The most significant bit of the last octet is set to
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* zero to indicate sequence termination. Only seven bits per octet are used
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* to store the integer's value.
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*/
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int encodeIntegerBig(bitstream_t* stream, int negative, size_t size, uint8_t* data, size_t len) {
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int errn;
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/* signalize sign */
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if (negative) {
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errn = encodeBoolean(stream, 1);
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/* For negative values, the Unsigned Integer holds the
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* magnitude of the value minus 1 */
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/* n = (-n) - 1; */
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} else {
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errn = encodeBoolean(stream, 0);
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}
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if (errn == 0) {
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errn = encodeUnsignedIntegerBig(stream, size, data, len);
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}
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return errn;
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}
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/**
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* The Float datatype representation is two consecutive Integers.
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* The first Integer represents the mantissa of the floating point
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@ -148,6 +148,23 @@ int encodeUnsignedInteger32(bitstream_t* stream, uint32_t n);
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*/
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int encodeUnsignedInteger64(bitstream_t* stream, uint64_t n);
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/**
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* \brief Encode unsigned integer
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*
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* Encode an arbitrary precision non negative integer using
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* a sequence of octets. The most significant bit of the last
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* octet is set to zero to indicate sequence termination.
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* Only seven bits per octet are used to store the integer's value.
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*
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* \param stream Output Stream
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* \param size size array
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* \param data data array
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* \param len length array
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* \return Error-Code <> 0
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*
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*/
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int encodeUnsignedIntegerBig(bitstream_t* stream, size_t size, uint8_t* data, size_t len);
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/**
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* \brief Encode integer
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@ -211,6 +228,23 @@ int encodeInteger32(bitstream_t* stream, int32_t n);
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*/
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int encodeInteger64(bitstream_t* stream, int64_t n);
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/**
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* \brief Encode integer
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*
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* Encode an arbitrary precision integer using a sign boolean
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* followed by a sequence of octets. The most significant bit
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* of the last octet is set to zero to indicate sequence termination.
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* Only seven bits per octet are used to store the integer's value.
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*
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* \param stream Output Stream
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* \param negative negative integer
|
||||
* \param size size array
|
||||
* \param data data array
|
||||
* \param len length array
|
||||
* \return Error-Code <> 0
|
||||
*
|
||||
*/
|
||||
int encodeIntegerBig(bitstream_t* stream, int negative, size_t size, uint8_t* data, size_t len);
|
||||
|
||||
/**
|
||||
* \brief Encode float
|
||||
|
|
|
@ -464,6 +464,7 @@ struct iso1KeyValueType {
|
|||
|
||||
/* Complex type name='http://www.w3.org/2000/09/xmldsig#,X509IssuerSerialType', base type name='anyType', content type='ELEMENT', isAbstract='false', hasTypeId='false', final='0', block='0', particle='("http://www.w3.org/2000/09/xmldsig#":X509IssuerName,"http://www.w3.org/2000/09/xmldsig#":X509SerialNumber)', derivedBy='RESTRICTION'. */
|
||||
#define iso1X509IssuerSerialType_X509IssuerName_CHARACTERS_SIZE 50 + EXTRA_CHAR
|
||||
uint8_t characters[20];
|
||||
struct iso1X509IssuerSerialType {
|
||||
/* element: "http://www.w3.org/2000/09/xmldsig#":X509IssuerName, http://www.w3.org/2001/XMLSchema,string */
|
||||
struct {
|
||||
|
@ -471,7 +472,19 @@ struct iso1X509IssuerSerialType {
|
|||
uint16_t charactersLen;
|
||||
} X509IssuerName ;
|
||||
/* element: "http://www.w3.org/2000/09/xmldsig#":X509SerialNumber, http://www.w3.org/2001/XMLSchema,integer */
|
||||
int64_t X509SerialNumber ;
|
||||
/* int64_t X509SerialNumber; */
|
||||
struct {
|
||||
/** a sign value */
|
||||
int negative;
|
||||
/* container size */
|
||||
size_t size;
|
||||
/** array data container */
|
||||
/* For negative values, the Unsigned Integer holds the
|
||||
* magnitude of the value minus 1 */
|
||||
uint8_t* data;
|
||||
/** array length (len <= size) */
|
||||
size_t len;
|
||||
} X509SerialNumber;
|
||||
};
|
||||
|
||||
typedef enum {
|
||||
|
|
|
@ -8060,7 +8060,7 @@ static int decode_iso1X509IssuerSerialType(bitstream_t* stream, struct iso1X509I
|
|||
errn = decodeNBitUnsignedInteger(stream, 1, &eventCode);
|
||||
if(errn == 0) {
|
||||
if(eventCode == 0) {
|
||||
errn = decodeInteger64(stream, &iso1X509IssuerSerialType->X509SerialNumber);
|
||||
errn = decodeIntegerBig(stream, &iso1X509IssuerSerialType->X509SerialNumber.negative, iso1X509IssuerSerialType->X509SerialNumber.size, iso1X509IssuerSerialType->X509SerialNumber.data, &iso1X509IssuerSerialType->X509SerialNumber.len);
|
||||
} else {
|
||||
/* Second level event (e.g., xsi:type, xsi:nil, ...) */
|
||||
errn = EXI_UNSUPPORTED_EVENT_CODE_CHARACTERISTICS;
|
||||
|
|
|
@ -5814,7 +5814,8 @@ static int encode_iso1X509IssuerSerialType(bitstream_t* stream, struct iso1X509I
|
|||
/* First(xsi:type)StartTag[CHARACTERS[INTEGER]] */
|
||||
errn = encodeNBitUnsignedInteger(stream, 1, 0);
|
||||
if(errn == 0) {
|
||||
errn = encodeInteger64(stream, iso1X509IssuerSerialType->X509SerialNumber);
|
||||
/* errn = encodeInteger64(stream, iso1X509IssuerSerialType->X509SerialNumber); */
|
||||
errn = encodeIntegerBig(stream, iso1X509IssuerSerialType->X509SerialNumber.negative, iso1X509IssuerSerialType->X509SerialNumber.size, iso1X509IssuerSerialType->X509SerialNumber.data, iso1X509IssuerSerialType->X509SerialNumber.len);
|
||||
/* valid EE */
|
||||
errn = encodeNBitUnsignedInteger(stream, 1, 0);
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue