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authorVasudev Kamath <vasudev@copyninja.info>2016-10-23 21:09:40 +0530
committerVasudev Kamath <vasudev@copyninja.info>2016-10-23 21:09:40 +0530
commiteda4b75b1cff83336e87da90efca9fd6b4ced2c7 (patch)
tree491317ce50b5d19bc434ccc4b448d1bc70520177 /louloulibs/utils/sha1.cpp
parent716c40e4ec45f8d538695225f4f06d541d959084 (diff)
parent0f14fe83ef53b08bd8fa09670c82f4996c329bdc (diff)
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New upstream version 3.0upstream/3.0
Diffstat (limited to 'louloulibs/utils/sha1.cpp')
-rw-r--r--louloulibs/utils/sha1.cpp154
1 files changed, 154 insertions, 0 deletions
diff --git a/louloulibs/utils/sha1.cpp b/louloulibs/utils/sha1.cpp
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+++ b/louloulibs/utils/sha1.cpp
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+/* This code is public-domain - it is based on libcrypt
+ * placed in the public domain by Wei Dai and other contributors.
+ */
+
+#include "sha1.hpp"
+
+#define SHA1_K0 0x5a827999
+#define SHA1_K20 0x6ed9eba1
+#define SHA1_K40 0x8f1bbcdc
+#define SHA1_K60 0xca62c1d6
+
+const uint8_t sha1InitState[] = {
+ 0x01,0x23,0x45,0x67, // H0
+ 0x89,0xab,0xcd,0xef, // H1
+ 0xfe,0xdc,0xba,0x98, // H2
+ 0x76,0x54,0x32,0x10, // H3
+ 0xf0,0xe1,0xd2,0xc3 // H4
+};
+
+void sha1_init(sha1nfo *s) {
+ memcpy(s->state.b,sha1InitState,HASH_LENGTH);
+ s->byteCount = 0;
+ s->bufferOffset = 0;
+}
+
+uint32_t sha1_rol32(uint32_t number, uint8_t bits) {
+ return ((number << bits) | (number >> (32-bits)));
+}
+
+void sha1_hashBlock(sha1nfo *s) {
+ uint8_t i;
+ uint32_t a,b,c,d,e,t;
+
+ a=s->state.w[0];
+ b=s->state.w[1];
+ c=s->state.w[2];
+ d=s->state.w[3];
+ e=s->state.w[4];
+ for (i=0; i<80; i++) {
+ if (i>=16) {
+ t = s->buffer.w[(i+13)&15] ^ s->buffer.w[(i+8)&15] ^ s->buffer.w[(i+2)&15] ^ s->buffer.w[i&15];
+ s->buffer.w[i&15] = sha1_rol32(t,1);
+ }
+ if (i<20) {
+ t = (d ^ (b & (c ^ d))) + SHA1_K0;
+ } else if (i<40) {
+ t = (b ^ c ^ d) + SHA1_K20;
+ } else if (i<60) {
+ t = ((b & c) | (d & (b | c))) + SHA1_K40;
+ } else {
+ t = (b ^ c ^ d) + SHA1_K60;
+ }
+ t+=sha1_rol32(a,5) + e + s->buffer.w[i&15];
+ e=d;
+ d=c;
+ c=sha1_rol32(b,30);
+ b=a;
+ a=t;
+ }
+ s->state.w[0] += a;
+ s->state.w[1] += b;
+ s->state.w[2] += c;
+ s->state.w[3] += d;
+ s->state.w[4] += e;
+}
+
+void sha1_addUncounted(sha1nfo *s, uint8_t data) {
+ s->buffer.b[s->bufferOffset ^ 3] = data;
+ s->bufferOffset++;
+ if (s->bufferOffset == BLOCK_LENGTH) {
+ sha1_hashBlock(s);
+ s->bufferOffset = 0;
+ }
+}
+
+void sha1_writebyte(sha1nfo *s, uint8_t data) {
+ ++s->byteCount;
+ sha1_addUncounted(s, data);
+}
+
+void sha1_write(sha1nfo *s, const char *data, size_t len) {
+ for (;len--;) sha1_writebyte(s, (uint8_t) *data++);
+}
+
+void sha1_pad(sha1nfo *s) {
+ // Implement SHA-1 padding (fips180-2 §5.1.1)
+
+ // Pad with 0x80 followed by 0x00 until the end of the block
+ sha1_addUncounted(s, 0x80);
+ while (s->bufferOffset != 56) sha1_addUncounted(s, 0x00);
+
+ // Append length in the last 8 bytes
+ sha1_addUncounted(s, 0); // We're only using 32 bit lengths
+ sha1_addUncounted(s, 0); // But SHA-1 supports 64 bit lengths
+ sha1_addUncounted(s, 0); // So zero pad the top bits
+ sha1_addUncounted(s, s->byteCount >> 29); // Shifting to multiply by 8
+ sha1_addUncounted(s, s->byteCount >> 21); // as SHA-1 supports bitstreams as well as
+ sha1_addUncounted(s, s->byteCount >> 13); // byte.
+ sha1_addUncounted(s, s->byteCount >> 5);
+ sha1_addUncounted(s, s->byteCount << 3);
+}
+
+uint8_t* sha1_result(sha1nfo *s) {
+ int i;
+ // Pad to complete the last block
+ sha1_pad(s);
+
+ // Swap byte order back
+ for (i=0; i<5; i++) {
+ uint32_t a,b;
+ a=s->state.w[i];
+ b=a<<24;
+ b|=(a<<8) & 0x00ff0000;
+ b|=(a>>8) & 0x0000ff00;
+ b|=a>>24;
+ s->state.w[i]=b;
+ }
+
+ // Return pointer to hash (20 characters)
+ return s->state.b;
+}
+
+#define HMAC_IPAD 0x36
+#define HMAC_OPAD 0x5c
+
+void sha1_initHmac(sha1nfo *s, const uint8_t* key, int keyLength) {
+ uint8_t i;
+ memset(s->keyBuffer, 0, BLOCK_LENGTH);
+ if (keyLength > BLOCK_LENGTH) {
+ // Hash long keys
+ sha1_init(s);
+ for (;keyLength--;) sha1_writebyte(s, *key++);
+ memcpy(s->keyBuffer, sha1_result(s), HASH_LENGTH);
+ } else {
+ // Block length keys are used as is
+ memcpy(s->keyBuffer, key, keyLength);
+ }
+ // Start inner hash
+ sha1_init(s);
+ for (i=0; i<BLOCK_LENGTH; i++) {
+ sha1_writebyte(s, s->keyBuffer[i] ^ HMAC_IPAD);
+ }
+}
+
+uint8_t* sha1_resultHmac(sha1nfo *s) {
+ uint8_t i;
+ // Complete inner hash
+ memcpy(s->innerHash,sha1_result(s),HASH_LENGTH);
+ // Calculate outer hash
+ sha1_init(s);
+ for (i=0; i<BLOCK_LENGTH; i++) sha1_writebyte(s, s->keyBuffer[i] ^ HMAC_OPAD);
+ for (i=0; i<HASH_LENGTH; i++) sha1_writebyte(s, s->innerHash[i]);
+ return sha1_result(s);
+}