crypto.aes: remove extraneous casts
parent
a5ea7e4304
commit
896f978b94
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@ -64,10 +64,10 @@ fn encrypt_block_generic(xk []u32, dst, src []byte) {
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mut t2 := u32(0)
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mut t3 := u32(0)
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for r := 0; r < nr; r++ {
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t0 = xk[u32(k+0)] ^ u32(Te0[byte(s0>>u32(24))]) ^ u32(Te1[byte(s1>>u32(16))]) ^ u32(Te2[byte(s2>>u32(8))]) ^ u32(Te3[byte(s3)])
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t1 = xk[u32(k+1)] ^ u32(Te0[byte(s1>>u32(24))]) ^ u32(Te1[byte(s2>>u32(16))]) ^ u32(Te2[byte(s3>>u32(8))]) ^ u32(Te3[byte(s0)])
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t2 = xk[u32(k+2)] ^ u32(Te0[byte(s2>>u32(24))]) ^ u32(Te1[byte(s3>>u32(16))]) ^ u32(Te2[byte(s0>>u32(8))]) ^ u32(Te3[byte(s1)])
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t3 = xk[u32(k+3)] ^ u32(Te0[byte(s3>>u32(24))]) ^ u32(Te1[byte(s0>>u32(16))]) ^ u32(Te2[byte(s1>>u32(8))]) ^ u32(Te3[byte(s2)])
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t0 = xk[k+0] ^ Te0[byte(s0>>24)] ^ Te1[byte(s1>>16)] ^ Te2[byte(s2>>8)] ^ u32(Te3[byte(s3)])
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t1 = xk[k+1] ^ Te0[byte(s1>>24)] ^ Te1[byte(s2>>16)] ^ Te2[byte(s3>>8)] ^ u32(Te3[byte(s0)])
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t2 = xk[k+2] ^ Te0[byte(s2>>24)] ^ Te1[byte(s3>>16)] ^ Te2[byte(s0>>8)] ^ u32(Te3[byte(s1)])
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t3 = xk[k+3] ^ Te0[byte(s3>>24)] ^ Te1[byte(s0>>16)] ^ Te2[byte(s1>>8)] ^ u32(Te3[byte(s2)])
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k += 4
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s0 = t0
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s1 = t1
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@ -76,10 +76,10 @@ fn encrypt_block_generic(xk []u32, dst, src []byte) {
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}
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// Last round uses s-box directly and XORs to produce output.
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s0 = u32(u32(SBox0[t0>>u32(24)])<<u32(24)) | u32(u32(SBox0[u32(t1>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox0[u32(t2>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox0[t3&u32(0xff)])
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s1 = u32(u32(SBox0[t1>>u32(24)])<<u32(24)) | u32(u32(SBox0[u32(t2>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox0[u32(t3>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox0[t0&u32(0xff)])
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s2 = u32(u32(SBox0[t2>>u32(24)])<<u32(24)) | u32(u32(SBox0[u32(t3>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox0[u32(t0>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox0[t1&u32(0xff)])
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s3 = u32(u32(SBox0[t3>>u32(24)])<<u32(24)) | u32(u32(SBox0[u32(t0>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox0[u32(t1>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox0[t2&u32(0xff)])
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s0 = SBox0[t0>>24]<<24 | SBox0[t1>>16&0xff]<<16 | u32(SBox0[t2>>8&0xff]<<8) | SBox0[t3&u32(0xff)]
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s1 = SBox0[t1>>24]<<24 | SBox0[t2>>16&0xff]<<16 | u32(SBox0[t3>>8&0xff]<<8) | SBox0[t0&u32(0xff)]
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s2 = SBox0[t2>>24]<<24 | SBox0[t3>>16&0xff]<<16 | u32(SBox0[t0>>8&0xff]<<8) | SBox0[t1&u32(0xff)]
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s3 = SBox0[t3>>24]<<24 | SBox0[t0>>16&0xff]<<16 | u32(SBox0[t1>>8&0xff]<<8) | SBox0[t2&u32(0xff)]
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s0 ^= xk[k+0]
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s1 ^= xk[k+1]
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@ -116,12 +116,10 @@ fn decrypt_block_generic(xk []u32, dst, src []byte) {
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mut t2 := u32(0)
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mut t3 := u32(0)
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for r := 0; r < nr; r++ {
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// println('### 1')
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t0 = xk[u32(k+0)] ^ u32(Td0[byte(s0>>u32(24))]) ^ u32(Td1[byte(s3>>u32(16))]) ^ u32(Td2[byte(s2>>u32(8))]) ^ u32(Td3[byte(s1)])
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t1 = xk[u32(k+1)] ^ u32(Td0[byte(s1>>u32(24))]) ^ u32(Td1[byte(s0>>u32(16))]) ^ u32(Td2[byte(s3>>u32(8))]) ^ u32(Td3[byte(s2)])
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t2 = xk[u32(k+2)] ^ u32(Td0[byte(s2>>u32(24))]) ^ u32(Td1[byte(s1>>u32(16))]) ^ u32(Td2[byte(s0>>u32(8))]) ^ u32(Td3[byte(s3)])
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t3 = xk[u32(k+3)] ^ u32(Td0[byte(s3>>u32(24))]) ^ u32(Td1[byte(s2>>u32(16))]) ^ u32(Td2[byte(s1>>u32(8))]) ^ u32(Td3[byte(s0)])
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// println('### 1 end')
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t0 = xk[k+0] ^ Td0[byte(s0>>24)] ^ Td1[byte(s3>>16)] ^ Td2[byte(s2>>8)] ^ u32(Td3[byte(s1)])
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t1 = xk[k+1] ^ Td0[byte(s1>>24)] ^ Td1[byte(s0>>16)] ^ Td2[byte(s3>>8)] ^ u32(Td3[byte(s2)])
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t2 = xk[k+2] ^ Td0[byte(s2>>24)] ^ Td1[byte(s1>>16)] ^ Td2[byte(s0>>8)] ^ u32(Td3[byte(s3)])
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t3 = xk[k+3] ^ Td0[byte(s3>>24)] ^ Td1[byte(s2>>16)] ^ Td2[byte(s1>>8)] ^ u32(Td3[byte(s0)])
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k += 4
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s0 = t0
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s1 = t1
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@ -130,10 +128,10 @@ fn decrypt_block_generic(xk []u32, dst, src []byte) {
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}
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// Last round uses s-box directly and XORs to produce output.
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s0 = u32(u32(SBox1[t0>>u32(24)])<<u32(24)) | u32(u32(SBox1[u32(t3>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox1[u32(t2>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox1[t1&u32(0xff)])
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s1 = u32(u32(SBox1[t1>>u32(24)])<<u32(24)) | u32(u32(SBox1[u32(t0>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox1[u32(t3>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox1[t2&u32(0xff)])
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s2 = u32(u32(SBox1[t2>>u32(24)])<<u32(24)) | u32(u32(SBox1[u32(t1>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox1[u32(t0>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox1[t3&u32(0xff)])
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s3 = u32(u32(SBox1[t3>>u32(24)])<<u32(24)) | u32(u32(SBox1[u32(t2>>u32(16))&u32(0xff)])<<u32(16)) | u32(u32(SBox1[u32(t1>>u32(8))&u32(0xff)])<<u32(8)) | u32(SBox1[t0&u32(0xff)])
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s0 = u32(SBox1[t0>>24])<<24 | u32(SBox1[t3>>16&0xff])<<16 | u32(SBox1[t2>>8&0xff]<<8) | u32(SBox1[t1&u32(0xff)])
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s1 = u32(SBox1[t1>>24])<<24 | u32(SBox1[t0>>16&0xff])<<16 | u32(SBox1[t3>>8&0xff]<<8) | u32(SBox1[t2&u32(0xff)])
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s2 = u32(SBox1[t2>>24])<<24 | u32(SBox1[t1>>16&0xff])<<16 | u32(SBox1[t0>>8&0xff]<<8) | u32(SBox1[t3&u32(0xff)])
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s3 = u32(SBox1[t3>>24])<<24 | u32(SBox1[t2>>16&0xff])<<16 | u32(SBox1[t1>>8&0xff]<<8) | u32(SBox1[t0&u32(0xff)])
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s0 ^= xk[k+0]
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s1 ^= xk[k+1]
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@ -149,14 +147,14 @@ fn decrypt_block_generic(xk []u32, dst, src []byte) {
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// Apply SBox0 to each byte in w.
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fn subw(w u32) u32 {
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return u32(u32(SBox0[w>>u32(24)])<<u32(24)) |
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u32(u32(SBox0[u32(w>>u32(16))&u32(0xff)])<<u32(16)) |
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u32(u32(SBox0[u32(w>>u32(8))&u32(0xff)])<<u32(8)) |
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u32(SBox0[w&u32(0xff)])
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return u32(SBox0[w>>24])<<24 |
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u32(SBox0[w>>16&0xff]<<16) |
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u32(SBox0[w>>8&0xff]<<8) |
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u32(SBox0[w&u32(0xff)])
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}
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// Rotate
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fn rotw(w u32) u32 { return u32(w<<u32(8)) | u32(w>>u32(24)) }
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fn rotw(w u32) u32 { return u32(w<<8) | u32(w>>24) }
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// Key expansion algorithm. See FIPS-197, Figure 11.
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// Their rcon[i] is our powx[i-1] << 24.
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@ -174,7 +172,7 @@ fn expand_key_generic(key []byte, enc mut []u32, dec mut []u32) {
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for i < enc.len {
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mut t := enc[i-1]
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if i%nk == 0 {
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t = subw(rotw(t)) ^ u32(u32(PowX[i/nk-1]) << u32(24))
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t = subw(rotw(t)) ^ u32(PowX[i/nk-1]) << 24
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} else if nk > 6 && i%nk == 4 {
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t = subw(t)
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}
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@ -194,7 +192,7 @@ fn expand_key_generic(key []byte, enc mut []u32, dec mut []u32) {
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for j := 0; j < 4; j++ {
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mut x := enc[ei+j]
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if i > 0 && i+4 < n {
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x = u32(Td0[SBox0[u32(x>>u32(24))]]) ^ u32(Td1[SBox0[u32(x>>u32(16))&u32(0xff)]]) ^ u32(Td2[SBox0[u32(x>>u32(8))&u32(0xff)]]) ^ u32(Td3[SBox0[x&u32(0xff)]])
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x = Td0[SBox0[x>>24]] ^ Td1[SBox0[x>>16&0xff]] ^ Td2[SBox0[x>>8&0xff]] ^ Td3[SBox0[x&u32(0xff)]]
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}
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dec[i+j] = x
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}
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