mirror of
https://github.com/status-im/status-go.git
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eeca435064
Update vendor Integrate rendezvous into status node Add a test with failover using rendezvous Use multiple servers in client Use discovery V5 by default and test that node can be started with rendezvous discovet Fix linter Update rendezvous client to one with instrumented stream Address feedback Fix test with updated topic limits Apply several suggestions Change log to debug for request errors because we continue execution Remove web3js after rebase Update rendezvous package
204 lines
4.1 KiB
Go
204 lines
4.1 KiB
Go
package murmur3
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import (
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//"encoding/binary"
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"hash"
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"unsafe"
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)
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const (
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c1_128 = 0x87c37b91114253d5
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c2_128 = 0x4cf5ad432745937f
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)
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// Make sure interfaces are correctly implemented.
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var (
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_ hash.Hash = new(digest128)
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_ Hash128 = new(digest128)
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_ bmixer = new(digest128)
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)
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// Hash128 represents a 128-bit hasher
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// Hack: the standard api doesn't define any Hash128 interface.
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type Hash128 interface {
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hash.Hash
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Sum128() (uint64, uint64)
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}
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// digest128 represents a partial evaluation of a 128 bites hash.
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type digest128 struct {
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digest
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h1 uint64 // Unfinalized running hash part 1.
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h2 uint64 // Unfinalized running hash part 2.
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}
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// New128 returns a 128-bit hasher
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func New128() Hash128 { return New128WithSeed(0) }
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// New128WithSeed returns a 128-bit hasher set with explicit seed value
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func New128WithSeed(seed uint32) Hash128 {
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d := new(digest128)
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d.seed = seed
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d.bmixer = d
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d.Reset()
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return d
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}
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func (d *digest128) Size() int { return 16 }
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func (d *digest128) reset() { d.h1, d.h2 = uint64(d.seed), uint64(d.seed) }
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func (d *digest128) Sum(b []byte) []byte {
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h1, h2 := d.Sum128()
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return append(b,
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byte(h1>>56), byte(h1>>48), byte(h1>>40), byte(h1>>32),
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byte(h1>>24), byte(h1>>16), byte(h1>>8), byte(h1),
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byte(h2>>56), byte(h2>>48), byte(h2>>40), byte(h2>>32),
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byte(h2>>24), byte(h2>>16), byte(h2>>8), byte(h2),
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)
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}
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func (d *digest128) bmix(p []byte) (tail []byte) {
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h1, h2 := d.h1, d.h2
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nblocks := len(p) / 16
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for i := 0; i < nblocks; i++ {
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t := (*[2]uint64)(unsafe.Pointer(&p[i*16]))
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k1, k2 := t[0], t[1]
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k1 *= c1_128
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k1 = (k1 << 31) | (k1 >> 33) // rotl64(k1, 31)
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k1 *= c2_128
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h1 ^= k1
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h1 = (h1 << 27) | (h1 >> 37) // rotl64(h1, 27)
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h1 += h2
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h1 = h1*5 + 0x52dce729
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k2 *= c2_128
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k2 = (k2 << 33) | (k2 >> 31) // rotl64(k2, 33)
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k2 *= c1_128
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h2 ^= k2
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h2 = (h2 << 31) | (h2 >> 33) // rotl64(h2, 31)
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h2 += h1
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h2 = h2*5 + 0x38495ab5
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}
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d.h1, d.h2 = h1, h2
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return p[nblocks*d.Size():]
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}
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func (d *digest128) Sum128() (h1, h2 uint64) {
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h1, h2 = d.h1, d.h2
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var k1, k2 uint64
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switch len(d.tail) & 15 {
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case 15:
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k2 ^= uint64(d.tail[14]) << 48
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fallthrough
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case 14:
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k2 ^= uint64(d.tail[13]) << 40
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fallthrough
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case 13:
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k2 ^= uint64(d.tail[12]) << 32
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fallthrough
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case 12:
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k2 ^= uint64(d.tail[11]) << 24
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fallthrough
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case 11:
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k2 ^= uint64(d.tail[10]) << 16
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fallthrough
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case 10:
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k2 ^= uint64(d.tail[9]) << 8
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fallthrough
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case 9:
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k2 ^= uint64(d.tail[8]) << 0
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k2 *= c2_128
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k2 = (k2 << 33) | (k2 >> 31) // rotl64(k2, 33)
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k2 *= c1_128
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h2 ^= k2
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fallthrough
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case 8:
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k1 ^= uint64(d.tail[7]) << 56
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fallthrough
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case 7:
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k1 ^= uint64(d.tail[6]) << 48
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fallthrough
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case 6:
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k1 ^= uint64(d.tail[5]) << 40
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fallthrough
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case 5:
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k1 ^= uint64(d.tail[4]) << 32
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fallthrough
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case 4:
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k1 ^= uint64(d.tail[3]) << 24
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fallthrough
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case 3:
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k1 ^= uint64(d.tail[2]) << 16
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fallthrough
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case 2:
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k1 ^= uint64(d.tail[1]) << 8
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fallthrough
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case 1:
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k1 ^= uint64(d.tail[0]) << 0
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k1 *= c1_128
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k1 = (k1 << 31) | (k1 >> 33) // rotl64(k1, 31)
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k1 *= c2_128
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h1 ^= k1
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}
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h1 ^= uint64(d.clen)
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h2 ^= uint64(d.clen)
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h1 += h2
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h2 += h1
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h1 = fmix64(h1)
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h2 = fmix64(h2)
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h1 += h2
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h2 += h1
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return h1, h2
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}
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func fmix64(k uint64) uint64 {
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k ^= k >> 33
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k *= 0xff51afd7ed558ccd
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k ^= k >> 33
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k *= 0xc4ceb9fe1a85ec53
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k ^= k >> 33
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return k
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}
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/*
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func rotl64(x uint64, r byte) uint64 {
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return (x << r) | (x >> (64 - r))
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}
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*/
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// Sum128 returns the MurmurHash3 sum of data. It is equivalent to the
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// following sequence (without the extra burden and the extra allocation):
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// hasher := New128()
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// hasher.Write(data)
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// return hasher.Sum128()
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func Sum128(data []byte) (h1 uint64, h2 uint64) { return Sum128WithSeed(data, 0) }
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// Sum128WithSeed returns the MurmurHash3 sum of data. It is equivalent to the
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// following sequence (without the extra burden and the extra allocation):
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// hasher := New128WithSeed(seed)
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// hasher.Write(data)
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// return hasher.Sum128()
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func Sum128WithSeed(data []byte, seed uint32) (h1 uint64, h2 uint64) {
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d := &digest128{h1: uint64(seed), h2: uint64(seed)}
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d.seed = seed
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d.tail = d.bmix(data)
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d.clen = len(data)
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return d.Sum128()
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}
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