struct Config {
target_hash: array<u32, 8>,
password_len: u32,
num_passwords: u32,
found_flag: atomic<u32>,
found_password: array<u32, 4>,
mask: array<u32, 16>,
mask_len: u32,
target_hash_extra: array<u32, 8>,
salt: array<u32, 16>,
salt_len: u32,
range_start: u32,
range_end: u32,
num_targets: u32,
}
struct Progress {
count: atomic<u32>,
}
struct TargetEntry {
hash: array<u32, 8>,
hash_extra: array<u32, 8>,
}
struct WordEntry {
chars: array<u32, 5>,
len: u32,
}
@group(0) @binding(0) var<storage, read_write> config: Config;
@group(0) @binding(1) var<storage, read_write> progress: Progress;
@group(0) @binding(2) var<storage, read> word_buf: array<WordEntry>;
@group(0) @binding(3) var<storage, read> targets: array<TargetEntry>;
fn left_rotate(x: u32, n: u32) -> u32 { return (x << n) | (x >> (32u - n)); }
fn sha1_block(state: ptr<function, array<u32, 5>>, block: array<u32, 16>) {
var w: array<u32, 80>;
for (var i = 0u; i < 16u; i++) { w[i] = block[i]; }
for (var i = 16u; i < 80u; i++) { w[i] = left_rotate(w[i - 3u] ^ w[i - 8u] ^ w[i - 14u] ^ w[i - 16u], 1u); }
var a = (*state)[0u]; var b = (*state)[1u]; var c = (*state)[2u]; var d = (*state)[3u]; var e = (*state)[4u];
for (var i = 0u; i < 80u; i++) {
var f: u32; var k: u32;
if (i < 20u) { f = (b & c) | ((~b) & d); k = 0x5A827999u; }
else if (i < 40u) { f = b ^ c ^ d; k = 0x6ED9EBA1u; }
else if (i < 60u) { f = (b & c) | (b & d) | (c & d); k = 0x8F1BBCDCu; }
else { f = b ^ c ^ d; k = 0xCA62C1D6u; }
let tmp = left_rotate(a, 5u) + f + e + k + w[i];
e = d; d = c; c = left_rotate(b, 30u); b = a; a = tmp;
}
(*state)[0u] += a; (*state)[1u] += b; (*state)[2u] += c; (*state)[3u] += d; (*state)[4u] += e;
}
fn set_byte(buf: ptr<function, array<u32, 64>>, pos: u32, val: u32) {
let w = pos / 4u;
let s = (pos % 4u) * 8u;
(*buf)[w] |= (val & 0xFFu) << s;
}
fn sha1_bytes(data: array<u32, 64>, len: u32) -> array<u32, 8> {
var state: array<u32, 5> = array<u32, 5>(
0x67452301u, 0xEFCDAB89u, 0x98BADCFEu, 0x10325476u, 0xC3D2E1F0u,
);
var offset = 0u;
while (offset + 64u <= len) {
var block: array<u32, 16>;
for (var i = 0u; i < 16u; i++) { block[i] = 0u; }
for (var i = 0u; i < 64u; i++) {
let val = (data[(offset + i) / 4u] >> (((offset + i) % 4u) * 8u)) & 0xFFu;
let w = i / 4u;
let s = (3u - (i % 4u)) * 8u;
block[w] |= val << s;
}
sha1_block(&state, block);
offset += 64u;
}
var block: array<u32, 16>;
for (var i = 0u; i < 16u; i++) { block[i] = 0u; }
let remaining = len - offset;
for (var i = 0u; i < remaining; i++) {
let val = (data[(offset + i) / 4u] >> (((offset + i) % 4u) * 8u)) & 0xFFu;
let w = i / 4u;
let s = (3u - (i % 4u)) * 8u;
block[w] |= val << s;
}
let pad_pos = remaining;
let pad_w = pad_pos / 4u;
let pad_s = (3u - (pad_pos % 4u)) * 8u;
block[pad_w] |= 0x80u << pad_s;
if (remaining >= 56u) {
sha1_block(&state, block);
for (var i = 0u; i < 16u; i++) { block[i] = 0u; }
}
block[15u] = len * 8u;
sha1_block(&state, block);
return array<u32, 8>(state[0u], state[1u], state[2u], state[3u], state[4u], 0u, 0u, 0u);
}
fn hmac_sha1(pwd: array<u32, 5>, len: u32) -> array<u32, 8> {
var msg: array<u32, 64>;
for (var i = 0u; i < 64u; i++) { msg[i] = 0u; }
var pos = 0u;
// ipad_xor_key (64 bytes)
for (var j = 0u; j < 64u; j++) {
let key_byte = select(0x36u, pwd[len - 1u - (j % len)] & 0xFFu, j < len);
set_byte(&msg, pos + j, key_byte ^ 0x36u);
}
pos += 64u;
// salt
for (var i = 0u; i < config.salt_len; i++) {
set_byte(&msg, pos + i, config.salt[config.salt_len - 1u - i] & 0xFFu);
}
pos += config.salt_len;
let inner = sha1_bytes(msg, pos);
// opad_xor_key + inner_hash
for (var i = 0u; i < 64u; i++) { msg[i] = 0u; }
pos = 0u;
for (var j = 0u; j < 64u; j++) {
let key_byte = select(0x5Cu, pwd[len - 1u - (j % len)] & 0xFFu, j < len);
set_byte(&msg, pos + j, key_byte ^ 0x5Cu);
}
pos += 64u;
// inner hash bytes (5 big-endian u32 words)
for (var k = 0u; k < 5u; k++) {
let w = inner[k];
set_byte(&msg, pos + k * 4u + 0u, (w >> 24u) & 0xFFu);
set_byte(&msg, pos + k * 4u + 1u, (w >> 16u) & 0xFFu);
set_byte(&msg, pos + k * 4u + 2u, (w >> 8u) & 0xFFu);
set_byte(&msg, pos + k * 4u + 3u, w & 0xFFu);
}
pos += 20u;
return sha1_bytes(msg, pos);
}
const MAX_DISPATCH_X: u32 = 65535u;
@compute @workgroup_size(128)
fn main(@builtin(global_invocation_id) id: vec3<u32>) {
let index = id.y * MAX_DISPATCH_X * 128u + id.x;
if (index >= config.range_end) { return; }
if (atomicLoad(&config.found_flag) != 0u) { atomicAdd(&progress.count, 1u); return; } let entry = word_buf[index];
let hash = hmac_sha1(entry.chars, entry.len);
var match_found = false;
for (var t = 0u; t < config.num_targets; t++) {
var t_match = true;
for (var i = 0u; i < 5u; i++) { if (hash[i] != targets[t].hash[i]) { t_match = false; } }
if (t_match) { match_found = true; }
}
if (match_found) {
let prev = atomicCompareExchangeWeak(&config.found_flag, 0u, 1u);
if (prev.old_value == 0u) { config.found_password[0] = index; }
}
atomicAdd(&progress.count, 1u);
}