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crypto.keccak.State: add checks to prevent insecure transitions (#22020)
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* crypto.keccak.State: don't unconditionally permute after a squeeze() Now, squeeze() behaves like absorb() Namely, squeeze(x[0..t]); squeeze(x[t..n)); with t <= n becomes equivalent to squeeze(x[0..n]). * keccak: in debug mode, track transitions to prevent insecure ones. Fixes #22019
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@ -4,6 +4,7 @@ const assert = std.debug.assert;
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const math = std.math;
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const math = std.math;
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const mem = std.mem;
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const mem = std.mem;
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const native_endian = builtin.cpu.arch.endian();
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const native_endian = builtin.cpu.arch.endian();
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const mode = @import("builtin").mode;
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/// The Keccak-f permutation.
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/// The Keccak-f permutation.
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pub fn KeccakF(comptime f: u11) type {
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pub fn KeccakF(comptime f: u11) type {
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@ -199,6 +200,46 @@ pub fn State(comptime f: u11, comptime capacity: u11, comptime rounds: u5) type
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comptime assert(f >= 200 and f <= 1600 and f % 200 == 0); // invalid state size
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comptime assert(f >= 200 and f <= 1600 and f % 200 == 0); // invalid state size
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comptime assert(capacity < f and capacity % 8 == 0); // invalid capacity size
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comptime assert(capacity < f and capacity % 8 == 0); // invalid capacity size
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// In debug mode, track transitions to prevent insecure ones.
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const Op = enum { uninitialized, initialized, updated, absorb, squeeze };
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const TransitionTracker = if (mode == .Debug) struct {
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op: Op = .uninitialized,
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fn to(tracker: *@This(), next_op: Op) void {
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switch (next_op) {
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.updated => {
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switch (tracker.op) {
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.uninitialized => @panic("cannot permute before initializing"),
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else => {},
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}
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},
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.absorb => {
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switch (tracker.op) {
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.squeeze => @panic("cannot absorb right after squeezing"),
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else => {},
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}
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},
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.squeeze => {
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switch (tracker.op) {
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.uninitialized => @panic("cannot squeeze before initializing"),
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.initialized => @panic("cannot squeeze right after initializing"),
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.absorb => @panic("cannot squeeze right after absorbing"),
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else => {},
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}
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},
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.uninitialized => @panic("cannot transition to uninitialized"),
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.initialized => {},
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}
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tracker.op = next_op;
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}
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} else struct {
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// No-op in non-debug modes.
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inline fn to(tracker: *@This(), next_op: Op) void {
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_ = tracker; // no-op
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_ = next_op; // no-op
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}
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};
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return struct {
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return struct {
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const Self = @This();
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const Self = @This();
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@ -215,67 +256,108 @@ pub fn State(comptime f: u11, comptime capacity: u11, comptime rounds: u5) type
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st: KeccakF(f) = .{},
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st: KeccakF(f) = .{},
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transition: TransitionTracker = .{},
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/// Absorb a slice of bytes into the sponge.
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/// Absorb a slice of bytes into the sponge.
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pub fn absorb(self: *Self, bytes_: []const u8) void {
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pub fn absorb(self: *Self, bytes: []const u8) void {
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var bytes = bytes_;
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self.transition.to(.absorb);
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var i: usize = 0;
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if (self.offset > 0) {
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if (self.offset > 0) {
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const left = @min(rate - self.offset, bytes.len);
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const left = @min(rate - self.offset, bytes.len);
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@memcpy(self.buf[self.offset..][0..left], bytes[0..left]);
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@memcpy(self.buf[self.offset..][0..left], bytes[0..left]);
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self.offset += left;
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self.offset += left;
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if (left == bytes.len) return;
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if (self.offset == rate) {
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if (self.offset == rate) {
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self.offset = 0;
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self.st.addBytes(self.buf[0..]);
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self.st.addBytes(self.buf[0..]);
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self.st.permuteR(rounds);
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self.st.permuteR(rounds);
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self.offset = 0;
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}
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}
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if (left == bytes.len) return;
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i = left;
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bytes = bytes[left..];
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}
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}
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while (bytes.len >= rate) {
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while (i + rate < bytes.len) : (i += rate) {
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self.st.addBytes(bytes[0..rate]);
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self.st.addBytes(bytes[i..][0..rate]);
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self.st.permuteR(rounds);
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self.st.permuteR(rounds);
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bytes = bytes[rate..];
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}
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}
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if (bytes.len > 0) {
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const left = bytes.len - i;
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@memcpy(self.buf[0..bytes.len], bytes);
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if (left > 0) {
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self.offset = bytes.len;
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@memcpy(self.buf[0..left], bytes[i..][0..left]);
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}
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}
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self.offset = left;
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}
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}
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/// Initialize the state from a slice of bytes.
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/// Initialize the state from a slice of bytes.
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pub fn init(bytes: [f / 8]u8) Self {
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pub fn init(bytes: [f / 8]u8, delim: u8) Self {
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return .{ .st = KeccakF(f).init(bytes) };
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var st = Self{ .st = KeccakF(f).init(bytes), .delim = delim };
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st.transition.to(.initialized);
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return st;
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}
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}
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/// Permute the state
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/// Permute the state
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pub fn permute(self: *Self) void {
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pub fn permute(self: *Self) void {
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if (mode == .Debug) {
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if (self.transition.op == .absorb and self.offset > 0) {
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@panic("cannot permute with pending input - call fillBlock() or pad() instead");
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}
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}
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self.transition.to(.updated);
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self.st.permuteR(rounds);
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self.st.permuteR(rounds);
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self.offset = 0;
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self.offset = 0;
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}
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}
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/// Align the input to the rate boundary.
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/// Align the input to the rate boundary and permute.
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pub fn fillBlock(self: *Self) void {
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pub fn fillBlock(self: *Self) void {
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self.transition.to(.absorb);
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self.st.addBytes(self.buf[0..self.offset]);
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self.st.addBytes(self.buf[0..self.offset]);
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self.st.permuteR(rounds);
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self.st.permuteR(rounds);
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self.offset = 0;
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self.offset = 0;
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self.transition.to(.updated);
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}
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}
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/// Mark the end of the input.
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/// Mark the end of the input.
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pub fn pad(self: *Self) void {
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pub fn pad(self: *Self) void {
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self.transition.to(.absorb);
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self.st.addBytes(self.buf[0..self.offset]);
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self.st.addBytes(self.buf[0..self.offset]);
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if (self.offset == rate) {
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self.st.permuteR(rounds);
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self.offset = 0;
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}
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self.st.addByte(self.delim, self.offset);
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self.st.addByte(self.delim, self.offset);
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self.st.addByte(0x80, rate - 1);
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self.st.addByte(0x80, rate - 1);
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self.st.permuteR(rounds);
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self.st.permuteR(rounds);
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self.offset = 0;
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self.offset = 0;
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self.transition.to(.updated);
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}
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}
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/// Squeeze a slice of bytes from the sponge.
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/// Squeeze a slice of bytes from the sponge.
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/// The function can be called multiple times.
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pub fn squeeze(self: *Self, out: []u8) void {
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pub fn squeeze(self: *Self, out: []u8) void {
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self.transition.to(.squeeze);
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var i: usize = 0;
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var i: usize = 0;
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while (i < out.len) : (i += rate) {
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if (self.offset == rate) {
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const left = @min(rate, out.len - i);
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self.st.permuteR(rounds);
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self.st.extractBytes(out[i..][0..left]);
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} else if (self.offset > 0) {
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@branchHint(.unlikely);
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var buf: [rate]u8 = undefined;
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self.st.extractBytes(buf[0..]);
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const left = @min(rate - self.offset, out.len);
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@memcpy(out[0..left], buf[self.offset..][0..left]);
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self.offset += left;
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if (left == out.len) return;
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if (self.offset == rate) {
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self.offset = 0;
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self.st.permuteR(rounds);
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}
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i = left;
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}
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while (i + rate < out.len) : (i += rate) {
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self.st.extractBytes(out[i..][0..rate]);
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self.st.permuteR(rounds);
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self.st.permuteR(rounds);
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}
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}
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const left = out.len - i;
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if (left > 0) {
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self.st.extractBytes(out[i..][0..left]);
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}
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self.offset = left;
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}
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}
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};
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};
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}
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}
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@ -298,3 +380,26 @@ test "Keccak-f800" {
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};
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};
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try std.testing.expectEqualSlices(u32, &st.st, &expected);
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try std.testing.expectEqualSlices(u32, &st.st, &expected);
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}
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}
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test "squeeze" {
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var st = State(800, 256, 22).init([_]u8{0x80} ** 100, 0x01);
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var out0: [15]u8 = undefined;
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var out1: [out0.len]u8 = undefined;
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st.permute();
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var st0 = st;
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st0.squeeze(out0[0..]);
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var st1 = st;
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st1.squeeze(out1[0 .. out1.len / 2]);
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st1.squeeze(out1[out1.len / 2 ..]);
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try std.testing.expectEqualSlices(u8, &out0, &out1);
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var out2: [100]u8 = undefined;
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var out3: [out2.len]u8 = undefined;
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var st2 = st;
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st2.squeeze(out2[0..]);
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var st3 = st;
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st3.squeeze(out3[0 .. out2.len / 2]);
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st3.squeeze(out3[out2.len / 2 ..]);
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try std.testing.expectEqualSlices(u8, &out2, &out3);
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}
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