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1192 Commits
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| a58a08c0c3 |
+5
-1
@@ -1,2 +1,6 @@
|
||||
*.odin linguist-language=Odin
|
||||
* text=auto
|
||||
* text=auto
|
||||
|
||||
# These files must always have *nix line-endings
|
||||
Makefile text eol=lf
|
||||
*.sh text eol=lf
|
||||
+53
-12
@@ -3,11 +3,16 @@ on: [push, pull_request, workflow_dispatch]
|
||||
|
||||
jobs:
|
||||
build_linux:
|
||||
name: Ubuntu Build, Check, and Test
|
||||
runs-on: ubuntu-latest
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- name: Download LLVM, botan
|
||||
run: sudo apt-get install llvm-11 clang-11 libbotan-2-dev botan
|
||||
- name: Download LLVM
|
||||
run: |
|
||||
wget https://apt.llvm.org/llvm.sh
|
||||
chmod +x llvm.sh
|
||||
sudo ./llvm.sh 17
|
||||
echo "/usr/lib/llvm-17/bin" >> $GITHUB_PATH
|
||||
- name: build odin
|
||||
run: ./build_odin.sh release
|
||||
- name: Odin version
|
||||
@@ -46,6 +51,9 @@ jobs:
|
||||
- name: Odin check examples/all for Linux i386
|
||||
run: ./odin check examples/all -vet -strict-style -target:linux_i386
|
||||
timeout-minutes: 10
|
||||
- name: Odin check examples/all for Linux arm64
|
||||
run: ./odin check examples/all -vet -strict-style -target:linux_arm64
|
||||
timeout-minutes: 10
|
||||
- name: Odin check examples/all for FreeBSD amd64
|
||||
run: ./odin check examples/all -vet -strict-style -target:freebsd_amd64
|
||||
timeout-minutes: 10
|
||||
@@ -53,15 +61,14 @@ jobs:
|
||||
run: ./odin check examples/all -vet -strict-style -target:openbsd_amd64
|
||||
timeout-minutes: 10
|
||||
build_macOS:
|
||||
runs-on: macos-latest
|
||||
name: MacOS Build, Check, and Test
|
||||
runs-on: macos-13
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- name: Download LLVM, botan and setup PATH
|
||||
- name: Download LLVM, and setup PATH
|
||||
run: |
|
||||
brew install llvm@13 botan
|
||||
echo "/usr/local/opt/llvm@13/bin" >> $GITHUB_PATH
|
||||
TMP_PATH=$(xcrun --show-sdk-path)/user/include
|
||||
echo "CPATH=$TMP_PATH" >> $GITHUB_ENV
|
||||
brew install llvm@17
|
||||
echo "/usr/local/opt/llvm@17/bin" >> $GITHUB_PATH
|
||||
- name: build odin
|
||||
run: ./build_odin.sh release
|
||||
- name: Odin version
|
||||
@@ -92,13 +99,47 @@ jobs:
|
||||
cd tests/internal
|
||||
make
|
||||
timeout-minutes: 10
|
||||
- name: Odin check examples/all for Darwin arm64
|
||||
run: ./odin check examples/all -vet -strict-style -target:darwin_arm64
|
||||
build_macOS_arm:
|
||||
name: MacOS ARM Build, Check, and Test
|
||||
runs-on: macos-14 # This is an arm/m1 runner.
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- name: Download LLVM and setup PATH
|
||||
run: |
|
||||
brew install llvm@17
|
||||
echo "/opt/homebrew/opt/llvm@17/bin" >> $GITHUB_PATH
|
||||
- name: build odin
|
||||
run: ./build_odin.sh release
|
||||
- name: Odin version
|
||||
run: ./odin version
|
||||
timeout-minutes: 1
|
||||
- name: Odin report
|
||||
run: ./odin report
|
||||
timeout-minutes: 1
|
||||
- name: Odin check
|
||||
run: ./odin check examples/demo -vet
|
||||
timeout-minutes: 10
|
||||
- name: Odin check examples/all for Linux arm64
|
||||
run: ./odin check examples/all -vet -strict-style -target:linux_arm64
|
||||
- name: Odin run
|
||||
run: ./odin run examples/demo
|
||||
timeout-minutes: 10
|
||||
- name: Odin run -debug
|
||||
run: ./odin run examples/demo -debug
|
||||
timeout-minutes: 10
|
||||
- name: Odin check examples/all
|
||||
run: ./odin check examples/all -strict-style
|
||||
timeout-minutes: 10
|
||||
- name: Core library tests
|
||||
run: |
|
||||
cd tests/core
|
||||
make
|
||||
timeout-minutes: 10
|
||||
- name: Odin internals tests
|
||||
run: |
|
||||
cd tests/internal
|
||||
make
|
||||
timeout-minutes: 10
|
||||
build_windows:
|
||||
name: Windows Build, Check, and Test
|
||||
runs-on: windows-2022
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
|
||||
@@ -7,6 +7,7 @@ on:
|
||||
|
||||
jobs:
|
||||
build_windows:
|
||||
name: Windows Build
|
||||
if: github.repository == 'odin-lang/Odin'
|
||||
runs-on: windows-2022
|
||||
steps:
|
||||
@@ -29,6 +30,7 @@ jobs:
|
||||
cp LICENSE dist
|
||||
cp LLVM-C.dll dist
|
||||
cp -r shared dist
|
||||
cp -r base dist
|
||||
cp -r core dist
|
||||
cp -r vendor dist
|
||||
cp -r bin dist
|
||||
@@ -39,12 +41,17 @@ jobs:
|
||||
name: windows_artifacts
|
||||
path: dist
|
||||
build_ubuntu:
|
||||
name: Ubuntu Build
|
||||
if: github.repository == 'odin-lang/Odin'
|
||||
runs-on: ubuntu-latest
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- name: (Linux) Download LLVM
|
||||
run: sudo apt-get install llvm-11 clang-11
|
||||
run: |
|
||||
wget https://apt.llvm.org/llvm.sh
|
||||
chmod +x llvm.sh
|
||||
sudo ./llvm.sh 17
|
||||
echo "/usr/lib/llvm-17/bin" >> $GITHUB_PATH
|
||||
- name: build odin
|
||||
run: make nightly
|
||||
- name: Odin run
|
||||
@@ -56,46 +63,88 @@ jobs:
|
||||
cp LICENSE dist
|
||||
cp libLLVM* dist
|
||||
cp -r shared dist
|
||||
cp -r base dist
|
||||
cp -r core dist
|
||||
cp -r vendor dist
|
||||
cp -r examples dist
|
||||
# Zipping so executable permissions are retained, see https://github.com/actions/upload-artifact/issues/38
|
||||
zip -r dist.zip dist
|
||||
- name: Upload artifact
|
||||
uses: actions/upload-artifact@v1
|
||||
with:
|
||||
name: ubuntu_artifacts
|
||||
path: dist
|
||||
path: dist.zip
|
||||
build_macos:
|
||||
name: MacOS Build
|
||||
if: github.repository == 'odin-lang/Odin'
|
||||
runs-on: macOS-latest
|
||||
runs-on: macos-13
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- name: Download LLVM and setup PATH
|
||||
run: |
|
||||
brew install llvm@13
|
||||
echo "/usr/local/opt/llvm@13/bin" >> $GITHUB_PATH
|
||||
TMP_PATH=$(xcrun --show-sdk-path)/user/include
|
||||
echo "CPATH=$TMP_PATH" >> $GITHUB_ENV
|
||||
brew install llvm@17 dylibbundler
|
||||
echo "/usr/local/opt/llvm@17/bin" >> $GITHUB_PATH
|
||||
- name: build odin
|
||||
run: make nightly
|
||||
- name: Odin run
|
||||
run: ./odin run examples/demo
|
||||
- name: Copy artifacts
|
||||
# These -L makes the linker prioritize system libraries over LLVM libraries, this is mainly to
|
||||
# not link with libunwind bundled with LLVM but link with libunwind on the system.
|
||||
run: CXXFLAGS="-L/usr/lib/system -L/usr/lib" make nightly
|
||||
- name: Bundle
|
||||
run: |
|
||||
mkdir dist
|
||||
cp odin dist
|
||||
cp LICENSE dist
|
||||
cp -r shared dist
|
||||
cp -r base dist
|
||||
cp -r core dist
|
||||
cp -r vendor dist
|
||||
cp -r examples dist
|
||||
dylibbundler -b -x dist/odin -d dist/libs -od -p @executable_path/libs
|
||||
# Zipping so executable permissions are retained, see https://github.com/actions/upload-artifact/issues/38
|
||||
zip -r dist.zip dist
|
||||
- name: Odin run
|
||||
run: ./dist/odin run examples/demo
|
||||
- name: Upload artifact
|
||||
uses: actions/upload-artifact@v1
|
||||
with:
|
||||
name: macos_artifacts
|
||||
path: dist
|
||||
path: dist.zip
|
||||
build_macos_arm:
|
||||
name: MacOS ARM Build
|
||||
if: github.repository == 'odin-lang/Odin'
|
||||
runs-on: macos-14 # ARM machine
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- name: Download LLVM and setup PATH
|
||||
run: |
|
||||
brew install llvm@17 dylibbundler
|
||||
echo "/opt/homebrew/opt/llvm@17/bin" >> $GITHUB_PATH
|
||||
- name: build odin
|
||||
# These -L makes the linker prioritize system libraries over LLVM libraries, this is mainly to
|
||||
# not link with libunwind bundled with LLVM but link with libunwind on the system.
|
||||
run: CXXFLAGS="-L/usr/lib/system -L/usr/lib" make nightly
|
||||
- name: Bundle
|
||||
run: |
|
||||
mkdir dist
|
||||
cp odin dist
|
||||
cp LICENSE dist
|
||||
cp -r shared dist
|
||||
cp -r base dist
|
||||
cp -r core dist
|
||||
cp -r vendor dist
|
||||
cp -r examples dist
|
||||
dylibbundler -b -x dist/odin -d dist/libs -od -p @executable_path/libs
|
||||
# Zipping so executable permissions are retained, see https://github.com/actions/upload-artifact/issues/38
|
||||
zip -r dist.zip dist
|
||||
- name: Odin run
|
||||
run: ./dist/odin run examples/demo
|
||||
- name: Upload artifact
|
||||
uses: actions/upload-artifact@v1
|
||||
with:
|
||||
name: macos_arm_artifacts
|
||||
path: dist.zip
|
||||
upload_b2:
|
||||
runs-on: [ubuntu-latest]
|
||||
needs: [build_windows, build_macos, build_ubuntu]
|
||||
needs: [build_windows, build_macos, build_macos_arm, build_ubuntu]
|
||||
steps:
|
||||
- uses: actions/checkout@v1
|
||||
- uses: actions/setup-python@v2
|
||||
@@ -126,6 +175,11 @@ jobs:
|
||||
with:
|
||||
name: macos_artifacts
|
||||
|
||||
- name: Download macOS arm artifacts
|
||||
uses: actions/download-artifact@v1
|
||||
with:
|
||||
name: macos_arm_artifacts
|
||||
|
||||
- name: Create archives and upload
|
||||
shell: bash
|
||||
env:
|
||||
@@ -140,8 +194,9 @@ jobs:
|
||||
echo Uploading artifcates to B2
|
||||
chmod +x ./ci/upload_create_nightly.sh
|
||||
./ci/upload_create_nightly.sh "$BUCKET" windows-amd64 windows_artifacts/
|
||||
./ci/upload_create_nightly.sh "$BUCKET" ubuntu-amd64 ubuntu_artifacts/
|
||||
./ci/upload_create_nightly.sh "$BUCKET" macos-amd64 macos_artifacts/
|
||||
./ci/upload_create_nightly.sh "$BUCKET" ubuntu-amd64 ubuntu_artifacts/dist.zip
|
||||
./ci/upload_create_nightly.sh "$BUCKET" macos-amd64 macos_artifacts/dist.zip
|
||||
./ci/upload_create_nightly.sh "$BUCKET" macos-arm64 macos_arm_artifacts/dist.zip
|
||||
|
||||
echo Deleting old artifacts in B2
|
||||
python3 ci/delete_old_binaries.py "$BUCKET" "$DAYS_TO_KEEP"
|
||||
|
||||
+14
-1
@@ -27,7 +27,10 @@ tests/documentation/all.odin-doc
|
||||
tests/internal/test_map
|
||||
tests/internal/test_pow
|
||||
tests/internal/test_rtti
|
||||
tests/core/test_base64
|
||||
tests/core/test_cbor
|
||||
tests/core/test_core_compress
|
||||
tests/core/test_core_container
|
||||
tests/core/test_core_filepath
|
||||
tests/core/test_core_fmt
|
||||
tests/core/test_core_i18n
|
||||
@@ -39,14 +42,19 @@ tests/core/test_core_net
|
||||
tests/core/test_core_os_exit
|
||||
tests/core/test_core_reflect
|
||||
tests/core/test_core_strings
|
||||
tests/core/test_crypto_hash
|
||||
tests/core/test_core_time
|
||||
tests/core/test_crypto
|
||||
tests/core/test_hash
|
||||
tests/core/test_hex
|
||||
tests/core/test_hxa
|
||||
tests/core/test_json
|
||||
tests/core/test_linalg_glsl_math
|
||||
tests/core/test_noise
|
||||
tests/core/test_varint
|
||||
tests/core/test_xml
|
||||
tests/core/test_core_slice
|
||||
tests/core/test_core_thread
|
||||
tests/core/test_core_runtime
|
||||
tests/vendor/vendor_botan
|
||||
# Visual Studio 2015 cache/options directory
|
||||
.vs/
|
||||
@@ -312,3 +320,8 @@ shared/
|
||||
examples/bug/
|
||||
build.sh
|
||||
!core/debug/
|
||||
|
||||
# RAD debugger project file
|
||||
*.raddbg
|
||||
|
||||
misc/featuregen/featuregen
|
||||
|
||||
@@ -1,4 +1,4 @@
|
||||
Copyright (c) 2016-2022 Ginger Bill. All rights reserved.
|
||||
Copyright (c) 2016-2024 Ginger Bill. All rights reserved.
|
||||
|
||||
Redistribution and use in source and binary forms, with or without
|
||||
modification, are permitted provided that the following conditions are met:
|
||||
|
||||
@@ -110,7 +110,7 @@ typeid_of :: proc($T: typeid) -> typeid ---
|
||||
swizzle :: proc(x: [N]T, indices: ..int) -> [len(indices)]T ---
|
||||
|
||||
complex :: proc(real, imag: Float) -> Complex_Type ---
|
||||
quaternion :: proc(real, imag, jmag, kmag: Float) -> Quaternion_Type ---
|
||||
quaternion :: proc(imag, jmag, kmag, real: Float) -> Quaternion_Type --- // fields must be named
|
||||
real :: proc(value: Complex_Or_Quaternion) -> Float ---
|
||||
imag :: proc(value: Complex_Or_Quaternion) -> Float ---
|
||||
jmag :: proc(value: Quaternion) -> Float ---
|
||||
@@ -5,6 +5,12 @@ package intrinsics
|
||||
// Package-Related
|
||||
is_package_imported :: proc(package_name: string) -> bool ---
|
||||
|
||||
// Matrix Related Procedures
|
||||
transpose :: proc(m: $T/matrix[$R, $C]$E) -> matrix[C, R]E ---
|
||||
outer_product :: proc(a: $A/[$X]$E, b: $B/[$Y]E) -> matrix[X, Y]E ---
|
||||
hadamard_product :: proc(a, b: $T/matrix[$R, $C]$E) -> T ---
|
||||
matrix_flatten :: proc(m: $T/matrix[$R, $C]$E) -> [R*C]E ---
|
||||
|
||||
// Types
|
||||
soa_struct :: proc($N: int, $T: typeid) -> type/#soa[N]T
|
||||
|
||||
@@ -32,9 +38,9 @@ count_leading_zeros :: proc(x: $T) -> T where type_is_integer(T) || type_is_sim
|
||||
reverse_bits :: proc(x: $T) -> T where type_is_integer(T) || type_is_simd_vector(T) ---
|
||||
byte_swap :: proc(x: $T) -> T where type_is_integer(T) || type_is_float(T) ---
|
||||
|
||||
overflow_add :: proc(lhs, rhs: $T) -> (T, bool) #optional_ok ---
|
||||
overflow_sub :: proc(lhs, rhs: $T) -> (T, bool) #optional_ok ---
|
||||
overflow_mul :: proc(lhs, rhs: $T) -> (T, bool) #optional_ok ---
|
||||
overflow_add :: proc(lhs, rhs: $T) -> (T, bool) ---
|
||||
overflow_sub :: proc(lhs, rhs: $T) -> (T, bool) ---
|
||||
overflow_mul :: proc(lhs, rhs: $T) -> (T, bool) ---
|
||||
|
||||
sqrt :: proc(x: $T) -> T where type_is_float(T) || (type_is_simd_vector(T) && type_is_float(type_elem_type(T))) ---
|
||||
|
||||
@@ -163,15 +169,18 @@ type_has_nil :: proc($T: typeid) -> bool ---
|
||||
|
||||
type_is_specialization_of :: proc($T, $S: typeid) -> bool ---
|
||||
|
||||
type_is_variant_of :: proc($U, $V: typeid) -> bool where type_is_union(U) ---
|
||||
type_union_tag_type :: proc($T: typeid) -> typeid where type_is_union(T) ---
|
||||
type_union_tag_offset :: proc($T: typeid) -> uintptr where type_is_union(T) ---
|
||||
type_union_base_tag_value :: proc($T: typeid) -> int where type_is_union(U) ---
|
||||
type_union_variant_count :: proc($T: typeid) -> int where type_is_union(T) ---
|
||||
type_variant_type_of :: proc($T: typeid, $index: int) -> typeid where type_is_union(T) ---
|
||||
type_variant_index_of :: proc($U, $V: typeid) -> int where type_is_union(U) ---
|
||||
type_is_variant_of :: proc($U, $V: typeid) -> bool where type_is_union(U) ---
|
||||
type_union_tag_type :: proc($T: typeid) -> typeid where type_is_union(T) ---
|
||||
type_union_tag_offset :: proc($T: typeid) -> uintptr where type_is_union(T) ---
|
||||
type_union_base_tag_value :: proc($T: typeid) -> int where type_is_union(U) ---
|
||||
type_union_variant_count :: proc($T: typeid) -> int where type_is_union(T) ---
|
||||
type_variant_type_of :: proc($T: typeid, $index: int) -> typeid where type_is_union(T) ---
|
||||
type_variant_index_of :: proc($U, $V: typeid) -> int where type_is_union(U) ---
|
||||
|
||||
type_has_field :: proc($T: typeid, $name: string) -> bool ---
|
||||
type_bit_set_elem_type :: proc($T: typeid) -> typeid where type_is_bit_set(T) ---
|
||||
type_bit_set_underlying_type :: proc($T: typeid) -> typeid where type_is_bit_set(T) ---
|
||||
|
||||
type_has_field :: proc($T: typeid, $name: string) -> bool ---
|
||||
type_field_type :: proc($T: typeid, $name: string) -> typeid ---
|
||||
|
||||
type_proc_parameter_count :: proc($T: typeid) -> int where type_is_proc(T) ---
|
||||
@@ -276,6 +285,12 @@ simd_reverse :: proc(a: #simd[N]T) -> #simd[N]T ---
|
||||
simd_rotate_left :: proc(a: #simd[N]T, $offset: int) -> #simd[N]T ---
|
||||
simd_rotate_right :: proc(a: #simd[N]T, $offset: int) -> #simd[N]T ---
|
||||
|
||||
// Checks if the current target supports the given target features.
|
||||
//
|
||||
// Takes a constant comma-seperated string (eg: "sha512,sse4.1"), or a procedure type which has either
|
||||
// `@(require_target_feature)` or `@(enable_target_feature)` as its input and returns a boolean indicating
|
||||
// if all listed features are supported.
|
||||
has_target_feature :: proc($test: $T) -> bool where type_is_string(T) || type_is_proc(T) ---
|
||||
|
||||
// WASM targets only
|
||||
wasm_memory_grow :: proc(index, delta: uintptr) -> int ---
|
||||
@@ -287,7 +302,9 @@ wasm_memory_size :: proc(index: uintptr) -> int ---
|
||||
// 0 - indicates that the thread blocked and then was woken up
|
||||
// 1 - the loaded value from `ptr` did not match `expected`, the thread did not block
|
||||
// 2 - the thread blocked, but the timeout
|
||||
@(require_target_feature="atomics")
|
||||
wasm_memory_atomic_wait32 :: proc(ptr: ^u32, expected: u32, timeout_ns: i64) -> u32 ---
|
||||
@(require_target_feature="atomics")
|
||||
wasm_memory_atomic_notify32 :: proc(ptr: ^u32, waiters: u32) -> (waiters_woken_up: u32) ---
|
||||
|
||||
// x86 Targets (i386, amd64)
|
||||
@@ -18,9 +18,10 @@
|
||||
// This could change at a later date if the all these data structures are
|
||||
// implemented within the compiler rather than in this "preload" file
|
||||
//
|
||||
//+no-instrumentation
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
// NOTE(bill): This must match the compiler's
|
||||
Calling_Convention :: enum u8 {
|
||||
@@ -176,10 +177,22 @@ Type_Info_Matrix :: struct {
|
||||
row_count: int,
|
||||
column_count: int,
|
||||
// Total element count = column_count * elem_stride
|
||||
layout: enum u8 {
|
||||
Column_Major, // array of column vectors
|
||||
Row_Major, // array of row vectors
|
||||
},
|
||||
}
|
||||
Type_Info_Soa_Pointer :: struct {
|
||||
elem: ^Type_Info,
|
||||
}
|
||||
Type_Info_Bit_Field :: struct {
|
||||
backing_type: ^Type_Info,
|
||||
names: []string,
|
||||
types: []^Type_Info,
|
||||
bit_sizes: []uintptr,
|
||||
bit_offsets: []uintptr,
|
||||
tags: []string,
|
||||
}
|
||||
|
||||
Type_Info_Flag :: enum u8 {
|
||||
Comparable = 0,
|
||||
@@ -222,6 +235,7 @@ Type_Info :: struct {
|
||||
Type_Info_Relative_Multi_Pointer,
|
||||
Type_Info_Matrix,
|
||||
Type_Info_Soa_Pointer,
|
||||
Type_Info_Bit_Field,
|
||||
},
|
||||
}
|
||||
|
||||
@@ -255,21 +269,22 @@ Typeid_Kind :: enum u8 {
|
||||
Relative_Multi_Pointer,
|
||||
Matrix,
|
||||
Soa_Pointer,
|
||||
Bit_Field,
|
||||
}
|
||||
#assert(len(Typeid_Kind) < 32)
|
||||
|
||||
// Typeid_Bit_Field :: bit_field #align(align_of(uintptr)) {
|
||||
// index: 8*size_of(uintptr) - 8,
|
||||
// kind: 5, // Typeid_Kind
|
||||
// named: 1,
|
||||
// special: 1, // signed, cstring, etc
|
||||
// reserved: 1,
|
||||
// }
|
||||
// #assert(size_of(Typeid_Bit_Field) == size_of(uintptr));
|
||||
Typeid_Bit_Field :: bit_field uintptr {
|
||||
index: uintptr | 8*size_of(uintptr) - 8,
|
||||
kind: Typeid_Kind | 5, // Typeid_Kind
|
||||
named: bool | 1,
|
||||
special: bool | 1, // signed, cstring, etc
|
||||
reserved: bool | 1,
|
||||
}
|
||||
#assert(size_of(Typeid_Bit_Field) == size_of(uintptr))
|
||||
|
||||
// NOTE(bill): only the ones that are needed (not all types)
|
||||
// This will be set by the compiler
|
||||
type_table: []Type_Info
|
||||
type_table: []^Type_Info
|
||||
|
||||
args__: []cstring
|
||||
|
||||
@@ -295,6 +310,14 @@ Source_Code_Location :: struct {
|
||||
procedure: string,
|
||||
}
|
||||
|
||||
/*
|
||||
Used by the built-in directory `#load_directory(path: string) -> []Load_Directory_File`
|
||||
*/
|
||||
Load_Directory_File :: struct {
|
||||
name: string,
|
||||
data: []byte, // immutable data
|
||||
}
|
||||
|
||||
Assertion_Failure_Proc :: #type proc(prefix, message: string, loc: Source_Code_Location) -> !
|
||||
|
||||
// Allocation Stuff
|
||||
@@ -306,6 +329,7 @@ Allocator_Mode :: enum byte {
|
||||
Query_Features,
|
||||
Query_Info,
|
||||
Alloc_Non_Zeroed,
|
||||
Resize_Non_Zeroed,
|
||||
}
|
||||
|
||||
Allocator_Mode_Set :: distinct bit_set[Allocator_Mode]
|
||||
@@ -573,8 +597,9 @@ type_info_core :: proc "contextless" (info: ^Type_Info) -> ^Type_Info {
|
||||
base := info
|
||||
loop: for {
|
||||
#partial switch i in base.variant {
|
||||
case Type_Info_Named: base = i.base
|
||||
case Type_Info_Enum: base = i.base
|
||||
case Type_Info_Named: base = i.base
|
||||
case Type_Info_Enum: base = i.base
|
||||
case Type_Info_Bit_Field: base = i.backing_type
|
||||
case: break loop
|
||||
}
|
||||
}
|
||||
@@ -589,7 +614,7 @@ __type_info_of :: proc "contextless" (id: typeid) -> ^Type_Info #no_bounds_check
|
||||
if n < 0 || n >= len(type_table) {
|
||||
n = 0
|
||||
}
|
||||
return &type_table[n]
|
||||
return type_table[n]
|
||||
}
|
||||
|
||||
when !ODIN_NO_RTTI {
|
||||
@@ -1,6 +1,6 @@
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
@builtin
|
||||
Maybe :: union($T: typeid) {T}
|
||||
@@ -40,7 +40,7 @@ copy_slice :: proc "contextless" (dst, src: $T/[]$E) -> int {
|
||||
}
|
||||
return n
|
||||
}
|
||||
// `copy_from_string` is a built-in procedure that copies elements from a source slice `src` to a destination string `dst`.
|
||||
// `copy_from_string` is a built-in procedure that copies elements from a source string `src` to a destination slice `dst`.
|
||||
// The source and destination may overlap. Copy returns the number of elements copied, which will be the minimum
|
||||
// of len(src) and len(dst).
|
||||
//
|
||||
@@ -53,7 +53,7 @@ copy_from_string :: proc "contextless" (dst: $T/[]$E/u8, src: $S/string) -> int
|
||||
}
|
||||
return n
|
||||
}
|
||||
// `copy` is a built-in procedure that copies elements from a source slice `src` to a destination slice/string `dst`.
|
||||
// `copy` is a built-in procedure that copies elements from a source slice/string `src` to a destination slice `dst`.
|
||||
// The source and destination may overlap. Copy returns the number of elements copied, which will be the minimum
|
||||
// of len(src) and len(dst).
|
||||
@builtin
|
||||
@@ -122,7 +122,7 @@ pop :: proc(array: ^$T/[dynamic]$E, loc := #caller_location) -> (res: E) #no_bou
|
||||
// `pop_safe` trys to remove and return the end value of dynamic array `array` and reduces the length of `array` by 1.
|
||||
// If the operation is not possible, it will return false.
|
||||
@builtin
|
||||
pop_safe :: proc(array: ^$T/[dynamic]$E) -> (res: E, ok: bool) #no_bounds_check {
|
||||
pop_safe :: proc "contextless" (array: ^$T/[dynamic]$E) -> (res: E, ok: bool) #no_bounds_check {
|
||||
if len(array) == 0 {
|
||||
return
|
||||
}
|
||||
@@ -148,7 +148,7 @@ pop_front :: proc(array: ^$T/[dynamic]$E, loc := #caller_location) -> (res: E) #
|
||||
// `pop_front_safe` trys to return and remove the first value of dynamic array `array` and reduces the length of `array` by 1.
|
||||
// If the operation is not possible, it will return false.
|
||||
@builtin
|
||||
pop_front_safe :: proc(array: ^$T/[dynamic]$E) -> (res: E, ok: bool) #no_bounds_check {
|
||||
pop_front_safe :: proc "contextless" (array: ^$T/[dynamic]$E) -> (res: E, ok: bool) #no_bounds_check {
|
||||
if len(array) == 0 {
|
||||
return
|
||||
}
|
||||
@@ -169,10 +169,16 @@ clear :: proc{clear_dynamic_array, clear_map}
|
||||
@builtin
|
||||
reserve :: proc{reserve_dynamic_array, reserve_map}
|
||||
|
||||
// `resize` will try to resize memory of a passed dynamic array or map to the requested element count (setting the `len`, and possibly `cap`).
|
||||
@builtin
|
||||
non_zero_reserve :: proc{non_zero_reserve_dynamic_array}
|
||||
|
||||
// `resize` will try to resize memory of a passed dynamic array to the requested element count (setting the `len`, and possibly `cap`).
|
||||
@builtin
|
||||
resize :: proc{resize_dynamic_array}
|
||||
|
||||
@builtin
|
||||
non_zero_resize :: proc{non_zero_resize_dynamic_array}
|
||||
|
||||
// Shrinks the capacity of a dynamic array or map down to the current length, or the given capacity.
|
||||
@builtin
|
||||
shrink :: proc{shrink_dynamic_array, shrink_map}
|
||||
@@ -306,6 +312,7 @@ make_dynamic_array_len :: proc($T: typeid/[dynamic]$E, #any_int len: int, alloca
|
||||
@(builtin, require_results)
|
||||
make_dynamic_array_len_cap :: proc($T: typeid/[dynamic]$E, #any_int len: int, #any_int cap: int, allocator := context.allocator, loc := #caller_location) -> (array: T, err: Allocator_Error) #optional_allocator_error {
|
||||
make_dynamic_array_error_loc(loc, len, cap)
|
||||
array.allocator = allocator // initialize allocator before just in case it fails to allocate any memory
|
||||
data := mem_alloc_bytes(size_of(E)*cap, align_of(E), allocator, loc) or_return
|
||||
s := Raw_Dynamic_Array{raw_data(data), len, cap, allocator}
|
||||
if data == nil && size_of(E) != 0 {
|
||||
@@ -406,10 +413,7 @@ delete_key :: proc(m: ^$T/map[$K]$V, key: K) -> (deleted_key: K, deleted_value:
|
||||
return
|
||||
}
|
||||
|
||||
|
||||
|
||||
@builtin
|
||||
append_elem :: proc(array: ^$T/[dynamic]$E, arg: E, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
_append_elem :: #force_inline proc(array: ^$T/[dynamic]$E, arg: E, should_zero: bool, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
if array == nil {
|
||||
return 0, nil
|
||||
}
|
||||
@@ -420,7 +424,13 @@ append_elem :: proc(array: ^$T/[dynamic]$E, arg: E, loc := #caller_location) ->
|
||||
} else {
|
||||
if cap(array) < len(array)+1 {
|
||||
cap := 2 * cap(array) + max(8, 1)
|
||||
err = reserve(array, cap, loc) // do not 'or_return' here as it could be a partial success
|
||||
|
||||
// do not 'or_return' here as it could be a partial success
|
||||
if should_zero {
|
||||
err = reserve(array, cap, loc)
|
||||
} else {
|
||||
err = non_zero_reserve(array, cap, loc)
|
||||
}
|
||||
}
|
||||
if cap(array)-len(array) > 0 {
|
||||
a := (^Raw_Dynamic_Array)(array)
|
||||
@@ -437,7 +447,16 @@ append_elem :: proc(array: ^$T/[dynamic]$E, arg: E, loc := #caller_location) ->
|
||||
}
|
||||
|
||||
@builtin
|
||||
append_elems :: proc(array: ^$T/[dynamic]$E, args: ..E, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
append_elem :: proc(array: ^$T/[dynamic]$E, #no_broadcast arg: E, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
return _append_elem(array, arg, true, loc=loc)
|
||||
}
|
||||
|
||||
@builtin
|
||||
non_zero_append_elem :: proc(array: ^$T/[dynamic]$E, #no_broadcast arg: E, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
return _append_elem(array, arg, false, loc=loc)
|
||||
}
|
||||
|
||||
_append_elems :: #force_inline proc(array: ^$T/[dynamic]$E, should_zero: bool, loc := #caller_location, args: ..E) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
if array == nil {
|
||||
return 0, nil
|
||||
}
|
||||
@@ -454,7 +473,13 @@ append_elems :: proc(array: ^$T/[dynamic]$E, args: ..E, loc := #caller_location)
|
||||
} else {
|
||||
if cap(array) < len(array)+arg_len {
|
||||
cap := 2 * cap(array) + max(8, arg_len)
|
||||
err = reserve(array, cap, loc) // do not 'or_return' here as it could be a partial success
|
||||
|
||||
// do not 'or_return' here as it could be a partial success
|
||||
if should_zero {
|
||||
err = reserve(array, cap, loc)
|
||||
} else {
|
||||
err = non_zero_reserve(array, cap, loc)
|
||||
}
|
||||
}
|
||||
arg_len = min(cap(array)-len(array), arg_len)
|
||||
if arg_len > 0 {
|
||||
@@ -470,11 +495,33 @@ append_elems :: proc(array: ^$T/[dynamic]$E, args: ..E, loc := #caller_location)
|
||||
}
|
||||
}
|
||||
|
||||
@builtin
|
||||
append_elems :: proc(array: ^$T/[dynamic]$E, #no_broadcast args: ..E, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
return _append_elems(array, true, loc, ..args)
|
||||
}
|
||||
|
||||
@builtin
|
||||
non_zero_append_elems :: proc(array: ^$T/[dynamic]$E, #no_broadcast args: ..E, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
return _append_elems(array, false, loc, ..args)
|
||||
}
|
||||
|
||||
// The append_string built-in procedure appends a string to the end of a [dynamic]u8 like type
|
||||
_append_elem_string :: proc(array: ^$T/[dynamic]$E/u8, arg: $A/string, should_zero: bool, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
args := transmute([]E)arg
|
||||
if should_zero {
|
||||
return append_elems(array, ..args, loc=loc)
|
||||
} else {
|
||||
return non_zero_append_elems(array, ..args, loc=loc)
|
||||
}
|
||||
}
|
||||
|
||||
@builtin
|
||||
append_elem_string :: proc(array: ^$T/[dynamic]$E/u8, arg: $A/string, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
args := transmute([]E)arg
|
||||
return append_elems(array, ..args, loc=loc)
|
||||
return _append_elem_string(array, arg, true, loc)
|
||||
}
|
||||
@builtin
|
||||
non_zero_append_elem_string :: proc(array: ^$T/[dynamic]$E/u8, arg: $A/string, loc := #caller_location) -> (n: int, err: Allocator_Error) #optional_allocator_error {
|
||||
return _append_elem_string(array, arg, false, loc)
|
||||
}
|
||||
|
||||
|
||||
@@ -494,6 +541,7 @@ append_string :: proc(array: ^$T/[dynamic]$E/u8, args: ..string, loc := #caller_
|
||||
|
||||
// The append built-in procedure appends elements to the end of a dynamic array
|
||||
@builtin append :: proc{append_elem, append_elems, append_elem_string}
|
||||
@builtin non_zero_append :: proc{non_zero_append_elem, non_zero_append_elems, non_zero_append_elem_string}
|
||||
|
||||
|
||||
@builtin
|
||||
@@ -508,7 +556,7 @@ append_nothing :: proc(array: ^$T/[dynamic]$E, loc := #caller_location) -> (n: i
|
||||
|
||||
|
||||
@builtin
|
||||
inject_at_elem :: proc(array: ^$T/[dynamic]$E, index: int, arg: E, loc := #caller_location) -> (ok: bool, err: Allocator_Error) #no_bounds_check #optional_allocator_error {
|
||||
inject_at_elem :: proc(array: ^$T/[dynamic]$E, index: int, #no_broadcast arg: E, loc := #caller_location) -> (ok: bool, err: Allocator_Error) #no_bounds_check #optional_allocator_error {
|
||||
if array == nil {
|
||||
return
|
||||
}
|
||||
@@ -526,7 +574,7 @@ inject_at_elem :: proc(array: ^$T/[dynamic]$E, index: int, arg: E, loc := #calle
|
||||
}
|
||||
|
||||
@builtin
|
||||
inject_at_elems :: proc(array: ^$T/[dynamic]$E, index: int, args: ..E, loc := #caller_location) -> (ok: bool, err: Allocator_Error) #no_bounds_check #optional_allocator_error {
|
||||
inject_at_elems :: proc(array: ^$T/[dynamic]$E, index: int, #no_broadcast args: ..E, loc := #caller_location) -> (ok: bool, err: Allocator_Error) #no_bounds_check #optional_allocator_error {
|
||||
if array == nil {
|
||||
return
|
||||
}
|
||||
@@ -638,8 +686,7 @@ clear_dynamic_array :: proc "contextless" (array: ^$T/[dynamic]$E) {
|
||||
// `reserve_dynamic_array` will try to reserve memory of a passed dynamic array or map to the requested element count (setting the `cap`).
|
||||
//
|
||||
// Note: Prefer the procedure group `reserve`.
|
||||
@builtin
|
||||
reserve_dynamic_array :: proc(array: ^$T/[dynamic]$E, capacity: int, loc := #caller_location) -> Allocator_Error {
|
||||
_reserve_dynamic_array :: #force_inline proc(array: ^$T/[dynamic]$E, capacity: int, should_zero: bool, loc := #caller_location) -> Allocator_Error {
|
||||
if array == nil {
|
||||
return nil
|
||||
}
|
||||
@@ -658,7 +705,12 @@ reserve_dynamic_array :: proc(array: ^$T/[dynamic]$E, capacity: int, loc := #cal
|
||||
new_size := capacity * size_of(E)
|
||||
allocator := a.allocator
|
||||
|
||||
new_data := mem_resize(a.data, old_size, new_size, align_of(E), allocator, loc) or_return
|
||||
new_data: []byte
|
||||
if should_zero {
|
||||
new_data = mem_resize(a.data, old_size, new_size, align_of(E), allocator, loc) or_return
|
||||
} else {
|
||||
new_data = non_zero_mem_resize(a.data, old_size, new_size, align_of(E), allocator, loc) or_return
|
||||
}
|
||||
if new_data == nil && new_size > 0 {
|
||||
return .Out_Of_Memory
|
||||
}
|
||||
@@ -668,17 +720,29 @@ reserve_dynamic_array :: proc(array: ^$T/[dynamic]$E, capacity: int, loc := #cal
|
||||
return nil
|
||||
}
|
||||
|
||||
@builtin
|
||||
reserve_dynamic_array :: proc(array: ^$T/[dynamic]$E, capacity: int, loc := #caller_location) -> Allocator_Error {
|
||||
return _reserve_dynamic_array(array, capacity, true, loc)
|
||||
}
|
||||
|
||||
@builtin
|
||||
non_zero_reserve_dynamic_array :: proc(array: ^$T/[dynamic]$E, capacity: int, loc := #caller_location) -> Allocator_Error {
|
||||
return _reserve_dynamic_array(array, capacity, false, loc)
|
||||
}
|
||||
|
||||
// `resize_dynamic_array` will try to resize memory of a passed dynamic array or map to the requested element count (setting the `len`, and possibly `cap`).
|
||||
//
|
||||
// Note: Prefer the procedure group `resize`
|
||||
@builtin
|
||||
resize_dynamic_array :: proc(array: ^$T/[dynamic]$E, length: int, loc := #caller_location) -> Allocator_Error {
|
||||
_resize_dynamic_array :: #force_inline proc(array: ^$T/[dynamic]$E, length: int, should_zero: bool, loc := #caller_location) -> Allocator_Error {
|
||||
if array == nil {
|
||||
return nil
|
||||
}
|
||||
a := (^Raw_Dynamic_Array)(array)
|
||||
|
||||
if length <= a.cap {
|
||||
if should_zero && a.len < length {
|
||||
intrinsics.mem_zero(([^]E)(a.data)[a.len:], (length-a.len)*size_of(E))
|
||||
}
|
||||
a.len = max(length, 0)
|
||||
return nil
|
||||
}
|
||||
@@ -692,7 +756,12 @@ resize_dynamic_array :: proc(array: ^$T/[dynamic]$E, length: int, loc := #caller
|
||||
new_size := length * size_of(E)
|
||||
allocator := a.allocator
|
||||
|
||||
new_data := mem_resize(a.data, old_size, new_size, align_of(E), allocator, loc) or_return
|
||||
new_data : []byte
|
||||
if should_zero {
|
||||
new_data = mem_resize(a.data, old_size, new_size, align_of(E), allocator, loc) or_return
|
||||
} else {
|
||||
new_data = non_zero_mem_resize(a.data, old_size, new_size, align_of(E), allocator, loc) or_return
|
||||
}
|
||||
if new_data == nil && new_size > 0 {
|
||||
return .Out_Of_Memory
|
||||
}
|
||||
@@ -703,6 +772,16 @@ resize_dynamic_array :: proc(array: ^$T/[dynamic]$E, length: int, loc := #caller
|
||||
return nil
|
||||
}
|
||||
|
||||
@builtin
|
||||
resize_dynamic_array :: proc(array: ^$T/[dynamic]$E, length: int, loc := #caller_location) -> Allocator_Error {
|
||||
return _resize_dynamic_array(array, length, true, loc=loc)
|
||||
}
|
||||
|
||||
@builtin
|
||||
non_zero_resize_dynamic_array :: proc(array: ^$T/[dynamic]$E, length: int, loc := #caller_location) -> Allocator_Error {
|
||||
return _resize_dynamic_array(array, length, false, loc=loc)
|
||||
}
|
||||
|
||||
/*
|
||||
Shrinks the capacity of a dynamic array down to the current length, or the given capacity.
|
||||
|
||||
@@ -748,42 +827,25 @@ map_insert :: proc(m: ^$T/map[$K]$V, key: K, value: V, loc := #caller_location)
|
||||
return (^V)(__dynamic_map_set_without_hash((^Raw_Map)(m), map_info(T), rawptr(&key), rawptr(&value), loc))
|
||||
}
|
||||
|
||||
|
||||
@builtin
|
||||
incl_elem :: proc(s: ^$S/bit_set[$E; $U], elem: E) {
|
||||
s^ |= {elem}
|
||||
}
|
||||
@builtin
|
||||
incl_elems :: proc(s: ^$S/bit_set[$E; $U], elems: ..E) {
|
||||
for elem in elems {
|
||||
s^ |= {elem}
|
||||
// Explicitly inserts a key and value into a map `m`, the same as `map_insert`, but the return values differ.
|
||||
// - `prev_key` will return the previous pointer of a key if it exists, check `found_previous` if was previously found
|
||||
// - `value_ptr` will return the pointer of the memory where the insertion happens, and `nil` if the map failed to resize
|
||||
// - `found_previous` will be true a previous key was found
|
||||
@(builtin, require_results)
|
||||
map_upsert :: proc(m: ^$T/map[$K]$V, key: K, value: V, loc := #caller_location) -> (prev_key: K, value_ptr: ^V, found_previous: bool) {
|
||||
key, value := key, value
|
||||
kp, vp := __dynamic_map_set_extra_without_hash((^Raw_Map)(m), map_info(T), rawptr(&key), rawptr(&value), loc)
|
||||
if kp != nil {
|
||||
prev_key = (^K)(kp)^
|
||||
found_previous = true
|
||||
}
|
||||
value_ptr = (^V)(vp)
|
||||
return
|
||||
}
|
||||
@builtin
|
||||
incl_bit_set :: proc(s: ^$S/bit_set[$E; $U], other: S) {
|
||||
s^ |= other
|
||||
}
|
||||
@builtin
|
||||
excl_elem :: proc(s: ^$S/bit_set[$E; $U], elem: E) {
|
||||
s^ &~= {elem}
|
||||
}
|
||||
@builtin
|
||||
excl_elems :: proc(s: ^$S/bit_set[$E; $U], elems: ..E) {
|
||||
for elem in elems {
|
||||
s^ &~= {elem}
|
||||
}
|
||||
}
|
||||
@builtin
|
||||
excl_bit_set :: proc(s: ^$S/bit_set[$E; $U], other: S) {
|
||||
s^ &~= other
|
||||
}
|
||||
|
||||
@builtin incl :: proc{incl_elem, incl_elems, incl_bit_set}
|
||||
@builtin excl :: proc{excl_elem, excl_elems, excl_bit_set}
|
||||
|
||||
|
||||
@builtin
|
||||
card :: proc(s: $S/bit_set[$E; $U]) -> int {
|
||||
card :: proc "contextless" (s: $S/bit_set[$E; $U]) -> int {
|
||||
when size_of(S) == 1 {
|
||||
return int(intrinsics.count_ones(transmute(u8)s))
|
||||
} else when size_of(S) == 2 {
|
||||
@@ -1,6 +1,6 @@
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
_ :: intrinsics
|
||||
|
||||
/*
|
||||
@@ -425,4 +425,97 @@ clear_soa_dynamic_array :: proc(array: ^$T/#soa[dynamic]$E) {
|
||||
@builtin
|
||||
clear_soa :: proc{
|
||||
clear_soa_dynamic_array,
|
||||
}
|
||||
}
|
||||
|
||||
// Converts soa slice into a soa dynamic array without cloning or allocating memory
|
||||
@(require_results)
|
||||
into_dynamic_soa :: proc(array: $T/#soa[]$E) -> #soa[dynamic]E {
|
||||
d: #soa[dynamic]E
|
||||
footer := raw_soa_footer_dynamic_array(&d)
|
||||
footer^ = {
|
||||
cap = len(array),
|
||||
len = 0,
|
||||
allocator = nil_allocator(),
|
||||
}
|
||||
|
||||
field_count: uintptr
|
||||
when intrinsics.type_is_array(E) {
|
||||
field_count = len(E)
|
||||
} else {
|
||||
field_count = uintptr(intrinsics.type_struct_field_count(E))
|
||||
}
|
||||
|
||||
array := array
|
||||
dynamic_data := ([^]rawptr)(&d)[:field_count]
|
||||
slice_data := ([^]rawptr)(&array)[:field_count]
|
||||
copy(dynamic_data, slice_data)
|
||||
|
||||
return d
|
||||
}
|
||||
|
||||
// `unordered_remove_soa` removed the element at the specified `index`. It does so by replacing the current end value
|
||||
// with the old value, and reducing the length of the dynamic array by 1.
|
||||
//
|
||||
// Note: This is an O(1) operation.
|
||||
// Note: If you the elements to remain in their order, use `ordered_remove_soa`.
|
||||
// Note: If the index is out of bounds, this procedure will panic.
|
||||
@builtin
|
||||
unordered_remove_soa :: proc(array: ^$T/#soa[dynamic]$E, index: int, loc := #caller_location) #no_bounds_check {
|
||||
bounds_check_error_loc(loc, index, len(array))
|
||||
if index+1 < len(array) {
|
||||
ti := type_info_of(typeid_of(T))
|
||||
ti = type_info_base(ti)
|
||||
si := &ti.variant.(Type_Info_Struct)
|
||||
|
||||
field_count: uintptr
|
||||
when intrinsics.type_is_array(E) {
|
||||
field_count = len(E)
|
||||
} else {
|
||||
field_count = uintptr(intrinsics.type_struct_field_count(E))
|
||||
}
|
||||
|
||||
data := uintptr(array)
|
||||
for i in 0..<field_count {
|
||||
type := si.types[i].variant.(Type_Info_Pointer).elem
|
||||
|
||||
offset := rawptr((^uintptr)(data)^ + uintptr(index*type.size))
|
||||
final := rawptr((^uintptr)(data)^ + uintptr((len(array)-1)*type.size))
|
||||
mem_copy(offset, final, type.size)
|
||||
data += size_of(rawptr)
|
||||
}
|
||||
}
|
||||
raw_soa_footer_dynamic_array(array).len -= 1
|
||||
}
|
||||
|
||||
// `ordered_remove_soa` removed the element at the specified `index` whilst keeping the order of the other elements.
|
||||
//
|
||||
// Note: This is an O(N) operation.
|
||||
// Note: If you the elements do not have to remain in their order, prefer `unordered_remove_soa`.
|
||||
// Note: If the index is out of bounds, this procedure will panic.
|
||||
@builtin
|
||||
ordered_remove_soa :: proc(array: ^$T/#soa[dynamic]$E, index: int, loc := #caller_location) #no_bounds_check {
|
||||
bounds_check_error_loc(loc, index, len(array))
|
||||
if index+1 < len(array) {
|
||||
ti := type_info_of(typeid_of(T))
|
||||
ti = type_info_base(ti)
|
||||
si := &ti.variant.(Type_Info_Struct)
|
||||
|
||||
field_count: uintptr
|
||||
when intrinsics.type_is_array(E) {
|
||||
field_count = len(E)
|
||||
} else {
|
||||
field_count = uintptr(intrinsics.type_struct_field_count(E))
|
||||
}
|
||||
|
||||
data := uintptr(array)
|
||||
for i in 0..<field_count {
|
||||
type := si.types[i].variant.(Type_Info_Pointer).elem
|
||||
|
||||
offset := (^uintptr)(data)^ + uintptr(index*type.size)
|
||||
length := type.size*(len(array) - index - 1)
|
||||
mem_copy(rawptr(offset), rawptr(offset + uintptr(type.size)), length)
|
||||
data += size_of(rawptr)
|
||||
}
|
||||
}
|
||||
raw_soa_footer_dynamic_array(array).len -= 1
|
||||
}
|
||||
+2
-2
@@ -1,6 +1,6 @@
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
DEFAULT_ARENA_GROWING_MINIMUM_BLOCK_SIZE :: uint(DEFAULT_TEMP_ALLOCATOR_BACKING_SIZE)
|
||||
|
||||
@@ -195,7 +195,7 @@ arena_allocator_proc :: proc(allocator_data: rawptr, mode: Allocator_Mode,
|
||||
err = .Mode_Not_Implemented
|
||||
case .Free_All:
|
||||
arena_free_all(arena, location)
|
||||
case .Resize:
|
||||
case .Resize, .Resize_Non_Zeroed:
|
||||
old_data := ([^]byte)(old_memory)
|
||||
|
||||
switch {
|
||||
@@ -0,0 +1,12 @@
|
||||
package runtime
|
||||
|
||||
when ODIN_DEFAULT_TO_NIL_ALLOCATOR {
|
||||
default_allocator_proc :: nil_allocator_proc
|
||||
default_allocator :: nil_allocator
|
||||
} else when ODIN_DEFAULT_TO_PANIC_ALLOCATOR {
|
||||
default_allocator_proc :: panic_allocator_proc
|
||||
default_allocator :: panic_allocator
|
||||
} else {
|
||||
default_allocator :: heap_allocator
|
||||
default_allocator_proc :: heap_allocator_proc
|
||||
}
|
||||
@@ -10,7 +10,7 @@ nil_allocator_proc :: proc(allocator_data: rawptr, mode: Allocator_Mode,
|
||||
return nil, .None
|
||||
case .Free_All:
|
||||
return nil, .Mode_Not_Implemented
|
||||
case .Resize:
|
||||
case .Resize, .Resize_Non_Zeroed:
|
||||
if size == 0 {
|
||||
return nil, .None
|
||||
}
|
||||
@@ -31,14 +31,6 @@ nil_allocator :: proc() -> Allocator {
|
||||
}
|
||||
|
||||
|
||||
|
||||
when ODIN_OS == .Freestanding {
|
||||
default_allocator_proc :: nil_allocator_proc
|
||||
default_allocator :: nil_allocator
|
||||
}
|
||||
|
||||
|
||||
|
||||
panic_allocator_proc :: proc(allocator_data: rawptr, mode: Allocator_Mode,
|
||||
size, alignment: int,
|
||||
old_memory: rawptr, old_size: int, loc := #caller_location) -> ([]byte, Allocator_Error) {
|
||||
@@ -55,6 +47,10 @@ panic_allocator_proc :: proc(allocator_data: rawptr, mode: Allocator_Mode,
|
||||
if size > 0 {
|
||||
panic("panic allocator, .Resize called", loc=loc)
|
||||
}
|
||||
case .Resize_Non_Zeroed:
|
||||
if size > 0 {
|
||||
panic("panic allocator, .Alloc_Non_Zeroed called", loc=loc)
|
||||
}
|
||||
case .Free:
|
||||
if old_memory != nil {
|
||||
panic("panic allocator, .Free called", loc=loc)
|
||||
@@ -44,7 +44,7 @@ memcpy
|
||||
memove
|
||||
|
||||
|
||||
## Procedures required by the LLVM backend
|
||||
## Procedures required by the LLVM backend if u128/i128 is used
|
||||
umodti3
|
||||
udivti3
|
||||
modti3
|
||||
@@ -59,11 +59,12 @@ truncdfhf2
|
||||
gnu_h2f_ieee
|
||||
gnu_f2h_ieee
|
||||
extendhfsf2
|
||||
|
||||
## Procedures required by the LLVM backend if f16 is used
|
||||
__ashlti3 // wasm specific
|
||||
__multi3 // wasm specific
|
||||
|
||||
|
||||
|
||||
## Required an entry point is defined (i.e. 'main')
|
||||
|
||||
args__
|
||||
@@ -1,6 +1,6 @@
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
_ :: intrinsics
|
||||
|
||||
// High performance, cache-friendly, open-addressed Robin Hood hashing hash map
|
||||
@@ -333,7 +333,7 @@ map_kvh_data_values_dynamic :: proc "contextless" (m: Raw_Map, #no_alias info: ^
|
||||
}
|
||||
|
||||
|
||||
@(private, require_results)
|
||||
@(require_results)
|
||||
map_total_allocation_size :: #force_inline proc "contextless" (capacity: uintptr, info: ^Map_Info) -> uintptr {
|
||||
round :: #force_inline proc "contextless" (value: uintptr) -> uintptr {
|
||||
CACHE_MASK :: MAP_CACHE_LINE_SIZE - 1
|
||||
@@ -350,6 +350,12 @@ map_total_allocation_size :: #force_inline proc "contextless" (capacity: uintptr
|
||||
return size
|
||||
}
|
||||
|
||||
@(require_results)
|
||||
map_total_allocation_size_from_value :: #force_inline proc "contextless" (m: $M/map[$K]$V) -> uintptr {
|
||||
return map_total_allocation_size(uintptr(cap(m)), map_info(M))
|
||||
}
|
||||
|
||||
|
||||
// The only procedure which needs access to the context is the one which allocates the map.
|
||||
@(require_results)
|
||||
map_alloc_dynamic :: proc "odin" (info: ^Map_Info, log2_capacity: uintptr, allocator := context.allocator, loc := #caller_location) -> (result: Raw_Map, err: Allocator_Error) {
|
||||
@@ -391,7 +397,8 @@ map_alloc_dynamic :: proc "odin" (info: ^Map_Info, log2_capacity: uintptr, alloc
|
||||
// arrays to reduce variance. This swapping can only be done with memcpy since
|
||||
// there is no type information.
|
||||
//
|
||||
// This procedure returns the address of the just inserted value.
|
||||
// This procedure returns the address of the just inserted value, and will
|
||||
// return 'nil' if there was no room to insert the entry
|
||||
@(require_results)
|
||||
map_insert_hash_dynamic :: proc "odin" (#no_alias m: ^Raw_Map, #no_alias info: ^Map_Info, h: Map_Hash, ik: uintptr, iv: uintptr) -> (result: uintptr) {
|
||||
h := h
|
||||
@@ -415,6 +422,11 @@ map_insert_hash_dynamic :: proc "odin" (#no_alias m: ^Raw_Map, #no_alias info: ^
|
||||
tv := map_cell_index_dynamic(sv, info.vs, 1)
|
||||
|
||||
swap_loop: for {
|
||||
if distance > mask {
|
||||
// Failed to find an empty slot and prevent infinite loop
|
||||
panic("unable to insert into a map")
|
||||
}
|
||||
|
||||
element_hash := hs[pos]
|
||||
|
||||
if map_hash_is_empty(element_hash) {
|
||||
@@ -841,6 +853,33 @@ __dynamic_map_get :: proc "contextless" (#no_alias m: ^Raw_Map, #no_alias info:
|
||||
}
|
||||
}
|
||||
|
||||
__dynamic_map_get_key_and_value :: proc "contextless" (#no_alias m: ^Raw_Map, #no_alias info: ^Map_Info, h: Map_Hash, key: rawptr) -> (key_ptr, value_ptr: rawptr) {
|
||||
if m.len == 0 {
|
||||
return nil, nil
|
||||
}
|
||||
pos := map_desired_position(m^, h)
|
||||
distance := uintptr(0)
|
||||
mask := (uintptr(1) << map_log2_cap(m^)) - 1
|
||||
ks, vs, hs, _, _ := map_kvh_data_dynamic(m^, info)
|
||||
for {
|
||||
element_hash := hs[pos]
|
||||
if map_hash_is_empty(element_hash) {
|
||||
return nil, nil
|
||||
} else if distance > map_probe_distance(m^, element_hash, pos) {
|
||||
return nil, nil
|
||||
} else if element_hash == h {
|
||||
other_key := rawptr(map_cell_index_dynamic(ks, info.ks, pos))
|
||||
if info.key_equal(key, other_key) {
|
||||
key_ptr = other_key
|
||||
value_ptr = rawptr(map_cell_index_dynamic(vs, info.vs, pos))
|
||||
return
|
||||
}
|
||||
}
|
||||
pos = (pos + 1) & mask
|
||||
distance += 1
|
||||
}
|
||||
}
|
||||
|
||||
// IMPORTANT: USED WITHIN THE COMPILER
|
||||
__dynamic_map_check_grow :: proc "odin" (#no_alias m: ^Raw_Map, #no_alias info: ^Map_Info, loc := #caller_location) -> (err: Allocator_Error, has_grown: bool) {
|
||||
if m.len >= map_resize_threshold(m^) {
|
||||
@@ -871,9 +910,37 @@ __dynamic_map_set :: proc "odin" (#no_alias m: ^Raw_Map, #no_alias info: ^Map_In
|
||||
}
|
||||
|
||||
result := map_insert_hash_dynamic(m, info, hash, uintptr(key), uintptr(value))
|
||||
m.len += 1
|
||||
if result != 0 {
|
||||
m.len += 1
|
||||
}
|
||||
return rawptr(result)
|
||||
}
|
||||
__dynamic_map_set_extra_without_hash :: proc "odin" (#no_alias m: ^Raw_Map, #no_alias info: ^Map_Info, key, value: rawptr, loc := #caller_location) -> (prev_key_ptr, value_ptr: rawptr) {
|
||||
return __dynamic_map_set_extra(m, info, info.key_hasher(key, map_seed(m^)), key, value, loc)
|
||||
}
|
||||
|
||||
__dynamic_map_set_extra :: proc "odin" (#no_alias m: ^Raw_Map, #no_alias info: ^Map_Info, hash: Map_Hash, key, value: rawptr, loc := #caller_location) -> (prev_key_ptr, value_ptr: rawptr) {
|
||||
if prev_key_ptr, value_ptr = __dynamic_map_get_key_and_value(m, info, hash, key); value_ptr != nil {
|
||||
intrinsics.mem_copy_non_overlapping(value_ptr, value, info.vs.size_of_type)
|
||||
return
|
||||
}
|
||||
|
||||
hash := hash
|
||||
err, has_grown := __dynamic_map_check_grow(m, info, loc)
|
||||
if err != nil {
|
||||
return nil, nil
|
||||
}
|
||||
if has_grown {
|
||||
hash = info.key_hasher(key, map_seed(m^))
|
||||
}
|
||||
|
||||
result := map_insert_hash_dynamic(m, info, hash, uintptr(key), uintptr(value))
|
||||
if result != 0 {
|
||||
m.len += 1
|
||||
}
|
||||
return nil, rawptr(result)
|
||||
}
|
||||
|
||||
|
||||
// IMPORTANT: USED WITHIN THE COMPILER
|
||||
@(private)
|
||||
@@ -1,8 +1,9 @@
|
||||
//+private
|
||||
//+build linux, darwin, freebsd, openbsd
|
||||
//+build linux, darwin, freebsd, openbsd, haiku
|
||||
//+no-instrumentation
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
when ODIN_BUILD_MODE == .Dynamic {
|
||||
@(link_name="_odin_entry_point", linkage="strong", require/*, link_section=".init"*/)
|
||||
@@ -1,8 +1,9 @@
|
||||
//+private
|
||||
//+build wasm32, wasm64p32
|
||||
//+no-instrumentation
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
when !ODIN_TEST && !ODIN_NO_ENTRY_POINT {
|
||||
@(link_name="_start", linkage="strong", require, export)
|
||||
@@ -1,12 +1,13 @@
|
||||
//+private
|
||||
//+build windows
|
||||
//+no-instrumentation
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
when ODIN_BUILD_MODE == .Dynamic {
|
||||
@(link_name="DllMain", linkage="strong", require)
|
||||
DllMain :: proc "stdcall" (hinstDLL: rawptr, fdwReason: u32, lpReserved: rawptr) -> b32 {
|
||||
DllMain :: proc "system" (hinstDLL: rawptr, fdwReason: u32, lpReserved: rawptr) -> b32 {
|
||||
context = default_context()
|
||||
|
||||
// Populate Windows DLL-specific global
|
||||
@@ -28,7 +29,7 @@ when ODIN_BUILD_MODE == .Dynamic {
|
||||
} else when !ODIN_TEST && !ODIN_NO_ENTRY_POINT {
|
||||
when ODIN_ARCH == .i386 || ODIN_NO_CRT {
|
||||
@(link_name="mainCRTStartup", linkage="strong", require)
|
||||
mainCRTStartup :: proc "stdcall" () -> i32 {
|
||||
mainCRTStartup :: proc "system" () -> i32 {
|
||||
context = default_context()
|
||||
#force_no_inline _startup_runtime()
|
||||
intrinsics.__entry_point()
|
||||
@@ -1,5 +1,6 @@
|
||||
package runtime
|
||||
|
||||
@(no_instrumentation)
|
||||
bounds_trap :: proc "contextless" () -> ! {
|
||||
when ODIN_OS == .Windows {
|
||||
windows_trap_array_bounds()
|
||||
@@ -8,6 +9,7 @@ bounds_trap :: proc "contextless" () -> ! {
|
||||
}
|
||||
}
|
||||
|
||||
@(no_instrumentation)
|
||||
type_assertion_trap :: proc "contextless" () -> ! {
|
||||
when ODIN_OS == .Windows {
|
||||
windows_trap_type_assertion()
|
||||
@@ -17,11 +19,12 @@ type_assertion_trap :: proc "contextless" () -> ! {
|
||||
}
|
||||
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
bounds_check_error :: proc "contextless" (file: string, line, column: i32, index, count: int) {
|
||||
if uint(index) < uint(count) {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32, index, count: int) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Index ")
|
||||
@@ -34,6 +37,7 @@ bounds_check_error :: proc "contextless" (file: string, line, column: i32, index
|
||||
handle_error(file, line, column, index, count)
|
||||
}
|
||||
|
||||
@(no_instrumentation)
|
||||
slice_handle_error :: proc "contextless" (file: string, line, column: i32, lo, hi: int, len: int) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Invalid slice indices ")
|
||||
@@ -46,6 +50,7 @@ slice_handle_error :: proc "contextless" (file: string, line, column: i32, lo, h
|
||||
bounds_trap()
|
||||
}
|
||||
|
||||
@(no_instrumentation)
|
||||
multi_pointer_slice_handle_error :: proc "contextless" (file: string, line, column: i32, lo, hi: int) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Invalid slice indices ")
|
||||
@@ -57,6 +62,7 @@ multi_pointer_slice_handle_error :: proc "contextless" (file: string, line, colu
|
||||
}
|
||||
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
multi_pointer_slice_expr_error :: proc "contextless" (file: string, line, column: i32, lo, hi: int) {
|
||||
if lo <= hi {
|
||||
return
|
||||
@@ -64,6 +70,7 @@ multi_pointer_slice_expr_error :: proc "contextless" (file: string, line, column
|
||||
multi_pointer_slice_handle_error(file, line, column, lo, hi)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
slice_expr_error_hi :: proc "contextless" (file: string, line, column: i32, hi: int, len: int) {
|
||||
if 0 <= hi && hi <= len {
|
||||
return
|
||||
@@ -71,6 +78,7 @@ slice_expr_error_hi :: proc "contextless" (file: string, line, column: i32, hi:
|
||||
slice_handle_error(file, line, column, 0, hi, len)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
slice_expr_error_lo_hi :: proc "contextless" (file: string, line, column: i32, lo, hi: int, len: int) {
|
||||
if 0 <= lo && lo <= len && lo <= hi && hi <= len {
|
||||
return
|
||||
@@ -78,11 +86,12 @@ slice_expr_error_lo_hi :: proc "contextless" (file: string, line, column: i32, l
|
||||
slice_handle_error(file, line, column, lo, hi, len)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
dynamic_array_expr_error :: proc "contextless" (file: string, line, column: i32, low, high, max: int) {
|
||||
if 0 <= low && low <= high && high <= max {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32, low, high, max: int) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Invalid dynamic array indices ")
|
||||
@@ -98,12 +107,13 @@ dynamic_array_expr_error :: proc "contextless" (file: string, line, column: i32,
|
||||
}
|
||||
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
matrix_bounds_check_error :: proc "contextless" (file: string, line, column: i32, row_index, column_index, row_count, column_count: int) {
|
||||
if uint(row_index) < uint(row_count) &&
|
||||
uint(column_index) < uint(column_count) {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32, row_index, column_index, row_count, column_count: int) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Matrix indices [")
|
||||
@@ -127,7 +137,7 @@ when ODIN_NO_RTTI {
|
||||
if ok {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Invalid type assertion\n")
|
||||
@@ -140,7 +150,7 @@ when ODIN_NO_RTTI {
|
||||
if ok {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Invalid type assertion\n")
|
||||
@@ -153,7 +163,7 @@ when ODIN_NO_RTTI {
|
||||
if ok {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32, from, to: typeid) -> ! {
|
||||
print_caller_location(Source_Code_Location{file, line, column, ""})
|
||||
print_string(" Invalid type assertion from ")
|
||||
@@ -198,7 +208,7 @@ when ODIN_NO_RTTI {
|
||||
return id
|
||||
}
|
||||
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (file: string, line, column: i32, from, to: typeid, from_data: rawptr) -> ! {
|
||||
|
||||
actual := variant_type(from, from_data)
|
||||
@@ -220,11 +230,12 @@ when ODIN_NO_RTTI {
|
||||
}
|
||||
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
make_slice_error_loc :: #force_inline proc "contextless" (loc := #caller_location, len: int) {
|
||||
if 0 <= len {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (loc: Source_Code_Location, len: int) -> ! {
|
||||
print_caller_location(loc)
|
||||
print_string(" Invalid slice length for make: ")
|
||||
@@ -235,11 +246,12 @@ make_slice_error_loc :: #force_inline proc "contextless" (loc := #caller_locatio
|
||||
handle_error(loc, len)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
make_dynamic_array_error_loc :: #force_inline proc "contextless" (loc := #caller_location, len, cap: int) {
|
||||
if 0 <= len && len <= cap {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (loc: Source_Code_Location, len, cap: int) -> ! {
|
||||
print_caller_location(loc)
|
||||
print_string(" Invalid dynamic array parameters for make: ")
|
||||
@@ -252,11 +264,12 @@ make_dynamic_array_error_loc :: #force_inline proc "contextless" (loc := #caller
|
||||
handle_error(loc, len, cap)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
make_map_expr_error_loc :: #force_inline proc "contextless" (loc := #caller_location, cap: int) {
|
||||
if 0 <= cap {
|
||||
return
|
||||
}
|
||||
@(cold)
|
||||
@(cold, no_instrumentation)
|
||||
handle_error :: proc "contextless" (loc: Source_Code_Location, cap: int) -> ! {
|
||||
print_caller_location(loc)
|
||||
print_string(" Invalid map capacity for make: ")
|
||||
@@ -270,19 +283,22 @@ make_map_expr_error_loc :: #force_inline proc "contextless" (loc := #caller_loca
|
||||
|
||||
|
||||
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
bounds_check_error_loc :: #force_inline proc "contextless" (loc := #caller_location, index, count: int) {
|
||||
bounds_check_error(loc.file_path, loc.line, loc.column, index, count)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
slice_expr_error_hi_loc :: #force_inline proc "contextless" (loc := #caller_location, hi: int, len: int) {
|
||||
slice_expr_error_hi(loc.file_path, loc.line, loc.column, hi, len)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
slice_expr_error_lo_hi_loc :: #force_inline proc "contextless" (loc := #caller_location, lo, hi: int, len: int) {
|
||||
slice_expr_error_lo_hi(loc.file_path, loc.line, loc.column, lo, hi, len)
|
||||
}
|
||||
|
||||
@(disabled=ODIN_NO_BOUNDS_CHECK)
|
||||
dynamic_array_expr_error_loc :: #force_inline proc "contextless" (loc := #caller_location, low, high, max: int) {
|
||||
dynamic_array_expr_error(loc.file_path, loc.line, loc.column, low, high, max)
|
||||
}
|
||||
@@ -0,0 +1,110 @@
|
||||
package runtime
|
||||
|
||||
import "base:intrinsics"
|
||||
|
||||
heap_allocator :: proc() -> Allocator {
|
||||
return Allocator{
|
||||
procedure = heap_allocator_proc,
|
||||
data = nil,
|
||||
}
|
||||
}
|
||||
|
||||
heap_allocator_proc :: proc(allocator_data: rawptr, mode: Allocator_Mode,
|
||||
size, alignment: int,
|
||||
old_memory: rawptr, old_size: int, loc := #caller_location) -> ([]byte, Allocator_Error) {
|
||||
//
|
||||
// NOTE(tetra, 2020-01-14): The heap doesn't respect alignment.
|
||||
// Instead, we overallocate by `alignment + size_of(rawptr) - 1`, and insert
|
||||
// padding. We also store the original pointer returned by heap_alloc right before
|
||||
// the pointer we return to the user.
|
||||
//
|
||||
|
||||
aligned_alloc :: proc(size, alignment: int, old_ptr: rawptr = nil, zero_memory := true) -> ([]byte, Allocator_Error) {
|
||||
a := max(alignment, align_of(rawptr))
|
||||
space := size + a - 1
|
||||
|
||||
allocated_mem: rawptr
|
||||
if old_ptr != nil {
|
||||
original_old_ptr := ([^]rawptr)(old_ptr)[-1]
|
||||
allocated_mem = heap_resize(original_old_ptr, space+size_of(rawptr))
|
||||
} else {
|
||||
allocated_mem = heap_alloc(space+size_of(rawptr), zero_memory)
|
||||
}
|
||||
aligned_mem := rawptr(([^]u8)(allocated_mem)[size_of(rawptr):])
|
||||
|
||||
ptr := uintptr(aligned_mem)
|
||||
aligned_ptr := (ptr - 1 + uintptr(a)) & -uintptr(a)
|
||||
diff := int(aligned_ptr - ptr)
|
||||
if (size + diff) > space || allocated_mem == nil {
|
||||
return nil, .Out_Of_Memory
|
||||
}
|
||||
|
||||
aligned_mem = rawptr(aligned_ptr)
|
||||
([^]rawptr)(aligned_mem)[-1] = allocated_mem
|
||||
|
||||
return byte_slice(aligned_mem, size), nil
|
||||
}
|
||||
|
||||
aligned_free :: proc(p: rawptr) {
|
||||
if p != nil {
|
||||
heap_free(([^]rawptr)(p)[-1])
|
||||
}
|
||||
}
|
||||
|
||||
aligned_resize :: proc(p: rawptr, old_size: int, new_size: int, new_alignment: int, zero_memory := true) -> (new_memory: []byte, err: Allocator_Error) {
|
||||
if p == nil {
|
||||
return nil, nil
|
||||
}
|
||||
|
||||
new_memory = aligned_alloc(new_size, new_alignment, p, zero_memory) or_return
|
||||
|
||||
// NOTE: heap_resize does not zero the new memory, so we do it
|
||||
if zero_memory && new_size > old_size {
|
||||
new_region := raw_data(new_memory[old_size:])
|
||||
intrinsics.mem_zero(new_region, new_size - old_size)
|
||||
}
|
||||
return
|
||||
}
|
||||
|
||||
switch mode {
|
||||
case .Alloc, .Alloc_Non_Zeroed:
|
||||
return aligned_alloc(size, alignment, nil, mode == .Alloc)
|
||||
|
||||
case .Free:
|
||||
aligned_free(old_memory)
|
||||
|
||||
case .Free_All:
|
||||
return nil, .Mode_Not_Implemented
|
||||
|
||||
case .Resize, .Resize_Non_Zeroed:
|
||||
if old_memory == nil {
|
||||
return aligned_alloc(size, alignment, nil, mode == .Resize)
|
||||
}
|
||||
return aligned_resize(old_memory, old_size, size, alignment, mode == .Resize)
|
||||
|
||||
case .Query_Features:
|
||||
set := (^Allocator_Mode_Set)(old_memory)
|
||||
if set != nil {
|
||||
set^ = {.Alloc, .Alloc_Non_Zeroed, .Free, .Resize, .Resize_Non_Zeroed, .Query_Features}
|
||||
}
|
||||
return nil, nil
|
||||
|
||||
case .Query_Info:
|
||||
return nil, .Mode_Not_Implemented
|
||||
}
|
||||
|
||||
return nil, nil
|
||||
}
|
||||
|
||||
|
||||
heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
|
||||
return _heap_alloc(size, zero_memory)
|
||||
}
|
||||
|
||||
heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
|
||||
return _heap_resize(ptr, new_size)
|
||||
}
|
||||
|
||||
heap_free :: proc(ptr: rawptr) {
|
||||
_heap_free(ptr)
|
||||
}
|
||||
@@ -0,0 +1,15 @@
|
||||
//+build js, wasi, freestanding, essence
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
|
||||
unimplemented("base:runtime 'heap_alloc' procedure is not supported on this platform")
|
||||
}
|
||||
|
||||
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
|
||||
unimplemented("base:runtime 'heap_resize' procedure is not supported on this platform")
|
||||
}
|
||||
|
||||
_heap_free :: proc(ptr: rawptr) {
|
||||
unimplemented("base:runtime 'heap_free' procedure is not supported on this platform")
|
||||
}
|
||||
@@ -0,0 +1,38 @@
|
||||
//+build linux, darwin, freebsd, openbsd, haiku
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
when ODIN_OS == .Darwin {
|
||||
foreign import libc "system:System.framework"
|
||||
} else {
|
||||
foreign import libc "system:c"
|
||||
}
|
||||
|
||||
@(default_calling_convention="c")
|
||||
foreign libc {
|
||||
@(link_name="malloc") _unix_malloc :: proc(size: int) -> rawptr ---
|
||||
@(link_name="calloc") _unix_calloc :: proc(num, size: int) -> rawptr ---
|
||||
@(link_name="free") _unix_free :: proc(ptr: rawptr) ---
|
||||
@(link_name="realloc") _unix_realloc :: proc(ptr: rawptr, size: int) -> rawptr ---
|
||||
}
|
||||
|
||||
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
|
||||
if size <= 0 {
|
||||
return nil
|
||||
}
|
||||
if zero_memory {
|
||||
return _unix_calloc(1, size)
|
||||
} else {
|
||||
return _unix_malloc(size)
|
||||
}
|
||||
}
|
||||
|
||||
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
|
||||
// NOTE: _unix_realloc doesn't guarantee new memory will be zeroed on
|
||||
// POSIX platforms. Ensure your caller takes this into account.
|
||||
return _unix_realloc(ptr, new_size)
|
||||
}
|
||||
|
||||
_heap_free :: proc(ptr: rawptr) {
|
||||
_unix_free(ptr)
|
||||
}
|
||||
@@ -0,0 +1,39 @@
|
||||
package runtime
|
||||
|
||||
foreign import kernel32 "system:Kernel32.lib"
|
||||
|
||||
@(private="file")
|
||||
@(default_calling_convention="system")
|
||||
foreign kernel32 {
|
||||
// NOTE(bill): The types are not using the standard names (e.g. DWORD and LPVOID) to just minimizing the dependency
|
||||
|
||||
// default_allocator
|
||||
GetProcessHeap :: proc() -> rawptr ---
|
||||
HeapAlloc :: proc(hHeap: rawptr, dwFlags: u32, dwBytes: uint) -> rawptr ---
|
||||
HeapReAlloc :: proc(hHeap: rawptr, dwFlags: u32, lpMem: rawptr, dwBytes: uint) -> rawptr ---
|
||||
HeapFree :: proc(hHeap: rawptr, dwFlags: u32, lpMem: rawptr) -> b32 ---
|
||||
}
|
||||
|
||||
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
|
||||
HEAP_ZERO_MEMORY :: 0x00000008
|
||||
return HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY if zero_memory else 0, uint(size))
|
||||
}
|
||||
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
|
||||
if new_size == 0 {
|
||||
_heap_free(ptr)
|
||||
return nil
|
||||
}
|
||||
if ptr == nil {
|
||||
return _heap_alloc(new_size)
|
||||
}
|
||||
|
||||
HEAP_ZERO_MEMORY :: 0x00000008
|
||||
return HeapReAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, ptr, uint(new_size))
|
||||
}
|
||||
_heap_free :: proc(ptr: rawptr) {
|
||||
if ptr == nil {
|
||||
return
|
||||
}
|
||||
HeapFree(GetProcessHeap(), 0, ptr)
|
||||
}
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
@(private="file")
|
||||
IS_WASM :: ODIN_ARCH == .wasm32 || ODIN_ARCH == .wasm64p32
|
||||
@@ -11,7 +11,7 @@ RUNTIME_LINKAGE :: "strong" when (
|
||||
ODIN_BUILD_MODE == .Dynamic ||
|
||||
!ODIN_NO_CRT) &&
|
||||
!IS_WASM) else "internal"
|
||||
RUNTIME_REQUIRE :: !ODIN_TILDE
|
||||
RUNTIME_REQUIRE :: false // !ODIN_TILDE
|
||||
|
||||
@(private)
|
||||
__float16 :: f16 when __ODIN_LLVM_F16_SUPPORTED else u16
|
||||
@@ -22,51 +22,7 @@ byte_slice :: #force_inline proc "contextless" (data: rawptr, len: int) -> []byt
|
||||
return ([^]byte)(data)[:max(len, 0)]
|
||||
}
|
||||
|
||||
bswap_16 :: proc "contextless" (x: u16) -> u16 {
|
||||
return x>>8 | x<<8
|
||||
}
|
||||
|
||||
bswap_32 :: proc "contextless" (x: u32) -> u32 {
|
||||
return x>>24 | (x>>8)&0xff00 | (x<<8)&0xff0000 | x<<24
|
||||
}
|
||||
|
||||
bswap_64 :: proc "contextless" (x: u64) -> u64 {
|
||||
z := x
|
||||
z = (z & 0x00000000ffffffff) << 32 | (z & 0xffffffff00000000) >> 32
|
||||
z = (z & 0x0000ffff0000ffff) << 16 | (z & 0xffff0000ffff0000) >> 16
|
||||
z = (z & 0x00ff00ff00ff00ff) << 8 | (z & 0xff00ff00ff00ff00) >> 8
|
||||
return z
|
||||
}
|
||||
|
||||
bswap_128 :: proc "contextless" (x: u128) -> u128 {
|
||||
z := transmute([4]u32)x
|
||||
z[0], z[3] = bswap_32(z[3]), bswap_32(z[0])
|
||||
z[1], z[2] = bswap_32(z[2]), bswap_32(z[1])
|
||||
return transmute(u128)z
|
||||
}
|
||||
|
||||
bswap_f16 :: proc "contextless" (f: f16) -> f16 {
|
||||
x := transmute(u16)f
|
||||
z := bswap_16(x)
|
||||
return transmute(f16)z
|
||||
|
||||
}
|
||||
|
||||
bswap_f32 :: proc "contextless" (f: f32) -> f32 {
|
||||
x := transmute(u32)f
|
||||
z := bswap_32(x)
|
||||
return transmute(f32)z
|
||||
|
||||
}
|
||||
|
||||
bswap_f64 :: proc "contextless" (f: f64) -> f64 {
|
||||
x := transmute(u64)f
|
||||
z := bswap_64(x)
|
||||
return transmute(f64)z
|
||||
}
|
||||
|
||||
|
||||
is_power_of_two_int :: #force_inline proc(x: int) -> bool {
|
||||
is_power_of_two_int :: #force_inline proc "contextless" (x: int) -> bool {
|
||||
if x <= 0 {
|
||||
return false
|
||||
}
|
||||
@@ -84,7 +40,7 @@ align_forward_int :: #force_inline proc(ptr, align: int) -> int {
|
||||
return p
|
||||
}
|
||||
|
||||
is_power_of_two_uintptr :: #force_inline proc(x: uintptr) -> bool {
|
||||
is_power_of_two_uintptr :: #force_inline proc "contextless" (x: uintptr) -> bool {
|
||||
if x <= 0 {
|
||||
return false
|
||||
}
|
||||
@@ -187,7 +143,7 @@ mem_free_all :: #force_inline proc(allocator := context.allocator, loc := #calle
|
||||
return
|
||||
}
|
||||
|
||||
mem_resize :: proc(ptr: rawptr, old_size, new_size: int, alignment: int = DEFAULT_ALIGNMENT, allocator := context.allocator, loc := #caller_location) -> (data: []byte, err: Allocator_Error) {
|
||||
_mem_resize :: #force_inline proc(ptr: rawptr, old_size, new_size: int, alignment: int = DEFAULT_ALIGNMENT, allocator := context.allocator, should_zero: bool, loc := #caller_location) -> (data: []byte, err: Allocator_Error) {
|
||||
if allocator.procedure == nil {
|
||||
return nil, nil
|
||||
}
|
||||
@@ -198,15 +154,27 @@ mem_resize :: proc(ptr: rawptr, old_size, new_size: int, alignment: int = DEFAUL
|
||||
}
|
||||
return
|
||||
} else if ptr == nil {
|
||||
return allocator.procedure(allocator.data, .Alloc, new_size, alignment, nil, 0, loc)
|
||||
if should_zero {
|
||||
return allocator.procedure(allocator.data, .Alloc, new_size, alignment, nil, 0, loc)
|
||||
} else {
|
||||
return allocator.procedure(allocator.data, .Alloc_Non_Zeroed, new_size, alignment, nil, 0, loc)
|
||||
}
|
||||
} else if old_size == new_size && uintptr(ptr) % uintptr(alignment) == 0 {
|
||||
data = ([^]byte)(ptr)[:old_size]
|
||||
return
|
||||
}
|
||||
|
||||
data, err = allocator.procedure(allocator.data, .Resize, new_size, alignment, ptr, old_size, loc)
|
||||
if should_zero {
|
||||
data, err = allocator.procedure(allocator.data, .Resize, new_size, alignment, ptr, old_size, loc)
|
||||
} else {
|
||||
data, err = allocator.procedure(allocator.data, .Resize_Non_Zeroed, new_size, alignment, ptr, old_size, loc)
|
||||
}
|
||||
if err == .Mode_Not_Implemented {
|
||||
data, err = allocator.procedure(allocator.data, .Alloc, new_size, alignment, nil, 0, loc)
|
||||
if should_zero {
|
||||
data, err = allocator.procedure(allocator.data, .Alloc, new_size, alignment, nil, 0, loc)
|
||||
} else {
|
||||
data, err = allocator.procedure(allocator.data, .Alloc_Non_Zeroed, new_size, alignment, nil, 0, loc)
|
||||
}
|
||||
if err != nil {
|
||||
return
|
||||
}
|
||||
@@ -216,6 +184,13 @@ mem_resize :: proc(ptr: rawptr, old_size, new_size: int, alignment: int = DEFAUL
|
||||
return
|
||||
}
|
||||
|
||||
mem_resize :: proc(ptr: rawptr, old_size, new_size: int, alignment: int = DEFAULT_ALIGNMENT, allocator := context.allocator, loc := #caller_location) -> (data: []byte, err: Allocator_Error) {
|
||||
return _mem_resize(ptr, old_size, new_size, alignment, allocator, true, loc)
|
||||
}
|
||||
non_zero_mem_resize :: proc(ptr: rawptr, old_size, new_size: int, alignment: int = DEFAULT_ALIGNMENT, allocator := context.allocator, loc := #caller_location) -> (data: []byte, err: Allocator_Error) {
|
||||
return _mem_resize(ptr, old_size, new_size, alignment, allocator, false, loc)
|
||||
}
|
||||
|
||||
memory_equal :: proc "contextless" (x, y: rawptr, n: int) -> bool {
|
||||
switch {
|
||||
case n == 0: return true
|
||||
@@ -589,36 +564,6 @@ string_decode_last_rune :: proc "contextless" (s: string) -> (rune, int) {
|
||||
return r, size
|
||||
}
|
||||
|
||||
|
||||
abs_f16 :: #force_inline proc "contextless" (x: f16) -> f16 {
|
||||
return -x if x < 0 else x
|
||||
}
|
||||
abs_f32 :: #force_inline proc "contextless" (x: f32) -> f32 {
|
||||
return -x if x < 0 else x
|
||||
}
|
||||
abs_f64 :: #force_inline proc "contextless" (x: f64) -> f64 {
|
||||
return -x if x < 0 else x
|
||||
}
|
||||
|
||||
min_f16 :: #force_inline proc "contextless" (a, b: f16) -> f16 {
|
||||
return a if a < b else b
|
||||
}
|
||||
min_f32 :: #force_inline proc "contextless" (a, b: f32) -> f32 {
|
||||
return a if a < b else b
|
||||
}
|
||||
min_f64 :: #force_inline proc "contextless" (a, b: f64) -> f64 {
|
||||
return a if a < b else b
|
||||
}
|
||||
max_f16 :: #force_inline proc "contextless" (a, b: f16) -> f16 {
|
||||
return a if a > b else b
|
||||
}
|
||||
max_f32 :: #force_inline proc "contextless" (a, b: f32) -> f32 {
|
||||
return a if a > b else b
|
||||
}
|
||||
max_f64 :: #force_inline proc "contextless" (a, b: f64) -> f64 {
|
||||
return a if a > b else b
|
||||
}
|
||||
|
||||
abs_complex32 :: #force_inline proc "contextless" (x: complex32) -> f16 {
|
||||
p, q := abs(real(x)), abs(imag(x))
|
||||
if p < q {
|
||||
@@ -730,7 +675,7 @@ mul_quaternion64 :: proc "contextless" (q, r: quaternion64) -> quaternion64 {
|
||||
t2 := r0*q2 + r1*q3 + r2*q0 - r3*q1
|
||||
t3 := r0*q3 - r1*q2 + r2*q1 + r3*q0
|
||||
|
||||
return quaternion(t0, t1, t2, t3)
|
||||
return quaternion(w=t0, x=t1, y=t2, z=t3)
|
||||
}
|
||||
|
||||
mul_quaternion128 :: proc "contextless" (q, r: quaternion128) -> quaternion128 {
|
||||
@@ -742,7 +687,7 @@ mul_quaternion128 :: proc "contextless" (q, r: quaternion128) -> quaternion128 {
|
||||
t2 := r0*q2 + r1*q3 + r2*q0 - r3*q1
|
||||
t3 := r0*q3 - r1*q2 + r2*q1 + r3*q0
|
||||
|
||||
return quaternion(t0, t1, t2, t3)
|
||||
return quaternion(w=t0, x=t1, y=t2, z=t3)
|
||||
}
|
||||
|
||||
mul_quaternion256 :: proc "contextless" (q, r: quaternion256) -> quaternion256 {
|
||||
@@ -754,7 +699,7 @@ mul_quaternion256 :: proc "contextless" (q, r: quaternion256) -> quaternion256 {
|
||||
t2 := r0*q2 + r1*q3 + r2*q0 - r3*q1
|
||||
t3 := r0*q3 - r1*q2 + r2*q1 + r3*q0
|
||||
|
||||
return quaternion(t0, t1, t2, t3)
|
||||
return quaternion(w=t0, x=t1, y=t2, z=t3)
|
||||
}
|
||||
|
||||
quo_quaternion64 :: proc "contextless" (q, r: quaternion64) -> quaternion64 {
|
||||
@@ -768,7 +713,7 @@ quo_quaternion64 :: proc "contextless" (q, r: quaternion64) -> quaternion64 {
|
||||
t2 := (r0*q2 - r1*q3 - r2*q0 + r3*q1) * invmag2
|
||||
t3 := (r0*q3 + r1*q2 + r2*q1 - r3*q0) * invmag2
|
||||
|
||||
return quaternion(t0, t1, t2, t3)
|
||||
return quaternion(w=t0, x=t1, y=t2, z=t3)
|
||||
}
|
||||
|
||||
quo_quaternion128 :: proc "contextless" (q, r: quaternion128) -> quaternion128 {
|
||||
@@ -782,7 +727,7 @@ quo_quaternion128 :: proc "contextless" (q, r: quaternion128) -> quaternion128 {
|
||||
t2 := (r0*q2 - r1*q3 - r2*q0 + r3*q1) * invmag2
|
||||
t3 := (r0*q3 + r1*q2 + r2*q1 - r3*q0) * invmag2
|
||||
|
||||
return quaternion(t0, t1, t2, t3)
|
||||
return quaternion(w=t0, x=t1, y=t2, z=t3)
|
||||
}
|
||||
|
||||
quo_quaternion256 :: proc "contextless" (q, r: quaternion256) -> quaternion256 {
|
||||
@@ -796,7 +741,7 @@ quo_quaternion256 :: proc "contextless" (q, r: quaternion256) -> quaternion256 {
|
||||
t2 := (r0*q2 - r1*q3 - r2*q0 + r3*q1) * invmag2
|
||||
t3 := (r0*q3 + r1*q2 + r2*q1 - r3*q0) * invmag2
|
||||
|
||||
return quaternion(t0, t1, t2, t3)
|
||||
return quaternion(w=t0, x=t1, y=t2, z=t3)
|
||||
}
|
||||
|
||||
@(link_name="__truncsfhf2", linkage=RUNTIME_LINKAGE, require=RUNTIME_REQUIRE)
|
||||
@@ -1017,9 +962,11 @@ udivmodti4 :: proc "c" (a, b: u128, rem: ^u128) -> u128 {
|
||||
return udivmod128(a, b, rem)
|
||||
}
|
||||
|
||||
@(link_name="__udivti3", linkage=RUNTIME_LINKAGE, require=RUNTIME_REQUIRE)
|
||||
udivti3 :: proc "c" (a, b: u128) -> u128 {
|
||||
return udivmodti4(a, b, nil)
|
||||
when !IS_WASM {
|
||||
@(link_name="__udivti3", linkage=RUNTIME_LINKAGE, require=RUNTIME_REQUIRE)
|
||||
udivti3 :: proc "c" (a, b: u128) -> u128 {
|
||||
return udivmodti4(a, b, nil)
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
@@ -1089,3 +1036,23 @@ fixdfti :: proc(a: u64) -> i128 {
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
|
||||
|
||||
__write_bits :: proc "contextless" (dst, src: [^]byte, offset: uintptr, size: uintptr) {
|
||||
for i in 0..<size {
|
||||
j := offset+i
|
||||
the_bit := byte((src[i>>3]) & (1<<(i&7)) != 0)
|
||||
dst[j>>3] &~= 1<<(j&7)
|
||||
dst[j>>3] |= the_bit<<(j&7)
|
||||
}
|
||||
}
|
||||
|
||||
__read_bits :: proc "contextless" (dst, src: [^]byte, offset: uintptr, size: uintptr) {
|
||||
for j in 0..<size {
|
||||
i := offset+j
|
||||
the_bit := byte((src[i>>3]) & (1<<(i&7)) != 0)
|
||||
dst[j>>3] &~= 1<<(j&7)
|
||||
dst[j>>3] |= the_bit<<(j&7)
|
||||
}
|
||||
}
|
||||
@@ -0,0 +1,7 @@
|
||||
package runtime
|
||||
|
||||
_OS_Errno :: distinct int
|
||||
|
||||
stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
return _stderr_write(data)
|
||||
}
|
||||
@@ -0,0 +1,22 @@
|
||||
//+build freebsd, openbsd
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
foreign import libc "system:c"
|
||||
|
||||
@(default_calling_convention="c")
|
||||
foreign libc {
|
||||
@(link_name="write")
|
||||
_unix_write :: proc(fd: i32, buf: rawptr, size: int) -> int ---
|
||||
|
||||
__error :: proc() -> ^i32 ---
|
||||
}
|
||||
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
ret := _unix_write(2, raw_data(data), len(data))
|
||||
if ret < len(data) {
|
||||
err := __error()
|
||||
return int(ret), _OS_Errno(err^ if err != nil else 0)
|
||||
}
|
||||
return int(ret), 0
|
||||
}
|
||||
@@ -0,0 +1,15 @@
|
||||
//+build darwin
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
import "base:intrinsics"
|
||||
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
WRITE :: 0x2000004
|
||||
STDERR :: 2
|
||||
ret := intrinsics.syscall(WRITE, STDERR, uintptr(raw_data(data)), uintptr(len(data)))
|
||||
if ret < 0 {
|
||||
return 0, _OS_Errno(-ret)
|
||||
}
|
||||
return int(ret), 0
|
||||
}
|
||||
+2
-1
@@ -1,7 +1,8 @@
|
||||
//+build freestanding
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
// TODO(bill): reimplement `os.write`
|
||||
_os_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
return 0, -1
|
||||
}
|
||||
@@ -0,0 +1,21 @@
|
||||
//+build haiku
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
foreign import libc "system:c"
|
||||
|
||||
foreign libc {
|
||||
@(link_name="write")
|
||||
_unix_write :: proc(fd: i32, buf: rawptr, size: int) -> int ---
|
||||
|
||||
_errnop :: proc() -> ^i32 ---
|
||||
}
|
||||
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
ret := _unix_write(2, raw_data(data), len(data))
|
||||
if ret < len(data) {
|
||||
err := _errnop()
|
||||
return int(ret), _OS_Errno(err^ if err != nil else 0)
|
||||
}
|
||||
return int(ret), 0
|
||||
}
|
||||
@@ -1,9 +1,10 @@
|
||||
//+build js
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
foreign import "odin_env"
|
||||
|
||||
_os_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
foreign odin_env {
|
||||
write :: proc "contextless" (fd: u32, p: []byte) ---
|
||||
}
|
||||
@@ -0,0 +1,24 @@
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
import "base:intrinsics"
|
||||
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
when ODIN_ARCH == .amd64 {
|
||||
SYS_write :: uintptr(1)
|
||||
} else when ODIN_ARCH == .arm64 {
|
||||
SYS_write :: uintptr(64)
|
||||
} else when ODIN_ARCH == .i386 {
|
||||
SYS_write :: uintptr(4)
|
||||
} else when ODIN_ARCH == .arm32 {
|
||||
SYS_write :: uintptr(4)
|
||||
}
|
||||
|
||||
stderr :: 2
|
||||
|
||||
ret := int(intrinsics.syscall(SYS_write, uintptr(stderr), uintptr(raw_data(data)), uintptr(len(data))))
|
||||
if ret < 0 && ret > -4096 {
|
||||
return 0, _OS_Errno(-ret)
|
||||
}
|
||||
return ret, 0
|
||||
}
|
||||
@@ -1,9 +1,10 @@
|
||||
//+build wasi
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
import "core:sys/wasm/wasi"
|
||||
|
||||
_os_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (int, _OS_Errno) {
|
||||
data := (wasi.ciovec_t)(data)
|
||||
n, err := wasi.fd_write(1, {data})
|
||||
return int(n), _OS_Errno(err)
|
||||
@@ -0,0 +1,51 @@
|
||||
//+build windows
|
||||
//+private
|
||||
package runtime
|
||||
|
||||
foreign import kernel32 "system:Kernel32.lib"
|
||||
|
||||
@(private="file")
|
||||
@(default_calling_convention="system")
|
||||
foreign kernel32 {
|
||||
// NOTE(bill): The types are not using the standard names (e.g. DWORD and LPVOID) to just minimizing the dependency
|
||||
|
||||
// stderr_write
|
||||
GetStdHandle :: proc(which: u32) -> rawptr ---
|
||||
SetHandleInformation :: proc(hObject: rawptr, dwMask: u32, dwFlags: u32) -> b32 ---
|
||||
WriteFile :: proc(hFile: rawptr, lpBuffer: rawptr, nNumberOfBytesToWrite: u32, lpNumberOfBytesWritten: ^u32, lpOverlapped: rawptr) -> b32 ---
|
||||
GetLastError :: proc() -> u32 ---
|
||||
}
|
||||
|
||||
_stderr_write :: proc "contextless" (data: []byte) -> (n: int, err: _OS_Errno) #no_bounds_check {
|
||||
if len(data) == 0 {
|
||||
return 0, 0
|
||||
}
|
||||
|
||||
STD_ERROR_HANDLE :: ~u32(0) -12 + 1
|
||||
HANDLE_FLAG_INHERIT :: 0x00000001
|
||||
MAX_RW :: 1<<30
|
||||
|
||||
h := GetStdHandle(STD_ERROR_HANDLE)
|
||||
when size_of(uintptr) == 8 {
|
||||
SetHandleInformation(h, HANDLE_FLAG_INHERIT, 0)
|
||||
}
|
||||
|
||||
single_write_length: u32
|
||||
total_write: i64
|
||||
length := i64(len(data))
|
||||
|
||||
for total_write < length {
|
||||
remaining := length - total_write
|
||||
to_write := u32(min(i32(remaining), MAX_RW))
|
||||
|
||||
e := WriteFile(h, &data[total_write], to_write, &single_write_length, nil)
|
||||
if single_write_length <= 0 || !e {
|
||||
err = _OS_Errno(GetLastError())
|
||||
n = int(total_write)
|
||||
return
|
||||
}
|
||||
total_write += i64(single_write_length)
|
||||
}
|
||||
n = int(total_write)
|
||||
return
|
||||
}
|
||||
@@ -6,7 +6,7 @@ _INTEGER_DIGITS :: "0123456789abcdefghijklmnopqrstuvwxyz"
|
||||
_INTEGER_DIGITS_VAR := _INTEGER_DIGITS
|
||||
|
||||
when !ODIN_NO_RTTI {
|
||||
print_any_single :: proc "contextless" (arg: any) {
|
||||
print_any_single :: #force_no_inline proc "contextless" (arg: any) {
|
||||
x := arg
|
||||
if x.data == nil {
|
||||
print_string("nil")
|
||||
@@ -72,7 +72,7 @@ when !ODIN_NO_RTTI {
|
||||
print_string("<invalid-value>")
|
||||
}
|
||||
}
|
||||
println_any :: proc "contextless" (args: ..any) {
|
||||
println_any :: #force_no_inline proc "contextless" (args: ..any) {
|
||||
context = default_context()
|
||||
loop: for arg, i in args {
|
||||
assert(arg.id != nil)
|
||||
@@ -122,14 +122,14 @@ encode_rune :: proc "contextless" (c: rune) -> ([4]u8, int) {
|
||||
return buf, 4
|
||||
}
|
||||
|
||||
print_string :: proc "contextless" (str: string) -> (n: int) {
|
||||
n, _ = os_write(transmute([]byte)str)
|
||||
print_string :: #force_no_inline proc "contextless" (str: string) -> (n: int) {
|
||||
n, _ = stderr_write(transmute([]byte)str)
|
||||
return
|
||||
}
|
||||
|
||||
print_strings :: proc "contextless" (args: ..string) -> (n: int) {
|
||||
print_strings :: #force_no_inline proc "contextless" (args: ..string) -> (n: int) {
|
||||
for str in args {
|
||||
m, err := os_write(transmute([]byte)str)
|
||||
m, err := stderr_write(transmute([]byte)str)
|
||||
n += m
|
||||
if err != 0 {
|
||||
break
|
||||
@@ -138,12 +138,12 @@ print_strings :: proc "contextless" (args: ..string) -> (n: int) {
|
||||
return
|
||||
}
|
||||
|
||||
print_byte :: proc "contextless" (b: byte) -> (n: int) {
|
||||
n, _ = os_write([]byte{b})
|
||||
print_byte :: #force_no_inline proc "contextless" (b: byte) -> (n: int) {
|
||||
n, _ = stderr_write([]byte{b})
|
||||
return
|
||||
}
|
||||
|
||||
print_encoded_rune :: proc "contextless" (r: rune) {
|
||||
print_encoded_rune :: #force_no_inline proc "contextless" (r: rune) {
|
||||
print_byte('\'')
|
||||
|
||||
switch r {
|
||||
@@ -170,7 +170,7 @@ print_encoded_rune :: proc "contextless" (r: rune) {
|
||||
print_byte('\'')
|
||||
}
|
||||
|
||||
print_rune :: proc "contextless" (r: rune) -> int #no_bounds_check {
|
||||
print_rune :: #force_no_inline proc "contextless" (r: rune) -> int #no_bounds_check {
|
||||
RUNE_SELF :: 0x80
|
||||
|
||||
if r < RUNE_SELF {
|
||||
@@ -178,12 +178,12 @@ print_rune :: proc "contextless" (r: rune) -> int #no_bounds_check {
|
||||
}
|
||||
|
||||
b, n := encode_rune(r)
|
||||
m, _ := os_write(b[:n])
|
||||
m, _ := stderr_write(b[:n])
|
||||
return m
|
||||
}
|
||||
|
||||
|
||||
print_u64 :: proc "contextless" (x: u64) #no_bounds_check {
|
||||
print_u64 :: #force_no_inline proc "contextless" (x: u64) #no_bounds_check {
|
||||
a: [129]byte
|
||||
i := len(a)
|
||||
b := u64(10)
|
||||
@@ -194,11 +194,11 @@ print_u64 :: proc "contextless" (x: u64) #no_bounds_check {
|
||||
}
|
||||
i -= 1; a[i] = _INTEGER_DIGITS_VAR[u % b]
|
||||
|
||||
os_write(a[i:])
|
||||
stderr_write(a[i:])
|
||||
}
|
||||
|
||||
|
||||
print_i64 :: proc "contextless" (x: i64) #no_bounds_check {
|
||||
print_i64 :: #force_no_inline proc "contextless" (x: i64) #no_bounds_check {
|
||||
b :: i64(10)
|
||||
|
||||
u := x
|
||||
@@ -216,32 +216,36 @@ print_i64 :: proc "contextless" (x: i64) #no_bounds_check {
|
||||
i -= 1; a[i] = '-'
|
||||
}
|
||||
|
||||
os_write(a[i:])
|
||||
stderr_write(a[i:])
|
||||
}
|
||||
|
||||
print_uint :: proc "contextless" (x: uint) { print_u64(u64(x)) }
|
||||
print_uintptr :: proc "contextless" (x: uintptr) { print_u64(u64(x)) }
|
||||
print_int :: proc "contextless" (x: int) { print_i64(i64(x)) }
|
||||
|
||||
print_caller_location :: proc "contextless" (loc: Source_Code_Location) {
|
||||
print_caller_location :: #force_no_inline proc "contextless" (loc: Source_Code_Location) {
|
||||
print_string(loc.file_path)
|
||||
when ODIN_ERROR_POS_STYLE == .Default {
|
||||
print_byte('(')
|
||||
print_u64(u64(loc.line))
|
||||
print_byte(':')
|
||||
print_u64(u64(loc.column))
|
||||
if loc.column != 0 {
|
||||
print_byte(':')
|
||||
print_u64(u64(loc.column))
|
||||
}
|
||||
print_byte(')')
|
||||
} else when ODIN_ERROR_POS_STYLE == .Unix {
|
||||
print_byte(':')
|
||||
print_u64(u64(loc.line))
|
||||
print_byte(':')
|
||||
print_u64(u64(loc.column))
|
||||
if loc.column != 0 {
|
||||
print_byte(':')
|
||||
print_u64(u64(loc.column))
|
||||
}
|
||||
print_byte(':')
|
||||
} else {
|
||||
#panic("unhandled ODIN_ERROR_POS_STYLE")
|
||||
}
|
||||
}
|
||||
print_typeid :: proc "contextless" (id: typeid) {
|
||||
print_typeid :: #force_no_inline proc "contextless" (id: typeid) {
|
||||
when ODIN_NO_RTTI {
|
||||
if id == nil {
|
||||
print_string("nil")
|
||||
@@ -257,7 +261,9 @@ print_typeid :: proc "contextless" (id: typeid) {
|
||||
}
|
||||
}
|
||||
}
|
||||
print_type :: proc "contextless" (ti: ^Type_Info) {
|
||||
|
||||
@(optimization_mode="size")
|
||||
print_type :: #force_no_inline proc "contextless" (ti: ^Type_Info) {
|
||||
if ti == nil {
|
||||
print_string("nil")
|
||||
return
|
||||
@@ -459,6 +465,20 @@ print_type :: proc "contextless" (ti: ^Type_Info) {
|
||||
}
|
||||
print_byte(']')
|
||||
|
||||
case Type_Info_Bit_Field:
|
||||
print_string("bit_field ")
|
||||
print_type(info.backing_type)
|
||||
print_string(" {")
|
||||
for name, i in info.names {
|
||||
if i > 0 { print_string(", ") }
|
||||
print_string(name)
|
||||
print_string(": ")
|
||||
print_type(info.types[i])
|
||||
print_string(" | ")
|
||||
print_u64(u64(info.bit_sizes[i]))
|
||||
}
|
||||
print_byte('}')
|
||||
|
||||
|
||||
case Type_Info_Simd_Vector:
|
||||
print_string("#simd[")
|
||||
@@ -4,7 +4,7 @@ when ODIN_NO_CRT && ODIN_OS == .Windows {
|
||||
foreign import lib "system:NtDll.lib"
|
||||
|
||||
@(private="file")
|
||||
@(default_calling_convention="stdcall")
|
||||
@(default_calling_convention="system")
|
||||
foreign lib {
|
||||
RtlMoveMemory :: proc(dst, s: rawptr, length: int) ---
|
||||
RtlFillMemory :: proc(dst: rawptr, length: int, fill: i32) ---
|
||||
@@ -3,7 +3,7 @@ package runtime
|
||||
|
||||
foreign import "system:Foundation.framework"
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
objc_id :: ^intrinsics.objc_object
|
||||
objc_Class :: ^intrinsics.objc_class
|
||||
@@ -7,19 +7,25 @@ ti_int :: struct #raw_union {
|
||||
all: i128,
|
||||
}
|
||||
|
||||
@(private="file")
|
||||
ti_uint :: struct #raw_union {
|
||||
using s: struct { lo, hi: u64 },
|
||||
all: u128,
|
||||
}
|
||||
|
||||
@(link_name="__ashlti3", linkage="strong")
|
||||
__ashlti3 :: proc "contextless" (a: i128, b_: u32) -> i128 {
|
||||
__ashlti3 :: proc "contextless" (la, ha: u64, b_: u32) -> i128 {
|
||||
bits_in_dword :: size_of(u32)*8
|
||||
b := u32(b_)
|
||||
|
||||
input, result: ti_int
|
||||
input.all = a
|
||||
input.lo, input.hi = la, ha
|
||||
if b & bits_in_dword != 0 {
|
||||
result.lo = 0
|
||||
result.hi = input.lo << (b-bits_in_dword)
|
||||
} else {
|
||||
if b == 0 {
|
||||
return a
|
||||
return input.all
|
||||
}
|
||||
result.lo = input.lo<<b
|
||||
result.hi = (input.hi<<b) | (input.lo>>(bits_in_dword-b))
|
||||
@@ -29,12 +35,20 @@ __ashlti3 :: proc "contextless" (a: i128, b_: u32) -> i128 {
|
||||
|
||||
|
||||
@(link_name="__multi3", linkage="strong")
|
||||
__multi3 :: proc "contextless" (a, b: i128) -> i128 {
|
||||
__multi3 :: proc "contextless" (la, ha, lb, hb: u64) -> i128 {
|
||||
x, y, r: ti_int
|
||||
|
||||
x.all = a
|
||||
y.all = b
|
||||
|
||||
x.lo, x.hi = la, ha
|
||||
y.lo, y.hi = lb, hb
|
||||
r.all = i128(x.lo * y.lo) // TODO this is incorrect
|
||||
r.hi += x.hi*y.lo + x.lo*y.hi
|
||||
return r.all
|
||||
}
|
||||
}
|
||||
|
||||
@(link_name="__udivti3", linkage="strong")
|
||||
udivti3 :: proc "c" (la, ha, lb, hb: u64) -> u128 {
|
||||
a, b: ti_uint
|
||||
a.lo, a.hi = la, ha
|
||||
b.lo, b.hi = lb, hb
|
||||
return udivmodti4(a.all, b.all, nil)
|
||||
}
|
||||
@@ -1,11 +1,12 @@
|
||||
//+private
|
||||
//+no-instrumentation
|
||||
package runtime
|
||||
|
||||
foreign import kernel32 "system:Kernel32.lib"
|
||||
|
||||
@(private)
|
||||
foreign kernel32 {
|
||||
RaiseException :: proc "stdcall" (dwExceptionCode, dwExceptionFlags, nNumberOfArguments: u32, lpArguments: ^uint) -> ! ---
|
||||
RaiseException :: proc "system" (dwExceptionCode, dwExceptionFlags, nNumberOfArguments: u32, lpArguments: ^uint) -> ! ---
|
||||
}
|
||||
|
||||
windows_trap_array_bounds :: proc "contextless" () -> ! {
|
||||
@@ -1,4 +1,5 @@
|
||||
//+private
|
||||
//+no-instrumentation
|
||||
package runtime
|
||||
|
||||
@require foreign import "system:int64.lib"
|
||||
@@ -12,7 +13,7 @@ windows_trap_array_bounds :: proc "contextless" () -> ! {
|
||||
EXCEPTION_ARRAY_BOUNDS_EXCEEDED :: 0xC000008C
|
||||
|
||||
foreign kernel32 {
|
||||
RaiseException :: proc "stdcall" (dwExceptionCode, dwExceptionFlags, nNumberOfArguments: DWORD, lpArguments: ^ULONG_PTR) -> ! ---
|
||||
RaiseException :: proc "system" (dwExceptionCode, dwExceptionFlags, nNumberOfArguments: DWORD, lpArguments: ^ULONG_PTR) -> ! ---
|
||||
}
|
||||
|
||||
RaiseException(EXCEPTION_ARRAY_BOUNDS_EXCEEDED, 0, 0, nil)
|
||||
@@ -1,6 +1,6 @@
|
||||
package runtime
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
udivmod128 :: proc "c" (a, b: u128, rem: ^u128) -> u128 {
|
||||
_ctz :: intrinsics.count_trailing_zeros
|
||||
Binary file not shown.
Binary file not shown.
+22
-16
@@ -2,7 +2,6 @@
|
||||
set -eu
|
||||
|
||||
: ${CPPFLAGS=}
|
||||
: ${CXX=clang++}
|
||||
: ${CXXFLAGS=}
|
||||
: ${LDFLAGS=}
|
||||
: ${LLVM_CONFIG=}
|
||||
@@ -26,17 +25,19 @@ error() {
|
||||
|
||||
if [ -z "$LLVM_CONFIG" ]; then
|
||||
# darwin, linux, openbsd
|
||||
if [ -n "$(command -v llvm-config-17)" ]; then LLVM_CONFIG="llvm-config-17"
|
||||
if [ -n "$(command -v llvm-config-18)" ]; then LLVM_CONFIG="llvm-config-18"
|
||||
elif [ -n "$(command -v llvm-config-17)" ]; then LLVM_CONFIG="llvm-config-17"
|
||||
elif [ -n "$(command -v llvm-config-14)" ]; then LLVM_CONFIG="llvm-config-14"
|
||||
elif [ -n "$(command -v llvm-config-13)" ]; then LLVM_CONFIG="llvm-config-13"
|
||||
elif [ -n "$(command -v llvm-config-12)" ]; then LLVM_CONFIG="llvm-config-12"
|
||||
elif [ -n "$(command -v llvm-config-11)" ]; then LLVM_CONFIG="llvm-config-11"
|
||||
# freebsd
|
||||
elif [ -n "$(command -v llvm-config17)" ]; then LLVM_CONFIG="llvm-config-17"
|
||||
elif [ -n "$(command -v llvm-config14)" ]; then LLVM_CONFIG="llvm-config-14"
|
||||
elif [ -n "$(command -v llvm-config13)" ]; then LLVM_CONFIG="llvm-config-13"
|
||||
elif [ -n "$(command -v llvm-config12)" ]; then LLVM_CONFIG="llvm-config-12"
|
||||
elif [ -n "$(command -v llvm-config11)" ]; then LLVM_CONFIG="llvm-config-11"
|
||||
elif [ -n "$(command -v llvm-config18)" ]; then LLVM_CONFIG="llvm-config18"
|
||||
elif [ -n "$(command -v llvm-config17)" ]; then LLVM_CONFIG="llvm-config17"
|
||||
elif [ -n "$(command -v llvm-config14)" ]; then LLVM_CONFIG="llvm-config14"
|
||||
elif [ -n "$(command -v llvm-config13)" ]; then LLVM_CONFIG="llvm-config13"
|
||||
elif [ -n "$(command -v llvm-config12)" ]; then LLVM_CONFIG="llvm-config12"
|
||||
elif [ -n "$(command -v llvm-config11)" ]; then LLVM_CONFIG="llvm-config11"
|
||||
# fallback
|
||||
elif [ -n "$(command -v llvm-config)" ]; then LLVM_CONFIG="llvm-config"
|
||||
else
|
||||
@@ -44,27 +45,27 @@ if [ -z "$LLVM_CONFIG" ]; then
|
||||
fi
|
||||
fi
|
||||
|
||||
: ${CXX=$($LLVM_CONFIG --bindir)/clang++}
|
||||
|
||||
LLVM_VERSION="$($LLVM_CONFIG --version)"
|
||||
LLVM_VERSION_MAJOR="$(echo $LLVM_VERSION | awk -F. '{print $1}')"
|
||||
LLVM_VERSION_MINOR="$(echo $LLVM_VERSION | awk -F. '{print $2}')"
|
||||
LLVM_VERSION_PATCH="$(echo $LLVM_VERSION | awk -F. '{print $3}')"
|
||||
|
||||
if [ $LLVM_VERSION_MAJOR -lt 11 ] ||
|
||||
([ $LLVM_VERSION_MAJOR -gt 14 ] && [ $LLVM_VERSION_MAJOR -lt 17 ]); then
|
||||
error "Invalid LLVM version $LLVM_VERSION: must be 11, 12, 13, 14 or 17"
|
||||
if [ $LLVM_VERSION_MAJOR -lt 11 ] || ([ $LLVM_VERSION_MAJOR -gt 14 ] && [ $LLVM_VERSION_MAJOR -lt 17 ]) || [ $LLVM_VERSION_MAJOR -gt 18 ]; then
|
||||
error "Invalid LLVM version $LLVM_VERSION: must be 11, 12, 13, 14, 17 or 18"
|
||||
fi
|
||||
|
||||
case "$OS_NAME" in
|
||||
Darwin)
|
||||
if [ "$OS_ARCH" == "arm64" ]; then
|
||||
if [ $LLVM_VERSION_MAJOR -lt 13 ] || [ $LLVM_VERSION_MAJOR -gt 17 ]; then
|
||||
error "Darwin Arm64 requires LLVM 13, 14 or 17"
|
||||
if [ "$OS_ARCH" = "arm64" ]; then
|
||||
if [ $LLVM_VERSION_MAJOR -lt 13 ]; then
|
||||
error "Invalid LLVM version $LLVM_VERSION: Darwin Arm64 requires LLVM 13, 14, 17 or 18"
|
||||
fi
|
||||
fi
|
||||
|
||||
CXXFLAGS="$CXXFLAGS $($LLVM_CONFIG --cxxflags --ldflags)"
|
||||
LDFLAGS="$LDFLAGS -liconv -ldl -framework System"
|
||||
LDFLAGS="$LDFLAGS -lLLVM-C"
|
||||
LDFLAGS="$LDFLAGS -liconv -ldl -framework System -lLLVM"
|
||||
;;
|
||||
FreeBSD)
|
||||
CXXFLAGS="$CXXFLAGS $($LLVM_CONFIG --cxxflags --ldflags)"
|
||||
@@ -83,6 +84,11 @@ OpenBSD)
|
||||
LDFLAGS="$LDFLAGS -liconv"
|
||||
LDFLAGS="$LDFLAGS $($LLVM_CONFIG --libs core native --system-libs)"
|
||||
;;
|
||||
Haiku)
|
||||
CXXFLAGS="$CXXFLAGS $($LLVM_CONFIG --cxxflags --ldflags) -I/system/develop/headers/private/shared -I/system/develop/headers/private/kernel"
|
||||
LDFLAGS="$LDFLAGS -liconv"
|
||||
LDFLAGS="$LDFLAGS $($LLVM_CONFIG --libs core native --system-libs)"
|
||||
;;
|
||||
*)
|
||||
error "Platform \"$OS_NAME\" unsupported"
|
||||
;;
|
||||
@@ -97,7 +103,7 @@ build_odin() {
|
||||
EXTRAFLAGS="-O3"
|
||||
;;
|
||||
release-native)
|
||||
if [ "$OS_ARCH" == "arm64" ]; then
|
||||
if [ "$OS_ARCH" = "arm64" ]; then
|
||||
# Use preferred flag for Arm (ie arm64 / aarch64 / etc)
|
||||
EXTRAFLAGS="-O3 -mcpu=native"
|
||||
else
|
||||
|
||||
Regular → Executable
+14
-2
@@ -1,5 +1,7 @@
|
||||
#!/bin/bash
|
||||
|
||||
set -e
|
||||
|
||||
bucket=$1
|
||||
platform=$2
|
||||
artifact=$3
|
||||
@@ -9,5 +11,15 @@ filename="odin-$platform-nightly+$now.zip"
|
||||
|
||||
echo "Creating archive $filename from $artifact and uploading to $bucket"
|
||||
|
||||
7z a -bd "output/$filename" -r "$artifact"
|
||||
b2 upload-file --noProgress "$bucket" "output/$filename" "nightly/$filename"
|
||||
# If this is already zipped up (done before artifact upload to keep permissions in tact), just move it.
|
||||
if [ "${artifact: -4}" == ".zip" ]
|
||||
then
|
||||
echo "Artifact already a zip"
|
||||
mkdir -p "output"
|
||||
mv "$artifact" "output/$filename"
|
||||
else
|
||||
echo "Artifact needs to be zipped"
|
||||
7z a -bd "output/$filename" -r "$artifact"
|
||||
fi
|
||||
|
||||
b2 upload-file --noProgress "$bucket" "output/$filename" "nightly/$filename"
|
||||
|
||||
@@ -81,7 +81,7 @@ _reader_read_new_chunk :: proc(b: ^Reader) -> io.Error {
|
||||
for i := b.max_consecutive_empty_reads; i > 0; i -= 1 {
|
||||
n, err := io.read(b.rd, b.buf[b.w:])
|
||||
if n < 0 {
|
||||
return .Negative_Read
|
||||
return err if err != nil else .Negative_Read
|
||||
}
|
||||
b.w += n
|
||||
if err != nil {
|
||||
@@ -189,7 +189,7 @@ reader_read :: proc(b: ^Reader, p: []byte) -> (n: int, err: io.Error) {
|
||||
if len(p) >= len(b.buf) {
|
||||
n, b.err = io.read(b.rd, p)
|
||||
if n < 0 {
|
||||
return 0, .Negative_Read
|
||||
return 0, b.err if b.err != nil else .Negative_Read
|
||||
}
|
||||
|
||||
if n > 0 {
|
||||
@@ -202,7 +202,7 @@ reader_read :: proc(b: ^Reader, p: []byte) -> (n: int, err: io.Error) {
|
||||
b.r, b.w = 0, 0
|
||||
n, b.err = io.read(b.rd, b.buf)
|
||||
if n < 0 {
|
||||
return 0, .Negative_Read
|
||||
return 0, b.err if b.err != nil else .Negative_Read
|
||||
}
|
||||
if n == 0 {
|
||||
return 0, _reader_consume_err(b)
|
||||
@@ -290,7 +290,7 @@ reader_write_to :: proc(b: ^Reader, w: io.Writer) -> (n: i64, err: io.Error) {
|
||||
write_buf :: proc(b: ^Reader, w: io.Writer) -> (i64, io.Error) {
|
||||
n, err := io.write(w, b.buf[b.r:b.w])
|
||||
if n < 0 {
|
||||
return 0, .Negative_Write
|
||||
return 0, err if err != nil else .Negative_Write
|
||||
}
|
||||
b.r += n
|
||||
return i64(n), err
|
||||
|
||||
@@ -4,7 +4,7 @@ import "core:bytes"
|
||||
import "core:io"
|
||||
import "core:mem"
|
||||
import "core:unicode/utf8"
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
// Extra errors returns by scanning procedures
|
||||
Scanner_Extra_Error :: enum i32 {
|
||||
|
||||
@@ -95,6 +95,10 @@ writer_write :: proc(b: ^Writer, p: []byte) -> (n: int, err: io.Error) {
|
||||
m: int
|
||||
if writer_buffered(b) == 0 {
|
||||
m, b.err = io.write(b.wr, p)
|
||||
if m < 0 && b.err == nil {
|
||||
b.err = .Negative_Write
|
||||
break
|
||||
}
|
||||
} else {
|
||||
m = copy(b.buf[b.n:], p)
|
||||
b.n += m
|
||||
@@ -226,7 +230,6 @@ writer_to_writer :: proc(b: ^Writer) -> (s: io.Writer) {
|
||||
|
||||
|
||||
|
||||
@(private)
|
||||
_writer_proc :: proc(stream_data: rawptr, mode: io.Stream_Mode, p: []byte, offset: i64, whence: io.Seek_From) -> (n: i64, err: io.Error) {
|
||||
b := (^Writer)(stream_data)
|
||||
#partial switch mode {
|
||||
|
||||
@@ -359,7 +359,7 @@ buffer_read_from :: proc(b: ^Buffer, r: io.Reader) -> (n: i64, err: io.Error) #n
|
||||
resize(&b.buf, i)
|
||||
m, e := io.read(r, b.buf[i:cap(b.buf)])
|
||||
if m < 0 {
|
||||
err = .Negative_Read
|
||||
err = e if e != nil else .Negative_Read
|
||||
return
|
||||
}
|
||||
|
||||
|
||||
@@ -895,7 +895,7 @@ split_multi_iterator :: proc(s: ^[]byte, substrs: [][]byte, skip_empty := false)
|
||||
|
||||
|
||||
|
||||
// scrub scruvs invalid utf-8 characters and replaces them with the replacement string
|
||||
// Scrubs invalid utf-8 characters and replaces them with the replacement string
|
||||
// Adjacent invalid bytes are only replaced once
|
||||
scrub :: proc(s: []byte, replacement: []byte, allocator := context.allocator) -> []byte {
|
||||
str := s
|
||||
|
||||
+11
-1
@@ -1,6 +1,6 @@
|
||||
package c
|
||||
|
||||
import builtin "core:builtin"
|
||||
import builtin "base:builtin"
|
||||
|
||||
char :: builtin.u8 // assuming -funsigned-char
|
||||
|
||||
@@ -104,3 +104,13 @@ NULL :: rawptr(uintptr(0))
|
||||
NDEBUG :: !ODIN_DEBUG
|
||||
|
||||
CHAR_BIT :: 8
|
||||
|
||||
// Since there are no types in C with an alignment larger than that of
|
||||
// max_align_t, which cannot be larger than sizeof(long double) as any other
|
||||
// exposed type wouldn't be valid C, the maximum alignment possible in a
|
||||
// strictly conformant C implementation is 16 on the platforms we care about.
|
||||
// The choice of 4096 bytes for storage of this type is more than enough on all
|
||||
// relevant platforms.
|
||||
va_list :: struct #align(16) {
|
||||
_: [4096]u8,
|
||||
}
|
||||
|
||||
@@ -1,34 +1,31 @@
|
||||
/*
|
||||
package demo
|
||||
Example:
|
||||
package demo
|
||||
|
||||
import tokenizer "core:c/frontend/tokenizer"
|
||||
import preprocessor "core:c/frontend/preprocessor"
|
||||
import "core:fmt"
|
||||
import tokenizer "core:c/frontend/tokenizer"
|
||||
import preprocessor "core:c/frontend/preprocessor"
|
||||
import "core:fmt"
|
||||
|
||||
main :: proc() {
|
||||
t := &tokenizer.Tokenizer{};
|
||||
tokenizer.init_defaults(t);
|
||||
main :: proc() {
|
||||
t := &tokenizer.Tokenizer{};
|
||||
tokenizer.init_defaults(t);
|
||||
|
||||
cpp := &preprocessor.Preprocessor{};
|
||||
cpp.warn, cpp.err = t.warn, t.err;
|
||||
preprocessor.init_lookup_tables(cpp);
|
||||
preprocessor.init_default_macros(cpp);
|
||||
cpp.include_paths = {"my/path/to/include"};
|
||||
cpp := &preprocessor.Preprocessor{};
|
||||
cpp.warn, cpp.err = t.warn, t.err;
|
||||
preprocessor.init_lookup_tables(cpp);
|
||||
preprocessor.init_default_macros(cpp);
|
||||
cpp.include_paths = {"my/path/to/include"};
|
||||
|
||||
tok := tokenizer.tokenize_file(t, "the/source/file.c", 1);
|
||||
tok := tokenizer.tokenize_file(t, "the/source/file.c", 1);
|
||||
|
||||
tok = preprocessor.preprocess(cpp, tok);
|
||||
if tok != nil {
|
||||
for t := tok; t.kind != .EOF; t = t.next {
|
||||
fmt.println(t.lit);
|
||||
tok = preprocessor.preprocess(cpp, tok);
|
||||
if tok != nil {
|
||||
for t := tok; t.kind != .EOF; t = t.next {
|
||||
fmt.println(t.lit);
|
||||
}
|
||||
}
|
||||
|
||||
fmt.println("[Done]");
|
||||
}
|
||||
|
||||
fmt.println("[Done]");
|
||||
}
|
||||
*/
|
||||
|
||||
|
||||
package c_frontend_tokenizer
|
||||
|
||||
|
||||
|
||||
@@ -67,7 +67,7 @@ foreign libc {
|
||||
crealf :: proc(z: complex_float) -> float ---
|
||||
}
|
||||
|
||||
import builtin "core:builtin"
|
||||
import builtin "base:builtin"
|
||||
|
||||
complex_float :: distinct builtin.complex64
|
||||
complex_double :: distinct builtin.complex128
|
||||
|
||||
@@ -80,6 +80,24 @@ when ODIN_OS == .Darwin {
|
||||
ERANGE :: 34
|
||||
}
|
||||
|
||||
when ODIN_OS == .Haiku {
|
||||
@(private="file")
|
||||
@(default_calling_convention="c")
|
||||
foreign libc {
|
||||
@(link_name="_errnop")
|
||||
_get_errno :: proc() -> ^int ---
|
||||
}
|
||||
|
||||
@(private="file")
|
||||
B_GENERAL_ERROR_BASE :: min(i32)
|
||||
@(private="file")
|
||||
B_POSIX_ERROR_BASE :: B_GENERAL_ERROR_BASE + 0x7000
|
||||
|
||||
EDOM :: B_POSIX_ERROR_BASE + 16
|
||||
EILSEQ :: B_POSIX_ERROR_BASE + 38
|
||||
ERANGE :: B_POSIX_ERROR_BASE + 17
|
||||
}
|
||||
|
||||
// Odin has no way to make an identifier "errno" behave as a function call to
|
||||
// read the value, or to produce an lvalue such that you can assign a different
|
||||
// error value to errno. To work around this, just expose it as a function like
|
||||
|
||||
@@ -2,7 +2,7 @@ package libc
|
||||
|
||||
// 7.12 Mathematics
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
when ODIN_OS == .Windows {
|
||||
foreign import libc "system:libucrt.lib"
|
||||
|
||||
+4
-10
@@ -2,7 +2,9 @@ package libc
|
||||
|
||||
// 7.16 Variable arguments
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
import "core:c"
|
||||
|
||||
@(private="file")
|
||||
@(default_calling_convention="none")
|
||||
@@ -12,15 +14,7 @@ foreign _ {
|
||||
@(link_name="llvm.va_copy") _va_copy :: proc(dst, src: ^i8) ---
|
||||
}
|
||||
|
||||
// Since there are no types in C with an alignment larger than that of
|
||||
// max_align_t, which cannot be larger than sizeof(long double) as any other
|
||||
// exposed type wouldn't be valid C, the maximum alignment possible in a
|
||||
// strictly conformant C implementation is 16 on the platforms we care about.
|
||||
// The choice of 4096 bytes for storage of this type is more than enough on all
|
||||
// relevant platforms.
|
||||
va_list :: struct #align(16) {
|
||||
_: [4096]u8,
|
||||
}
|
||||
va_list :: c.va_list
|
||||
|
||||
va_start :: #force_inline proc(ap: ^va_list, _: any) {
|
||||
_va_start(cast(^i8)ap)
|
||||
|
||||
@@ -2,7 +2,7 @@ package libc
|
||||
|
||||
// 7.17 Atomics
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
ATOMIC_BOOL_LOCK_FREE :: true
|
||||
ATOMIC_CHAR_LOCK_FREE :: true
|
||||
|
||||
@@ -1,5 +1,7 @@
|
||||
package libc
|
||||
|
||||
import "core:io"
|
||||
|
||||
when ODIN_OS == .Windows {
|
||||
foreign import libc {
|
||||
"system:libucrt.lib",
|
||||
@@ -161,6 +163,36 @@ when ODIN_OS == .Darwin {
|
||||
}
|
||||
}
|
||||
|
||||
when ODIN_OS == .Haiku {
|
||||
fpos_t :: distinct i64
|
||||
|
||||
_IOFBF :: 0
|
||||
_IOLBF :: 1
|
||||
_IONBF :: 2
|
||||
|
||||
BUFSIZ :: 8192
|
||||
|
||||
EOF :: int(-1)
|
||||
|
||||
FOPEN_MAX :: 128
|
||||
|
||||
FILENAME_MAX :: 256
|
||||
|
||||
L_tmpnam :: 512
|
||||
|
||||
SEEK_SET :: 0
|
||||
SEEK_CUR :: 1
|
||||
SEEK_END :: 2
|
||||
|
||||
TMP_MAX :: 32768
|
||||
|
||||
foreign libc {
|
||||
stderr: ^FILE
|
||||
stdin: ^FILE
|
||||
stdout: ^FILE
|
||||
}
|
||||
}
|
||||
|
||||
@(default_calling_convention="c")
|
||||
foreign libc {
|
||||
// 7.21.4 Operations on files
|
||||
@@ -218,3 +250,102 @@ foreign libc {
|
||||
ferror :: proc(stream: ^FILE) -> int ---
|
||||
perror :: proc(s: cstring) ---
|
||||
}
|
||||
|
||||
to_stream :: proc(file: ^FILE) -> io.Stream {
|
||||
stream_proc :: proc(stream_data: rawptr, mode: io.Stream_Mode, p: []byte, offset: i64, whence: io.Seek_From) -> (n: i64, err: io.Error) {
|
||||
unknown_or_eof :: proc(f: ^FILE) -> io.Error {
|
||||
switch {
|
||||
case ferror(f) != 0:
|
||||
return .Unknown
|
||||
case feof(f) != 0:
|
||||
return .EOF
|
||||
case:
|
||||
return nil
|
||||
}
|
||||
}
|
||||
|
||||
file := (^FILE)(stream_data)
|
||||
switch mode {
|
||||
case .Close:
|
||||
if fclose(file) != 0 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
case .Flush:
|
||||
if fflush(file) != 0 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
case .Read:
|
||||
n = i64(fread(raw_data(p), size_of(byte), len(p), file))
|
||||
if n == 0 { err = unknown_or_eof(file) }
|
||||
|
||||
case .Read_At:
|
||||
curr := ftell(file)
|
||||
if curr == -1 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
if fseek(file, long(offset), SEEK_SET) != 0 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
defer fseek(file, long(curr), SEEK_SET)
|
||||
|
||||
n = i64(fread(raw_data(p), size_of(byte), len(p), file))
|
||||
if n == 0 { err = unknown_or_eof(file) }
|
||||
|
||||
case .Write:
|
||||
n = i64(fwrite(raw_data(p), size_of(byte), len(p), file))
|
||||
if n == 0 { err = unknown_or_eof(file) }
|
||||
|
||||
case .Write_At:
|
||||
curr := ftell(file)
|
||||
if curr == -1 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
if fseek(file, long(offset), SEEK_SET) != 0 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
defer fseek(file, long(curr), SEEK_SET)
|
||||
|
||||
n = i64(fwrite(raw_data(p), size_of(byte), len(p), file))
|
||||
if n == 0 { err = unknown_or_eof(file) }
|
||||
|
||||
case .Seek:
|
||||
if fseek(file, long(offset), int(whence)) != 0 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
case .Size:
|
||||
curr := ftell(file)
|
||||
if curr == -1 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
defer fseek(file, curr, SEEK_SET)
|
||||
|
||||
if fseek(file, 0, SEEK_END) != 0 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
n = i64(ftell(file))
|
||||
if n == -1 {
|
||||
return 0, unknown_or_eof(file)
|
||||
}
|
||||
|
||||
case .Destroy:
|
||||
return 0, .Empty
|
||||
|
||||
case .Query:
|
||||
return io.query_utility({ .Close, .Flush, .Read, .Read_At, .Write, .Write_At, .Seek, .Size })
|
||||
}
|
||||
return
|
||||
}
|
||||
|
||||
return {
|
||||
data = file,
|
||||
procedure = stream_proc,
|
||||
}
|
||||
}
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
package libc
|
||||
|
||||
import "core:runtime"
|
||||
import "base:runtime"
|
||||
|
||||
// 7.24 String handling
|
||||
|
||||
|
||||
@@ -45,7 +45,7 @@ when ODIN_OS == .Windows {
|
||||
}
|
||||
}
|
||||
|
||||
when ODIN_OS == .Linux || ODIN_OS == .FreeBSD || ODIN_OS == .Darwin || ODIN_OS == .OpenBSD {
|
||||
when ODIN_OS == .Linux || ODIN_OS == .FreeBSD || ODIN_OS == .Darwin || ODIN_OS == .OpenBSD || ODIN_OS == .Haiku {
|
||||
@(default_calling_convention="c")
|
||||
foreign libc {
|
||||
// 7.27.2 Time manipulation functions
|
||||
|
||||
@@ -29,7 +29,11 @@ when ODIN_OS == .Windows {
|
||||
} else when ODIN_OS == .FreeBSD {
|
||||
wctrans_t :: distinct int
|
||||
wctype_t :: distinct ulong
|
||||
|
||||
|
||||
} else when ODIN_OS == .Haiku {
|
||||
wctrans_t :: distinct i32
|
||||
wctype_t :: distinct i32
|
||||
|
||||
}
|
||||
|
||||
@(default_calling_convention="c")
|
||||
|
||||
+33
-43
@@ -12,7 +12,7 @@ package compress
|
||||
|
||||
import "core:io"
|
||||
import "core:bytes"
|
||||
import "core:runtime"
|
||||
import "base:runtime"
|
||||
|
||||
/*
|
||||
These settings bound how much compression algorithms will allocate for their output buffer.
|
||||
@@ -20,10 +20,9 @@ import "core:runtime"
|
||||
|
||||
*/
|
||||
|
||||
/*
|
||||
When a decompression routine doesn't stream its output, but writes to a buffer,
|
||||
we pre-allocate an output buffer to speed up decompression. The default is 1 MiB.
|
||||
*/
|
||||
|
||||
// When a decompression routine doesn't stream its output, but writes to a buffer,
|
||||
// we pre-allocate an output buffer to speed up decompression. The default is 1 MiB.
|
||||
COMPRESS_OUTPUT_ALLOCATE_MIN :: int(#config(COMPRESS_OUTPUT_ALLOCATE_MIN, 1 << 20))
|
||||
|
||||
/*
|
||||
@@ -34,16 +33,14 @@ COMPRESS_OUTPUT_ALLOCATE_MIN :: int(#config(COMPRESS_OUTPUT_ALLOCATE_MIN, 1 << 2
|
||||
|
||||
*/
|
||||
when size_of(uintptr) == 8 {
|
||||
/*
|
||||
For 64-bit platforms, we set the default max buffer size to 4 GiB,
|
||||
which is GZIP and PKZIP's max payload size.
|
||||
*/
|
||||
|
||||
// For 64-bit platforms, we set the default max buffer size to 4 GiB,
|
||||
// which is GZIP and PKZIP's max payload size.
|
||||
COMPRESS_OUTPUT_ALLOCATE_MAX :: int(#config(COMPRESS_OUTPUT_ALLOCATE_MAX, 1 << 32))
|
||||
} else {
|
||||
/*
|
||||
For 32-bit platforms, we set the default max buffer size to 512 MiB.
|
||||
*/
|
||||
COMPRESS_OUTPUT_ALLOCATE_MAX :: int(#config(COMPRESS_OUTPUT_ALLOCATE_MAX, 1 << 29))
|
||||
|
||||
// For 32-bit platforms, we set the default max buffer size to 512 MiB.
|
||||
COMPRESS_OUTPUT_ALLOCATE_MAX :: int(#config(COMPRESS_OUTPUT_ALLOCATE_MAX, 1 << 29))
|
||||
}
|
||||
|
||||
|
||||
@@ -69,9 +66,8 @@ General_Error :: enum {
|
||||
Incompatible_Options,
|
||||
Unimplemented,
|
||||
|
||||
/*
|
||||
Memory errors
|
||||
*/
|
||||
// Memory errors
|
||||
|
||||
Allocation_Failed,
|
||||
Resize_Failed,
|
||||
}
|
||||
@@ -86,17 +82,16 @@ GZIP_Error :: enum {
|
||||
Payload_Length_Invalid,
|
||||
Payload_CRC_Invalid,
|
||||
|
||||
/*
|
||||
GZIP's payload can be a maximum of max(u32le), or 4 GiB.
|
||||
If you tell it you expect it to contain more, that's obviously an error.
|
||||
*/
|
||||
Payload_Size_Exceeds_Max_Payload,
|
||||
/*
|
||||
For buffered instead of streamed output, the payload size can't exceed
|
||||
the max set by the `COMPRESS_OUTPUT_ALLOCATE_MAX` switch in compress/common.odin.
|
||||
// GZIP's payload can be a maximum of max(u32le), or 4 GiB.
|
||||
// If you tell it you expect it to contain more, that's obviously an error.
|
||||
|
||||
Payload_Size_Exceeds_Max_Payload,
|
||||
|
||||
// For buffered instead of streamed output, the payload size can't exceed
|
||||
// the max set by the `COMPRESS_OUTPUT_ALLOCATE_MAX` switch in compress/common.odin.
|
||||
//
|
||||
// You can tweak this setting using `-define:COMPRESS_OUTPUT_ALLOCATE_MAX=size_in_bytes`
|
||||
|
||||
You can tweak this setting using `-define:COMPRESS_OUTPUT_ALLOCATE_MAX=size_in_bytes`
|
||||
*/
|
||||
Output_Exceeds_COMPRESS_OUTPUT_ALLOCATE_MAX,
|
||||
|
||||
}
|
||||
@@ -137,9 +132,8 @@ Context_Memory_Input :: struct #packed {
|
||||
code_buffer: u64,
|
||||
num_bits: u64,
|
||||
|
||||
/*
|
||||
If we know the data size, we can optimize the reads and writes.
|
||||
*/
|
||||
// If we know the data size, we can optimize the reads and writes.
|
||||
|
||||
size_packed: i64,
|
||||
size_unpacked: i64,
|
||||
}
|
||||
@@ -159,18 +153,16 @@ Context_Stream_Input :: struct #packed {
|
||||
code_buffer: u64,
|
||||
num_bits: u64,
|
||||
|
||||
/*
|
||||
If we know the data size, we can optimize the reads and writes.
|
||||
*/
|
||||
// If we know the data size, we can optimize the reads and writes.
|
||||
|
||||
size_packed: i64,
|
||||
size_unpacked: i64,
|
||||
|
||||
/*
|
||||
Flags:
|
||||
`input_fully_in_memory`
|
||||
true = This tells us we read input from `input_data` exclusively. [] = EOF.
|
||||
false = Try to refill `input_data` from the `input` stream.
|
||||
*/
|
||||
// Flags:
|
||||
// `input_fully_in_memory`
|
||||
// true = This tells us we read input from `input_data` exclusively. [] = EOF.
|
||||
// false = Try to refill `input_data` from the `input` stream.
|
||||
|
||||
input_fully_in_memory: b8,
|
||||
|
||||
padding: [1]u8,
|
||||
@@ -214,7 +206,7 @@ read_slice_from_memory :: #force_inline proc(z: ^Context_Memory_Input, size: int
|
||||
@(optimization_mode="speed")
|
||||
read_slice_from_stream :: #force_inline proc(z: ^Context_Stream_Input, size: int) -> (res: []u8, err: io.Error) {
|
||||
// TODO: REMOVE ALL USE OF context.temp_allocator here
|
||||
// the is literally no need for it
|
||||
// there is literally no need for it
|
||||
b := make([]u8, size, context.temp_allocator)
|
||||
_ = io.read(z.input, b[:]) or_return
|
||||
return b, nil
|
||||
@@ -248,10 +240,8 @@ read_u8_from_stream :: #force_inline proc(z: ^Context_Stream_Input) -> (res: u8,
|
||||
|
||||
read_u8 :: proc{read_u8_from_memory, read_u8_from_stream}
|
||||
|
||||
/*
|
||||
You would typically only use this at the end of Inflate, to drain bits from the code buffer
|
||||
preferentially.
|
||||
*/
|
||||
// You would typically only use this at the end of Inflate, to drain bits from the code buffer
|
||||
// preferentially.
|
||||
@(optimization_mode="speed")
|
||||
read_u8_prefer_code_buffer_lsb :: #force_inline proc(z: ^$C) -> (res: u8, err: io.Error) {
|
||||
if z.num_bits >= 8 {
|
||||
|
||||
@@ -1,5 +1,5 @@
|
||||
//+build ignore
|
||||
package gzip
|
||||
package compress_gzip
|
||||
|
||||
/*
|
||||
Copyright 2021 Jeroen van Rijn <nom@duclavier.com>.
|
||||
|
||||
@@ -1,4 +1,4 @@
|
||||
package gzip
|
||||
package compress_gzip
|
||||
|
||||
/*
|
||||
Copyright 2021 Jeroen van Rijn <nom@duclavier.com>.
|
||||
|
||||
@@ -5,7 +5,7 @@
|
||||
*/
|
||||
|
||||
// package shoco is an implementation of the shoco short string compressor
|
||||
package shoco
|
||||
package compress_shoco
|
||||
|
||||
DEFAULT_MODEL :: Shoco_Model {
|
||||
min_char = 39,
|
||||
|
||||
@@ -9,9 +9,9 @@
|
||||
*/
|
||||
|
||||
// package shoco is an implementation of the shoco short string compressor
|
||||
package shoco
|
||||
package compress_shoco
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
import "core:compress"
|
||||
|
||||
Shoco_Pack :: struct {
|
||||
|
||||
@@ -1,5 +1,5 @@
|
||||
//+build ignore
|
||||
package zlib
|
||||
package compress_zlib
|
||||
|
||||
/*
|
||||
Copyright 2021 Jeroen van Rijn <nom@duclavier.com>.
|
||||
|
||||
@@ -1,5 +1,5 @@
|
||||
//+vet !using-param
|
||||
package zlib
|
||||
package compress_zlib
|
||||
|
||||
/*
|
||||
Copyright 2021 Jeroen van Rijn <nom@duclavier.com>.
|
||||
|
||||
@@ -0,0 +1,678 @@
|
||||
/*
|
||||
package avl implements an AVL tree.
|
||||
|
||||
The implementation is non-intrusive, and non-recursive.
|
||||
*/
|
||||
package container_avl
|
||||
|
||||
import "base:intrinsics"
|
||||
import "base:runtime"
|
||||
import "core:slice"
|
||||
|
||||
_ :: intrinsics
|
||||
_ :: runtime
|
||||
|
||||
// Originally based on the CC0 implementation by Eric Biggers
|
||||
// See: https://github.com/ebiggers/avl_tree/
|
||||
|
||||
// Direction specifies the traversal direction for a tree iterator.
|
||||
Direction :: enum i8 {
|
||||
// Backward is the in-order backwards direction.
|
||||
Backward = -1,
|
||||
// Forward is the in-order forwards direction.
|
||||
Forward = 1,
|
||||
}
|
||||
|
||||
// Ordering specifies order when inserting/finding values into the tree.
|
||||
Ordering :: slice.Ordering
|
||||
|
||||
// Tree is an AVL tree.
|
||||
Tree :: struct($Value: typeid) {
|
||||
// user_data is a parameter that will be passed to the on_remove
|
||||
// callback.
|
||||
user_data: rawptr,
|
||||
// on_remove is an optional callback that can be called immediately
|
||||
// after a node is removed from the tree.
|
||||
on_remove: proc(value: Value, user_data: rawptr),
|
||||
|
||||
_root: ^Node(Value),
|
||||
_node_allocator: runtime.Allocator,
|
||||
_cmp_fn: proc(a, b: Value) -> Ordering,
|
||||
_size: int,
|
||||
}
|
||||
|
||||
// Node is an AVL tree node.
|
||||
//
|
||||
// WARNING: It is unsafe to mutate value if the node is part of a tree
|
||||
// if doing so will alter the Node's sort position relative to other
|
||||
// elements in the tree.
|
||||
Node :: struct($Value: typeid) {
|
||||
value: Value,
|
||||
|
||||
_parent: ^Node(Value),
|
||||
_left: ^Node(Value),
|
||||
_right: ^Node(Value),
|
||||
_balance: i8,
|
||||
}
|
||||
|
||||
// Iterator is a tree iterator.
|
||||
//
|
||||
// WARNING: It is unsafe to modify the tree while iterating, except via
|
||||
// the iterator_remove method.
|
||||
Iterator :: struct($Value: typeid) {
|
||||
_tree: ^Tree(Value),
|
||||
_cur: ^Node(Value),
|
||||
_next: ^Node(Value),
|
||||
_direction: Direction,
|
||||
_called_next: bool,
|
||||
}
|
||||
|
||||
// init initializes a tree.
|
||||
init :: proc {
|
||||
init_ordered,
|
||||
init_cmp,
|
||||
}
|
||||
|
||||
// init_cmp initializes a tree.
|
||||
init_cmp :: proc(
|
||||
t: ^$T/Tree($Value),
|
||||
cmp_fn: proc(a, b: Value) -> Ordering,
|
||||
node_allocator := context.allocator,
|
||||
) {
|
||||
t._root = nil
|
||||
t._node_allocator = node_allocator
|
||||
t._cmp_fn = cmp_fn
|
||||
t._size = 0
|
||||
}
|
||||
|
||||
// init_ordered initializes a tree containing ordered items, with
|
||||
// a comparison function that results in an ascending order sort.
|
||||
init_ordered :: proc(
|
||||
t: ^$T/Tree($Value),
|
||||
node_allocator := context.allocator,
|
||||
) where intrinsics.type_is_ordered_numeric(Value) {
|
||||
init_cmp(t, slice.cmp_proc(Value), node_allocator)
|
||||
}
|
||||
|
||||
// destroy de-initializes a tree.
|
||||
destroy :: proc(t: ^$T/Tree($Value), call_on_remove: bool = true) {
|
||||
iter := iterator(t, Direction.Forward)
|
||||
for _ in iterator_next(&iter) {
|
||||
iterator_remove(&iter, call_on_remove)
|
||||
}
|
||||
}
|
||||
|
||||
// len returns the number of elements in the tree.
|
||||
len :: proc "contextless" (t: ^$T/Tree($Value)) -> int {
|
||||
return t._size
|
||||
}
|
||||
|
||||
// first returns the first node in the tree (in-order) or nil iff
|
||||
// the tree is empty.
|
||||
first :: proc "contextless" (t: ^$T/Tree($Value)) -> ^Node(Value) {
|
||||
return tree_first_or_last_in_order(t, Direction.Backward)
|
||||
}
|
||||
|
||||
// last returns the last element in the tree (in-order) or nil iff
|
||||
// the tree is empty.
|
||||
last :: proc "contextless" (t: ^$T/Tree($Value)) -> ^Node(Value) {
|
||||
return tree_first_or_last_in_order(t, Direction.Forward)
|
||||
}
|
||||
|
||||
// find finds the value in the tree, and returns the corresponding
|
||||
// node or nil iff the value is not present.
|
||||
find :: proc(t: ^$T/Tree($Value), value: Value) -> ^Node(Value) {
|
||||
cur := t._root
|
||||
descend_loop: for cur != nil {
|
||||
switch t._cmp_fn(value, cur.value) {
|
||||
case .Less:
|
||||
cur = cur._left
|
||||
case .Greater:
|
||||
cur = cur._right
|
||||
case .Equal:
|
||||
break descend_loop
|
||||
}
|
||||
}
|
||||
|
||||
return cur
|
||||
}
|
||||
|
||||
// find_or_insert attempts to insert the value into the tree, and returns
|
||||
// the node, a boolean indicating if the value was inserted, and the
|
||||
// node allocator error if relevant. If the value is already
|
||||
// present, the existing node is returned un-altered.
|
||||
find_or_insert :: proc(
|
||||
t: ^$T/Tree($Value),
|
||||
value: Value,
|
||||
) -> (
|
||||
n: ^Node(Value),
|
||||
inserted: bool,
|
||||
err: runtime.Allocator_Error,
|
||||
) {
|
||||
n_ptr := &t._root
|
||||
for n_ptr^ != nil {
|
||||
n = n_ptr^
|
||||
switch t._cmp_fn(value, n.value) {
|
||||
case .Less:
|
||||
n_ptr = &n._left
|
||||
case .Greater:
|
||||
n_ptr = &n._right
|
||||
case .Equal:
|
||||
return
|
||||
}
|
||||
}
|
||||
|
||||
parent := n
|
||||
n = new(Node(Value), t._node_allocator) or_return
|
||||
n.value = value
|
||||
n._parent = parent
|
||||
n_ptr^ = n
|
||||
tree_rebalance_after_insert(t, n)
|
||||
|
||||
t._size += 1
|
||||
inserted = true
|
||||
|
||||
return
|
||||
}
|
||||
|
||||
// remove removes a node or value from the tree, and returns true iff the
|
||||
// removal was successful. While the node's value will be left intact,
|
||||
// the node itself will be freed via the tree's node allocator.
|
||||
remove :: proc {
|
||||
remove_value,
|
||||
remove_node,
|
||||
}
|
||||
|
||||
// remove_value removes a value from the tree, and returns true iff the
|
||||
// removal was successful. While the node's value will be left intact,
|
||||
// the node itself will be freed via the tree's node allocator.
|
||||
remove_value :: proc(t: ^$T/Tree($Value), value: Value, call_on_remove: bool = true) -> bool {
|
||||
n := find(t, value)
|
||||
if n == nil {
|
||||
return false
|
||||
}
|
||||
return remove_node(t, n, call_on_remove)
|
||||
}
|
||||
|
||||
// remove_node removes a node from the tree, and returns true iff the
|
||||
// removal was successful. While the node's value will be left intact,
|
||||
// the node itself will be freed via the tree's node allocator.
|
||||
remove_node :: proc(t: ^$T/Tree($Value), node: ^Node(Value), call_on_remove: bool = true) -> bool {
|
||||
if node._parent == node || (node._parent == nil && t._root != node) {
|
||||
return false
|
||||
}
|
||||
defer {
|
||||
if call_on_remove && t.on_remove != nil {
|
||||
t.on_remove(node.value, t.user_data)
|
||||
}
|
||||
free(node, t._node_allocator)
|
||||
}
|
||||
|
||||
parent: ^Node(Value)
|
||||
left_deleted: bool
|
||||
|
||||
t._size -= 1
|
||||
if node._left != nil && node._right != nil {
|
||||
parent, left_deleted = tree_swap_with_successor(t, node)
|
||||
} else {
|
||||
child := node._left
|
||||
if child == nil {
|
||||
child = node._right
|
||||
}
|
||||
parent = node._parent
|
||||
if parent != nil {
|
||||
if node == parent._left {
|
||||
parent._left = child
|
||||
left_deleted = true
|
||||
} else {
|
||||
parent._right = child
|
||||
left_deleted = false
|
||||
}
|
||||
if child != nil {
|
||||
child._parent = parent
|
||||
}
|
||||
} else {
|
||||
if child != nil {
|
||||
child._parent = parent
|
||||
}
|
||||
t._root = child
|
||||
node_reset(node)
|
||||
return true
|
||||
}
|
||||
}
|
||||
|
||||
for {
|
||||
if left_deleted {
|
||||
parent = tree_handle_subtree_shrink(t, parent, +1, &left_deleted)
|
||||
} else {
|
||||
parent = tree_handle_subtree_shrink(t, parent, -1, &left_deleted)
|
||||
}
|
||||
if parent == nil {
|
||||
break
|
||||
}
|
||||
}
|
||||
node_reset(node)
|
||||
|
||||
return true
|
||||
}
|
||||
|
||||
// iterator returns a tree iterator in the specified direction.
|
||||
iterator :: proc "contextless" (t: ^$T/Tree($Value), direction: Direction) -> Iterator(Value) {
|
||||
it: Iterator(Value)
|
||||
it._tree = transmute(^Tree(Value))t
|
||||
it._direction = direction
|
||||
|
||||
iterator_first(&it)
|
||||
|
||||
return it
|
||||
}
|
||||
|
||||
// iterator_from_pos returns a tree iterator in the specified direction,
|
||||
// spanning the range [pos, last] (inclusive).
|
||||
iterator_from_pos :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
pos: ^Node(Value),
|
||||
direction: Direction,
|
||||
) -> Iterator(Value) {
|
||||
it: Iterator(Value)
|
||||
it._tree = transmute(^Tree(Value))t
|
||||
it._direction = direction
|
||||
it._next = nil
|
||||
it._called_next = false
|
||||
|
||||
if it._cur = pos; pos != nil {
|
||||
it._next = node_next_or_prev_in_order(it._cur, it._direction)
|
||||
}
|
||||
|
||||
return it
|
||||
}
|
||||
|
||||
// iterator_get returns the node currently pointed to by the iterator,
|
||||
// or nil iff the node has been removed, the tree is empty, or the end
|
||||
// of the tree has been reached.
|
||||
iterator_get :: proc "contextless" (it: ^$I/Iterator($Value)) -> ^Node(Value) {
|
||||
return it._cur
|
||||
}
|
||||
|
||||
// iterator_remove removes the node currently pointed to by the iterator,
|
||||
// and returns true iff the removal was successful. Semantics are the
|
||||
// same as the Tree remove.
|
||||
iterator_remove :: proc(it: ^$I/Iterator($Value), call_on_remove: bool = true) -> bool {
|
||||
if it._cur == nil {
|
||||
return false
|
||||
}
|
||||
|
||||
ok := remove_node(it._tree, it._cur, call_on_remove)
|
||||
if ok {
|
||||
it._cur = nil
|
||||
}
|
||||
|
||||
return ok
|
||||
}
|
||||
|
||||
// iterator_next advances the iterator and returns the (node, true) or
|
||||
// or (nil, false) iff the end of the tree has been reached.
|
||||
//
|
||||
// Note: The first call to iterator_next will return the first node instead
|
||||
// of advancing the iterator.
|
||||
iterator_next :: proc "contextless" (it: ^$I/Iterator($Value)) -> (^Node(Value), bool) {
|
||||
// This check is needed so that the first element gets returned from
|
||||
// a brand-new iterator, and so that the somewhat contrived case where
|
||||
// iterator_remove is called before the first call to iterator_next
|
||||
// returns the correct value.
|
||||
if !it._called_next {
|
||||
it._called_next = true
|
||||
|
||||
// There can be the contrived case where iterator_remove is
|
||||
// called before ever calling iterator_next, which needs to be
|
||||
// handled as an actual call to next.
|
||||
//
|
||||
// If this happens it._cur will be nil, so only return the
|
||||
// first value, if it._cur is valid.
|
||||
if it._cur != nil {
|
||||
return it._cur, true
|
||||
}
|
||||
}
|
||||
|
||||
if it._next == nil {
|
||||
return nil, false
|
||||
}
|
||||
|
||||
it._cur = it._next
|
||||
it._next = node_next_or_prev_in_order(it._cur, it._direction)
|
||||
|
||||
return it._cur, true
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_first_or_last_in_order :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
direction: Direction,
|
||||
) -> ^Node(Value) {
|
||||
first, sign := t._root, i8(direction)
|
||||
if first != nil {
|
||||
for {
|
||||
tmp := node_get_child(first, +sign)
|
||||
if tmp == nil {
|
||||
break
|
||||
}
|
||||
first = tmp
|
||||
}
|
||||
}
|
||||
|
||||
return first
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_replace_child :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
parent, old_child, new_child: ^Node(Value),
|
||||
) {
|
||||
if parent != nil {
|
||||
if old_child == parent._left {
|
||||
parent._left = new_child
|
||||
} else {
|
||||
parent._right = new_child
|
||||
}
|
||||
} else {
|
||||
t._root = new_child
|
||||
}
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_rotate :: proc "contextless" (t: ^$T/Tree($Value), a: ^Node(Value), sign: i8) {
|
||||
b := node_get_child(a, -sign)
|
||||
e := node_get_child(b, +sign)
|
||||
p := a._parent
|
||||
|
||||
node_set_child(a, -sign, e)
|
||||
a._parent = b
|
||||
|
||||
node_set_child(b, +sign, a)
|
||||
b._parent = p
|
||||
|
||||
if e != nil {
|
||||
e._parent = a
|
||||
}
|
||||
|
||||
tree_replace_child(t, p, a, b)
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_double_rotate :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
b, a: ^Node(Value),
|
||||
sign: i8,
|
||||
) -> ^Node(Value) {
|
||||
e := node_get_child(b, +sign)
|
||||
f := node_get_child(e, -sign)
|
||||
g := node_get_child(e, +sign)
|
||||
p := a._parent
|
||||
e_bal := e._balance
|
||||
|
||||
node_set_child(a, -sign, g)
|
||||
a_bal := -e_bal
|
||||
if sign * e_bal >= 0 {
|
||||
a_bal = 0
|
||||
}
|
||||
node_set_parent_balance(a, e, a_bal)
|
||||
|
||||
node_set_child(b, +sign, f)
|
||||
b_bal := -e_bal
|
||||
if sign * e_bal <= 0 {
|
||||
b_bal = 0
|
||||
}
|
||||
node_set_parent_balance(b, e, b_bal)
|
||||
|
||||
node_set_child(e, +sign, a)
|
||||
node_set_child(e, -sign, b)
|
||||
node_set_parent_balance(e, p, 0)
|
||||
|
||||
if g != nil {
|
||||
g._parent = a
|
||||
}
|
||||
|
||||
if f != nil {
|
||||
f._parent = b
|
||||
}
|
||||
|
||||
tree_replace_child(t, p, a, e)
|
||||
|
||||
return e
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_handle_subtree_growth :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
node, parent: ^Node(Value),
|
||||
sign: i8,
|
||||
) -> bool {
|
||||
old_balance_factor := parent._balance
|
||||
if old_balance_factor == 0 {
|
||||
node_adjust_balance_factor(parent, sign)
|
||||
return false
|
||||
}
|
||||
|
||||
new_balance_factor := old_balance_factor + sign
|
||||
if new_balance_factor == 0 {
|
||||
node_adjust_balance_factor(parent, sign)
|
||||
return true
|
||||
}
|
||||
|
||||
if sign * node._balance > 0 {
|
||||
tree_rotate(t, parent, -sign)
|
||||
node_adjust_balance_factor(parent, -sign)
|
||||
node_adjust_balance_factor(node, -sign)
|
||||
} else {
|
||||
tree_double_rotate(t, node, parent, -sign)
|
||||
}
|
||||
|
||||
return true
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_rebalance_after_insert :: proc "contextless" (t: ^$T/Tree($Value), inserted: ^Node(Value)) {
|
||||
node, parent := inserted, inserted._parent
|
||||
switch {
|
||||
case parent == nil:
|
||||
return
|
||||
case node == parent._left:
|
||||
node_adjust_balance_factor(parent, -1)
|
||||
case:
|
||||
node_adjust_balance_factor(parent, +1)
|
||||
}
|
||||
|
||||
if parent._balance == 0 {
|
||||
return
|
||||
}
|
||||
|
||||
for done := false; !done; {
|
||||
node = parent
|
||||
if parent = node._parent; parent == nil {
|
||||
return
|
||||
}
|
||||
|
||||
if node == parent._left {
|
||||
done = tree_handle_subtree_growth(t, node, parent, -1)
|
||||
} else {
|
||||
done = tree_handle_subtree_growth(t, node, parent, +1)
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_swap_with_successor :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
x: ^Node(Value),
|
||||
) -> (
|
||||
^Node(Value),
|
||||
bool,
|
||||
) {
|
||||
ret: ^Node(Value)
|
||||
left_deleted: bool
|
||||
|
||||
y := x._right
|
||||
if y._left == nil {
|
||||
ret = y
|
||||
} else {
|
||||
q: ^Node(Value)
|
||||
|
||||
for {
|
||||
q = y
|
||||
if y = y._left; y._left == nil {
|
||||
break
|
||||
}
|
||||
}
|
||||
|
||||
if q._left = y._right; q._left != nil {
|
||||
q._left._parent = q
|
||||
}
|
||||
y._right = x._right
|
||||
x._right._parent = y
|
||||
ret = q
|
||||
left_deleted = true
|
||||
}
|
||||
|
||||
y._left = x._left
|
||||
x._left._parent = y
|
||||
|
||||
y._parent = x._parent
|
||||
y._balance = x._balance
|
||||
|
||||
tree_replace_child(t, x._parent, x, y)
|
||||
|
||||
return ret, left_deleted
|
||||
}
|
||||
|
||||
@(private)
|
||||
tree_handle_subtree_shrink :: proc "contextless" (
|
||||
t: ^$T/Tree($Value),
|
||||
parent: ^Node(Value),
|
||||
sign: i8,
|
||||
left_deleted: ^bool,
|
||||
) -> ^Node(Value) {
|
||||
old_balance_factor := parent._balance
|
||||
if old_balance_factor == 0 {
|
||||
node_adjust_balance_factor(parent, sign)
|
||||
return nil
|
||||
}
|
||||
|
||||
node: ^Node(Value)
|
||||
new_balance_factor := old_balance_factor + sign
|
||||
if new_balance_factor == 0 {
|
||||
node_adjust_balance_factor(parent, sign)
|
||||
node = parent
|
||||
} else {
|
||||
node = node_get_child(parent, sign)
|
||||
if sign * node._balance >= 0 {
|
||||
tree_rotate(t, parent, -sign)
|
||||
if node._balance == 0 {
|
||||
node_adjust_balance_factor(node, -sign)
|
||||
return nil
|
||||
}
|
||||
node_adjust_balance_factor(parent, -sign)
|
||||
node_adjust_balance_factor(node, -sign)
|
||||
} else {
|
||||
node = tree_double_rotate(t, node, parent, -sign)
|
||||
}
|
||||
}
|
||||
|
||||
parent := parent
|
||||
if parent = node._parent; parent != nil {
|
||||
left_deleted^ = node == parent._left
|
||||
}
|
||||
return parent
|
||||
}
|
||||
|
||||
@(private)
|
||||
node_reset :: proc "contextless" (n: ^Node($Value)) {
|
||||
// Mostly pointless as n will be deleted after this is called, but
|
||||
// attempt to be able to catch cases of n not being in the tree.
|
||||
n._parent = n
|
||||
n._left = nil
|
||||
n._right = nil
|
||||
n._balance = 0
|
||||
}
|
||||
|
||||
@(private)
|
||||
node_set_parent_balance :: #force_inline proc "contextless" (
|
||||
n, parent: ^Node($Value),
|
||||
balance: i8,
|
||||
) {
|
||||
n._parent = parent
|
||||
n._balance = balance
|
||||
}
|
||||
|
||||
@(private)
|
||||
node_get_child :: #force_inline proc "contextless" (n: ^Node($Value), sign: i8) -> ^Node(Value) {
|
||||
if sign < 0 {
|
||||
return n._left
|
||||
}
|
||||
return n._right
|
||||
}
|
||||
|
||||
@(private)
|
||||
node_next_or_prev_in_order :: proc "contextless" (
|
||||
n: ^Node($Value),
|
||||
direction: Direction,
|
||||
) -> ^Node(Value) {
|
||||
next, tmp: ^Node(Value)
|
||||
sign := i8(direction)
|
||||
|
||||
if next = node_get_child(n, +sign); next != nil {
|
||||
for {
|
||||
tmp = node_get_child(next, -sign)
|
||||
if tmp == nil {
|
||||
break
|
||||
}
|
||||
next = tmp
|
||||
}
|
||||
} else {
|
||||
tmp, next = n, n._parent
|
||||
for next != nil && tmp == node_get_child(next, +sign) {
|
||||
tmp, next = next, next._parent
|
||||
}
|
||||
}
|
||||
return next
|
||||
}
|
||||
|
||||
@(private)
|
||||
node_set_child :: #force_inline proc "contextless" (
|
||||
n: ^Node($Value),
|
||||
sign: i8,
|
||||
child: ^Node(Value),
|
||||
) {
|
||||
if sign < 0 {
|
||||
n._left = child
|
||||
} else {
|
||||
n._right = child
|
||||
}
|
||||
}
|
||||
|
||||
@(private)
|
||||
node_adjust_balance_factor :: #force_inline proc "contextless" (n: ^Node($Value), amount: i8) {
|
||||
n._balance += amount
|
||||
}
|
||||
|
||||
@(private)
|
||||
iterator_first :: proc "contextless" (it: ^Iterator($Value)) {
|
||||
// This is private because behavior when the user manually calls
|
||||
// iterator_first followed by iterator_next is unintuitive, since
|
||||
// the first call to iterator_next MUST return the first node
|
||||
// instead of advancing so that `for node in iterator_next(&next)`
|
||||
// works as expected.
|
||||
|
||||
switch it._direction {
|
||||
case .Forward:
|
||||
it._cur = tree_first_or_last_in_order(it._tree, .Backward)
|
||||
case .Backward:
|
||||
it._cur = tree_first_or_last_in_order(it._tree, .Forward)
|
||||
}
|
||||
|
||||
it._next = nil
|
||||
it._called_next = false
|
||||
|
||||
if it._cur != nil {
|
||||
it._next = node_next_or_prev_in_order(it._cur, it._direction)
|
||||
}
|
||||
}
|
||||
@@ -1,6 +1,6 @@
|
||||
package dynamic_bit_array
|
||||
package container_dynamic_bit_array
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
import "core:mem"
|
||||
|
||||
/*
|
||||
|
||||
@@ -1,53 +1,52 @@
|
||||
package dynamic_bit_array
|
||||
|
||||
/*
|
||||
The Bit Array can be used in several ways:
|
||||
The Bit Array can be used in several ways:
|
||||
|
||||
-- By default you don't need to instantiate a Bit Array:
|
||||
- By default you don't need to instantiate a Bit Array:
|
||||
|
||||
package test
|
||||
package test
|
||||
|
||||
import "core:fmt"
|
||||
import "core:container/bit_array"
|
||||
import "core:fmt"
|
||||
import "core:container/bit_array"
|
||||
|
||||
main :: proc() {
|
||||
using bit_array
|
||||
main :: proc() {
|
||||
using bit_array
|
||||
|
||||
bits: Bit_Array
|
||||
bits: Bit_Array
|
||||
|
||||
// returns `true`
|
||||
fmt.println(set(&bits, 42))
|
||||
// returns `true`
|
||||
fmt.println(set(&bits, 42))
|
||||
|
||||
// returns `false`, `false`, because this Bit Array wasn't created to allow negative indices.
|
||||
was_set, was_retrieved := get(&bits, -1)
|
||||
fmt.println(was_set, was_retrieved)
|
||||
destroy(&bits)
|
||||
// returns `false`, `false`, because this Bit Array wasn't created to allow negative indices.
|
||||
was_set, was_retrieved := get(&bits, -1)
|
||||
fmt.println(was_set, was_retrieved)
|
||||
destroy(&bits)
|
||||
}
|
||||
|
||||
- A Bit Array can optionally allow for negative indices, if the minimum value was given during creation:
|
||||
|
||||
package test
|
||||
|
||||
import "core:fmt"
|
||||
import "core:container/bit_array"
|
||||
|
||||
main :: proc() {
|
||||
Foo :: enum int {
|
||||
Negative_Test = -42,
|
||||
Bar = 420,
|
||||
Leaves = 69105,
|
||||
}
|
||||
|
||||
-- A Bit Array can optionally allow for negative indices, if the mininum value was given during creation:
|
||||
using bit_array
|
||||
|
||||
package test
|
||||
bits := create(int(max(Foo)), int(min(Foo)))
|
||||
defer destroy(bits)
|
||||
|
||||
import "core:fmt"
|
||||
import "core:container/bit_array"
|
||||
|
||||
main :: proc() {
|
||||
Foo :: enum int {
|
||||
Negative_Test = -42,
|
||||
Bar = 420,
|
||||
Leaves = 69105,
|
||||
}
|
||||
|
||||
using bit_array
|
||||
|
||||
bits := create(int(max(Foo)), int(min(Foo)))
|
||||
defer destroy(bits)
|
||||
|
||||
fmt.printf("Set(Bar): %v\n", set(bits, Foo.Bar))
|
||||
fmt.printf("Get(Bar): %v, %v\n", get(bits, Foo.Bar))
|
||||
fmt.printf("Set(Negative_Test): %v\n", set(bits, Foo.Negative_Test))
|
||||
fmt.printf("Get(Leaves): %v, %v\n", get(bits, Foo.Leaves))
|
||||
fmt.printf("Get(Negative_Test): %v, %v\n", get(bits, Foo.Negative_Test))
|
||||
fmt.printf("Freed.\n")
|
||||
}
|
||||
*/
|
||||
fmt.printf("Set(Bar): %v\n", set(bits, Foo.Bar))
|
||||
fmt.printf("Get(Bar): %v, %v\n", get(bits, Foo.Bar))
|
||||
fmt.printf("Set(Negative_Test): %v\n", set(bits, Foo.Negative_Test))
|
||||
fmt.printf("Get(Leaves): %v, %v\n", get(bits, Foo.Leaves))
|
||||
fmt.printf("Get(Negative_Test): %v, %v\n", get(bits, Foo.Negative_Test))
|
||||
fmt.printf("Freed.\n")
|
||||
}
|
||||
*/
|
||||
package container_dynamic_bit_array
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
package container_intrusive_list
|
||||
|
||||
import "core:intrinsics"
|
||||
import "base:intrinsics"
|
||||
|
||||
// An intrusive doubly-linked list
|
||||
//
|
||||
|
||||
@@ -1,7 +1,7 @@
|
||||
package container_lru
|
||||
|
||||
import "core:runtime"
|
||||
import "core:intrinsics"
|
||||
import "base:runtime"
|
||||
import "base:intrinsics"
|
||||
_ :: runtime
|
||||
_ :: intrinsics
|
||||
|
||||
|
||||
@@ -1,6 +1,6 @@
|
||||
package container_priority_queue
|
||||
|
||||
import "core:builtin"
|
||||
import "base:builtin"
|
||||
|
||||
Priority_Queue :: struct($T: typeid) {
|
||||
queue: [dynamic]T,
|
||||
@@ -140,3 +140,18 @@ remove :: proc(pq: ^$Q/Priority_Queue($T), i: int) -> (value: T, ok: bool) {
|
||||
return
|
||||
}
|
||||
|
||||
peek_safe :: proc(pq: $Q/Priority_Queue($T), loc := #caller_location) -> (res: T, ok: bool) {
|
||||
if builtin.len(pq.queue) > 0 {
|
||||
return pq.queue[0], true
|
||||
}
|
||||
return
|
||||
}
|
||||
|
||||
peek :: proc(pq: $Q/Priority_Queue($T), loc := #caller_location) -> (res: T) {
|
||||
assert(condition=builtin.len(pq.queue)>0, loc=loc)
|
||||
|
||||
if builtin.len(pq.queue) > 0 {
|
||||
return pq.queue[0]
|
||||
}
|
||||
return
|
||||
}
|
||||
@@ -1,7 +1,7 @@
|
||||
package container_queue
|
||||
|
||||
import "core:builtin"
|
||||
import "core:runtime"
|
||||
import "base:builtin"
|
||||
import "base:runtime"
|
||||
_ :: runtime
|
||||
|
||||
// Dynamically resizable double-ended queue/ring-buffer
|
||||
|
||||
@@ -1,7 +1,7 @@
|
||||
package container_small_array
|
||||
|
||||
import "core:builtin"
|
||||
import "core:runtime"
|
||||
import "base:builtin"
|
||||
import "base:runtime"
|
||||
_ :: runtime
|
||||
|
||||
Small_Array :: struct($N: int, $T: typeid) where N >= 0 {
|
||||
|
||||
@@ -3,8 +3,8 @@
|
||||
// map type is being used to accelerate lookups.
|
||||
package container_topological_sort
|
||||
|
||||
import "core:intrinsics"
|
||||
import "core:runtime"
|
||||
import "base:intrinsics"
|
||||
import "base:runtime"
|
||||
_ :: intrinsics
|
||||
_ :: runtime
|
||||
|
||||
|
||||
+16
-70
@@ -1,84 +1,30 @@
|
||||
# crypto
|
||||
|
||||
A cryptography library for the Odin language
|
||||
A cryptography library for the Odin language.
|
||||
|
||||
## Supported
|
||||
|
||||
This library offers various algorithms implemented in Odin.
|
||||
Please see the chart below for some of the options.
|
||||
|
||||
## Hashing algorithms
|
||||
|
||||
| Algorithm | |
|
||||
|:-------------------------------------------------------------------------------------------------------------|:-----------------|
|
||||
| [BLAKE2B](https://datatracker.ietf.org/doc/html/rfc7693) | ✔️ |
|
||||
| [BLAKE2S](https://datatracker.ietf.org/doc/html/rfc7693) | ✔️ |
|
||||
| [SHA-2](https://csrc.nist.gov/csrc/media/publications/fips/180/2/archive/2002-08-01/documents/fips180-2.pdf) | ✔️ |
|
||||
| [SHA-3](https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.202.pdf) | ✔️ |
|
||||
| [SHAKE](https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.202.pdf) | ✔️ |
|
||||
| [SM3](https://datatracker.ietf.org/doc/html/draft-sca-cfrg-sm3-02) | ✔️ |
|
||||
| legacy/[Keccak](https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.202.pdf) | ✔️ |
|
||||
| legacy/[MD5](https://datatracker.ietf.org/doc/html/rfc1321) | ✔️ |
|
||||
| legacy/[SHA-1](https://datatracker.ietf.org/doc/html/rfc3174) | ✔️ |
|
||||
|
||||
#### High level API
|
||||
|
||||
Each hash algorithm contains a procedure group named `hash`, or if the algorithm provides more than one digest size `hash_<size>`\*.
|
||||
Included in these groups are six procedures.
|
||||
- `hash_string` - Hash a given string and return the computed hash. Just calls `hash_bytes` internally
|
||||
- `hash_bytes` - Hash a given byte slice and return the computed hash
|
||||
- `hash_string_to_buffer` - Hash a given string and put the computed hash in the second proc parameter. Just calls `hash_bytes_to_buffer` internally
|
||||
- `hash_bytes_to_buffer` - Hash a given string and put the computed hash in the second proc parameter. The destination buffer has to be at least as big as the digest size of the hash
|
||||
- `hash_stream` - Takes a stream from io.Stream and returns the computed hash from it
|
||||
- `hash_file` - Takes a file handle and returns the computed hash from it. A second optional boolean parameter controls if the file is streamed (this is the default) or read at once (set to true)
|
||||
|
||||
\* On some algorithms there is another part to the name, since they might offer control about additional parameters.
|
||||
For instance, `SHA-2` offers different sizes.
|
||||
Computing a 512-bit hash is therefore achieved by calling `sha2.hash_512(...)`.
|
||||
|
||||
#### Low level API
|
||||
|
||||
The above mentioned procedures internally call three procedures: `init`, `update` and `final`.
|
||||
You may also directly call them, if you wish.
|
||||
|
||||
#### Example
|
||||
|
||||
```odin
|
||||
package crypto_example
|
||||
|
||||
// Import the desired package
|
||||
import "core:crypto/blake2b"
|
||||
|
||||
main :: proc() {
|
||||
input := "foo"
|
||||
|
||||
// Compute the hash, using the high level API
|
||||
computed_hash := blake2b.hash(input)
|
||||
|
||||
// Variant that takes a destination buffer, instead of returning the computed hash
|
||||
hash := make([]byte, sha2.DIGEST_SIZE) // @note: Destination buffer has to be at least as big as the digest size of the hash
|
||||
blake2b.hash(input, hash[:])
|
||||
|
||||
// Compute the hash, using the low level API
|
||||
ctx: blake2b.Context
|
||||
computed_hash_low: [blake2b.DIGEST_SIZE]byte
|
||||
blake2b.init(&ctx)
|
||||
blake2b.update(&ctx, transmute([]byte)input)
|
||||
blake2b.final(&ctx, computed_hash_low[:])
|
||||
}
|
||||
```
|
||||
For example uses of all available algorithms, please see the tests within `tests/core/crypto`.
|
||||
This package offers various algorithms implemented in Odin, along with
|
||||
useful helpers such as access to the system entropy source, and a
|
||||
constant-time byte comparison.
|
||||
|
||||
## Implementation considerations
|
||||
|
||||
- The crypto packages are not thread-safe.
|
||||
- Best-effort is make to mitigate timing side-channels on reasonable
|
||||
architectures. Architectures that are known to be unreasonable include
|
||||
architectures. Architectures that are known to be unreasonable include
|
||||
but are not limited to i386, i486, and WebAssembly.
|
||||
- Some but not all of the packages attempt to santize sensitive data,
|
||||
however this is not done consistently through the library at the moment.
|
||||
As Thomas Pornin puts it "In general, such memory cleansing is a fool's
|
||||
quest."
|
||||
- Implementations assume a 64-bit architecture (64-bit integer arithmetic
|
||||
is fast, and includes add-with-carry, sub-with-borrow, and full-result
|
||||
multiply).
|
||||
- Hardware sidechannels are explicitly out of scope for this package.
|
||||
Notable examples include but are not limited to:
|
||||
- Power/RF side-channels etc.
|
||||
- Fault injection attacks etc.
|
||||
- Hardware vulnerabilities ("apply mitigations or buy a new CPU").
|
||||
- The packages attempt to santize sensitive data, however this is, and
|
||||
will remain a "best-effort" implementation decision. As Thomas Pornin
|
||||
puts it "In general, such memory cleansing is a fool's quest."
|
||||
- All of these packages have not received independent third party review.
|
||||
|
||||
## License
|
||||
|
||||
@@ -11,6 +11,7 @@ package _blake2
|
||||
*/
|
||||
|
||||
import "core:encoding/endian"
|
||||
import "core:mem"
|
||||
|
||||
BLAKE2S_BLOCK_SIZE :: 64
|
||||
BLAKE2S_SIZE :: 32
|
||||
@@ -28,7 +29,6 @@ Blake2s_Context :: struct {
|
||||
is_keyed: bool,
|
||||
size: byte,
|
||||
is_last_node: bool,
|
||||
cfg: Blake2_Config,
|
||||
|
||||
is_initialized: bool,
|
||||
}
|
||||
@@ -44,7 +44,6 @@ Blake2b_Context :: struct {
|
||||
is_keyed: bool,
|
||||
size: byte,
|
||||
is_last_node: bool,
|
||||
cfg: Blake2_Config,
|
||||
|
||||
is_initialized: bool,
|
||||
}
|
||||
@@ -83,62 +82,61 @@ BLAKE2B_IV := [8]u64 {
|
||||
0x1f83d9abfb41bd6b, 0x5be0cd19137e2179,
|
||||
}
|
||||
|
||||
init :: proc(ctx: ^$T) {
|
||||
init :: proc(ctx: ^$T, cfg: ^Blake2_Config) {
|
||||
when T == Blake2s_Context {
|
||||
block_size :: BLAKE2S_BLOCK_SIZE
|
||||
max_size :: BLAKE2S_SIZE
|
||||
} else when T == Blake2b_Context {
|
||||
block_size :: BLAKE2B_BLOCK_SIZE
|
||||
max_size :: BLAKE2B_SIZE
|
||||
}
|
||||
|
||||
if ctx.cfg.size > max_size {
|
||||
if cfg.size > max_size {
|
||||
panic("blake2: requested output size exceeeds algorithm max")
|
||||
}
|
||||
|
||||
p := make([]byte, block_size)
|
||||
defer delete(p)
|
||||
// To save having to allocate a scratch buffer, use the internal
|
||||
// data buffer (`ctx.x`), as it is exactly the correct size.
|
||||
p := ctx.x[:]
|
||||
|
||||
p[0] = ctx.cfg.size
|
||||
p[1] = byte(len(ctx.cfg.key))
|
||||
p[0] = cfg.size
|
||||
p[1] = byte(len(cfg.key))
|
||||
|
||||
if ctx.cfg.salt != nil {
|
||||
if cfg.salt != nil {
|
||||
when T == Blake2s_Context {
|
||||
copy(p[16:], ctx.cfg.salt)
|
||||
copy(p[16:], cfg.salt)
|
||||
} else when T == Blake2b_Context {
|
||||
copy(p[32:], ctx.cfg.salt)
|
||||
copy(p[32:], cfg.salt)
|
||||
}
|
||||
}
|
||||
if ctx.cfg.person != nil {
|
||||
if cfg.person != nil {
|
||||
when T == Blake2s_Context {
|
||||
copy(p[24:], ctx.cfg.person)
|
||||
copy(p[24:], cfg.person)
|
||||
} else when T == Blake2b_Context {
|
||||
copy(p[48:], ctx.cfg.person)
|
||||
copy(p[48:], cfg.person)
|
||||
}
|
||||
}
|
||||
|
||||
if ctx.cfg.tree != nil {
|
||||
p[2] = ctx.cfg.tree.(Blake2_Tree).fanout
|
||||
p[3] = ctx.cfg.tree.(Blake2_Tree).max_depth
|
||||
endian.unchecked_put_u32le(p[4:], ctx.cfg.tree.(Blake2_Tree).leaf_size)
|
||||
if cfg.tree != nil {
|
||||
p[2] = cfg.tree.(Blake2_Tree).fanout
|
||||
p[3] = cfg.tree.(Blake2_Tree).max_depth
|
||||
endian.unchecked_put_u32le(p[4:], cfg.tree.(Blake2_Tree).leaf_size)
|
||||
when T == Blake2s_Context {
|
||||
p[8] = byte(ctx.cfg.tree.(Blake2_Tree).node_offset)
|
||||
p[9] = byte(ctx.cfg.tree.(Blake2_Tree).node_offset >> 8)
|
||||
p[10] = byte(ctx.cfg.tree.(Blake2_Tree).node_offset >> 16)
|
||||
p[11] = byte(ctx.cfg.tree.(Blake2_Tree).node_offset >> 24)
|
||||
p[12] = byte(ctx.cfg.tree.(Blake2_Tree).node_offset >> 32)
|
||||
p[13] = byte(ctx.cfg.tree.(Blake2_Tree).node_offset >> 40)
|
||||
p[14] = ctx.cfg.tree.(Blake2_Tree).node_depth
|
||||
p[15] = ctx.cfg.tree.(Blake2_Tree).inner_hash_size
|
||||
p[8] = byte(cfg.tree.(Blake2_Tree).node_offset)
|
||||
p[9] = byte(cfg.tree.(Blake2_Tree).node_offset >> 8)
|
||||
p[10] = byte(cfg.tree.(Blake2_Tree).node_offset >> 16)
|
||||
p[11] = byte(cfg.tree.(Blake2_Tree).node_offset >> 24)
|
||||
p[12] = byte(cfg.tree.(Blake2_Tree).node_offset >> 32)
|
||||
p[13] = byte(cfg.tree.(Blake2_Tree).node_offset >> 40)
|
||||
p[14] = cfg.tree.(Blake2_Tree).node_depth
|
||||
p[15] = cfg.tree.(Blake2_Tree).inner_hash_size
|
||||
} else when T == Blake2b_Context {
|
||||
endian.unchecked_put_u64le(p[8:], ctx.cfg.tree.(Blake2_Tree).node_offset)
|
||||
p[16] = ctx.cfg.tree.(Blake2_Tree).node_depth
|
||||
p[17] = ctx.cfg.tree.(Blake2_Tree).inner_hash_size
|
||||
endian.unchecked_put_u64le(p[8:], cfg.tree.(Blake2_Tree).node_offset)
|
||||
p[16] = cfg.tree.(Blake2_Tree).node_depth
|
||||
p[17] = cfg.tree.(Blake2_Tree).inner_hash_size
|
||||
}
|
||||
} else {
|
||||
p[2], p[3] = 1, 1
|
||||
}
|
||||
ctx.size = ctx.cfg.size
|
||||
ctx.size = cfg.size
|
||||
for i := 0; i < 8; i += 1 {
|
||||
when T == Blake2s_Context {
|
||||
ctx.h[i] = BLAKE2S_IV[i] ~ endian.unchecked_get_u32le(p[i * 4:])
|
||||
@@ -147,11 +145,14 @@ init :: proc(ctx: ^$T) {
|
||||
ctx.h[i] = BLAKE2B_IV[i] ~ endian.unchecked_get_u64le(p[i * 8:])
|
||||
}
|
||||
}
|
||||
if ctx.cfg.tree != nil && ctx.cfg.tree.(Blake2_Tree).is_last_node {
|
||||
|
||||
mem.zero(&ctx.x, size_of(ctx.x)) // Done with the scratch space, no barrier.
|
||||
|
||||
if cfg.tree != nil && cfg.tree.(Blake2_Tree).is_last_node {
|
||||
ctx.is_last_node = true
|
||||
}
|
||||
if len(ctx.cfg.key) > 0 {
|
||||
copy(ctx.padded_key[:], ctx.cfg.key)
|
||||
if len(cfg.key) > 0 {
|
||||
copy(ctx.padded_key[:], cfg.key)
|
||||
update(ctx, ctx.padded_key[:])
|
||||
ctx.is_keyed = true
|
||||
}
|
||||
@@ -194,22 +195,40 @@ update :: proc(ctx: ^$T, p: []byte) {
|
||||
ctx.nx += copy(ctx.x[ctx.nx:], p)
|
||||
}
|
||||
|
||||
final :: proc(ctx: ^$T, hash: []byte) {
|
||||
final :: proc(ctx: ^$T, hash: []byte, finalize_clone: bool = false) {
|
||||
assert(ctx.is_initialized)
|
||||
|
||||
ctx := ctx
|
||||
if finalize_clone {
|
||||
tmp_ctx: T
|
||||
clone(&tmp_ctx, ctx)
|
||||
ctx = &tmp_ctx
|
||||
}
|
||||
defer(reset(ctx))
|
||||
|
||||
when T == Blake2s_Context {
|
||||
if len(hash) < int(ctx.cfg.size) {
|
||||
if len(hash) < int(ctx.size) {
|
||||
panic("crypto/blake2s: invalid destination digest size")
|
||||
}
|
||||
blake2s_final(ctx, hash)
|
||||
} else when T == Blake2b_Context {
|
||||
if len(hash) < int(ctx.cfg.size) {
|
||||
if len(hash) < int(ctx.size) {
|
||||
panic("crypto/blake2b: invalid destination digest size")
|
||||
}
|
||||
blake2b_final(ctx, hash)
|
||||
}
|
||||
}
|
||||
|
||||
ctx.is_initialized = false
|
||||
clone :: proc(ctx, other: ^$T) {
|
||||
ctx^ = other^
|
||||
}
|
||||
|
||||
reset :: proc(ctx: ^$T) {
|
||||
if !ctx.is_initialized {
|
||||
return
|
||||
}
|
||||
|
||||
mem.zero_explicit(ctx, size_of(ctx^))
|
||||
}
|
||||
|
||||
@(private)
|
||||
|
||||
@@ -0,0 +1,428 @@
|
||||
package _edwards25519
|
||||
|
||||
/*
|
||||
This implements the edwards25519 composite-order group, primarily for
|
||||
the purpose of implementing X25519, Ed25519, and ristretto255. Use of
|
||||
this package for other purposes is NOT RECOMMENDED.
|
||||
|
||||
See:
|
||||
- https://eprint.iacr.org/2011/368.pdf
|
||||
- https://datatracker.ietf.org/doc/html/rfc8032
|
||||
- https://www.hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html
|
||||
*/
|
||||
|
||||
import "base:intrinsics"
|
||||
import "core:crypto"
|
||||
import field "core:crypto/_fiat/field_curve25519"
|
||||
import "core:mem"
|
||||
|
||||
// Group_Element is an edwards25519 group element, as extended homogenous
|
||||
// coordinates, which represents the affine point `(x, y)` as `(X, Y, Z, T)`,
|
||||
// with the relations `x = X/Z`, `y = Y/Z`, and `x * y = T/Z`.
|
||||
//
|
||||
// d = -121665/121666 = 37095705934669439343138083508754565189542113879843219016388785533085940283555
|
||||
// a = -1
|
||||
//
|
||||
// Notes:
|
||||
// - There is considerable scope for optimization, however that
|
||||
// will not change the external API, and this is simple and reasonably
|
||||
// performant.
|
||||
// - The API delibarately makes it hard to create arbitrary group
|
||||
// elements that are not on the curve.
|
||||
// - The group element decoding routine takes the opinionated stance of
|
||||
// rejecting non-canonical encodings.
|
||||
|
||||
FE_D := field.Tight_Field_Element {
|
||||
929955233495203,
|
||||
466365720129213,
|
||||
1662059464998953,
|
||||
2033849074728123,
|
||||
1442794654840575,
|
||||
}
|
||||
@(private)
|
||||
FE_A := field.Tight_Field_Element {
|
||||
2251799813685228,
|
||||
2251799813685247,
|
||||
2251799813685247,
|
||||
2251799813685247,
|
||||
2251799813685247,
|
||||
}
|
||||
@(private)
|
||||
FE_D2 := field.Tight_Field_Element {
|
||||
1859910466990425,
|
||||
932731440258426,
|
||||
1072319116312658,
|
||||
1815898335770999,
|
||||
633789495995903,
|
||||
}
|
||||
@(private)
|
||||
GE_BASEPOINT := Group_Element {
|
||||
field.Tight_Field_Element {
|
||||
1738742601995546,
|
||||
1146398526822698,
|
||||
2070867633025821,
|
||||
562264141797630,
|
||||
587772402128613,
|
||||
},
|
||||
field.Tight_Field_Element {
|
||||
1801439850948184,
|
||||
1351079888211148,
|
||||
450359962737049,
|
||||
900719925474099,
|
||||
1801439850948198,
|
||||
},
|
||||
field.Tight_Field_Element{1, 0, 0, 0, 0},
|
||||
field.Tight_Field_Element {
|
||||
1841354044333475,
|
||||
16398895984059,
|
||||
755974180946558,
|
||||
900171276175154,
|
||||
1821297809914039,
|
||||
},
|
||||
}
|
||||
GE_IDENTITY := Group_Element {
|
||||
field.Tight_Field_Element{0, 0, 0, 0, 0},
|
||||
field.Tight_Field_Element{1, 0, 0, 0, 0},
|
||||
field.Tight_Field_Element{1, 0, 0, 0, 0},
|
||||
field.Tight_Field_Element{0, 0, 0, 0, 0},
|
||||
}
|
||||
|
||||
Group_Element :: struct {
|
||||
x: field.Tight_Field_Element,
|
||||
y: field.Tight_Field_Element,
|
||||
z: field.Tight_Field_Element,
|
||||
t: field.Tight_Field_Element,
|
||||
}
|
||||
|
||||
ge_clear :: proc "contextless" (ge: ^Group_Element) {
|
||||
mem.zero_explicit(ge, size_of(Group_Element))
|
||||
}
|
||||
|
||||
ge_set :: proc "contextless" (ge, a: ^Group_Element) {
|
||||
field.fe_set(&ge.x, &a.x)
|
||||
field.fe_set(&ge.y, &a.y)
|
||||
field.fe_set(&ge.z, &a.z)
|
||||
field.fe_set(&ge.t, &a.t)
|
||||
}
|
||||
|
||||
@(require_results)
|
||||
ge_set_bytes :: proc "contextless" (ge: ^Group_Element, b: []byte) -> bool {
|
||||
if len(b) != 32 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
b_ := transmute(^[32]byte)(raw_data(b))
|
||||
|
||||
// Do the work in a scratch element, so that ge is unchanged on
|
||||
// failure.
|
||||
tmp: Group_Element = ---
|
||||
defer ge_clear(&tmp)
|
||||
field.fe_one(&tmp.z) // Z = 1
|
||||
|
||||
// The encoding is the y-coordinate, with the x-coordinate polarity
|
||||
// (odd/even) encoded in the MSB.
|
||||
field.fe_from_bytes(&tmp.y, b_) // ignores high bit
|
||||
|
||||
// Recover the candidate x-coordinate via the curve equation:
|
||||
// x^2 = (y^2 - 1) / (d * y^2 + 1) (mod p)
|
||||
|
||||
fe_tmp := &tmp.t // Use this to store intermediaries.
|
||||
fe_one := &tmp.z
|
||||
|
||||
// x = num = y^2 - 1
|
||||
field.fe_carry_square(fe_tmp, field.fe_relax_cast(&tmp.y)) // fe_tmp = y^2
|
||||
field.fe_carry_sub(&tmp.x, fe_tmp, fe_one)
|
||||
|
||||
// den = d * y^2 + 1
|
||||
field.fe_carry_mul(fe_tmp, field.fe_relax_cast(fe_tmp), field.fe_relax_cast(&FE_D))
|
||||
field.fe_carry_add(fe_tmp, fe_tmp, fe_one)
|
||||
|
||||
// x = invsqrt(den/num)
|
||||
is_square := field.fe_carry_sqrt_ratio_m1(
|
||||
&tmp.x,
|
||||
field.fe_relax_cast(&tmp.x),
|
||||
field.fe_relax_cast(fe_tmp),
|
||||
)
|
||||
if is_square == 0 {
|
||||
return false
|
||||
}
|
||||
|
||||
// Pick the right x-coordinate.
|
||||
field.fe_cond_negate(&tmp.x, &tmp.x, int(b[31] >> 7))
|
||||
|
||||
// t = x * y
|
||||
field.fe_carry_mul(&tmp.t, field.fe_relax_cast(&tmp.x), field.fe_relax_cast(&tmp.y))
|
||||
|
||||
// Reject non-canonical encodings of ge.
|
||||
buf: [32]byte = ---
|
||||
field.fe_to_bytes(&buf, &tmp.y)
|
||||
buf[31] |= byte(field.fe_is_negative(&tmp.x)) << 7
|
||||
is_canonical := crypto.compare_constant_time(b, buf[:])
|
||||
|
||||
ge_cond_assign(ge, &tmp, is_canonical)
|
||||
|
||||
mem.zero_explicit(&buf, size_of(buf))
|
||||
|
||||
return is_canonical == 1
|
||||
}
|
||||
|
||||
ge_bytes :: proc "contextless" (ge: ^Group_Element, dst: []byte) {
|
||||
if len(dst) != 32 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
dst_ := transmute(^[32]byte)(raw_data(dst))
|
||||
|
||||
// Convert the element to affine (x, y) representation.
|
||||
x, y, z_inv: field.Tight_Field_Element = ---, ---, ---
|
||||
field.fe_carry_inv(&z_inv, field.fe_relax_cast(&ge.z))
|
||||
field.fe_carry_mul(&x, field.fe_relax_cast(&ge.x), field.fe_relax_cast(&z_inv))
|
||||
field.fe_carry_mul(&y, field.fe_relax_cast(&ge.y), field.fe_relax_cast(&z_inv))
|
||||
|
||||
// Encode the y-coordinate.
|
||||
field.fe_to_bytes(dst_, &y)
|
||||
|
||||
// Copy the least significant bit of the x-coordinate to the most
|
||||
// significant bit of the encoded y-coordinate.
|
||||
dst_[31] |= byte((x[0] & 1) << 7)
|
||||
|
||||
field.fe_clear_vec([]^field.Tight_Field_Element{&x, &y, &z_inv})
|
||||
}
|
||||
|
||||
ge_identity :: proc "contextless" (ge: ^Group_Element) {
|
||||
field.fe_zero(&ge.x)
|
||||
field.fe_one(&ge.y)
|
||||
field.fe_one(&ge.z)
|
||||
field.fe_zero(&ge.t)
|
||||
}
|
||||
|
||||
ge_generator :: proc "contextless" (ge: ^Group_Element) {
|
||||
ge_set(ge, &GE_BASEPOINT)
|
||||
}
|
||||
|
||||
@(private)
|
||||
Addend_Group_Element :: struct {
|
||||
y2_minus_x2: field.Loose_Field_Element, // t1
|
||||
y2_plus_x2: field.Loose_Field_Element, // t3
|
||||
k_times_t2: field.Tight_Field_Element, // t4
|
||||
two_times_z2: field.Loose_Field_Element, // t5
|
||||
}
|
||||
|
||||
@(private)
|
||||
ge_addend_set :: proc "contextless" (ge_a: ^Addend_Group_Element, ge: ^Group_Element) {
|
||||
field.fe_sub(&ge_a.y2_minus_x2, &ge.y, &ge.x)
|
||||
field.fe_add(&ge_a.y2_plus_x2, &ge.y, &ge.x)
|
||||
field.fe_carry_mul(&ge_a.k_times_t2, field.fe_relax_cast(&FE_D2), field.fe_relax_cast(&ge.t))
|
||||
field.fe_add(&ge_a.two_times_z2, &ge.z, &ge.z)
|
||||
}
|
||||
|
||||
@(private)
|
||||
ge_addend_conditional_assign :: proc "contextless" (ge_a, a: ^Addend_Group_Element, ctrl: int) {
|
||||
field.fe_cond_select(&ge_a.y2_minus_x2, &ge_a.y2_minus_x2, &a.y2_minus_x2, ctrl)
|
||||
field.fe_cond_select(&ge_a.y2_plus_x2, &ge_a.y2_plus_x2, &a.y2_plus_x2, ctrl)
|
||||
field.fe_cond_select(&ge_a.k_times_t2, &ge_a.k_times_t2, &a.k_times_t2, ctrl)
|
||||
field.fe_cond_select(&ge_a.two_times_z2, &ge_a.two_times_z2, &a.two_times_z2, ctrl)
|
||||
}
|
||||
|
||||
@(private)
|
||||
Add_Scratch :: struct {
|
||||
A, B, C, D: field.Tight_Field_Element,
|
||||
E, F, G, H: field.Loose_Field_Element,
|
||||
t0, t2: field.Loose_Field_Element,
|
||||
}
|
||||
|
||||
ge_add :: proc "contextless" (ge, a, b: ^Group_Element) {
|
||||
b_: Addend_Group_Element = ---
|
||||
ge_addend_set(&b_, b)
|
||||
|
||||
scratch: Add_Scratch = ---
|
||||
ge_add_addend(ge, a, &b_, &scratch)
|
||||
|
||||
mem.zero_explicit(&b_, size_of(Addend_Group_Element))
|
||||
mem.zero_explicit(&scratch, size_of(Add_Scratch))
|
||||
}
|
||||
|
||||
@(private)
|
||||
ge_add_addend :: proc "contextless" (
|
||||
ge, a: ^Group_Element,
|
||||
b: ^Addend_Group_Element,
|
||||
scratch: ^Add_Scratch,
|
||||
) {
|
||||
// https://www.hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html#addition-add-2008-hwcd-3
|
||||
// Assumptions: k=2*d.
|
||||
//
|
||||
// t0 = Y1-X1
|
||||
// t1 = Y2-X2
|
||||
// A = t0*t1
|
||||
// t2 = Y1+X1
|
||||
// t3 = Y2+X2
|
||||
// B = t2*t3
|
||||
// t4 = k*T2
|
||||
// C = T1*t4
|
||||
// t5 = 2*Z2
|
||||
// D = Z1*t5
|
||||
// E = B-A
|
||||
// F = D-C
|
||||
// G = D+C
|
||||
// H = B+A
|
||||
// X3 = E*F
|
||||
// Y3 = G*H
|
||||
// T3 = E*H
|
||||
// Z3 = F*G
|
||||
//
|
||||
// In order to make the scalar multiply faster, the addend is provided
|
||||
// as a `Addend_Group_Element` with t1, t3, t4, and t5 precomputed, as
|
||||
// it is trivially obvious that those are the only values used by the
|
||||
// formula that are directly dependent on `b`, and are only dependent
|
||||
// on `b` and constants. This saves 1 sub, 2 adds, and 1 multiply,
|
||||
// each time the intermediate representation can be reused.
|
||||
|
||||
A, B, C, D := &scratch.A, &scratch.B, &scratch.C, &scratch.D
|
||||
E, F, G, H := &scratch.E, &scratch.F, &scratch.G, &scratch.H
|
||||
t0, t2 := &scratch.t0, &scratch.t2
|
||||
|
||||
field.fe_sub(t0, &a.y, &a.x)
|
||||
t1 := &b.y2_minus_x2
|
||||
field.fe_carry_mul(A, t0, t1)
|
||||
field.fe_add(t2, &a.y, &a.x)
|
||||
t3 := &b.y2_plus_x2
|
||||
field.fe_carry_mul(B, t2, t3)
|
||||
t4 := &b.k_times_t2
|
||||
field.fe_carry_mul(C, field.fe_relax_cast(&a.t), field.fe_relax_cast(t4))
|
||||
t5 := &b.two_times_z2
|
||||
field.fe_carry_mul(D, field.fe_relax_cast(&a.z), t5)
|
||||
field.fe_sub(E, B, A)
|
||||
field.fe_sub(F, D, C)
|
||||
field.fe_add(G, D, C)
|
||||
field.fe_add(H, B, A)
|
||||
field.fe_carry_mul(&ge.x, E, F)
|
||||
field.fe_carry_mul(&ge.y, G, H)
|
||||
field.fe_carry_mul(&ge.t, E, H)
|
||||
field.fe_carry_mul(&ge.z, F, G)
|
||||
}
|
||||
|
||||
@(private)
|
||||
Double_Scratch :: struct {
|
||||
A, B, C, D, G: field.Tight_Field_Element,
|
||||
t0, t2, t3: field.Tight_Field_Element,
|
||||
E, F, H: field.Loose_Field_Element,
|
||||
t1: field.Loose_Field_Element,
|
||||
}
|
||||
|
||||
ge_double :: proc "contextless" (ge, a: ^Group_Element, scratch: ^Double_Scratch = nil) {
|
||||
// https://www.hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html#doubling-dbl-2008-hwcd
|
||||
//
|
||||
// A = X1^2
|
||||
// B = Y1^2
|
||||
// t0 = Z1^2
|
||||
// C = 2*t0
|
||||
// D = a*A
|
||||
// t1 = X1+Y1
|
||||
// t2 = t1^2
|
||||
// t3 = t2-A
|
||||
// E = t3-B
|
||||
// G = D+B
|
||||
// F = G-C
|
||||
// H = D-B
|
||||
// X3 = E*F
|
||||
// Y3 = G*H
|
||||
// T3 = E*H
|
||||
// Z3 = F*G
|
||||
|
||||
sanitize, scratch := scratch == nil, scratch
|
||||
if sanitize {
|
||||
tmp: Double_Scratch = ---
|
||||
scratch = &tmp
|
||||
}
|
||||
|
||||
A, B, C, D, G := &scratch.A, &scratch.B, &scratch.C, &scratch.D, &scratch.G
|
||||
t0, t2, t3 := &scratch.t0, &scratch.t2, &scratch.t3
|
||||
E, F, H := &scratch.E, &scratch.F, &scratch.H
|
||||
t1 := &scratch.t1
|
||||
|
||||
field.fe_carry_square(A, field.fe_relax_cast(&a.x))
|
||||
field.fe_carry_square(B, field.fe_relax_cast(&a.y))
|
||||
field.fe_carry_square(t0, field.fe_relax_cast(&a.z))
|
||||
field.fe_carry_add(C, t0, t0)
|
||||
field.fe_carry_mul(D, field.fe_relax_cast(&FE_A), field.fe_relax_cast(A))
|
||||
field.fe_add(t1, &a.x, &a.y)
|
||||
field.fe_carry_square(t2, t1)
|
||||
field.fe_carry_sub(t3, t2, A)
|
||||
field.fe_sub(E, t3, B)
|
||||
field.fe_carry_add(G, D, B)
|
||||
field.fe_sub(F, G, C)
|
||||
field.fe_sub(H, D, B)
|
||||
G_ := field.fe_relax_cast(G)
|
||||
field.fe_carry_mul(&ge.x, E, F)
|
||||
field.fe_carry_mul(&ge.y, G_, H)
|
||||
field.fe_carry_mul(&ge.t, E, H)
|
||||
field.fe_carry_mul(&ge.z, F, G_)
|
||||
|
||||
if sanitize {
|
||||
mem.zero_explicit(scratch, size_of(Double_Scratch))
|
||||
}
|
||||
}
|
||||
|
||||
ge_negate :: proc "contextless" (ge, a: ^Group_Element) {
|
||||
field.fe_carry_opp(&ge.x, &a.x)
|
||||
field.fe_set(&ge.y, &a.y)
|
||||
field.fe_set(&ge.z, &a.z)
|
||||
field.fe_carry_opp(&ge.t, &a.t)
|
||||
}
|
||||
|
||||
ge_cond_negate :: proc "contextless" (ge, a: ^Group_Element, ctrl: int) {
|
||||
tmp: Group_Element = ---
|
||||
ge_negate(&tmp, a)
|
||||
ge_cond_assign(ge, &tmp, ctrl)
|
||||
|
||||
ge_clear(&tmp)
|
||||
}
|
||||
|
||||
ge_cond_assign :: proc "contextless" (ge, a: ^Group_Element, ctrl: int) {
|
||||
field.fe_cond_assign(&ge.x, &a.x, ctrl)
|
||||
field.fe_cond_assign(&ge.y, &a.y, ctrl)
|
||||
field.fe_cond_assign(&ge.z, &a.z, ctrl)
|
||||
field.fe_cond_assign(&ge.t, &a.t, ctrl)
|
||||
}
|
||||
|
||||
ge_cond_select :: proc "contextless" (ge, a, b: ^Group_Element, ctrl: int) {
|
||||
field.fe_cond_select(&ge.x, &a.x, &b.x, ctrl)
|
||||
field.fe_cond_select(&ge.y, &a.y, &b.y, ctrl)
|
||||
field.fe_cond_select(&ge.z, &a.z, &b.z, ctrl)
|
||||
field.fe_cond_select(&ge.t, &a.t, &b.t, ctrl)
|
||||
}
|
||||
|
||||
@(require_results)
|
||||
ge_equal :: proc "contextless" (a, b: ^Group_Element) -> int {
|
||||
// (x, y) ?= (x', y') -> (X/Z, Y/Z) ?= (X'/Z', Y'/Z')
|
||||
// X/Z ?= X'/Z', Y/Z ?= Y'/Z' -> X*Z' ?= X'*Z, Y*Z' ?= Y'*Z
|
||||
ax_bz, bx_az, ay_bz, by_az: field.Tight_Field_Element = ---, ---, ---, ---
|
||||
field.fe_carry_mul(&ax_bz, field.fe_relax_cast(&a.x), field.fe_relax_cast(&b.z))
|
||||
field.fe_carry_mul(&bx_az, field.fe_relax_cast(&b.x), field.fe_relax_cast(&a.z))
|
||||
field.fe_carry_mul(&ay_bz, field.fe_relax_cast(&a.y), field.fe_relax_cast(&b.z))
|
||||
field.fe_carry_mul(&by_az, field.fe_relax_cast(&b.y), field.fe_relax_cast(&a.z))
|
||||
|
||||
ret := field.fe_equal(&ax_bz, &bx_az) & field.fe_equal(&ay_bz, &by_az)
|
||||
|
||||
field.fe_clear_vec([]^field.Tight_Field_Element{&ax_bz, &ay_bz, &bx_az, &by_az})
|
||||
|
||||
return ret
|
||||
}
|
||||
|
||||
@(require_results)
|
||||
ge_is_small_order :: proc "contextless" (ge: ^Group_Element) -> bool {
|
||||
tmp: Group_Element = ---
|
||||
ge_double(&tmp, ge)
|
||||
ge_double(&tmp, &tmp)
|
||||
ge_double(&tmp, &tmp)
|
||||
return ge_equal(&tmp, &GE_IDENTITY) == 1
|
||||
}
|
||||
|
||||
@(require_results)
|
||||
ge_in_prime_order_subgroup_vartime :: proc "contextless" (ge: ^Group_Element) -> bool {
|
||||
// This is currently *very* expensive. The faster method would be
|
||||
// something like (https://eprint.iacr.org/2022/1164.pdf), however
|
||||
// that is a ~50% speedup, and a lot of added complexity for something
|
||||
// that is better solved by "just use ristretto255".
|
||||
tmp: Group_Element = ---
|
||||
_ge_scalarmult(&tmp, ge, &SC_ELL, true)
|
||||
return ge_equal(&tmp, &GE_IDENTITY) == 1
|
||||
}
|
||||
@@ -0,0 +1,61 @@
|
||||
package _edwards25519
|
||||
|
||||
import "base:intrinsics"
|
||||
import field "core:crypto/_fiat/field_scalar25519"
|
||||
import "core:mem"
|
||||
|
||||
Scalar :: field.Montgomery_Domain_Field_Element
|
||||
|
||||
// WARNING: This is non-canonical and only to be used when checking if
|
||||
// a group element is on the prime-order subgroup.
|
||||
@(private)
|
||||
SC_ELL := field.Non_Montgomery_Domain_Field_Element {
|
||||
field.ELL[0],
|
||||
field.ELL[1],
|
||||
field.ELL[2],
|
||||
field.ELL[3],
|
||||
}
|
||||
|
||||
sc_set_u64 :: proc "contextless" (sc: ^Scalar, i: u64) {
|
||||
tmp := field.Non_Montgomery_Domain_Field_Element{i, 0, 0, 0}
|
||||
field.fe_to_montgomery(sc, &tmp)
|
||||
|
||||
mem.zero_explicit(&tmp, size_of(tmp))
|
||||
}
|
||||
|
||||
@(require_results)
|
||||
sc_set_bytes :: proc "contextless" (sc: ^Scalar, b: []byte) -> bool {
|
||||
if len(b) != 32 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
b_ := transmute(^[32]byte)(raw_data(b))
|
||||
return field.fe_from_bytes(sc, b_)
|
||||
}
|
||||
|
||||
sc_set_bytes_rfc8032 :: proc "contextless" (sc: ^Scalar, b: []byte) {
|
||||
if len(b) != 32 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
b_ := transmute(^[32]byte)(raw_data(b))
|
||||
field.fe_from_bytes_rfc8032(sc, b_)
|
||||
}
|
||||
|
||||
sc_clear :: proc "contextless" (sc: ^Scalar) {
|
||||
mem.zero_explicit(sc, size_of(Scalar))
|
||||
}
|
||||
|
||||
sc_set :: field.fe_set
|
||||
sc_set_bytes_wide :: field.fe_from_bytes_wide
|
||||
sc_bytes :: field.fe_to_bytes
|
||||
|
||||
sc_zero :: field.fe_zero
|
||||
sc_one :: field.fe_one
|
||||
|
||||
sc_add :: field.fe_add
|
||||
sc_sub :: field.fe_sub
|
||||
sc_negate :: field.fe_opp
|
||||
sc_mul :: field.fe_mul
|
||||
sc_square :: field.fe_square
|
||||
|
||||
sc_cond_assign :: field.fe_cond_assign
|
||||
sc_equal :: field.fe_equal
|
||||
@@ -0,0 +1,288 @@
|
||||
package _edwards25519
|
||||
|
||||
import field "core:crypto/_fiat/field_scalar25519"
|
||||
import "core:math/bits"
|
||||
import "core:mem"
|
||||
|
||||
// GE_BASEPOINT_TABLE is 1 * G, ... 15 * G, in precomputed format.
|
||||
//
|
||||
// Note: When generating, the values were reduced to Tight_Field_Element
|
||||
// ranges, even though that is not required.
|
||||
@(private)
|
||||
GE_BASEPOINT_TABLE := Multiply_Table {
|
||||
{
|
||||
{62697248952638, 204681361388450, 631292143396476, 338455783676468, 1213667448819585},
|
||||
{1288382639258501, 245678601348599, 269427782077623, 1462984067271730, 137412439391563},
|
||||
{301289933810280, 1259582250014073, 1422107436869536, 796239922652654, 1953934009299142},
|
||||
{2, 0, 0, 0, 0},
|
||||
},
|
||||
{
|
||||
{1519297034332653, 1098796920435767, 1823476547744119, 808144629470969, 2110930855619772},
|
||||
{338005982828284, 1667856962156925, 100399270107451, 1604566703601691, 1950338038771369},
|
||||
{1920505767731247, 1443759578976892, 1659852098357048, 1484431291070208, 275018744912646},
|
||||
{763163817085987, 2195095074806923, 2167883174351839, 1868059999999762, 911071066608705},
|
||||
},
|
||||
{
|
||||
{960627541894068, 1314966688943942, 1126875971034044, 2059608312958945, 605975666152586},
|
||||
{1714478358025626, 2209607666607510, 1600912834284834, 496072478982142, 481970031861896},
|
||||
{851735079403194, 1088965826757164, 141569479297499, 602804610059257, 2004026468601520},
|
||||
{197585529552380, 324719066578543, 564481854250498, 1173818332764578, 35452976395676},
|
||||
},
|
||||
{
|
||||
{1152980410747203, 2196804280851952, 25745194962557, 1915167295473129, 1266299690309224},
|
||||
{809905889679060, 979732230071345, 1509972345538142, 188492426534402, 818965583123815},
|
||||
{997685409185036, 1451818320876327, 2126681166774509, 2000509606057528, 235432372486854},
|
||||
{887734189279642, 1460338685162044, 877378220074262, 102436391401299, 153369156847490},
|
||||
},
|
||||
{
|
||||
{2056621900836770, 1821657694132497, 1627986892909426, 1163363868678833, 1108873376459226},
|
||||
{1187697490593623, 1066539945237335, 885654531892000, 1357534489491782, 359370291392448},
|
||||
{1509033452137525, 1305318174298508, 613642471748944, 1987256352550234, 1044283663101541},
|
||||
{220105720697037, 387661783287620, 328296827867762, 360035589590664, 795213236824054},
|
||||
},
|
||||
{
|
||||
{1820794733038396, 1612235121681074, 757405923441402, 1094031020892801, 231025333128907},
|
||||
{1639067873254194, 1484176557946322, 300800382144789, 1329915446659183, 1211704578730455},
|
||||
{641900794791527, 1711751746971612, 179044712319955, 576455585963824, 1852617592509865},
|
||||
{743549047192397, 685091042550147, 1952415336873496, 1965124675654685, 513364998442917},
|
||||
},
|
||||
{
|
||||
{1004557076870448, 1762911374844520, 1330807633622723, 384072910939787, 953849032243810},
|
||||
{2178275058221458, 257933183722891, 376684351537894, 2010189102001786, 1981824297484148},
|
||||
{1332915663881114, 1286540505502549, 1741691283561518, 977214932156314, 1764059494778091},
|
||||
{429702949064027, 1368332611650677, 2019867176450999, 2212258376161746, 526160996742554},
|
||||
},
|
||||
{
|
||||
{2098932988258576, 2203688382075948, 2120400160059479, 1748488020948146, 1203264167282624},
|
||||
{677131386735829, 1850249298025188, 672782146532031, 2144145693078904, 2088656272813787},
|
||||
{1065622343976192, 1573853211848116, 223560413590068, 333846833073379, 27832122205830},
|
||||
{1781008836504573, 917619542051793, 544322748939913, 882577394308384, 1720521246471195},
|
||||
},
|
||||
{
|
||||
{660120928379860, 2081944024858618, 1878411111349191, 424587356517195, 2111317439894005},
|
||||
{1834193977811532, 1864164086863319, 797334633289424, 150410812403062, 2085177078466389},
|
||||
{1438117271371866, 783915531014482, 388731514584658, 292113935417795, 1945855002546714},
|
||||
{1678140823166658, 679103239148744, 614102761596238, 1052962498997885, 1863983323810390},
|
||||
},
|
||||
{
|
||||
{1690309392496233, 1116333140326275, 1377242323631039, 717196888780674, 82724646713353},
|
||||
{1722370213432106, 74265192976253, 264239578448472, 1714909985012994, 2216984958602173},
|
||||
{2010482366920922, 1294036471886319, 566466395005815, 1631955803657320, 1751698647538458},
|
||||
{1073230604155753, 1159087041338551, 1664057985455483, 127472702826203, 1339591128522371},
|
||||
},
|
||||
{
|
||||
{478053307175577, 2179515791720985, 21146535423512, 1831683844029536, 462805561553981},
|
||||
{1945267486565588, 1298536818409655, 2214511796262989, 1904981051429012, 252904800782086},
|
||||
{268945954671210, 222740425595395, 1208025911856230, 1080418823003555, 75929831922483},
|
||||
{1884784014268948, 643868448202966, 978736549726821, 46385971089796, 1296884812292320},
|
||||
},
|
||||
{
|
||||
{1861159462859103, 7077532564710, 963010365896826, 1938780006785270, 766241051941647},
|
||||
{1778966986051906, 1713995999765361, 1394565822271816, 1366699246468722, 1213407027149475},
|
||||
{1978989286560907, 2135084162045594, 1951565508865477, 671788336314416, 293123929458176},
|
||||
{902608944504080, 2167765718046481, 1285718473078022, 1222562171329269, 492109027844479},
|
||||
},
|
||||
{
|
||||
{1820807832746213, 1029220580458586, 1101997555432203, 1039081975563572, 202477981158221},
|
||||
{1866134980680205, 2222325502763386, 1830284629571201, 1046966214478970, 418381946936795},
|
||||
{1783460633291322, 1719505443254998, 1810489639976220, 877049370713018, 2187801198742619},
|
||||
{197118243000763, 305493867565736, 518814410156522, 1656246186645170, 901894734874934},
|
||||
},
|
||||
{
|
||||
{225454942125915, 478410476654509, 600524586037746, 643450007230715, 1018615928259319},
|
||||
{1733330584845708, 881092297970296, 507039890129464, 496397090721598, 2230888519577628},
|
||||
{690155664737246, 1010454785646677, 753170144375012, 1651277613844874, 1622648796364156},
|
||||
{1321310321891618, 1089655277873603, 235891750867089, 815878279563688, 1709264240047556},
|
||||
},
|
||||
{
|
||||
{805027036551342, 1387174275567452, 1156538511461704, 1465897486692171, 1208567094120903},
|
||||
{2228417017817483, 202885584970535, 2182114782271881, 2077405042592934, 1029684358182774},
|
||||
{460447547653983, 627817697755692, 524899434670834, 1228019344939427, 740684787777653},
|
||||
{849757462467675, 447476306919899, 422618957298818, 302134659227815, 675831828440895},
|
||||
},
|
||||
}
|
||||
|
||||
ge_scalarmult :: proc "contextless" (ge, p: ^Group_Element, sc: ^Scalar) {
|
||||
tmp: field.Non_Montgomery_Domain_Field_Element
|
||||
field.fe_from_montgomery(&tmp, sc)
|
||||
|
||||
_ge_scalarmult(ge, p, &tmp)
|
||||
|
||||
mem.zero_explicit(&tmp, size_of(tmp))
|
||||
}
|
||||
|
||||
ge_scalarmult_basepoint :: proc "contextless" (ge: ^Group_Element, sc: ^Scalar) {
|
||||
// Something like the comb method from "Fast and compact elliptic-curve
|
||||
// cryptography" Section 3.3, would be more performant, but more
|
||||
// complex.
|
||||
//
|
||||
// - https://eprint.iacr.org/2012/309
|
||||
ge_scalarmult(ge, &GE_BASEPOINT, sc)
|
||||
}
|
||||
|
||||
ge_scalarmult_vartime :: proc "contextless" (ge, p: ^Group_Element, sc: ^Scalar) {
|
||||
tmp: field.Non_Montgomery_Domain_Field_Element
|
||||
field.fe_from_montgomery(&tmp, sc)
|
||||
|
||||
_ge_scalarmult(ge, p, &tmp, true)
|
||||
}
|
||||
|
||||
ge_double_scalarmult_basepoint_vartime :: proc "contextless" (
|
||||
ge: ^Group_Element,
|
||||
a: ^Scalar,
|
||||
A: ^Group_Element,
|
||||
b: ^Scalar,
|
||||
) {
|
||||
// Strauss-Shamir, commonly referred to as the "Shamir trick",
|
||||
// saves half the doublings, relative to doing this the naive way.
|
||||
//
|
||||
// ABGLSV-Pornin (https://eprint.iacr.org/2020/454) is faster,
|
||||
// but significantly more complex, and has incompatibilities with
|
||||
// mixed-order group elements.
|
||||
|
||||
tmp_add: Add_Scratch = ---
|
||||
tmp_addend: Addend_Group_Element = ---
|
||||
tmp_dbl: Double_Scratch = ---
|
||||
tmp: Group_Element = ---
|
||||
|
||||
A_tbl: Multiply_Table = ---
|
||||
mul_tbl_set(&A_tbl, A, &tmp_add)
|
||||
|
||||
sc_a, sc_b: field.Non_Montgomery_Domain_Field_Element
|
||||
field.fe_from_montgomery(&sc_a, a)
|
||||
field.fe_from_montgomery(&sc_b, b)
|
||||
|
||||
ge_identity(&tmp)
|
||||
for i := 31; i >= 0; i = i - 1 {
|
||||
limb := i / 8
|
||||
shift := uint(i & 7) * 8
|
||||
|
||||
limb_byte_a := sc_a[limb] >> shift
|
||||
limb_byte_b := sc_b[limb] >> shift
|
||||
|
||||
hi_a, lo_a := (limb_byte_a >> 4) & 0x0f, limb_byte_a & 0x0f
|
||||
hi_b, lo_b := (limb_byte_b >> 4) & 0x0f, limb_byte_b & 0x0f
|
||||
|
||||
if i != 31 {
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
}
|
||||
mul_tbl_add(&tmp, &A_tbl, hi_a, &tmp_add, &tmp_addend, true)
|
||||
mul_tbl_add(&tmp, &GE_BASEPOINT_TABLE, hi_b, &tmp_add, &tmp_addend, true)
|
||||
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
mul_tbl_add(&tmp, &A_tbl, lo_a, &tmp_add, &tmp_addend, true)
|
||||
mul_tbl_add(&tmp, &GE_BASEPOINT_TABLE, lo_b, &tmp_add, &tmp_addend, true)
|
||||
}
|
||||
|
||||
ge_set(ge, &tmp)
|
||||
}
|
||||
|
||||
@(private)
|
||||
_ge_scalarmult :: proc "contextless" (
|
||||
ge, p: ^Group_Element,
|
||||
sc: ^field.Non_Montgomery_Domain_Field_Element,
|
||||
unsafe_is_vartime := false,
|
||||
) {
|
||||
// Do the simplest possible thing that works and provides adequate,
|
||||
// performance, which is windowed add-then-multiply.
|
||||
|
||||
tmp_add: Add_Scratch = ---
|
||||
tmp_addend: Addend_Group_Element = ---
|
||||
tmp_dbl: Double_Scratch = ---
|
||||
tmp: Group_Element = ---
|
||||
|
||||
p_tbl: Multiply_Table = ---
|
||||
mul_tbl_set(&p_tbl, p, &tmp_add)
|
||||
|
||||
ge_identity(&tmp)
|
||||
for i := 31; i >= 0; i = i - 1 {
|
||||
limb := i / 8
|
||||
shift := uint(i & 7) * 8
|
||||
limb_byte := sc[limb] >> shift
|
||||
|
||||
hi, lo := (limb_byte >> 4) & 0x0f, limb_byte & 0x0f
|
||||
|
||||
if i != 31 {
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
}
|
||||
mul_tbl_add(&tmp, &p_tbl, hi, &tmp_add, &tmp_addend, unsafe_is_vartime)
|
||||
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
ge_double(&tmp, &tmp, &tmp_dbl)
|
||||
mul_tbl_add(&tmp, &p_tbl, lo, &tmp_add, &tmp_addend, unsafe_is_vartime)
|
||||
}
|
||||
|
||||
ge_set(ge, &tmp)
|
||||
|
||||
if !unsafe_is_vartime {
|
||||
ge_clear(&tmp)
|
||||
mem.zero_explicit(&tmp_add, size_of(Add_Scratch))
|
||||
mem.zero_explicit(&tmp_addend, size_of(Addend_Group_Element))
|
||||
mem.zero_explicit(&tmp_dbl, size_of(Double_Scratch))
|
||||
}
|
||||
}
|
||||
|
||||
@(private)
|
||||
Multiply_Table :: [15]Addend_Group_Element // 0 = inf, which is implicit.
|
||||
|
||||
@(private)
|
||||
mul_tbl_set :: proc "contextless" (
|
||||
tbl: ^Multiply_Table,
|
||||
ge: ^Group_Element,
|
||||
tmp_add: ^Add_Scratch,
|
||||
) {
|
||||
tmp: Group_Element = ---
|
||||
ge_set(&tmp, ge)
|
||||
|
||||
ge_addend_set(&tbl[0], ge)
|
||||
for i := 1; i < 15; i = i + 1 {
|
||||
ge_add_addend(&tmp, &tmp, &tbl[0], tmp_add)
|
||||
ge_addend_set(&tbl[i], &tmp)
|
||||
}
|
||||
|
||||
ge_clear(&tmp)
|
||||
}
|
||||
|
||||
@(private)
|
||||
mul_tbl_add :: proc "contextless" (
|
||||
ge: ^Group_Element,
|
||||
tbl: ^Multiply_Table,
|
||||
idx: u64,
|
||||
tmp_add: ^Add_Scratch,
|
||||
tmp_addend: ^Addend_Group_Element,
|
||||
unsafe_is_vartime: bool,
|
||||
) {
|
||||
// Variable time lookup, with the addition omitted entirely if idx == 0.
|
||||
if unsafe_is_vartime {
|
||||
// Skip adding the point at infinity.
|
||||
if idx != 0 {
|
||||
ge_add_addend(ge, ge, &tbl[idx - 1], tmp_add)
|
||||
}
|
||||
return
|
||||
}
|
||||
|
||||
// Constant time lookup.
|
||||
tmp_addend^ = {
|
||||
// Point at infinity (0, 1, 1, 0) in precomputed form
|
||||
{1, 0, 0, 0, 0}, // y - x
|
||||
{1, 0, 0, 0, 0}, // y + x
|
||||
{0, 0, 0, 0, 0}, // t * 2d
|
||||
{2, 0, 0, 0, 0}, // z * 2
|
||||
}
|
||||
for i := u64(1); i < 16; i = i + 1 {
|
||||
_, ctrl := bits.sub_u64(0, (i ~ idx), 0)
|
||||
ge_addend_conditional_assign(tmp_addend, &tbl[i - 1], int(~ctrl) & 1)
|
||||
}
|
||||
ge_add_addend(ge, ge, tmp_addend, tmp_add)
|
||||
}
|
||||
@@ -9,7 +9,7 @@ package fiat
|
||||
u1 :: distinct u8
|
||||
i1 :: distinct i8
|
||||
|
||||
@(optimization_mode="none")
|
||||
@(optimization_mode = "none")
|
||||
cmovznz_u64 :: proc "contextless" (arg1: u1, arg2, arg3: u64) -> (out1: u64) {
|
||||
x1 := (u64(arg1) * 0xffffffffffffffff)
|
||||
x2 := ((x1 & arg3) | ((~x1) & arg2))
|
||||
@@ -17,7 +17,7 @@ cmovznz_u64 :: proc "contextless" (arg1: u1, arg2, arg3: u64) -> (out1: u64) {
|
||||
return
|
||||
}
|
||||
|
||||
@(optimization_mode="none")
|
||||
@(optimization_mode = "none")
|
||||
cmovznz_u32 :: proc "contextless" (arg1: u1, arg2, arg3: u32) -> (out1: u32) {
|
||||
x1 := (u32(arg1) * 0xffffffff)
|
||||
x2 := ((x1 & arg3) | ((~x1) & arg2))
|
||||
|
||||
@@ -3,14 +3,32 @@ package field_curve25519
|
||||
import "core:crypto"
|
||||
import "core:mem"
|
||||
|
||||
fe_relax_cast :: #force_inline proc "contextless" (arg1: ^Tight_Field_Element) -> ^Loose_Field_Element {
|
||||
fe_relax_cast :: #force_inline proc "contextless" (
|
||||
arg1: ^Tight_Field_Element,
|
||||
) -> ^Loose_Field_Element {
|
||||
return transmute(^Loose_Field_Element)(arg1)
|
||||
}
|
||||
|
||||
fe_tighten_cast :: #force_inline proc "contextless" (arg1: ^Loose_Field_Element) -> ^Tight_Field_Element {
|
||||
fe_tighten_cast :: #force_inline proc "contextless" (
|
||||
arg1: ^Loose_Field_Element,
|
||||
) -> ^Tight_Field_Element {
|
||||
return transmute(^Tight_Field_Element)(arg1)
|
||||
}
|
||||
|
||||
fe_clear :: proc "contextless" (
|
||||
arg1: $T,
|
||||
) where T == ^Tight_Field_Element || T == ^Loose_Field_Element {
|
||||
mem.zero_explicit(arg1, size_of(arg1^))
|
||||
}
|
||||
|
||||
fe_clear_vec :: proc "contextless" (
|
||||
arg1: $T,
|
||||
) where T == []^Tight_Field_Element || T == []^Loose_Field_Element {
|
||||
for fe in arg1 {
|
||||
fe_clear(fe)
|
||||
}
|
||||
}
|
||||
|
||||
fe_from_bytes :: proc "contextless" (out1: ^Tight_Field_Element, arg1: ^[32]byte) {
|
||||
// Ignore the unused bit by copying the input and masking the bit off
|
||||
// prior to deserialization.
|
||||
@@ -23,12 +41,25 @@ fe_from_bytes :: proc "contextless" (out1: ^Tight_Field_Element, arg1: ^[32]byte
|
||||
mem.zero_explicit(&tmp1, size_of(tmp1))
|
||||
}
|
||||
|
||||
fe_is_negative :: proc "contextless" (arg1: ^Tight_Field_Element) -> int {
|
||||
tmp1: [32]byte = ---
|
||||
|
||||
fe_to_bytes(&tmp1, arg1)
|
||||
ret := tmp1[0] & 1
|
||||
|
||||
mem.zero_explicit(&tmp1, size_of(tmp1))
|
||||
|
||||
return int(ret)
|
||||
}
|
||||
|
||||
fe_equal :: proc "contextless" (arg1, arg2: ^Tight_Field_Element) -> int {
|
||||
tmp2: [32]byte = ---
|
||||
tmp1, tmp2: [32]byte = ---, ---
|
||||
|
||||
fe_to_bytes(&tmp1, arg1)
|
||||
fe_to_bytes(&tmp2, arg2)
|
||||
ret := fe_equal_bytes(arg1, &tmp2)
|
||||
ret := crypto.compare_constant_time(tmp1[:], tmp2[:])
|
||||
|
||||
mem.zero_explicit(&tmp1, size_of(tmp1))
|
||||
mem.zero_explicit(&tmp2, size_of(tmp2))
|
||||
|
||||
return ret
|
||||
@@ -46,7 +77,11 @@ fe_equal_bytes :: proc "contextless" (arg1: ^Tight_Field_Element, arg2: ^[32]byt
|
||||
return ret
|
||||
}
|
||||
|
||||
fe_carry_pow2k :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element, arg2: uint) {
|
||||
fe_carry_pow2k :: proc "contextless" (
|
||||
out1: ^Tight_Field_Element,
|
||||
arg1: ^Loose_Field_Element,
|
||||
arg2: uint,
|
||||
) {
|
||||
// Special case: `arg1^(2 * 0) = 1`, though this should never happen.
|
||||
if arg2 == 0 {
|
||||
fe_one(out1)
|
||||
@@ -54,27 +89,46 @@ fe_carry_pow2k :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element,
|
||||
}
|
||||
|
||||
fe_carry_square(out1, arg1)
|
||||
for _ in 1..<arg2 {
|
||||
for _ in 1 ..< arg2 {
|
||||
fe_carry_square(out1, fe_relax_cast(out1))
|
||||
}
|
||||
}
|
||||
|
||||
fe_carry_add :: #force_inline proc "contextless" (out1, arg1, arg2: ^Tight_Field_Element) {
|
||||
fe_add(fe_relax_cast(out1), arg1, arg2)
|
||||
fe_carry(out1, fe_relax_cast(out1))
|
||||
}
|
||||
|
||||
fe_carry_sub :: #force_inline proc "contextless" (out1, arg1, arg2: ^Tight_Field_Element) {
|
||||
fe_sub(fe_relax_cast(out1), arg1, arg2)
|
||||
fe_carry(out1, fe_relax_cast(out1))
|
||||
}
|
||||
|
||||
fe_carry_opp :: #force_inline proc "contextless" (out1, arg1: ^Tight_Field_Element) {
|
||||
fe_opp(fe_relax_cast(out1), arg1)
|
||||
fe_carry(out1, fe_relax_cast(out1))
|
||||
}
|
||||
|
||||
fe_carry_invsqrt :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) -> int {
|
||||
// Inverse square root taken from Monocypher.
|
||||
fe_carry_abs :: #force_inline proc "contextless" (out1, arg1: ^Tight_Field_Element) {
|
||||
fe_cond_negate(out1, arg1, fe_is_negative(arg1))
|
||||
}
|
||||
|
||||
fe_carry_sqrt_ratio_m1 :: proc "contextless" (
|
||||
out1: ^Tight_Field_Element,
|
||||
arg1: ^Loose_Field_Element, // u
|
||||
arg2: ^Loose_Field_Element, // v
|
||||
) -> int {
|
||||
// SQRT_RATIO_M1(u, v) from RFC 9496 - 4.2, based on the inverse
|
||||
// square root from Monocypher.
|
||||
|
||||
w: Tight_Field_Element = ---
|
||||
fe_carry_mul(&w, arg1, arg2) // u * v
|
||||
|
||||
// r = tmp1 = u * w^((p-5)/8)
|
||||
tmp1, tmp2, tmp3: Tight_Field_Element = ---, ---, ---
|
||||
|
||||
// t0 = x^((p-5)/8)
|
||||
// Can be achieved with a simple double & add ladder,
|
||||
// but it would be slower.
|
||||
fe_carry_pow2k(&tmp1, arg1, 1)
|
||||
fe_carry_pow2k(&tmp1, fe_relax_cast(&w), 1)
|
||||
fe_carry_pow2k(&tmp2, fe_relax_cast(&tmp1), 2)
|
||||
fe_carry_mul(&tmp2, arg1, fe_relax_cast(&tmp2))
|
||||
fe_carry_mul(&tmp2, fe_relax_cast(&w), fe_relax_cast(&tmp2))
|
||||
fe_carry_mul(&tmp1, fe_relax_cast(&tmp1), fe_relax_cast(&tmp2))
|
||||
fe_carry_pow2k(&tmp1, fe_relax_cast(&tmp1), 1)
|
||||
fe_carry_mul(&tmp1, fe_relax_cast(&tmp2), fe_relax_cast(&tmp1))
|
||||
@@ -93,46 +147,121 @@ fe_carry_invsqrt :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element
|
||||
fe_carry_pow2k(&tmp2, fe_relax_cast(&tmp2), 50)
|
||||
fe_carry_mul(&tmp1, fe_relax_cast(&tmp2), fe_relax_cast(&tmp1))
|
||||
fe_carry_pow2k(&tmp1, fe_relax_cast(&tmp1), 2)
|
||||
fe_carry_mul(&tmp1, fe_relax_cast(&tmp1), arg1)
|
||||
fe_carry_mul(&tmp1, fe_relax_cast(&tmp1), fe_relax_cast(&w)) // w^((p-5)/8)
|
||||
|
||||
// quartic = x^((p-1)/4)
|
||||
quartic := &tmp2
|
||||
fe_carry_square(quartic, fe_relax_cast(&tmp1))
|
||||
fe_carry_mul(quartic, fe_relax_cast(quartic), arg1)
|
||||
fe_carry_mul(&tmp1, fe_relax_cast(&tmp1), arg1) // u * w^((p-5)/8)
|
||||
|
||||
// Serialize quartic once to save on repeated serialization/sanitization.
|
||||
quartic_buf: [32]byte = ---
|
||||
fe_to_bytes(&quartic_buf, quartic)
|
||||
check := &tmp3
|
||||
// Serialize `check` once to save on repeated serialization.
|
||||
r, check := &tmp1, &tmp2
|
||||
b: [32]byte = ---
|
||||
fe_carry_square(check, fe_relax_cast(r))
|
||||
fe_carry_mul(check, fe_relax_cast(check), arg2) // check * v
|
||||
fe_to_bytes(&b, check)
|
||||
|
||||
fe_one(check)
|
||||
p1 := fe_equal_bytes(check, &quartic_buf)
|
||||
fe_carry_opp(check, check)
|
||||
m1 := fe_equal_bytes(check, &quartic_buf)
|
||||
fe_carry_opp(check, &SQRT_M1)
|
||||
ms := fe_equal_bytes(check, &quartic_buf)
|
||||
u, neg_u, neg_u_i := &tmp3, &w, check
|
||||
fe_carry(u, arg1)
|
||||
fe_carry_opp(neg_u, u)
|
||||
fe_carry_mul(neg_u_i, fe_relax_cast(neg_u), fe_relax_cast(&FE_SQRT_M1))
|
||||
|
||||
// if quartic == -1 or sqrt(-1)
|
||||
// then isr = x^((p-1)/4) * sqrt(-1)
|
||||
// else isr = x^((p-1)/4)
|
||||
fe_carry_mul(out1, fe_relax_cast(&tmp1), fe_relax_cast(&SQRT_M1))
|
||||
fe_cond_assign(out1, &tmp1, (m1|ms) ~ 1)
|
||||
correct_sign_sqrt := fe_equal_bytes(u, &b)
|
||||
flipped_sign_sqrt := fe_equal_bytes(neg_u, &b)
|
||||
flipped_sign_sqrt_i := fe_equal_bytes(neg_u_i, &b)
|
||||
|
||||
mem.zero_explicit(&tmp1, size_of(tmp1))
|
||||
mem.zero_explicit(&tmp2, size_of(tmp2))
|
||||
mem.zero_explicit(&tmp3, size_of(tmp3))
|
||||
mem.zero_explicit(&quartic_buf, size_of(quartic_buf))
|
||||
r_prime := check
|
||||
fe_carry_mul(r_prime, fe_relax_cast(r), fe_relax_cast(&FE_SQRT_M1))
|
||||
fe_cond_assign(r, r_prime, flipped_sign_sqrt | flipped_sign_sqrt_i)
|
||||
|
||||
return p1 | m1
|
||||
// Pick the non-negative square root.
|
||||
fe_carry_abs(out1, r)
|
||||
|
||||
fe_clear_vec([]^Tight_Field_Element{&w, &tmp1, &tmp2, &tmp3})
|
||||
mem.zero_explicit(&b, size_of(b))
|
||||
|
||||
return correct_sign_sqrt | flipped_sign_sqrt
|
||||
}
|
||||
|
||||
fe_carry_inv :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
fe_carry_inv :: proc "contextless" (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
tmp1: Tight_Field_Element
|
||||
|
||||
fe_carry_square(&tmp1, arg1)
|
||||
_ = fe_carry_invsqrt(&tmp1, fe_relax_cast(&tmp1))
|
||||
_ = fe_carry_sqrt_ratio_m1(&tmp1, fe_relax_cast(&FE_ONE), fe_relax_cast(&tmp1))
|
||||
fe_carry_square(&tmp1, fe_relax_cast(&tmp1))
|
||||
fe_carry_mul(out1, fe_relax_cast(&tmp1), arg1)
|
||||
|
||||
mem.zero_explicit(&tmp1, size_of(tmp1))
|
||||
fe_clear(&tmp1)
|
||||
}
|
||||
|
||||
fe_zero :: proc "contextless" (out1: ^Tight_Field_Element) {
|
||||
out1[0] = 0
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
out1[3] = 0
|
||||
out1[4] = 0
|
||||
}
|
||||
|
||||
fe_one :: proc "contextless" (out1: ^Tight_Field_Element) {
|
||||
out1[0] = 1
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
out1[3] = 0
|
||||
out1[4] = 0
|
||||
}
|
||||
|
||||
fe_set :: proc "contextless" (out1, arg1: ^Tight_Field_Element) {
|
||||
x1 := arg1[0]
|
||||
x2 := arg1[1]
|
||||
x3 := arg1[2]
|
||||
x4 := arg1[3]
|
||||
x5 := arg1[4]
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
out1[3] = x4
|
||||
out1[4] = x5
|
||||
}
|
||||
|
||||
@(optimization_mode = "none")
|
||||
fe_cond_swap :: #force_no_inline proc "contextless" (out1, out2: ^Tight_Field_Element, arg1: int) {
|
||||
mask := (u64(arg1) * 0xffffffffffffffff)
|
||||
x := (out1[0] ~ out2[0]) & mask
|
||||
x1, y1 := out1[0] ~ x, out2[0] ~ x
|
||||
x = (out1[1] ~ out2[1]) & mask
|
||||
x2, y2 := out1[1] ~ x, out2[1] ~ x
|
||||
x = (out1[2] ~ out2[2]) & mask
|
||||
x3, y3 := out1[2] ~ x, out2[2] ~ x
|
||||
x = (out1[3] ~ out2[3]) & mask
|
||||
x4, y4 := out1[3] ~ x, out2[3] ~ x
|
||||
x = (out1[4] ~ out2[4]) & mask
|
||||
x5, y5 := out1[4] ~ x, out2[4] ~ x
|
||||
out1[0], out2[0] = x1, y1
|
||||
out1[1], out2[1] = x2, y2
|
||||
out1[2], out2[2] = x3, y3
|
||||
out1[3], out2[3] = x4, y4
|
||||
out1[4], out2[4] = x5, y5
|
||||
}
|
||||
|
||||
@(optimization_mode = "none")
|
||||
fe_cond_select :: #force_no_inline proc "contextless" (
|
||||
out1, arg1, arg2: $T,
|
||||
arg3: int,
|
||||
) where T == ^Tight_Field_Element || T == ^Loose_Field_Element {
|
||||
mask := (u64(arg3) * 0xffffffffffffffff)
|
||||
x1 := ((mask & arg2[0]) | ((~mask) & arg1[0]))
|
||||
x2 := ((mask & arg2[1]) | ((~mask) & arg1[1]))
|
||||
x3 := ((mask & arg2[2]) | ((~mask) & arg1[2]))
|
||||
x4 := ((mask & arg2[3]) | ((~mask) & arg1[3]))
|
||||
x5 := ((mask & arg2[4]) | ((~mask) & arg1[4]))
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
out1[3] = x4
|
||||
out1[4] = x5
|
||||
}
|
||||
|
||||
fe_cond_negate :: proc "contextless" (out1, arg1: ^Tight_Field_Element, ctrl: int) {
|
||||
tmp1: Tight_Field_Element = ---
|
||||
fe_carry_opp(&tmp1, arg1)
|
||||
fe_cond_select(out1, arg1, &tmp1, ctrl)
|
||||
|
||||
fe_clear(&tmp1)
|
||||
}
|
||||
|
||||
@@ -30,8 +30,6 @@ package field_curve25519
|
||||
//
|
||||
// While the base implementation is provably correct, this implementation
|
||||
// makes no such claims as the port and optimizations were done by hand.
|
||||
// At some point, it may be worth adding support to fiat-crypto for
|
||||
// generating Odin output.
|
||||
//
|
||||
// TODO:
|
||||
// * When fiat-crypto supports it, using a saturated 64-bit limbs
|
||||
@@ -44,7 +42,10 @@ import "core:math/bits"
|
||||
Loose_Field_Element :: distinct [5]u64
|
||||
Tight_Field_Element :: distinct [5]u64
|
||||
|
||||
SQRT_M1 := Tight_Field_Element{
|
||||
FE_ZERO := Tight_Field_Element{0, 0, 0, 0, 0}
|
||||
FE_ONE := Tight_Field_Element{1, 0, 0, 0, 0}
|
||||
|
||||
FE_SQRT_M1 := Tight_Field_Element {
|
||||
1718705420411056,
|
||||
234908883556509,
|
||||
2233514472574048,
|
||||
@@ -52,7 +53,13 @@ SQRT_M1 := Tight_Field_Element{
|
||||
765476049583133,
|
||||
}
|
||||
|
||||
_addcarryx_u51 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u64) -> (out1: u64, out2: fiat.u1) {
|
||||
_addcarryx_u51 :: #force_inline proc "contextless" (
|
||||
arg1: fiat.u1,
|
||||
arg2, arg3: u64,
|
||||
) -> (
|
||||
out1: u64,
|
||||
out2: fiat.u1,
|
||||
) {
|
||||
x1 := ((u64(arg1) + arg2) + arg3)
|
||||
x2 := (x1 & 0x7ffffffffffff)
|
||||
x3 := fiat.u1((x1 >> 51))
|
||||
@@ -61,7 +68,13 @@ _addcarryx_u51 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u
|
||||
return
|
||||
}
|
||||
|
||||
_subborrowx_u51 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u64) -> (out1: u64, out2: fiat.u1) {
|
||||
_subborrowx_u51 :: #force_inline proc "contextless" (
|
||||
arg1: fiat.u1,
|
||||
arg2, arg3: u64,
|
||||
) -> (
|
||||
out1: u64,
|
||||
out2: fiat.u1,
|
||||
) {
|
||||
x1 := ((i64(arg2) - i64(arg1)) - i64(arg3))
|
||||
x2 := fiat.i1((x1 >> 51))
|
||||
x3 := (u64(x1) & 0x7ffffffffffff)
|
||||
@@ -70,7 +83,7 @@ _subborrowx_u51 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3:
|
||||
return
|
||||
}
|
||||
|
||||
fe_carry_mul :: proc (out1: ^Tight_Field_Element, arg1, arg2: ^Loose_Field_Element) {
|
||||
fe_carry_mul :: proc "contextless" (out1: ^Tight_Field_Element, arg1, arg2: ^Loose_Field_Element) {
|
||||
x2, x1 := bits.mul_u64(arg1[4], (arg2[4] * 0x13))
|
||||
x4, x3 := bits.mul_u64(arg1[4], (arg2[3] * 0x13))
|
||||
x6, x5 := bits.mul_u64(arg1[4], (arg2[2] * 0x13))
|
||||
@@ -169,7 +182,7 @@ fe_carry_mul :: proc (out1: ^Tight_Field_Element, arg1, arg2: ^Loose_Field_Eleme
|
||||
out1[4] = x152
|
||||
}
|
||||
|
||||
fe_carry_square :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
fe_carry_square :: proc "contextless" (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
x1 := (arg1[4] * 0x13)
|
||||
x2 := (x1 * 0x2)
|
||||
x3 := (arg1[4] * 0x2)
|
||||
@@ -305,8 +318,11 @@ fe_opp :: proc "contextless" (out1: ^Loose_Field_Element, arg1: ^Tight_Field_Ele
|
||||
out1[4] = x5
|
||||
}
|
||||
|
||||
@(optimization_mode="none")
|
||||
fe_cond_assign :: #force_no_inline proc "contextless" (out1, arg1: ^Tight_Field_Element, arg2: int) {
|
||||
@(optimization_mode = "none")
|
||||
fe_cond_assign :: #force_no_inline proc "contextless" (
|
||||
out1, arg1: ^Tight_Field_Element,
|
||||
arg2: int,
|
||||
) {
|
||||
x1 := fiat.cmovznz_u64(fiat.u1(arg2), out1[0], arg1[0])
|
||||
x2 := fiat.cmovznz_u64(fiat.u1(arg2), out1[1], arg1[1])
|
||||
x3 := fiat.cmovznz_u64(fiat.u1(arg2), out1[2], arg1[2])
|
||||
@@ -527,7 +543,10 @@ fe_relax :: proc "contextless" (out1: ^Loose_Field_Element, arg1: ^Tight_Field_E
|
||||
out1[4] = x5
|
||||
}
|
||||
|
||||
fe_carry_scmul_121666 :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
fe_carry_scmul_121666 :: proc "contextless" (
|
||||
out1: ^Tight_Field_Element,
|
||||
arg1: ^Loose_Field_Element,
|
||||
) {
|
||||
x2, x1 := bits.mul_u64(0x1db42, arg1[4])
|
||||
x4, x3 := bits.mul_u64(0x1db42, arg1[3])
|
||||
x6, x5 := bits.mul_u64(0x1db42, arg1[2])
|
||||
@@ -565,54 +584,3 @@ fe_carry_scmul_121666 :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_El
|
||||
out1[3] = x27
|
||||
out1[4] = x32
|
||||
}
|
||||
|
||||
// The following routines were added by hand, and do not come from fiat-crypto.
|
||||
|
||||
fe_zero :: proc "contextless" (out1: ^Tight_Field_Element) {
|
||||
out1[0] = 0
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
out1[3] = 0
|
||||
out1[4] = 0
|
||||
}
|
||||
|
||||
fe_one :: proc "contextless" (out1: ^Tight_Field_Element) {
|
||||
out1[0] = 1
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
out1[3] = 0
|
||||
out1[4] = 0
|
||||
}
|
||||
|
||||
fe_set :: proc "contextless" (out1, arg1: ^Tight_Field_Element) {
|
||||
x1 := arg1[0]
|
||||
x2 := arg1[1]
|
||||
x3 := arg1[2]
|
||||
x4 := arg1[3]
|
||||
x5 := arg1[4]
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
out1[3] = x4
|
||||
out1[4] = x5
|
||||
}
|
||||
|
||||
@(optimization_mode="none")
|
||||
fe_cond_swap :: #force_no_inline proc "contextless" (out1, out2: ^Tight_Field_Element, arg1: int) {
|
||||
mask := -u64(arg1)
|
||||
x := (out1[0] ~ out2[0]) & mask
|
||||
x1, y1 := out1[0] ~ x, out2[0] ~ x
|
||||
x = (out1[1] ~ out2[1]) & mask
|
||||
x2, y2 := out1[1] ~ x, out2[1] ~ x
|
||||
x = (out1[2] ~ out2[2]) & mask
|
||||
x3, y3 := out1[2] ~ x, out2[2] ~ x
|
||||
x = (out1[3] ~ out2[3]) & mask
|
||||
x4, y4 := out1[3] ~ x, out2[3] ~ x
|
||||
x = (out1[4] ~ out2[4]) & mask
|
||||
x5, y5 := out1[4] ~ x, out2[4] ~ x
|
||||
out1[0], out2[0] = x1, y1
|
||||
out1[1], out2[1] = x2, y2
|
||||
out1[2], out2[2] = x3, y3
|
||||
out1[3], out2[3] = x4, y4
|
||||
out1[4], out2[4] = x5, y5
|
||||
}
|
||||
|
||||
@@ -1,17 +1,26 @@
|
||||
package field_poly1305
|
||||
|
||||
import "base:intrinsics"
|
||||
import "core:encoding/endian"
|
||||
import "core:mem"
|
||||
|
||||
fe_relax_cast :: #force_inline proc "contextless" (arg1: ^Tight_Field_Element) -> ^Loose_Field_Element {
|
||||
fe_relax_cast :: #force_inline proc "contextless" (
|
||||
arg1: ^Tight_Field_Element,
|
||||
) -> ^Loose_Field_Element {
|
||||
return transmute(^Loose_Field_Element)(arg1)
|
||||
}
|
||||
|
||||
fe_tighten_cast :: #force_inline proc "contextless" (arg1: ^Loose_Field_Element) -> ^Tight_Field_Element {
|
||||
fe_tighten_cast :: #force_inline proc "contextless" (
|
||||
arg1: ^Loose_Field_Element,
|
||||
) -> ^Tight_Field_Element {
|
||||
return transmute(^Tight_Field_Element)(arg1)
|
||||
}
|
||||
|
||||
fe_from_bytes :: #force_inline proc (out1: ^Tight_Field_Element, arg1: []byte, arg2: byte) {
|
||||
fe_from_bytes :: #force_inline proc "contextless" (
|
||||
out1: ^Tight_Field_Element,
|
||||
arg1: []byte,
|
||||
arg2: byte,
|
||||
) {
|
||||
// fiat-crypto's deserialization routine effectively processes a
|
||||
// single byte at a time, and wants 256-bits of input for a value
|
||||
// that will be 128-bits or 129-bits.
|
||||
@@ -20,7 +29,9 @@ fe_from_bytes :: #force_inline proc (out1: ^Tight_Field_Element, arg1: []byte, a
|
||||
// makes implementing the actual MAC block processing considerably
|
||||
// neater.
|
||||
|
||||
assert(len(arg1) == 16)
|
||||
if len(arg1) != 16 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
|
||||
// While it may be unwise to do deserialization here on our
|
||||
// own when fiat-crypto provides equivalent functionality,
|
||||
@@ -51,3 +62,35 @@ fe_from_u64s :: proc "contextless" (out1: ^Tight_Field_Element, lo, hi: u64) {
|
||||
// This routine is only used to deserialize `r` which is confidential.
|
||||
mem.zero_explicit(&tmp, size_of(tmp))
|
||||
}
|
||||
|
||||
fe_zero :: proc "contextless" (out1: ^Tight_Field_Element) {
|
||||
out1[0] = 0
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
}
|
||||
|
||||
fe_set :: #force_inline proc "contextless" (out1, arg1: ^Tight_Field_Element) {
|
||||
x1 := arg1[0]
|
||||
x2 := arg1[1]
|
||||
x3 := arg1[2]
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
}
|
||||
|
||||
@(optimization_mode = "none")
|
||||
fe_cond_swap :: #force_no_inline proc "contextless" (
|
||||
out1, out2: ^Tight_Field_Element,
|
||||
arg1: bool,
|
||||
) {
|
||||
mask := (u64(arg1) * 0xffffffffffffffff)
|
||||
x := (out1[0] ~ out2[0]) & mask
|
||||
x1, y1 := out1[0] ~ x, out2[0] ~ x
|
||||
x = (out1[1] ~ out2[1]) & mask
|
||||
x2, y2 := out1[1] ~ x, out2[1] ~ x
|
||||
x = (out1[2] ~ out2[2]) & mask
|
||||
x3, y3 := out1[2] ~ x, out2[2] ~ x
|
||||
out1[0], out2[0] = x1, y1
|
||||
out1[1], out2[1] = x2, y2
|
||||
out1[2], out2[2] = x3, y3
|
||||
}
|
||||
|
||||
@@ -39,7 +39,13 @@ import "core:math/bits"
|
||||
Loose_Field_Element :: distinct [3]u64
|
||||
Tight_Field_Element :: distinct [3]u64
|
||||
|
||||
_addcarryx_u44 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u64) -> (out1: u64, out2: fiat.u1) {
|
||||
_addcarryx_u44 :: #force_inline proc "contextless" (
|
||||
arg1: fiat.u1,
|
||||
arg2, arg3: u64,
|
||||
) -> (
|
||||
out1: u64,
|
||||
out2: fiat.u1,
|
||||
) {
|
||||
x1 := ((u64(arg1) + arg2) + arg3)
|
||||
x2 := (x1 & 0xfffffffffff)
|
||||
x3 := fiat.u1((x1 >> 44))
|
||||
@@ -48,7 +54,13 @@ _addcarryx_u44 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u
|
||||
return
|
||||
}
|
||||
|
||||
_subborrowx_u44 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u64) -> (out1: u64, out2: fiat.u1) {
|
||||
_subborrowx_u44 :: #force_inline proc "contextless" (
|
||||
arg1: fiat.u1,
|
||||
arg2, arg3: u64,
|
||||
) -> (
|
||||
out1: u64,
|
||||
out2: fiat.u1,
|
||||
) {
|
||||
x1 := ((i64(arg2) - i64(arg1)) - i64(arg3))
|
||||
x2 := fiat.i1((x1 >> 44))
|
||||
x3 := (u64(x1) & 0xfffffffffff)
|
||||
@@ -57,7 +69,13 @@ _subborrowx_u44 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3:
|
||||
return
|
||||
}
|
||||
|
||||
_addcarryx_u43 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u64) -> (out1: u64, out2: fiat.u1) {
|
||||
_addcarryx_u43 :: #force_inline proc "contextless" (
|
||||
arg1: fiat.u1,
|
||||
arg2, arg3: u64,
|
||||
) -> (
|
||||
out1: u64,
|
||||
out2: fiat.u1,
|
||||
) {
|
||||
x1 := ((u64(arg1) + arg2) + arg3)
|
||||
x2 := (x1 & 0x7ffffffffff)
|
||||
x3 := fiat.u1((x1 >> 43))
|
||||
@@ -66,7 +84,13 @@ _addcarryx_u43 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u
|
||||
return
|
||||
}
|
||||
|
||||
_subborrowx_u43 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3: u64) -> (out1: u64, out2: fiat.u1) {
|
||||
_subborrowx_u43 :: #force_inline proc "contextless" (
|
||||
arg1: fiat.u1,
|
||||
arg2, arg3: u64,
|
||||
) -> (
|
||||
out1: u64,
|
||||
out2: fiat.u1,
|
||||
) {
|
||||
x1 := ((i64(arg2) - i64(arg1)) - i64(arg3))
|
||||
x2 := fiat.i1((x1 >> 43))
|
||||
x3 := (u64(x1) & 0x7ffffffffff)
|
||||
@@ -75,7 +99,7 @@ _subborrowx_u43 :: #force_inline proc "contextless" (arg1: fiat.u1, arg2, arg3:
|
||||
return
|
||||
}
|
||||
|
||||
fe_carry_mul :: proc (out1: ^Tight_Field_Element, arg1, arg2: ^Loose_Field_Element) {
|
||||
fe_carry_mul :: proc "contextless" (out1: ^Tight_Field_Element, arg1, arg2: ^Loose_Field_Element) {
|
||||
x2, x1 := bits.mul_u64(arg1[2], (arg2[2] * 0x5))
|
||||
x4, x3 := bits.mul_u64(arg1[2], (arg2[1] * 0xa))
|
||||
x6, x5 := bits.mul_u64(arg1[1], (arg2[2] * 0xa))
|
||||
@@ -120,7 +144,7 @@ fe_carry_mul :: proc (out1: ^Tight_Field_Element, arg1, arg2: ^Loose_Field_Eleme
|
||||
out1[2] = x62
|
||||
}
|
||||
|
||||
fe_carry_square :: proc (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
fe_carry_square :: proc "contextless" (out1: ^Tight_Field_Element, arg1: ^Loose_Field_Element) {
|
||||
x1 := (arg1[2] * 0x5)
|
||||
x2 := (x1 * 0x2)
|
||||
x3 := (arg1[2] * 0x2)
|
||||
@@ -201,8 +225,11 @@ fe_opp :: proc "contextless" (out1: ^Loose_Field_Element, arg1: ^Tight_Field_Ele
|
||||
out1[2] = x3
|
||||
}
|
||||
|
||||
@(optimization_mode="none")
|
||||
fe_cond_assign :: #force_no_inline proc "contextless" (out1, arg1: ^Tight_Field_Element, arg2: bool) {
|
||||
@(optimization_mode = "none")
|
||||
fe_cond_assign :: #force_no_inline proc "contextless" (
|
||||
out1, arg1: ^Tight_Field_Element,
|
||||
arg2: bool,
|
||||
) {
|
||||
x1 := fiat.cmovznz_u64(fiat.u1(arg2), out1[0], arg1[0])
|
||||
x2 := fiat.cmovznz_u64(fiat.u1(arg2), out1[1], arg1[1])
|
||||
x3 := fiat.cmovznz_u64(fiat.u1(arg2), out1[2], arg1[2])
|
||||
@@ -325,34 +352,3 @@ fe_relax :: proc "contextless" (out1: ^Loose_Field_Element, arg1: ^Tight_Field_E
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
}
|
||||
|
||||
// The following routines were added by hand, and do not come from fiat-crypto.
|
||||
|
||||
fe_zero :: proc "contextless" (out1: ^Tight_Field_Element) {
|
||||
out1[0] = 0
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
}
|
||||
|
||||
fe_set :: #force_inline proc "contextless" (out1, arg1: ^Tight_Field_Element) {
|
||||
x1 := arg1[0]
|
||||
x2 := arg1[1]
|
||||
x3 := arg1[2]
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
}
|
||||
|
||||
@(optimization_mode="none")
|
||||
fe_cond_swap :: #force_no_inline proc "contextless" (out1, out2: ^Tight_Field_Element, arg1: bool) {
|
||||
mask := -u64(arg1)
|
||||
x := (out1[0] ~ out2[0]) & mask
|
||||
x1, y1 := out1[0] ~ x, out2[0] ~ x
|
||||
x = (out1[1] ~ out2[1]) & mask
|
||||
x2, y2 := out1[1] ~ x, out2[1] ~ x
|
||||
x = (out1[2] ~ out2[2]) & mask
|
||||
x3, y3 := out1[2] ~ x, out2[2] ~ x
|
||||
out1[0], out2[0] = x1, y1
|
||||
out1[1], out2[1] = x2, y2
|
||||
out1[2], out2[2] = x3, y3
|
||||
}
|
||||
|
||||
@@ -0,0 +1,153 @@
|
||||
package field_scalar25519
|
||||
|
||||
import "base:intrinsics"
|
||||
import "core:encoding/endian"
|
||||
import "core:math/bits"
|
||||
import "core:mem"
|
||||
|
||||
@(private)
|
||||
_TWO_168 := Montgomery_Domain_Field_Element {
|
||||
0x5b8ab432eac74798,
|
||||
0x38afddd6de59d5d7,
|
||||
0xa2c131b399411b7c,
|
||||
0x6329a7ed9ce5a30,
|
||||
}
|
||||
@(private)
|
||||
_TWO_336 := Montgomery_Domain_Field_Element {
|
||||
0xbd3d108e2b35ecc5,
|
||||
0x5c3a3718bdf9c90b,
|
||||
0x63aa97a331b4f2ee,
|
||||
0x3d217f5be65cb5c,
|
||||
}
|
||||
|
||||
fe_clear :: proc "contextless" (arg1: ^Montgomery_Domain_Field_Element) {
|
||||
mem.zero_explicit(arg1, size_of(Montgomery_Domain_Field_Element))
|
||||
}
|
||||
|
||||
fe_from_bytes :: proc "contextless" (
|
||||
out1: ^Montgomery_Domain_Field_Element,
|
||||
arg1: ^[32]byte,
|
||||
unsafe_assume_canonical := false,
|
||||
) -> bool {
|
||||
tmp := Non_Montgomery_Domain_Field_Element {
|
||||
endian.unchecked_get_u64le(arg1[0:]),
|
||||
endian.unchecked_get_u64le(arg1[8:]),
|
||||
endian.unchecked_get_u64le(arg1[16:]),
|
||||
endian.unchecked_get_u64le(arg1[24:]),
|
||||
}
|
||||
defer mem.zero_explicit(&tmp, size_of(tmp))
|
||||
|
||||
// Check that tmp is in the the range [0, ELL).
|
||||
if !unsafe_assume_canonical {
|
||||
_, borrow := bits.sub_u64(ELL[0] - 1, tmp[0], 0)
|
||||
_, borrow = bits.sub_u64(ELL[1], tmp[1], borrow)
|
||||
_, borrow = bits.sub_u64(ELL[2], tmp[2], borrow)
|
||||
_, borrow = bits.sub_u64(ELL[3], tmp[3], borrow)
|
||||
if borrow != 0 {
|
||||
return false
|
||||
}
|
||||
}
|
||||
|
||||
fe_to_montgomery(out1, &tmp)
|
||||
|
||||
return true
|
||||
}
|
||||
|
||||
fe_from_bytes_rfc8032 :: proc "contextless" (
|
||||
out1: ^Montgomery_Domain_Field_Element,
|
||||
arg1: ^[32]byte,
|
||||
) {
|
||||
tmp: [64]byte
|
||||
copy(tmp[:], arg1[:])
|
||||
|
||||
// Apply "clamping" as in RFC 8032.
|
||||
tmp[0] &= 248
|
||||
tmp[31] &= 127
|
||||
tmp[31] |= 64 // Sets the 254th bit, so the encoding is non-canonical.
|
||||
|
||||
fe_from_bytes_wide(out1, &tmp)
|
||||
|
||||
mem.zero_explicit(&tmp, size_of(tmp))
|
||||
}
|
||||
|
||||
fe_from_bytes_wide :: proc "contextless" (
|
||||
out1: ^Montgomery_Domain_Field_Element,
|
||||
arg1: ^[64]byte,
|
||||
) {
|
||||
tmp: Montgomery_Domain_Field_Element
|
||||
// Use Frank Denis' trick, as documented by Filippo Valsorda
|
||||
// at https://words.filippo.io/dispatches/wide-reduction/
|
||||
//
|
||||
// x = c * 2^336 + b * 2^168 + a mod l
|
||||
_fe_from_bytes_short(out1, arg1[:21]) // a
|
||||
|
||||
_fe_from_bytes_short(&tmp, arg1[21:42]) // b
|
||||
fe_mul(&tmp, &tmp, &_TWO_168) // b * 2^168
|
||||
fe_add(out1, out1, &tmp) // a + b * 2^168
|
||||
|
||||
_fe_from_bytes_short(&tmp, arg1[42:]) // c
|
||||
fe_mul(&tmp, &tmp, &_TWO_336) // c * 2^336
|
||||
fe_add(out1, out1, &tmp) // a + b * 2^168 + c * 2^336
|
||||
|
||||
fe_clear(&tmp)
|
||||
}
|
||||
|
||||
@(private)
|
||||
_fe_from_bytes_short :: proc "contextless" (out1: ^Montgomery_Domain_Field_Element, arg1: []byte) {
|
||||
// INVARIANT: len(arg1) < 32.
|
||||
if len(arg1) >= 32 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
tmp: [32]byte
|
||||
copy(tmp[:], arg1)
|
||||
|
||||
_ = fe_from_bytes(out1, &tmp, true)
|
||||
mem.zero_explicit(&tmp, size_of(tmp))
|
||||
}
|
||||
|
||||
fe_to_bytes :: proc "contextless" (out1: []byte, arg1: ^Montgomery_Domain_Field_Element) {
|
||||
if len(out1) != 32 {
|
||||
intrinsics.trap()
|
||||
}
|
||||
|
||||
tmp: Non_Montgomery_Domain_Field_Element
|
||||
fe_from_montgomery(&tmp, arg1)
|
||||
|
||||
endian.unchecked_put_u64le(out1[0:], tmp[0])
|
||||
endian.unchecked_put_u64le(out1[8:], tmp[1])
|
||||
endian.unchecked_put_u64le(out1[16:], tmp[2])
|
||||
endian.unchecked_put_u64le(out1[24:], tmp[3])
|
||||
|
||||
mem.zero_explicit(&tmp, size_of(tmp))
|
||||
}
|
||||
|
||||
fe_equal :: proc "contextless" (arg1, arg2: ^Montgomery_Domain_Field_Element) -> int {
|
||||
tmp: Montgomery_Domain_Field_Element
|
||||
fe_sub(&tmp, arg1, arg2)
|
||||
|
||||
// This will only underflow iff arg1 == arg2, and we return the borrow,
|
||||
// which will be 1.
|
||||
_, borrow := bits.sub_u64(fe_non_zero(&tmp), 1, 0)
|
||||
|
||||
fe_clear(&tmp)
|
||||
|
||||
return int(borrow)
|
||||
}
|
||||
|
||||
fe_zero :: proc "contextless" (out1: ^Montgomery_Domain_Field_Element) {
|
||||
out1[0] = 0
|
||||
out1[1] = 0
|
||||
out1[2] = 0
|
||||
out1[3] = 0
|
||||
}
|
||||
|
||||
fe_set :: proc "contextless" (out1, arg1: ^Montgomery_Domain_Field_Element) {
|
||||
x1 := arg1[0]
|
||||
x2 := arg1[1]
|
||||
x3 := arg1[2]
|
||||
x4 := arg1[3]
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
out1[3] = x4
|
||||
}
|
||||
@@ -0,0 +1,535 @@
|
||||
// The BSD 1-Clause License (BSD-1-Clause)
|
||||
//
|
||||
// Copyright (c) 2015-2020 the fiat-crypto authors (see the AUTHORS file)
|
||||
// All rights reserved.
|
||||
//
|
||||
// Redistribution and use in source and binary forms, with or without
|
||||
// modification, are permitted provided that the following conditions are
|
||||
// met:
|
||||
//
|
||||
// 1. Redistributions of source code must retain the above copyright
|
||||
// notice, this list of conditions and the following disclaimer.
|
||||
//
|
||||
// THIS SOFTWARE IS PROVIDED BY the fiat-crypto authors "AS IS"
|
||||
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
|
||||
// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
|
||||
// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL Berkeley Software Design,
|
||||
// Inc. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
|
||||
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
|
||||
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
|
||||
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
|
||||
// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
|
||||
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
|
||||
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
|
||||
|
||||
package field_scalar25519
|
||||
|
||||
// The file provides arithmetic on the field Z/(2^252+27742317777372353535851937790883648493)
|
||||
// using a 64-bit Montgomery form internal representation. It is derived
|
||||
// primarily from the machine generated Golang output from the fiat-crypto
|
||||
// project.
|
||||
//
|
||||
// While the base implementation is provably correct, this implementation
|
||||
// makes no such claims as the port and optimizations were done by hand.
|
||||
|
||||
import fiat "core:crypto/_fiat"
|
||||
import "core:math/bits"
|
||||
|
||||
// ELL is the saturated representation of the field order, least-significant
|
||||
// limb first.
|
||||
ELL :: [4]u64{0x5812631a5cf5d3ed, 0x14def9dea2f79cd6, 0x0, 0x1000000000000000}
|
||||
|
||||
Montgomery_Domain_Field_Element :: distinct [4]u64
|
||||
Non_Montgomery_Domain_Field_Element :: distinct [4]u64
|
||||
|
||||
fe_mul :: proc "contextless" (out1, arg1, arg2: ^Montgomery_Domain_Field_Element) {
|
||||
x1 := arg1[1]
|
||||
x2 := arg1[2]
|
||||
x3 := arg1[3]
|
||||
x4 := arg1[0]
|
||||
x6, x5 := bits.mul_u64(x4, arg2[3])
|
||||
x8, x7 := bits.mul_u64(x4, arg2[2])
|
||||
x10, x9 := bits.mul_u64(x4, arg2[1])
|
||||
x12, x11 := bits.mul_u64(x4, arg2[0])
|
||||
x13, x14 := bits.add_u64(x12, x9, u64(0x0))
|
||||
x15, x16 := bits.add_u64(x10, x7, u64(fiat.u1(x14)))
|
||||
x17, x18 := bits.add_u64(x8, x5, u64(fiat.u1(x16)))
|
||||
x19 := (u64(fiat.u1(x18)) + x6)
|
||||
_, x20 := bits.mul_u64(x11, 0xd2b51da312547e1b)
|
||||
x23, x22 := bits.mul_u64(x20, 0x1000000000000000)
|
||||
x25, x24 := bits.mul_u64(x20, 0x14def9dea2f79cd6)
|
||||
x27, x26 := bits.mul_u64(x20, 0x5812631a5cf5d3ed)
|
||||
x28, x29 := bits.add_u64(x27, x24, u64(0x0))
|
||||
x30 := (u64(fiat.u1(x29)) + x25)
|
||||
_, x32 := bits.add_u64(x11, x26, u64(0x0))
|
||||
x33, x34 := bits.add_u64(x13, x28, u64(fiat.u1(x32)))
|
||||
x35, x36 := bits.add_u64(x15, x30, u64(fiat.u1(x34)))
|
||||
x37, x38 := bits.add_u64(x17, x22, u64(fiat.u1(x36)))
|
||||
x39, x40 := bits.add_u64(x19, x23, u64(fiat.u1(x38)))
|
||||
x42, x41 := bits.mul_u64(x1, arg2[3])
|
||||
x44, x43 := bits.mul_u64(x1, arg2[2])
|
||||
x46, x45 := bits.mul_u64(x1, arg2[1])
|
||||
x48, x47 := bits.mul_u64(x1, arg2[0])
|
||||
x49, x50 := bits.add_u64(x48, x45, u64(0x0))
|
||||
x51, x52 := bits.add_u64(x46, x43, u64(fiat.u1(x50)))
|
||||
x53, x54 := bits.add_u64(x44, x41, u64(fiat.u1(x52)))
|
||||
x55 := (u64(fiat.u1(x54)) + x42)
|
||||
x56, x57 := bits.add_u64(x33, x47, u64(0x0))
|
||||
x58, x59 := bits.add_u64(x35, x49, u64(fiat.u1(x57)))
|
||||
x60, x61 := bits.add_u64(x37, x51, u64(fiat.u1(x59)))
|
||||
x62, x63 := bits.add_u64(x39, x53, u64(fiat.u1(x61)))
|
||||
x64, x65 := bits.add_u64(u64(fiat.u1(x40)), x55, u64(fiat.u1(x63)))
|
||||
_, x66 := bits.mul_u64(x56, 0xd2b51da312547e1b)
|
||||
x69, x68 := bits.mul_u64(x66, 0x1000000000000000)
|
||||
x71, x70 := bits.mul_u64(x66, 0x14def9dea2f79cd6)
|
||||
x73, x72 := bits.mul_u64(x66, 0x5812631a5cf5d3ed)
|
||||
x74, x75 := bits.add_u64(x73, x70, u64(0x0))
|
||||
x76 := (u64(fiat.u1(x75)) + x71)
|
||||
_, x78 := bits.add_u64(x56, x72, u64(0x0))
|
||||
x79, x80 := bits.add_u64(x58, x74, u64(fiat.u1(x78)))
|
||||
x81, x82 := bits.add_u64(x60, x76, u64(fiat.u1(x80)))
|
||||
x83, x84 := bits.add_u64(x62, x68, u64(fiat.u1(x82)))
|
||||
x85, x86 := bits.add_u64(x64, x69, u64(fiat.u1(x84)))
|
||||
x87 := (u64(fiat.u1(x86)) + u64(fiat.u1(x65)))
|
||||
x89, x88 := bits.mul_u64(x2, arg2[3])
|
||||
x91, x90 := bits.mul_u64(x2, arg2[2])
|
||||
x93, x92 := bits.mul_u64(x2, arg2[1])
|
||||
x95, x94 := bits.mul_u64(x2, arg2[0])
|
||||
x96, x97 := bits.add_u64(x95, x92, u64(0x0))
|
||||
x98, x99 := bits.add_u64(x93, x90, u64(fiat.u1(x97)))
|
||||
x100, x101 := bits.add_u64(x91, x88, u64(fiat.u1(x99)))
|
||||
x102 := (u64(fiat.u1(x101)) + x89)
|
||||
x103, x104 := bits.add_u64(x79, x94, u64(0x0))
|
||||
x105, x106 := bits.add_u64(x81, x96, u64(fiat.u1(x104)))
|
||||
x107, x108 := bits.add_u64(x83, x98, u64(fiat.u1(x106)))
|
||||
x109, x110 := bits.add_u64(x85, x100, u64(fiat.u1(x108)))
|
||||
x111, x112 := bits.add_u64(x87, x102, u64(fiat.u1(x110)))
|
||||
_, x113 := bits.mul_u64(x103, 0xd2b51da312547e1b)
|
||||
x116, x115 := bits.mul_u64(x113, 0x1000000000000000)
|
||||
x118, x117 := bits.mul_u64(x113, 0x14def9dea2f79cd6)
|
||||
x120, x119 := bits.mul_u64(x113, 0x5812631a5cf5d3ed)
|
||||
x121, x122 := bits.add_u64(x120, x117, u64(0x0))
|
||||
x123 := (u64(fiat.u1(x122)) + x118)
|
||||
_, x125 := bits.add_u64(x103, x119, u64(0x0))
|
||||
x126, x127 := bits.add_u64(x105, x121, u64(fiat.u1(x125)))
|
||||
x128, x129 := bits.add_u64(x107, x123, u64(fiat.u1(x127)))
|
||||
x130, x131 := bits.add_u64(x109, x115, u64(fiat.u1(x129)))
|
||||
x132, x133 := bits.add_u64(x111, x116, u64(fiat.u1(x131)))
|
||||
x134 := (u64(fiat.u1(x133)) + u64(fiat.u1(x112)))
|
||||
x136, x135 := bits.mul_u64(x3, arg2[3])
|
||||
x138, x137 := bits.mul_u64(x3, arg2[2])
|
||||
x140, x139 := bits.mul_u64(x3, arg2[1])
|
||||
x142, x141 := bits.mul_u64(x3, arg2[0])
|
||||
x143, x144 := bits.add_u64(x142, x139, u64(0x0))
|
||||
x145, x146 := bits.add_u64(x140, x137, u64(fiat.u1(x144)))
|
||||
x147, x148 := bits.add_u64(x138, x135, u64(fiat.u1(x146)))
|
||||
x149 := (u64(fiat.u1(x148)) + x136)
|
||||
x150, x151 := bits.add_u64(x126, x141, u64(0x0))
|
||||
x152, x153 := bits.add_u64(x128, x143, u64(fiat.u1(x151)))
|
||||
x154, x155 := bits.add_u64(x130, x145, u64(fiat.u1(x153)))
|
||||
x156, x157 := bits.add_u64(x132, x147, u64(fiat.u1(x155)))
|
||||
x158, x159 := bits.add_u64(x134, x149, u64(fiat.u1(x157)))
|
||||
_, x160 := bits.mul_u64(x150, 0xd2b51da312547e1b)
|
||||
x163, x162 := bits.mul_u64(x160, 0x1000000000000000)
|
||||
x165, x164 := bits.mul_u64(x160, 0x14def9dea2f79cd6)
|
||||
x167, x166 := bits.mul_u64(x160, 0x5812631a5cf5d3ed)
|
||||
x168, x169 := bits.add_u64(x167, x164, u64(0x0))
|
||||
x170 := (u64(fiat.u1(x169)) + x165)
|
||||
_, x172 := bits.add_u64(x150, x166, u64(0x0))
|
||||
x173, x174 := bits.add_u64(x152, x168, u64(fiat.u1(x172)))
|
||||
x175, x176 := bits.add_u64(x154, x170, u64(fiat.u1(x174)))
|
||||
x177, x178 := bits.add_u64(x156, x162, u64(fiat.u1(x176)))
|
||||
x179, x180 := bits.add_u64(x158, x163, u64(fiat.u1(x178)))
|
||||
x181 := (u64(fiat.u1(x180)) + u64(fiat.u1(x159)))
|
||||
x182, x183 := bits.sub_u64(x173, 0x5812631a5cf5d3ed, u64(0x0))
|
||||
x184, x185 := bits.sub_u64(x175, 0x14def9dea2f79cd6, u64(fiat.u1(x183)))
|
||||
x186, x187 := bits.sub_u64(x177, u64(0x0), u64(fiat.u1(x185)))
|
||||
x188, x189 := bits.sub_u64(x179, 0x1000000000000000, u64(fiat.u1(x187)))
|
||||
_, x191 := bits.sub_u64(x181, u64(0x0), u64(fiat.u1(x189)))
|
||||
x192 := fiat.cmovznz_u64(fiat.u1(x191), x182, x173)
|
||||
x193 := fiat.cmovznz_u64(fiat.u1(x191), x184, x175)
|
||||
x194 := fiat.cmovznz_u64(fiat.u1(x191), x186, x177)
|
||||
x195 := fiat.cmovznz_u64(fiat.u1(x191), x188, x179)
|
||||
out1[0] = x192
|
||||
out1[1] = x193
|
||||
out1[2] = x194
|
||||
out1[3] = x195
|
||||
}
|
||||
|
||||
fe_square :: proc "contextless" (out1, arg1: ^Montgomery_Domain_Field_Element) {
|
||||
x1 := arg1[1]
|
||||
x2 := arg1[2]
|
||||
x3 := arg1[3]
|
||||
x4 := arg1[0]
|
||||
x6, x5 := bits.mul_u64(x4, arg1[3])
|
||||
x8, x7 := bits.mul_u64(x4, arg1[2])
|
||||
x10, x9 := bits.mul_u64(x4, arg1[1])
|
||||
x12, x11 := bits.mul_u64(x4, arg1[0])
|
||||
x13, x14 := bits.add_u64(x12, x9, u64(0x0))
|
||||
x15, x16 := bits.add_u64(x10, x7, u64(fiat.u1(x14)))
|
||||
x17, x18 := bits.add_u64(x8, x5, u64(fiat.u1(x16)))
|
||||
x19 := (u64(fiat.u1(x18)) + x6)
|
||||
_, x20 := bits.mul_u64(x11, 0xd2b51da312547e1b)
|
||||
x23, x22 := bits.mul_u64(x20, 0x1000000000000000)
|
||||
x25, x24 := bits.mul_u64(x20, 0x14def9dea2f79cd6)
|
||||
x27, x26 := bits.mul_u64(x20, 0x5812631a5cf5d3ed)
|
||||
x28, x29 := bits.add_u64(x27, x24, u64(0x0))
|
||||
x30 := (u64(fiat.u1(x29)) + x25)
|
||||
_, x32 := bits.add_u64(x11, x26, u64(0x0))
|
||||
x33, x34 := bits.add_u64(x13, x28, u64(fiat.u1(x32)))
|
||||
x35, x36 := bits.add_u64(x15, x30, u64(fiat.u1(x34)))
|
||||
x37, x38 := bits.add_u64(x17, x22, u64(fiat.u1(x36)))
|
||||
x39, x40 := bits.add_u64(x19, x23, u64(fiat.u1(x38)))
|
||||
x42, x41 := bits.mul_u64(x1, arg1[3])
|
||||
x44, x43 := bits.mul_u64(x1, arg1[2])
|
||||
x46, x45 := bits.mul_u64(x1, arg1[1])
|
||||
x48, x47 := bits.mul_u64(x1, arg1[0])
|
||||
x49, x50 := bits.add_u64(x48, x45, u64(0x0))
|
||||
x51, x52 := bits.add_u64(x46, x43, u64(fiat.u1(x50)))
|
||||
x53, x54 := bits.add_u64(x44, x41, u64(fiat.u1(x52)))
|
||||
x55 := (u64(fiat.u1(x54)) + x42)
|
||||
x56, x57 := bits.add_u64(x33, x47, u64(0x0))
|
||||
x58, x59 := bits.add_u64(x35, x49, u64(fiat.u1(x57)))
|
||||
x60, x61 := bits.add_u64(x37, x51, u64(fiat.u1(x59)))
|
||||
x62, x63 := bits.add_u64(x39, x53, u64(fiat.u1(x61)))
|
||||
x64, x65 := bits.add_u64(u64(fiat.u1(x40)), x55, u64(fiat.u1(x63)))
|
||||
_, x66 := bits.mul_u64(x56, 0xd2b51da312547e1b)
|
||||
x69, x68 := bits.mul_u64(x66, 0x1000000000000000)
|
||||
x71, x70 := bits.mul_u64(x66, 0x14def9dea2f79cd6)
|
||||
x73, x72 := bits.mul_u64(x66, 0x5812631a5cf5d3ed)
|
||||
x74, x75 := bits.add_u64(x73, x70, u64(0x0))
|
||||
x76 := (u64(fiat.u1(x75)) + x71)
|
||||
_, x78 := bits.add_u64(x56, x72, u64(0x0))
|
||||
x79, x80 := bits.add_u64(x58, x74, u64(fiat.u1(x78)))
|
||||
x81, x82 := bits.add_u64(x60, x76, u64(fiat.u1(x80)))
|
||||
x83, x84 := bits.add_u64(x62, x68, u64(fiat.u1(x82)))
|
||||
x85, x86 := bits.add_u64(x64, x69, u64(fiat.u1(x84)))
|
||||
x87 := (u64(fiat.u1(x86)) + u64(fiat.u1(x65)))
|
||||
x89, x88 := bits.mul_u64(x2, arg1[3])
|
||||
x91, x90 := bits.mul_u64(x2, arg1[2])
|
||||
x93, x92 := bits.mul_u64(x2, arg1[1])
|
||||
x95, x94 := bits.mul_u64(x2, arg1[0])
|
||||
x96, x97 := bits.add_u64(x95, x92, u64(0x0))
|
||||
x98, x99 := bits.add_u64(x93, x90, u64(fiat.u1(x97)))
|
||||
x100, x101 := bits.add_u64(x91, x88, u64(fiat.u1(x99)))
|
||||
x102 := (u64(fiat.u1(x101)) + x89)
|
||||
x103, x104 := bits.add_u64(x79, x94, u64(0x0))
|
||||
x105, x106 := bits.add_u64(x81, x96, u64(fiat.u1(x104)))
|
||||
x107, x108 := bits.add_u64(x83, x98, u64(fiat.u1(x106)))
|
||||
x109, x110 := bits.add_u64(x85, x100, u64(fiat.u1(x108)))
|
||||
x111, x112 := bits.add_u64(x87, x102, u64(fiat.u1(x110)))
|
||||
_, x113 := bits.mul_u64(x103, 0xd2b51da312547e1b)
|
||||
x116, x115 := bits.mul_u64(x113, 0x1000000000000000)
|
||||
x118, x117 := bits.mul_u64(x113, 0x14def9dea2f79cd6)
|
||||
x120, x119 := bits.mul_u64(x113, 0x5812631a5cf5d3ed)
|
||||
x121, x122 := bits.add_u64(x120, x117, u64(0x0))
|
||||
x123 := (u64(fiat.u1(x122)) + x118)
|
||||
_, x125 := bits.add_u64(x103, x119, u64(0x0))
|
||||
x126, x127 := bits.add_u64(x105, x121, u64(fiat.u1(x125)))
|
||||
x128, x129 := bits.add_u64(x107, x123, u64(fiat.u1(x127)))
|
||||
x130, x131 := bits.add_u64(x109, x115, u64(fiat.u1(x129)))
|
||||
x132, x133 := bits.add_u64(x111, x116, u64(fiat.u1(x131)))
|
||||
x134 := (u64(fiat.u1(x133)) + u64(fiat.u1(x112)))
|
||||
x136, x135 := bits.mul_u64(x3, arg1[3])
|
||||
x138, x137 := bits.mul_u64(x3, arg1[2])
|
||||
x140, x139 := bits.mul_u64(x3, arg1[1])
|
||||
x142, x141 := bits.mul_u64(x3, arg1[0])
|
||||
x143, x144 := bits.add_u64(x142, x139, u64(0x0))
|
||||
x145, x146 := bits.add_u64(x140, x137, u64(fiat.u1(x144)))
|
||||
x147, x148 := bits.add_u64(x138, x135, u64(fiat.u1(x146)))
|
||||
x149 := (u64(fiat.u1(x148)) + x136)
|
||||
x150, x151 := bits.add_u64(x126, x141, u64(0x0))
|
||||
x152, x153 := bits.add_u64(x128, x143, u64(fiat.u1(x151)))
|
||||
x154, x155 := bits.add_u64(x130, x145, u64(fiat.u1(x153)))
|
||||
x156, x157 := bits.add_u64(x132, x147, u64(fiat.u1(x155)))
|
||||
x158, x159 := bits.add_u64(x134, x149, u64(fiat.u1(x157)))
|
||||
_, x160 := bits.mul_u64(x150, 0xd2b51da312547e1b)
|
||||
x163, x162 := bits.mul_u64(x160, 0x1000000000000000)
|
||||
x165, x164 := bits.mul_u64(x160, 0x14def9dea2f79cd6)
|
||||
x167, x166 := bits.mul_u64(x160, 0x5812631a5cf5d3ed)
|
||||
x168, x169 := bits.add_u64(x167, x164, u64(0x0))
|
||||
x170 := (u64(fiat.u1(x169)) + x165)
|
||||
_, x172 := bits.add_u64(x150, x166, u64(0x0))
|
||||
x173, x174 := bits.add_u64(x152, x168, u64(fiat.u1(x172)))
|
||||
x175, x176 := bits.add_u64(x154, x170, u64(fiat.u1(x174)))
|
||||
x177, x178 := bits.add_u64(x156, x162, u64(fiat.u1(x176)))
|
||||
x179, x180 := bits.add_u64(x158, x163, u64(fiat.u1(x178)))
|
||||
x181 := (u64(fiat.u1(x180)) + u64(fiat.u1(x159)))
|
||||
x182, x183 := bits.sub_u64(x173, 0x5812631a5cf5d3ed, u64(0x0))
|
||||
x184, x185 := bits.sub_u64(x175, 0x14def9dea2f79cd6, u64(fiat.u1(x183)))
|
||||
x186, x187 := bits.sub_u64(x177, u64(0x0), u64(fiat.u1(x185)))
|
||||
x188, x189 := bits.sub_u64(x179, 0x1000000000000000, u64(fiat.u1(x187)))
|
||||
_, x191 := bits.sub_u64(x181, u64(0x0), u64(fiat.u1(x189)))
|
||||
x192 := fiat.cmovznz_u64(fiat.u1(x191), x182, x173)
|
||||
x193 := fiat.cmovznz_u64(fiat.u1(x191), x184, x175)
|
||||
x194 := fiat.cmovznz_u64(fiat.u1(x191), x186, x177)
|
||||
x195 := fiat.cmovznz_u64(fiat.u1(x191), x188, x179)
|
||||
out1[0] = x192
|
||||
out1[1] = x193
|
||||
out1[2] = x194
|
||||
out1[3] = x195
|
||||
}
|
||||
|
||||
fe_add :: proc "contextless" (out1, arg1, arg2: ^Montgomery_Domain_Field_Element) {
|
||||
x1, x2 := bits.add_u64(arg1[0], arg2[0], u64(0x0))
|
||||
x3, x4 := bits.add_u64(arg1[1], arg2[1], u64(fiat.u1(x2)))
|
||||
x5, x6 := bits.add_u64(arg1[2], arg2[2], u64(fiat.u1(x4)))
|
||||
x7, x8 := bits.add_u64(arg1[3], arg2[3], u64(fiat.u1(x6)))
|
||||
x9, x10 := bits.sub_u64(x1, 0x5812631a5cf5d3ed, u64(0x0))
|
||||
x11, x12 := bits.sub_u64(x3, 0x14def9dea2f79cd6, u64(fiat.u1(x10)))
|
||||
x13, x14 := bits.sub_u64(x5, u64(0x0), u64(fiat.u1(x12)))
|
||||
x15, x16 := bits.sub_u64(x7, 0x1000000000000000, u64(fiat.u1(x14)))
|
||||
_, x18 := bits.sub_u64(u64(fiat.u1(x8)), u64(0x0), u64(fiat.u1(x16)))
|
||||
x19 := fiat.cmovznz_u64(fiat.u1(x18), x9, x1)
|
||||
x20 := fiat.cmovznz_u64(fiat.u1(x18), x11, x3)
|
||||
x21 := fiat.cmovznz_u64(fiat.u1(x18), x13, x5)
|
||||
x22 := fiat.cmovznz_u64(fiat.u1(x18), x15, x7)
|
||||
out1[0] = x19
|
||||
out1[1] = x20
|
||||
out1[2] = x21
|
||||
out1[3] = x22
|
||||
}
|
||||
|
||||
fe_sub :: proc "contextless" (out1, arg1, arg2: ^Montgomery_Domain_Field_Element) {
|
||||
x1, x2 := bits.sub_u64(arg1[0], arg2[0], u64(0x0))
|
||||
x3, x4 := bits.sub_u64(arg1[1], arg2[1], u64(fiat.u1(x2)))
|
||||
x5, x6 := bits.sub_u64(arg1[2], arg2[2], u64(fiat.u1(x4)))
|
||||
x7, x8 := bits.sub_u64(arg1[3], arg2[3], u64(fiat.u1(x6)))
|
||||
x9 := fiat.cmovznz_u64(fiat.u1(x8), u64(0x0), 0xffffffffffffffff)
|
||||
x10, x11 := bits.add_u64(x1, (x9 & 0x5812631a5cf5d3ed), u64(0x0))
|
||||
x12, x13 := bits.add_u64(x3, (x9 & 0x14def9dea2f79cd6), u64(fiat.u1(x11)))
|
||||
x14, x15 := bits.add_u64(x5, u64(0x0), u64(fiat.u1(x13)))
|
||||
x16, _ := bits.add_u64(x7, (x9 & 0x1000000000000000), u64(fiat.u1(x15)))
|
||||
out1[0] = x10
|
||||
out1[1] = x12
|
||||
out1[2] = x14
|
||||
out1[3] = x16
|
||||
}
|
||||
|
||||
fe_opp :: proc "contextless" (out1, arg1: ^Montgomery_Domain_Field_Element) {
|
||||
x1, x2 := bits.sub_u64(u64(0x0), arg1[0], u64(0x0))
|
||||
x3, x4 := bits.sub_u64(u64(0x0), arg1[1], u64(fiat.u1(x2)))
|
||||
x5, x6 := bits.sub_u64(u64(0x0), arg1[2], u64(fiat.u1(x4)))
|
||||
x7, x8 := bits.sub_u64(u64(0x0), arg1[3], u64(fiat.u1(x6)))
|
||||
x9 := fiat.cmovznz_u64(fiat.u1(x8), u64(0x0), 0xffffffffffffffff)
|
||||
x10, x11 := bits.add_u64(x1, (x9 & 0x5812631a5cf5d3ed), u64(0x0))
|
||||
x12, x13 := bits.add_u64(x3, (x9 & 0x14def9dea2f79cd6), u64(fiat.u1(x11)))
|
||||
x14, x15 := bits.add_u64(x5, u64(0x0), u64(fiat.u1(x13)))
|
||||
x16, _ := bits.add_u64(x7, (x9 & 0x1000000000000000), u64(fiat.u1(x15)))
|
||||
out1[0] = x10
|
||||
out1[1] = x12
|
||||
out1[2] = x14
|
||||
out1[3] = x16
|
||||
}
|
||||
|
||||
fe_one :: proc "contextless" (out1: ^Montgomery_Domain_Field_Element) {
|
||||
out1[0] = 0xd6ec31748d98951d
|
||||
out1[1] = 0xc6ef5bf4737dcf70
|
||||
out1[2] = 0xfffffffffffffffe
|
||||
out1[3] = 0xfffffffffffffff
|
||||
}
|
||||
|
||||
fe_non_zero :: proc "contextless" (arg1: ^Montgomery_Domain_Field_Element) -> u64 {
|
||||
return arg1[0] | (arg1[1] | (arg1[2] | arg1[3]))
|
||||
}
|
||||
|
||||
@(optimization_mode = "none")
|
||||
fe_cond_assign :: #force_no_inline proc "contextless" (
|
||||
out1, arg1: ^Montgomery_Domain_Field_Element,
|
||||
arg2: int,
|
||||
) {
|
||||
x1 := fiat.cmovznz_u64(fiat.u1(arg2), out1[0], arg1[0])
|
||||
x2 := fiat.cmovznz_u64(fiat.u1(arg2), out1[1], arg1[1])
|
||||
x3 := fiat.cmovznz_u64(fiat.u1(arg2), out1[2], arg1[2])
|
||||
x4 := fiat.cmovznz_u64(fiat.u1(arg2), out1[3], arg1[3])
|
||||
out1[0] = x1
|
||||
out1[1] = x2
|
||||
out1[2] = x3
|
||||
out1[3] = x4
|
||||
}
|
||||
|
||||
fe_from_montgomery :: proc "contextless" (
|
||||
out1: ^Non_Montgomery_Domain_Field_Element,
|
||||
arg1: ^Montgomery_Domain_Field_Element,
|
||||
) {
|
||||
x1 := arg1[0]
|
||||
_, x2 := bits.mul_u64(x1, 0xd2b51da312547e1b)
|
||||
x5, x4 := bits.mul_u64(x2, 0x1000000000000000)
|
||||
x7, x6 := bits.mul_u64(x2, 0x14def9dea2f79cd6)
|
||||
x9, x8 := bits.mul_u64(x2, 0x5812631a5cf5d3ed)
|
||||
x10, x11 := bits.add_u64(x9, x6, u64(0x0))
|
||||
_, x13 := bits.add_u64(x1, x8, u64(0x0))
|
||||
x14, x15 := bits.add_u64(u64(0x0), x10, u64(fiat.u1(x13)))
|
||||
x16, x17 := bits.add_u64(x14, arg1[1], u64(0x0))
|
||||
_, x18 := bits.mul_u64(x16, 0xd2b51da312547e1b)
|
||||
x21, x20 := bits.mul_u64(x18, 0x1000000000000000)
|
||||
x23, x22 := bits.mul_u64(x18, 0x14def9dea2f79cd6)
|
||||
x25, x24 := bits.mul_u64(x18, 0x5812631a5cf5d3ed)
|
||||
x26, x27 := bits.add_u64(x25, x22, u64(0x0))
|
||||
_, x29 := bits.add_u64(x16, x24, u64(0x0))
|
||||
x30, x31 := bits.add_u64(
|
||||
(u64(fiat.u1(x17)) + (u64(fiat.u1(x15)) + (u64(fiat.u1(x11)) + x7))),
|
||||
x26,
|
||||
u64(fiat.u1(x29)),
|
||||
)
|
||||
x32, x33 := bits.add_u64(x4, (u64(fiat.u1(x27)) + x23), u64(fiat.u1(x31)))
|
||||
x34, x35 := bits.add_u64(x5, x20, u64(fiat.u1(x33)))
|
||||
x36, x37 := bits.add_u64(x30, arg1[2], u64(0x0))
|
||||
x38, x39 := bits.add_u64(x32, u64(0x0), u64(fiat.u1(x37)))
|
||||
x40, x41 := bits.add_u64(x34, u64(0x0), u64(fiat.u1(x39)))
|
||||
_, x42 := bits.mul_u64(x36, 0xd2b51da312547e1b)
|
||||
x45, x44 := bits.mul_u64(x42, 0x1000000000000000)
|
||||
x47, x46 := bits.mul_u64(x42, 0x14def9dea2f79cd6)
|
||||
x49, x48 := bits.mul_u64(x42, 0x5812631a5cf5d3ed)
|
||||
x50, x51 := bits.add_u64(x49, x46, u64(0x0))
|
||||
_, x53 := bits.add_u64(x36, x48, u64(0x0))
|
||||
x54, x55 := bits.add_u64(x38, x50, u64(fiat.u1(x53)))
|
||||
x56, x57 := bits.add_u64(x40, (u64(fiat.u1(x51)) + x47), u64(fiat.u1(x55)))
|
||||
x58, x59 := bits.add_u64(
|
||||
(u64(fiat.u1(x41)) + (u64(fiat.u1(x35)) + x21)),
|
||||
x44,
|
||||
u64(fiat.u1(x57)),
|
||||
)
|
||||
x60, x61 := bits.add_u64(x54, arg1[3], u64(0x0))
|
||||
x62, x63 := bits.add_u64(x56, u64(0x0), u64(fiat.u1(x61)))
|
||||
x64, x65 := bits.add_u64(x58, u64(0x0), u64(fiat.u1(x63)))
|
||||
_, x66 := bits.mul_u64(x60, 0xd2b51da312547e1b)
|
||||
x69, x68 := bits.mul_u64(x66, 0x1000000000000000)
|
||||
x71, x70 := bits.mul_u64(x66, 0x14def9dea2f79cd6)
|
||||
x73, x72 := bits.mul_u64(x66, 0x5812631a5cf5d3ed)
|
||||
x74, x75 := bits.add_u64(x73, x70, u64(0x0))
|
||||
_, x77 := bits.add_u64(x60, x72, u64(0x0))
|
||||
x78, x79 := bits.add_u64(x62, x74, u64(fiat.u1(x77)))
|
||||
x80, x81 := bits.add_u64(x64, (u64(fiat.u1(x75)) + x71), u64(fiat.u1(x79)))
|
||||
x82, x83 := bits.add_u64(
|
||||
(u64(fiat.u1(x65)) + (u64(fiat.u1(x59)) + x45)),
|
||||
x68,
|
||||
u64(fiat.u1(x81)),
|
||||
)
|
||||
x84 := (u64(fiat.u1(x83)) + x69)
|
||||
x85, x86 := bits.sub_u64(x78, 0x5812631a5cf5d3ed, u64(0x0))
|
||||
x87, x88 := bits.sub_u64(x80, 0x14def9dea2f79cd6, u64(fiat.u1(x86)))
|
||||
x89, x90 := bits.sub_u64(x82, u64(0x0), u64(fiat.u1(x88)))
|
||||
x91, x92 := bits.sub_u64(x84, 0x1000000000000000, u64(fiat.u1(x90)))
|
||||
_, x94 := bits.sub_u64(u64(0x0), u64(0x0), u64(fiat.u1(x92)))
|
||||
x95 := fiat.cmovznz_u64(fiat.u1(x94), x85, x78)
|
||||
x96 := fiat.cmovznz_u64(fiat.u1(x94), x87, x80)
|
||||
x97 := fiat.cmovznz_u64(fiat.u1(x94), x89, x82)
|
||||
x98 := fiat.cmovznz_u64(fiat.u1(x94), x91, x84)
|
||||
out1[0] = x95
|
||||
out1[1] = x96
|
||||
out1[2] = x97
|
||||
out1[3] = x98
|
||||
}
|
||||
|
||||
fe_to_montgomery :: proc "contextless" (
|
||||
out1: ^Montgomery_Domain_Field_Element,
|
||||
arg1: ^Non_Montgomery_Domain_Field_Element,
|
||||
) {
|
||||
x1 := arg1[1]
|
||||
x2 := arg1[2]
|
||||
x3 := arg1[3]
|
||||
x4 := arg1[0]
|
||||
x6, x5 := bits.mul_u64(x4, 0x399411b7c309a3d)
|
||||
x8, x7 := bits.mul_u64(x4, 0xceec73d217f5be65)
|
||||
x10, x9 := bits.mul_u64(x4, 0xd00e1ba768859347)
|
||||
x12, x11 := bits.mul_u64(x4, 0xa40611e3449c0f01)
|
||||
x13, x14 := bits.add_u64(x12, x9, u64(0x0))
|
||||
x15, x16 := bits.add_u64(x10, x7, u64(fiat.u1(x14)))
|
||||
x17, x18 := bits.add_u64(x8, x5, u64(fiat.u1(x16)))
|
||||
_, x19 := bits.mul_u64(x11, 0xd2b51da312547e1b)
|
||||
x22, x21 := bits.mul_u64(x19, 0x1000000000000000)
|
||||
x24, x23 := bits.mul_u64(x19, 0x14def9dea2f79cd6)
|
||||
x26, x25 := bits.mul_u64(x19, 0x5812631a5cf5d3ed)
|
||||
x27, x28 := bits.add_u64(x26, x23, u64(0x0))
|
||||
_, x30 := bits.add_u64(x11, x25, u64(0x0))
|
||||
x31, x32 := bits.add_u64(x13, x27, u64(fiat.u1(x30)))
|
||||
x33, x34 := bits.add_u64(x15, (u64(fiat.u1(x28)) + x24), u64(fiat.u1(x32)))
|
||||
x35, x36 := bits.add_u64(x17, x21, u64(fiat.u1(x34)))
|
||||
x38, x37 := bits.mul_u64(x1, 0x399411b7c309a3d)
|
||||
x40, x39 := bits.mul_u64(x1, 0xceec73d217f5be65)
|
||||
x42, x41 := bits.mul_u64(x1, 0xd00e1ba768859347)
|
||||
x44, x43 := bits.mul_u64(x1, 0xa40611e3449c0f01)
|
||||
x45, x46 := bits.add_u64(x44, x41, u64(0x0))
|
||||
x47, x48 := bits.add_u64(x42, x39, u64(fiat.u1(x46)))
|
||||
x49, x50 := bits.add_u64(x40, x37, u64(fiat.u1(x48)))
|
||||
x51, x52 := bits.add_u64(x31, x43, u64(0x0))
|
||||
x53, x54 := bits.add_u64(x33, x45, u64(fiat.u1(x52)))
|
||||
x55, x56 := bits.add_u64(x35, x47, u64(fiat.u1(x54)))
|
||||
x57, x58 := bits.add_u64(
|
||||
((u64(fiat.u1(x36)) + (u64(fiat.u1(x18)) + x6)) + x22),
|
||||
x49,
|
||||
u64(fiat.u1(x56)),
|
||||
)
|
||||
_, x59 := bits.mul_u64(x51, 0xd2b51da312547e1b)
|
||||
x62, x61 := bits.mul_u64(x59, 0x1000000000000000)
|
||||
x64, x63 := bits.mul_u64(x59, 0x14def9dea2f79cd6)
|
||||
x66, x65 := bits.mul_u64(x59, 0x5812631a5cf5d3ed)
|
||||
x67, x68 := bits.add_u64(x66, x63, u64(0x0))
|
||||
_, x70 := bits.add_u64(x51, x65, u64(0x0))
|
||||
x71, x72 := bits.add_u64(x53, x67, u64(fiat.u1(x70)))
|
||||
x73, x74 := bits.add_u64(x55, (u64(fiat.u1(x68)) + x64), u64(fiat.u1(x72)))
|
||||
x75, x76 := bits.add_u64(x57, x61, u64(fiat.u1(x74)))
|
||||
x78, x77 := bits.mul_u64(x2, 0x399411b7c309a3d)
|
||||
x80, x79 := bits.mul_u64(x2, 0xceec73d217f5be65)
|
||||
x82, x81 := bits.mul_u64(x2, 0xd00e1ba768859347)
|
||||
x84, x83 := bits.mul_u64(x2, 0xa40611e3449c0f01)
|
||||
x85, x86 := bits.add_u64(x84, x81, u64(0x0))
|
||||
x87, x88 := bits.add_u64(x82, x79, u64(fiat.u1(x86)))
|
||||
x89, x90 := bits.add_u64(x80, x77, u64(fiat.u1(x88)))
|
||||
x91, x92 := bits.add_u64(x71, x83, u64(0x0))
|
||||
x93, x94 := bits.add_u64(x73, x85, u64(fiat.u1(x92)))
|
||||
x95, x96 := bits.add_u64(x75, x87, u64(fiat.u1(x94)))
|
||||
x97, x98 := bits.add_u64(
|
||||
((u64(fiat.u1(x76)) + (u64(fiat.u1(x58)) + (u64(fiat.u1(x50)) + x38))) + x62),
|
||||
x89,
|
||||
u64(fiat.u1(x96)),
|
||||
)
|
||||
_, x99 := bits.mul_u64(x91, 0xd2b51da312547e1b)
|
||||
x102, x101 := bits.mul_u64(x99, 0x1000000000000000)
|
||||
x104, x103 := bits.mul_u64(x99, 0x14def9dea2f79cd6)
|
||||
x106, x105 := bits.mul_u64(x99, 0x5812631a5cf5d3ed)
|
||||
x107, x108 := bits.add_u64(x106, x103, u64(0x0))
|
||||
_, x110 := bits.add_u64(x91, x105, u64(0x0))
|
||||
x111, x112 := bits.add_u64(x93, x107, u64(fiat.u1(x110)))
|
||||
x113, x114 := bits.add_u64(x95, (u64(fiat.u1(x108)) + x104), u64(fiat.u1(x112)))
|
||||
x115, x116 := bits.add_u64(x97, x101, u64(fiat.u1(x114)))
|
||||
x118, x117 := bits.mul_u64(x3, 0x399411b7c309a3d)
|
||||
x120, x119 := bits.mul_u64(x3, 0xceec73d217f5be65)
|
||||
x122, x121 := bits.mul_u64(x3, 0xd00e1ba768859347)
|
||||
x124, x123 := bits.mul_u64(x3, 0xa40611e3449c0f01)
|
||||
x125, x126 := bits.add_u64(x124, x121, u64(0x0))
|
||||
x127, x128 := bits.add_u64(x122, x119, u64(fiat.u1(x126)))
|
||||
x129, x130 := bits.add_u64(x120, x117, u64(fiat.u1(x128)))
|
||||
x131, x132 := bits.add_u64(x111, x123, u64(0x0))
|
||||
x133, x134 := bits.add_u64(x113, x125, u64(fiat.u1(x132)))
|
||||
x135, x136 := bits.add_u64(x115, x127, u64(fiat.u1(x134)))
|
||||
x137, x138 := bits.add_u64(
|
||||
((u64(fiat.u1(x116)) + (u64(fiat.u1(x98)) + (u64(fiat.u1(x90)) + x78))) + x102),
|
||||
x129,
|
||||
u64(fiat.u1(x136)),
|
||||
)
|
||||
_, x139 := bits.mul_u64(x131, 0xd2b51da312547e1b)
|
||||
x142, x141 := bits.mul_u64(x139, 0x1000000000000000)
|
||||
x144, x143 := bits.mul_u64(x139, 0x14def9dea2f79cd6)
|
||||
x146, x145 := bits.mul_u64(x139, 0x5812631a5cf5d3ed)
|
||||
x147, x148 := bits.add_u64(x146, x143, u64(0x0))
|
||||
_, x150 := bits.add_u64(x131, x145, u64(0x0))
|
||||
x151, x152 := bits.add_u64(x133, x147, u64(fiat.u1(x150)))
|
||||
x153, x154 := bits.add_u64(x135, (u64(fiat.u1(x148)) + x144), u64(fiat.u1(x152)))
|
||||
x155, x156 := bits.add_u64(x137, x141, u64(fiat.u1(x154)))
|
||||
x157 := ((u64(fiat.u1(x156)) + (u64(fiat.u1(x138)) + (u64(fiat.u1(x130)) + x118))) + x142)
|
||||
x158, x159 := bits.sub_u64(x151, 0x5812631a5cf5d3ed, u64(0x0))
|
||||
x160, x161 := bits.sub_u64(x153, 0x14def9dea2f79cd6, u64(fiat.u1(x159)))
|
||||
x162, x163 := bits.sub_u64(x155, u64(0x0), u64(fiat.u1(x161)))
|
||||
x164, x165 := bits.sub_u64(x157, 0x1000000000000000, u64(fiat.u1(x163)))
|
||||
_, x167 := bits.sub_u64(u64(0x0), u64(0x0), u64(fiat.u1(x165)))
|
||||
x168 := fiat.cmovznz_u64(fiat.u1(x167), x158, x151)
|
||||
x169 := fiat.cmovznz_u64(fiat.u1(x167), x160, x153)
|
||||
x170 := fiat.cmovznz_u64(fiat.u1(x167), x162, x155)
|
||||
x171 := fiat.cmovznz_u64(fiat.u1(x167), x164, x157)
|
||||
out1[0] = x168
|
||||
out1[1] = x169
|
||||
out1[2] = x170
|
||||
out1[3] = x171
|
||||
}
|
||||
+109
-78
@@ -7,50 +7,69 @@ package _sha3
|
||||
List of contributors:
|
||||
zhibog, dotbmp: Initial implementation.
|
||||
|
||||
Implementation of the Keccak hashing algorithm, standardized as SHA3 in <https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.202.pdf>
|
||||
To use the original Keccak padding, set the is_keccak bool to true, otherwise it will use SHA3 padding.
|
||||
Implementation of the Keccak hashing algorithm, standardized as SHA3
|
||||
in <https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.202.pdf>.
|
||||
|
||||
As the only difference between the legacy Keccak and SHA3 is the domain
|
||||
separation byte, set dsbyte to the appropriate value to pick the desired
|
||||
algorithm.
|
||||
*/
|
||||
|
||||
import "core:math/bits"
|
||||
import "core:mem"
|
||||
|
||||
ROUNDS :: 24
|
||||
|
||||
Sha3_Context :: struct {
|
||||
st: struct #raw_union {
|
||||
RATE_128 :: 1344 / 8 // ONLY for SHAKE128.
|
||||
RATE_224 :: 1152 / 8
|
||||
RATE_256 :: 1088 / 8
|
||||
RATE_384 :: 832 / 8
|
||||
RATE_512 :: 576 / 8
|
||||
|
||||
DS_KECCAK :: 0x01
|
||||
DS_SHA3 :: 0x06
|
||||
DS_SHAKE :: 0x1f
|
||||
DS_CSHAKE :: 0x04
|
||||
|
||||
Context :: struct {
|
||||
st: struct #raw_union {
|
||||
b: [200]u8,
|
||||
q: [25]u64,
|
||||
},
|
||||
pt: int,
|
||||
rsiz: int,
|
||||
mdlen: int,
|
||||
is_keccak: bool,
|
||||
|
||||
pt: int,
|
||||
rsiz: int,
|
||||
mdlen: int,
|
||||
dsbyte: byte,
|
||||
is_initialized: bool,
|
||||
is_finalized: bool, // For SHAKE (unlimited squeeze is allowed)
|
||||
}
|
||||
|
||||
@(private)
|
||||
keccakf_rndc := [?]u64 {
|
||||
0x0000000000000001, 0x0000000000008082, 0x800000000000808a,
|
||||
0x8000000080008000, 0x000000000000808b, 0x0000000080000001,
|
||||
0x8000000080008081, 0x8000000000008009, 0x000000000000008a,
|
||||
0x0000000000000088, 0x0000000080008009, 0x000000008000000a,
|
||||
0x000000008000808b, 0x800000000000008b, 0x8000000000008089,
|
||||
0x8000000000008003, 0x8000000000008002, 0x8000000000000080,
|
||||
0x000000000000800a, 0x800000008000000a, 0x8000000080008081,
|
||||
0x8000000000008080, 0x0000000080000001, 0x8000000080008008,
|
||||
}
|
||||
|
||||
@(private)
|
||||
keccakf_rotc := [?]int {
|
||||
1, 3, 6, 10, 15, 21, 28, 36, 45, 55, 2, 14,
|
||||
27, 41, 56, 8, 25, 43, 62, 18, 39, 61, 20, 44,
|
||||
}
|
||||
|
||||
@(private)
|
||||
keccakf_piln := [?]i32 {
|
||||
10, 7, 11, 17, 18, 3, 5, 16, 8, 21, 24, 4,
|
||||
15, 23, 19, 13, 12, 2, 20, 14, 22, 9, 6, 1,
|
||||
}
|
||||
|
||||
@(private)
|
||||
keccakf :: proc "contextless" (st: ^[25]u64) {
|
||||
keccakf_rndc := [?]u64 {
|
||||
0x0000000000000001, 0x0000000000008082, 0x800000000000808a,
|
||||
0x8000000080008000, 0x000000000000808b, 0x0000000080000001,
|
||||
0x8000000080008081, 0x8000000000008009, 0x000000000000008a,
|
||||
0x0000000000000088, 0x0000000080008009, 0x000000008000000a,
|
||||
0x000000008000808b, 0x800000000000008b, 0x8000000000008089,
|
||||
0x8000000000008003, 0x8000000000008002, 0x8000000000000080,
|
||||
0x000000000000800a, 0x800000008000000a, 0x8000000080008081,
|
||||
0x8000000000008080, 0x0000000080000001, 0x8000000080008008,
|
||||
}
|
||||
|
||||
keccakf_rotc := [?]int {
|
||||
1, 3, 6, 10, 15, 21, 28, 36, 45, 55, 2, 14,
|
||||
27, 41, 56, 8, 25, 43, 62, 18, 39, 61, 20, 44,
|
||||
}
|
||||
|
||||
keccakf_piln := [?]i32 {
|
||||
10, 7, 11, 17, 18, 3, 5, 16, 8, 21, 24, 4,
|
||||
15, 23, 19, 13, 12, 2, 20, 14, 22, 9, 6, 1,
|
||||
}
|
||||
|
||||
i, j, r: i32 = ---, ---, ---
|
||||
t: u64 = ---
|
||||
bc: [5]u64 = ---
|
||||
@@ -103,81 +122,93 @@ keccakf :: proc "contextless" (st: ^[25]u64) {
|
||||
}
|
||||
}
|
||||
|
||||
init :: proc(c: ^Sha3_Context) {
|
||||
init :: proc(ctx: ^Context) {
|
||||
for i := 0; i < 25; i += 1 {
|
||||
c.st.q[i] = 0
|
||||
ctx.st.q[i] = 0
|
||||
}
|
||||
c.rsiz = 200 - 2 * c.mdlen
|
||||
c.pt = 0
|
||||
ctx.rsiz = 200 - 2 * ctx.mdlen
|
||||
ctx.pt = 0
|
||||
|
||||
c.is_initialized = true
|
||||
c.is_finalized = false
|
||||
ctx.is_initialized = true
|
||||
ctx.is_finalized = false
|
||||
}
|
||||
|
||||
update :: proc(c: ^Sha3_Context, data: []byte) {
|
||||
assert(c.is_initialized)
|
||||
assert(!c.is_finalized)
|
||||
update :: proc(ctx: ^Context, data: []byte) {
|
||||
assert(ctx.is_initialized)
|
||||
assert(!ctx.is_finalized)
|
||||
|
||||
j := c.pt
|
||||
j := ctx.pt
|
||||
for i := 0; i < len(data); i += 1 {
|
||||
c.st.b[j] ~= data[i]
|
||||
ctx.st.b[j] ~= data[i]
|
||||
j += 1
|
||||
if j >= c.rsiz {
|
||||
keccakf(&c.st.q)
|
||||
if j >= ctx.rsiz {
|
||||
keccakf(&ctx.st.q)
|
||||
j = 0
|
||||
}
|
||||
}
|
||||
c.pt = j
|
||||
ctx.pt = j
|
||||
}
|
||||
|
||||
final :: proc(c: ^Sha3_Context, hash: []byte) {
|
||||
assert(c.is_initialized)
|
||||
final :: proc(ctx: ^Context, hash: []byte, finalize_clone: bool = false) {
|
||||
assert(ctx.is_initialized)
|
||||
|
||||
if len(hash) < c.mdlen {
|
||||
if c.is_keccak {
|
||||
panic("crypto/keccac: invalid destination digest size")
|
||||
}
|
||||
if len(hash) < ctx.mdlen {
|
||||
panic("crypto/sha3: invalid destination digest size")
|
||||
}
|
||||
if c.is_keccak {
|
||||
c.st.b[c.pt] ~= 0x01
|
||||
} else {
|
||||
c.st.b[c.pt] ~= 0x06
|
||||
}
|
||||
|
||||
c.st.b[c.rsiz - 1] ~= 0x80
|
||||
keccakf(&c.st.q)
|
||||
for i := 0; i < c.mdlen; i += 1 {
|
||||
hash[i] = c.st.b[i]
|
||||
ctx := ctx
|
||||
if finalize_clone {
|
||||
tmp_ctx: Context
|
||||
clone(&tmp_ctx, ctx)
|
||||
ctx = &tmp_ctx
|
||||
}
|
||||
defer (reset(ctx))
|
||||
|
||||
c.is_initialized = false // No more absorb, no more squeeze.
|
||||
ctx.st.b[ctx.pt] ~= ctx.dsbyte
|
||||
|
||||
ctx.st.b[ctx.rsiz - 1] ~= 0x80
|
||||
keccakf(&ctx.st.q)
|
||||
for i := 0; i < ctx.mdlen; i += 1 {
|
||||
hash[i] = ctx.st.b[i]
|
||||
}
|
||||
}
|
||||
|
||||
shake_xof :: proc(c: ^Sha3_Context) {
|
||||
assert(c.is_initialized)
|
||||
assert(!c.is_finalized)
|
||||
|
||||
c.st.b[c.pt] ~= 0x1F
|
||||
c.st.b[c.rsiz - 1] ~= 0x80
|
||||
keccakf(&c.st.q)
|
||||
c.pt = 0
|
||||
|
||||
c.is_finalized = true // No more absorb, unlimited squeeze.
|
||||
clone :: proc(ctx, other: ^Context) {
|
||||
ctx^ = other^
|
||||
}
|
||||
|
||||
shake_out :: proc(c: ^Sha3_Context, hash: []byte) {
|
||||
assert(c.is_initialized)
|
||||
assert(c.is_finalized)
|
||||
reset :: proc(ctx: ^Context) {
|
||||
if !ctx.is_initialized {
|
||||
return
|
||||
}
|
||||
|
||||
j := c.pt
|
||||
mem.zero_explicit(ctx, size_of(ctx^))
|
||||
}
|
||||
|
||||
shake_xof :: proc(ctx: ^Context) {
|
||||
assert(ctx.is_initialized)
|
||||
assert(!ctx.is_finalized)
|
||||
|
||||
ctx.st.b[ctx.pt] ~= ctx.dsbyte
|
||||
ctx.st.b[ctx.rsiz - 1] ~= 0x80
|
||||
keccakf(&ctx.st.q)
|
||||
ctx.pt = 0
|
||||
|
||||
ctx.is_finalized = true // No more absorb, unlimited squeeze.
|
||||
}
|
||||
|
||||
shake_out :: proc(ctx: ^Context, hash: []byte) {
|
||||
assert(ctx.is_initialized)
|
||||
assert(ctx.is_finalized)
|
||||
|
||||
j := ctx.pt
|
||||
for i := 0; i < len(hash); i += 1 {
|
||||
if j >= c.rsiz {
|
||||
keccakf(&c.st.q)
|
||||
if j >= ctx.rsiz {
|
||||
keccakf(&ctx.st.q)
|
||||
j = 0
|
||||
}
|
||||
hash[i] = c.st.b[j]
|
||||
hash[i] = ctx.st.b[j]
|
||||
j += 1
|
||||
}
|
||||
c.pt = j
|
||||
ctx.pt = j
|
||||
}
|
||||
|
||||
@@ -0,0 +1,145 @@
|
||||
package _sha3
|
||||
|
||||
import "core:encoding/endian"
|
||||
import "core:math/bits"
|
||||
|
||||
init_cshake :: proc(ctx: ^Context, n, s: []byte, sec_strength: int) {
|
||||
ctx.mdlen = sec_strength / 8
|
||||
|
||||
// No domain separator is equivalent to vanilla SHAKE.
|
||||
if len(n) == 0 && len(s) == 0 {
|
||||
ctx.dsbyte = DS_SHAKE
|
||||
init(ctx)
|
||||
return
|
||||
}
|
||||
|
||||
ctx.dsbyte = DS_CSHAKE
|
||||
init(ctx)
|
||||
bytepad(ctx, [][]byte{n, s}, rate_cshake(sec_strength))
|
||||
}
|
||||
|
||||
final_cshake :: proc(ctx: ^Context, dst: []byte, finalize_clone: bool = false) {
|
||||
ctx := ctx
|
||||
if finalize_clone {
|
||||
tmp_ctx: Context
|
||||
clone(&tmp_ctx, ctx)
|
||||
ctx = &tmp_ctx
|
||||
}
|
||||
defer reset(ctx)
|
||||
|
||||
encode_byte_len(ctx, len(dst), false) // right_encode
|
||||
shake_xof(ctx)
|
||||
shake_out(ctx, dst)
|
||||
}
|
||||
|
||||
rate_cshake :: #force_inline proc(sec_strength: int) -> int {
|
||||
switch sec_strength {
|
||||
case 128:
|
||||
return RATE_128
|
||||
case 256:
|
||||
return RATE_256
|
||||
}
|
||||
|
||||
panic("crypto/sha3: invalid security strength")
|
||||
}
|
||||
|
||||
// right_encode and left_encode are defined to support 0 <= x < 2^2040
|
||||
// however, the largest value we will ever need to encode is `max(int) * 8`.
|
||||
//
|
||||
// This is unfortunate as the extreme upper edge is larger than
|
||||
// `max(u64)`. While such values are impractical at present,
|
||||
// they are possible (ie: https://arxiv.org/pdf/quant-ph/9908043.pdf).
|
||||
//
|
||||
// Thus we support 0 <= x < 2^128.
|
||||
|
||||
@(private)
|
||||
_PAD: [RATE_128]byte // Biggest possible value of w per spec.
|
||||
|
||||
bytepad :: proc(ctx: ^Context, x_strings: [][]byte, w: int) {
|
||||
// 1. z = left_encode(w) || X.
|
||||
z_hi: u64
|
||||
z_lo := left_right_encode(ctx, 0, u64(w), true)
|
||||
for x in x_strings {
|
||||
// All uses of bytepad in SP 800-185 use the output from
|
||||
// one or more encode_string values for `X`.
|
||||
hi, lo := encode_string(ctx, x)
|
||||
|
||||
carry: u64
|
||||
z_lo, carry = bits.add_u64(z_lo, lo, 0)
|
||||
z_hi, carry = bits.add_u64(z_hi, hi, carry)
|
||||
|
||||
// This isn't actually possible, at least with the currently
|
||||
// defined SP 800-185 routines.
|
||||
if carry != 0 {
|
||||
panic("crypto/sha3: bytepad input length overflow")
|
||||
}
|
||||
}
|
||||
|
||||
// We skip this step as we are doing a byte-oriented implementation
|
||||
// rather than a bit oriented one.
|
||||
//
|
||||
// 2. while len(z) mod 8 ≠ 0:
|
||||
// z = z || 0
|
||||
|
||||
// 3. while (len(z)/8) mod w ≠ 0:
|
||||
// z = z || 00000000
|
||||
z_len := u128(z_hi) << 64 | u128(z_lo)
|
||||
z_rem := int(z_len % u128(w))
|
||||
pad := _PAD[:w - z_rem]
|
||||
|
||||
// We just add the padding to the state, instead of returning z.
|
||||
//
|
||||
// 4. return z.
|
||||
update(ctx, pad)
|
||||
}
|
||||
|
||||
encode_string :: #force_inline proc(ctx: ^Context, s: []byte) -> (u64, u64) {
|
||||
l := encode_byte_len(ctx, len(s), true) // left_encode
|
||||
update(ctx, s)
|
||||
|
||||
lo, hi := bits.add_u64(l, u64(len(s)), 0)
|
||||
|
||||
return hi, lo
|
||||
}
|
||||
|
||||
encode_byte_len :: #force_inline proc(ctx: ^Context, l: int, is_left: bool) -> u64 {
|
||||
hi, lo := bits.mul_u64(u64(l), 8)
|
||||
return left_right_encode(ctx, hi, lo, is_left)
|
||||
}
|
||||
|
||||
@(private)
|
||||
left_right_encode :: proc(ctx: ^Context, hi, lo: u64, is_left: bool) -> u64 {
|
||||
HI_OFFSET :: 1
|
||||
LO_OFFSET :: HI_OFFSET + 8
|
||||
RIGHT_OFFSET :: LO_OFFSET + 8
|
||||
BUF_LEN :: RIGHT_OFFSET + 1
|
||||
|
||||
buf: [BUF_LEN]byte // prefix + largest uint + postfix
|
||||
|
||||
endian.unchecked_put_u64be(buf[HI_OFFSET:], hi)
|
||||
endian.unchecked_put_u64be(buf[LO_OFFSET:], lo)
|
||||
|
||||
// 2. Strip leading `0x00` bytes.
|
||||
off: int
|
||||
for off = HI_OFFSET; off < RIGHT_OFFSET - 1; off = off + 1 {// Note: Minimum size is 1, not 0.
|
||||
if buf[off] != 0 {
|
||||
break
|
||||
}
|
||||
}
|
||||
n := byte(RIGHT_OFFSET - off)
|
||||
|
||||
// 3. Prefix (left_encode) or postfix (right_encode) the length in bytes.
|
||||
b: []byte
|
||||
switch is_left {
|
||||
case true:
|
||||
buf[off - 1] = n // n | x
|
||||
b = buf[off - 1:RIGHT_OFFSET]
|
||||
case false:
|
||||
buf[RIGHT_OFFSET] = n // x | n
|
||||
b = buf[off:]
|
||||
}
|
||||
|
||||
update(ctx, b)
|
||||
|
||||
return u64(len(b))
|
||||
}
|
||||
@@ -1,3 +1,10 @@
|
||||
/*
|
||||
package blake2b implements the BLAKE2b hash algorithm.
|
||||
|
||||
See:
|
||||
- https://datatracker.ietf.org/doc/html/rfc7693
|
||||
- https://www.blake2.net
|
||||
*/
|
||||
package blake2b
|
||||
|
||||
/*
|
||||
@@ -6,122 +13,47 @@ package blake2b
|
||||
|
||||
List of contributors:
|
||||
zhibog, dotbmp: Initial implementation.
|
||||
|
||||
Interface for the BLAKE2b hashing algorithm.
|
||||
BLAKE2b and BLAKE2s share the implementation in the _blake2 package.
|
||||
*/
|
||||
|
||||
import "core:io"
|
||||
import "core:os"
|
||||
|
||||
import "../_blake2"
|
||||
|
||||
/*
|
||||
High level API
|
||||
*/
|
||||
|
||||
// DIGEST_SIZE is the BLAKE2b digest size in bytes.
|
||||
DIGEST_SIZE :: 64
|
||||
|
||||
// hash_string will hash the given input and return the
|
||||
// computed hash
|
||||
hash_string :: proc(data: string) -> [DIGEST_SIZE]byte {
|
||||
return hash_bytes(transmute([]byte)(data))
|
||||
}
|
||||
|
||||
// hash_bytes will hash the given input and return the
|
||||
// computed hash
|
||||
hash_bytes :: proc(data: []byte) -> [DIGEST_SIZE]byte {
|
||||
hash: [DIGEST_SIZE]byte
|
||||
ctx: Context
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2B_SIZE
|
||||
ctx.cfg = cfg
|
||||
init(&ctx)
|
||||
update(&ctx, data)
|
||||
final(&ctx, hash[:])
|
||||
return hash
|
||||
}
|
||||
|
||||
// hash_string_to_buffer will hash the given input and assign the
|
||||
// computed hash to the second parameter.
|
||||
// It requires that the destination buffer is at least as big as the digest size
|
||||
hash_string_to_buffer :: proc(data: string, hash: []byte) {
|
||||
hash_bytes_to_buffer(transmute([]byte)(data), hash)
|
||||
}
|
||||
|
||||
// hash_bytes_to_buffer will hash the given input and write the
|
||||
// computed hash into the second parameter.
|
||||
// It requires that the destination buffer is at least as big as the digest size
|
||||
hash_bytes_to_buffer :: proc(data, hash: []byte) {
|
||||
ctx: Context
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2B_SIZE
|
||||
ctx.cfg = cfg
|
||||
init(&ctx)
|
||||
update(&ctx, data)
|
||||
final(&ctx, hash)
|
||||
}
|
||||
|
||||
// hash_stream will read the stream in chunks and compute a
|
||||
// hash from its contents
|
||||
hash_stream :: proc(s: io.Stream) -> ([DIGEST_SIZE]byte, bool) {
|
||||
hash: [DIGEST_SIZE]byte
|
||||
ctx: Context
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2B_SIZE
|
||||
ctx.cfg = cfg
|
||||
init(&ctx)
|
||||
|
||||
buf := make([]byte, 512)
|
||||
defer delete(buf)
|
||||
|
||||
read := 1
|
||||
for read > 0 {
|
||||
read, _ = io.read(s, buf)
|
||||
if read > 0 {
|
||||
update(&ctx, buf[:read])
|
||||
}
|
||||
}
|
||||
final(&ctx, hash[:])
|
||||
return hash, true
|
||||
}
|
||||
|
||||
// hash_file will read the file provided by the given handle
|
||||
// and compute a hash
|
||||
hash_file :: proc(hd: os.Handle, load_at_once := false) -> ([DIGEST_SIZE]byte, bool) {
|
||||
if !load_at_once {
|
||||
return hash_stream(os.stream_from_handle(hd))
|
||||
} else {
|
||||
if buf, ok := os.read_entire_file(hd); ok {
|
||||
return hash_bytes(buf[:]), ok
|
||||
}
|
||||
}
|
||||
return [DIGEST_SIZE]byte{}, false
|
||||
}
|
||||
|
||||
hash :: proc {
|
||||
hash_stream,
|
||||
hash_file,
|
||||
hash_bytes,
|
||||
hash_string,
|
||||
hash_bytes_to_buffer,
|
||||
hash_string_to_buffer,
|
||||
}
|
||||
|
||||
/*
|
||||
Low level API
|
||||
*/
|
||||
// BLOCK_SIZE is the BLAKE2b block size in bytes.
|
||||
BLOCK_SIZE :: _blake2.BLAKE2B_BLOCK_SIZE
|
||||
|
||||
// Context is a BLAKE2b instance.
|
||||
Context :: _blake2.Blake2b_Context
|
||||
|
||||
// init initializes a Context with the default BLAKE2b config.
|
||||
init :: proc(ctx: ^Context) {
|
||||
_blake2.init(ctx)
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2B_SIZE
|
||||
_blake2.init(ctx, &cfg)
|
||||
}
|
||||
|
||||
// update adds more data to the Context.
|
||||
update :: proc(ctx: ^Context, data: []byte) {
|
||||
_blake2.update(ctx, data)
|
||||
}
|
||||
|
||||
final :: proc(ctx: ^Context, hash: []byte) {
|
||||
_blake2.final(ctx, hash)
|
||||
// final finalizes the Context, writes the digest to hash, and calls
|
||||
// reset on the Context.
|
||||
//
|
||||
// Iff finalize_clone is set, final will work on a copy of the Context,
|
||||
// which is useful for for calculating rolling digests.
|
||||
final :: proc(ctx: ^Context, hash: []byte, finalize_clone: bool = false) {
|
||||
_blake2.final(ctx, hash, finalize_clone)
|
||||
}
|
||||
|
||||
// clone clones the Context other into ctx.
|
||||
clone :: proc(ctx, other: ^Context) {
|
||||
_blake2.clone(ctx, other)
|
||||
}
|
||||
|
||||
// reset sanitizes the Context. The Context must be re-initialized to
|
||||
// be used again.
|
||||
reset :: proc(ctx: ^Context) {
|
||||
_blake2.reset(ctx)
|
||||
}
|
||||
|
||||
@@ -1,3 +1,10 @@
|
||||
/*
|
||||
package blake2s implements the BLAKE2s hash algorithm.
|
||||
|
||||
See:
|
||||
- https://datatracker.ietf.org/doc/html/rfc7693
|
||||
- https://www.blake2.net/
|
||||
*/
|
||||
package blake2s
|
||||
|
||||
/*
|
||||
@@ -6,122 +13,47 @@ package blake2s
|
||||
|
||||
List of contributors:
|
||||
zhibog, dotbmp: Initial implementation.
|
||||
|
||||
Interface for the BLAKE2s hashing algorithm.
|
||||
BLAKE2s and BLAKE2b share the implementation in the _blake2 package.
|
||||
*/
|
||||
|
||||
import "core:io"
|
||||
import "core:os"
|
||||
|
||||
import "../_blake2"
|
||||
|
||||
/*
|
||||
High level API
|
||||
*/
|
||||
|
||||
// DIGEST_SIZE is the BLAKE2s digest size in bytes.
|
||||
DIGEST_SIZE :: 32
|
||||
|
||||
// hash_string will hash the given input and return the
|
||||
// computed hash
|
||||
hash_string :: proc(data: string) -> [DIGEST_SIZE]byte {
|
||||
return hash_bytes(transmute([]byte)(data))
|
||||
}
|
||||
|
||||
// hash_bytes will hash the given input and return the
|
||||
// computed hash
|
||||
hash_bytes :: proc(data: []byte) -> [DIGEST_SIZE]byte {
|
||||
hash: [DIGEST_SIZE]byte
|
||||
ctx: Context
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2S_SIZE
|
||||
ctx.cfg = cfg
|
||||
init(&ctx)
|
||||
update(&ctx, data)
|
||||
final(&ctx, hash[:])
|
||||
return hash
|
||||
}
|
||||
|
||||
// hash_string_to_buffer will hash the given input and assign the
|
||||
// computed hash to the second parameter.
|
||||
// It requires that the destination buffer is at least as big as the digest size
|
||||
hash_string_to_buffer :: proc(data: string, hash: []byte) {
|
||||
hash_bytes_to_buffer(transmute([]byte)(data), hash)
|
||||
}
|
||||
|
||||
// hash_bytes_to_buffer will hash the given input and write the
|
||||
// computed hash into the second parameter.
|
||||
// It requires that the destination buffer is at least as big as the digest size
|
||||
hash_bytes_to_buffer :: proc(data, hash: []byte) {
|
||||
ctx: Context
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2S_SIZE
|
||||
ctx.cfg = cfg
|
||||
init(&ctx)
|
||||
update(&ctx, data)
|
||||
final(&ctx, hash)
|
||||
}
|
||||
|
||||
// hash_stream will read the stream in chunks and compute a
|
||||
// hash from its contents
|
||||
hash_stream :: proc(s: io.Stream) -> ([DIGEST_SIZE]byte, bool) {
|
||||
hash: [DIGEST_SIZE]byte
|
||||
ctx: Context
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2S_SIZE
|
||||
ctx.cfg = cfg
|
||||
init(&ctx)
|
||||
|
||||
buf := make([]byte, 512)
|
||||
defer delete(buf)
|
||||
|
||||
read := 1
|
||||
for read > 0 {
|
||||
read, _ = io.read(s, buf)
|
||||
if read > 0 {
|
||||
update(&ctx, buf[:read])
|
||||
}
|
||||
}
|
||||
final(&ctx, hash[:])
|
||||
return hash, true
|
||||
}
|
||||
|
||||
// hash_file will read the file provided by the given handle
|
||||
// and compute a hash
|
||||
hash_file :: proc(hd: os.Handle, load_at_once := false) -> ([DIGEST_SIZE]byte, bool) {
|
||||
if !load_at_once {
|
||||
return hash_stream(os.stream_from_handle(hd))
|
||||
} else {
|
||||
if buf, ok := os.read_entire_file(hd); ok {
|
||||
return hash_bytes(buf[:]), ok
|
||||
}
|
||||
}
|
||||
return [DIGEST_SIZE]byte{}, false
|
||||
}
|
||||
|
||||
hash :: proc {
|
||||
hash_stream,
|
||||
hash_file,
|
||||
hash_bytes,
|
||||
hash_string,
|
||||
hash_bytes_to_buffer,
|
||||
hash_string_to_buffer,
|
||||
}
|
||||
|
||||
/*
|
||||
Low level API
|
||||
*/
|
||||
// BLOCK_SIZE is the BLAKE2s block size in bytes.
|
||||
BLOCK_SIZE :: _blake2.BLAKE2S_BLOCK_SIZE
|
||||
|
||||
// Context is a BLAKE2s instance.
|
||||
Context :: _blake2.Blake2s_Context
|
||||
|
||||
// init initializes a Context with the default BLAKE2s config.
|
||||
init :: proc(ctx: ^Context) {
|
||||
_blake2.init(ctx)
|
||||
cfg: _blake2.Blake2_Config
|
||||
cfg.size = _blake2.BLAKE2S_SIZE
|
||||
_blake2.init(ctx, &cfg)
|
||||
}
|
||||
|
||||
// update adds more data to the Context.
|
||||
update :: proc(ctx: ^Context, data: []byte) {
|
||||
_blake2.update(ctx, data)
|
||||
}
|
||||
|
||||
final :: proc(ctx: ^Context, hash: []byte) {
|
||||
_blake2.final(ctx, hash)
|
||||
// final finalizes the Context, writes the digest to hash, and calls
|
||||
// reset on the Context.
|
||||
//
|
||||
// Iff finalize_clone is set, final will work on a copy of the Context,
|
||||
// which is useful for for calculating rolling digests.
|
||||
final :: proc(ctx: ^Context, hash: []byte, finalize_clone: bool = false) {
|
||||
_blake2.final(ctx, hash, finalize_clone)
|
||||
}
|
||||
|
||||
// clone clones the Context other into ctx.
|
||||
clone :: proc(ctx, other: ^Context) {
|
||||
_blake2.clone(ctx, other)
|
||||
}
|
||||
|
||||
// reset sanitizes the Context. The Context must be re-initialized to
|
||||
// be used again.
|
||||
reset :: proc(ctx: ^Context) {
|
||||
_blake2.reset(ctx)
|
||||
}
|
||||
|
||||
@@ -1,11 +1,21 @@
|
||||
/*
|
||||
package chacha20 implements the ChaCha20 and XChaCha20 stream ciphers.
|
||||
|
||||
See:
|
||||
- https://datatracker.ietf.org/doc/html/rfc8439
|
||||
- https://datatracker.ietf.org/doc/draft-irtf-cfrg-xchacha/03/
|
||||
*/
|
||||
package chacha20
|
||||
|
||||
import "core:encoding/endian"
|
||||
import "core:math/bits"
|
||||
import "core:mem"
|
||||
|
||||
// KEY_SIZE is the (X)ChaCha20 key size in bytes.
|
||||
KEY_SIZE :: 32
|
||||
// NONCE_SIZE is the ChaCha20 nonce size in bytes.
|
||||
NONCE_SIZE :: 12
|
||||
// XNONCE_SIZE is the XChaCha20 nonce size in bytes.
|
||||
XNONCE_SIZE :: 24
|
||||
|
||||
@(private)
|
||||
@@ -19,25 +29,26 @@ _STATE_SIZE_U32 :: 16
|
||||
_ROUNDS :: 20
|
||||
|
||||
@(private)
|
||||
_SIGMA_0 : u32 : 0x61707865
|
||||
_SIGMA_0: u32 : 0x61707865
|
||||
@(private)
|
||||
_SIGMA_1 : u32 : 0x3320646e
|
||||
_SIGMA_1: u32 : 0x3320646e
|
||||
@(private)
|
||||
_SIGMA_2 : u32 : 0x79622d32
|
||||
_SIGMA_2: u32 : 0x79622d32
|
||||
@(private)
|
||||
_SIGMA_3 : u32 : 0x6b206574
|
||||
_SIGMA_3: u32 : 0x6b206574
|
||||
|
||||
// Context is a ChaCha20 or XChaCha20 instance.
|
||||
Context :: struct {
|
||||
_s: [_STATE_SIZE_U32]u32,
|
||||
|
||||
_buffer: [_BLOCK_SIZE]byte,
|
||||
_off: int,
|
||||
|
||||
_s: [_STATE_SIZE_U32]u32,
|
||||
_buffer: [_BLOCK_SIZE]byte,
|
||||
_off: int,
|
||||
_is_ietf_flavor: bool,
|
||||
_is_initialized: bool,
|
||||
}
|
||||
|
||||
init :: proc (ctx: ^Context, key, nonce: []byte) {
|
||||
// init inititializes a Context for ChaCha20 or XChaCha20 with the provided
|
||||
// key and nonce.
|
||||
init :: proc(ctx: ^Context, key, nonce: []byte) {
|
||||
if len(key) != KEY_SIZE {
|
||||
panic("crypto/chacha20: invalid ChaCha20 key size")
|
||||
}
|
||||
@@ -89,7 +100,8 @@ init :: proc (ctx: ^Context, key, nonce: []byte) {
|
||||
ctx._is_initialized = true
|
||||
}
|
||||
|
||||
seek :: proc (ctx: ^Context, block_nr: u64) {
|
||||
// seek seeks the (X)ChaCha20 stream counter to the specified block.
|
||||
seek :: proc(ctx: ^Context, block_nr: u64) {
|
||||
assert(ctx._is_initialized)
|
||||
|
||||
if ctx._is_ietf_flavor {
|
||||
@@ -103,7 +115,10 @@ seek :: proc (ctx: ^Context, block_nr: u64) {
|
||||
ctx._off = _BLOCK_SIZE
|
||||
}
|
||||
|
||||
xor_bytes :: proc (ctx: ^Context, dst, src: []byte) {
|
||||
// xor_bytes XORs each byte in src with bytes taken from the (X)ChaCha20
|
||||
// keystream, and writes the resulting output to dst. Dst and src MUST
|
||||
// alias exactly or not at all.
|
||||
xor_bytes :: proc(ctx: ^Context, dst, src: []byte) {
|
||||
assert(ctx._is_initialized)
|
||||
|
||||
// TODO: Enforcing that dst and src alias exactly or not at all
|
||||
@@ -147,7 +162,8 @@ xor_bytes :: proc (ctx: ^Context, dst, src: []byte) {
|
||||
}
|
||||
}
|
||||
|
||||
keystream_bytes :: proc (ctx: ^Context, dst: []byte) {
|
||||
// keystream_bytes fills dst with the raw (X)ChaCha20 keystream output.
|
||||
keystream_bytes :: proc(ctx: ^Context, dst: []byte) {
|
||||
assert(ctx._is_initialized)
|
||||
|
||||
dst := dst
|
||||
@@ -180,7 +196,9 @@ keystream_bytes :: proc (ctx: ^Context, dst: []byte) {
|
||||
}
|
||||
}
|
||||
|
||||
reset :: proc (ctx: ^Context) {
|
||||
// reset sanitizes the Context. The Context must be re-initialized to
|
||||
// be used again.
|
||||
reset :: proc(ctx: ^Context) {
|
||||
mem.zero_explicit(&ctx._s, size_of(ctx._s))
|
||||
mem.zero_explicit(&ctx._buffer, size_of(ctx._buffer))
|
||||
|
||||
@@ -188,7 +206,7 @@ reset :: proc (ctx: ^Context) {
|
||||
}
|
||||
|
||||
@(private)
|
||||
_do_blocks :: proc (ctx: ^Context, dst, src: []byte, nr_blocks: int) {
|
||||
_do_blocks :: proc(ctx: ^Context, dst, src: []byte, nr_blocks: int) {
|
||||
// Enforce the maximum consumed keystream per nonce.
|
||||
//
|
||||
// While all modern "standard" definitions of ChaCha20 use
|
||||
|
||||
Some files were not shown because too many files have changed in this diff Show More
Reference in New Issue
Block a user