Browse Source

Fixed some typos in proc names

zhibog 3 years ago
parent
commit
dd7449b8b5

+ 5 - 5
core/crypto/blake2b/blake2b.odin

@@ -71,21 +71,21 @@ hash_string :: proc(data: string) -> [64]byte {
 // hash_bytes will hash the given input and return the
 // computed hash
 hash_bytes :: proc(data: []byte) -> [64]byte {
-    _create_blake2_ctx()
+    _create_blake2b_ctx()
     return _hash_impl->hash_bytes_64(data)
 }
 
 // hash_stream will read the stream in chunks and compute a
 // hash from its contents
 hash_stream :: proc(s: io.Stream) -> ([64]byte, bool) {
-    _create_blake2_ctx()
+    _create_blake2b_ctx()
     return _hash_impl->hash_stream_64(s)
 }
 
 // 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) -> ([64]byte, bool) {
-    _create_blake2_ctx()
+    _create_blake2b_ctx()
     return _hash_impl->hash_file_64(hd, load_at_once)
 }
 
@@ -154,7 +154,7 @@ hash_file_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context, hd: os.Handle, loa
 }
 
 @(private)
-_create_blake2_ctx :: #force_inline proc() {
+_create_blake2b_ctx :: #force_inline proc() {
     ctx: _blake2.Blake2b_Context
     cfg: _blake2.Blake2_Config
     cfg.size = _blake2.BLAKE2B_SIZE
@@ -165,7 +165,7 @@ _create_blake2_ctx :: #force_inline proc() {
 
 @(private)
 _init_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context) {
-    _create_blake2_ctx()
+    _create_blake2b_ctx()
     if c, ok := ctx.internal_ctx.(_blake2.Blake2b_Context); ok {
         _blake2.init_odin(&c)
     }

+ 5 - 5
core/crypto/blake2s/blake2s.odin

@@ -71,21 +71,21 @@ hash_string :: proc(data: string) -> [32]byte {
 // hash_bytes will hash the given input and return the
 // computed hash
 hash_bytes :: proc(data: []byte) -> [32]byte {
-    _create_blake2_ctx()
+    _create_blake2s_ctx()
     return _hash_impl->hash_bytes_32(data)
 }
 
 // hash_stream will read the stream in chunks and compute a
 // hash from its contents
 hash_stream :: proc(s: io.Stream) -> ([32]byte, bool) {
-    _create_blake2_ctx()
+    _create_blake2s_ctx()
     return _hash_impl->hash_stream_32(s)
 }
 
 // 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) -> ([32]byte, bool) {
-    _create_blake2_ctx()
+    _create_blake2s_ctx()
     return _hash_impl->hash_file_32(hd, load_at_once)
 }
 
@@ -154,7 +154,7 @@ hash_file_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context, hd: os.Handle, loa
 }
 
 @(private)
-_create_blake2_ctx :: #force_inline proc() {
+_create_blake2s_ctx :: #force_inline proc() {
     ctx: _blake2.Blake2s_Context
     cfg: _blake2.Blake2_Config
     cfg.size = _blake2.BLAKE2S_SIZE
@@ -165,7 +165,7 @@ _create_blake2_ctx :: #force_inline proc() {
 
 @(private)
 _init_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context) {
-    _create_blake2_ctx()
+    _create_blake2s_ctx()
     if c, ok := ctx.internal_ctx.(_blake2.Blake2s_Context); ok {
         _blake2.init_odin(&c)
     }

+ 17 - 17
core/crypto/keccak/keccak.odin

@@ -80,21 +80,21 @@ hash_string_224 :: proc(data: string) -> [28]byte {
 // hash_bytes_224 will hash the given input and return the
 // computed hash
 hash_bytes_224 :: proc(data: []byte) -> [28]byte {
-    _create_sha3_ctx(28)
+    _create_keccak_ctx(28)
     return _hash_impl->hash_bytes_28(data)
 }
 
 // hash_stream_224 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_224 :: proc(s: io.Stream) -> ([28]byte, bool) {
-    _create_sha3_ctx(28)
+    _create_keccak_ctx(28)
     return _hash_impl->hash_stream_28(s)
 }
 
 // hash_file_224 will read the file provided by the given handle
 // and compute a hash
 hash_file_224 :: proc(hd: os.Handle, load_at_once := false) -> ([28]byte, bool) {
-    _create_sha3_ctx(28)
+    _create_keccak_ctx(28)
     return _hash_impl->hash_file_28(hd, load_at_once)
 }
 
@@ -114,21 +114,21 @@ hash_string_256 :: proc(data: string) -> [32]byte {
 // hash_bytes_256 will hash the given input and return the
 // computed hash
 hash_bytes_256 :: proc(data: []byte) -> [32]byte {
-    _create_sha3_ctx(32)
+    _create_keccak_ctx(32)
     return _hash_impl->hash_bytes_32(data)
 }
 
 // hash_stream_256 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_256 :: proc(s: io.Stream) -> ([32]byte, bool) {
-    _create_sha3_ctx(32)
+    _create_keccak_ctx(32)
     return _hash_impl->hash_stream_32(s)
 }
 
 // hash_file_256 will read the file provided by the given handle
 // and compute a hash
 hash_file_256 :: proc(hd: os.Handle, load_at_once := false) -> ([32]byte, bool) {
-    _create_sha3_ctx(32)
+    _create_keccak_ctx(32)
     return _hash_impl->hash_file_32(hd, load_at_once)
 }
 
@@ -148,21 +148,21 @@ hash_string_384 :: proc(data: string) -> [48]byte {
 // hash_bytes_384 will hash the given input and return the
 // computed hash
 hash_bytes_384 :: proc(data: []byte) -> [48]byte {
-    _create_sha3_ctx(48)
+    _create_keccak_ctx(48)
     return _hash_impl->hash_bytes_48(data)
 }
 
 // hash_stream_384 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_384 :: proc(s: io.Stream) -> ([48]byte, bool) {
-    _create_sha3_ctx(48)
+    _create_keccak_ctx(48)
     return _hash_impl->hash_stream_48(s)
 }
 
 // hash_file_384 will read the file provided by the given handle
 // and compute a hash
 hash_file_384 :: proc(hd: os.Handle, load_at_once := false) -> ([48]byte, bool) {
-    _create_sha3_ctx(48)
+    _create_keccak_ctx(48)
     return _hash_impl->hash_file_48(hd, load_at_once)
 }
 
@@ -182,21 +182,21 @@ hash_string_512 :: proc(data: string) -> [64]byte {
 // hash_bytes_512 will hash the given input and return the
 // computed hash
 hash_bytes_512 :: proc(data: []byte) -> [64]byte {
-    _create_sha3_ctx(64)
+    _create_keccak_ctx(64)
     return _hash_impl->hash_bytes_64(data)
 }
 
 // hash_stream_512 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_512 :: proc(s: io.Stream) -> ([64]byte, bool) {
-    _create_sha3_ctx(64)
+    _create_keccak_ctx(64)
     return _hash_impl->hash_stream_64(s)
 }
 
 // hash_file_512 will read the file provided by the given handle
 // and compute a hash
 hash_file_512 :: proc(hd: os.Handle, load_at_once := false) -> ([64]byte, bool) {
-    _create_sha3_ctx(64)
+    _create_keccak_ctx(64)
     return _hash_impl->hash_file_64(hd, load_at_once)
 }
 
@@ -388,7 +388,7 @@ hash_file_odin_64 :: #force_inline proc(ctx: ^_ctx.Hash_Context, hd: os.Handle,
 }
 
 @(private)
-_create_sha3_ctx :: #force_inline proc(mdlen: int) {
+_create_keccak_ctx :: #force_inline proc(mdlen: int) {
     ctx: _sha3.Sha3_Context
     ctx.mdlen               = mdlen
     ctx.is_keccak           = true
@@ -404,10 +404,10 @@ _create_sha3_ctx :: #force_inline proc(mdlen: int) {
 @(private)
 _init_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context) {
     #partial switch ctx.hash_size {
-        case ._28: _create_sha3_ctx(28)
-        case ._32: _create_sha3_ctx(32)
-        case ._48: _create_sha3_ctx(48)
-        case ._64: _create_sha3_ctx(64)
+        case ._28: _create_keccak_ctx(28)
+        case ._32: _create_keccak_ctx(32)
+        case ._48: _create_keccak_ctx(48)
+        case ._64: _create_keccak_ctx(64)
     }
     if c, ok := ctx.internal_ctx.(_sha3.Sha3_Context); ok {
         _sha3.init_odin(&c)

+ 9 - 9
core/crypto/shake/shake.odin

@@ -74,21 +74,21 @@ hash_string_128 :: proc(data: string) -> [16]byte {
 // hash_bytes_128 will hash the given input and return the
 // computed hash
 hash_bytes_128 :: proc(data: []byte) -> [16]byte {
-    _create_sha3_ctx(16)
+    _create_shake_ctx(16)
     return _hash_impl->hash_bytes_16(data)
 }
 
 // hash_stream_128 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_128 :: proc(s: io.Stream) -> ([16]byte, bool) {
-    _create_sha3_ctx(16)
+    _create_shake_ctx(16)
     return _hash_impl->hash_stream_16(s)
 }
 
 // hash_file_128 will read the file provided by the given handle
 // and compute a hash
 hash_file_128 :: proc(hd: os.Handle, load_at_once := false) -> ([16]byte, bool) {
-    _create_sha3_ctx(16)
+    _create_shake_ctx(16)
     return _hash_impl->hash_file_16(hd, load_at_once)
 }
 
@@ -108,21 +108,21 @@ hash_string_256 :: proc(data: string) -> [32]byte {
 // hash_bytes_256 will hash the given input and return the
 // computed hash
 hash_bytes_256 :: proc(data: []byte) -> [32]byte {
-    _create_sha3_ctx(32)
+    _create_shake_ctx(32)
     return _hash_impl->hash_bytes_32(data)
 }
 
 // hash_stream_256 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_256 :: proc(s: io.Stream) -> ([32]byte, bool) {
-    _create_sha3_ctx(32)
+    _create_shake_ctx(32)
     return _hash_impl->hash_stream_32(s)
 }
 
 // hash_file_256 will read the file provided by the given handle
 // and compute a hash
 hash_file_256 :: proc(hd: os.Handle, load_at_once := false) -> ([32]byte, bool) {
-    _create_sha3_ctx(32)
+    _create_shake_ctx(32)
     return _hash_impl->hash_file_32(hd, load_at_once)
 }
 
@@ -236,7 +236,7 @@ hash_file_odin_32 :: #force_inline proc(ctx: ^_ctx.Hash_Context, hd: os.Handle,
 }
 
 @(private)
-_create_sha3_ctx :: #force_inline proc(mdlen: int) {
+_create_shake_ctx :: #force_inline proc(mdlen: int) {
     ctx: _sha3.Sha3_Context
     ctx.mdlen               = mdlen
     _hash_impl.internal_ctx = ctx
@@ -249,8 +249,8 @@ _create_sha3_ctx :: #force_inline proc(mdlen: int) {
 @(private)
 _init_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context) {
     #partial switch ctx.hash_size {
-        case ._16: _create_sha3_ctx(16)
-        case ._32: _create_sha3_ctx(32)
+        case ._16: _create_shake_ctx(16)
+        case ._32: _create_shake_ctx(32)
     }
     if c, ok := ctx.internal_ctx.(_sha3.Sha3_Context); ok {
         _sha3.init_odin(&c)

+ 13 - 13
core/crypto/tiger/tiger.odin

@@ -76,21 +76,21 @@ hash_string_128 :: proc(data: string) -> [16]byte {
 // hash_bytes_128 will hash the given input and return the
 // computed hash
 hash_bytes_128 :: proc(data: []byte) -> [16]byte {
-    _create_ripemd_ctx(16)
+    _create_tiger_ctx(16)
     return _hash_impl->hash_bytes_16(data)
 }
 
 // hash_stream_128 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_128 :: proc(s: io.Stream) -> ([16]byte, bool) {
-    _create_ripemd_ctx(16)
+    _create_tiger_ctx(16)
     return _hash_impl->hash_stream_16(s)
 }
 
 // hash_file_128 will read the file provided by the given handle
 // and compute a hash
 hash_file_128 :: proc(hd: os.Handle, load_at_once := false) -> ([16]byte, bool) {
-    _create_ripemd_ctx(16)
+    _create_tiger_ctx(16)
     return _hash_impl->hash_file_16(hd, load_at_once)
 }
 
@@ -110,21 +110,21 @@ hash_string_160 :: proc(data: string) -> [20]byte {
 // hash_bytes_160 will hash the given input and return the
 // computed hash
 hash_bytes_160 :: proc(data: []byte) -> [20]byte {
-    _create_ripemd_ctx(20)
+    _create_tiger_ctx(20)
     return _hash_impl->hash_bytes_20(data)
 }
 
 // hash_stream_160 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_160 :: proc(s: io.Stream) -> ([20]byte, bool) {
-    _create_ripemd_ctx(20)
+    _create_tiger_ctx(20)
     return _hash_impl->hash_stream_20(s)
 }
 
 // hash_file_160 will read the file provided by the given handle
 // and compute a hash
 hash_file_160 :: proc(hd: os.Handle, load_at_once := false) -> ([20]byte, bool) {
-    _create_ripemd_ctx(20)
+    _create_tiger_ctx(20)
     return _hash_impl->hash_file_20(hd, load_at_once)
 }
 
@@ -144,21 +144,21 @@ hash_string_192 :: proc(data: string) -> [24]byte {
 // hash_bytes_192 will hash the given input and return the
 // computed hash
 hash_bytes_192 :: proc(data: []byte) -> [24]byte {
-    _create_ripemd_ctx(24)
+    _create_tiger_ctx(24)
     return _hash_impl->hash_bytes_24(data)
 }
 
 // hash_stream_192 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_192 :: proc(s: io.Stream) -> ([24]byte, bool) {
-    _create_ripemd_ctx(24)
+    _create_tiger_ctx(24)
     return _hash_impl->hash_stream_24(s)
 }
 
 // hash_file_192 will read the file provided by the given handle
 // and compute a hash
 hash_file_192 :: proc(hd: os.Handle, load_at_once := false) -> ([24]byte, bool) {
-    _create_ripemd_ctx(24)
+    _create_tiger_ctx(24)
     return _hash_impl->hash_file_24(hd, load_at_once)
 }
 
@@ -293,7 +293,7 @@ hash_file_odin_24 :: #force_inline proc(ctx: ^_ctx.Hash_Context, hd: os.Handle,
 }
 
 @(private)
-_create_ripemd_ctx :: #force_inline proc(hash_size: int) {
+_create_tiger_ctx :: #force_inline proc(hash_size: int) {
     ctx: _tiger.Tiger_Context
     ctx.ver = 1
     _hash_impl.internal_ctx = ctx
@@ -307,9 +307,9 @@ _create_ripemd_ctx :: #force_inline proc(hash_size: int) {
 @(private)
 _init_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context) {
     #partial switch ctx.hash_size {
-        case ._16: _create_ripemd_ctx(16)
-        case ._20: _create_ripemd_ctx(20)
-        case ._24: _create_ripemd_ctx(24)
+        case ._16: _create_tiger_ctx(16)
+        case ._20: _create_tiger_ctx(20)
+        case ._24: _create_tiger_ctx(24)
     }
     if c, ok := ctx.internal_ctx.(_tiger.Tiger_Context); ok {
         _tiger.init_odin(&c)

+ 13 - 13
core/crypto/tiger2/tiger2.odin

@@ -76,21 +76,21 @@ hash_string_128 :: proc(data: string) -> [16]byte {
 // hash_bytes_128 will hash the given input and return the
 // computed hash
 hash_bytes_128 :: proc(data: []byte) -> [16]byte {
-    _create_ripemd_ctx(16)
+    _create_tiger2_ctx(16)
     return _hash_impl->hash_bytes_16(data)
 }
 
 // hash_stream_128 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_128 :: proc(s: io.Stream) -> ([16]byte, bool) {
-    _create_ripemd_ctx(16)
+    _create_tiger2_ctx(16)
     return _hash_impl->hash_stream_16(s)
 }
 
 // hash_file_128 will read the file provided by the given handle
 // and compute a hash
 hash_file_128 :: proc(hd: os.Handle, load_at_once := false) -> ([16]byte, bool) {
-    _create_ripemd_ctx(16)
+    _create_tiger2_ctx(16)
     return _hash_impl->hash_file_16(hd, load_at_once)
 }
 
@@ -110,21 +110,21 @@ hash_string_160 :: proc(data: string) -> [20]byte {
 // hash_bytes_160 will hash the given input and return the
 // computed hash
 hash_bytes_160 :: proc(data: []byte) -> [20]byte {
-    _create_ripemd_ctx(20)
+    _create_tiger2_ctx(20)
     return _hash_impl->hash_bytes_20(data)
 }
 
 // hash_stream_160 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_160 :: proc(s: io.Stream) -> ([20]byte, bool) {
-    _create_ripemd_ctx(20)
+    _create_tiger2_ctx(20)
     return _hash_impl->hash_stream_20(s)
 }
 
 // hash_file_160 will read the file provided by the given handle
 // and compute a hash
 hash_file_160 :: proc(hd: os.Handle, load_at_once := false) -> ([20]byte, bool) {
-    _create_ripemd_ctx(20)
+    _create_tiger2_ctx(20)
     return _hash_impl->hash_file_20(hd, load_at_once)
 }
 
@@ -144,21 +144,21 @@ hash_string_192 :: proc(data: string) -> [24]byte {
 // hash_bytes_192 will hash the given input and return the
 // computed hash
 hash_bytes_192 :: proc(data: []byte) -> [24]byte {
-    _create_ripemd_ctx(24)
+    _create_tiger2_ctx(24)
     return _hash_impl->hash_bytes_24(data)
 }
 
 // hash_stream_192 will read the stream in chunks and compute a
 // hash from its contents
 hash_stream_192 :: proc(s: io.Stream) -> ([24]byte, bool) {
-    _create_ripemd_ctx(24)
+    _create_tiger2_ctx(24)
     return _hash_impl->hash_stream_24(s)
 }
 
 // hash_file_192 will read the file provided by the given handle
 // and compute a hash
 hash_file_192 :: proc(hd: os.Handle, load_at_once := false) -> ([24]byte, bool) {
-    _create_ripemd_ctx(24)
+    _create_tiger2_ctx(24)
     return _hash_impl->hash_file_24(hd, load_at_once)
 }
 
@@ -293,7 +293,7 @@ hash_file_odin_24 :: #force_inline proc(ctx: ^_ctx.Hash_Context, hd: os.Handle,
 }
 
 @(private)
-_create_ripemd_ctx :: #force_inline proc(hash_size: int) {
+_create_tiger2_ctx :: #force_inline proc(hash_size: int) {
     ctx: _tiger.Tiger_Context
     ctx.ver = 2
     _hash_impl.internal_ctx = ctx
@@ -307,9 +307,9 @@ _create_ripemd_ctx :: #force_inline proc(hash_size: int) {
 @(private)
 _init_odin :: #force_inline proc(ctx: ^_ctx.Hash_Context) {
     #partial switch ctx.hash_size {
-        case ._16: _create_ripemd_ctx(16)
-        case ._20: _create_ripemd_ctx(20)
-        case ._24: _create_ripemd_ctx(24)
+        case ._16: _create_tiger2_ctx(16)
+        case ._20: _create_tiger2_ctx(20)
+        case ._24: _create_tiger2_ctx(24)
     }
     if c, ok := ctx.internal_ctx.(_tiger.Tiger_Context); ok {
         _tiger.init_odin(&c)