/* SHA3 module * * This module provides an interface to the SHA3 algorithm * * See below for information about the original code this module was * based upon. Additional work performed by: * * Andrew Kuchling (amk@amk.ca) * Greg Stein (gstein@lyra.org) * Trevor Perrin (trevp@trevp.net) * Gregory P. Smith (greg@krypto.org) * * Copyright (C) 2012-2016 Christian Heimes (christian@python.org) * Licensed to PSF under a Contributor Agreement. * */ #include "Python.h" #include "pycore_strhex.h" // _Py_strhex() #include "../hashlib.h" /* ************************************************************************** * SHA-3 (Keccak) and SHAKE * * The code is based on KeccakCodePackage from 2016-04-23 * commit 647f93079afc4ada3d23737477a6e52511ca41fd * * The reference implementation is altered in this points: * - C++ comments are converted to ANSI C comments. * - all function names are mangled * - typedef for UINT64 is commented out. * - brg_endian.h is removed * * *************************************************************************/ #ifdef __sparc /* opt64 uses un-aligned memory access that causes a BUS error with msg * 'invalid address alignment' on SPARC. */ #define KeccakOpt 32 #elif PY_BIG_ENDIAN /* opt64 is not yet supported on big endian platforms */ #define KeccakOpt 32 #elif SIZEOF_VOID_P == 8 /* opt64 works only on little-endian 64bit platforms with unsigned int64 */ #define KeccakOpt 64 #else /* opt32 is used for the remaining 32 and 64bit platforms */ #define KeccakOpt 32 #endif #if KeccakOpt == 64 /* 64bit platforms with unsigned int64 */ typedef uint64_t UINT64; typedef unsigned char UINT8; #endif /* replacement for brg_endian.h */ #define IS_LITTLE_ENDIAN 1234 #define IS_BIG_ENDIAN 4321 #if PY_LITTLE_ENDIAN #define PLATFORM_BYTE_ORDER IS_LITTLE_ENDIAN #endif #if PY_BIG_ENDIAN #define PLATFORM_BYTE_ORDER IS_BIG_ENDIAN #endif /* Prevent bus errors on platforms requiring aligned accesses such ARM. */ #if HAVE_ALIGNED_REQUIRED && !defined(NO_MISALIGNED_ACCESSES) #define NO_MISALIGNED_ACCESSES #endif /* mangle names */ #define KeccakF1600_FastLoop_Absorb _PySHA3_KeccakF1600_FastLoop_Absorb #define Keccak_HashFinal _PySHA3_Keccak_HashFinal #define Keccak_HashInitialize _PySHA3_Keccak_HashInitialize #define Keccak_HashSqueeze _PySHA3_Keccak_HashSqueeze #define Keccak_HashUpdate _PySHA3_Keccak_HashUpdate #define KeccakP1600_AddBytes _PySHA3_KeccakP1600_AddBytes #define KeccakP1600_AddBytesInLane _PySHA3_KeccakP1600_AddBytesInLane #define KeccakP1600_AddLanes _PySHA3_KeccakP1600_AddLanes #define KeccakP1600_ExtractAndAddBytes _PySHA3_KeccakP1600_ExtractAndAddBytes #define KeccakP1600_ExtractAndAddBytesInLane _PySHA3_KeccakP1600_ExtractAndAddBytesInLane #define KeccakP1600_ExtractAndAddLanes _PySHA3_KeccakP1600_ExtractAndAddLanes #define KeccakP1600_ExtractBytes _PySHA3_KeccakP1600_ExtractBytes #define KeccakP1600_ExtractBytesInLane _PySHA3_KeccakP1600_ExtractBytesInLane #define KeccakP1600_ExtractLanes _PySHA3_KeccakP1600_ExtractLanes #define KeccakP1600_Initialize _PySHA3_KeccakP1600_Initialize #define KeccakP1600_OverwriteBytes _PySHA3_KeccakP1600_OverwriteBytes #define KeccakP1600_OverwriteBytesInLane _PySHA3_KeccakP1600_OverwriteBytesInLane #define KeccakP1600_OverwriteLanes _PySHA3_KeccakP1600_OverwriteLanes #define KeccakP1600_OverwriteWithZeroes _PySHA3_KeccakP1600_OverwriteWithZeroes #define KeccakP1600_Permute_12rounds _PySHA3_KeccakP1600_Permute_12rounds #define KeccakP1600_Permute_24rounds _PySHA3_KeccakP1600_Permute_24rounds #define KeccakWidth1600_Sponge _PySHA3_KeccakWidth1600_Sponge #define KeccakWidth1600_SpongeAbsorb _PySHA3_KeccakWidth1600_SpongeAbsorb #define KeccakWidth1600_SpongeAbsorbLastFewBits _PySHA3_KeccakWidth1600_SpongeAbsorbLastFewBits #define KeccakWidth1600_SpongeInitialize _PySHA3_KeccakWidth1600_SpongeInitialize #define KeccakWidth1600_SpongeSqueeze _PySHA3_KeccakWidth1600_SpongeSqueeze #if KeccakOpt == 32 #define KeccakP1600_AddByte _PySHA3_KeccakP1600_AddByte #define KeccakP1600_Permute_Nrounds _PySHA3_KeccakP1600_Permute_Nrounds #define KeccakP1600_SetBytesInLaneToZero _PySHA3_KeccakP1600_SetBytesInLaneToZero #endif /* we are only interested in KeccakP1600 */ #define KeccakP200_excluded 1 #define KeccakP400_excluded 1 #define KeccakP800_excluded 1 /* inline all Keccak dependencies */ #include "kcp/KeccakHash.h" #include "kcp/KeccakSponge.h" #include "kcp/KeccakHash.c" #include "kcp/KeccakSponge.c" #if KeccakOpt == 64 #include "kcp/KeccakP-1600-opt64.c" #elif KeccakOpt == 32 #include "kcp/KeccakP-1600-inplace32BI.c" #endif #define SHA3_MAX_DIGESTSIZE 64 /* 64 Bytes (512 Bits) for 224 to 512 */ #define SHA3_LANESIZE (20 * 8) /* ExtractLane needs max uint64_t[20] extra. */ #define SHA3_state Keccak_HashInstance #define SHA3_init Keccak_HashInitialize #define SHA3_process Keccak_HashUpdate #define SHA3_done Keccak_HashFinal #define SHA3_squeeze Keccak_HashSqueeze #define SHA3_copystate(dest, src) memcpy(&(dest), &(src), sizeof(SHA3_state)) typedef struct { PyTypeObject *sha3_224_type; PyTypeObject *sha3_256_type; PyTypeObject *sha3_384_type; PyTypeObject *sha3_512_type; #ifdef PY_WITH_KECCAK PyTypeObject *keccak_224_type; PyTypeObject *keccak_256_type; PyTypeObject *keccak_384_type; PyTypeObject *keccak_512_type; #endif PyTypeObject *shake_128_type; PyTypeObject *shake_256_type; } SHA3State; static inline SHA3State* sha3_get_state(PyObject *module) { void *state = PyModule_GetState(module); assert(state != NULL); return (SHA3State *)state; } /*[clinic input] module _sha3 class _sha3.sha3_224 "SHA3object *" "&SHA3_224typ" class _sha3.sha3_256 "SHA3object *" "&SHA3_256typ" class _sha3.sha3_384 "SHA3object *" "&SHA3_384typ" class _sha3.sha3_512 "SHA3object *" "&SHA3_512typ" class _sha3.shake_128 "SHA3object *" "&SHAKE128type" class _sha3.shake_256 "SHA3object *" "&SHAKE256type" [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=b8a53680f370285a]*/ /* The structure for storing SHA3 info */ typedef struct { PyObject_HEAD SHA3_state hash_state; PyThread_type_lock lock; } SHA3object; #include "clinic/sha3module.c.h" static SHA3object * newSHA3object(PyTypeObject *type) { SHA3object *newobj; newobj = (SHA3object *)PyObject_New(SHA3object, type); if (newobj == NULL) { return NULL; } newobj->lock = NULL; return newobj; } /*[clinic input] @classmethod _sha3.sha3_224.__new__ as py_sha3_new data: object(c_default="NULL") = b'' / * usedforsecurity: bool = True Return a new BLAKE2b hash object. [clinic start generated code]*/ static PyObject * py_sha3_new_impl(PyTypeObject *type, PyObject *data, int usedforsecurity) /*[clinic end generated code: output=90409addc5d5e8b0 input=bcfcdf2e4368347a]*/ { HashReturn res; Py_buffer buf = {NULL, NULL}; SHA3State *state = PyType_GetModuleState(type); SHA3object *self = newSHA3object(type); if (self == NULL) { goto error; } assert(state != NULL); if (type == state->sha3_224_type) { res = Keccak_HashInitialize_SHA3_224(&self->hash_state); } else if (type == state->sha3_256_type) { res = Keccak_HashInitialize_SHA3_256(&self->hash_state); } else if (type == state->sha3_384_type) { res = Keccak_HashInitialize_SHA3_384(&self->hash_state); } else if (type == state->sha3_512_type) { res = Keccak_HashInitialize_SHA3_512(&self->hash_state); #ifdef PY_WITH_KECCAK } else if (type == state->keccak_224_type) { res = Keccak_HashInitialize(&self->hash_state, 1152, 448, 224, 0x01); } else if (type == state->keccak_256_type) { res = Keccak_HashInitialize(&self->hash_state, 1088, 512, 256, 0x01); } else if (type == state->keccak_384_type) { res = Keccak_HashInitialize(&self->hash_state, 832, 768, 384, 0x01); } else if (type == state->keccak_512_type) { res = Keccak_HashInitialize(&self->hash_state, 576, 1024, 512, 0x01); #endif } else if (type == state->shake_128_type) { res = Keccak_HashInitialize_SHAKE128(&self->hash_state); } else if (type == state->shake_256_type) { res = Keccak_HashInitialize_SHAKE256(&self->hash_state); } else { PyErr_BadInternalCall(); goto error; } if (res != SUCCESS) { PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 initialize()"); goto error; } if (data) { GET_BUFFER_VIEW_OR_ERROR(data, &buf, goto error); if (buf.len >= HASHLIB_GIL_MINSIZE) { /* invariant: New objects can't be accessed by other code yet, * thus it's safe to release the GIL without locking the object. */ Py_BEGIN_ALLOW_THREADS res = SHA3_process(&self->hash_state, buf.buf, buf.len * 8); Py_END_ALLOW_THREADS } else { res = SHA3_process(&self->hash_state, buf.buf, buf.len * 8); } if (res != SUCCESS) { PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 Update()"); goto error; } PyBuffer_Release(&buf); } return (PyObject *)self; error: if (self) { Py_DECREF(self); } if (data && buf.obj) { PyBuffer_Release(&buf); } return NULL; } /* Internal methods for a hash object */ static void SHA3_dealloc(SHA3object *self) { if (self->lock) { PyThread_free_lock(self->lock); } PyTypeObject *tp = Py_TYPE(self); PyObject_Free(self); Py_DECREF(tp); } /* External methods for a hash object */ /*[clinic input] _sha3.sha3_224.copy Return a copy of the hash object. [clinic start generated code]*/ static PyObject * _sha3_sha3_224_copy_impl(SHA3object *self) /*[clinic end generated code: output=6c537411ecdcda4c input=93a44aaebea51ba8]*/ { SHA3object *newobj; if ((newobj = newSHA3object(Py_TYPE(self))) == NULL) { return NULL; } ENTER_HASHLIB(self); SHA3_copystate(newobj->hash_state, self->hash_state); LEAVE_HASHLIB(self); return (PyObject *)newobj; } /*[clinic input] _sha3.sha3_224.digest Return the digest value as a bytes object. [clinic start generated code]*/ static PyObject * _sha3_sha3_224_digest_impl(SHA3object *self) /*[clinic end generated code: output=fd531842e20b2d5b input=5b2a659536bbd248]*/ { unsigned char digest[SHA3_MAX_DIGESTSIZE + SHA3_LANESIZE]; SHA3_state temp; HashReturn res; ENTER_HASHLIB(self); SHA3_copystate(temp, self->hash_state); LEAVE_HASHLIB(self); res = SHA3_done(&temp, digest); if (res != SUCCESS) { PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 Final()"); return NULL; } return PyBytes_FromStringAndSize((const char *)digest, self->hash_state.fixedOutputLength / 8); } /*[clinic input] _sha3.sha3_224.hexdigest Return the digest value as a string of hexadecimal digits. [clinic start generated code]*/ static PyObject * _sha3_sha3_224_hexdigest_impl(SHA3object *self) /*[clinic end generated code: output=75ad03257906918d input=2d91bb6e0d114ee3]*/ { unsigned char digest[SHA3_MAX_DIGESTSIZE + SHA3_LANESIZE]; SHA3_state temp; HashReturn res; /* Get the raw (binary) digest value */ ENTER_HASHLIB(self); SHA3_copystate(temp, self->hash_state); LEAVE_HASHLIB(self); res = SHA3_done(&temp, digest); if (res != SUCCESS) { PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 Final()"); return NULL; } return _Py_strhex((const char *)digest, self->hash_state.fixedOutputLength / 8); } /*[clinic input] _sha3.sha3_224.update data: object / Update this hash object's state with the provided bytes-like object. [clinic start generated code]*/ static PyObject * _sha3_sha3_224_update(SHA3object *self, PyObject *data) /*[clinic end generated code: output=d3223352286ed357 input=a887f54dcc4ae227]*/ { Py_buffer buf; HashReturn res; GET_BUFFER_VIEW_OR_ERROUT(data, &buf); /* add new data, the function takes the length in bits not bytes */ if (self->lock == NULL && buf.len >= HASHLIB_GIL_MINSIZE) { self->lock = PyThread_allocate_lock(); } /* Once a lock exists all code paths must be synchronized. We have to * release the GIL even for small buffers as acquiring the lock may take * an unlimited amount of time when another thread updates this object * with lots of data. */ if (self->lock) { Py_BEGIN_ALLOW_THREADS PyThread_acquire_lock(self->lock, 1); res = SHA3_process(&self->hash_state, buf.buf, buf.len * 8); PyThread_release_lock(self->lock); Py_END_ALLOW_THREADS } else { res = SHA3_process(&self->hash_state, buf.buf, buf.len * 8); } if (res != SUCCESS) { PyBuffer_Release(&buf); PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 Update()"); return NULL; } PyBuffer_Release(&buf); Py_RETURN_NONE; } static PyMethodDef SHA3_methods[] = { _SHA3_SHA3_224_COPY_METHODDEF _SHA3_SHA3_224_DIGEST_METHODDEF _SHA3_SHA3_224_HEXDIGEST_METHODDEF _SHA3_SHA3_224_UPDATE_METHODDEF {NULL, NULL} /* sentinel */ }; static PyObject * SHA3_get_block_size(SHA3object *self, void *closure) { int rate = self->hash_state.sponge.rate; return PyLong_FromLong(rate / 8); } static PyObject * SHA3_get_name(SHA3object *self, void *closure) { PyTypeObject *type = Py_TYPE(self); SHA3State *state = PyType_GetModuleState(type); assert(state != NULL); if (type == state->sha3_224_type) { return PyUnicode_FromString("sha3_224"); } else if (type == state->sha3_256_type) { return PyUnicode_FromString("sha3_256"); } else if (type == state->sha3_384_type) { return PyUnicode_FromString("sha3_384"); } else if (type == state->sha3_512_type) { return PyUnicode_FromString("sha3_512"); #ifdef PY_WITH_KECCAK } else if (type == state->keccak_224_type) { return PyUnicode_FromString("keccak_224"); } else if (type == state->keccak_256_type) { return PyUnicode_FromString("keccak_256"); } else if (type == state->keccak_384_type) { return PyUnicode_FromString("keccak_384"); } else if (type == state->keccak_512_type) { return PyUnicode_FromString("keccak_512"); #endif } else if (type == state->shake_128_type) { return PyUnicode_FromString("shake_128"); } else if (type == state->shake_256_type) { return PyUnicode_FromString("shake_256"); } else { PyErr_BadInternalCall(); return NULL; } } static PyObject * SHA3_get_digest_size(SHA3object *self, void *closure) { return PyLong_FromLong(self->hash_state.fixedOutputLength / 8); } static PyObject * SHA3_get_capacity_bits(SHA3object *self, void *closure) { int capacity = 1600 - self->hash_state.sponge.rate; return PyLong_FromLong(capacity); } static PyObject * SHA3_get_rate_bits(SHA3object *self, void *closure) { unsigned int rate = self->hash_state.sponge.rate; return PyLong_FromLong(rate); } static PyObject * SHA3_get_suffix(SHA3object *self, void *closure) { unsigned char suffix[2]; suffix[0] = self->hash_state.delimitedSuffix; suffix[1] = 0; return PyBytes_FromStringAndSize((const char *)suffix, 1); } static PyGetSetDef SHA3_getseters[] = { {"block_size", (getter)SHA3_get_block_size, NULL, NULL, NULL}, {"name", (getter)SHA3_get_name, NULL, NULL, NULL}, {"digest_size", (getter)SHA3_get_digest_size, NULL, NULL, NULL}, {"_capacity_bits", (getter)SHA3_get_capacity_bits, NULL, NULL, NULL}, {"_rate_bits", (getter)SHA3_get_rate_bits, NULL, NULL, NULL}, {"_suffix", (getter)SHA3_get_suffix, NULL, NULL, NULL}, {NULL} /* Sentinel */ }; #define SHA3_TYPE_SLOTS(type_slots_obj, type_doc, type_methods) \ static PyType_Slot type_slots_obj[] = { \ {Py_tp_dealloc, SHA3_dealloc}, \ {Py_tp_doc, (char*)type_doc}, \ {Py_tp_methods, type_methods}, \ {Py_tp_getset, SHA3_getseters}, \ {Py_tp_new, py_sha3_new}, \ {0,0} \ } // Using PyType_GetModuleState() on these types is safe since they // cannot be subclassed: it does not have the Py_TPFLAGS_BASETYPE flag. #define SHA3_TYPE_SPEC(type_spec_obj, type_name, type_slots) \ static PyType_Spec type_spec_obj = { \ .name = "_sha3." type_name, \ .basicsize = sizeof(SHA3object), \ .flags = Py_TPFLAGS_DEFAULT | Py_TPFLAGS_IMMUTABLETYPE, \ .slots = type_slots \ } PyDoc_STRVAR(sha3_224__doc__, "sha3_224([data], *, usedforsecurity=True) -> SHA3 object\n\ \n\ Return a new SHA3 hash object with a hashbit length of 28 bytes."); PyDoc_STRVAR(sha3_256__doc__, "sha3_256([data], *, usedforsecurity=True) -> SHA3 object\n\ \n\ Return a new SHA3 hash object with a hashbit length of 32 bytes."); PyDoc_STRVAR(sha3_384__doc__, "sha3_384([data], *, usedforsecurity=True) -> SHA3 object\n\ \n\ Return a new SHA3 hash object with a hashbit length of 48 bytes."); PyDoc_STRVAR(sha3_512__doc__, "sha3_512([data], *, usedforsecurity=True) -> SHA3 object\n\ \n\ Return a new SHA3 hash object with a hashbit length of 64 bytes."); #ifdef PY_WITH_KECCAK PyDoc_STRVAR(keccak_224__doc__, "keccak_224([data], *, usedforsecurity=True) -> Keccak object\n\ \n\ Return a new Keccak hash object with a hashbit length of 28 bytes."); PyDoc_STRVAR(keccak_256__doc__, "keccak_256([data], *, usedforsecurity=True) -> Keccak object\n\ \n\ Return a new Keccak hash object with a hashbit length of 32 bytes."); PyDoc_STRVAR(keccak_384__doc__, "keccak_384([data], *, usedforsecurity=True) -> Keccak object\n\ \n\ Return a new Keccak hash object with a hashbit length of 48 bytes."); PyDoc_STRVAR(keccak_512__doc__, "keccak_512([data], *, usedforsecurity=True) -> Keccak object\n\ \n\ Return a new Keccak hash object with a hashbit length of 64 bytes."); #endif SHA3_TYPE_SLOTS(sha3_224_slots, sha3_224__doc__, SHA3_methods); SHA3_TYPE_SPEC(sha3_224_spec, "sha3_224", sha3_224_slots); SHA3_TYPE_SLOTS(sha3_256_slots, sha3_256__doc__, SHA3_methods); SHA3_TYPE_SPEC(sha3_256_spec, "sha3_256", sha3_256_slots); SHA3_TYPE_SLOTS(sha3_384_slots, sha3_384__doc__, SHA3_methods); SHA3_TYPE_SPEC(sha3_384_spec, "sha3_384", sha3_384_slots); SHA3_TYPE_SLOTS(sha3_512_slots, sha3_512__doc__, SHA3_methods); SHA3_TYPE_SPEC(sha3_512_spec, "sha3_512", sha3_512_slots); #ifdef PY_WITH_KECCAK SHA3_TYPE_SLOTS(Keccak_224_slots, keccak_224__doc__, SHA3_methods); SHA3_TYPE_SPEC(Keccak_224_spec, "keccak_224", Keccak_224_slots); SHA3_TYPE_SLOTS(Keccak_256_slots, keccak_256__doc__, SHA3_methods); SHA3_TYPE_SPEC(Keccak_256_spec, "keccak_256", Keccak_256_slots); SHA3_TYPE_SLOTS(Keccak_384_slots, keccak_384__doc__, SHA3_methods); SHA3_TYPE_SPEC(Keccak_384_spec, "keccak_384", Keccak_384_slots); SHA3_TYPE_SLOTS(Keccak_512_slots, keccak_512__doc__, SHA3_methods); SHA3_TYPE_SPEC(Keccak_512_spec, "keccak_512", Keccak_512_slots); #endif static PyObject * _SHAKE_digest(SHA3object *self, unsigned long digestlen, int hex) { unsigned char *digest = NULL; SHA3_state temp; int res; PyObject *result = NULL; if (digestlen >= (1 << 29)) { PyErr_SetString(PyExc_ValueError, "length is too large"); return NULL; } /* ExtractLane needs at least SHA3_MAX_DIGESTSIZE + SHA3_LANESIZE and * SHA3_LANESIZE extra space. */ digest = (unsigned char*)PyMem_Malloc(digestlen + SHA3_LANESIZE); if (digest == NULL) { return PyErr_NoMemory(); } /* Get the raw (binary) digest value */ ENTER_HASHLIB(self); SHA3_copystate(temp, self->hash_state); LEAVE_HASHLIB(self); res = SHA3_done(&temp, NULL); if (res != SUCCESS) { PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 done()"); goto error; } res = SHA3_squeeze(&temp, digest, digestlen * 8); if (res != SUCCESS) { PyErr_SetString(PyExc_RuntimeError, "internal error in SHA3 Squeeze()"); return NULL; } if (hex) { result = _Py_strhex((const char *)digest, digestlen); } else { result = PyBytes_FromStringAndSize((const char *)digest, digestlen); } error: if (digest != NULL) { PyMem_Free(digest); } return result; } /*[clinic input] _sha3.shake_128.digest length: unsigned_long / Return the digest value as a bytes object. [clinic start generated code]*/ static PyObject * _sha3_shake_128_digest_impl(SHA3object *self, unsigned long length) /*[clinic end generated code: output=2313605e2f87bb8f input=418ef6a36d2e6082]*/ { return _SHAKE_digest(self, length, 0); } /*[clinic input] _sha3.shake_128.hexdigest length: unsigned_long / Return the digest value as a string of hexadecimal digits. [clinic start generated code]*/ static PyObject * _sha3_shake_128_hexdigest_impl(SHA3object *self, unsigned long length) /*[clinic end generated code: output=bf8e2f1e490944a8 input=69fb29b0926ae321]*/ { return _SHAKE_digest(self, length, 1); } static PyMethodDef SHAKE_methods[] = { _SHA3_SHA3_224_COPY_METHODDEF _SHA3_SHAKE_128_DIGEST_METHODDEF _SHA3_SHAKE_128_HEXDIGEST_METHODDEF _SHA3_SHA3_224_UPDATE_METHODDEF {NULL, NULL} /* sentinel */ }; PyDoc_STRVAR(shake_128__doc__, "shake_128([data], *, usedforsecurity=True) -> SHAKE object\n\ \n\ Return a new SHAKE hash object."); PyDoc_STRVAR(shake_256__doc__, "shake_256([data], *, usedforsecurity=True) -> SHAKE object\n\ \n\ Return a new SHAKE hash object."); SHA3_TYPE_SLOTS(SHAKE128slots, shake_128__doc__, SHAKE_methods); SHA3_TYPE_SPEC(SHAKE128_spec, "shake_128", SHAKE128slots); SHA3_TYPE_SLOTS(SHAKE256slots, shake_256__doc__, SHAKE_methods); SHA3_TYPE_SPEC(SHAKE256_spec, "shake_256", SHAKE256slots); static int _sha3_traverse(PyObject *module, visitproc visit, void *arg) { SHA3State *state = sha3_get_state(module); Py_VISIT(state->sha3_224_type); Py_VISIT(state->sha3_256_type); Py_VISIT(state->sha3_384_type); Py_VISIT(state->sha3_512_type); #ifdef PY_WITH_KECCAK Py_VISIT(state->keccak_224_type); Py_VISIT(state->keccak_256_type); Py_VISIT(state->keccak_384_type); Py_VISIT(state->keccak_512_type); #endif Py_VISIT(state->shake_128_type); Py_VISIT(state->shake_256_type); return 0; } static int _sha3_clear(PyObject *module) { SHA3State *state = sha3_get_state(module); Py_CLEAR(state->sha3_224_type); Py_CLEAR(state->sha3_256_type); Py_CLEAR(state->sha3_384_type); Py_CLEAR(state->sha3_512_type); #ifdef PY_WITH_KECCAK Py_CLEAR(state->keccak_224_type); Py_CLEAR(state->keccak_256_type); Py_CLEAR(state->keccak_384_type); Py_CLEAR(state->keccak_512_type); #endif Py_CLEAR(state->shake_128_type); Py_CLEAR(state->shake_256_type); return 0; } static void _sha3_free(void *module) { _sha3_clear((PyObject *)module); } static int _sha3_exec(PyObject *m) { SHA3State *st = sha3_get_state(m); #define init_sha3type(type, typespec) \ do { \ st->type = (PyTypeObject *)PyType_FromModuleAndSpec( \ m, &typespec, NULL); \ if (st->type == NULL) { \ return -1; \ } \ if (PyModule_AddType(m, st->type) < 0) { \ return -1; \ } \ } while(0) init_sha3type(sha3_224_type, sha3_224_spec); init_sha3type(sha3_256_type, sha3_256_spec); init_sha3type(sha3_384_type, sha3_384_spec); init_sha3type(sha3_512_type, sha3_512_spec); #ifdef PY_WITH_KECCAK init_sha3type(keccak_224_type, Keccak_224_spec); init_sha3type(keccak_256_type, Keccak_256_spec); init_sha3type(keccak_384_type, Keccak_384_spec); init_sha3type(keccak_512_type, Keccak_512_spec); #endif init_sha3type(shake_128_type, SHAKE128_spec); init_sha3type(shake_256_type, SHAKE256_spec); #undef init_sha3type if (PyModule_AddIntConstant(m, "keccakopt", KeccakOpt) < 0) { return -1; } if (PyModule_AddStringConstant(m, "implementation", KeccakP1600_implementation) < 0) { return -1; } return 0; } static PyModuleDef_Slot _sha3_slots[] = { {Py_mod_exec, _sha3_exec}, {0, NULL} }; /* Initialize this module. */ static struct PyModuleDef _sha3module = { PyModuleDef_HEAD_INIT, .m_name = "_sha3", .m_size = sizeof(SHA3State), .m_slots = _sha3_slots, .m_traverse = _sha3_traverse, .m_clear = _sha3_clear, .m_free = _sha3_free, }; PyMODINIT_FUNC PyInit__sha3(void) { return PyModuleDef_Init(&_sha3module); }