#ifndef _ADSP_CURRENT_PROCESS1_STUB_H #define _ADSP_CURRENT_PROCESS1_STUB_H /* * Copyright (c) 2019, The Linux Foundation. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of The Linux Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS * 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. */ #include "adsp_current_process1.h" #ifndef _QAIC_ENV_H #define _QAIC_ENV_H #ifdef __GNUC__ #ifdef __clang__ #pragma GCC diagnostic ignored "-Wunknown-pragmas" #else #pragma GCC diagnostic ignored "-Wpragmas" #endif #pragma GCC diagnostic ignored "-Wuninitialized" #pragma GCC diagnostic ignored "-Wunused-parameter" #pragma GCC diagnostic ignored "-Wunused-function" #endif #ifndef _ATTRIBUTE_UNUSED #ifdef _WIN32 #define _ATTRIBUTE_UNUSED #else #define _ATTRIBUTE_UNUSED __attribute__ ((unused)) #endif #endif // _ATTRIBUTE_UNUSED #ifndef __QAIC_REMOTE #define __QAIC_REMOTE(ff) ff #endif //__QAIC_REMOTE #ifndef __QAIC_HEADER #define __QAIC_HEADER(ff) ff #endif //__QAIC_HEADER #ifndef __QAIC_HEADER_EXPORT #define __QAIC_HEADER_EXPORT #endif // __QAIC_HEADER_EXPORT #ifndef __QAIC_HEADER_ATTRIBUTE #define __QAIC_HEADER_ATTRIBUTE #endif // __QAIC_HEADER_ATTRIBUTE #ifndef __QAIC_IMPL #define __QAIC_IMPL(ff) ff #endif //__QAIC_IMPL #ifndef __QAIC_IMPL_EXPORT #define __QAIC_IMPL_EXPORT #endif // __QAIC_IMPL_EXPORT #ifndef __QAIC_IMPL_ATTRIBUTE #define __QAIC_IMPL_ATTRIBUTE #endif // __QAIC_IMPL_ATTRIBUTE #ifndef __QAIC_STUB #define __QAIC_STUB(ff) ff #endif //__QAIC_STUB #ifndef __QAIC_STUB_EXPORT #define __QAIC_STUB_EXPORT #endif // __QAIC_STUB_EXPORT #ifndef __QAIC_STUB_ATTRIBUTE #define __QAIC_STUB_ATTRIBUTE #endif // __QAIC_STUB_ATTRIBUTE #ifndef __QAIC_SKEL #define __QAIC_SKEL(ff) ff #endif //__QAIC_SKEL__ #ifndef __QAIC_SKEL_EXPORT #define __QAIC_SKEL_EXPORT #endif // __QAIC_SKEL_EXPORT #ifndef __QAIC_SKEL_ATTRIBUTE #define __QAIC_SKEL_ATTRIBUTE #endif // __QAIC_SKEL_ATTRIBUTE #ifdef __QAIC_DEBUG__ #ifndef __QAIC_DBG_PRINTF__ #include #define __QAIC_DBG_PRINTF__( ee ) do { printf ee ; } while(0) #endif #else #define __QAIC_DBG_PRINTF__( ee ) (void)0 #endif #define _OFFSET(src, sof) ((void*)(((char*)(src)) + (sof))) #define _COPY(dst, dof, src, sof, sz) \ do {\ struct __copy { \ char ar[sz]; \ };\ *(struct __copy*)_OFFSET(dst, dof) = *(struct __copy*)_OFFSET(src, sof);\ } while (0) #define _COPYIF(dst, dof, src, sof, sz) \ do {\ if(_OFFSET(dst, dof) != _OFFSET(src, sof)) {\ _COPY(dst, dof, src, sof, sz); \ } \ } while (0) _ATTRIBUTE_UNUSED static __inline void _qaic_memmove(void* dst, void* src, int size) { int i; for(i = 0; i < size; ++i) { ((char*)dst)[i] = ((char*)src)[i]; } } #define _MEMMOVEIF(dst, src, sz) \ do {\ if(dst != src) {\ _qaic_memmove(dst, src, sz);\ } \ } while (0) #define _ASSIGN(dst, src, sof) \ do {\ dst = OFFSET(src, sof); \ } while (0) #define _STD_STRLEN_IF(str) (str == 0 ? 0 : strlen(str)) #include "AEEStdErr.h" #define _TRY(ee, func) \ do { \ if (AEE_SUCCESS != ((ee) = func)) {\ __QAIC_DBG_PRINTF__((__FILE__ ":%d:error:%d:%s\n", __LINE__, (int)(ee),#func));\ goto ee##bail;\ } \ } while (0) #define _CATCH(exception) exception##bail: if (exception != AEE_SUCCESS) #define _ASSERT(nErr, ff) _TRY(nErr, 0 == (ff) ? AEE_EBADPARM : AEE_SUCCESS) #ifdef __QAIC_DEBUG__ #define _ALLOCATE(nErr, pal, size, alignment, pv) _TRY(nErr, _allocator_alloc(pal, __FILE_LINE__, size, alignment, (void**)&pv)) #else #define _ALLOCATE(nErr, pal, size, alignment, pv) _TRY(nErr, _allocator_alloc(pal, 0, size, alignment, (void**)&pv)) #endif #endif // _QAIC_ENV_H #include "remote.h" #include #ifndef _ALLOCATOR_H #define _ALLOCATOR_H #include #include typedef struct _heap _heap; struct _heap { _heap* pPrev; const char* loc; uint64_t buf; }; typedef struct _allocator { _heap* pheap; uint8_t* stack; uint8_t* stackEnd; int nSize; } _allocator; _ATTRIBUTE_UNUSED static __inline int _heap_alloc(_heap** ppa, const char* loc, int size, void** ppbuf) { _heap* pn = 0; pn = malloc(size + sizeof(_heap) - sizeof(uint64_t)); if(pn != 0) { pn->pPrev = *ppa; pn->loc = loc; *ppa = pn; *ppbuf = (void*)&(pn->buf); return 0; } else { return -1; } } #define _ALIGN_SIZE(x, y) (((x) + (y-1)) & ~(y-1)) _ATTRIBUTE_UNUSED static __inline int _allocator_alloc(_allocator* me, const char* loc, int size, unsigned int al, void** ppbuf) { if(size < 0) { return -1; } else if (size == 0) { *ppbuf = 0; return 0; } if((_ALIGN_SIZE((uintptr_t)me->stackEnd, al) + size) < (uintptr_t)me->stack + me->nSize) { *ppbuf = (uint8_t*)_ALIGN_SIZE((uintptr_t)me->stackEnd, al); me->stackEnd = (uint8_t*)_ALIGN_SIZE((uintptr_t)me->stackEnd, al) + size; return 0; } else { return _heap_alloc(&me->pheap, loc, size, ppbuf); } } _ATTRIBUTE_UNUSED static __inline void _allocator_deinit(_allocator* me) { _heap* pa = me->pheap; while(pa != 0) { _heap* pn = pa; const char* loc = pn->loc; (void)loc; pa = pn->pPrev; free(pn); } } _ATTRIBUTE_UNUSED static __inline void _allocator_init(_allocator* me, uint8_t* stack, int stackSize) { me->stack = stack; me->stackEnd = stack + stackSize; me->nSize = stackSize; me->pheap = 0; } #endif // _ALLOCATOR_H #ifndef SLIM_H #define SLIM_H #include //a C data structure for the idl types that can be used to implement //static and dynamic language bindings fairly efficiently. // //the goal is to have a minimal ROM and RAM footprint and without //doing too many allocations. A good way to package these things seemed //like the module boundary, so all the idls within one module can share //all the type references. #define PARAMETER_IN 0x0 #define PARAMETER_OUT 0x1 #define PARAMETER_INOUT 0x2 #define PARAMETER_ROUT 0x3 #define PARAMETER_INROUT 0x4 //the types that we get from idl #define TYPE_OBJECT 0x0 #define TYPE_INTERFACE 0x1 #define TYPE_PRIMITIVE 0x2 #define TYPE_ENUM 0x3 #define TYPE_STRING 0x4 #define TYPE_WSTRING 0x5 #define TYPE_STRUCTURE 0x6 #define TYPE_UNION 0x7 #define TYPE_ARRAY 0x8 #define TYPE_SEQUENCE 0x9 //these require the pack/unpack to recurse //so it's a hint to those languages that can optimize in cases where //recursion isn't necessary. #define TYPE_COMPLEX_STRUCTURE (0x10 | TYPE_STRUCTURE) #define TYPE_COMPLEX_UNION (0x10 | TYPE_UNION) #define TYPE_COMPLEX_ARRAY (0x10 | TYPE_ARRAY) #define TYPE_COMPLEX_SEQUENCE (0x10 | TYPE_SEQUENCE) typedef struct Type Type; #define INHERIT_TYPE\ int32_t nativeSize; /*in the simple case its the same as wire size and alignment*/\ union {\ struct {\ const uintptr_t p1;\ const uintptr_t p2;\ } _cast;\ struct {\ uint32_t iid;\ uint32_t bNotNil;\ } object;\ struct {\ const Type *arrayType;\ int32_t nItems;\ } array;\ struct {\ const Type *seqType;\ int32_t nMaxLen;\ } seqSimple; \ struct {\ uint32_t bFloating;\ uint32_t bSigned;\ } prim; \ const SequenceType* seqComplex;\ const UnionType *unionType;\ const StructType *structType;\ int32_t stringMaxLen;\ uint8_t bInterfaceNotNil;\ } param;\ uint8_t type;\ uint8_t nativeAlignment\ typedef struct UnionType UnionType; typedef struct StructType StructType; typedef struct SequenceType SequenceType; struct Type { INHERIT_TYPE; }; struct SequenceType { const Type * seqType; uint32_t nMaxLen; uint32_t inSize; uint32_t routSizePrimIn; uint32_t routSizePrimROut; }; //byte offset from the start of the case values for //this unions case value array. it MUST be aligned //at the alignment requrements for the descriptor // //if negative it means that the unions cases are //simple enumerators, so the value read from the descriptor //can be used directly to find the correct case typedef union CaseValuePtr CaseValuePtr; union CaseValuePtr { const uint8_t* value8s; const uint16_t* value16s; const uint32_t* value32s; const uint64_t* value64s; }; //these are only used in complex cases //so I pulled them out of the type definition as references to make //the type smaller struct UnionType { const Type *descriptor; uint32_t nCases; const CaseValuePtr caseValues; const Type * const *cases; int32_t inSize; int32_t routSizePrimIn; int32_t routSizePrimROut; uint8_t inAlignment; uint8_t routAlignmentPrimIn; uint8_t routAlignmentPrimROut; uint8_t inCaseAlignment; uint8_t routCaseAlignmentPrimIn; uint8_t routCaseAlignmentPrimROut; uint8_t nativeCaseAlignment; uint8_t bDefaultCase; }; struct StructType { uint32_t nMembers; const Type * const *members; int32_t inSize; int32_t routSizePrimIn; int32_t routSizePrimROut; uint8_t inAlignment; uint8_t routAlignmentPrimIn; uint8_t routAlignmentPrimROut; }; typedef struct Parameter Parameter; struct Parameter { INHERIT_TYPE; uint8_t mode; uint8_t bNotNil; }; #define SLIM_IFPTR32(is32,is64) (sizeof(uintptr_t) == 4 ? (is32) : (is64)) #define SLIM_SCALARS_IS_DYNAMIC(u) (((u) & 0x00ffffff) == 0x00ffffff) typedef struct Method Method; struct Method { uint32_t uScalars; //no method index int32_t primInSize; int32_t primROutSize; int maxArgs; int numParams; const Parameter * const *params; uint8_t primInAlignment; uint8_t primROutAlignment; }; typedef struct Interface Interface; struct Interface { int nMethods; const Method * const *methodArray; int nIIds; const uint32_t *iids; const uint16_t* methodStringArray; const uint16_t* methodStrings; const char* strings; }; #endif //SLIM_H #ifndef _ADSP_CURRENT_PROCESS1_SLIM_H #define _ADSP_CURRENT_PROCESS1_SLIM_H #include "remote.h" #include #ifndef __QAIC_SLIM #define __QAIC_SLIM(ff) ff #endif #ifndef __QAIC_SLIM_EXPORT #define __QAIC_SLIM_EXPORT #endif static const Type types[1]; static const SequenceType sequenceTypes[1] = {{&(types[0]),0x0,0x4,0x4,0x0}}; static const Type types[1] = {{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)0x0,0}}, 4,SLIM_IFPTR32(0x4,0x8)}}; static const Parameter parameters[6] = {{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)0x0,0}}, 4,SLIM_IFPTR32(0x4,0x8),0,0},{SLIM_IFPTR32(0x4,0x8),{{(const uintptr_t)0xdeadc0de,(const uintptr_t)0}}, 0,SLIM_IFPTR32(0x4,0x8),3,0},{SLIM_IFPTR32(0x4,0x8),{{(const uintptr_t)0xdeadc0de,(const uintptr_t)0}}, 0,SLIM_IFPTR32(0x4,0x8),0,0},{0x2,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x2,0,0},{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)&(sequenceTypes[0]),0}}, 25,SLIM_IFPTR32(0x4,0x8),0,0},{0x4,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x4,3,0}}; static const Parameter* const parameterArrays[6] = {(&(parameters[3])),(&(parameters[4])),(&(parameters[0])),(&(parameters[1])),(&(parameters[5])),(&(parameters[2]))}; static const Method methods[5] = {{REMOTE_SCALARS_MAKEX(0,0,0x2,0x0,0x0,0x1),0x4,0x0,2,2,(&(parameterArrays[2])),0x4,0x1},{REMOTE_SCALARS_MAKEX(0,0,0x0,0x0,0x1,0x0),0x0,0x0,1,1,(&(parameterArrays[5])),0x1,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x0,0x0,0x0,0x0),0x0,0x0,0,0,0,0x0,0x0},{REMOTE_SCALARS_MAKEX(0,0,255,255,15,15),0x8,0x0,3,2,(&(parameterArrays[0])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x0,0x1,0x0,0x0),0x0,0x4,1,1,(&(parameterArrays[4])),0x1,0x4}}; static const Method* const methodArrays[6] = {&(methods[0]),&(methods[1]),&(methods[2]),&(methods[2]),&(methods[3]),&(methods[4])}; static const char strings[77] = "set_logging_params\0thread_exit\0filesToLog\0getASID\0close\0asid\0mask\0open\0uri\0h\0"; static const uint16_t methodStrings[12] = {0,61,31,66,71,75,42,56,50,75,19,26}; static const uint16_t methodStringsArrays[6] = {3,8,11,10,0,6}; __QAIC_SLIM_EXPORT const Interface __QAIC_SLIM(adsp_current_process1_slim) = {6,&(methodArrays[0]),0,0,&(methodStringsArrays [0]),methodStrings,strings}; #endif //_ADSP_CURRENT_PROCESS1_SLIM_H __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_skel_handle_invoke)(remote_handle64 _h, uint32_t _sc, remote_arg* _pra) __QAIC_STUB_ATTRIBUTE { return __QAIC_REMOTE(remote_handle64_invoke)(_h, _sc, _pra); } #ifdef __cplusplus extern "C" { #endif __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_open)(const char* uri, remote_handle64* h) __QAIC_STUB_ATTRIBUTE { return __QAIC_REMOTE(remote_handle64_open)(uri, h); } __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_close)(remote_handle64 h) __QAIC_STUB_ATTRIBUTE { return __QAIC_REMOTE(remote_handle64_close)(h); } static __inline int _stub_method(remote_handle64 _handle, uint32_t _mid) { remote_arg* _pra = 0; int _nErr = 0; _TRY(_nErr, __QAIC_REMOTE(remote_handle64_invoke)(_handle, REMOTE_SCALARS_MAKEX(0, _mid, 0, 0, 0, 0), _pra)); _CATCH(_nErr) {} return _nErr; } __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_exit)(remote_handle64 _handle) __QAIC_STUB_ATTRIBUTE { uint32_t _mid = 2; return _stub_method(_handle, _mid); } __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_thread_exit)(remote_handle64 _handle) __QAIC_STUB_ATTRIBUTE { uint32_t _mid = 3; return _stub_method(_handle, _mid); } static __inline int _stub_unpack(remote_arg* _praROutPost, remote_arg* _ppraROutPost[1], void* _primROut, char* _in0[1], uint32_t _in0Len[1]) { int _nErr = 0; remote_arg* _praROutPostStart = _praROutPost; remote_arg** _ppraROutPostStart = _ppraROutPost; _ppraROutPost = &_praROutPost; _ppraROutPostStart[0] += (_praROutPost - _praROutPostStart) +0; return _nErr; } static __inline int _stub_pack(_allocator* _al, remote_arg* _praIn, remote_arg* _ppraIn[1], remote_arg* _praROut, remote_arg* _ppraROut[1], void* _primIn, void* _primROut, char* _in0[1], uint32_t _in0Len[1]) { int _nErr = 0; remote_arg* _praInStart = _praIn; remote_arg** _ppraInStart = _ppraIn; remote_arg* _praROutStart = _praROut; remote_arg** _ppraROutStart = _ppraROut; _ppraIn = &_praIn; _ppraROut = &_praROut; _in0Len[0] = (1 + strlen(_in0[0])); _COPY(_primIn, 0, _in0Len, 0, 4); _praIn[0].buf.pv = _in0[0]; _praIn[0].buf.nLen = (1 * _in0Len[0]); _ppraInStart[0] += (_praIn - _praInStart) + 1; _ppraROutStart[0] += (_praROut - _praROutStart) +0; return _nErr; } static __inline void _count(int _numIn[1], int _numROut[1], char* _in0[1], uint32_t _in0Len[1]) { _numIn[0] += 1; _numROut[0] += 0; } static __inline int _stub_method_1(remote_handle64 _handle, uint32_t _mid, uint16_t _in0[1], void* _in1[1], uint32_t _in1Len[1]) { remote_arg* _pra; int _numIn[1]; int _numROut[1]; char* _seq_nat1; int _ii; _allocator _al[1] = {{0}}; uint32_t _primIn[2]; remote_arg* _praIn; remote_arg** _ppraIn = &_praIn; remote_arg* _praROut; remote_arg** _ppraROut = &_praROut; char* _seq_primIn1; int _nErr = 0; remote_arg* _praROutPost; remote_arg** _ppraROutPost = &_praROutPost; _numIn[0] = 1; _numROut[0] = 0; for(_ii = 0, _seq_nat1 = (char*)_in1[0];_ii < (int)_in1Len[0];++_ii, _seq_nat1 = (_seq_nat1 + SLIM_IFPTR32(8, 16))) { _count(_numIn, _numROut, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat1)[0]), (char**)&(((uint64_t*)_seq_nat1)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat1)[1]), (uint32_t*)&(((uint32_t*)_seq_nat1)[2]))); } _allocator_init(_al, 0, 0); _ALLOCATE(_nErr, _al, ((((_numIn[0] + _numROut[0]) + 1) + 0) * sizeof(_pra[0])), 4, _pra); _pra[0].buf.pv = (void*)_primIn; _pra[0].buf.nLen = sizeof(_primIn); _COPY(_primIn, 0, _in0, 0, 2); _COPY(_primIn, 4, _in1Len, 0, 4); _praIn = (_pra + 1); _praROut = (_praIn + _numIn[0] + 0); _ALLOCATE(_nErr, _al, (_in1Len[0] * 4), 4, _praIn[0].buf.pv); _praIn[0].buf.nLen = (4 * _in1Len[0]); for(_ii = 0, _seq_primIn1 = (char*)_praIn[0].buf.pv, _seq_nat1 = (char*)_in1[0];_ii < (int)_in1Len[0];++_ii, _seq_primIn1 = (_seq_primIn1 + 4), _seq_nat1 = (_seq_nat1 + SLIM_IFPTR32(8, 16))) { _TRY(_nErr, _stub_pack(_al, (_praIn + 1), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn1, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat1)[0]), (char**)&(((uint64_t*)_seq_nat1)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat1)[1]), (uint32_t*)&(((uint32_t*)_seq_nat1)[2])))); } _TRY(_nErr, __QAIC_REMOTE(remote_handle64_invoke)(_handle, REMOTE_SCALARS_MAKEX(0, _mid, (_numIn[0] + 1), (_numROut[0] + 0), 0, 0), _pra)); _praROutPost = _praROut; for(_ii = 0, _seq_nat1 = (char*)_in1[0];_ii < (int)_in1Len[0];++_ii, _seq_nat1 = (_seq_nat1 + SLIM_IFPTR32(8, 16))) { _TRY(_nErr, _stub_unpack((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat1)[0]), (char**)&(((uint64_t*)_seq_nat1)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat1)[1]), (uint32_t*)&(((uint32_t*)_seq_nat1)[2])))); } _CATCH(_nErr) {} _allocator_deinit(_al); return _nErr; } __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_set_logging_params)(remote_handle64 _handle, unsigned short mask, const _cstring1_t* filesToLog, int filesToLogLen) __QAIC_STUB_ATTRIBUTE { uint32_t _mid = 4; return _stub_method_1(_handle, _mid, (uint16_t*)&mask, (void**)&filesToLog, (uint32_t*)&filesToLogLen); } static __inline int _stub_method_2(remote_handle64 _handle, uint32_t _mid, uint32_t _rout0[1]) { int _numIn[1]; remote_arg _pra[1]; uint32_t _primROut[1]; int _nErr = 0; _numIn[0] = 0; _pra[(_numIn[0] + 0)].buf.pv = (void*)_primROut; _pra[(_numIn[0] + 0)].buf.nLen = sizeof(_primROut); _TRY(_nErr, __QAIC_REMOTE(remote_handle64_invoke)(_handle, REMOTE_SCALARS_MAKEX(0, _mid, 0, 1, 0, 0), _pra)); _COPY(_rout0, 0, _primROut, 0, 4); _CATCH(_nErr) {} return _nErr; } __QAIC_STUB_EXPORT int __QAIC_STUB(adsp_current_process1_getASID)(remote_handle64 _handle, unsigned int* asid) __QAIC_STUB_ATTRIBUTE { uint32_t _mid = 5; return _stub_method_2(_handle, _mid, (uint32_t*)asid); } #ifdef __cplusplus } #endif #endif //_ADSP_CURRENT_PROCESS1_STUB_H