1*418b791dSBob Badour #ifndef _APPS_STD_SKEL_H
2*418b791dSBob Badour #define _APPS_STD_SKEL_H
3*418b791dSBob Badour /*
4*418b791dSBob Badour * Copyright (c) 2019, The Linux Foundation. All rights reserved.
5*418b791dSBob Badour *
6*418b791dSBob Badour * Redistribution and use in source and binary forms, with or without
7*418b791dSBob Badour * modification, are permitted provided that the following conditions are
8*418b791dSBob Badour * met:
9*418b791dSBob Badour * * Redistributions of source code must retain the above copyright
10*418b791dSBob Badour * notice, this list of conditions and the following disclaimer.
11*418b791dSBob Badour * * Redistributions in binary form must reproduce the above
12*418b791dSBob Badour * copyright notice, this list of conditions and the following
13*418b791dSBob Badour * disclaimer in the documentation and/or other materials provided
14*418b791dSBob Badour * with the distribution.
15*418b791dSBob Badour * * Neither the name of The Linux Foundation nor the names of its
16*418b791dSBob Badour * contributors may be used to endorse or promote products derived
17*418b791dSBob Badour * from this software without specific prior written permission.
18*418b791dSBob Badour *
19*418b791dSBob Badour * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
20*418b791dSBob Badour * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
21*418b791dSBob Badour * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
22*418b791dSBob Badour * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
23*418b791dSBob Badour * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
24*418b791dSBob Badour * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
25*418b791dSBob Badour * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
26*418b791dSBob Badour * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
27*418b791dSBob Badour * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
28*418b791dSBob Badour * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
29*418b791dSBob Badour * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
30*418b791dSBob Badour */
31*418b791dSBob Badour #include "apps_std.h"
32*418b791dSBob Badour #ifndef _QAIC_ENV_H
33*418b791dSBob Badour #define _QAIC_ENV_H
34*418b791dSBob Badour
35*418b791dSBob Badour #ifdef __GNUC__
36*418b791dSBob Badour #ifdef __clang__
37*418b791dSBob Badour #pragma GCC diagnostic ignored "-Wunknown-pragmas"
38*418b791dSBob Badour #else
39*418b791dSBob Badour #pragma GCC diagnostic ignored "-Wpragmas"
40*418b791dSBob Badour #endif
41*418b791dSBob Badour #pragma GCC diagnostic ignored "-Wuninitialized"
42*418b791dSBob Badour #pragma GCC diagnostic ignored "-Wunused-parameter"
43*418b791dSBob Badour #pragma GCC diagnostic ignored "-Wunused-function"
44*418b791dSBob Badour #endif
45*418b791dSBob Badour
46*418b791dSBob Badour #ifndef _ATTRIBUTE_UNUSED
47*418b791dSBob Badour
48*418b791dSBob Badour #ifdef _WIN32
49*418b791dSBob Badour #define _ATTRIBUTE_UNUSED
50*418b791dSBob Badour #else
51*418b791dSBob Badour #define _ATTRIBUTE_UNUSED __attribute__ ((unused))
52*418b791dSBob Badour #endif
53*418b791dSBob Badour
54*418b791dSBob Badour #endif // _ATTRIBUTE_UNUSED
55*418b791dSBob Badour
56*418b791dSBob Badour #ifndef __QAIC_REMOTE
57*418b791dSBob Badour #define __QAIC_REMOTE(ff) ff
58*418b791dSBob Badour #endif //__QAIC_REMOTE
59*418b791dSBob Badour
60*418b791dSBob Badour #ifndef __QAIC_HEADER
61*418b791dSBob Badour #define __QAIC_HEADER(ff) ff
62*418b791dSBob Badour #endif //__QAIC_HEADER
63*418b791dSBob Badour
64*418b791dSBob Badour #ifndef __QAIC_HEADER_EXPORT
65*418b791dSBob Badour #define __QAIC_HEADER_EXPORT
66*418b791dSBob Badour #endif // __QAIC_HEADER_EXPORT
67*418b791dSBob Badour
68*418b791dSBob Badour #ifndef __QAIC_HEADER_ATTRIBUTE
69*418b791dSBob Badour #define __QAIC_HEADER_ATTRIBUTE
70*418b791dSBob Badour #endif // __QAIC_HEADER_ATTRIBUTE
71*418b791dSBob Badour
72*418b791dSBob Badour #ifndef __QAIC_IMPL
73*418b791dSBob Badour #define __QAIC_IMPL(ff) ff
74*418b791dSBob Badour #endif //__QAIC_IMPL
75*418b791dSBob Badour
76*418b791dSBob Badour #ifndef __QAIC_IMPL_EXPORT
77*418b791dSBob Badour #define __QAIC_IMPL_EXPORT
78*418b791dSBob Badour #endif // __QAIC_IMPL_EXPORT
79*418b791dSBob Badour
80*418b791dSBob Badour #ifndef __QAIC_IMPL_ATTRIBUTE
81*418b791dSBob Badour #define __QAIC_IMPL_ATTRIBUTE
82*418b791dSBob Badour #endif // __QAIC_IMPL_ATTRIBUTE
83*418b791dSBob Badour
84*418b791dSBob Badour #ifndef __QAIC_STUB
85*418b791dSBob Badour #define __QAIC_STUB(ff) ff
86*418b791dSBob Badour #endif //__QAIC_STUB
87*418b791dSBob Badour
88*418b791dSBob Badour #ifndef __QAIC_STUB_EXPORT
89*418b791dSBob Badour #define __QAIC_STUB_EXPORT
90*418b791dSBob Badour #endif // __QAIC_STUB_EXPORT
91*418b791dSBob Badour
92*418b791dSBob Badour #ifndef __QAIC_STUB_ATTRIBUTE
93*418b791dSBob Badour #define __QAIC_STUB_ATTRIBUTE
94*418b791dSBob Badour #endif // __QAIC_STUB_ATTRIBUTE
95*418b791dSBob Badour
96*418b791dSBob Badour #ifndef __QAIC_SKEL
97*418b791dSBob Badour #define __QAIC_SKEL(ff) ff
98*418b791dSBob Badour #endif //__QAIC_SKEL__
99*418b791dSBob Badour
100*418b791dSBob Badour #ifndef __QAIC_SKEL_EXPORT
101*418b791dSBob Badour #define __QAIC_SKEL_EXPORT
102*418b791dSBob Badour #endif // __QAIC_SKEL_EXPORT
103*418b791dSBob Badour
104*418b791dSBob Badour #ifndef __QAIC_SKEL_ATTRIBUTE
105*418b791dSBob Badour #define __QAIC_SKEL_ATTRIBUTE
106*418b791dSBob Badour #endif // __QAIC_SKEL_ATTRIBUTE
107*418b791dSBob Badour
108*418b791dSBob Badour #ifdef __QAIC_DEBUG__
109*418b791dSBob Badour #ifndef __QAIC_DBG_PRINTF__
110*418b791dSBob Badour #include <stdio.h>
111*418b791dSBob Badour #define __QAIC_DBG_PRINTF__( ee ) do { printf ee ; } while(0)
112*418b791dSBob Badour #endif
113*418b791dSBob Badour #else
114*418b791dSBob Badour #define __QAIC_DBG_PRINTF__( ee ) (void)0
115*418b791dSBob Badour #endif
116*418b791dSBob Badour
117*418b791dSBob Badour
118*418b791dSBob Badour #define _OFFSET(src, sof) ((void*)(((char*)(src)) + (sof)))
119*418b791dSBob Badour
120*418b791dSBob Badour #define _COPY(dst, dof, src, sof, sz) \
121*418b791dSBob Badour do {\
122*418b791dSBob Badour struct __copy { \
123*418b791dSBob Badour char ar[sz]; \
124*418b791dSBob Badour };\
125*418b791dSBob Badour *(struct __copy*)_OFFSET(dst, dof) = *(struct __copy*)_OFFSET(src, sof);\
126*418b791dSBob Badour } while (0)
127*418b791dSBob Badour
128*418b791dSBob Badour #define _COPYIF(dst, dof, src, sof, sz) \
129*418b791dSBob Badour do {\
130*418b791dSBob Badour if(_OFFSET(dst, dof) != _OFFSET(src, sof)) {\
131*418b791dSBob Badour _COPY(dst, dof, src, sof, sz); \
132*418b791dSBob Badour } \
133*418b791dSBob Badour } while (0)
134*418b791dSBob Badour
135*418b791dSBob Badour _ATTRIBUTE_UNUSED
_qaic_memmove(void * dst,void * src,int size)136*418b791dSBob Badour static __inline void _qaic_memmove(void* dst, void* src, int size) {
137*418b791dSBob Badour int i;
138*418b791dSBob Badour for(i = 0; i < size; ++i) {
139*418b791dSBob Badour ((char*)dst)[i] = ((char*)src)[i];
140*418b791dSBob Badour }
141*418b791dSBob Badour }
142*418b791dSBob Badour
143*418b791dSBob Badour #define _MEMMOVEIF(dst, src, sz) \
144*418b791dSBob Badour do {\
145*418b791dSBob Badour if(dst != src) {\
146*418b791dSBob Badour _qaic_memmove(dst, src, sz);\
147*418b791dSBob Badour } \
148*418b791dSBob Badour } while (0)
149*418b791dSBob Badour
150*418b791dSBob Badour
151*418b791dSBob Badour #define _ASSIGN(dst, src, sof) \
152*418b791dSBob Badour do {\
153*418b791dSBob Badour dst = OFFSET(src, sof); \
154*418b791dSBob Badour } while (0)
155*418b791dSBob Badour
156*418b791dSBob Badour #define _STD_STRLEN_IF(str) (str == 0 ? 0 : strlen(str))
157*418b791dSBob Badour
158*418b791dSBob Badour #include "AEEStdErr.h"
159*418b791dSBob Badour
160*418b791dSBob Badour #define _TRY(ee, func) \
161*418b791dSBob Badour do { \
162*418b791dSBob Badour if (AEE_SUCCESS != ((ee) = func)) {\
163*418b791dSBob Badour __QAIC_DBG_PRINTF__((__FILE__ ":%d:error:%d:%s\n", __LINE__, (int)(ee),#func));\
164*418b791dSBob Badour goto ee##bail;\
165*418b791dSBob Badour } \
166*418b791dSBob Badour } while (0)
167*418b791dSBob Badour
168*418b791dSBob Badour #define _CATCH(exception) exception##bail: if (exception != AEE_SUCCESS)
169*418b791dSBob Badour
170*418b791dSBob Badour #define _ASSERT(nErr, ff) _TRY(nErr, 0 == (ff) ? AEE_EBADPARM : AEE_SUCCESS)
171*418b791dSBob Badour
172*418b791dSBob Badour #ifdef __QAIC_DEBUG__
173*418b791dSBob Badour #define _ALLOCATE(nErr, pal, size, alignment, pv) _TRY(nErr, _allocator_alloc(pal, __FILE_LINE__, size, alignment, (void**)&pv))
174*418b791dSBob Badour #else
175*418b791dSBob Badour #define _ALLOCATE(nErr, pal, size, alignment, pv) _TRY(nErr, _allocator_alloc(pal, 0, size, alignment, (void**)&pv))
176*418b791dSBob Badour #endif
177*418b791dSBob Badour
178*418b791dSBob Badour
179*418b791dSBob Badour #endif // _QAIC_ENV_H
180*418b791dSBob Badour
181*418b791dSBob Badour #include "remote.h"
182*418b791dSBob Badour #include <string.h>
183*418b791dSBob Badour #ifndef _ALLOCATOR_H
184*418b791dSBob Badour #define _ALLOCATOR_H
185*418b791dSBob Badour
186*418b791dSBob Badour #include <stdlib.h>
187*418b791dSBob Badour #include <stdint.h>
188*418b791dSBob Badour
189*418b791dSBob Badour typedef struct _heap _heap;
190*418b791dSBob Badour struct _heap {
191*418b791dSBob Badour _heap* pPrev;
192*418b791dSBob Badour const char* loc;
193*418b791dSBob Badour uint64_t buf;
194*418b791dSBob Badour };
195*418b791dSBob Badour
196*418b791dSBob Badour typedef struct _allocator {
197*418b791dSBob Badour _heap* pheap;
198*418b791dSBob Badour uint8_t* stack;
199*418b791dSBob Badour uint8_t* stackEnd;
200*418b791dSBob Badour int nSize;
201*418b791dSBob Badour } _allocator;
202*418b791dSBob Badour
203*418b791dSBob Badour _ATTRIBUTE_UNUSED
_heap_alloc(_heap ** ppa,const char * loc,int size,void ** ppbuf)204*418b791dSBob Badour static __inline int _heap_alloc(_heap** ppa, const char* loc, int size, void** ppbuf) {
205*418b791dSBob Badour _heap* pn = 0;
206*418b791dSBob Badour pn = malloc(size + sizeof(_heap) - sizeof(uint64_t));
207*418b791dSBob Badour if(pn != 0) {
208*418b791dSBob Badour pn->pPrev = *ppa;
209*418b791dSBob Badour pn->loc = loc;
210*418b791dSBob Badour *ppa = pn;
211*418b791dSBob Badour *ppbuf = (void*)&(pn->buf);
212*418b791dSBob Badour return 0;
213*418b791dSBob Badour } else {
214*418b791dSBob Badour return -1;
215*418b791dSBob Badour }
216*418b791dSBob Badour }
217*418b791dSBob Badour #define _ALIGN_SIZE(x, y) (((x) + (y-1)) & ~(y-1))
218*418b791dSBob Badour
219*418b791dSBob Badour _ATTRIBUTE_UNUSED
_allocator_alloc(_allocator * me,const char * loc,int size,unsigned int al,void ** ppbuf)220*418b791dSBob Badour static __inline int _allocator_alloc(_allocator* me,
221*418b791dSBob Badour const char* loc,
222*418b791dSBob Badour int size,
223*418b791dSBob Badour unsigned int al,
224*418b791dSBob Badour void** ppbuf) {
225*418b791dSBob Badour if(size < 0) {
226*418b791dSBob Badour return -1;
227*418b791dSBob Badour } else if (size == 0) {
228*418b791dSBob Badour *ppbuf = 0;
229*418b791dSBob Badour return 0;
230*418b791dSBob Badour }
231*418b791dSBob Badour if((_ALIGN_SIZE((uintptr_t)me->stackEnd, al) + size) < (uintptr_t)me->stack + me->nSize) {
232*418b791dSBob Badour *ppbuf = (uint8_t*)_ALIGN_SIZE((uintptr_t)me->stackEnd, al);
233*418b791dSBob Badour me->stackEnd = (uint8_t*)_ALIGN_SIZE((uintptr_t)me->stackEnd, al) + size;
234*418b791dSBob Badour return 0;
235*418b791dSBob Badour } else {
236*418b791dSBob Badour return _heap_alloc(&me->pheap, loc, size, ppbuf);
237*418b791dSBob Badour }
238*418b791dSBob Badour }
239*418b791dSBob Badour
240*418b791dSBob Badour _ATTRIBUTE_UNUSED
_allocator_deinit(_allocator * me)241*418b791dSBob Badour static __inline void _allocator_deinit(_allocator* me) {
242*418b791dSBob Badour _heap* pa = me->pheap;
243*418b791dSBob Badour while(pa != 0) {
244*418b791dSBob Badour _heap* pn = pa;
245*418b791dSBob Badour const char* loc = pn->loc;
246*418b791dSBob Badour (void)loc;
247*418b791dSBob Badour pa = pn->pPrev;
248*418b791dSBob Badour free(pn);
249*418b791dSBob Badour }
250*418b791dSBob Badour }
251*418b791dSBob Badour
252*418b791dSBob Badour _ATTRIBUTE_UNUSED
_allocator_init(_allocator * me,uint8_t * stack,int stackSize)253*418b791dSBob Badour static __inline void _allocator_init(_allocator* me, uint8_t* stack, int stackSize) {
254*418b791dSBob Badour me->stack = stack;
255*418b791dSBob Badour me->stackEnd = stack + stackSize;
256*418b791dSBob Badour me->nSize = stackSize;
257*418b791dSBob Badour me->pheap = 0;
258*418b791dSBob Badour }
259*418b791dSBob Badour
260*418b791dSBob Badour
261*418b791dSBob Badour #endif // _ALLOCATOR_H
262*418b791dSBob Badour
263*418b791dSBob Badour #ifndef SLIM_H
264*418b791dSBob Badour #define SLIM_H
265*418b791dSBob Badour
266*418b791dSBob Badour #include <stdint.h>
267*418b791dSBob Badour
268*418b791dSBob Badour //a C data structure for the idl types that can be used to implement
269*418b791dSBob Badour //static and dynamic language bindings fairly efficiently.
270*418b791dSBob Badour //
271*418b791dSBob Badour //the goal is to have a minimal ROM and RAM footprint and without
272*418b791dSBob Badour //doing too many allocations. A good way to package these things seemed
273*418b791dSBob Badour //like the module boundary, so all the idls within one module can share
274*418b791dSBob Badour //all the type references.
275*418b791dSBob Badour
276*418b791dSBob Badour
277*418b791dSBob Badour #define PARAMETER_IN 0x0
278*418b791dSBob Badour #define PARAMETER_OUT 0x1
279*418b791dSBob Badour #define PARAMETER_INOUT 0x2
280*418b791dSBob Badour #define PARAMETER_ROUT 0x3
281*418b791dSBob Badour #define PARAMETER_INROUT 0x4
282*418b791dSBob Badour
283*418b791dSBob Badour //the types that we get from idl
284*418b791dSBob Badour #define TYPE_OBJECT 0x0
285*418b791dSBob Badour #define TYPE_INTERFACE 0x1
286*418b791dSBob Badour #define TYPE_PRIMITIVE 0x2
287*418b791dSBob Badour #define TYPE_ENUM 0x3
288*418b791dSBob Badour #define TYPE_STRING 0x4
289*418b791dSBob Badour #define TYPE_WSTRING 0x5
290*418b791dSBob Badour #define TYPE_STRUCTURE 0x6
291*418b791dSBob Badour #define TYPE_UNION 0x7
292*418b791dSBob Badour #define TYPE_ARRAY 0x8
293*418b791dSBob Badour #define TYPE_SEQUENCE 0x9
294*418b791dSBob Badour
295*418b791dSBob Badour //these require the pack/unpack to recurse
296*418b791dSBob Badour //so it's a hint to those languages that can optimize in cases where
297*418b791dSBob Badour //recursion isn't necessary.
298*418b791dSBob Badour #define TYPE_COMPLEX_STRUCTURE (0x10 | TYPE_STRUCTURE)
299*418b791dSBob Badour #define TYPE_COMPLEX_UNION (0x10 | TYPE_UNION)
300*418b791dSBob Badour #define TYPE_COMPLEX_ARRAY (0x10 | TYPE_ARRAY)
301*418b791dSBob Badour #define TYPE_COMPLEX_SEQUENCE (0x10 | TYPE_SEQUENCE)
302*418b791dSBob Badour
303*418b791dSBob Badour
304*418b791dSBob Badour typedef struct Type Type;
305*418b791dSBob Badour
306*418b791dSBob Badour #define INHERIT_TYPE\
307*418b791dSBob Badour int32_t nativeSize; /*in the simple case its the same as wire size and alignment*/\
308*418b791dSBob Badour union {\
309*418b791dSBob Badour struct {\
310*418b791dSBob Badour const uintptr_t p1;\
311*418b791dSBob Badour const uintptr_t p2;\
312*418b791dSBob Badour } _cast;\
313*418b791dSBob Badour struct {\
314*418b791dSBob Badour uint32_t iid;\
315*418b791dSBob Badour uint32_t bNotNil;\
316*418b791dSBob Badour } object;\
317*418b791dSBob Badour struct {\
318*418b791dSBob Badour const Type *arrayType;\
319*418b791dSBob Badour int32_t nItems;\
320*418b791dSBob Badour } array;\
321*418b791dSBob Badour struct {\
322*418b791dSBob Badour const Type *seqType;\
323*418b791dSBob Badour int32_t nMaxLen;\
324*418b791dSBob Badour } seqSimple; \
325*418b791dSBob Badour struct {\
326*418b791dSBob Badour uint32_t bFloating;\
327*418b791dSBob Badour uint32_t bSigned;\
328*418b791dSBob Badour } prim; \
329*418b791dSBob Badour const SequenceType* seqComplex;\
330*418b791dSBob Badour const UnionType *unionType;\
331*418b791dSBob Badour const StructType *structType;\
332*418b791dSBob Badour int32_t stringMaxLen;\
333*418b791dSBob Badour uint8_t bInterfaceNotNil;\
334*418b791dSBob Badour } param;\
335*418b791dSBob Badour uint8_t type;\
336*418b791dSBob Badour uint8_t nativeAlignment\
337*418b791dSBob Badour
338*418b791dSBob Badour typedef struct UnionType UnionType;
339*418b791dSBob Badour typedef struct StructType StructType;
340*418b791dSBob Badour typedef struct SequenceType SequenceType;
341*418b791dSBob Badour struct Type {
342*418b791dSBob Badour INHERIT_TYPE;
343*418b791dSBob Badour };
344*418b791dSBob Badour
345*418b791dSBob Badour struct SequenceType {
346*418b791dSBob Badour const Type * seqType;
347*418b791dSBob Badour uint32_t nMaxLen;
348*418b791dSBob Badour uint32_t inSize;
349*418b791dSBob Badour uint32_t routSizePrimIn;
350*418b791dSBob Badour uint32_t routSizePrimROut;
351*418b791dSBob Badour };
352*418b791dSBob Badour
353*418b791dSBob Badour //byte offset from the start of the case values for
354*418b791dSBob Badour //this unions case value array. it MUST be aligned
355*418b791dSBob Badour //at the alignment requrements for the descriptor
356*418b791dSBob Badour //
357*418b791dSBob Badour //if negative it means that the unions cases are
358*418b791dSBob Badour //simple enumerators, so the value read from the descriptor
359*418b791dSBob Badour //can be used directly to find the correct case
360*418b791dSBob Badour typedef union CaseValuePtr CaseValuePtr;
361*418b791dSBob Badour union CaseValuePtr {
362*418b791dSBob Badour const uint8_t* value8s;
363*418b791dSBob Badour const uint16_t* value16s;
364*418b791dSBob Badour const uint32_t* value32s;
365*418b791dSBob Badour const uint64_t* value64s;
366*418b791dSBob Badour };
367*418b791dSBob Badour
368*418b791dSBob Badour //these are only used in complex cases
369*418b791dSBob Badour //so I pulled them out of the type definition as references to make
370*418b791dSBob Badour //the type smaller
371*418b791dSBob Badour struct UnionType {
372*418b791dSBob Badour const Type *descriptor;
373*418b791dSBob Badour uint32_t nCases;
374*418b791dSBob Badour const CaseValuePtr caseValues;
375*418b791dSBob Badour const Type * const *cases;
376*418b791dSBob Badour int32_t inSize;
377*418b791dSBob Badour int32_t routSizePrimIn;
378*418b791dSBob Badour int32_t routSizePrimROut;
379*418b791dSBob Badour uint8_t inAlignment;
380*418b791dSBob Badour uint8_t routAlignmentPrimIn;
381*418b791dSBob Badour uint8_t routAlignmentPrimROut;
382*418b791dSBob Badour uint8_t inCaseAlignment;
383*418b791dSBob Badour uint8_t routCaseAlignmentPrimIn;
384*418b791dSBob Badour uint8_t routCaseAlignmentPrimROut;
385*418b791dSBob Badour uint8_t nativeCaseAlignment;
386*418b791dSBob Badour uint8_t bDefaultCase;
387*418b791dSBob Badour };
388*418b791dSBob Badour
389*418b791dSBob Badour struct StructType {
390*418b791dSBob Badour uint32_t nMembers;
391*418b791dSBob Badour const Type * const *members;
392*418b791dSBob Badour int32_t inSize;
393*418b791dSBob Badour int32_t routSizePrimIn;
394*418b791dSBob Badour int32_t routSizePrimROut;
395*418b791dSBob Badour uint8_t inAlignment;
396*418b791dSBob Badour uint8_t routAlignmentPrimIn;
397*418b791dSBob Badour uint8_t routAlignmentPrimROut;
398*418b791dSBob Badour };
399*418b791dSBob Badour
400*418b791dSBob Badour typedef struct Parameter Parameter;
401*418b791dSBob Badour struct Parameter {
402*418b791dSBob Badour INHERIT_TYPE;
403*418b791dSBob Badour uint8_t mode;
404*418b791dSBob Badour uint8_t bNotNil;
405*418b791dSBob Badour };
406*418b791dSBob Badour
407*418b791dSBob Badour #define SLIM_IFPTR32(is32,is64) (sizeof(uintptr_t) == 4 ? (is32) : (is64))
408*418b791dSBob Badour #define SLIM_SCALARS_IS_DYNAMIC(u) (((u) & 0x00ffffff) == 0x00ffffff)
409*418b791dSBob Badour
410*418b791dSBob Badour typedef struct Method Method;
411*418b791dSBob Badour struct Method {
412*418b791dSBob Badour uint32_t uScalars; //no method index
413*418b791dSBob Badour int32_t primInSize;
414*418b791dSBob Badour int32_t primROutSize;
415*418b791dSBob Badour int maxArgs;
416*418b791dSBob Badour int numParams;
417*418b791dSBob Badour const Parameter * const *params;
418*418b791dSBob Badour uint8_t primInAlignment;
419*418b791dSBob Badour uint8_t primROutAlignment;
420*418b791dSBob Badour };
421*418b791dSBob Badour
422*418b791dSBob Badour typedef struct Interface Interface;
423*418b791dSBob Badour
424*418b791dSBob Badour struct Interface {
425*418b791dSBob Badour int nMethods;
426*418b791dSBob Badour const Method * const *methodArray;
427*418b791dSBob Badour int nIIds;
428*418b791dSBob Badour const uint32_t *iids;
429*418b791dSBob Badour const uint16_t* methodStringArray;
430*418b791dSBob Badour const uint16_t* methodStrings;
431*418b791dSBob Badour const char* strings;
432*418b791dSBob Badour };
433*418b791dSBob Badour
434*418b791dSBob Badour
435*418b791dSBob Badour #endif //SLIM_H
436*418b791dSBob Badour
437*418b791dSBob Badour
438*418b791dSBob Badour #ifndef _APPS_STD_SLIM_H
439*418b791dSBob Badour #define _APPS_STD_SLIM_H
440*418b791dSBob Badour #include "remote.h"
441*418b791dSBob Badour #include <stdint.h>
442*418b791dSBob Badour
443*418b791dSBob Badour #ifndef __QAIC_SLIM
444*418b791dSBob Badour #define __QAIC_SLIM(ff) ff
445*418b791dSBob Badour #endif
446*418b791dSBob Badour #ifndef __QAIC_SLIM_EXPORT
447*418b791dSBob Badour #define __QAIC_SLIM_EXPORT
448*418b791dSBob Badour #endif
449*418b791dSBob Badour
450*418b791dSBob Badour static const Type types[7];
451*418b791dSBob Badour static const Type* const typeArrays[15] = {&(types[2]),&(types[2]),&(types[2]),&(types[5]),&(types[5]),&(types[2]),&(types[2]),&(types[6]),&(types[6]),&(types[6]),&(types[6]),&(types[6]),&(types[6]),&(types[3]),&(types[4])};
452*418b791dSBob Badour static const StructType structTypes[3] = {{0x1,&(typeArrays[0]),0x8,0x0,0x8,0x8,0x1,0x8},{0x2,&(typeArrays[13]),0x104,0x0,0x104,0x4,0x1,0x4},{0xd,&(typeArrays[0]),0x60,0x0,0x60,0x8,0x1,0x8}};
453*418b791dSBob Badour static const SequenceType sequenceTypes[1] = {{&(types[1]),0x0,0x4,0x4,0x0}};
454*418b791dSBob Badour static const Type types[7] = {{0x1,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x1},{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)0x0,0}}, 4,SLIM_IFPTR32(0x4,0x8)},{0x8,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x8},{0x4,{{(const uintptr_t)0,(const uintptr_t)1}}, 2,0x4},{0xff,{{(const uintptr_t)&(types[0]),(const uintptr_t)0xff}}, 8,0x1},{0x4,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x4},{0x8,{{(const uintptr_t)0,(const uintptr_t)1}}, 2,0x8}};
455*418b791dSBob Badour static const Parameter parameters[16] = {{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)0x0,0}}, 4,SLIM_IFPTR32(0x4,0x8),0,0},{0x4,{{(const uintptr_t)0,(const uintptr_t)1}}, 2,0x4,3,0},{0x4,{{(const uintptr_t)0,(const uintptr_t)1}}, 2,0x4,0,0},{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)&(types[0]),(const uintptr_t)0x0}}, 9,SLIM_IFPTR32(0x4,0x8),3,0},{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)&(types[0]),(const uintptr_t)0x0}}, 9,SLIM_IFPTR32(0x4,0x8),0,0},{0x4,{{0,0}}, 3,0x4,0,0},{0x8,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x8,3,0},{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)0x0,0}}, 4,SLIM_IFPTR32(0x4,0x8),3,0},{SLIM_IFPTR32(0x8,0x10),{{(const uintptr_t)&(sequenceTypes[0]),0}}, 25,SLIM_IFPTR32(0x4,0x8),3,0},{0x4,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x4,3,0},{0x2,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x2,3,0},{0x1,{{(const uintptr_t)0,(const uintptr_t)0}}, 2,0x1,3,0},{0x8,{{(const uintptr_t)&(structTypes[0]),0}}, 6,0x8,3,0},{0x8,{{(const uintptr_t)&(structTypes[0]),0}}, 6,0x8,0,0},{0x104,{{(const uintptr_t)&(structTypes[1]),0}}, 6,0x4,3,0},{0x60,{{(const uintptr_t)&(structTypes[2]),0}}, 6,0x8,3,0}};
456*418b791dSBob Badour static const Parameter* const parameterArrays[44] = {(&(parameters[0])),(&(parameters[0])),(&(parameters[8])),(&(parameters[9])),(&(parameters[10])),(&(parameters[0])),(&(parameters[0])),(&(parameters[0])),(&(parameters[0])),(&(parameters[1])),(&(parameters[2])),(&(parameters[4])),(&(parameters[1])),(&(parameters[1])),(&(parameters[2])),(&(parameters[3])),(&(parameters[1])),(&(parameters[1])),(&(parameters[2])),(&(parameters[0])),(&(parameters[0])),(&(parameters[1])),(&(parameters[13])),(&(parameters[14])),(&(parameters[1])),(&(parameters[0])),(&(parameters[0])),(&(parameters[2])),(&(parameters[0])),(&(parameters[7])),(&(parameters[1])),(&(parameters[2])),(&(parameters[2])),(&(parameters[5])),(&(parameters[0])),(&(parameters[15])),(&(parameters[0])),(&(parameters[12])),(&(parameters[0])),(&(parameters[11])),(&(parameters[2])),(&(parameters[6])),(&(parameters[2])),(&(parameters[1]))};
457*418b791dSBob Badour static const Method methods[23] = {{REMOTE_SCALARS_MAKEX(0,0,0x3,0x1,0x0,0x0),0x8,0x4,3,3,(&(parameterArrays[7])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x3,0x1,0x0,0x0),0xc,0x4,4,4,(&(parameterArrays[18])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x0,0x0,0x0),0x4,0x0,1,1,(&(parameterArrays[10])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x2,0x0,0x0),0x8,0x8,6,4,(&(parameterArrays[14])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x1,0x0,0x0),0x8,0x8,5,4,(&(parameterArrays[10])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x2,0x0,0x0),0x8,0x4,5,3,(&(parameterArrays[14])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x0,0x0,0x0),0x8,0x0,3,2,(&(parameterArrays[10])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x1,0x0,0x0),0x4,0x4,2,2,(&(parameterArrays[42])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x0,0x0,0x0),0xc,0x0,3,3,(&(parameterArrays[31])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x1,0x0,0x0),0x4,0x8,2,2,(&(parameterArrays[40])),0x4,0x8},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x0,0x0,0x0),0x4,0x0,1,1,(&(parameterArrays[0])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x2,0x0,0x0),0x8,0x4,5,3,(&(parameterArrays[28])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x3,0x0,0x0,0x0),0xc,0x0,3,3,(&(parameterArrays[25])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x5,0x1,0x0,0x0),0x10,0x4,5,5,(&(parameterArrays[5])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,255,255,15,15),0xc,0x6,7,5,(&(parameterArrays[0])),0x4,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x1,0x0,0x0),0x4,0x1,2,2,(&(parameterArrays[38])),0x4,0x1},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x1,0x0,0x0),0x4,0x8,2,2,(&(parameterArrays[36])),0x4,0x8},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x0,0x0,0x0),0x8,0x0,1,1,(&(parameterArrays[22])),0x8,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x1,0x0,0x0),0x8,0x108,3,3,(&(parameterArrays[22])),0x8,0x4},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x0,0x0,0x0),0x8,0x0,2,2,(&(parameterArrays[26])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x2,0x1,0x0,0x0),0x4,0x60,2,2,(&(parameterArrays[34])),0x4,0x8},{REMOTE_SCALARS_MAKEX(0,0,0x1,0x0,0x0,0x0),0x8,0x0,2,2,(&(parameterArrays[31])),0x4,0x0},{REMOTE_SCALARS_MAKEX(0,0,0x3,0x0,0x0,0x0),0x8,0x0,2,2,(&(parameterArrays[0])),0x4,0x0}};
458*418b791dSBob Badour static const Method* const methodArrays[34] = {&(methods[0]),&(methods[1]),&(methods[2]),&(methods[2]),&(methods[3]),&(methods[4]),&(methods[5]),&(methods[6]),&(methods[7]),&(methods[8]),&(methods[9]),&(methods[2]),&(methods[7]),&(methods[7]),&(methods[2]),&(methods[10]),&(methods[11]),&(methods[12]),&(methods[10]),&(methods[13]),&(methods[5]),&(methods[14]),&(methods[15]),&(methods[2]),&(methods[10]),&(methods[7]),&(methods[16]),&(methods[17]),&(methods[18]),&(methods[19]),&(methods[10]),&(methods[20]),&(methods[21]),&(methods[22])};
459*418b791dSBob Badour static const char strings[530] = "get_search_paths_with_env\0fdopen_decrypt\0fopen_with_env\0print_string\0bytesWritten\0fileExists\0maxPathLen\0envvarname\0ctimensec\0mtimensec\0atimensec\0valLenReq\0posLenReq\0bytesRead\0closedir\0numPaths\0unsetenv\0override\0clearerr\0newname\0oldname\0frename\0readdir\0opendir\0fremove\0fsetpos\0fgetpos\0freopen\0ftrunc\0dirent\0handle\0exists\0getenv\0ferror\0rewind\0whence\0offset\0fwrite\0fclose\0fflush\0ctime\0mtime\0atime\0nlink\0rmdir\0mkdir\0fsync\0paths\0fgets\0delim\0fseek\0ftell\0fread\0psout\0fopen\0size\0rdev\0stat\0path\0feof\0flen\0bEOF\0mode\0tsz\0ino\0val\0str\0buf\0sin\0";
460*418b791dSBob Badour static const uint16_t methodStrings[129] = {476,110,476,506,472,510,501,394,471,466,388,135,382,125,376,115,244,180,306,299,510,110,496,0,104,430,418,184,93,41,104,430,110,501,454,355,526,522,69,496,448,526,522,165,496,284,526,110,501,454,252,110,180,306,424,526,522,496,195,110,514,202,320,110,514,145,436,526,348,341,276,526,272,155,460,110,501,454,236,228,220,292,526,348,406,110,501,175,180,306,26,526,454,82,481,313,327,526,216,486,526,496,491,526,492,442,526,272,268,526,272,400,110,260,110,412,526,193,110,56,518,211,526,334,526,362,526,369,526};
461*418b791dSBob Badour static const uint16_t methodStringsArrays[34] = {74,45,127,125,40,35,70,108,105,66,102,123,99,96,121,119,62,58,117,29,54,23,93,115,113,90,50,87,16,84,111,0,81,78};
462*418b791dSBob Badour __QAIC_SLIM_EXPORT const Interface __QAIC_SLIM(apps_std_slim) = {34,&(methodArrays[0]),0,0,&(methodStringsArrays [0]),methodStrings,strings};
463*418b791dSBob Badour #endif //_APPS_STD_SLIM_H
464*418b791dSBob Badour extern int adsp_mmap_fd_getinfo(int, uint32_t *);
465*418b791dSBob Badour #ifdef __cplusplus
466*418b791dSBob Badour extern "C" {
467*418b791dSBob Badour #endif
_skel_method(int (* _pfn)(char *,char *),uint32_t _sc,remote_arg * _pra)468*418b791dSBob Badour static __inline int _skel_method(int (*_pfn)(char*, char*), uint32_t _sc, remote_arg* _pra) {
469*418b791dSBob Badour remote_arg* _praEnd;
470*418b791dSBob Badour uint32_t _in0[1];
471*418b791dSBob Badour char* _in1[1];
472*418b791dSBob Badour uint32_t _in1Len[1];
473*418b791dSBob Badour char* _in2[1];
474*418b791dSBob Badour uint32_t _in2Len[1];
475*418b791dSBob Badour uint32_t* _primIn;
476*418b791dSBob Badour remote_arg* _praIn;
477*418b791dSBob Badour int _nErr = 0;
478*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
479*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((3 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
480*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 12);
481*418b791dSBob Badour _primIn = _pra[0].buf.pv;
482*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
483*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
484*418b791dSBob Badour _praIn = (_pra + 1);
485*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in1Len[0]));
486*418b791dSBob Badour _in1[0] = _praIn[0].buf.pv;
487*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
488*418b791dSBob Badour _COPY(_in2Len, 0, _primIn, 8, 4);
489*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[1].buf.nLen / 1)) >= (int)(_in2Len[0]));
490*418b791dSBob Badour _in2[0] = _praIn[1].buf.pv;
491*418b791dSBob Badour _ASSERT(_nErr, (_in2Len[0] > 0) && (_in2[0][(_in2Len[0] - 1)] == 0));
492*418b791dSBob Badour _TRY(_nErr, _pfn(*_in1, *_in2));
493*418b791dSBob Badour _CATCH(_nErr) {}
494*418b791dSBob Badour return _nErr;
495*418b791dSBob Badour }
_skel_method_1(int (* _pfn)(uint32_t,uint32_t),uint32_t _sc,remote_arg * _pra)496*418b791dSBob Badour static __inline int _skel_method_1(int (*_pfn)(uint32_t, uint32_t), uint32_t _sc, remote_arg* _pra) {
497*418b791dSBob Badour remote_arg* _praEnd;
498*418b791dSBob Badour uint32_t _in0[1];
499*418b791dSBob Badour uint32_t _in1[1];
500*418b791dSBob Badour uint32_t _in2[1];
501*418b791dSBob Badour uint32_t* _primIn;
502*418b791dSBob Badour int _nErr = 0;
503*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
504*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
505*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 12);
506*418b791dSBob Badour _primIn = _pra[0].buf.pv;
507*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
508*418b791dSBob Badour _COPY(_in1, 0, _primIn, 4, 4);
509*418b791dSBob Badour _COPY(_in2, 0, _primIn, 8, 4);
510*418b791dSBob Badour _TRY(_nErr, _pfn(*_in1, *_in2));
511*418b791dSBob Badour _CATCH(_nErr) {}
512*418b791dSBob Badour return _nErr;
513*418b791dSBob Badour }
_skel_method_2(int (* _pfn)(char *,uint64_t *),uint32_t _sc,remote_arg * _pra)514*418b791dSBob Badour static __inline int _skel_method_2(int (*_pfn)(char*, uint64_t*), uint32_t _sc, remote_arg* _pra) {
515*418b791dSBob Badour remote_arg* _praEnd;
516*418b791dSBob Badour uint32_t _in0[1];
517*418b791dSBob Badour char* _in1[1];
518*418b791dSBob Badour uint32_t _in1Len[1];
519*418b791dSBob Badour uint64_t _rout2[12];
520*418b791dSBob Badour uint32_t* _primIn;
521*418b791dSBob Badour int _numIn[1];
522*418b791dSBob Badour uint64_t* _primROut;
523*418b791dSBob Badour remote_arg* _praIn;
524*418b791dSBob Badour int _nErr = 0;
525*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
526*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
527*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
528*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
529*418b791dSBob Badour _primIn = _pra[0].buf.pv;
530*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 96);
531*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
532*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
533*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
534*418b791dSBob Badour _praIn = (_pra + 1);
535*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in1Len[0]));
536*418b791dSBob Badour _in1[0] = _praIn[0].buf.pv;
537*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
538*418b791dSBob Badour _TRY(_nErr, _pfn(*_in1, _rout2));
539*418b791dSBob Badour _COPY(_primROut, 0, _rout2, 0, 96);
540*418b791dSBob Badour _CATCH(_nErr) {}
541*418b791dSBob Badour return _nErr;
542*418b791dSBob Badour }
_skel_invoke(uint32_t _mid,uint32_t _sc,remote_arg * _pra)543*418b791dSBob Badour static __inline int _skel_invoke(uint32_t _mid, uint32_t _sc, remote_arg* _pra) {
544*418b791dSBob Badour switch(_mid)
545*418b791dSBob Badour {
546*418b791dSBob Badour case 31:
547*418b791dSBob Badour return _skel_method_2((void*)__QAIC_IMPL(apps_std_stat), _sc, _pra);
548*418b791dSBob Badour case 32:
549*418b791dSBob Badour return _skel_method_1((void*)__QAIC_IMPL(apps_std_ftrunc), _sc, _pra);
550*418b791dSBob Badour case 33:
551*418b791dSBob Badour return _skel_method((void*)__QAIC_IMPL(apps_std_frename), _sc, _pra);
552*418b791dSBob Badour }
553*418b791dSBob Badour return AEE_EUNSUPPORTED;
554*418b791dSBob Badour }
_skel_method_3(int (* _pfn)(char *),uint32_t _sc,remote_arg * _pra)555*418b791dSBob Badour static __inline int _skel_method_3(int (*_pfn)(char*), uint32_t _sc, remote_arg* _pra) {
556*418b791dSBob Badour remote_arg* _praEnd;
557*418b791dSBob Badour char* _in0[1];
558*418b791dSBob Badour uint32_t _in0Len[1];
559*418b791dSBob Badour uint32_t* _primIn;
560*418b791dSBob Badour remote_arg* _praIn;
561*418b791dSBob Badour int _nErr = 0;
562*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
563*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
564*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 4);
565*418b791dSBob Badour _primIn = _pra[0].buf.pv;
566*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
567*418b791dSBob Badour _praIn = (_pra + 1);
568*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
569*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
570*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
571*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0));
572*418b791dSBob Badour _CATCH(_nErr) {}
573*418b791dSBob Badour return _nErr;
574*418b791dSBob Badour }
_skel_method_4(int (* _pfn)(char *,uint32_t),uint32_t _sc,remote_arg * _pra)575*418b791dSBob Badour static __inline int _skel_method_4(int (*_pfn)(char*, uint32_t), uint32_t _sc, remote_arg* _pra) {
576*418b791dSBob Badour remote_arg* _praEnd;
577*418b791dSBob Badour char* _in0[1];
578*418b791dSBob Badour uint32_t _in0Len[1];
579*418b791dSBob Badour uint32_t _in1[1];
580*418b791dSBob Badour uint32_t* _primIn;
581*418b791dSBob Badour remote_arg* _praIn;
582*418b791dSBob Badour int _nErr = 0;
583*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
584*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
585*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
586*418b791dSBob Badour _primIn = _pra[0].buf.pv;
587*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
588*418b791dSBob Badour _praIn = (_pra + 1);
589*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
590*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
591*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
592*418b791dSBob Badour _COPY(_in1, 0, _primIn, 4, 4);
593*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1));
594*418b791dSBob Badour _CATCH(_nErr) {}
595*418b791dSBob Badour return _nErr;
596*418b791dSBob Badour }
_skel_method_5(int (* _pfn)(uint64_t *,uint32_t *,uint32_t *),uint32_t _sc,remote_arg * _pra)597*418b791dSBob Badour static __inline int _skel_method_5(int (*_pfn)(uint64_t*, uint32_t*, uint32_t*), uint32_t _sc, remote_arg* _pra) {
598*418b791dSBob Badour remote_arg* _praEnd;
599*418b791dSBob Badour uint64_t _in0[1];
600*418b791dSBob Badour uint32_t _rout1[65];
601*418b791dSBob Badour uint32_t _rout2[1];
602*418b791dSBob Badour uint64_t* _primIn;
603*418b791dSBob Badour int _numIn[1];
604*418b791dSBob Badour uint32_t* _primROut;
605*418b791dSBob Badour int _nErr = 0;
606*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
607*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
608*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
609*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
610*418b791dSBob Badour _primIn = _pra[0].buf.pv;
611*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 264);
612*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
613*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 8);
614*418b791dSBob Badour _TRY(_nErr, _pfn(_in0, _rout1, _rout2));
615*418b791dSBob Badour _COPY(_primROut, 0, _rout1, 0, 260);
616*418b791dSBob Badour _COPY(_primROut, 260, _rout2, 0, 4);
617*418b791dSBob Badour _CATCH(_nErr) {}
618*418b791dSBob Badour return _nErr;
619*418b791dSBob Badour }
_skel_method_6(int (* _pfn)(uint64_t *),uint32_t _sc,remote_arg * _pra)620*418b791dSBob Badour static __inline int _skel_method_6(int (*_pfn)(uint64_t*), uint32_t _sc, remote_arg* _pra) {
621*418b791dSBob Badour remote_arg* _praEnd;
622*418b791dSBob Badour uint64_t _in0[1];
623*418b791dSBob Badour uint64_t* _primIn;
624*418b791dSBob Badour int _nErr = 0;
625*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
626*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
627*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
628*418b791dSBob Badour _primIn = _pra[0].buf.pv;
629*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 8);
630*418b791dSBob Badour _TRY(_nErr, _pfn(_in0));
631*418b791dSBob Badour _CATCH(_nErr) {}
632*418b791dSBob Badour return _nErr;
633*418b791dSBob Badour }
_skel_method_7(int (* _pfn)(char *,uint64_t *),uint32_t _sc,remote_arg * _pra)634*418b791dSBob Badour static __inline int _skel_method_7(int (*_pfn)(char*, uint64_t*), uint32_t _sc, remote_arg* _pra) {
635*418b791dSBob Badour remote_arg* _praEnd;
636*418b791dSBob Badour char* _in0[1];
637*418b791dSBob Badour uint32_t _in0Len[1];
638*418b791dSBob Badour uint64_t _rout1[1];
639*418b791dSBob Badour uint32_t* _primIn;
640*418b791dSBob Badour int _numIn[1];
641*418b791dSBob Badour uint64_t* _primROut;
642*418b791dSBob Badour remote_arg* _praIn;
643*418b791dSBob Badour int _nErr = 0;
644*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
645*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
646*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
647*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 4);
648*418b791dSBob Badour _primIn = _pra[0].buf.pv;
649*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 8);
650*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
651*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
652*418b791dSBob Badour _praIn = (_pra + 1);
653*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
654*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
655*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
656*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, _rout1));
657*418b791dSBob Badour _COPY(_primROut, 0, _rout1, 0, 8);
658*418b791dSBob Badour _CATCH(_nErr) {}
659*418b791dSBob Badour return _nErr;
660*418b791dSBob Badour }
_skel_method_8(int (* _pfn)(uint32_t,uint32_t *),uint32_t _sc,remote_arg * _pra)661*418b791dSBob Badour static __inline int _skel_method_8(int (*_pfn)(uint32_t, uint32_t*), uint32_t _sc, remote_arg* _pra) {
662*418b791dSBob Badour remote_arg* _praEnd;
663*418b791dSBob Badour uint32_t _in0[1];
664*418b791dSBob Badour uint32_t _rout1[1];
665*418b791dSBob Badour uint32_t* _primIn;
666*418b791dSBob Badour int _numIn[1];
667*418b791dSBob Badour uint32_t* _primROut;
668*418b791dSBob Badour int _nErr = 0;
669*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
670*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
671*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
672*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 4);
673*418b791dSBob Badour _primIn = _pra[0].buf.pv;
674*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 4);
675*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
676*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
677*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, _rout1));
678*418b791dSBob Badour _COPY(_primROut, 0, _rout1, 0, 4);
679*418b791dSBob Badour _CATCH(_nErr) {}
680*418b791dSBob Badour return _nErr;
681*418b791dSBob Badour }
_skel_method_9(int (* _pfn)(uint32_t),uint32_t _sc,remote_arg * _pra)682*418b791dSBob Badour static __inline int _skel_method_9(int (*_pfn)(uint32_t), uint32_t _sc, remote_arg* _pra) {
683*418b791dSBob Badour remote_arg* _praEnd;
684*418b791dSBob Badour uint32_t _in0[1];
685*418b791dSBob Badour uint32_t* _primIn;
686*418b791dSBob Badour int _nErr = 0;
687*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
688*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
689*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 4);
690*418b791dSBob Badour _primIn = _pra[0].buf.pv;
691*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
692*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0));
693*418b791dSBob Badour _CATCH(_nErr) {}
694*418b791dSBob Badour return _nErr;
695*418b791dSBob Badour }
_skel_method_10(int (* _pfn)(char *,uint8_t *),uint32_t _sc,remote_arg * _pra)696*418b791dSBob Badour static __inline int _skel_method_10(int (*_pfn)(char*, uint8_t*), uint32_t _sc, remote_arg* _pra) {
697*418b791dSBob Badour remote_arg* _praEnd;
698*418b791dSBob Badour char* _in0[1];
699*418b791dSBob Badour uint32_t _in0Len[1];
700*418b791dSBob Badour uint8_t _rout1[1];
701*418b791dSBob Badour uint32_t* _primIn;
702*418b791dSBob Badour int _numIn[1];
703*418b791dSBob Badour uint8_t* _primROut;
704*418b791dSBob Badour remote_arg* _praIn;
705*418b791dSBob Badour int _nErr = 0;
706*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
707*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
708*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
709*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 4);
710*418b791dSBob Badour _primIn = _pra[0].buf.pv;
711*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 1);
712*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
713*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
714*418b791dSBob Badour _praIn = (_pra + 1);
715*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
716*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
717*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
718*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, _rout1));
719*418b791dSBob Badour _COPY(_primROut, 0, _rout1, 0, 1);
720*418b791dSBob Badour _CATCH(_nErr) {}
721*418b791dSBob Badour return _nErr;
722*418b791dSBob Badour }
_skel_pack(remote_arg * _praROutPost,remote_arg * _ppraROutPost[1],void * _primROut,char * _rout0[1],uint32_t _rout0Len[1])723*418b791dSBob Badour static __inline int _skel_pack(remote_arg* _praROutPost, remote_arg* _ppraROutPost[1], void* _primROut, char* _rout0[1], uint32_t _rout0Len[1]) {
724*418b791dSBob Badour int _nErr = 0;
725*418b791dSBob Badour remote_arg* _praROutPostStart = _praROutPost;
726*418b791dSBob Badour remote_arg** _ppraROutPostStart = _ppraROutPost;
727*418b791dSBob Badour _ppraROutPost = &_praROutPost;
728*418b791dSBob Badour _ppraROutPostStart[0] += (_praROutPost - _praROutPostStart) +1;
729*418b791dSBob Badour return _nErr;
730*418b791dSBob Badour }
_skel_unpack(_allocator * _al,remote_arg * _praIn,remote_arg * _ppraIn[1],remote_arg * _praROut,remote_arg * _ppraROut[1],remote_arg * _praHIn,remote_arg * _ppraHIn[1],remote_arg * _praHROut,remote_arg * _ppraHROut[1],void * _primIn,void * _primROut,char * _rout0[1],uint32_t _rout0Len[1])731*418b791dSBob Badour static __inline int _skel_unpack(_allocator* _al, remote_arg* _praIn, remote_arg* _ppraIn[1], remote_arg* _praROut, remote_arg* _ppraROut[1], remote_arg* _praHIn, remote_arg* _ppraHIn[1], remote_arg* _praHROut, remote_arg* _ppraHROut[1], void* _primIn, void* _primROut, char* _rout0[1], uint32_t _rout0Len[1]) {
732*418b791dSBob Badour int _nErr = 0;
733*418b791dSBob Badour remote_arg* _praInStart = _praIn;
734*418b791dSBob Badour remote_arg** _ppraInStart = _ppraIn;
735*418b791dSBob Badour remote_arg* _praROutStart = _praROut;
736*418b791dSBob Badour remote_arg** _ppraROutStart = _ppraROut;
737*418b791dSBob Badour _ppraIn = &_praIn;
738*418b791dSBob Badour _ppraROut = &_praROut;
739*418b791dSBob Badour _COPY(_rout0Len, 0, _primIn, 0, 4);
740*418b791dSBob Badour _ASSERT(_nErr, (int)((_praROut[0].buf.nLen / 1)) >= (int)(_rout0Len[0]));
741*418b791dSBob Badour _rout0[0] = _praROut[0].buf.pv;
742*418b791dSBob Badour _ppraInStart[0] += (_praIn - _praInStart) + 0;
743*418b791dSBob Badour _ppraROutStart[0] += (_praROut - _praROutStart) +1;
744*418b791dSBob Badour _CATCH(_nErr) {}
745*418b791dSBob Badour return _nErr;
746*418b791dSBob Badour }
_skel_method_11(int (* _pfn)(char *,char *,void *,uint32_t,uint32_t *,uint16_t *),uint32_t _sc,remote_arg * _pra)747*418b791dSBob Badour static __inline int _skel_method_11(int (*_pfn)(char*, char*, void*, uint32_t, uint32_t*, uint16_t*), uint32_t _sc, remote_arg* _pra) {
748*418b791dSBob Badour remote_arg* _praEnd;
749*418b791dSBob Badour char* _in0[1];
750*418b791dSBob Badour uint32_t _in0Len[1];
751*418b791dSBob Badour char* _in1[1];
752*418b791dSBob Badour uint32_t _in1Len[1];
753*418b791dSBob Badour void* _rout2[1];
754*418b791dSBob Badour uint32_t _rout2Len[1];
755*418b791dSBob Badour uint32_t _rout3[1];
756*418b791dSBob Badour uint16_t _rout4[1];
757*418b791dSBob Badour uint32_t* _primIn;
758*418b791dSBob Badour int _numIn[1];
759*418b791dSBob Badour uint32_t* _primROut;
760*418b791dSBob Badour int _numInH[1];
761*418b791dSBob Badour int _numROut[1];
762*418b791dSBob Badour remote_arg* _praIn;
763*418b791dSBob Badour remote_arg* _praROut;
764*418b791dSBob Badour remote_arg* _praROutPost;
765*418b791dSBob Badour remote_arg** _ppraROutPost = &_praROutPost;
766*418b791dSBob Badour _allocator _al[1] = {{0}};
767*418b791dSBob Badour remote_arg** _ppraIn = &_praIn;
768*418b791dSBob Badour remote_arg** _ppraROut = &_praROut;
769*418b791dSBob Badour remote_arg* _praHIn = 0;
770*418b791dSBob Badour remote_arg** _ppraHIn = &_praHIn;
771*418b791dSBob Badour remote_arg* _praHROut = 0;
772*418b791dSBob Badour remote_arg** _ppraHROut = &_praHROut;
773*418b791dSBob Badour char* _seq_primIn2;
774*418b791dSBob Badour char* _seq_nat2;
775*418b791dSBob Badour int _ii;
776*418b791dSBob Badour int _nErr = 0;
777*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
778*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((4 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
779*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
780*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 12);
781*418b791dSBob Badour _primIn = _pra[0].buf.pv;
782*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 6);
783*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
784*418b791dSBob Badour _numInH[0] = REMOTE_SCALARS_INHANDLES(_sc);
785*418b791dSBob Badour _numROut[0] = REMOTE_SCALARS_OUTBUFS(_sc);
786*418b791dSBob Badour _praIn = (_pra + 1);
787*418b791dSBob Badour _praROut = (_praIn + _numIn[0] + 1);
788*418b791dSBob Badour _praROutPost = _praROut;
789*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
790*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
791*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
792*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
793*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
794*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[1].buf.nLen / 1)) >= (int)(_in1Len[0]));
795*418b791dSBob Badour _in1[0] = _praIn[1].buf.pv;
796*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
797*418b791dSBob Badour _COPY(_rout2Len, 0, _primIn, 8, 4);
798*418b791dSBob Badour _allocator_init(_al, 0, 0);
799*418b791dSBob Badour if(_praHIn == 0)
800*418b791dSBob Badour {
801*418b791dSBob Badour _praHIn = ((_praROut + _numROut[0]) + 1);
802*418b791dSBob Badour }
803*418b791dSBob Badour if(_praHROut == 0)
804*418b791dSBob Badour (_praHROut = _praHIn + _numInH[0] + 0);
805*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[2].buf.nLen / 4)) >= (int)(_rout2Len[0]));
806*418b791dSBob Badour _ALLOCATE(_nErr, _al, (_rout2Len[0] * SLIM_IFPTR32(8, 16)), SLIM_IFPTR32(4, 8), _rout2[0]);
807*418b791dSBob Badour for(_ii = 0, _seq_primIn2 = (char*)_praIn[2].buf.pv, _seq_nat2 = (char*)_rout2[0];_ii < (int)_rout2Len[0];++_ii, _seq_primIn2 = (_seq_primIn2 + 4), _seq_nat2 = (_seq_nat2 + SLIM_IFPTR32(8, 16)))
808*418b791dSBob Badour {
809*418b791dSBob Badour _TRY(_nErr, _skel_unpack(_al, (_praIn + 3), _ppraIn, (_praROut + 0), _ppraROut, _praHIn, _ppraHIn, _praHROut, _ppraHROut, _seq_primIn2, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2]))));
810*418b791dSBob Badour }
811*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_rout2, *_rout2Len, _rout3, _rout4));
812*418b791dSBob Badour for(_ii = 0, _seq_nat2 = (char*)_rout2[0];_ii < (int)_rout2Len[0];++_ii, _seq_nat2 = (_seq_nat2 + SLIM_IFPTR32(8, 16)))
813*418b791dSBob Badour {
814*418b791dSBob Badour _TRY(_nErr, _skel_pack((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2]))));
815*418b791dSBob Badour }
816*418b791dSBob Badour _COPY(_primROut, 0, _rout3, 0, 4);
817*418b791dSBob Badour _COPY(_primROut, 4, _rout4, 0, 2);
818*418b791dSBob Badour _CATCH(_nErr) {}
819*418b791dSBob Badour _allocator_deinit(_al);
820*418b791dSBob Badour return _nErr;
821*418b791dSBob Badour }
_skel_method_12(int (* _pfn)(uint32_t,char *,uint32_t,uint32_t *),uint32_t _sc,remote_arg * _pra)822*418b791dSBob Badour static __inline int _skel_method_12(int (*_pfn)(uint32_t, char*, uint32_t, uint32_t*), uint32_t _sc, remote_arg* _pra) {
823*418b791dSBob Badour remote_arg* _praEnd;
824*418b791dSBob Badour uint32_t _in0[1];
825*418b791dSBob Badour char* _rout1[1];
826*418b791dSBob Badour uint32_t _rout1Len[1];
827*418b791dSBob Badour uint32_t _rout2[1];
828*418b791dSBob Badour uint32_t* _primIn;
829*418b791dSBob Badour int _numIn[1];
830*418b791dSBob Badour uint32_t* _primROut;
831*418b791dSBob Badour remote_arg* _praIn;
832*418b791dSBob Badour remote_arg* _praROut;
833*418b791dSBob Badour int _nErr = 0;
834*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
835*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 2) + (((0 + 0) + 0) + 0))) <= _praEnd);
836*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
837*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
838*418b791dSBob Badour _primIn = _pra[0].buf.pv;
839*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 4);
840*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
841*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
842*418b791dSBob Badour _COPY(_rout1Len, 0, _primIn, 4, 4);
843*418b791dSBob Badour _praIn = (_pra + 1);
844*418b791dSBob Badour _praROut = (_praIn + _numIn[0] + 1);
845*418b791dSBob Badour _ASSERT(_nErr, (int)((_praROut[0].buf.nLen / 1)) >= (int)(_rout1Len[0]));
846*418b791dSBob Badour _rout1[0] = _praROut[0].buf.pv;
847*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_rout1, *_rout1Len, _rout2));
848*418b791dSBob Badour _COPY(_primROut, 0, _rout2, 0, 4);
849*418b791dSBob Badour _CATCH(_nErr) {}
850*418b791dSBob Badour return _nErr;
851*418b791dSBob Badour }
_skel_method_13(int (* _pfn)(char *,char *,char *,char *,uint32_t *),uint32_t _sc,remote_arg * _pra)852*418b791dSBob Badour static __inline int _skel_method_13(int (*_pfn)(char*, char*, char*, char*, uint32_t*), uint32_t _sc, remote_arg* _pra) {
853*418b791dSBob Badour remote_arg* _praEnd;
854*418b791dSBob Badour char* _in0[1];
855*418b791dSBob Badour uint32_t _in0Len[1];
856*418b791dSBob Badour char* _in1[1];
857*418b791dSBob Badour uint32_t _in1Len[1];
858*418b791dSBob Badour char* _in2[1];
859*418b791dSBob Badour uint32_t _in2Len[1];
860*418b791dSBob Badour char* _in3[1];
861*418b791dSBob Badour uint32_t _in3Len[1];
862*418b791dSBob Badour uint32_t _rout4[1];
863*418b791dSBob Badour uint32_t* _primIn;
864*418b791dSBob Badour int _numIn[1];
865*418b791dSBob Badour uint32_t* _primROut;
866*418b791dSBob Badour remote_arg* _praIn;
867*418b791dSBob Badour int _nErr = 0;
868*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
869*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((5 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
870*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
871*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 16);
872*418b791dSBob Badour _primIn = _pra[0].buf.pv;
873*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 4);
874*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
875*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
876*418b791dSBob Badour _praIn = (_pra + 1);
877*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
878*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
879*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
880*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
881*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[1].buf.nLen / 1)) >= (int)(_in1Len[0]));
882*418b791dSBob Badour _in1[0] = _praIn[1].buf.pv;
883*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
884*418b791dSBob Badour _COPY(_in2Len, 0, _primIn, 8, 4);
885*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[2].buf.nLen / 1)) >= (int)(_in2Len[0]));
886*418b791dSBob Badour _in2[0] = _praIn[2].buf.pv;
887*418b791dSBob Badour _ASSERT(_nErr, (_in2Len[0] > 0) && (_in2[0][(_in2Len[0] - 1)] == 0));
888*418b791dSBob Badour _COPY(_in3Len, 0, _primIn, 12, 4);
889*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[3].buf.nLen / 1)) >= (int)(_in3Len[0]));
890*418b791dSBob Badour _in3[0] = _praIn[3].buf.pv;
891*418b791dSBob Badour _ASSERT(_nErr, (_in3Len[0] > 0) && (_in3[0][(_in3Len[0] - 1)] == 0));
892*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_in2, *_in3, _rout4));
893*418b791dSBob Badour _COPY(_primROut, 0, _rout4, 0, 4);
894*418b791dSBob Badour _CATCH(_nErr) {}
895*418b791dSBob Badour return _nErr;
896*418b791dSBob Badour }
_skel_method_14(int (* _pfn)(char *,char *,uint32_t),uint32_t _sc,remote_arg * _pra)897*418b791dSBob Badour static __inline int _skel_method_14(int (*_pfn)(char*, char*, uint32_t), uint32_t _sc, remote_arg* _pra) {
898*418b791dSBob Badour remote_arg* _praEnd;
899*418b791dSBob Badour char* _in0[1];
900*418b791dSBob Badour uint32_t _in0Len[1];
901*418b791dSBob Badour char* _in1[1];
902*418b791dSBob Badour uint32_t _in1Len[1];
903*418b791dSBob Badour uint32_t _in2[1];
904*418b791dSBob Badour uint32_t* _primIn;
905*418b791dSBob Badour remote_arg* _praIn;
906*418b791dSBob Badour int _nErr = 0;
907*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
908*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((3 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
909*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 12);
910*418b791dSBob Badour _primIn = _pra[0].buf.pv;
911*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
912*418b791dSBob Badour _praIn = (_pra + 1);
913*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
914*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
915*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
916*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
917*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[1].buf.nLen / 1)) >= (int)(_in1Len[0]));
918*418b791dSBob Badour _in1[0] = _praIn[1].buf.pv;
919*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
920*418b791dSBob Badour _COPY(_in2, 0, _primIn, 8, 4);
921*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_in2));
922*418b791dSBob Badour _CATCH(_nErr) {}
923*418b791dSBob Badour return _nErr;
924*418b791dSBob Badour }
_skel_method_15(int (* _pfn)(char *,char *,uint32_t,uint32_t *),uint32_t _sc,remote_arg * _pra)925*418b791dSBob Badour static __inline int _skel_method_15(int (*_pfn)(char*, char*, uint32_t, uint32_t*), uint32_t _sc, remote_arg* _pra) {
926*418b791dSBob Badour remote_arg* _praEnd;
927*418b791dSBob Badour char* _in0[1];
928*418b791dSBob Badour uint32_t _in0Len[1];
929*418b791dSBob Badour char* _rout1[1];
930*418b791dSBob Badour uint32_t _rout1Len[1];
931*418b791dSBob Badour uint32_t _rout2[1];
932*418b791dSBob Badour uint32_t* _primIn;
933*418b791dSBob Badour int _numIn[1];
934*418b791dSBob Badour uint32_t* _primROut;
935*418b791dSBob Badour remote_arg* _praIn;
936*418b791dSBob Badour remote_arg* _praROut;
937*418b791dSBob Badour int _nErr = 0;
938*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
939*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 2) + (((0 + 0) + 0) + 0))) <= _praEnd);
940*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
941*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
942*418b791dSBob Badour _primIn = _pra[0].buf.pv;
943*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 4);
944*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
945*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
946*418b791dSBob Badour _praIn = (_pra + 1);
947*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
948*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
949*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
950*418b791dSBob Badour _COPY(_rout1Len, 0, _primIn, 4, 4);
951*418b791dSBob Badour _praROut = (_praIn + _numIn[0] + 1);
952*418b791dSBob Badour _ASSERT(_nErr, (int)((_praROut[0].buf.nLen / 1)) >= (int)(_rout1Len[0]));
953*418b791dSBob Badour _rout1[0] = _praROut[0].buf.pv;
954*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_rout1, *_rout1Len, _rout2));
955*418b791dSBob Badour _COPY(_primROut, 0, _rout2, 0, 4);
956*418b791dSBob Badour _CATCH(_nErr) {}
957*418b791dSBob Badour return _nErr;
958*418b791dSBob Badour }
_skel_method_16(int (* _pfn)(uint32_t,uint64_t *),uint32_t _sc,remote_arg * _pra)959*418b791dSBob Badour static __inline int _skel_method_16(int (*_pfn)(uint32_t, uint64_t*), uint32_t _sc, remote_arg* _pra) {
960*418b791dSBob Badour remote_arg* _praEnd;
961*418b791dSBob Badour uint32_t _in0[1];
962*418b791dSBob Badour uint64_t _rout1[1];
963*418b791dSBob Badour uint32_t* _primIn;
964*418b791dSBob Badour int _numIn[1];
965*418b791dSBob Badour uint64_t* _primROut;
966*418b791dSBob Badour int _nErr = 0;
967*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
968*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
969*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
970*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 4);
971*418b791dSBob Badour _primIn = _pra[0].buf.pv;
972*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 8);
973*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
974*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
975*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, _rout1));
976*418b791dSBob Badour _COPY(_primROut, 0, _rout1, 0, 8);
977*418b791dSBob Badour _CATCH(_nErr) {}
978*418b791dSBob Badour return _nErr;
979*418b791dSBob Badour }
_skel_method_17(int (* _pfn)(uint32_t,uint32_t,uint32_t),uint32_t _sc,remote_arg * _pra)980*418b791dSBob Badour static __inline int _skel_method_17(int (*_pfn)(uint32_t, uint32_t, uint32_t), uint32_t _sc, remote_arg* _pra) {
981*418b791dSBob Badour remote_arg* _praEnd;
982*418b791dSBob Badour uint32_t _in0[1];
983*418b791dSBob Badour uint32_t _in1[1];
984*418b791dSBob Badour uint32_t _in2[1];
985*418b791dSBob Badour uint32_t* _primIn;
986*418b791dSBob Badour int _nErr = 0;
987*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
988*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
989*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 12);
990*418b791dSBob Badour _primIn = _pra[0].buf.pv;
991*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
992*418b791dSBob Badour _COPY(_in1, 0, _primIn, 4, 4);
993*418b791dSBob Badour _COPY(_in2, 0, _primIn, 8, 4);
994*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_in2));
995*418b791dSBob Badour _CATCH(_nErr) {}
996*418b791dSBob Badour return _nErr;
997*418b791dSBob Badour }
_skel_method_18(int (* _pfn)(uint32_t,char *,uint32_t),uint32_t _sc,remote_arg * _pra)998*418b791dSBob Badour static __inline int _skel_method_18(int (*_pfn)(uint32_t, char*, uint32_t), uint32_t _sc, remote_arg* _pra) {
999*418b791dSBob Badour remote_arg* _praEnd;
1000*418b791dSBob Badour uint32_t _in0[1];
1001*418b791dSBob Badour char* _in1[1];
1002*418b791dSBob Badour uint32_t _in1Len[1];
1003*418b791dSBob Badour uint32_t* _primIn;
1004*418b791dSBob Badour remote_arg* _praIn;
1005*418b791dSBob Badour int _nErr = 0;
1006*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
1007*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 0) + (((0 + 0) + 0) + 0))) <= _praEnd);
1008*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
1009*418b791dSBob Badour _primIn = _pra[0].buf.pv;
1010*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
1011*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
1012*418b791dSBob Badour _praIn = (_pra + 1);
1013*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in1Len[0]));
1014*418b791dSBob Badour _in1[0] = _praIn[0].buf.pv;
1015*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_in1Len));
1016*418b791dSBob Badour _CATCH(_nErr) {}
1017*418b791dSBob Badour return _nErr;
1018*418b791dSBob Badour }
_skel_method_19(int (* _pfn)(uint32_t,char *,uint32_t,uint32_t *,uint32_t *),uint32_t _sc,remote_arg * _pra)1019*418b791dSBob Badour static __inline int _skel_method_19(int (*_pfn)(uint32_t, char*, uint32_t, uint32_t*, uint32_t*), uint32_t _sc, remote_arg* _pra) {
1020*418b791dSBob Badour remote_arg* _praEnd;
1021*418b791dSBob Badour uint32_t _in0[1];
1022*418b791dSBob Badour char* _in1[1];
1023*418b791dSBob Badour uint32_t _in1Len[1];
1024*418b791dSBob Badour uint32_t _rout2[1];
1025*418b791dSBob Badour uint32_t _rout3[1];
1026*418b791dSBob Badour uint32_t* _primIn;
1027*418b791dSBob Badour int _numIn[1];
1028*418b791dSBob Badour uint32_t* _primROut;
1029*418b791dSBob Badour remote_arg* _praIn;
1030*418b791dSBob Badour int _nErr = 0;
1031*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
1032*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((2 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
1033*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
1034*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
1035*418b791dSBob Badour _primIn = _pra[0].buf.pv;
1036*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 8);
1037*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
1038*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
1039*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
1040*418b791dSBob Badour _praIn = (_pra + 1);
1041*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in1Len[0]));
1042*418b791dSBob Badour _in1[0] = _praIn[0].buf.pv;
1043*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_in1Len, _rout2, _rout3));
1044*418b791dSBob Badour _COPY(_primROut, 0, _rout2, 0, 4);
1045*418b791dSBob Badour _COPY(_primROut, 4, _rout3, 0, 4);
1046*418b791dSBob Badour _CATCH(_nErr) {}
1047*418b791dSBob Badour return _nErr;
1048*418b791dSBob Badour }
_skel_method_20(int (* _pfn)(uint32_t,char *,uint32_t,uint32_t *,uint32_t *),uint32_t _sc,remote_arg * _pra)1049*418b791dSBob Badour static __inline int _skel_method_20(int (*_pfn)(uint32_t, char*, uint32_t, uint32_t*, uint32_t*), uint32_t _sc, remote_arg* _pra) {
1050*418b791dSBob Badour remote_arg* _praEnd;
1051*418b791dSBob Badour uint32_t _in0[1];
1052*418b791dSBob Badour char* _rout1[1];
1053*418b791dSBob Badour uint32_t _rout1Len[1];
1054*418b791dSBob Badour uint32_t _rout2[1];
1055*418b791dSBob Badour uint32_t _rout3[1];
1056*418b791dSBob Badour uint32_t* _primIn;
1057*418b791dSBob Badour int _numIn[1];
1058*418b791dSBob Badour uint32_t* _primROut;
1059*418b791dSBob Badour remote_arg* _praIn;
1060*418b791dSBob Badour remote_arg* _praROut;
1061*418b791dSBob Badour int _nErr = 0;
1062*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
1063*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((1 + 2) + (((0 + 0) + 0) + 0))) <= _praEnd);
1064*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
1065*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
1066*418b791dSBob Badour _primIn = _pra[0].buf.pv;
1067*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 8);
1068*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
1069*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
1070*418b791dSBob Badour _COPY(_rout1Len, 0, _primIn, 4, 4);
1071*418b791dSBob Badour _praIn = (_pra + 1);
1072*418b791dSBob Badour _praROut = (_praIn + _numIn[0] + 1);
1073*418b791dSBob Badour _ASSERT(_nErr, (int)((_praROut[0].buf.nLen / 1)) >= (int)(_rout1Len[0]));
1074*418b791dSBob Badour _rout1[0] = _praROut[0].buf.pv;
1075*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_rout1, *_rout1Len, _rout2, _rout3));
1076*418b791dSBob Badour _COPY(_primROut, 0, _rout2, 0, 4);
1077*418b791dSBob Badour _COPY(_primROut, 4, _rout3, 0, 4);
1078*418b791dSBob Badour _CATCH(_nErr) {}
1079*418b791dSBob Badour return _nErr;
1080*418b791dSBob Badour }
_skel_method_21(int (* _pfn)(uint32_t,char *,char *,uint32_t *),uint32_t _sc,remote_arg * _pra)1081*418b791dSBob Badour static __inline int _skel_method_21(int (*_pfn)(uint32_t, char*, char*, uint32_t*), uint32_t _sc, remote_arg* _pra) {
1082*418b791dSBob Badour remote_arg* _praEnd;
1083*418b791dSBob Badour uint32_t _in0[1];
1084*418b791dSBob Badour char* _in1[1];
1085*418b791dSBob Badour uint32_t _in1Len[1];
1086*418b791dSBob Badour char* _in2[1];
1087*418b791dSBob Badour uint32_t _in2Len[1];
1088*418b791dSBob Badour uint32_t _rout3[1];
1089*418b791dSBob Badour uint32_t* _primIn;
1090*418b791dSBob Badour int _numIn[1];
1091*418b791dSBob Badour uint32_t* _primROut;
1092*418b791dSBob Badour remote_arg* _praIn;
1093*418b791dSBob Badour int _nErr = 0;
1094*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
1095*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((3 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
1096*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
1097*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 12);
1098*418b791dSBob Badour _primIn = _pra[0].buf.pv;
1099*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 4);
1100*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
1101*418b791dSBob Badour _COPY(_in0, 0, _primIn, 0, 4);
1102*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
1103*418b791dSBob Badour _praIn = (_pra + 1);
1104*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in1Len[0]));
1105*418b791dSBob Badour _in1[0] = _praIn[0].buf.pv;
1106*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
1107*418b791dSBob Badour _COPY(_in2Len, 0, _primIn, 8, 4);
1108*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[1].buf.nLen / 1)) >= (int)(_in2Len[0]));
1109*418b791dSBob Badour _in2[0] = _praIn[1].buf.pv;
1110*418b791dSBob Badour _ASSERT(_nErr, (_in2Len[0] > 0) && (_in2[0][(_in2Len[0] - 1)] == 0));
1111*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, *_in2, _rout3));
1112*418b791dSBob Badour _COPY(_primROut, 0, _rout3, 0, 4);
1113*418b791dSBob Badour _CATCH(_nErr) {}
1114*418b791dSBob Badour return _nErr;
1115*418b791dSBob Badour }
_skel_method_22(int (* _pfn)(char *,char *,uint32_t *),uint32_t _sc,remote_arg * _pra)1116*418b791dSBob Badour static __inline int _skel_method_22(int (*_pfn)(char*, char*, uint32_t*), uint32_t _sc, remote_arg* _pra) {
1117*418b791dSBob Badour remote_arg* _praEnd;
1118*418b791dSBob Badour char* _in0[1];
1119*418b791dSBob Badour uint32_t _in0Len[1];
1120*418b791dSBob Badour char* _in1[1];
1121*418b791dSBob Badour uint32_t _in1Len[1];
1122*418b791dSBob Badour uint32_t _rout2[1];
1123*418b791dSBob Badour uint32_t* _primIn;
1124*418b791dSBob Badour int _numIn[1];
1125*418b791dSBob Badour uint32_t* _primROut;
1126*418b791dSBob Badour remote_arg* _praIn;
1127*418b791dSBob Badour int _nErr = 0;
1128*418b791dSBob Badour _praEnd = ((_pra + REMOTE_SCALARS_INBUFS(_sc)) + REMOTE_SCALARS_OUTBUFS(_sc) + REMOTE_SCALARS_INHANDLES(_sc) + REMOTE_SCALARS_OUTHANDLES(_sc));
1129*418b791dSBob Badour _ASSERT(_nErr, (_pra + ((3 + 1) + (((0 + 0) + 0) + 0))) <= _praEnd);
1130*418b791dSBob Badour _numIn[0] = (REMOTE_SCALARS_INBUFS(_sc) - 1);
1131*418b791dSBob Badour _ASSERT(_nErr, _pra[0].buf.nLen >= 8);
1132*418b791dSBob Badour _primIn = _pra[0].buf.pv;
1133*418b791dSBob Badour _ASSERT(_nErr, _pra[(_numIn[0] + 1)].buf.nLen >= 4);
1134*418b791dSBob Badour _primROut = _pra[(_numIn[0] + 1)].buf.pv;
1135*418b791dSBob Badour _COPY(_in0Len, 0, _primIn, 0, 4);
1136*418b791dSBob Badour _praIn = (_pra + 1);
1137*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[0].buf.nLen / 1)) >= (int)(_in0Len[0]));
1138*418b791dSBob Badour _in0[0] = _praIn[0].buf.pv;
1139*418b791dSBob Badour _ASSERT(_nErr, (_in0Len[0] > 0) && (_in0[0][(_in0Len[0] - 1)] == 0));
1140*418b791dSBob Badour _COPY(_in1Len, 0, _primIn, 4, 4);
1141*418b791dSBob Badour _ASSERT(_nErr, (int)((_praIn[1].buf.nLen / 1)) >= (int)(_in1Len[0]));
1142*418b791dSBob Badour _in1[0] = _praIn[1].buf.pv;
1143*418b791dSBob Badour _ASSERT(_nErr, (_in1Len[0] > 0) && (_in1[0][(_in1Len[0] - 1)] == 0));
1144*418b791dSBob Badour _TRY(_nErr, _pfn(*_in0, *_in1, _rout2));
1145*418b791dSBob Badour _COPY(_primROut, 0, _rout2, 0, 4);
1146*418b791dSBob Badour _CATCH(_nErr) {}
1147*418b791dSBob Badour return _nErr;
1148*418b791dSBob Badour }
__QAIC_SKEL(apps_std_skel_invoke)1149*418b791dSBob Badour __QAIC_SKEL_EXPORT int __QAIC_SKEL(apps_std_skel_invoke)(uint32_t _sc, remote_arg* _pra) __QAIC_SKEL_ATTRIBUTE {
1150*418b791dSBob Badour switch(REMOTE_SCALARS_METHOD(_sc))
1151*418b791dSBob Badour {
1152*418b791dSBob Badour case 0:
1153*418b791dSBob Badour return _skel_method_22((void*)__QAIC_IMPL(apps_std_fopen), _sc, _pra);
1154*418b791dSBob Badour case 1:
1155*418b791dSBob Badour return _skel_method_21((void*)__QAIC_IMPL(apps_std_freopen), _sc, _pra);
1156*418b791dSBob Badour case 2:
1157*418b791dSBob Badour return _skel_method_9((void*)__QAIC_IMPL(apps_std_fflush), _sc, _pra);
1158*418b791dSBob Badour case 3:
1159*418b791dSBob Badour return _skel_method_9((void*)__QAIC_IMPL(apps_std_fclose), _sc, _pra);
1160*418b791dSBob Badour case 4:
1161*418b791dSBob Badour return _skel_method_20((void*)__QAIC_IMPL(apps_std_fread), _sc, _pra);
1162*418b791dSBob Badour case 5:
1163*418b791dSBob Badour return _skel_method_19((void*)__QAIC_IMPL(apps_std_fwrite), _sc, _pra);
1164*418b791dSBob Badour case 6:
1165*418b791dSBob Badour return _skel_method_12((void*)__QAIC_IMPL(apps_std_fgetpos), _sc, _pra);
1166*418b791dSBob Badour case 7:
1167*418b791dSBob Badour return _skel_method_18((void*)__QAIC_IMPL(apps_std_fsetpos), _sc, _pra);
1168*418b791dSBob Badour case 8:
1169*418b791dSBob Badour return _skel_method_8((void*)__QAIC_IMPL(apps_std_ftell), _sc, _pra);
1170*418b791dSBob Badour case 9:
1171*418b791dSBob Badour return _skel_method_17((void*)__QAIC_IMPL(apps_std_fseek), _sc, _pra);
1172*418b791dSBob Badour case 10:
1173*418b791dSBob Badour return _skel_method_16((void*)__QAIC_IMPL(apps_std_flen), _sc, _pra);
1174*418b791dSBob Badour case 11:
1175*418b791dSBob Badour return _skel_method_9((void*)__QAIC_IMPL(apps_std_rewind), _sc, _pra);
1176*418b791dSBob Badour case 12:
1177*418b791dSBob Badour return _skel_method_8((void*)__QAIC_IMPL(apps_std_feof), _sc, _pra);
1178*418b791dSBob Badour case 13:
1179*418b791dSBob Badour return _skel_method_8((void*)__QAIC_IMPL(apps_std_ferror), _sc, _pra);
1180*418b791dSBob Badour case 14:
1181*418b791dSBob Badour return _skel_method_9((void*)__QAIC_IMPL(apps_std_clearerr), _sc, _pra);
1182*418b791dSBob Badour case 15:
1183*418b791dSBob Badour return _skel_method_3((void*)__QAIC_IMPL(apps_std_print_string), _sc, _pra);
1184*418b791dSBob Badour case 16:
1185*418b791dSBob Badour return _skel_method_15((void*)__QAIC_IMPL(apps_std_getenv), _sc, _pra);
1186*418b791dSBob Badour case 17:
1187*418b791dSBob Badour return _skel_method_14((void*)__QAIC_IMPL(apps_std_setenv), _sc, _pra);
1188*418b791dSBob Badour case 18:
1189*418b791dSBob Badour return _skel_method_3((void*)__QAIC_IMPL(apps_std_unsetenv), _sc, _pra);
1190*418b791dSBob Badour case 19:
1191*418b791dSBob Badour return _skel_method_13((void*)__QAIC_IMPL(apps_std_fopen_with_env), _sc, _pra);
1192*418b791dSBob Badour case 20:
1193*418b791dSBob Badour return _skel_method_12((void*)__QAIC_IMPL(apps_std_fgets), _sc, _pra);
1194*418b791dSBob Badour case 21:
1195*418b791dSBob Badour return _skel_method_11((void*)__QAIC_IMPL(apps_std_get_search_paths_with_env), _sc, _pra);
1196*418b791dSBob Badour case 22:
1197*418b791dSBob Badour return _skel_method_10((void*)__QAIC_IMPL(apps_std_fileExists), _sc, _pra);
1198*418b791dSBob Badour case 23:
1199*418b791dSBob Badour return _skel_method_9((void*)__QAIC_IMPL(apps_std_fsync), _sc, _pra);
1200*418b791dSBob Badour case 24:
1201*418b791dSBob Badour return _skel_method_3((void*)__QAIC_IMPL(apps_std_fremove), _sc, _pra);
1202*418b791dSBob Badour case 25:
1203*418b791dSBob Badour return _skel_method_8((void*)__QAIC_IMPL(apps_std_fdopen_decrypt), _sc, _pra);
1204*418b791dSBob Badour case 26:
1205*418b791dSBob Badour return _skel_method_7((void*)__QAIC_IMPL(apps_std_opendir), _sc, _pra);
1206*418b791dSBob Badour case 27:
1207*418b791dSBob Badour return _skel_method_6((void*)__QAIC_IMPL(apps_std_closedir), _sc, _pra);
1208*418b791dSBob Badour case 28:
1209*418b791dSBob Badour return _skel_method_5((void*)__QAIC_IMPL(apps_std_readdir), _sc, _pra);
1210*418b791dSBob Badour case 29:
1211*418b791dSBob Badour return _skel_method_4((void*)__QAIC_IMPL(apps_std_mkdir), _sc, _pra);
1212*418b791dSBob Badour case 30:
1213*418b791dSBob Badour return _skel_method_3((void*)__QAIC_IMPL(apps_std_rmdir), _sc, _pra);
1214*418b791dSBob Badour case 31:
1215*418b791dSBob Badour {
1216*418b791dSBob Badour uint32_t* _mid;
1217*418b791dSBob Badour if(REMOTE_SCALARS_INBUFS(_sc) < 1 || _pra[0].buf.nLen < 4) { return AEE_EBADPARM; }
1218*418b791dSBob Badour _mid = (uint32_t*)_pra[0].buf.pv;
1219*418b791dSBob Badour return _skel_invoke(*_mid, _sc, _pra);
1220*418b791dSBob Badour }
1221*418b791dSBob Badour }
1222*418b791dSBob Badour return AEE_EUNSUPPORTED;
1223*418b791dSBob Badour }
1224*418b791dSBob Badour #ifdef __cplusplus
1225*418b791dSBob Badour }
1226*418b791dSBob Badour #endif
1227*418b791dSBob Badour #endif //_APPS_STD_SKEL_H
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