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1 /*
2  * Copyright (C) 2011-2012 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include "rsCpuCore.h"
18 #include "rsCpuScript.h"
19 #include "rsCpuExecutable.h"
20 
21 #ifdef RS_COMPATIBILITY_LIB
22     #include <stdio.h>
23     #include <sys/stat.h>
24     #include <unistd.h>
25 #else
26     #include "rsCppUtils.h"
27 
28     #include <bcc/Config.h>
29     #include <bcinfo/MetadataExtractor.h>
30 
31     #include <zlib.h>
32     #include <sys/file.h>
33     #include <sys/types.h>
34     #include <unistd.h>
35 
36     #include <string>
37     #include <vector>
38 #endif
39 
40 #include <set>
41 #include <string>
42 #include <dlfcn.h>
43 #include <stdlib.h>
44 #include <string.h>
45 #include <iostream>
46 #include <sstream>
47 
48 namespace {
49 
50 static const bool kDebugGlobalVariables = false;
51 
allocationLODIsNull(const android::renderscript::Allocation * alloc)52 static bool allocationLODIsNull(const android::renderscript::Allocation *alloc) {
53   // Even if alloc != nullptr, mallocPtr could be null if
54   // IO_OUTPUT/IO_INPUT with no bound surface.
55   return alloc && alloc->mHal.drvState.lod[0].mallocPtr == nullptr;
56 }
57 
58 #ifndef RS_COMPATIBILITY_LIB
59 
setCompileArguments(std::vector<const char * > * args,const std::string & bcFileName,const char * cacheDir,const char * resName,const char * core_lib,bool useRSDebugContext,const char * bccPluginName,bool emitGlobalInfo,int optLevel,bool emitGlobalInfoSkipConstant)60 static void setCompileArguments(std::vector<const char*>* args,
61                                 const std::string& bcFileName,
62                                 const char* cacheDir, const char* resName,
63                                 const char* core_lib, bool useRSDebugContext,
64                                 const char* bccPluginName, bool emitGlobalInfo,
65                                 int optLevel, bool emitGlobalInfoSkipConstant) {
66     rsAssert(cacheDir && resName && core_lib);
67     args->push_back(android::renderscript::RsdCpuScriptImpl::BCC_EXE_PATH);
68     args->push_back("-unroll-runtime");
69     args->push_back("-scalarize-load-store");
70     if (emitGlobalInfo) {
71         args->push_back("-rs-global-info");
72         if (emitGlobalInfoSkipConstant) {
73             args->push_back("-rs-global-info-skip-constant");
74         }
75     }
76     args->push_back("-o");
77     args->push_back(resName);
78     args->push_back("-output_path");
79     args->push_back(cacheDir);
80     args->push_back("-bclib");
81     args->push_back(core_lib);
82     args->push_back("-mtriple");
83     args->push_back(DEFAULT_TARGET_TRIPLE_STRING);
84     args->push_back("-O");
85 
86     switch (optLevel) {
87     case 0:
88         args->push_back("0");
89         break;
90     case 3:
91         args->push_back("3");
92         break;
93     default:
94         ALOGW("Expected optimization level of 0 or 3. Received %d", optLevel);
95         args->push_back("3");
96         break;
97     }
98 
99     // Enable workaround for A53 codegen by default.
100 #if defined(__aarch64__) && !defined(DISABLE_A53_WORKAROUND)
101     args->push_back("-aarch64-fix-cortex-a53-835769");
102 #endif
103 
104     // Execute the bcc compiler.
105     if (useRSDebugContext) {
106         args->push_back("-rs-debug-ctx");
107     } else {
108         // Only load additional libraries for compiles that don't use
109         // the debug context.
110         if (bccPluginName && strlen(bccPluginName) > 0) {
111 #ifdef __ANDROID__
112             // For Android, -plugin option must be used in order to load the
113             // vendor plugin from the sphal namespace.
114             args->push_back("-plugin");
115 #else
116             args->push_back("-load");
117 #endif
118             args->push_back(bccPluginName);
119         }
120     }
121 
122     args->push_back("-fPIC");
123     args->push_back("-embedRSInfo");
124 
125     args->push_back(bcFileName.c_str());
126     args->push_back(nullptr);
127 }
128 
compileBitcode(const std::string & bcFileName,const char * bitcode,size_t bitcodeSize,std::vector<const char * > & compileArguments)129 static bool compileBitcode(const std::string &bcFileName,
130                            const char *bitcode,
131                            size_t bitcodeSize,
132                            std::vector<const char *> &compileArguments) {
133     rsAssert(bitcode && bitcodeSize);
134 
135     FILE *bcfile = fopen(bcFileName.c_str(), "we");
136     if (!bcfile) {
137         ALOGE("Could not write to %s", bcFileName.c_str());
138         return false;
139     }
140     size_t nwritten = fwrite(bitcode, 1, bitcodeSize, bcfile);
141     fclose(bcfile);
142     if (nwritten != bitcodeSize) {
143         ALOGE("Could not write %zu bytes to %s", bitcodeSize,
144               bcFileName.c_str());
145         return false;
146     }
147 
148     return android::renderscript::rsuExecuteCommand(
149                    android::renderscript::RsdCpuScriptImpl::BCC_EXE_PATH,
150                    compileArguments.size()-1, compileArguments.data());
151 }
152 
153 // The checksum is unnecessary under a few conditions, since the primary
154 // use-case for it is debugging. If we are loading something from the
155 // system partition (read-only), we know that it was precompiled as part of
156 // application ahead of time (and thus the checksum is completely
157 // unnecessary). The checksum is also unnecessary on release (non-debug)
158 // builds, as the only way to get a shared object is to have compiled the
159 // script once already. On a release build, there is no way to adjust the
160 // other libraries/dependencies, and so the only reason to recompile would
161 // be for a source APK change or an OTA. In either case, the APK would be
162 // reinstalled, which would already clear the code_cache/ directory.
isChecksumNeeded(const char * cacheDir)163 bool isChecksumNeeded(const char *cacheDir) {
164     static const std::string sysLibPathVndk = getVndkSysLibPath();
165     if ((::strcmp(SYSLIBPATH, cacheDir) == 0) ||
166         (::strcmp(sysLibPathVndk.c_str(), cacheDir) == 0) ||
167         (::strcmp(SYSLIBPATH_VENDOR, cacheDir) == 0))
168         return false;
169     char buf[PROP_VALUE_MAX];
170     android::renderscript::property_get("ro.debuggable", buf, "");
171     return (buf[0] == '1');
172 }
173 
addFileToChecksum(const char * fileName,uint32_t & checksum)174 bool addFileToChecksum(const char *fileName, uint32_t &checksum) {
175     int FD = open(fileName, O_RDONLY | O_CLOEXEC);
176     if (FD == -1) {
177         ALOGE("Cannot open file \'%s\' to compute checksum", fileName);
178         return false;
179     }
180 
181     char buf[256];
182     while (true) {
183         ssize_t nread = read(FD, buf, sizeof(buf));
184         if (nread < 0) { // bail out on failed read
185             ALOGE("Error while computing checksum for file \'%s\'", fileName);
186             return false;
187         }
188 
189         checksum = adler32(checksum, (const unsigned char *) buf, nread);
190         if (static_cast<size_t>(nread) < sizeof(buf)) // EOF
191             break;
192     }
193 
194     if (close(FD) != 0) {
195         ALOGE("Cannot close file \'%s\' after computing checksum", fileName);
196         return false;
197     }
198     return true;
199 }
200 
201 #endif  // !defined(RS_COMPATIBILITY_LIB)
202 }  // namespace
203 
204 namespace android {
205 namespace renderscript {
206 
207 #ifndef RS_COMPATIBILITY_LIB
208 
constructBuildChecksum(uint8_t const * bitcode,size_t bitcodeSize,const char * commandLine,const char ** bccFiles,size_t numFiles)209 uint32_t constructBuildChecksum(uint8_t const *bitcode, size_t bitcodeSize,
210                                 const char *commandLine,
211                                 const char** bccFiles, size_t numFiles) {
212     uint32_t checksum = adler32(0L, Z_NULL, 0);
213 
214     // include checksum of bitcode
215     if (bitcode != nullptr && bitcodeSize > 0) {
216         checksum = adler32(checksum, bitcode, bitcodeSize);
217     }
218 
219     // include checksum of command line arguments
220     checksum = adler32(checksum, (const unsigned char *) commandLine,
221                        strlen(commandLine));
222 
223     // include checksum of bccFiles
224     for (size_t i = 0; i < numFiles; i++) {
225         const char* bccFile = bccFiles[i];
226         if (bccFile[0] != 0 && !addFileToChecksum(bccFile, checksum)) {
227             // return empty checksum instead of something partial/corrupt
228             return 0;
229         }
230     }
231 
232     return checksum;
233 }
234 
235 #endif  // !RS_COMPATIBILITY_LIB
236 
RsdCpuScriptImpl(RsdCpuReferenceImpl * ctx,const Script * s)237 RsdCpuScriptImpl::RsdCpuScriptImpl(RsdCpuReferenceImpl *ctx, const Script *s) {
238     mCtx = ctx;
239     mScript = s;
240 
241     mScriptSO = nullptr;
242 
243     mRoot = nullptr;
244     mRootExpand = nullptr;
245     mInit = nullptr;
246     mFreeChildren = nullptr;
247     mScriptExec = nullptr;
248 
249     mBoundAllocs = nullptr;
250     mIntrinsicData = nullptr;
251     mIsThreadable = true;
252 
253     mBuildChecksum = 0;
254     mChecksumNeeded = false;
255 }
256 
storeRSInfoFromSO()257 bool RsdCpuScriptImpl::storeRSInfoFromSO() {
258     // The shared object may have an invalid build checksum.
259     // Validate and fail early.
260     mScriptExec = ScriptExecutable::createFromSharedObject(
261             mScriptSO, mChecksumNeeded ? mBuildChecksum : 0);
262 
263     if (mScriptExec == nullptr) {
264         return false;
265     }
266 
267     mRoot = (RootFunc_t) dlsym(mScriptSO, "root");
268     if (mRoot) {
269         //ALOGE("Found root(): %p", mRoot);
270     }
271     mRootExpand = (RootFunc_t) dlsym(mScriptSO, "root.expand");
272     if (mRootExpand) {
273         //ALOGE("Found root.expand(): %p", mRootExpand);
274     }
275     mInit = (InitOrDtorFunc_t) dlsym(mScriptSO, "init");
276     if (mInit) {
277         //ALOGE("Found init(): %p", mInit);
278     }
279     mFreeChildren = (InitOrDtorFunc_t) dlsym(mScriptSO, ".rs.dtor");
280     if (mFreeChildren) {
281         //ALOGE("Found .rs.dtor(): %p", mFreeChildren);
282     }
283 
284     size_t varCount = mScriptExec->getExportedVariableCount();
285     if (varCount > 0) {
286         mBoundAllocs = new Allocation *[varCount];
287         memset(mBoundAllocs, 0, varCount * sizeof(*mBoundAllocs));
288     }
289 
290     mIsThreadable = mScriptExec->getThreadable();
291     //ALOGE("Script isThreadable? %d", mIsThreadable);
292 
293     if (kDebugGlobalVariables) {
294         mScriptExec->dumpGlobalInfo();
295     }
296 
297     return true;
298 }
299 
init(char const * resName,char const * cacheDir,uint8_t const * bitcode,size_t bitcodeSize,uint32_t flags,char const * bccPluginName)300 bool RsdCpuScriptImpl::init(char const *resName, char const *cacheDir,
301                             uint8_t const *bitcode, size_t bitcodeSize,
302                             uint32_t flags, char const *bccPluginName) {
303     //ALOGE("rsdScriptCreate %p %p %p %p %i %i %p", rsc, resName, cacheDir,
304     // bitcode, bitcodeSize, flags, lookupFunc);
305     //ALOGE("rsdScriptInit %p %p", rsc, script);
306 
307     mCtx->lockMutex();
308 #ifndef RS_COMPATIBILITY_LIB
309     bool useRSDebugContext = false;
310 
311     bcinfo::MetadataExtractor bitcodeMetadata((const char *) bitcode, bitcodeSize);
312     if (!bitcodeMetadata.extract()) {
313         ALOGE("Could not extract metadata from bitcode");
314         mCtx->unlockMutex();
315         return false;
316     }
317 
318     const char* core_lib = findCoreLib(bitcodeMetadata, (const char*)bitcode, bitcodeSize);
319 
320     if (mCtx->getContext()->getContextType() == RS_CONTEXT_TYPE_DEBUG) {
321         useRSDebugContext = true;
322     }
323 
324     int optLevel = mCtx->getContext()->getOptLevel();
325 
326     std::string bcFileName(cacheDir);
327     bcFileName.append("/");
328     bcFileName.append(resName);
329     bcFileName.append(".bc");
330 
331     std::vector<const char*> compileArguments;
332     bool emitGlobalInfo = mCtx->getEmbedGlobalInfo();
333     bool emitGlobalInfoSkipConstant = mCtx->getEmbedGlobalInfoSkipConstant();
334     setCompileArguments(&compileArguments, bcFileName, cacheDir, resName, core_lib,
335                         useRSDebugContext, bccPluginName, emitGlobalInfo,
336                         optLevel, emitGlobalInfoSkipConstant);
337 
338     mChecksumNeeded = isChecksumNeeded(cacheDir);
339     if (mChecksumNeeded) {
340         std::vector<const char *> bccFiles = { BCC_EXE_PATH,
341                                                core_lib,
342                                              };
343 
344         // The last argument of compileArguments is a nullptr, so remove 1 from
345         // the size.
346         std::unique_ptr<const char> compileCommandLine(
347             rsuJoinStrings(compileArguments.size()-1, compileArguments.data()));
348 
349         mBuildChecksum = constructBuildChecksum(bitcode, bitcodeSize,
350                                                 compileCommandLine.get(),
351                                                 bccFiles.data(), bccFiles.size());
352 
353         if (mBuildChecksum == 0) {
354             // cannot compute checksum but verification is enabled
355             mCtx->unlockMutex();
356             return false;
357         }
358     }
359     else {
360         // add a placeholder/constant as a checksum if verification is disabled
361         mBuildChecksum = 0xabadcafe;
362     }
363 
364     // Append build checksum to commandline
365     // Handle the terminal nullptr in compileArguments
366     compileArguments.pop_back();
367     compileArguments.push_back("-build-checksum");
368     std::stringstream ss;
369     ss << std::hex << mBuildChecksum;
370     std::string checksumStr(ss.str());
371     compileArguments.push_back(checksumStr.c_str());
372     compileArguments.push_back(nullptr);
373 
374     const bool reuse = !is_force_recompile() && !useRSDebugContext;
375     if (reuse) {
376         mScriptSO = SharedLibraryUtils::loadSharedLibrary(cacheDir, resName);
377 
378         // Read RS info from the shared object to detect checksum mismatch
379         if (mScriptSO != nullptr && !storeRSInfoFromSO()) {
380             dlclose(mScriptSO);
381             mScriptSO = nullptr;
382         }
383     }
384 
385     // If reuse is desired and we can't, it's either not there or out of date.
386     // We compile the bit code and try loading again.
387     if (mScriptSO == nullptr) {
388         if (!compileBitcode(bcFileName, (const char*)bitcode, bitcodeSize,
389                             compileArguments))
390         {
391             ALOGE("bcc: FAILS to compile '%s'", resName);
392             mCtx->unlockMutex();
393             return false;
394         }
395 
396         std::string SOPath;
397 
398         if (!SharedLibraryUtils::createSharedLibrary(
399                 mCtx->getContext()->getDriverName(), cacheDir, resName, reuse,
400                 &SOPath)) {
401             ALOGE("Linker: Failed to link object file '%s'", resName);
402             mCtx->unlockMutex();
403             return false;
404         }
405 
406         if (reuse) {
407             mScriptSO = SharedLibraryUtils::loadSharedLibrary(cacheDir, resName);
408         } else {
409             mScriptSO = SharedLibraryUtils::loadAndDeleteSharedLibrary(SOPath.c_str());
410         }
411         if (mScriptSO == nullptr) {
412             ALOGE("Unable to load '%s'", resName);
413             mCtx->unlockMutex();
414             return false;
415         }
416 
417         // Read RS symbol information from the .so.
418         if (!storeRSInfoFromSO()) {
419             goto error;
420         }
421     }
422 
423     mBitcodeFilePath.assign(bcFileName.c_str());
424 
425 #else  // RS_COMPATIBILITY_LIB is defined
426     const char *nativeLibDir = mCtx->getContext()->getNativeLibDir();
427     mScriptSO = SharedLibraryUtils::loadSharedLibrary(cacheDir, resName, nativeLibDir);
428 
429     if (!mScriptSO) {
430         goto error;
431     }
432 
433     if (!storeRSInfoFromSO()) {
434         goto error;
435     }
436 #endif
437     mCtx->unlockMutex();
438     return true;
439 
440 error:
441 
442     mCtx->unlockMutex();
443     if (mScriptSO) {
444         dlclose(mScriptSO);
445         mScriptSO = nullptr;
446     }
447     return false;
448 }
449 
450 #ifndef RS_COMPATIBILITY_LIB
451 
findCoreLib(const bcinfo::MetadataExtractor & ME,const char * bitcode,size_t bitcodeSize)452 const char* RsdCpuScriptImpl::findCoreLib(const bcinfo::MetadataExtractor& ME, const char* bitcode,
453                                           size_t bitcodeSize) {
454     const char* defaultLib = SYSLIBPATH_BC"/libclcore.bc";
455 
456     // If we're debugging, use the debug library.
457     if (mCtx->getContext()->getContextType() == RS_CONTEXT_TYPE_DEBUG) {
458         if (ME.hasDebugInfo()) {
459             return SYSLIBPATH_BC"/libclcore_debug_g.bc";
460         }
461         return SYSLIBPATH_BC"/libclcore_debug.bc";
462     }
463 
464     if (ME.hasDebugInfo()) {
465         return SYSLIBPATH_BC"/libclcore_g.bc";
466     }
467 
468     // If a callback has been registered to specify a library, use that.
469     RSSelectRTCallback selectRTCallback = mCtx->getSelectRTCallback();
470     if (selectRTCallback != nullptr) {
471         return selectRTCallback((const char*)bitcode, bitcodeSize);
472     }
473 
474     // Check for a platform specific library
475 #if defined(ARCH_ARM_HAVE_NEON) && !defined(DISABLE_CLCORE_NEON)
476     enum bcinfo::RSFloatPrecision prec = ME.getRSFloatPrecision();
477     if (prec == bcinfo::RS_FP_Relaxed) {
478         // NEON-capable ARMv7a devices can use an accelerated math library
479         // for all reduced precision scripts.
480         // ARMv8 does not use NEON, as ASIMD can be used with all precision
481         // levels.
482         return SYSLIBPATH_BC"/libclcore_neon.bc";
483     } else {
484         return defaultLib;
485     }
486 #elif defined(__i386__) || defined(__x86_64__)
487     // x86 devices will use an optimized library.
488     return SYSLIBPATH_BC"/libclcore_x86.bc";
489 #else
490     return defaultLib;
491 #endif
492 }
493 
494 #endif
495 
populateScript(Script * script)496 void RsdCpuScriptImpl::populateScript(Script *script) {
497     // Copy info over to runtime
498     script->mHal.info.exportedFunctionCount = mScriptExec->getExportedFunctionCount();
499     script->mHal.info.exportedReduceCount = mScriptExec->getExportedReduceCount();
500     script->mHal.info.exportedForEachCount = mScriptExec->getExportedForEachCount();
501     script->mHal.info.exportedVariableCount = mScriptExec->getExportedVariableCount();
502     script->mHal.info.exportedPragmaCount = mScriptExec->getPragmaCount();;
503     script->mHal.info.exportedPragmaKeyList = mScriptExec->getPragmaKeys();
504     script->mHal.info.exportedPragmaValueList = mScriptExec->getPragmaValues();
505 
506     // Bug, need to stash in metadata
507     if (mRootExpand) {
508         script->mHal.info.root = mRootExpand;
509     } else {
510         script->mHal.info.root = mRoot;
511     }
512 }
513 
514 // Set up the launch dimensions, and write the values of the launch
515 // dimensions into the mtls start/end fields.
516 //
517 // Inputs:
518 //    baseDim - base shape of the input
519 //         sc - used to constrain the launch dimensions
520 //
521 // Returns:
522 //   True on success, false on failure to set up
setUpMtlsDimensions(MTLaunchStructCommon * mtls,const RsLaunchDimensions & baseDim,const RsScriptCall * sc)523 bool RsdCpuScriptImpl::setUpMtlsDimensions(MTLaunchStructCommon *mtls,
524                                            const RsLaunchDimensions &baseDim,
525                                            const RsScriptCall *sc) {
526     rsAssert(mtls);
527 
528 #define SET_UP_DIMENSION(DIM_FIELD, SC_FIELD) do {            \
529     if (!sc || (sc->SC_FIELD##End == 0)) {                    \
530         mtls->end.DIM_FIELD = baseDim.DIM_FIELD;              \
531     } else {                                                  \
532         mtls->start.DIM_FIELD =                               \
533             rsMin(baseDim.DIM_FIELD, sc->SC_FIELD##Start);    \
534         mtls->end.DIM_FIELD =                                 \
535             rsMin(baseDim.DIM_FIELD, sc->SC_FIELD##End);      \
536         if (mtls->start.DIM_FIELD >= mtls->end.DIM_FIELD) {   \
537             mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT, \
538                 "Failed to launch kernel; Invalid "           \
539                 #SC_FIELD "Start or " #SC_FIELD "End.");      \
540             return false;                                     \
541         }                                                     \
542     }} while(0)
543 
544     SET_UP_DIMENSION(x, x);
545     SET_UP_DIMENSION(y, y);
546     SET_UP_DIMENSION(z, z);
547     // Checks and setup of fields other than x, y, z are ignored, since those
548     // fields are not used in the runtime and are not visible in the Java API.
549 #undef SET_UP_DIMENSION
550 
551     return true;
552 }
553 
554 // Preliminary work to prepare a general reduce-style kernel for launch.
reduceMtlsSetup(const Allocation ** ains,uint32_t inLen,const Allocation * aout,const RsScriptCall * sc,MTLaunchStructReduce * mtls)555 bool RsdCpuScriptImpl::reduceMtlsSetup(const Allocation ** ains,
556                                        uint32_t inLen,
557                                        const Allocation * aout,
558                                        const RsScriptCall *sc,
559                                        MTLaunchStructReduce *mtls) {
560     rsAssert(ains && (inLen >= 1) && aout);
561     memset(mtls, 0, sizeof(MTLaunchStructReduce));
562     mtls->dimPtr = &mtls->redp.dim;
563 
564     for (int index = inLen; --index >= 0;) {
565         if (allocationLODIsNull(ains[index])) {
566             mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
567                                          "reduce called with null in allocations");
568             return false;
569         }
570     }
571 
572     if (allocationLODIsNull(aout)) {
573         mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
574                                      "reduce called with null out allocation");
575         return false;
576     }
577 
578     const Allocation *ain0   = ains[0];
579     const Type       *inType = ain0->getType();
580 
581     mtls->redp.dim.x = inType->getDimX();
582     mtls->redp.dim.y = inType->getDimY();
583     mtls->redp.dim.z = inType->getDimZ();
584 
585     for (int Index = inLen; --Index >= 1;) {
586         if (!ain0->hasSameDims(ains[Index])) {
587             mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
588                                          "Failed to launch reduction kernel;"
589                                          "dimensions of input allocations do not match.");
590             return false;
591         }
592     }
593 
594     if (!setUpMtlsDimensions(mtls, mtls->redp.dim, sc)) {
595         return false;
596     }
597 
598     // The X & Y walkers always want 0-1 min even if dim is not present
599     mtls->end.x = rsMax((uint32_t)1, mtls->end.x);
600     mtls->end.y = rsMax((uint32_t)1, mtls->end.y);
601 
602     mtls->rs = mCtx;
603 
604     mtls->mSliceNum    = 0;
605     mtls->mSliceSize   = 1;
606     mtls->isThreadable = mIsThreadable;
607 
608     // Set up output,
609     mtls->redp.outLen = 1;
610     mtls->redp.outPtr[0] = (uint8_t *)aout->mHal.drvState.lod[0].mallocPtr;
611     mtls->redp.outStride[0] = aout->getType()->getElementSizeBytes();
612 
613     // Set up input.
614     memcpy(mtls->ains, ains, inLen * sizeof(ains[0]));
615     mtls->redp.inLen = inLen;
616     for (int index = inLen; --index >= 0;) {
617         mtls->redp.inPtr[index] = (const uint8_t*)ains[index]->mHal.drvState.lod[0].mallocPtr;
618         mtls->redp.inStride[index] = ains[index]->getType()->getElementSizeBytes();
619     }
620 
621     // All validation passed, ok to launch threads
622     return true;
623 }
624 
625 // Preliminary work to prepare a forEach-style kernel for launch.
forEachMtlsSetup(const Allocation ** ains,uint32_t inLen,Allocation * aout,const void * usr,uint32_t usrLen,const RsScriptCall * sc,MTLaunchStructForEach * mtls)626 bool RsdCpuScriptImpl::forEachMtlsSetup(const Allocation ** ains,
627                                         uint32_t inLen,
628                                         Allocation * aout,
629                                         const void * usr, uint32_t usrLen,
630                                         const RsScriptCall *sc,
631                                         MTLaunchStructForEach *mtls) {
632     if (ains == nullptr && inLen != 0) {
633         mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
634           "rsForEach called with none-zero inLen with null in allocations");
635         return false;
636     }
637 
638     memset(mtls, 0, sizeof(MTLaunchStructForEach));
639     mtls->dimPtr = &mtls->fep.dim;
640 
641     for (int index = inLen; --index >= 0;) {
642         if (allocationLODIsNull(ains[index])) {
643             mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
644                                          "rsForEach called with null in allocations");
645             return false;
646         }
647     }
648 
649     if (allocationLODIsNull(aout)) {
650         mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
651                                      "rsForEach called with null out allocations");
652         return false;
653     }
654 
655     // The only situation where ains[j] is null is when inLen==1 and j==0;
656     // and that can only happen for an old-style kernel in API level 11~13,
657     // where the input allocation cannot be skipped if the output allocation is specified.
658     if (inLen != 0)
659         rsAssert((inLen == 1) || (ains[0] != nullptr));
660 
661     if (inLen > 0 && ains[0]) {
662         const Allocation *ain0   = ains[0];
663         const Type       *inType = ain0->getType();
664 
665         mtls->fep.dim.x = inType->getDimX();
666         mtls->fep.dim.y = inType->getDimY();
667         mtls->fep.dim.z = inType->getDimZ();
668 
669         for (int Index = inLen; --Index >= 1;) {
670             if (!ain0->hasSameDims(ains[Index])) {
671                 mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
672                   "Failed to launch kernel; dimensions of input "
673                   "allocations do not match.");
674                 return false;
675             }
676         }
677     } else if (aout != nullptr) {
678         const Type *outType = aout->getType();
679 
680         mtls->fep.dim.x = outType->getDimX();
681         mtls->fep.dim.y = outType->getDimY();
682         mtls->fep.dim.z = outType->getDimZ();
683 
684     } else if (sc != nullptr) {
685         mtls->fep.dim.x = sc->xEnd;
686         mtls->fep.dim.y = sc->yEnd;
687         mtls->fep.dim.z = 0;
688     } else {
689         mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
690                                      "rsForEach called with null allocations");
691         return false;
692     }
693 
694     if (inLen > 0 && aout != nullptr) {
695         if (ains[0] && !ains[0]->hasSameDims(aout)) {
696             mCtx->getContext()->setError(RS_ERROR_BAD_SCRIPT,
697               "Failed to launch kernel; dimensions of input and output allocations do not match.");
698 
699             return false;
700         }
701     }
702 
703     if (!setUpMtlsDimensions(mtls, mtls->fep.dim, sc)) {
704         return false;
705     }
706 
707     // The X & Y walkers always want 0-1 min even if dim is not present
708     mtls->end.x    = rsMax((uint32_t)1, mtls->end.x);
709     mtls->end.y    = rsMax((uint32_t)1, mtls->end.y);
710     mtls->rs       = mCtx;
711     if (ains) {
712         memcpy(mtls->ains, ains, inLen * sizeof(ains[0]));
713     }
714     mtls->aout[0]    = aout;
715     mtls->fep.usr    = usr;
716     mtls->fep.usrLen = usrLen;
717     mtls->mSliceSize = 1;
718     mtls->mSliceNum  = 0;
719 
720     mtls->isThreadable  = mIsThreadable;
721 
722     if (inLen > 0) {
723         mtls->fep.inLen = inLen;
724         for (int index = inLen; --index >= 0;) {
725             if (ains[index] == nullptr) {
726                 // In old style kernels, the first and only input allocation could be null.
727                 // Not allowed in newer styles.
728                 rsAssert(inLen == 1 && index == 0);
729                 continue;
730             }
731             mtls->fep.inPtr[index] = (const uint8_t*)ains[index]->mHal.drvState.lod[0].mallocPtr;
732             mtls->fep.inStride[index] = ains[index]->getType()->getElementSizeBytes();
733         }
734     }
735 
736     if (aout != nullptr) {
737         mtls->fep.outPtr[0] = (uint8_t *)aout->mHal.drvState.lod[0].mallocPtr;
738         mtls->fep.outStride[0] = aout->getType()->getElementSizeBytes();
739     }
740 
741     // All validation passed, ok to launch threads
742     return true;
743 }
744 
745 
invokeForEach(uint32_t slot,const Allocation ** ains,uint32_t inLen,Allocation * aout,const void * usr,uint32_t usrLen,const RsScriptCall * sc)746 void RsdCpuScriptImpl::invokeForEach(uint32_t slot,
747                                      const Allocation ** ains,
748                                      uint32_t inLen,
749                                      Allocation * aout,
750                                      const void * usr,
751                                      uint32_t usrLen,
752                                      const RsScriptCall *sc) {
753 
754     MTLaunchStructForEach mtls;
755 
756     if (forEachMtlsSetup(ains, inLen, aout, usr, usrLen, sc, &mtls)) {
757         forEachKernelSetup(slot, &mtls);
758 
759         RsdCpuScriptImpl * oldTLS = mCtx->setTLS(this);
760         mCtx->launchForEach(ains, inLen, aout, sc, &mtls);
761         mCtx->setTLS(oldTLS);
762     }
763 }
764 
invokeReduce(uint32_t slot,const Allocation ** ains,uint32_t inLen,Allocation * aout,const RsScriptCall * sc)765 void RsdCpuScriptImpl::invokeReduce(uint32_t slot,
766                                     const Allocation ** ains, uint32_t inLen,
767                                     Allocation *aout,
768                                     const RsScriptCall *sc) {
769   MTLaunchStructReduce mtls;
770 
771   if (reduceMtlsSetup(ains, inLen, aout, sc, &mtls)) {
772     reduceKernelSetup(slot, &mtls);
773     RsdCpuScriptImpl *oldTLS = mCtx->setTLS(this);
774     mCtx->launchReduce(ains, inLen, aout, &mtls);
775     mCtx->setTLS(oldTLS);
776   }
777 }
778 
forEachKernelSetup(uint32_t slot,MTLaunchStructForEach * mtls)779 void RsdCpuScriptImpl::forEachKernelSetup(uint32_t slot, MTLaunchStructForEach *mtls) {
780     mtls->script = this;
781     mtls->fep.slot = slot;
782     mtls->kernel = mScriptExec->getForEachFunction(slot);
783     rsAssert(mtls->kernel != nullptr);
784 }
785 
reduceKernelSetup(uint32_t slot,MTLaunchStructReduce * mtls)786 void RsdCpuScriptImpl::reduceKernelSetup(uint32_t slot, MTLaunchStructReduce *mtls) {
787     mtls->script = this;
788     mtls->redp.slot = slot;
789 
790     const ReduceDescription *desc = mScriptExec->getReduceDescription(slot);
791     mtls->accumFunc = desc->accumFunc;
792     mtls->initFunc  = desc->initFunc;   // might legally be nullptr
793     mtls->combFunc  = desc->combFunc;   // might legally be nullptr
794     mtls->outFunc   = desc->outFunc;    // might legally be nullptr
795     mtls->accumSize = desc->accumSize;
796 
797     rsAssert(mtls->accumFunc != nullptr);
798 }
799 
invokeRoot()800 int RsdCpuScriptImpl::invokeRoot() {
801     RsdCpuScriptImpl * oldTLS = mCtx->setTLS(this);
802     int ret = mRoot();
803     mCtx->setTLS(oldTLS);
804     return ret;
805 }
806 
invokeInit()807 void RsdCpuScriptImpl::invokeInit() {
808     if (mInit) {
809         mInit();
810     }
811 }
812 
invokeFreeChildren()813 void RsdCpuScriptImpl::invokeFreeChildren() {
814     if (mFreeChildren) {
815         mFreeChildren();
816     }
817 }
818 
invokeFunction(uint32_t slot,const void * params,size_t paramLength)819 void RsdCpuScriptImpl::invokeFunction(uint32_t slot, const void *params,
820                                       size_t paramLength) {
821     //ALOGE("invoke %i %p %zu", slot, params, paramLength);
822     void * ap = nullptr;
823 
824 #if defined(__x86_64__)
825     // The invoked function could have input parameter of vector type for example float4 which
826     // requires void* params to be 16 bytes aligned when using SSE instructions for x86_64 platform.
827     // So try to align void* params before passing them into RS exported function.
828 
829     if ((uint8_t)(uint64_t)params & 0x0F) {
830         if ((ap = (void*)memalign(16, paramLength)) != nullptr) {
831             memcpy(ap, params, paramLength);
832         } else {
833             ALOGE("x86_64: invokeFunction memalign error, still use params which"
834                   " is not 16 bytes aligned.");
835         }
836     }
837 #endif
838 
839     RsdCpuScriptImpl * oldTLS = mCtx->setTLS(this);
840     reinterpret_cast<void (*)(const void *, uint32_t)>(
841         mScriptExec->getInvokeFunction(slot))(ap? (const void *) ap: params, paramLength);
842 
843 #if defined(__x86_64__)
844     free(ap);
845 #endif
846 
847     mCtx->setTLS(oldTLS);
848 }
849 
setGlobalVar(uint32_t slot,const void * data,size_t dataLength)850 void RsdCpuScriptImpl::setGlobalVar(uint32_t slot, const void *data, size_t dataLength) {
851     //rsAssert(!script->mFieldIsObject[slot]);
852     //ALOGE("setGlobalVar %i %p %zu", slot, data, dataLength);
853 
854     //if (mIntrinsicID) {
855         //mIntrinsicFuncs.setVar(dc, script, drv->mIntrinsicData, slot, data, dataLength);
856         //return;
857     //}
858 
859     int32_t *destPtr = reinterpret_cast<int32_t *>(mScriptExec->getFieldAddress(slot));
860     if (!destPtr) {
861         //ALOGV("Calling setVar on slot = %i which is null", slot);
862         return;
863     }
864 
865     memcpy(destPtr, data, dataLength);
866 }
867 
getGlobalVar(uint32_t slot,void * data,size_t dataLength)868 void RsdCpuScriptImpl::getGlobalVar(uint32_t slot, void *data, size_t dataLength) {
869     //rsAssert(!script->mFieldIsObject[slot]);
870     //ALOGE("getGlobalVar %i %p %zu", slot, data, dataLength);
871 
872     int32_t *srcPtr = reinterpret_cast<int32_t *>(mScriptExec->getFieldAddress(slot));
873     if (!srcPtr) {
874         //ALOGV("Calling setVar on slot = %i which is null", slot);
875         return;
876     }
877     memcpy(data, srcPtr, dataLength);
878 }
879 
880 
setGlobalVarWithElemDims(uint32_t slot,const void * data,size_t dataLength,const Element * elem,const uint32_t * dims,size_t dimLength)881 void RsdCpuScriptImpl::setGlobalVarWithElemDims(uint32_t slot, const void *data, size_t dataLength,
882                                                 const Element *elem,
883                                                 const uint32_t *dims, size_t dimLength) {
884     int32_t *destPtr = reinterpret_cast<int32_t *>(mScriptExec->getFieldAddress(slot));
885     if (!destPtr) {
886         //ALOGV("Calling setVar on slot = %i which is null", slot);
887         return;
888     }
889 
890     // We want to look at dimension in terms of integer components,
891     // but dimLength is given in terms of bytes.
892     dimLength /= sizeof(int);
893 
894     // Only a single dimension is currently supported.
895     rsAssert(dimLength == 1);
896     if (dimLength == 1) {
897         // First do the increment loop.
898         size_t stride = elem->getSizeBytes();
899         const char *cVal = reinterpret_cast<const char *>(data);
900         for (uint32_t i = 0; i < dims[0]; i++) {
901             elem->incRefs(cVal);
902             cVal += stride;
903         }
904 
905         // Decrement loop comes after (to prevent race conditions).
906         char *oldVal = reinterpret_cast<char *>(destPtr);
907         for (uint32_t i = 0; i < dims[0]; i++) {
908             elem->decRefs(oldVal);
909             oldVal += stride;
910         }
911     }
912 
913     memcpy(destPtr, data, dataLength);
914 }
915 
setGlobalBind(uint32_t slot,Allocation * data)916 void RsdCpuScriptImpl::setGlobalBind(uint32_t slot, Allocation *data) {
917 
918     //rsAssert(!script->mFieldIsObject[slot]);
919     //ALOGE("setGlobalBind %i %p", slot, data);
920 
921     int32_t *destPtr = reinterpret_cast<int32_t *>(mScriptExec->getFieldAddress(slot));
922     if (!destPtr) {
923         //ALOGV("Calling setVar on slot = %i which is null", slot);
924         return;
925     }
926 
927     void *ptr = nullptr;
928     mBoundAllocs[slot] = data;
929     if (data) {
930         ptr = data->mHal.drvState.lod[0].mallocPtr;
931     }
932     memcpy(destPtr, &ptr, sizeof(void *));
933 }
934 
setGlobalObj(uint32_t slot,ObjectBase * data)935 void RsdCpuScriptImpl::setGlobalObj(uint32_t slot, ObjectBase *data) {
936 
937     //rsAssert(script->mFieldIsObject[slot]);
938     //ALOGE("setGlobalObj %i %p", slot, data);
939 
940     int32_t *destPtr = reinterpret_cast<int32_t *>(mScriptExec->getFieldAddress(slot));
941     if (!destPtr) {
942         //ALOGV("Calling setVar on slot = %i which is null", slot);
943         return;
944     }
945 
946     rsrSetObject(mCtx->getContext(), (rs_object_base *)destPtr, data);
947 }
948 
getFieldName(uint32_t slot) const949 const char* RsdCpuScriptImpl::getFieldName(uint32_t slot) const {
950     return mScriptExec->getFieldName(slot);
951 }
952 
~RsdCpuScriptImpl()953 RsdCpuScriptImpl::~RsdCpuScriptImpl() {
954     delete mScriptExec;
955     delete[] mBoundAllocs;
956     if (mScriptSO) {
957         dlclose(mScriptSO);
958     }
959 }
960 
getAllocationForPointer(const void * ptr) const961 Allocation * RsdCpuScriptImpl::getAllocationForPointer(const void *ptr) const {
962     if (!ptr) {
963         return nullptr;
964     }
965 
966     for (uint32_t ct=0; ct < mScript->mHal.info.exportedVariableCount; ct++) {
967         Allocation *a = mBoundAllocs[ct];
968         if (!a) continue;
969         if (a->mHal.drvState.lod[0].mallocPtr == ptr) {
970             return a;
971         }
972     }
973     ALOGE("rsGetAllocation, failed to find %p", ptr);
974     return nullptr;
975 }
976 
getGlobalEntries() const977 int RsdCpuScriptImpl::getGlobalEntries() const {
978     return mScriptExec->getGlobalEntries();
979 }
980 
getGlobalName(int i) const981 const char * RsdCpuScriptImpl::getGlobalName(int i) const {
982     return mScriptExec->getGlobalName(i);
983 }
984 
getGlobalAddress(int i) const985 const void * RsdCpuScriptImpl::getGlobalAddress(int i) const {
986     return mScriptExec->getGlobalAddress(i);
987 }
988 
getGlobalSize(int i) const989 size_t RsdCpuScriptImpl::getGlobalSize(int i) const {
990     return mScriptExec->getGlobalSize(i);
991 }
992 
getGlobalProperties(int i) const993 uint32_t RsdCpuScriptImpl::getGlobalProperties(int i) const {
994     return mScriptExec->getGlobalProperties(i);
995 }
996 
preLaunch(uint32_t slot,const Allocation ** ains,uint32_t inLen,Allocation * aout,const void * usr,uint32_t usrLen,const RsScriptCall * sc)997 void RsdCpuScriptImpl::preLaunch(uint32_t slot, const Allocation ** ains,
998                                  uint32_t inLen, Allocation * aout,
999                                  const void * usr, uint32_t usrLen,
1000                                  const RsScriptCall *sc) {}
1001 
postLaunch(uint32_t slot,const Allocation ** ains,uint32_t inLen,Allocation * aout,const void * usr,uint32_t usrLen,const RsScriptCall * sc)1002 void RsdCpuScriptImpl::postLaunch(uint32_t slot, const Allocation ** ains,
1003                                   uint32_t inLen, Allocation * aout,
1004                                   const void * usr, uint32_t usrLen,
1005                                   const RsScriptCall *sc) {}
1006 
1007 
1008 } // namespace renderscript
1009 } // namespace android
1010