/*
* Copyright 2012, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// #define LOG_NDEBUG 0
#include "bcc/Renderscript/RSInfo.h"
#if !defined(_WIN32) /* TODO create a HAVE_DLFCN_H */
#include <dlfcn.h>
#endif
#include <cstring>
#include <new>
#include <string>
#include "bcc/Support/FileBase.h"
#include "bcc/Support/Log.h"
#ifdef HAVE_ANDROID_OS
#include <cutils/properties.h>
#endif
using namespace bcc;
android::String8 RSInfo::GetPath(const char *pFilename) {
android::String8 result(pFilename);
result.append(".info");
return result;
}
static std::string stringFromSourceHash(const RSInfo::DependencyHashTy& hash) {
std::string s;
s.reserve(SHA1_DIGEST_LENGTH + 1);
for (int i = 0; i < SHA1_DIGEST_LENGTH; i++) {
char buf[4];
snprintf(buf, sizeof(buf), "%02x", hash[i]);
s.append(buf);
}
return s;
}
std::string bcc::getCommandLine(int argc, const char* const* argv) {
std::string s;
for (int i = 0; i < argc; i++) {
if (i > 0) {
s += ' ';
}
s += argv[i];
}
return s;
}
bool RSInfo::IsConsistent(const char* pInputFilename, const DependencyHashTy& expectedSourceHash,
const char* expectedCompileCommandLine,
const char* expectedBuildFingerprint) {
if (::memcmp(mSourceHash, expectedSourceHash, SHA1_DIGEST_LENGTH) != 0) {
ALOGD("Cache %s is dirty due to the source it depends on has been changed:",
pInputFilename);
ALOGD("expected: %s", stringFromSourceHash(expectedSourceHash).c_str());
ALOGD("cached : %s", stringFromSourceHash(mSourceHash).c_str());
return false;
}
if (strcmp(expectedCompileCommandLine, mCompileCommandLine) != 0) {
ALOGD("Cache %s is dirty because the command line used to compile it has changed:",
pInputFilename);
ALOGD("expected: %s", expectedCompileCommandLine);
ALOGD("cached : %s", mCompileCommandLine);
return false;
}
if (strcmp(expectedBuildFingerprint, mBuildFingerprint) != 0) {
ALOGD("Cache %s is dirty because the build fingerprint has changed:", pInputFilename);
ALOGD("expected: %s", expectedBuildFingerprint);
ALOGD("cached : %s", mBuildFingerprint);
return false;
}
return true;
}
RSInfo::RSInfo(size_t pStringPoolSize) : mStringPool(NULL) {
::memset(&mHeader, 0, sizeof(mHeader));
::memcpy(mHeader.magic, RSINFO_MAGIC, sizeof(mHeader.magic));
::memcpy(mHeader.version, RSINFO_VERSION, sizeof(mHeader.version));
mHeader.headerSize = sizeof(mHeader);
mHeader.pragmaList.itemSize = sizeof(rsinfo::PragmaItem);
mHeader.objectSlotList.itemSize = sizeof(rsinfo::ObjectSlotItem);
mHeader.exportVarNameList.itemSize = sizeof(rsinfo::ExportVarNameItem);
mHeader.exportFuncNameList.itemSize = sizeof(rsinfo::ExportFuncNameItem);
mHeader.exportForeachFuncList.itemSize = sizeof(rsinfo::ExportForeachFuncItem);
if (pStringPoolSize > 0) {
mHeader.strPoolSize = pStringPoolSize;
mStringPool = new (std::nothrow) char [ mHeader.strPoolSize ];
if (mStringPool == NULL) {
ALOGE("Out of memory when allocate memory for string pool in RSInfo "
"constructor (size: %u)!", mHeader.strPoolSize);
}
::memset(mStringPool, 0, mHeader.strPoolSize);
}
mSourceHash = NULL;
mCompileCommandLine = NULL;
mBuildFingerprint = NULL;
}
RSInfo::~RSInfo() {
delete [] mStringPool;
}
bool RSInfo::layout(off_t initial_offset) {
mHeader.pragmaList.offset = initial_offset +
mHeader.headerSize +
mHeader.strPoolSize;
mHeader.pragmaList.count = mPragmas.size();
#define AFTER(_list) ((_list).offset + (_list).itemSize * (_list).count)
mHeader.objectSlotList.offset = AFTER(mHeader.pragmaList);
mHeader.objectSlotList.count = mObjectSlots.size();
mHeader.exportVarNameList.offset = AFTER(mHeader.objectSlotList);
mHeader.exportVarNameList.count = mExportVarNames.size();
mHeader.exportFuncNameList.offset = AFTER(mHeader.exportVarNameList);
mHeader.exportFuncNameList.count = mExportFuncNames.size();
mHeader.exportForeachFuncList.offset = AFTER(mHeader.exportFuncNameList);
mHeader.exportForeachFuncList.count = mExportForeachFuncs.size();
#undef AFTER
return true;
}
void RSInfo::dump() const {
// Hide the codes to save the code size when debugging is disabled.
#if !LOG_NDEBUG
// Dump header
ALOGV("RSInfo Header:");
ALOGV("\tIs threadable: %s", ((mHeader.isThreadable) ? "true" : "false"));
ALOGV("\tHeader size: %u", mHeader.headerSize);
ALOGV("\tString pool size: %u", mHeader.strPoolSize);
if (mSourceHash == NULL) {
ALOGV("Source hash: NULL!");
} else {
ALOGV("Source hash: %s", stringFromSourceHash(mSourceHash).c_str());
}
ALOGV("Compile Command Line: ", mCompileCommandLine ? mCompileCommandLine : "(NULL)");
ALOGV("mBuildFingerprint: ", mBuildFingerprint ? mBuildFingerprint : "(NULL)");
#define DUMP_LIST_HEADER(_name, _header) do { \
ALOGV(_name ":"); \
ALOGV("\toffset: %u", (_header).offset); \
ALOGV("\t# of item: %u", (_header).count); \
ALOGV("\tsize of each item: %u", (_header).itemSize); \
} while (false)
DUMP_LIST_HEADER("Pragma list", mHeader.pragmaList);
for (PragmaListTy::const_iterator pragma_iter = mPragmas.begin(),
pragma_end = mPragmas.end(); pragma_iter != pragma_end; pragma_iter++) {
ALOGV("\tkey: %s, value: %s", pragma_iter->first, pragma_iter->second);
}
DUMP_LIST_HEADER("RS object slots", mHeader.objectSlotList);
for (ObjectSlotListTy::const_iterator slot_iter = mObjectSlots.begin(),
slot_end = mObjectSlots.end(); slot_iter != slot_end; slot_iter++) {
ALOGV("slot: %u", *slot_iter);
}
DUMP_LIST_HEADER("RS export variables", mHeader.exportVarNameList);
for (ExportVarNameListTy::const_iterator var_iter = mExportVarNames.begin(),
var_end = mExportVarNames.end(); var_iter != var_end; var_iter++) {
ALOGV("name: %s", *var_iter);
}
DUMP_LIST_HEADER("RS export functions", mHeader.exportFuncNameList);
for (ExportFuncNameListTy::const_iterator func_iter = mExportFuncNames.begin(),
func_end = mExportFuncNames.end(); func_iter != func_end; func_iter++) {
ALOGV("name: %s", *func_iter);
}
DUMP_LIST_HEADER("RS foreach list", mHeader.exportForeachFuncList);
for (ExportForeachFuncListTy::const_iterator
foreach_iter = mExportForeachFuncs.begin(),
foreach_end = mExportForeachFuncs.end(); foreach_iter != foreach_end;
foreach_iter++) {
ALOGV("name: %s, signature: %05x", foreach_iter->first,
foreach_iter->second);
}
#undef DUMP_LIST_HEADER
#endif // LOG_NDEBUG
return;
}
const char *RSInfo::getStringFromPool(rsinfo::StringIndexTy pStrIdx) const {
// String pool uses direct indexing. Ensure that the pStrIdx is within the
// range.
if (pStrIdx >= mHeader.strPoolSize) {
ALOGE("String index #%u is out of range in string pool (size: %u)!",
pStrIdx, mHeader.strPoolSize);
return NULL;
}
return &mStringPool[ pStrIdx ];
}
rsinfo::StringIndexTy RSInfo::getStringIdxInPool(const char *pStr) const {
// Assume we are on the flat memory architecture (i.e., the memory space is
// continuous.)
if ((mStringPool + mHeader.strPoolSize) < pStr) {
ALOGE("String %s does not in the string pool!", pStr);
return rsinfo::gInvalidStringIndex;
}
return (pStr - mStringPool);
}
RSInfo::FloatPrecision RSInfo::getFloatPrecisionRequirement() const {
// Check to see if we have any FP precision-related pragmas.
std::string relaxed_pragma("rs_fp_relaxed");
std::string imprecise_pragma("rs_fp_imprecise");
std::string full_pragma("rs_fp_full");
bool relaxed_pragma_seen = false;
bool full_pragma_seen = false;
for (PragmaListTy::const_iterator pragma_iter = mPragmas.begin(),
pragma_end = mPragmas.end(); pragma_iter != pragma_end;
pragma_iter++) {
const char *pragma_key = pragma_iter->first;
if (!relaxed_pragma.compare(pragma_key)) {
relaxed_pragma_seen = true;
} else if (!imprecise_pragma.compare(pragma_key)) {
ALOGW("rs_fp_imprecise is deprecated. Assuming rs_fp_relaxed instead.");
relaxed_pragma_seen = true;
} else if (!full_pragma.compare(pragma_key)) {
full_pragma_seen = true;
}
}
if (relaxed_pragma_seen && full_pragma_seen) {
ALOGE("Full and relaxed precision specified at the same time!");
}
RSInfo::FloatPrecision result = relaxed_pragma_seen ? FP_Relaxed : FP_Full;
#ifdef HAVE_ANDROID_OS
// Provide an override for precsion via adb shell setprop
// adb shell setprop debug.rs.precision rs_fp_full
// adb shell setprop debug.rs.precision rs_fp_relaxed
// adb shell setprop debug.rs.precision rs_fp_imprecise
char precision_prop_buf[PROPERTY_VALUE_MAX];
property_get("debug.rs.precision", precision_prop_buf, "");
if (precision_prop_buf[0]) {
if (!relaxed_pragma.compare(precision_prop_buf)) {
ALOGI("Switching to RS FP relaxed mode via setprop");
result = FP_Relaxed;
} else if (!imprecise_pragma.compare(precision_prop_buf)) {
ALOGW("Switching to RS FP relaxed mode via setprop. rs_fp_imprecise was specified but is "
"deprecated ");
result = FP_Relaxed;
} else if (!full_pragma.compare(precision_prop_buf)) {
ALOGI("Switching to RS FP full mode via setprop");
result = FP_Full;
} else {
ALOGE("Unrecognized debug.rs.precision %s", precision_prop_buf);
}
}
#endif
return result;
}