/* * Copyright (C) 2016 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. */ #undef LOG_TAG #define LOG_TAG "MediaAnalyticsItem" #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace android { #define DEBUG_SERVICEACCESS 0 #define DEBUG_API 0 #define DEBUG_ALLOCATIONS 0 // after this many failed attempts, we stop trying [from this process] and just say that // the service is off. #define SVC_TRIES 2 // the few universal keys we have const MediaAnalyticsItem::Key MediaAnalyticsItem::kKeyAny = "any"; const MediaAnalyticsItem::Key MediaAnalyticsItem::kKeyNone = "none"; const char * const MediaAnalyticsItem::EnabledProperty = "media.metrics.enabled"; const char * const MediaAnalyticsItem::EnabledPropertyPersist = "persist.media.metrics.enabled"; const int MediaAnalyticsItem::EnabledProperty_default = 1; // So caller doesn't need to know size of allocated space MediaAnalyticsItem *MediaAnalyticsItem::create() { return MediaAnalyticsItem::create(kKeyNone); } MediaAnalyticsItem *MediaAnalyticsItem::create(MediaAnalyticsItem::Key key) { MediaAnalyticsItem *item = new MediaAnalyticsItem(key); return item; } // access functions for the class MediaAnalyticsItem::MediaAnalyticsItem() : mPid(-1), mUid(-1), mPkgVersionCode(0), mSessionID(MediaAnalyticsItem::SessionIDNone), mTimestamp(0), mFinalized(1), mPropCount(0), mPropSize(0), mProps(NULL) { mKey = MediaAnalyticsItem::kKeyNone; } MediaAnalyticsItem::MediaAnalyticsItem(MediaAnalyticsItem::Key key) : mPid(-1), mUid(-1), mPkgVersionCode(0), mSessionID(MediaAnalyticsItem::SessionIDNone), mTimestamp(0), mFinalized(1), mPropCount(0), mPropSize(0), mProps(NULL) { if (DEBUG_ALLOCATIONS) { ALOGD("Allocate MediaAnalyticsItem @ %p", this); } mKey = key; } MediaAnalyticsItem::~MediaAnalyticsItem() { if (DEBUG_ALLOCATIONS) { ALOGD("Destroy MediaAnalyticsItem @ %p", this); } clear(); } void MediaAnalyticsItem::clear() { // clean allocated storage from key mKey.clear(); // clean various major parameters mSessionID = MediaAnalyticsItem::SessionIDNone; // clean attributes // contents of the attributes for (size_t i = 0 ; i < mPropCount; i++ ) { clearProp(&mProps[i]); } // the attribute records themselves if (mProps != NULL) { free(mProps); mProps = NULL; } mPropSize = 0; mPropCount = 0; return; } // make a deep copy of myself MediaAnalyticsItem *MediaAnalyticsItem::dup() { MediaAnalyticsItem *dst = new MediaAnalyticsItem(this->mKey); if (dst != NULL) { // key as part of constructor dst->mPid = this->mPid; dst->mUid = this->mUid; dst->mPkgName = this->mPkgName; dst->mPkgVersionCode = this->mPkgVersionCode; dst->mSessionID = this->mSessionID; dst->mTimestamp = this->mTimestamp; dst->mFinalized = this->mFinalized; // properties aka attributes dst->growProps(this->mPropCount); for(size_t i=0;imProps[i], &this->mProps[i]); } dst->mPropCount = this->mPropCount; } return dst; } MediaAnalyticsItem &MediaAnalyticsItem::setSessionID(MediaAnalyticsItem::SessionID_t id) { mSessionID = id; return *this; } MediaAnalyticsItem::SessionID_t MediaAnalyticsItem::getSessionID() const { return mSessionID; } MediaAnalyticsItem::SessionID_t MediaAnalyticsItem::generateSessionID() { if (mSessionID == SessionIDNone) { // get one from the server MediaAnalyticsItem::SessionID_t newid = SessionIDNone; sp svc = getInstance(); if (svc != NULL) { newid = svc->generateUniqueSessionID(); } mSessionID = newid; } return mSessionID; } MediaAnalyticsItem &MediaAnalyticsItem::clearSessionID() { mSessionID = MediaAnalyticsItem::SessionIDNone; return *this; } MediaAnalyticsItem &MediaAnalyticsItem::setTimestamp(nsecs_t ts) { mTimestamp = ts; return *this; } nsecs_t MediaAnalyticsItem::getTimestamp() const { return mTimestamp; } MediaAnalyticsItem &MediaAnalyticsItem::setPid(pid_t pid) { mPid = pid; return *this; } pid_t MediaAnalyticsItem::getPid() const { return mPid; } MediaAnalyticsItem &MediaAnalyticsItem::setUid(uid_t uid) { mUid = uid; return *this; } uid_t MediaAnalyticsItem::getUid() const { return mUid; } MediaAnalyticsItem &MediaAnalyticsItem::setPkgName(const std::string &pkgName) { mPkgName = pkgName; return *this; } MediaAnalyticsItem &MediaAnalyticsItem::setPkgVersionCode(int64_t pkgVersionCode) { mPkgVersionCode = pkgVersionCode; return *this; } int64_t MediaAnalyticsItem::getPkgVersionCode() const { return mPkgVersionCode; } // this key is for the overall record -- "codec", "player", "drm", etc MediaAnalyticsItem &MediaAnalyticsItem::setKey(MediaAnalyticsItem::Key key) { mKey = key; return *this; } MediaAnalyticsItem::Key MediaAnalyticsItem::getKey() { return mKey; } // number of attributes we have in this record int32_t MediaAnalyticsItem::count() const { return mPropCount; } // find the proper entry in the list size_t MediaAnalyticsItem::findPropIndex(const char *name, size_t len) { size_t i = 0; for (; i < mPropCount; i++) { Prop *prop = &mProps[i]; if (prop->mNameLen != len) { continue; } if (memcmp(name, prop->mName, len) == 0) { break; } } return i; } MediaAnalyticsItem::Prop *MediaAnalyticsItem::findProp(const char *name) { size_t len = strlen(name); size_t i = findPropIndex(name, len); if (i < mPropCount) { return &mProps[i]; } return NULL; } void MediaAnalyticsItem::Prop::setName(const char *name, size_t len) { free((void *)mName); mName = (const char *) malloc(len+1); LOG_ALWAYS_FATAL_IF(mName == NULL, "failed malloc() for property '%s' (len %zu)", name, len); memcpy ((void *)mName, name, len+1); mNameLen = len; } // consider this "find-or-allocate". // caller validates type and uses clearPropValue() accordingly MediaAnalyticsItem::Prop *MediaAnalyticsItem::allocateProp(const char *name) { size_t len = strlen(name); size_t i = findPropIndex(name, len); Prop *prop; if (i < mPropCount) { prop = &mProps[i]; } else { if (i == mPropSize) { if (growProps() == false) { ALOGE("failed allocation for new props"); return NULL; } } i = mPropCount++; prop = &mProps[i]; prop->setName(name, len); } return prop; } // used within the summarizers; return whether property existed bool MediaAnalyticsItem::removeProp(const char *name) { size_t len = strlen(name); size_t i = findPropIndex(name, len); if (i < mPropCount) { Prop *prop = &mProps[i]; clearProp(prop); if (i != mPropCount-1) { // in the middle, bring last one down to fill gap copyProp(prop, &mProps[mPropCount-1]); clearProp(&mProps[mPropCount-1]); } mPropCount--; return true; } return false; } // set the values void MediaAnalyticsItem::setInt32(MediaAnalyticsItem::Attr name, int32_t value) { Prop *prop = allocateProp(name); if (prop != NULL) { clearPropValue(prop); prop->mType = kTypeInt32; prop->u.int32Value = value; } } void MediaAnalyticsItem::setInt64(MediaAnalyticsItem::Attr name, int64_t value) { Prop *prop = allocateProp(name); if (prop != NULL) { clearPropValue(prop); prop->mType = kTypeInt64; prop->u.int64Value = value; } } void MediaAnalyticsItem::setDouble(MediaAnalyticsItem::Attr name, double value) { Prop *prop = allocateProp(name); if (prop != NULL) { clearPropValue(prop); prop->mType = kTypeDouble; prop->u.doubleValue = value; } } void MediaAnalyticsItem::setCString(MediaAnalyticsItem::Attr name, const char *value) { Prop *prop = allocateProp(name); // any old value will be gone if (prop != NULL) { clearPropValue(prop); prop->mType = kTypeCString; prop->u.CStringValue = strdup(value); } } void MediaAnalyticsItem::setRate(MediaAnalyticsItem::Attr name, int64_t count, int64_t duration) { Prop *prop = allocateProp(name); if (prop != NULL) { clearPropValue(prop); prop->mType = kTypeRate; prop->u.rate.count = count; prop->u.rate.duration = duration; } } // find/add/set fused into a single operation void MediaAnalyticsItem::addInt32(MediaAnalyticsItem::Attr name, int32_t value) { Prop *prop = allocateProp(name); if (prop == NULL) { return; } switch (prop->mType) { case kTypeInt32: prop->u.int32Value += value; break; default: clearPropValue(prop); prop->mType = kTypeInt32; prop->u.int32Value = value; break; } } void MediaAnalyticsItem::addInt64(MediaAnalyticsItem::Attr name, int64_t value) { Prop *prop = allocateProp(name); if (prop == NULL) { return; } switch (prop->mType) { case kTypeInt64: prop->u.int64Value += value; break; default: clearPropValue(prop); prop->mType = kTypeInt64; prop->u.int64Value = value; break; } } void MediaAnalyticsItem::addRate(MediaAnalyticsItem::Attr name, int64_t count, int64_t duration) { Prop *prop = allocateProp(name); if (prop == NULL) { return; } switch (prop->mType) { case kTypeRate: prop->u.rate.count += count; prop->u.rate.duration += duration; break; default: clearPropValue(prop); prop->mType = kTypeRate; prop->u.rate.count = count; prop->u.rate.duration = duration; break; } } void MediaAnalyticsItem::addDouble(MediaAnalyticsItem::Attr name, double value) { Prop *prop = allocateProp(name); if (prop == NULL) { return; } switch (prop->mType) { case kTypeDouble: prop->u.doubleValue += value; break; default: clearPropValue(prop); prop->mType = kTypeDouble; prop->u.doubleValue = value; break; } } // find & extract values bool MediaAnalyticsItem::getInt32(MediaAnalyticsItem::Attr name, int32_t *value) { Prop *prop = findProp(name); if (prop == NULL || prop->mType != kTypeInt32) { return false; } if (value != NULL) { *value = prop->u.int32Value; } return true; } bool MediaAnalyticsItem::getInt64(MediaAnalyticsItem::Attr name, int64_t *value) { Prop *prop = findProp(name); if (prop == NULL || prop->mType != kTypeInt64) { return false; } if (value != NULL) { *value = prop->u.int64Value; } return true; } bool MediaAnalyticsItem::getRate(MediaAnalyticsItem::Attr name, int64_t *count, int64_t *duration, double *rate) { Prop *prop = findProp(name); if (prop == NULL || prop->mType != kTypeRate) { return false; } if (count != NULL) { *count = prop->u.rate.count; } if (duration != NULL) { *duration = prop->u.rate.duration; } if (rate != NULL) { double r = 0.0; if (prop->u.rate.duration != 0) { r = prop->u.rate.count / (double) prop->u.rate.duration; } *rate = r; } return true; } bool MediaAnalyticsItem::getDouble(MediaAnalyticsItem::Attr name, double *value) { Prop *prop = findProp(name); if (prop == NULL || prop->mType != kTypeDouble) { return false; } if (value != NULL) { *value = prop->u.doubleValue; } return true; } // caller responsible for the returned string bool MediaAnalyticsItem::getCString(MediaAnalyticsItem::Attr name, char **value) { Prop *prop = findProp(name); if (prop == NULL || prop->mType != kTypeCString) { return false; } if (value != NULL) { *value = strdup(prop->u.CStringValue); } return true; } bool MediaAnalyticsItem::getString(MediaAnalyticsItem::Attr name, std::string *value) { Prop *prop = findProp(name); if (prop == NULL || prop->mType != kTypeCString) { return false; } if (value != NULL) { // std::string makes a copy for us *value = prop->u.CStringValue; } return true; } // remove indicated keys and their values // return value is # keys removed int32_t MediaAnalyticsItem::filter(int n, MediaAnalyticsItem::Attr attrs[]) { int zapped = 0; if (attrs == NULL || n <= 0) { return -1; } for (ssize_t i = 0 ; i < n ; i++) { const char *name = attrs[i]; size_t len = strlen(name); size_t j = findPropIndex(name, len); if (j >= mPropCount) { // not there continue; } else if (j+1 == mPropCount) { // last one, shorten zapped++; clearProp(&mProps[j]); mPropCount--; } else { // in the middle, bring last one down and shorten zapped++; clearProp(&mProps[j]); mProps[j] = mProps[mPropCount-1]; mPropCount--; } } return zapped; } // remove any keys NOT in the provided list // return value is # keys removed int32_t MediaAnalyticsItem::filterNot(int n, MediaAnalyticsItem::Attr attrs[]) { int zapped = 0; if (attrs == NULL || n <= 0) { return -1; } for (ssize_t i = mPropCount-1 ; i >=0 ; i--) { Prop *prop = &mProps[i]; for (ssize_t j = 0; j < n ; j++) { if (strcmp(prop->mName, attrs[j]) == 0) { clearProp(prop); zapped++; if (i != (ssize_t)(mPropCount-1)) { *prop = mProps[mPropCount-1]; } initProp(&mProps[mPropCount-1]); mPropCount--; break; } } } return zapped; } // remove a single key // return value is 0 (not found) or 1 (found and removed) int32_t MediaAnalyticsItem::filter(MediaAnalyticsItem::Attr name) { return filter(1, &name); } // handle individual items/properties stored within the class // void MediaAnalyticsItem::initProp(Prop *prop) { if (prop != NULL) { prop->mName = NULL; prop->mNameLen = 0; prop->mType = kTypeNone; } } void MediaAnalyticsItem::clearProp(Prop *prop) { if (prop != NULL) { if (prop->mName != NULL) { free((void *)prop->mName); prop->mName = NULL; prop->mNameLen = 0; } clearPropValue(prop); } } void MediaAnalyticsItem::clearPropValue(Prop *prop) { if (prop != NULL) { if (prop->mType == kTypeCString && prop->u.CStringValue != NULL) { free(prop->u.CStringValue); prop->u.CStringValue = NULL; } prop->mType = kTypeNone; } } void MediaAnalyticsItem::copyProp(Prop *dst, const Prop *src) { // get rid of any pointers in the dst clearProp(dst); *dst = *src; // fix any pointers that we blindly copied, so we have our own copies if (dst->mName) { void *p = malloc(dst->mNameLen + 1); LOG_ALWAYS_FATAL_IF(p == NULL, "failed malloc() duping property '%s' (len %zu)", dst->mName, dst->mNameLen); memcpy (p, src->mName, dst->mNameLen + 1); dst->mName = (const char *) p; } if (dst->mType == kTypeCString) { dst->u.CStringValue = strdup(src->u.CStringValue); } } bool MediaAnalyticsItem::growProps(int increment) { if (increment <= 0) { increment = kGrowProps; } int nsize = mPropSize + increment; Prop *ni = (Prop *)realloc(mProps, sizeof(Prop) * nsize); if (ni != NULL) { for (int i = mPropSize; i < nsize; i++) { initProp(&ni[i]); } mProps = ni; mPropSize = nsize; return true; } else { ALOGW("MediaAnalyticsItem::growProps fails"); return false; } } // Parcel / serialize things for binder calls // int32_t MediaAnalyticsItem::readFromParcel(const Parcel& data) { int32_t version = data.readInt32(); switch(version) { case 0: return readFromParcel0(data); break; default: ALOGE("Unsupported MediaAnalyticsItem Parcel version: %d", version); return -1; } } int32_t MediaAnalyticsItem::readFromParcel0(const Parcel& data) { // into 'this' object // .. we make a copy of the string to put away. mKey = data.readCString(); mPid = data.readInt32(); mUid = data.readInt32(); mPkgName = data.readCString(); mPkgVersionCode = data.readInt64(); mSessionID = data.readInt64(); // We no longer pay attention to user setting of finalized, BUT it's // still part of the wire packet -- so read & discard. mFinalized = data.readInt32(); mFinalized = 1; mTimestamp = data.readInt64(); int count = data.readInt32(); for (int i = 0; i < count ; i++) { MediaAnalyticsItem::Attr attr = data.readCString(); int32_t ztype = data.readInt32(); switch (ztype) { case MediaAnalyticsItem::kTypeInt32: setInt32(attr, data.readInt32()); break; case MediaAnalyticsItem::kTypeInt64: setInt64(attr, data.readInt64()); break; case MediaAnalyticsItem::kTypeDouble: setDouble(attr, data.readDouble()); break; case MediaAnalyticsItem::kTypeCString: setCString(attr, data.readCString()); break; case MediaAnalyticsItem::kTypeRate: { int64_t count = data.readInt64(); int64_t duration = data.readInt64(); setRate(attr, count, duration); } break; default: ALOGE("reading bad item type: %d, idx %d", ztype, i); return -1; } } return 0; } int32_t MediaAnalyticsItem::writeToParcel(Parcel *data) { if (data == NULL) return -1; int32_t version = 0; data->writeInt32(version); switch(version) { case 0: return writeToParcel0(data); break; default: ALOGE("Unsupported MediaAnalyticsItem Parcel version: %d", version); return -1; } } int32_t MediaAnalyticsItem::writeToParcel0(Parcel *data) { data->writeCString(mKey.c_str()); data->writeInt32(mPid); data->writeInt32(mUid); data->writeCString(mPkgName.c_str()); data->writeInt64(mPkgVersionCode); data->writeInt64(mSessionID); data->writeInt32(mFinalized); data->writeInt64(mTimestamp); // set of items int count = mPropCount; data->writeInt32(count); for (int i = 0 ; i < count; i++ ) { Prop *prop = &mProps[i]; data->writeCString(prop->mName); data->writeInt32(prop->mType); switch (prop->mType) { case MediaAnalyticsItem::kTypeInt32: data->writeInt32(prop->u.int32Value); break; case MediaAnalyticsItem::kTypeInt64: data->writeInt64(prop->u.int64Value); break; case MediaAnalyticsItem::kTypeDouble: data->writeDouble(prop->u.doubleValue); break; case MediaAnalyticsItem::kTypeRate: data->writeInt64(prop->u.rate.count); data->writeInt64(prop->u.rate.duration); break; case MediaAnalyticsItem::kTypeCString: data->writeCString(prop->u.CStringValue); break; default: ALOGE("found bad Prop type: %d, idx %d, name %s", prop->mType, i, prop->mName); break; } } return 0; } const char *MediaAnalyticsItem::toCString() { return toCString(PROTO_LAST); } const char * MediaAnalyticsItem::toCString(int version) { std::string val = toString(version); return strdup(val.c_str()); } std::string MediaAnalyticsItem::toString() { return toString(PROTO_LAST); } std::string MediaAnalyticsItem::toString(int version) { // v0 : released with 'o' // v1 : bug fix (missing pid/finalized separator), // adds apk name, apk version code if (version <= PROTO_FIRST) { // default to original v0 format, until proper parsers are in place version = PROTO_V0; } else if (version > PROTO_LAST) { version = PROTO_LAST; } std::string result; char buffer[512]; if (version == PROTO_V0) { result = "("; } else { snprintf(buffer, sizeof(buffer), "[%d:", version); result.append(buffer); } // same order as we spill into the parcel, although not required // key+session are our primary matching criteria result.append(mKey.c_str()); result.append(":"); snprintf(buffer, sizeof(buffer), "%" PRId64 ":", mSessionID); result.append(buffer); snprintf(buffer, sizeof(buffer), "%d:", mUid); result.append(buffer); if (version >= PROTO_V1) { result.append(mPkgName); snprintf(buffer, sizeof(buffer), ":%" PRId64 ":", mPkgVersionCode); result.append(buffer); } // in 'o' (v1) , the separator between pid and finalized was omitted if (version <= PROTO_V0) { snprintf(buffer, sizeof(buffer), "%d", mPid); } else { snprintf(buffer, sizeof(buffer), "%d:", mPid); } result.append(buffer); snprintf(buffer, sizeof(buffer), "%d:", mFinalized); result.append(buffer); snprintf(buffer, sizeof(buffer), "%" PRId64 ":", mTimestamp); result.append(buffer); // set of items int count = mPropCount; snprintf(buffer, sizeof(buffer), "%d:", count); result.append(buffer); for (int i = 0 ; i < count; i++ ) { Prop *prop = &mProps[i]; switch (prop->mType) { case MediaAnalyticsItem::kTypeInt32: snprintf(buffer,sizeof(buffer), "%s=%d:", prop->mName, prop->u.int32Value); break; case MediaAnalyticsItem::kTypeInt64: snprintf(buffer,sizeof(buffer), "%s=%" PRId64 ":", prop->mName, prop->u.int64Value); break; case MediaAnalyticsItem::kTypeDouble: snprintf(buffer,sizeof(buffer), "%s=%e:", prop->mName, prop->u.doubleValue); break; case MediaAnalyticsItem::kTypeRate: snprintf(buffer,sizeof(buffer), "%s=%" PRId64 "/%" PRId64 ":", prop->mName, prop->u.rate.count, prop->u.rate.duration); break; case MediaAnalyticsItem::kTypeCString: snprintf(buffer,sizeof(buffer), "%s=", prop->mName); result.append(buffer); // XXX: sanitize string for ':' '=' result.append(prop->u.CStringValue); buffer[0] = ':'; buffer[1] = '\0'; break; default: ALOGE("to_String bad item type: %d for %s", prop->mType, prop->mName); break; } result.append(buffer); } if (version == PROTO_V0) { result.append(")"); } else { result.append("]"); } return result; } // for the lazy, we offer methods that finds the service and // calls the appropriate daemon bool MediaAnalyticsItem::selfrecord() { return selfrecord(false); } bool MediaAnalyticsItem::selfrecord(bool forcenew) { if (DEBUG_API) { std::string p = this->toString(); ALOGD("selfrecord of: %s [forcenew=%d]", p.c_str(), forcenew); } sp svc = getInstance(); if (svc != NULL) { MediaAnalyticsItem::SessionID_t newid = svc->submit(this, forcenew); if (newid == SessionIDInvalid) { std::string p = this->toString(); ALOGW("Failed to record: %s [forcenew=%d]", p.c_str(), forcenew); return false; } return true; } else { return false; } } // get a connection we can reuse for most of our lifetime // static sp MediaAnalyticsItem::sAnalyticsService; static Mutex sInitMutex; static int remainingBindAttempts = SVC_TRIES; //static bool MediaAnalyticsItem::isEnabled() { int enabled = property_get_int32(MediaAnalyticsItem::EnabledProperty, -1); if (enabled == -1) { enabled = property_get_int32(MediaAnalyticsItem::EnabledPropertyPersist, -1); } if (enabled == -1) { enabled = MediaAnalyticsItem::EnabledProperty_default; } if (enabled <= 0) { return false; } return true; } // monitor health of our connection to the metrics service class MediaMetricsDeathNotifier : public IBinder::DeathRecipient { virtual void binderDied(const wp &) { ALOGW("Reacquire service connection on next request"); MediaAnalyticsItem::dropInstance(); } }; static sp sNotifier = NULL; // static void MediaAnalyticsItem::dropInstance() { Mutex::Autolock _l(sInitMutex); remainingBindAttempts = SVC_TRIES; sAnalyticsService = NULL; } //static sp MediaAnalyticsItem::getInstance() { static const char *servicename = "media.metrics"; int enabled = isEnabled(); if (enabled == false) { if (DEBUG_SERVICEACCESS) { ALOGD("disabled"); } return NULL; } // completely skip logging from certain UIDs. We do this here // to avoid the multi-second timeouts while we learn that // sepolicy will not let us find the service. // We do this only for a select set of UIDs // The sepolicy protection is still in place, we just want a faster // response from this specific, small set of uids. { uid_t uid = getuid(); switch (uid) { case AID_RADIO: // telephony subsystem, RIL return NULL; break; default: // let sepolicy deny access if appropriate break; } } { Mutex::Autolock _l(sInitMutex); const char *badness = ""; // think of remainingBindAttempts as telling us whether service==NULL because // (1) we haven't tried to initialize it yet // (2) we've tried to initialize it, but failed. if (sAnalyticsService == NULL && remainingBindAttempts > 0) { sp sm = defaultServiceManager(); if (sm != NULL) { sp binder = sm->getService(String16(servicename)); if (binder != NULL) { sAnalyticsService = interface_cast(binder); if (sNotifier != NULL) { sNotifier = NULL; } sNotifier = new MediaMetricsDeathNotifier(); binder->linkToDeath(sNotifier); } else { badness = "did not find service"; } } else { badness = "No Service Manager access"; } if (sAnalyticsService == NULL) { if (remainingBindAttempts > 0) { remainingBindAttempts--; } if (DEBUG_SERVICEACCESS) { ALOGD("Unable to bind to service %s: %s", servicename, badness); } } } return sAnalyticsService; } } // merge the info from 'incoming' into this record. // we finish with a union of this+incoming and special handling for collisions bool MediaAnalyticsItem::merge(MediaAnalyticsItem *incoming) { // if I don't have key or session id, take them from incoming // 'this' should never be missing both of them... if (mKey.empty()) { mKey = incoming->mKey; } else if (mSessionID == 0) { mSessionID = incoming->mSessionID; } // for each attribute from 'incoming', resolve appropriately int nattr = incoming->mPropCount; for (int i = 0 ; i < nattr; i++ ) { Prop *iprop = &incoming->mProps[i]; const char *p = iprop->mName; size_t len = strlen(p); // should ignore a zero length name... if (len == 0) { continue; } Prop *oprop = findProp(iprop->mName); if (oprop == NULL) { // no oprop, so we insert the new one oprop = allocateProp(p); if (oprop != NULL) { copyProp(oprop, iprop); } else { ALOGW("dropped property '%s'", iprop->mName); } } else { copyProp(oprop, iprop); } } // not sure when we'd return false... return true; } // a byte array; contents are // overall length (uint32) including the length field itself // encoding version (uint32) // count of properties (uint32) // N copies of: // property name as length(int16), bytes // the bytes WILL include the null terminator of the name // type (uint8 -- 1 byte) // size of value field (int16 -- 2 bytes) // value (size based on type) // int32, int64, double -- little endian 4/8/8 bytes respectively // cstring -- N bytes of value [WITH terminator] enum { kInt32 = 0, kInt64, kDouble, kRate, kCString}; bool MediaAnalyticsItem::dumpAttributes(char **pbuffer, size_t *plength) { char *build = NULL; if (pbuffer == NULL || plength == NULL) return false; // consistency for the caller, who owns whatever comes back in this pointer. *pbuffer = NULL; // first, let's calculate sizes int32_t goal = 0; int32_t version = 0; goal += sizeof(uint32_t); // overall length, including the length field goal += sizeof(uint32_t); // encoding version goal += sizeof(uint32_t); // # properties int32_t count = mPropCount; for (int i = 0 ; i < count; i++ ) { Prop *prop = &mProps[i]; goal += sizeof(uint16_t); // name length goal += strlen(prop->mName) + 1; // string + null goal += sizeof(uint8_t); // type goal += sizeof(uint16_t); // size of value switch (prop->mType) { case MediaAnalyticsItem::kTypeInt32: goal += sizeof(uint32_t); break; case MediaAnalyticsItem::kTypeInt64: goal += sizeof(uint64_t); break; case MediaAnalyticsItem::kTypeDouble: goal += sizeof(double); break; case MediaAnalyticsItem::kTypeRate: goal += 2 * sizeof(uint64_t); break; case MediaAnalyticsItem::kTypeCString: // length + actual string + null goal += strlen(prop->u.CStringValue) + 1; break; default: ALOGE("found bad Prop type: %d, idx %d, name %s", prop->mType, i, prop->mName); return false; } } // now that we have a size... let's allocate and fill build = (char *)malloc(goal); if (build == NULL) return false; memset(build, 0, goal); char *filling = build; #define _INSERT(val, size) \ { memcpy(filling, &(val), (size)); filling += (size);} #define _INSERTSTRING(val, size) \ { memcpy(filling, (val), (size)); filling += (size);} _INSERT(goal, sizeof(int32_t)); _INSERT(version, sizeof(int32_t)); _INSERT(count, sizeof(int32_t)); for (int i = 0 ; i < count; i++ ) { Prop *prop = &mProps[i]; int16_t attrNameLen = strlen(prop->mName) + 1; _INSERT(attrNameLen, sizeof(int16_t)); _INSERTSTRING(prop->mName, attrNameLen); // termination included int8_t elemtype; int16_t elemsize; switch (prop->mType) { case MediaAnalyticsItem::kTypeInt32: { elemtype = kInt32; _INSERT(elemtype, sizeof(int8_t)); elemsize = sizeof(int32_t); _INSERT(elemsize, sizeof(int16_t)); _INSERT(prop->u.int32Value, sizeof(int32_t)); break; } case MediaAnalyticsItem::kTypeInt64: { elemtype = kInt64; _INSERT(elemtype, sizeof(int8_t)); elemsize = sizeof(int64_t); _INSERT(elemsize, sizeof(int16_t)); _INSERT(prop->u.int64Value, sizeof(int64_t)); break; } case MediaAnalyticsItem::kTypeDouble: { elemtype = kDouble; _INSERT(elemtype, sizeof(int8_t)); elemsize = sizeof(double); _INSERT(elemsize, sizeof(int16_t)); _INSERT(prop->u.doubleValue, sizeof(double)); break; } case MediaAnalyticsItem::kTypeRate: { elemtype = kRate; _INSERT(elemtype, sizeof(int8_t)); elemsize = 2 * sizeof(uint64_t); _INSERT(elemsize, sizeof(int16_t)); _INSERT(prop->u.rate.count, sizeof(uint64_t)); _INSERT(prop->u.rate.duration, sizeof(uint64_t)); break; } case MediaAnalyticsItem::kTypeCString: { elemtype = kCString; _INSERT(elemtype, sizeof(int8_t)); elemsize = strlen(prop->u.CStringValue) + 1; _INSERT(elemsize, sizeof(int16_t)); _INSERTSTRING(prop->u.CStringValue, elemsize); break; } default: // error if can't encode; warning if can't decode ALOGE("found bad Prop type: %d, idx %d, name %s", prop->mType, i, prop->mName); goto badness; } } if (build + goal != filling) { ALOGE("problems populating; wrote=%d planned=%d", (int)(filling-build), goal); goto badness; } *pbuffer = build; *plength = goal; return true; badness: free(build); return false; } } // namespace android