/** * @file llpermissions.cpp * @author Phoenix * @brief Permissions for objects and inventory. * * $LicenseInfo:firstyear=2002&license=viewergpl$ * * Copyright (c) 2002-2007, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlife.com/developers/opensource/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlife.com/developers/opensource/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "llpermissions.h" // library includes #include "message.h" #include "metapropertyt.h" ///---------------------------------------------------------------------------- /// Class LLPermissions ///---------------------------------------------------------------------------- const LLPermissions LLPermissions::DEFAULT; // No creator = created by system LLPermissions::LLPermissions() { init(LLUUID::null, LLUUID::null, LLUUID::null, LLUUID::null); } // Default to created by system void LLPermissions::init(const LLUUID& creator, const LLUUID& owner, const LLUUID& last_owner, const LLUUID& group) { mCreator = creator; mOwner = owner; mLastOwner = last_owner; mGroup = group; mMaskBase = PERM_ALL; mMaskOwner = PERM_ALL; mMaskEveryone = PERM_ALL; mMaskGroup = PERM_ALL; mMaskNextOwner = PERM_ALL; fixOwnership(); } void LLPermissions::initMasks(PermissionMask base, PermissionMask owner, PermissionMask everyone, PermissionMask group, PermissionMask next) { mMaskBase = base; mMaskOwner = owner; mMaskEveryone = everyone; mMaskGroup = group; mMaskNextOwner = next; fixFairUse(); fix(); } BOOL LLPermissions::getOwnership(LLUUID& owner_id, BOOL& is_group_owned) const { if(mOwner.notNull()) { owner_id = mOwner; is_group_owned = FALSE; return TRUE; } else if(mIsGroupOwned) { owner_id = mGroup; is_group_owned = TRUE; return TRUE; } return FALSE; } LLUUID LLPermissions::getSafeOwner() const { if(mOwner.notNull()) { return mOwner; } else if(mIsGroupOwned) { return mGroup; } else { llwarns << "LLPermissions::getSafeOwner() called with no valid owner!" << llendl; LLUUID unused_uuid; unused_uuid.generate(); return unused_uuid; } } U32 LLPermissions::getCRC32() const { U32 rv = mCreator.getCRC32(); rv += mOwner.getCRC32(); rv += mLastOwner.getCRC32(); rv += mGroup.getCRC32(); rv += mMaskBase + mMaskOwner + mMaskEveryone + mMaskGroup; return rv; } void LLPermissions::set(const LLPermissions& from) { mCreator = from.mCreator; mOwner = from.mOwner; mLastOwner = from.mLastOwner; mGroup = from.mGroup; mMaskBase = from.mMaskBase; mMaskOwner = from.mMaskOwner; mMaskEveryone = from.mMaskEveryone; mMaskGroup = from.mMaskGroup; mMaskNextOwner = from.mMaskNextOwner; mIsGroupOwned = from.mIsGroupOwned; } // Fix hierarchy of permissions. void LLPermissions::fix() { mMaskOwner &= mMaskBase; mMaskGroup &= mMaskOwner; // next owner uses base, since you may want to sell locked objects. mMaskNextOwner &= mMaskBase; mMaskEveryone &= mMaskOwner; mMaskEveryone &= ~PERM_MODIFY; if(!(mMaskBase & PERM_TRANSFER) && !mIsGroupOwned) { mMaskGroup &= ~PERM_COPY; mMaskEveryone &= ~PERM_COPY; // Do not set mask next owner to too restrictive because if we // rez an object, it may require an ownership transfer during // rez, which will note the overly restrictive perms, and then // fix them to allow fair use, which may be different than the // original intention. } } // Correct for fair use - you can never take away the right to move // stuff you own, and you can never take away the right to transfer // something you cannot otherwise copy. void LLPermissions::fixFairUse() { mMaskBase |= PERM_MOVE; if(!(mMaskBase & PERM_COPY)) { mMaskBase |= PERM_TRANSFER; } // (mask next owner == PERM_NONE) iff mask base is no transfer if(mMaskNextOwner != PERM_NONE) { mMaskNextOwner |= PERM_MOVE; } } void LLPermissions::fixOwnership() { if(mOwner.isNull() && mGroup.notNull()) { mIsGroupOwned = true; } else { mIsGroupOwned = false; } } // Allow accumulation of permissions. Results in the tightest // permissions possible. In the case of clashing UUIDs, it sets the ID // to LLUUID::null. void LLPermissions::accumulate(const LLPermissions& perm) { if(perm.mCreator != mCreator) { mCreator = LLUUID::null; } if(perm.mOwner != mOwner) { mOwner = LLUUID::null; } if(perm.mLastOwner != mLastOwner) { mLastOwner = LLUUID::null; } if(perm.mGroup != mGroup) { mGroup = LLUUID::null; } mMaskBase &= perm.mMaskBase; mMaskOwner &= perm.mMaskOwner; mMaskGroup &= perm.mMaskGroup; mMaskEveryone &= perm.mMaskEveryone; mMaskNextOwner &= perm.mMaskNextOwner; fix(); } // saves last owner, sets current owner, and sets the group. note // that this function has to more cleverly apply the fair use // permissions. BOOL LLPermissions::setOwnerAndGroup( const LLUUID& agent, const LLUUID& owner, const LLUUID& group, bool is_atomic) { BOOL allowed = FALSE; if( agent.isNull() || mOwner.isNull() || ((agent == mOwner) && ((owner == mOwner) || (mMaskOwner & PERM_TRANSFER)) ) ) { // ...system can alway set owner // ...public objects can be claimed by anyone // ...otherwise, agent must own it and have transfer ability allowed = TRUE; } if (allowed) { if(mLastOwner.isNull() || (!mOwner.isNull() && (owner != mLastOwner))) { mLastOwner = mOwner; } if((mOwner != owner) || (mOwner.isNull() && owner.isNull() && (mGroup != group))) { mMaskBase = mMaskNextOwner; mOwner = owner; // this is a selective use of fair use for atomic // permissions. if(is_atomic && !(mMaskBase & PERM_COPY)) { mMaskBase |= PERM_TRANSFER; } } mGroup = group; fixOwnership(); // if it's not atomic and we fix fair use, it blows away //objects as inventory items which have different permissions //than it's contents. :( // fixFairUse(); mMaskBase |= PERM_MOVE; if(mMaskNextOwner != PERM_NONE) mMaskNextOwner |= PERM_MOVE; fix(); } return allowed; } BOOL LLPermissions::deedToGroup(const LLUUID& agent, const LLUUID& group) { if(group.notNull() && (agent.isNull() || ((group == mGroup) && (mMaskOwner & PERM_TRANSFER) && (mMaskGroup & PERM_MOVE)))) { if(mOwner.notNull()) { mLastOwner = mOwner; mOwner.setNull(); } mMaskBase = mMaskNextOwner; mMaskGroup = PERM_NONE; mGroup = group; mIsGroupOwned = true; fixFairUse(); fix(); return TRUE; } return FALSE; } BOOL LLPermissions::setBaseBits(const LLUUID& agent, BOOL set, PermissionMask bits) { BOOL ownership = FALSE; if(agent.isNull()) { // only the system is always allowed to change base bits ownership = TRUE; } if (ownership) { if (set) { mMaskBase |= bits; // turn on bits } else { mMaskBase &= ~bits; // turn off bits } fix(); } return ownership; } // Note: If you attempt to set bits that the base bits doesn't allow, // the function will succeed, but those bits will not be set. BOOL LLPermissions::setOwnerBits(const LLUUID& agent, BOOL set, PermissionMask bits) { BOOL ownership = FALSE; if(agent.isNull()) { // ...system always allowed to change things ownership = TRUE; } else if (agent == mOwner) { // ...owner bits can only be set by owner ownership = TRUE; } // If we have correct ownership and if (ownership) { if (set) { mMaskOwner |= bits; // turn on bits } else { mMaskOwner &= ~bits; // turn off bits } fix(); } return (ownership); } BOOL LLPermissions::setGroupBits(const LLUUID& agent, const LLUUID& group, BOOL set, PermissionMask bits) { BOOL ownership = FALSE; if((agent.isNull()) || (agent == mOwner) || ((group == mGroup) && (!mGroup.isNull()))) { // The group bits can be set by the system, the owner, or a // group member. ownership = TRUE; } if (ownership) { if (set) { mMaskGroup |= bits; } else { mMaskGroup &= ~bits; } fix(); } return ownership; } // Note: If you attempt to set bits that the creator or owner doesn't allow, // the function will succeed, but those bits will not be set. BOOL LLPermissions::setEveryoneBits(const LLUUID& agent, const LLUUID& group, BOOL set, PermissionMask bits) { BOOL ownership = FALSE; if((agent.isNull()) || (agent == mOwner) || ((group == mGroup) && (!mGroup.isNull()))) { // The everyone bits can be set by the system, the owner, or a // group member. ownership = TRUE; } if (ownership) { if (set) { mMaskEveryone |= bits; } else { mMaskEveryone &= ~bits; } // Fix hierarchy of permissions fix(); } return ownership; } // Note: If you attempt to set bits that the creator or owner doesn't allow, // the function will succeed, but those bits will not be set. BOOL LLPermissions::setNextOwnerBits(const LLUUID& agent, const LLUUID& group, BOOL set, PermissionMask bits) { BOOL ownership = FALSE; if((agent.isNull()) || (agent == mOwner) || ((group == mGroup) && (!mGroup.isNull()))) { // The next owner bits can be set by the system, the owner, or // a group member. ownership = TRUE; } if (ownership) { if (set) { mMaskNextOwner |= bits; } else { mMaskNextOwner &= ~bits; } // Fix-up permissions if(!(mMaskNextOwner & PERM_COPY)) { mMaskNextOwner |= PERM_TRANSFER; } fix(); } return ownership; } BOOL LLPermissions::allowOperationBy(PermissionBit op, const LLUUID& requester, const LLUUID& group) const { if(requester.isNull()) { // ...system making request // ...not owned return TRUE; } else if (mIsGroupOwned && (mGroup == requester)) { // group checking ownership permissions return (mMaskOwner & op); } else if (!mIsGroupOwned && (mOwner == requester)) { // ...owner making request return (mMaskOwner & op); } else if(mGroup.notNull() && (mGroup == group)) { // group member making request return ((mMaskGroup & op) || (mMaskEveryone & op)); } return (mMaskEveryone & op); } // // Messaging support // void LLPermissions::packMessage(LLMessageSystem* msg) const { msg->addUUIDFast(_PREHASH_CreatorID, mCreator); msg->addUUIDFast(_PREHASH_OwnerID, mOwner); msg->addUUIDFast(_PREHASH_GroupID, mGroup); msg->addU32Fast(_PREHASH_BaseMask, mMaskBase ); msg->addU32Fast(_PREHASH_OwnerMask, mMaskOwner ); msg->addU32Fast(_PREHASH_GroupMask, mMaskGroup ); msg->addU32Fast(_PREHASH_EveryoneMask, mMaskEveryone ); msg->addU32Fast(_PREHASH_NextOwnerMask, mMaskNextOwner ); msg->addBOOLFast(_PREHASH_GroupOwned, (BOOL)mIsGroupOwned); } void LLPermissions::unpackMessage(LLMessageSystem* msg, const char* block, S32 block_num) { msg->getUUIDFast(block, _PREHASH_CreatorID, mCreator, block_num); msg->getUUIDFast(block, _PREHASH_OwnerID, mOwner, block_num); msg->getUUIDFast(block, _PREHASH_GroupID, mGroup, block_num); msg->getU32Fast(block, _PREHASH_BaseMask, mMaskBase, block_num ); msg->getU32Fast(block, _PREHASH_OwnerMask, mMaskOwner, block_num ); msg->getU32Fast(block, _PREHASH_GroupMask, mMaskGroup, block_num ); msg->getU32Fast(block, _PREHASH_EveryoneMask, mMaskEveryone, block_num ); msg->getU32Fast(block, _PREHASH_NextOwnerMask, mMaskNextOwner, block_num ); BOOL tmp; msg->getBOOLFast(block, _PREHASH_GroupOwned, tmp, block_num); mIsGroupOwned = (bool)tmp; } // // File support // BOOL LLPermissions::importFile(FILE* fp) { init(LLUUID::null, LLUUID::null, LLUUID::null, LLUUID::null); const S32 BUFSIZE = 16384; // *NOTE: Changing the buffer size will require changing the scanf // calls below. char buffer[BUFSIZE]; /* Flawfinder: ignore */ char keyword[256]; /* Flawfinder: ignore */ char valuestr[256]; /* Flawfinder: ignore */ char uuid_str[256]; /* Flawfinder: ignore */ U32 mask; keyword[0] = '\0'; valuestr[0] = '\0'; while (!feof(fp)) { if (fgets(buffer, BUFSIZE, fp) == NULL) { buffer[0] = '\0'; } sscanf( /* Flawfinder: ignore */ buffer, " %255s %255s", keyword, valuestr); if (!strcmp("{", keyword)) { continue; } if (!strcmp("}",keyword)) { break; } else if (!strcmp("creator_mask", keyword)) { // legacy support for "creator" masks sscanf(valuestr, "%x", &mask); mMaskBase = mask; fixFairUse(); } else if (!strcmp("base_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskBase = mask; //fixFairUse(); } else if (!strcmp("owner_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskOwner = mask; } else if (!strcmp("group_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskGroup = mask; } else if (!strcmp("everyone_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskEveryone = mask; } else if (!strcmp("next_owner_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskNextOwner = mask; } else if (!strcmp("creator_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mCreator.set(uuid_str); } else if (!strcmp("owner_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mOwner.set(uuid_str); } else if (!strcmp("last_owner_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mLastOwner.set(uuid_str); } else if (!strcmp("group_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mGroup.set(uuid_str); } else if (!strcmp("group_owned", keyword)) { sscanf(valuestr, "%d", &mask); if(mask) mIsGroupOwned = true; else mIsGroupOwned = false; } else { llinfos << "unknown keyword " << keyword << " in permissions import" << llendl; } } fix(); return TRUE; } BOOL LLPermissions::exportFile(FILE* fp) const { char uuid_str[256]; /* Flawfinder: ignore */ fprintf(fp, "\tpermissions 0\n"); fprintf(fp, "\t{\n"); fprintf(fp, "\t\tbase_mask\t%08x\n", mMaskBase); fprintf(fp, "\t\towner_mask\t%08x\n", mMaskOwner); fprintf(fp, "\t\tgroup_mask\t%08x\n", mMaskGroup); fprintf(fp, "\t\teveryone_mask\t%08x\n", mMaskEveryone); fprintf(fp, "\t\tnext_owner_mask\t%08x\n", mMaskNextOwner); mCreator.toString(uuid_str); fprintf(fp, "\t\tcreator_id\t%s\n", uuid_str); mOwner.toString(uuid_str); fprintf(fp, "\t\towner_id\t%s\n", uuid_str); mLastOwner.toString(uuid_str); fprintf(fp, "\t\tlast_owner_id\t%s\n", uuid_str); mGroup.toString(uuid_str); fprintf(fp, "\t\tgroup_id\t%s\n", uuid_str); if(mIsGroupOwned) { fprintf(fp, "\t\tgroup_owned\t1\n"); } fprintf(fp,"\t}\n"); return TRUE; } BOOL LLPermissions::importLegacyStream(std::istream& input_stream) { init(LLUUID::null, LLUUID::null, LLUUID::null, LLUUID::null); const S32 BUFSIZE = 16384; // *NOTE: Changing the buffer size will require changing the scanf // calls below. char buffer[BUFSIZE]; /* Flawfinder: ignore */ char keyword[256]; /* Flawfinder: ignore */ char valuestr[256]; /* Flawfinder: ignore */ char uuid_str[256]; /* Flawfinder: ignore */ U32 mask; keyword[0] = '\0'; valuestr[0] = '\0'; while (input_stream.good()) { input_stream.getline(buffer, BUFSIZE); sscanf( /* Flawfinder: ignore */ buffer, " %255s %255s", keyword, valuestr); if (!strcmp("{", keyword)) { continue; } if (!strcmp("}",keyword)) { break; } else if (!strcmp("creator_mask", keyword)) { // legacy support for "creator" masks sscanf(valuestr, "%x", &mask); mMaskBase = mask; fixFairUse(); } else if (!strcmp("base_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskBase = mask; //fixFairUse(); } else if (!strcmp("owner_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskOwner = mask; } else if (!strcmp("group_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskGroup = mask; } else if (!strcmp("everyone_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskEveryone = mask; } else if (!strcmp("next_owner_mask", keyword)) { sscanf(valuestr, "%x", &mask); mMaskNextOwner = mask; } else if (!strcmp("creator_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mCreator.set(uuid_str); } else if (!strcmp("owner_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mOwner.set(uuid_str); } else if (!strcmp("last_owner_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mLastOwner.set(uuid_str); } else if (!strcmp("group_id", keyword)) { sscanf(valuestr, "%255s", uuid_str); /* Flawfinder: ignore */ mGroup.set(uuid_str); } else if (!strcmp("group_owned", keyword)) { sscanf(valuestr, "%d", &mask); if(mask) mIsGroupOwned = true; else mIsGroupOwned = false; } else { llinfos << "unknown keyword " << keyword << " in permissions import" << llendl; } } fix(); return TRUE; } BOOL LLPermissions::exportLegacyStream(std::ostream& output_stream) const { char uuid_str[256]; /* Flawfinder: ignore */ output_stream << "\tpermissions 0\n"; output_stream << "\t{\n"; char buffer[256]; /* Flawfinder: ignore */ snprintf(buffer, sizeof(buffer), "\t\tbase_mask\t%08x\n", mMaskBase); /* Flawfinder: ignore */ output_stream << buffer; snprintf(buffer, sizeof(buffer), "\t\towner_mask\t%08x\n", mMaskOwner); /* Flawfinder: ignore */ output_stream << buffer; snprintf(buffer, sizeof(buffer), "\t\tgroup_mask\t%08x\n", mMaskGroup); /* Flawfinder: ignore */ output_stream << buffer; snprintf(buffer, sizeof(buffer), "\t\teveryone_mask\t%08x\n", mMaskEveryone); /* Flawfinder: ignore */ output_stream << buffer; snprintf(buffer, sizeof(buffer), "\t\tnext_owner_mask\t%08x\n", mMaskNextOwner); /* Flawfinder: ignore */ output_stream << buffer; mCreator.toString(uuid_str); output_stream << "\t\tcreator_id\t" << uuid_str << "\n"; mOwner.toString(uuid_str); output_stream << "\t\towner_id\t" << uuid_str << "\n"; mLastOwner.toString(uuid_str); output_stream << "\t\tlast_owner_id\t" << uuid_str << "\n"; mGroup.toString(uuid_str); output_stream << "\t\tgroup_id\t" << uuid_str << "\n"; if(mIsGroupOwned) { output_stream << "\t\tgroup_owned\t1\n"; } output_stream << "\t}\n"; return TRUE; } LLXMLNode *LLPermissions::exportFileXML() const { LLXMLNode *ret = new LLXMLNode("permissions", FALSE); ret->createChild("group_owned", TRUE)->setBoolValue(1, (const BOOL*)&mIsGroupOwned); ret->createChild("base_mask", FALSE)->setByteValue(4, (U8*)&mMaskBase, LLXMLNode::ENCODING_HEX); ret->createChild("owner_mask", FALSE)->setByteValue(4, (U8*)&mMaskOwner, LLXMLNode::ENCODING_HEX); ret->createChild("group_mask", FALSE)->setByteValue(4, (U8*)&mMaskGroup, LLXMLNode::ENCODING_HEX); ret->createChild("everyone_mask", FALSE)->setByteValue(4, (U8*)&mMaskEveryone, LLXMLNode::ENCODING_HEX); ret->createChild("next_owner_mask", FALSE)->setByteValue(4, (U8*)&mMaskNextOwner, LLXMLNode::ENCODING_HEX); ret->createChild("creator_id", FALSE)->setUUIDValue(1, &mCreator); ret->createChild("owner_id", FALSE)->setUUIDValue(1, &mOwner); ret->createChild("last_owner_id", FALSE)->setUUIDValue(1, &mLastOwner); ret->createChild("group_id", FALSE)->setUUIDValue(1, &mGroup); return ret; } bool LLPermissions::importXML(LLXMLNode* node) { bool success = false; if (node) { success = true; LLXMLNodePtr sub_node; if (node->getChild("base_mask", sub_node)) success = success && (4 == sub_node->getByteValue(4, (U8*)&mMaskBase)); if (node->getChild("owner_mask", sub_node)) success = success && (4 == sub_node->getByteValue(4, (U8*)&mMaskOwner)); if (node->getChild("group_mask", sub_node)) success = success && (4 == sub_node->getByteValue(4, (U8*)&mMaskGroup)); if (node->getChild("everyone_mask", sub_node)) success = success && (4 == sub_node->getByteValue(4, (U8*)&mMaskEveryone)); if (node->getChild("next_owner_mask", sub_node)) success = success && (4 == sub_node->getByteValue(4, (U8*)&mMaskNextOwner)); if (node->getChild("creator_id", sub_node)) success = success && (1 == sub_node->getUUIDValue(1, &mCreator)); if (node->getChild("owner_id", sub_node)) success = success && (1 == sub_node->getUUIDValue(1, &mOwner)); if (node->getChild("last_owner_id", sub_node)) success = success && (1 == sub_node->getUUIDValue(1, &mLastOwner)); if (node->getChild("group_id", sub_node)) success = success && (1 == sub_node->getUUIDValue(1, &mGroup)); if (node->getChild("group_owned", sub_node)) success = success && (1 == sub_node->getBoolValue(1, (BOOL*)&mIsGroupOwned)); if (!success) { lldebugs << "LLPermissions::importXML() failed for node named '" << node->getName() << "'" << llendl; } } return success; } bool LLPermissions::operator==(const LLPermissions &rhs) const { return (mCreator == rhs.mCreator) && (mOwner == rhs.mOwner) && (mLastOwner == rhs.mLastOwner ) && (mGroup == rhs.mGroup ) && (mMaskBase == rhs.mMaskBase ) && (mMaskOwner == rhs.mMaskOwner ) && (mMaskGroup == rhs.mMaskGroup ) && (mMaskEveryone == rhs.mMaskEveryone ) && (mMaskNextOwner == rhs.mMaskNextOwner ) && (mIsGroupOwned == rhs.mIsGroupOwned); } bool LLPermissions::operator!=(const LLPermissions &rhs) const { return (mCreator != rhs.mCreator) || (mOwner != rhs.mOwner) || (mLastOwner != rhs.mLastOwner ) || (mGroup != rhs.mGroup ) || (mMaskBase != rhs.mMaskBase ) || (mMaskOwner != rhs.mMaskOwner ) || (mMaskGroup != rhs.mMaskGroup ) || (mMaskEveryone != rhs.mMaskEveryone ) || (mMaskNextOwner != rhs.mMaskNextOwner) || (mIsGroupOwned != rhs.mIsGroupOwned); } std::ostream& operator<<(std::ostream &s, const LLPermissions &perm) { s << "{Creator=" << perm.getCreator(); s << ", Owner=" << perm.getOwner(); s << ", Group=" << perm.getGroup(); s << std::hex << ", BaseMask=0x" << perm.getMaskBase(); s << ", OwnerMask=0x" << perm.getMaskOwner(); s << ", EveryoneMask=0x" << perm.getMaskEveryone(); s << ", GroupMask=0x" << perm.getMaskGroup(); s << ", NextOwnerMask=0x" << perm.getMaskNextOwner() << std::dec; s << "}"; return s; } template <> void LLMetaClassT::reflectProperties(LLMetaClass& meta_class) { reflectProperty(meta_class, "mCreator", &LLPermissions::mCreator); reflectProperty(meta_class, "mOwner", &LLPermissions::mOwner); } // virtual const LLMetaClass& LLPermissions::getMetaClass() const { return LLMetaClassT::instance(); } ///---------------------------------------------------------------------------- /// Class LLAggregatePermissions ///---------------------------------------------------------------------------- const LLAggregatePermissions LLAggregatePermissions::empty; LLAggregatePermissions::LLAggregatePermissions() { for(S32 i = 0; i < PI_COUNT; ++i) { mBits[i] = AP_EMPTY; } } LLAggregatePermissions::EValue LLAggregatePermissions::getValue(PermissionBit bit) const { EPermIndex idx = perm2PermIndex(bit); EValue rv = AP_EMPTY; if(idx != PI_END) { rv = (LLAggregatePermissions::EValue)(mBits[idx]); } return rv; } // returns the bits compressed into a single byte: 00TTMMCC // where TT = transfer, MM = modify, and CC = copy // LSB is to the right U8 LLAggregatePermissions::getU8() const { U8 byte = mBits[PI_TRANSFER]; byte <<= 2; byte |= mBits[PI_MODIFY]; byte <<= 2; byte |= mBits[PI_COPY]; return byte; } BOOL LLAggregatePermissions::isEmpty() const { for(S32 i = 0; i < PI_END; ++i) { if(mBits[i] != AP_EMPTY) { return FALSE; } } return TRUE; } void LLAggregatePermissions::aggregate(PermissionMask mask) { BOOL is_allowed = mask & PERM_COPY; aggregateBit(PI_COPY, is_allowed); is_allowed = mask & PERM_MODIFY; aggregateBit(PI_MODIFY, is_allowed); is_allowed = mask & PERM_TRANSFER; aggregateBit(PI_TRANSFER, is_allowed); } void LLAggregatePermissions::aggregate(const LLAggregatePermissions& ag) { for(S32 idx = PI_COPY; idx != PI_END; ++idx) { aggregateIndex((EPermIndex)idx, ag.mBits[idx]); } } void LLAggregatePermissions::aggregateBit(EPermIndex idx, BOOL allowed) { //if(AP_SOME == mBits[idx]) return; // P4 branch prediction optimization switch(mBits[idx]) { case AP_EMPTY: mBits[idx] = allowed ? AP_ALL : AP_NONE; break; case AP_NONE: mBits[idx] = allowed ? AP_SOME: AP_NONE; break; case AP_SOME: // no-op break; case AP_ALL: mBits[idx] = allowed ? AP_ALL : AP_SOME; break; default: llwarns << "Bad aggregateBit " << (S32)idx << " " << (allowed ? "true" : "false") << llendl; break; } } void LLAggregatePermissions::aggregateIndex(EPermIndex idx, U8 bits) { switch(mBits[idx]) { case AP_EMPTY: mBits[idx] = bits; break; case AP_NONE: switch(bits) { case AP_SOME: case AP_ALL: mBits[idx] = AP_SOME; break; case AP_EMPTY: case AP_NONE: default: // no-op break; } break; case AP_SOME: // no-op break; case AP_ALL: switch(bits) { case AP_NONE: case AP_SOME: mBits[idx] = AP_SOME; break; case AP_EMPTY: case AP_ALL: default: // no-op break; } break; default: llwarns << "Bad aggregate index " << (S32)idx << " " << (S32)bits << llendl; break; } } // static LLAggregatePermissions::EPermIndex LLAggregatePermissions::perm2PermIndex(PermissionBit bit) { EPermIndex idx = PI_END; // past any good value. switch(bit) { case PERM_COPY: idx = PI_COPY; break; case PERM_MODIFY: idx = PI_MODIFY; break; case PERM_TRANSFER: idx = PI_TRANSFER; break; default: break; } return idx; } void LLAggregatePermissions::packMessage(LLMessageSystem* msg, const char* field) const { msg->addU8Fast(field, getU8()); } void LLAggregatePermissions::unpackMessage(LLMessageSystem* msg, const char* block, const char* field, S32 block_num) { const U8 TWO_BITS = 0x3; // binary 00000011 U8 bits = 0; msg->getU8Fast(block, field, bits, block_num); mBits[PI_COPY] = bits & TWO_BITS; bits >>= 2; mBits[PI_MODIFY] = bits & TWO_BITS; bits >>= 2; mBits[PI_TRANSFER] = bits & TWO_BITS; } const LLString AGGREGATE_VALUES[4] = { LLString( "Empty" ), LLString( "None" ), LLString( "Some" ), LLString( "All" ) }; std::ostream& operator<<(std::ostream &s, const LLAggregatePermissions &perm) { s << "{PI_COPY=" << AGGREGATE_VALUES[perm.mBits[LLAggregatePermissions::PI_COPY]]; s << ", PI_MODIFY=" << AGGREGATE_VALUES[perm.mBits[LLAggregatePermissions::PI_MODIFY]]; s << ", PI_TRANSFER=" << AGGREGATE_VALUES[perm.mBits[LLAggregatePermissions::PI_TRANSFER]]; s << "}"; return s; } // This converts a permissions mask into a string for debugging use. void mask_to_string(U32 mask, char* str) { if (mask & PERM_MOVE) { *str = 'V'; } else { *str = ' '; } str++; if (mask & PERM_MODIFY) { *str = 'M'; } else { *str = ' '; } str++; if (mask & PERM_COPY) { *str = 'C'; } else { *str = ' '; } str++; if (mask & PERM_TRANSFER) { *str = 'T'; } else { *str = ' '; } str++; *str = '\0'; } std::string mask_to_string(U32 mask) { char str[16]; mask_to_string(mask, str); return std::string(str); } ///---------------------------------------------------------------------------- /// exported functions ///---------------------------------------------------------------------------- static const std::string PERM_CREATOR_ID_LABEL("creator_id"); static const std::string PERM_OWNER_ID_LABEL("owner_id"); static const std::string PERM_LAST_OWNER_ID_LABEL("last_owner_id"); static const std::string PERM_GROUP_ID_LABEL("group_id"); static const std::string PERM_IS_OWNER_GROUP_LABEL("is_owner_group"); static const std::string PERM_BASE_MASK_LABEL("base_mask"); static const std::string PERM_OWNER_MASK_LABEL("owner_mask"); static const std::string PERM_GROUP_MASK_LABEL("group_mask"); static const std::string PERM_EVERYONE_MASK_LABEL("everyone_mask"); static const std::string PERM_NEXT_OWNER_MASK_LABEL("next_owner_mask"); LLSD ll_create_sd_from_permissions(const LLPermissions& perm) { LLSD rv; rv[PERM_CREATOR_ID_LABEL] = perm.getCreator(); rv[PERM_OWNER_ID_LABEL] = perm.getOwner(); rv[PERM_LAST_OWNER_ID_LABEL] = perm.getLastOwner(); rv[PERM_GROUP_ID_LABEL] = perm.getGroup(); rv[PERM_IS_OWNER_GROUP_LABEL] = perm.isGroupOwned(); rv[PERM_BASE_MASK_LABEL] = (S32)perm.getMaskBase(); rv[PERM_OWNER_MASK_LABEL] = (S32)perm.getMaskOwner(); rv[PERM_GROUP_MASK_LABEL] = (S32)perm.getMaskGroup(); rv[PERM_EVERYONE_MASK_LABEL] = (S32)perm.getMaskEveryone(); rv[PERM_NEXT_OWNER_MASK_LABEL] = (S32)perm.getMaskNextOwner(); return rv; } LLPermissions ll_permissions_from_sd(const LLSD& sd_perm) { LLPermissions rv; rv.init( sd_perm[PERM_CREATOR_ID_LABEL].asUUID(), sd_perm[PERM_OWNER_ID_LABEL].asUUID(), sd_perm[PERM_LAST_OWNER_ID_LABEL].asUUID(), sd_perm[PERM_GROUP_ID_LABEL].asUUID()); // We do a cast to U32 here since LLSD does not attempt to // represent unsigned ints. PermissionMask mask; mask = (U32)(sd_perm[PERM_BASE_MASK_LABEL].asInteger()); rv.setMaskBase(mask); mask = (U32)(sd_perm[PERM_OWNER_MASK_LABEL].asInteger()); rv.setMaskOwner(mask); mask = (U32)(sd_perm[PERM_EVERYONE_MASK_LABEL].asInteger()); rv.setMaskEveryone(mask); mask = (U32)(sd_perm[PERM_GROUP_MASK_LABEL].asInteger()); rv.setMaskGroup(mask); mask = (U32)(sd_perm[PERM_NEXT_OWNER_MASK_LABEL].asInteger()); rv.setMaskNext(mask); rv.fix(); return rv; }