/** * @file io.cpp * @author Phoenix * @date 2005-10-02 * @brief Tests for io classes and helpers * * $LicenseInfo:firstyear=2005&license=viewergpl$ * * Copyright (c) 2005-2009, 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://secondlifegrid.net/programs/open_source/licensing/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://secondlifegrid.net/programs/open_source/licensing/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 "lltut.h" #include <iterator> #include "apr_pools.h" #include "llbuffer.h" #include "llbufferstream.h" #include "lliosocket.h" #include "llioutil.h" #include "llmemorystream.h" #include "llpipeutil.h" #include "llpumpio.h" #include "llsd.h" #include "llsdrpcclient.h" #include "llsdrpcserver.h" #include "llsdserialize.h" #include "lluuid.h" #include "llinstantmessage.h" namespace tut { struct heap_buffer_data { heap_buffer_data() : mBuffer(NULL) {} ~heap_buffer_data() { if(mBuffer) delete mBuffer; } LLHeapBuffer* mBuffer; }; typedef test_group<heap_buffer_data> heap_buffer_test; typedef heap_buffer_test::object heap_buffer_object; tut::heap_buffer_test thb("heap_buffer"); template<> template<> void heap_buffer_object::test<1>() { const S32 BUF_SIZE = 100; mBuffer = new LLHeapBuffer(BUF_SIZE); ensure_equals("empty buffer capacity", mBuffer->capacity(), BUF_SIZE); const S32 SEGMENT_SIZE = 50; LLSegment segment; mBuffer->createSegment(0, SEGMENT_SIZE, segment); ensure_equals("used buffer capacity", mBuffer->capacity(), BUF_SIZE); } template<> template<> void heap_buffer_object::test<2>() { const S32 BUF_SIZE = 10; mBuffer = new LLHeapBuffer(BUF_SIZE); LLSegment segment; mBuffer->createSegment(0, BUF_SIZE, segment); ensure("segment is in buffer", mBuffer->containsSegment(segment)); ensure_equals("buffer consumed", mBuffer->bytesLeft(), 0); bool created; created = mBuffer->createSegment(0, 0, segment); ensure("Create zero size segment fails", !created); created = mBuffer->createSegment(0, BUF_SIZE, segment); ensure("Create segment fails", !created); } template<> template<> void heap_buffer_object::test<3>() { const S32 BUF_SIZE = 10; mBuffer = new LLHeapBuffer(BUF_SIZE); LLSegment segment; mBuffer->createSegment(0, BUF_SIZE, segment); ensure("segment is in buffer", mBuffer->containsSegment(segment)); ensure_equals("buffer consumed", mBuffer->bytesLeft(), 0); bool reclaimed = mBuffer->reclaimSegment(segment); ensure("buffer reclaimed.", reclaimed); ensure_equals("buffer available", mBuffer->bytesLeft(), BUF_SIZE); bool created; created = mBuffer->createSegment(0, 0, segment); ensure("Create zero size segment fails", !created); created = mBuffer->createSegment(0, BUF_SIZE, segment); ensure("Create another segment succeeds", created); } template<> template<> void heap_buffer_object::test<4>() { const S32 BUF_SIZE = 10; const S32 SEGMENT_SIZE = 4; mBuffer = new LLHeapBuffer(BUF_SIZE); LLSegment seg1; mBuffer->createSegment(0, SEGMENT_SIZE, seg1); ensure("segment is in buffer", mBuffer->containsSegment(seg1)); LLSegment seg2; mBuffer->createSegment(0, SEGMENT_SIZE, seg2); ensure("segment is in buffer", mBuffer->containsSegment(seg2)); LLSegment seg3; mBuffer->createSegment(0, SEGMENT_SIZE, seg3); ensure("segment is in buffer", mBuffer->containsSegment(seg3)); ensure_equals("segment is truncated", seg3.size(), 2); LLSegment seg4; bool created; created = mBuffer->createSegment(0, SEGMENT_SIZE, seg4); ensure("Create segment fails", !created); bool reclaimed; reclaimed = mBuffer->reclaimSegment(seg1); ensure("buffer reclaim succeed.", reclaimed); ensure_equals("no buffer available", mBuffer->bytesLeft(), 0); reclaimed = mBuffer->reclaimSegment(seg2); ensure("buffer reclaim succeed.", reclaimed); ensure_equals("buffer reclaimed", mBuffer->bytesLeft(), 0); reclaimed = mBuffer->reclaimSegment(seg3); ensure("buffer reclaim succeed.", reclaimed); ensure_equals("buffer reclaimed", mBuffer->bytesLeft(), BUF_SIZE); created = mBuffer->createSegment(0, SEGMENT_SIZE, seg1); ensure("segment is in buffer", mBuffer->containsSegment(seg1)); ensure("Create segment succeds", created); } } namespace tut { struct buffer_data { LLBufferArray mBuffer; }; typedef test_group<buffer_data> buffer_test; typedef buffer_test::object buffer_object; tut::buffer_test tba("buffer_array"); template<> template<> void buffer_object::test<1>() { const char HELLO_WORLD[] = "hello world"; const S32 str_len = strlen(HELLO_WORLD); LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)HELLO_WORLD, str_len); S32 count = mBuffer.countAfter(ch.in(), NULL); ensure_equals("total append size", count, str_len); LLBufferArray::segment_iterator_t it = mBuffer.beginSegment(); U8* first = (*it).data(); count = mBuffer.countAfter(ch.in(), first); ensure_equals("offset append size", count, str_len - 1); } template<> template<> void buffer_object::test<2>() { const char HELLO_WORLD[] = "hello world"; const S32 str_len = strlen(HELLO_WORLD); /* Flawfinder: ignore */ LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)HELLO_WORLD, str_len); mBuffer.append(ch.in(), (U8*)HELLO_WORLD, str_len); S32 count = mBuffer.countAfter(ch.in(), NULL); ensure_equals("total append size", count, 2 * str_len); LLBufferArray::segment_iterator_t it = mBuffer.beginSegment(); U8* first = (*it).data(); count = mBuffer.countAfter(ch.in(), first); ensure_equals("offset append size", count, (2 * str_len) - 1); } template<> template<> void buffer_object::test<3>() { const char ONE[] = "one"; const char TWO[] = "two"; std::string expected(ONE); expected.append(TWO); LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)ONE, 3); mBuffer.append(ch.in(), (U8*)TWO, 3); char buffer[255]; /* Flawfinder: ignore */ S32 len = 6; mBuffer.readAfter(ch.in(), NULL, (U8*)buffer, len); ensure_equals(len, 6); buffer[len] = '\0'; std::string actual(buffer); ensure_equals("read", actual, expected); } template<> template<> void buffer_object::test<4>() { const char ONE[] = "one"; const char TWO[] = "two"; std::string expected(ONE); expected.append(TWO); LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)TWO, 3); mBuffer.prepend(ch.in(), (U8*)ONE, 3); char buffer[255]; /* Flawfinder: ignore */ S32 len = 6; mBuffer.readAfter(ch.in(), NULL, (U8*)buffer, len); ensure_equals(len, 6); buffer[len] = '\0'; std::string actual(buffer); ensure_equals("read", actual, expected); } template<> template<> void buffer_object::test<5>() { const char ONE[] = "one"; const char TWO[] = "two"; std::string expected("netwo"); LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)TWO, 3); mBuffer.prepend(ch.in(), (U8*)ONE, 3); char buffer[255]; /* Flawfinder: ignore */ S32 len = 5; LLBufferArray::segment_iterator_t it = mBuffer.beginSegment(); U8* addr = (*it).data(); mBuffer.readAfter(ch.in(), addr, (U8*)buffer, len); ensure_equals(len, 5); buffer[len] = '\0'; std::string actual(buffer); ensure_equals("read", actual, expected); } template<> template<> void buffer_object::test<6>() { std::string request("The early bird catches the worm."); std::string response("If you're a worm, sleep late."); std::ostringstream expected; expected << "ContentLength: " << response.length() << "\r\n\r\n" << response; LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)request.c_str(), request.length()); mBuffer.append(ch.out(), (U8*)response.c_str(), response.length()); S32 count = mBuffer.countAfter(ch.out(), NULL); std::ostringstream header; header << "ContentLength: " << count << "\r\n\r\n"; std::string head(header.str()); mBuffer.prepend(ch.out(), (U8*)head.c_str(), head.length()); char buffer[1024]; /* Flawfinder: ignore */ S32 len = response.size() + head.length(); ensure_equals("same length", len, (S32)expected.str().length()); mBuffer.readAfter(ch.out(), NULL, (U8*)buffer, len); buffer[len] = '\0'; std::string actual(buffer); ensure_equals("threaded writes", actual, expected.str()); } template<> template<> void buffer_object::test<7>() { const S32 LINE_COUNT = 3; std::string lines[LINE_COUNT] = { std::string("GET /index.htm HTTP/1.0\r\n"), std::string("User-Agent: Wget/1.9.1\r\n"), std::string("Host: localhost:8008\r\n") }; std::string text; S32 i; for(i = 0; i < LINE_COUNT; ++i) { text.append(lines[i]); } LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)text.c_str(), text.length()); const S32 BUFFER_LEN = 1024; char buf[BUFFER_LEN]; S32 len; U8* last = NULL; std::string last_line; for(i = 0; i < LINE_COUNT; ++i) { len = BUFFER_LEN; last = mBuffer.readAfter(ch.in(), last, (U8*)buf, len); char* newline = strchr((char*)buf, '\n'); S32 offset = -((len - 1) - (newline - buf)); ++newline; *newline = '\0'; last_line.assign(buf); std::ostringstream message; message << "line reads in line[" << i << "]"; ensure_equals(message.str().c_str(), last_line, lines[i]); last = mBuffer.seek(ch.in(), last, offset); } } template<> template<> void buffer_object::test<8>() { LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)"1", 1); LLBufferArray buffer; buffer.append(ch.in(), (U8*)"2", 1); mBuffer.takeContents(buffer); mBuffer.append(ch.in(), (U8*)"3", 1); S32 count = mBuffer.countAfter(ch.in(), NULL); ensure_equals("buffer size", count, 3); U8* temp = new U8[count]; mBuffer.readAfter(ch.in(), NULL, temp, count); ensure("buffer content", (0 == memcmp(temp, (void*)"123", 3))); delete[] temp; } template<> template<> void buffer_object::test<9>() { LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.in(), (U8*)"1", 1); S32 capacity = mBuffer.capacity(); ensure("has capacity", capacity > 0); U8* temp = new U8[capacity - 1]; mBuffer.append(ch.in(), temp, capacity - 1); capacity = mBuffer.capacity(); ensure("has capacity when full", capacity > 0); S32 used = mBuffer.countAfter(ch.in(), NULL); ensure_equals("used equals capacity", used, capacity); LLBufferArray::segment_iterator_t iter = mBuffer.beginSegment(); while(iter != mBuffer.endSegment()) { mBuffer.eraseSegment(iter++); } used = mBuffer.countAfter(ch.in(), NULL); ensure_equals("used is zero", used, 0); S32 capacity2 = mBuffer.capacity(); ensure_equals("capacity the same after erase", capacity2, capacity); mBuffer.append(ch.in(), temp, capacity - 1); capacity2 = mBuffer.capacity(); ensure_equals("capacity the same after append", capacity2, capacity); delete[] temp; } #if 0 template<> template<> void buffer_object::test<9>() { char buffer[1024]; /* Flawfinder: ignore */ S32 size = sprintf(buffer, "%d|%d|%s|%s|%s|%s|%s|%x|%x|%x|%x|%x|%s|%s|%d|%d|%x", 7, 7, "Hang Glider INFO", "18e84d1e-04a4-4c0d-8cb6-6c73477f0a9a", "0e346d8b-4433-4d66-a6b0-fd37083abc4c", "0e346d8b-4433-4d66-a6b0-fd37083abc4c", "00000000-0000-0000-0000-000000000000", 0x7fffffff, 0x7fffffff, 0, 0, 0x7fffffff, "69e0d357-2e7c-8990-a2bc-7f61c868e5a3", "2004-06-04 16:09:17 note card", 0, 10, 0) + 1; //const char* expected = "7|7|Hang Glider INFO|18e84d1e-04a4-4c0d-8cb6-6c73477f0a9a|0e346d8b-4433-4d66-a6b0-fd37083abc4c|0e346d8b-4433-4d66-a6b0-fd37083abc4c|00000000-0000-0000-0000-000000000000|7fffffff|7fffffff|0|0|7fffffff|69e0d357-2e7c-8990-a2bc-7f61c868e5a3|2004-06-04 16:09:17 note card|0|10|0\0"; LLSD* bin_bucket = LLIMInfo::buildSDfrombuffer((U8*)buffer,size); char post_buffer[1024]; U32 post_size; LLIMInfo::getBinaryBucket(bin_bucket,(U8*)post_buffer,post_size); ensure_equals("Buffer sizes",size,(S32)post_size); ensure("Buffer content",!strcmp(buffer,post_buffer)); } #endif /* template<> template<> void buffer_object::test<>() { } */ } namespace tut { struct buffer_and_stream_data { LLBufferArray mBuffer; }; typedef test_group<buffer_and_stream_data> bas_test; typedef bas_test::object bas_object; tut::bas_test tbs("buffer_stream"); template<> template<> void bas_object::test<1>() { const char HELLO_WORLD[] = "hello world"; const S32 str_len = strlen(HELLO_WORLD); /* Flawfinder: ignore */ LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream str(ch, &mBuffer); mBuffer.append(ch.in(), (U8*)HELLO_WORLD, str_len); std::string hello; std::string world; str >> hello >> world; ensure_equals("first word", hello, std::string("hello")); ensure_equals("second word", world, std::string("world")); } template<> template<> void bas_object::test<2>() { std::string part1("Eat my shor"); std::string part2("ts ho"); std::string part3("mer"); std::string ignore("ignore me"); LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream str(ch, &mBuffer); mBuffer.append(ch.in(), (U8*)part1.c_str(), part1.length()); mBuffer.append(ch.in(), (U8*)part2.c_str(), part2.length()); mBuffer.append(ch.out(), (U8*)ignore.c_str(), ignore.length()); mBuffer.append(ch.in(), (U8*)part3.c_str(), part3.length()); std::string eat; std::string my; std::string shorts; std::string homer; str >> eat >> my >> shorts >> homer; ensure_equals("word1", eat, std::string("Eat")); ensure_equals("word2", my, std::string("my")); ensure_equals("word3", shorts, std::string("shorts")); ensure_equals("word4", homer, std::string("homer")); } template<> template<> void bas_object::test<3>() { std::string part1("junk in "); std::string part2("the trunk"); const S32 CHANNEL = 0; mBuffer.append(CHANNEL, (U8*)part1.c_str(), part1.length()); mBuffer.append(CHANNEL, (U8*)part2.c_str(), part2.length()); U8* last = 0; const S32 BUF_LEN = 128; char buf[BUF_LEN]; S32 len = 11; last = mBuffer.readAfter(CHANNEL, last, (U8*)buf, len); buf[len] = '\0'; std::string actual(buf); ensure_equals("first read", actual, std::string("junk in the")); last = mBuffer.seek(CHANNEL, last, -6); len = 12; last = mBuffer.readAfter(CHANNEL, last, (U8*)buf, len); buf[len] = '\0'; actual.assign(buf); ensure_equals("seek and read", actual, std::string("in the trunk")); } template<> template<> void bas_object::test<4>() { std::string phrase("zippity do da!"); const S32 CHANNEL = 0; mBuffer.append(CHANNEL, (U8*)phrase.c_str(), phrase.length()); const S32 BUF_LEN = 128; char buf[BUF_LEN]; S32 len = 7; U8* last = mBuffer.readAfter(CHANNEL, NULL, (U8*)buf, len); mBuffer.splitAfter(last); LLBufferArray::segment_iterator_t it = mBuffer.beginSegment(); LLBufferArray::segment_iterator_t end = mBuffer.endSegment(); std::string first((char*)((*it).data()), (*it).size()); ensure_equals("first part", first, std::string("zippity")); ++it; std::string second((char*)((*it).data()), (*it).size()); ensure_equals("second part", second, std::string(" do da!")); ++it; ensure("iterators equal", (it == end)); } template<> template<> void bas_object::test<5>() { LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream str(ch, &mBuffer); std::string h1("hello"); std::string h2(", how are you doing?"); std::string expected(h1); expected.append(h2); str << h1 << h2; str.flush(); const S32 BUF_LEN = 128; char buf[BUF_LEN]; S32 actual_len = BUF_LEN; S32 expected_len = h1.size() + h2.size(); (void) mBuffer.readAfter(ch.out(), NULL, (U8*)buf, actual_len); ensure_equals("streamed size", actual_len, expected_len); buf[actual_len] = '\0'; std::string actual(buf); ensure_equals("streamed to buf", actual, expected); } template<> template<> void bas_object::test<6>() { LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream bstr(ch, &mBuffer); std::ostringstream ostr; std::vector<LLUUID> ids; LLUUID id; for(int i = 0; i < 5; ++i) { id.generate(); ids.push_back(id); } bstr << "SELECT concat(u.username, ' ', l.name) " << "FROM user u, user_last_name l " << "WHERE u.last_name_id = l.last_name_id" << " AND u.agent_id IN ('"; ostr << "SELECT concat(u.username, ' ', l.name) " << "FROM user u, user_last_name l " << "WHERE u.last_name_id = l.last_name_id" << " AND u.agent_id IN ('"; std::copy( ids.begin(), ids.end(), std::ostream_iterator<LLUUID>(bstr, "','")); std::copy( ids.begin(), ids.end(), std::ostream_iterator<LLUUID>(ostr, "','")); bstr.seekp(-2, std::ios::cur); ostr.seekp(-2, std::ios::cur); bstr << ") "; ostr << ") "; bstr.flush(); const S32 BUF_LEN = 512; char buf[BUF_LEN]; /* Flawfinder: ignore */ S32 actual_len = BUF_LEN; (void) mBuffer.readAfter(ch.out(), NULL, (U8*)buf, actual_len); buf[actual_len] = '\0'; std::string actual(buf); std::string expected(ostr.str()); ensure_equals("size of string in seek",actual.size(),expected.size()); ensure_equals("seek in ostream", actual, expected); } template<> template<> void bas_object::test<7>() { LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream bstr(ch, &mBuffer); bstr << "1"; bstr.flush(); S32 count = mBuffer.countAfter(ch.out(), NULL); ensure_equals("buffer size 1", count, 1); LLBufferArray buffer; buffer.append(ch.out(), (U8*)"2", 1); mBuffer.takeContents(buffer); count = mBuffer.countAfter(ch.out(), NULL); ensure_equals("buffer size 2", count, 2); bstr << "3"; bstr.flush(); count = mBuffer.countAfter(ch.out(), NULL); ensure_equals("buffer size 3", count, 3); U8* temp = new U8[count]; mBuffer.readAfter(ch.out(), NULL, temp, count); ensure("buffer content", (0 == memcmp(temp, (void*)"123", 3))); delete[] temp; } template<> template<> void bas_object::test<8>() { LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream ostr(ch, &mBuffer); typedef std::vector<U8> buf_t; typedef std::vector<buf_t> actual_t; actual_t actual; buf_t source; bool need_comma = false; ostr << "["; S32 total_size = 1; for(S32 i = 2000; i < 2003; ++i) { if(need_comma) { ostr << ","; ++total_size; } need_comma = true; srand(69 + i); /* Flawfinder: ignore */ S32 size = rand() % 1000 + 1000; std::generate_n( std::back_insert_iterator<buf_t>(source), size, rand); actual.push_back(source); ostr << "b(" << size << ")\""; total_size += 8; ostr.write((const char*)(&source[0]), size); total_size += size; source.clear(); ostr << "\""; ++total_size; } ostr << "]"; ++total_size; ostr.flush(); // now that we have a bunch of data on a stream, parse it all. ch = mBuffer.nextChannel(); S32 count = mBuffer.countAfter(ch.in(), NULL); ensure_equals("size of buffer", count, total_size); LLBufferStream istr(ch, &mBuffer); LLSD data; count = LLSDSerialize::fromNotation(data, istr, total_size); ensure("sd parsed", data.isDefined()); for(S32 j = 0; j < 3; ++j) { std::ostringstream name; LLSD child(data[j]); name << "found buffer " << j; ensure(name.str(), child.isDefined()); source = child.asBinary(); name.str(""); name << "buffer " << j << " size"; ensure_equals(name.str().c_str(), source.size(), actual[j].size()); name.str(""); name << "buffer " << j << " contents"; ensure( name.str(), (0 == memcmp(&source[0], &actual[j][0], source.size()))); } } template<> template<> void bas_object::test<9>() { LLChannelDescriptors ch = mBuffer.nextChannel(); LLBufferStream ostr(ch, &mBuffer); typedef std::vector<U8> buf_t; buf_t source; bool need_comma = false; ostr << "{"; S32 total_size = 1; for(S32 i = 1000; i < 3000; ++i) { if(need_comma) { ostr << ","; ++total_size; } need_comma = true; ostr << "'" << i << "':"; total_size += 7; srand(69 + i); /* Flawfinder: ignore */ S32 size = rand() % 1000 + 1000; std::generate_n( std::back_insert_iterator<buf_t>(source), size, rand); ostr << "b(" << size << ")\""; total_size += 8; ostr.write((const char*)(&source[0]), size); total_size += size; source.clear(); ostr << "\""; ++total_size; } ostr << "}"; ++total_size; ostr.flush(); // now that we have a bunch of data on a stream, parse it all. ch = mBuffer.nextChannel(); S32 count = mBuffer.countAfter(ch.in(), NULL); ensure_equals("size of buffer", count, total_size); LLBufferStream istr(ch, &mBuffer); LLSD data; count = LLSDSerialize::fromNotation(data, istr, total_size); ensure("sd parsed", data.isDefined()); } template<> template<> void bas_object::test<10>() { //#if LL_WINDOWS && _MSC_VER >= 1400 // skip_fail("Fails on VS2005 due to broken LLSDSerialize::fromNotation() parser."); //#endif const char LOGIN_STREAM[] = "{'method':'login', 'parameter': [ {" "'uri': 'sl-am:kellys.region.siva.lindenlab.com/location?start=url&px=128&py=128&pz=128&lx=0&ly=0&lz=0'}, " "{'version': i1}, {'texture_data': [ '61d724fb-ad79-f637-2186-5cf457560daa', '6e38b9be-b7cc-e77a-8aec-029a42b0b416', " "'a9073524-e89b-2924-ca6e-a81944109a1a', '658f18b5-5f1e-e593-f5d5-36c3abc7249a', '0cc799f4-8c99-6b91-bd75-b179b12429e2', " "'59fd9b64-8300-a425-aad8-2ffcbe9a49d2', '59fd9b64-8300-a425-aad8-2ffcbe9a49d2', '5748decc-f629-461c-9a36-a35a221fe21f', " "'b8fc9be2-26a6-6b47-690b-0e902e983484', 'a13ca0fe-3802-dc97-e79a-70d12171c724', 'dd9643cf-fd5d-0376-ed4a-b1cc646a97d5', " "'4ad13ae9-a112-af09-210a-cf9353a7a9e7', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', " "'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', " "'5748decc-f629-461c-9a36-a35a221fe21f', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97']," "'session_id': '324cfa9f-fe5d-4d1c-a317-35f20a86a4d1','position': [ i128, i128, i128],'last_name': 'Linden','group_title': '-> !BLING! <-','group_name': 'test!','agent_access': 'M'," "'attachment_data': [ {'asset_id': 'aaede2b1-9955-09d4-5c93-2b557c778cf3','attachment_point': i6,'item_id': 'f3694abc-5122-db33-73d9-e0f4288dc2bf'}]," "'buddy_ids': [ '101358d5-469d-4b24-9b85-4dc3c05e635d', '1b00fec7-6265-4875-acac-80d9cfe9295c', '203ad6df-b522-491d-ba48-4e24eb57aeff', " "'22d4dcdb-aebb-47fa-b925-a871cc75ee48','27da3df5-1339-4463-80aa-40504ee3b3e5', '299d1720-b61f-4268-8c29-9614aa2d44c2', " "'2b048a24-2737-4994-9fa5-becc8e466253', '2cd5dc14-a853-49a4-be3c-a5a7178e37bc', '3de548e1-57be-cfea-2b78-83ae3ad95998', " "'3dee98e4-a6a3-4543-91c3-bbd528447ba7', '3e2d81a3-6263-6ffe-ad5c-8ce04bee07e9', '40e70b98-fed7-47f3-9700-1bce93f9350b', " "'50a9b68e-b5aa-4d35-9137-3cfebda0a15c', '54295571-9357-43ff-ae74-a83b5138160f', '6191e2d7-5f96-4856-bdab-af0f79f47ae4', " "'63e577d8-cd34-4235-a0a3-de0500133364', '79cfb666-4fd0-4af7-95df-fb7d96b4e24d', '8121c2f3-4a88-4c33-9899-8fc1273f47ee', " "'909da964-ef23-4f2a-ba13-f2a8cfd454b6','a2e76fcd-9360-4f6d-a924-000000000001', 'aaa6d664-527e-4d83-9cbb-7ef79ccc7cc8', " "'b79bfb6c-23be-49eb-b35b-30ff2f501b37', 'ba0d9c79-148c-4a79-8e3c-0665eebe2427', 'bc9bda98-57cd-498f-b993-4ff1ac9dec93', " "'c62d16f6-81cb-419d-9cac-e46dc394084d', 'd48f8fa7-2512-4fe5-80c8-c0a923412e07', 'd77e3e24-7e6c-4c3f-96d0-a1746337f8fb', " "'da615c63-a84b-4592-a3d6-a90dd3e92e6e', 'df47190a-7eb7-4aff-985f-2d1d3ad6c6e9', 'e3380196-72cd-499c-a2ba-caa180bd5fe4', " "'e937863f-f134-4207-803b-d6e686651d6c', 'efcdf98b-5269-45ef-ac7a-0671f09ea9d9']," "'circuit_code': i124,'group_id': '8615c885-9cf0-bf0a-6e40-0c11462aa652','limited_to_estate': i1,'look_at': [ i0, i0, i0]," "'agent_id': '0e346d8b-4433-4d66-a6b0-fd37083abc4c','first_name': 'Kelly','start': 'url'}]}"; LLChannelDescriptors ch = mBuffer.nextChannel(); mBuffer.append(ch.out(), (U8*)LOGIN_STREAM, strlen(LOGIN_STREAM)); /* Flawfinder: ignore */ ch = mBuffer.nextChannel(); LLBufferStream istr(ch, &mBuffer); LLSD data; S32 count = LLSDSerialize::fromNotation( data, istr, mBuffer.count(ch.in())); ensure("parsed something", (count > 0)); ensure("sd parsed", data.isDefined()); ensure_equals("sd type", data.type(), LLSD::TypeMap); ensure("has method", data.has("method")); ensure("has parameter", data.has("parameter")); LLSD parameter = data["parameter"]; ensure_equals("parameter is array", parameter.type(), LLSD::TypeArray); LLSD agent_params = parameter[2]; std::string s_value; s_value = agent_params["last_name"].asString(); ensure_equals("last name", s_value, std::string("Linden")); s_value = agent_params["first_name"].asString(); ensure_equals("first name", s_value, std::string("Kelly")); s_value = agent_params["agent_access"].asString(); ensure_equals("agent access", s_value, std::string("M")); s_value = agent_params["group_name"].asString(); ensure_equals("group name", s_value, std::string("test!")); s_value = agent_params["group_title"].asString(); ensure_equals("group title", s_value, std::string("-> !BLING! <-")); LLUUID agent_id("0e346d8b-4433-4d66-a6b0-fd37083abc4c"); LLUUID id = agent_params["agent_id"]; ensure_equals("agent id", id, agent_id); LLUUID session_id("324cfa9f-fe5d-4d1c-a317-35f20a86a4d1"); id = agent_params["session_id"]; ensure_equals("session id", id, session_id); LLUUID group_id ("8615c885-9cf0-bf0a-6e40-0c11462aa652"); id = agent_params["group_id"]; ensure_equals("group id", id, group_id); S32 i_val = agent_params["limited_to_estate"]; ensure_equals("limited to estate", i_val, 1); i_val = agent_params["circuit_code"]; ensure_equals("circuit code", i_val, 124); } template<> template<> void bas_object::test<11>() { std::string val = "{!'foo'@:#'bar'}"; std::istringstream istr; istr.str(val); LLSD sd; S32 count = LLSDSerialize::fromNotation(sd, istr, val.size()); ensure_equals("parser error return value", count, -1); ensure("data undefined", sd.isUndefined()); } template<> template<> void bas_object::test<12>() { //#if LL_WINDOWS && _MSC_VER >= 1400 // skip_fail("Fails on VS2005 due to broken LLSDSerialize::fromNotation() parser."); //#endif std::string val = "{!'foo':[i1,'hi',{@'bar'#:[$i2%,^'baz'&]*}+]=}"; std::istringstream istr; istr.str(val); LLSD sd; S32 count = LLSDSerialize::fromNotation(sd, istr, val.size()); ensure_equals("parser error return value", count, -1); ensure("data undefined", sd.isUndefined()); } /* template<> template<> void bas_object::test<13>() { } template<> template<> void bas_object::test<14>() { } template<> template<> void bas_object::test<15>() { } */ } namespace tut { class PumpAndChainTestData { protected: apr_pool_t* mPool; LLPumpIO* mPump; LLPumpIO::chain_t mChain; public: PumpAndChainTestData() { apr_pool_create(&mPool, NULL); mPump = new LLPumpIO(mPool); } ~PumpAndChainTestData() { mChain.clear(); delete mPump; apr_pool_destroy(mPool); } }; typedef test_group<PumpAndChainTestData> PumpAndChainTestGroup; typedef PumpAndChainTestGroup::object PumpAndChainTestObject; PumpAndChainTestGroup pumpAndChainTestGroup("pump_and_chain"); template<> template<> void PumpAndChainTestObject::test<1>() { LLPipeStringExtractor* extractor = new LLPipeStringExtractor(); mChain.push_back(LLIOPipe::ptr_t(new LLIOFlush)); mChain.push_back(LLIOPipe::ptr_t(extractor)); LLTimer timer; timer.setTimerExpirySec(100.0f); mPump->addChain(mChain, DEFAULT_CHAIN_EXPIRY_SECS); while(!extractor->done() && !timer.hasExpired()) { mPump->pump(); mPump->callback(); } ensure("reading string finished", extractor->done()); ensure_equals("string was empty", extractor->string(), ""); } } /* namespace tut { struct double_construct { public: double_construct() { llinfos << "constructed" << llendl; } ~double_construct() { llinfos << "destroyed" << llendl; } }; typedef test_group<double_construct> double_construct_test_group; typedef double_construct_test_group::object dc_test_object; double_construct_test_group dctest("double construct"); template<> template<> void dc_test_object::test<1>() { ensure("test 1", true); } } */ namespace tut { /** * @brief we want to test the pipes & pumps under bad conditions. */ struct pipe_and_pump_fitness { public: enum { SERVER_LISTEN_PORT = 13050 }; pipe_and_pump_fitness() { LLFrameTimer::updateFrameTime(); apr_pool_create(&mPool, NULL); mPump = new LLPumpIO(mPool); mSocket = LLSocket::create( mPool, LLSocket::STREAM_TCP, SERVER_LISTEN_PORT); } ~pipe_and_pump_fitness() { mSocket.reset(); delete mPump; apr_pool_destroy(mPool); } protected: apr_pool_t* mPool; LLPumpIO* mPump; LLSocket::ptr_t mSocket; }; typedef test_group<pipe_and_pump_fitness> fitness_test_group; typedef fitness_test_group::object fitness_test_object; fitness_test_group fitness("pipe and pump fitness"); template<> template<> void fitness_test_object::test<1>() { lldebugs << "fitness_test_object::test<1>()" << llendl; // Set up the server //lldebugs << "fitness_test_object::test<1> - setting up server." // << llendl; LLPumpIO::chain_t chain; typedef LLCloneIOFactory<LLPipeStringInjector> emitter_t; emitter_t* emitter = new emitter_t( new LLPipeStringInjector("suckers never play me")); boost::shared_ptr<LLChainIOFactory> factory(emitter); LLIOServerSocket* server = new LLIOServerSocket( mPool, mSocket, factory); server->setResponseTimeout(SHORT_CHAIN_EXPIRY_SECS); chain.push_back(LLIOPipe::ptr_t(server)); mPump->addChain(chain, NEVER_CHAIN_EXPIRY_SECS); // We need to tickle the pump a little to set up the listen() //lldebugs << "fitness_test_object::test<1> - initializing server." // << llendl; pump_loop(mPump, 0.1f); // Set up the client //lldebugs << "fitness_test_object::test<1> - connecting client." // << llendl; LLSocket::ptr_t client = LLSocket::create(mPool, LLSocket::STREAM_TCP); LLHost server_host("127.0.0.1", SERVER_LISTEN_PORT); bool connected = client->blockingConnect(server_host); ensure("Connected to server", connected); lldebugs << "connected" << llendl; // We have connected, since the socket reader does not block, // the first call to read data will return EAGAIN, so we need // to write something. chain.clear(); chain.push_back(LLIOPipe::ptr_t(new LLPipeStringInjector("hi"))); chain.push_back(LLIOPipe::ptr_t(new LLIOSocketWriter(client))); chain.push_back(LLIOPipe::ptr_t(new LLIONull)); mPump->addChain(chain, 1.0f); // Now, the server should immediately send the data, but we'll // never read it. pump for a bit F32 elapsed = pump_loop(mPump, 2.0f); ensure("Did not take too long", (elapsed < 3.0f)); } template<> template<> void fitness_test_object::test<2>() { lldebugs << "fitness_test_object::test<2>()" << llendl; // Set up the server LLPumpIO::chain_t chain; typedef LLCloneIOFactory<LLIOFuzz> emitter_t; emitter_t* emitter = new emitter_t(new LLIOFuzz(1000000)); boost::shared_ptr<LLChainIOFactory> factory(emitter); LLIOServerSocket* server = new LLIOServerSocket( mPool, mSocket, factory); server->setResponseTimeout(SHORT_CHAIN_EXPIRY_SECS); chain.push_back(LLIOPipe::ptr_t(server)); mPump->addChain(chain, NEVER_CHAIN_EXPIRY_SECS); // We need to tickle the pump a little to set up the listen() pump_loop(mPump, 0.1f); // Set up the client LLSocket::ptr_t client = LLSocket::create(mPool, LLSocket::STREAM_TCP); LLHost server_host("127.0.0.1", SERVER_LISTEN_PORT); bool connected = client->blockingConnect(server_host); ensure("Connected to server", connected); lldebugs << "connected" << llendl; // We have connected, since the socket reader does not block, // the first call to read data will return EAGAIN, so we need // to write something. chain.clear(); chain.push_back(LLIOPipe::ptr_t(new LLPipeStringInjector("hi"))); chain.push_back(LLIOPipe::ptr_t(new LLIOSocketWriter(client))); chain.push_back(LLIOPipe::ptr_t(new LLIONull)); mPump->addChain(chain, SHORT_CHAIN_EXPIRY_SECS / 2.0f); // Now, the server should immediately send the data, but we'll // never read it. pump for a bit F32 elapsed = pump_loop(mPump, SHORT_CHAIN_EXPIRY_SECS * 2.0f); ensure("Did not take too long", (elapsed < 3.0f)); } template<> template<> void fitness_test_object::test<3>() { lldebugs << "fitness_test_object::test<3>()" << llendl; // Set up the server LLPumpIO::chain_t chain; typedef LLCloneIOFactory<LLIOFuzz> emitter_t; emitter_t* emitter = new emitter_t(new LLIOFuzz(1000000)); boost::shared_ptr<LLChainIOFactory> factory(emitter); LLIOServerSocket* server = new LLIOServerSocket( mPool, mSocket, factory); server->setResponseTimeout(SHORT_CHAIN_EXPIRY_SECS); chain.push_back(LLIOPipe::ptr_t(server)); mPump->addChain(chain, NEVER_CHAIN_EXPIRY_SECS); // We need to tickle the pump a little to set up the listen() pump_loop(mPump, 0.1f); // Set up the client LLSocket::ptr_t client = LLSocket::create(mPool, LLSocket::STREAM_TCP); LLHost server_host("127.0.0.1", SERVER_LISTEN_PORT); bool connected = client->blockingConnect(server_host); ensure("Connected to server", connected); lldebugs << "connected" << llendl; // We have connected, since the socket reader does not block, // the first call to read data will return EAGAIN, so we need // to write something. chain.clear(); chain.push_back(LLIOPipe::ptr_t(new LLPipeStringInjector("hi"))); chain.push_back(LLIOPipe::ptr_t(new LLIOSocketWriter(client))); chain.push_back(LLIOPipe::ptr_t(new LLIONull)); mPump->addChain(chain, SHORT_CHAIN_EXPIRY_SECS * 2.0f); // Now, the server should immediately send the data, but we'll // never read it. pump for a bit F32 elapsed = pump_loop(mPump, SHORT_CHAIN_EXPIRY_SECS * 2.0f + 1.0f); ensure("Did not take too long", (elapsed < 4.0f)); } template<> template<> void fitness_test_object::test<4>() { lldebugs << "fitness_test_object::test<4>()" << llendl; // Set up the server LLPumpIO::chain_t chain; typedef LLCloneIOFactory<LLIOFuzz> emitter_t; emitter_t* emitter = new emitter_t(new LLIOFuzz(1000000)); boost::shared_ptr<LLChainIOFactory> factory(emitter); LLIOServerSocket* server = new LLIOServerSocket( mPool, mSocket, factory); server->setResponseTimeout(SHORT_CHAIN_EXPIRY_SECS + 1.80f); chain.push_back(LLIOPipe::ptr_t(server)); mPump->addChain(chain, NEVER_CHAIN_EXPIRY_SECS); // We need to tickle the pump a little to set up the listen() pump_loop(mPump, 0.1f); // Set up the client LLSocket::ptr_t client = LLSocket::create(mPool, LLSocket::STREAM_TCP); LLHost server_host("127.0.0.1", SERVER_LISTEN_PORT); bool connected = client->blockingConnect(server_host); ensure("Connected to server", connected); lldebugs << "connected" << llendl; // We have connected, since the socket reader does not block, // the first call to read data will return EAGAIN, so we need // to write something. chain.clear(); chain.push_back(LLIOPipe::ptr_t(new LLPipeStringInjector("hi"))); chain.push_back(LLIOPipe::ptr_t(new LLIOSocketWriter(client))); chain.push_back(LLIOPipe::ptr_t(new LLIONull)); mPump->addChain(chain, NEVER_CHAIN_EXPIRY_SECS); // Now, the server should immediately send the data, but we'll // never read it. pump for a bit F32 elapsed = pump_loop(mPump, SHORT_CHAIN_EXPIRY_SECS + 3.0f); ensure("Did not take too long", (elapsed < DEFAULT_CHAIN_EXPIRY_SECS)); } template<> template<> void fitness_test_object::test<5>() { // Set up the server LLPumpIO::chain_t chain; typedef LLCloneIOFactory<LLIOSleeper> sleeper_t; sleeper_t* sleeper = new sleeper_t(new LLIOSleeper); boost::shared_ptr<LLChainIOFactory> factory(sleeper); LLIOServerSocket* server = new LLIOServerSocket( mPool, mSocket, factory); server->setResponseTimeout(1.0); chain.push_back(LLIOPipe::ptr_t(server)); mPump->addChain(chain, NEVER_CHAIN_EXPIRY_SECS); // We need to tickle the pump a little to set up the listen() pump_loop(mPump, 0.1f); U32 count = mPump->runningChains(); ensure_equals("server chain onboard", count, 1); lldebugs << "** Server is up." << llendl; // Set up the client LLSocket::ptr_t client = LLSocket::create(mPool, LLSocket::STREAM_TCP); LLHost server_host("127.0.0.1", SERVER_LISTEN_PORT); bool connected = client->blockingConnect(server_host); ensure("Connected to server", connected); lldebugs << "connected" << llendl; F32 elapsed = pump_loop(mPump,0.1f); count = mPump->runningChains(); ensure_equals("server chain onboard", count, 2); lldebugs << "** Client is connected." << llendl; // We have connected, since the socket reader does not block, // the first call to read data will return EAGAIN, so we need // to write something. chain.clear(); chain.push_back(LLIOPipe::ptr_t(new LLPipeStringInjector("hi"))); chain.push_back(LLIOPipe::ptr_t(new LLIOSocketWriter(client))); chain.push_back(LLIOPipe::ptr_t(new LLIONull)); mPump->addChain(chain, 0.2f); chain.clear(); // pump for a bit and make sure all 3 chains are running elapsed = pump_loop(mPump,0.1f); count = mPump->runningChains(); ensure_equals("client chain onboard", count, 3); lldebugs << "** request should have been sent." << llendl; // pump for long enough the the client socket closes, and the // server socket should not be closed yet. elapsed = pump_loop(mPump,0.2f); count = mPump->runningChains(); ensure_equals("client chain timed out ", count, 2); lldebugs << "** client chain should be closed." << llendl; // At this point, the socket should be closed by the timeout elapsed = pump_loop(mPump,1.0f); count = mPump->runningChains(); ensure_equals("accepted socked close", count, 1); lldebugs << "** Sleeper should have timed out.." << llendl; } } namespace tut { struct rpc_server_data { class LLSimpleRPCResponse : public LLSDRPCResponse { public: LLSimpleRPCResponse(LLSD* response) : mResponsePtr(response) { } ~LLSimpleRPCResponse() {} virtual bool response(LLPumpIO* pump) { *mResponsePtr = mReturnValue; return true; } virtual bool fault(LLPumpIO* pump) { *mResponsePtr = mReturnValue; return false; } virtual bool error(LLPumpIO* pump) { ensure("LLSimpleRPCResponse::error()", false); return false; } public: LLSD* mResponsePtr; }; class LLSimpleRPCClient : public LLSDRPCClient { public: LLSimpleRPCClient(LLSD* response) : mResponsePtr(response) { } ~LLSimpleRPCClient() {} void echo(const LLSD& parameter) { LLSimpleRPCResponse* resp; resp = new LLSimpleRPCResponse(mResponsePtr); static const std::string URI_NONE; static const std::string METHOD_ECHO("echo"); call(URI_NONE, METHOD_ECHO, parameter, resp, EPBQ_CALLBACK); } public: LLSD* mResponsePtr; }; class LLSimpleRPCServer : public LLSDRPCServer { public: LLSimpleRPCServer() { mMethods["echo"] = new mem_fn_t( this, &LLSimpleRPCServer::rpc_Echo); } ~LLSimpleRPCServer() {} protected: typedef LLSDRPCMethodCall<LLSimpleRPCServer> mem_fn_t; ESDRPCSStatus rpc_Echo( const LLSD& parameter, const LLChannelDescriptors& channels, LLBufferArray* data) { buildResponse(channels, data, parameter); return ESDRPCS_DONE; } }; apr_pool_t* mPool; LLPumpIO* mPump; LLPumpIO::chain_t mChain; LLSimpleRPCClient* mClient; LLSD mResponse; rpc_server_data() : mPool(NULL), mPump(NULL), mClient(NULL) { apr_pool_create(&mPool, NULL); mPump = new LLPumpIO(mPool); mClient = new LLSimpleRPCClient(&mResponse); mChain.push_back(LLIOPipe::ptr_t(mClient)); mChain.push_back(LLIOPipe::ptr_t(new LLFilterSD2XMLRPCRequest)); mChain.push_back(LLIOPipe::ptr_t(new LLFilterXMLRPCRequest2LLSD)); mChain.push_back(LLIOPipe::ptr_t(new LLSimpleRPCServer)); mChain.push_back(LLIOPipe::ptr_t(new LLFilterSD2XMLRPCResponse)); mChain.push_back(LLIOPipe::ptr_t(new LLFilterXMLRPCResponse2LLSD)); mChain.push_back(LLIOPipe::ptr_t(mClient)); } ~rpc_server_data() { mChain.clear(); delete mPump; mPump = NULL; apr_pool_destroy(mPool); mPool = NULL; } void pump_loop(const LLSD& request) { LLTimer timer; timer.setTimerExpirySec(1.0f); mClient->echo(request); mPump->addChain(mChain, DEFAULT_CHAIN_EXPIRY_SECS); while(mResponse.isUndefined() && !timer.hasExpired()) { mPump->pump(); mPump->callback(); } } }; typedef test_group<rpc_server_data> rpc_server_test; typedef rpc_server_test::object rpc_server_object; tut::rpc_server_test rpc("rpc_server"); template<> template<> void rpc_server_object::test<1>() { LLSD request; request = 1; pump_loop(request); //llinfos << "request: " << *request << llendl; //llinfos << "response: " << *mResponse << llendl; ensure_equals("integer request response", mResponse.asInteger(), 1); } template<> template<> void rpc_server_object::test<2>() { //#if LL_WINDOWS && _MSC_VER >= 1400 // skip_fail("Fails on VS2005 due to broken LLSDSerialize::fromNotation() parser."); //#endif std::string uri("sl-am:66.150.244.180:12035/location?start=region&px=70.9247&py=254.378&pz=38.7304&lx=-0.043753&ly=-0.999042&lz=0"); std::stringstream stream; stream << "{'task_id':ucc706f2d-0b68-68f8-11a4-f1043ff35ca0}\n{\n\tname\tObject|\n\tpermissions 0\n}"; std::vector<U8> expected_binary; expected_binary.resize(stream.str().size()); memcpy(&expected_binary[0], stream.str().c_str(), stream.str().size()); /* Flawfinder: ignore */ stream.str(""); stream << "[{'uri':'" << uri << "'}, {'version':i1}, " << "{'agent_id':'3c115e51-04f4-523c-9fa6-98aff1034730', 'session_id':'2c585cec-038c-40b0-b42e-a25ebab4d132', 'circuit_code':i1075, 'start':'region', 'limited_to_estate':i1 'first_name':'Phoenix', 'last_name':'Linden', 'group_title':'', 'group_id':u00000000-0000-0000-0000-000000000000, 'position':[r70.9247,r254.378,r38.7304], 'look_at':[r-0.043753,r-0.999042,r0], 'granters':[ua2e76fcd-9360-4f6d-a924-000000000003], 'texture_data':['5e481e8a-58a6-fc34-6e61-c7a36095c07f', 'c39675f5-ca90-a304-bb31-42cdb803a132', '5c989edf-88d1-b2ac-b00b-5ed4bab8e368', '6522e74d-1660-4e7f-b601-6f48c1659a77', '7ca39b4c-bd19-4699-aff7-f93fd03d3e7b', '41c58177-5eb6-5aeb-029d-bc4093f3c130', '97b75473-8b93-9b25-2a11-035b9ae93195', '1c2d8d9b-90eb-89d4-dea8-c1ed83990614', '69ec543f-e27b-c07c-9094-a8be6300f274', 'c9f8b80f-c629-4633-04ee-c566ce9fea4b', '989cddba-7ab6-01ed-67aa-74accd2a2a65', '45e319b2-6a8c-fa5c-895b-1a7149b88aef', '5748decc-f629-461c-9a36-a35a221fe21f', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', '685fbe10-ab40-f065-0aec-726cc6dfd7a1', '406f98fd-9c89-1d52-5f39-e67d508c5ee5', '685fbe10-ab40-f065-0aec-726cc6dfd7a1', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97'], " << "'attachment_data':[" << "{'attachment_point':i2, 'item_id':'d6852c11-a74e-309a-0462-50533f1ef9b3', 'asset_id':'c69b29b1-8944-58ae-a7c5-2ca7b23e22fb'}," << "{'attachment_point':i10, 'item_id':'ff852c22-a74e-309a-0462-50533f1ef900', 'asset_data':b(" << expected_binary.size() << ")\""; stream.write((const char*)&expected_binary[0], expected_binary.size()); stream << "\"}" << "]" << "}]"; LLSD request; S32 count = LLSDSerialize::fromNotation( request, stream, stream.str().size()); ensure("parsed something", (count > 0)); pump_loop(request); ensure_equals("return type", mResponse.type(), LLSD::TypeArray); ensure_equals("return size", mResponse.size(), 3); ensure_equals( "uri parameter type", mResponse[0].type(), LLSD::TypeMap); ensure_equals( "uri type", mResponse[0]["uri"].type(), LLSD::TypeString); ensure_equals("uri value", mResponse[0]["uri"].asString(), uri); ensure_equals( "version parameter type", mResponse[1].type(), LLSD::TypeMap); ensure_equals( "version type", mResponse[1]["version"].type(), LLSD::TypeInteger); ensure_equals( "version value", mResponse[1]["version"].asInteger(), 1); ensure_equals("agent params type", mResponse[2].type(), LLSD::TypeMap); LLSD attachment_data = mResponse[2]["attachment_data"]; ensure("attachment data exists", attachment_data.isDefined()); ensure_equals( "attachment type", attachment_data.type(), LLSD::TypeArray); ensure_equals( "attachment type 0", attachment_data[0].type(), LLSD::TypeMap); ensure_equals( "attachment type 1", attachment_data[1].type(), LLSD::TypeMap); ensure_equals("attachment size 1", attachment_data[1].size(), 3); ensure_equals( "asset data type", attachment_data[1]["asset_data"].type(), LLSD::TypeBinary); std::vector<U8> actual_binary; actual_binary = attachment_data[1]["asset_data"].asBinary(); ensure_equals( "binary data size", actual_binary.size(), expected_binary.size()); ensure( "binary data", (0 == memcmp( &actual_binary[0], &expected_binary[0], expected_binary.size()))); } template<> template<> void rpc_server_object::test<3>() { //#if LL_WINDOWS && _MSC_VER >= 1400 // skip_fail("Fails on VS2005 due to broken LLSDSerialize::fromNotation() parser."); //#endif std::string uri("sl-am:66.150.244.180:12035/location?start=region&px=70.9247&py=254.378&pz=38.7304&lx=-0.043753&ly=-0.999042&lz=0"); LLBufferArray buffer; LLChannelDescriptors buffer_channels = buffer.nextChannel(); LLBufferStream stream(buffer_channels, &buffer); stream << "[{'uri':'" << uri << "'}, {'version':i1}, " << "{'agent_id':'3c115e51-04f4-523c-9fa6-98aff1034730', 'session_id':'2c585cec-038c-40b0-b42e-a25ebab4d132', 'circuit_code':i1075, 'start':'region', 'limited_to_estate':i1 'first_name':'Phoenix', 'last_name':'Linden', 'group_title':'', 'group_id':u00000000-0000-0000-0000-000000000000, 'position':[r70.9247,r254.378,r38.7304], 'look_at':[r-0.043753,r-0.999042,r0], 'granters':[ua2e76fcd-9360-4f6d-a924-000000000003], 'texture_data':['5e481e8a-58a6-fc34-6e61-c7a36095c07f', 'c39675f5-ca90-a304-bb31-42cdb803a132', '5c989edf-88d1-b2ac-b00b-5ed4bab8e368', '6522e74d-1660-4e7f-b601-6f48c1659a77', '7ca39b4c-bd19-4699-aff7-f93fd03d3e7b', '41c58177-5eb6-5aeb-029d-bc4093f3c130', '97b75473-8b93-9b25-2a11-035b9ae93195', '1c2d8d9b-90eb-89d4-dea8-c1ed83990614', '69ec543f-e27b-c07c-9094-a8be6300f274', 'c9f8b80f-c629-4633-04ee-c566ce9fea4b', '989cddba-7ab6-01ed-67aa-74accd2a2a65', '45e319b2-6a8c-fa5c-895b-1a7149b88aef', '5748decc-f629-461c-9a36-a35a221fe21f', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', '685fbe10-ab40-f065-0aec-726cc6dfd7a1', '406f98fd-9c89-1d52-5f39-e67d508c5ee5', '685fbe10-ab40-f065-0aec-726cc6dfd7a1', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97', 'c228d1cf-4b5d-4ba8-84f4-899a0796aa97'], " << "'attachment_data':[" << "{'attachment_point':i2, 'item_id':'d6852c11-a74e-309a-0462-50533f1ef9b3', 'asset_id':'c69b29b1-8944-58ae-a7c5-2ca7b23e22fb'},"; std::stringstream tmp_str; tmp_str << "{'task_id':ucc706f2d-0b68-68f8-11a4-f1043ff35ca0}\n{\n\tname\tObject|\n\tpermissions 0\n}"; std::vector<U8> expected_binary; expected_binary.resize(tmp_str.str().size()); memcpy( /* Flawfinder: ignore */ &expected_binary[0], tmp_str.str().c_str(), tmp_str.str().size()); LLBufferArray attachment_buffer; LLChannelDescriptors attach_channels = attachment_buffer.nextChannel(); LLBufferStream attach_stream(attach_channels, &attachment_buffer); attach_stream.write((const char*)&expected_binary[0], expected_binary.size()); attach_stream.flush(); S32 len = attachment_buffer.countAfter(attach_channels.out(), NULL); stream << "{'attachment_point':i10, 'item_id':'ff852c22-a74e-309a-0462-50533f1ef900', 'asset_data':b(" << len << ")\""; stream.flush(); buffer.takeContents(attachment_buffer); stream << "\"}]}]"; stream.flush(); LLChannelDescriptors read_channel = buffer.nextChannel(); LLBufferStream read_stream(read_channel, &buffer); LLSD request; S32 count = LLSDSerialize::fromNotation( request, read_stream, buffer.count(read_channel.in())); ensure("parsed something", (count > 0)); ensure("deserialized", request.isDefined()); // do the rpc round trip pump_loop(request); ensure_equals("return type", mResponse.type(), LLSD::TypeArray); ensure_equals("return size", mResponse.size(), 3); LLSD child = mResponse[0]; ensure("uri map exists", child.isDefined()); ensure_equals("uri parameter type", child.type(), LLSD::TypeMap); ensure("uri string exists", child.has("uri")); ensure_equals("uri type", child["uri"].type(), LLSD::TypeString); ensure_equals("uri value", child["uri"].asString(), uri); child = mResponse[1]; ensure("version map exists", child.isDefined()); ensure_equals("version param type", child.type(), LLSD::TypeMap); ensure_equals( "version type", child["version"].type(), LLSD::TypeInteger); ensure_equals("version value", child["version"].asInteger(), 1); child = mResponse[2]; ensure("agent params map exists", child.isDefined()); ensure_equals("agent params type", child.type(), LLSD::TypeMap); child = child["attachment_data"]; ensure("attachment data exists", child.isDefined()); ensure_equals("attachment type", child.type(), LLSD::TypeArray); LLSD attachment = child[0]; ensure_equals("attachment type 0", attachment.type(), LLSD::TypeMap); attachment = child[1]; ensure_equals("attachment type 1", attachment.type(), LLSD::TypeMap); ensure_equals("attachment size 1", attachment.size(), 3); ensure_equals( "asset data type", attachment["asset_data"].type(), LLSD::TypeBinary); std::vector<U8> actual_binary = attachment["asset_data"].asBinary(); ensure_equals( "binary data size", actual_binary.size(), expected_binary.size()); ensure( "binary data", (0 == memcmp( &actual_binary[0], &expected_binary[0], expected_binary.size()))); } template<> template<> void rpc_server_object::test<4>() { std::string message("parcel '' is naughty."); std::stringstream str; str << "{'message':'" << LLSDNotationFormatter::escapeString(message) << "'}"; LLSD request; S32 count = LLSDSerialize::fromNotation( request, str, str.str().size()); ensure_equals("parse count", count, 2); ensure_equals("request type", request.type(), LLSD::TypeMap); pump_loop(request); ensure("valid response", mResponse.isDefined()); ensure_equals("response type", mResponse.type(), LLSD::TypeMap); std::string actual = mResponse["message"].asString(); ensure_equals("message contents", actual, message); } template<> template<> void rpc_server_object::test<5>() { // test some of the problem cases with llsdrpc over xmlrpc - // for example: // * arrays are auto-converted to parameter lists, thus, this // becomes one parameter. // * undef goes over the wire as false (this might not be a good idea) // * uuids are converted to string. std::string val = "[{'failures':!,'successfuls':[u3c115e51-04f4-523c-9fa6-98aff1034730]}]"; std::istringstream istr; istr.str(val); LLSD sd; LLSDSerialize::fromNotation(sd, istr, val.size()); pump_loop(sd); ensure("valid response", mResponse.isDefined()); ensure_equals("parsed type", mResponse.type(), LLSD::TypeMap); ensure_equals("parsed size", mResponse.size(), 2); LLSD failures = mResponse["failures"]; ensure_equals("no failures.", failures.asBoolean(), false); LLSD success = mResponse["successfuls"]; ensure_equals("success type", success.type(), LLSD::TypeArray); ensure_equals("success size", success.size(), 1); ensure_equals( "success instance type", success[0].type(), LLSD::TypeString); } /* template<> template<> void rpc_server_object::test<5>() { std::string expected("\xf3");//\xffsomething"); LLSD* request = LLSD::createString(expected); pump_loop(request); std::string actual; mResponse->getString(actual); if(actual != expected) { //llwarns << "iteration " << i << llendl; std::ostringstream e_str; std::string::iterator iter = expected.begin(); std::string::iterator end = expected.end(); for(; iter != end; ++iter) { e_str << (S32)((U8)(*iter)) << " "; } e_str << std::endl; llsd_serialize_string(e_str, expected); llwarns << "expected size: " << expected.size() << llendl; llwarns << "expected: " << e_str.str() << llendl; std::ostringstream a_str; iter = actual.begin(); end = actual.end(); for(; iter != end; ++iter) { a_str << (S32)((U8)(*iter)) << " "; } a_str << std::endl; llsd_serialize_string(a_str, actual); llwarns << "actual size: " << actual.size() << llendl; llwarns << "actual: " << a_str.str() << llendl; } ensure_equals("binary string request response", actual, expected); delete request; } template<> template<> void rpc_server_object::test<5>() { } */ } /* 'asset_data':b(12100)"{'task_id':ucc706f2d-0b68-68f8-11a4-f1043ff35ca0}\n{\n\tname\tObject|\n\tpermissions 0\n\t{\n\t\tbase_mask\t7fffffff\n\t\towner_mask\t7fffffff\n\t\tgroup_mask\t00000000\n\t\teveryone_mask\t00000000\n\t\tnext_owner_mask\t7fffffff\n\t\tcreator_id\t13fd9595-a47b-4d64-a5fb-6da645f038e0\n\t\towner_id\t3c115e51-04f4-523c-9fa6-98aff1034730\n\t\tlast_owner_id\t3c115e51-04f4-523c-9fa6-98aff1034730\n\t\tgroup_id\t00000000-0000-0000-0000-000000000000\n\t}\n\tlocal_id\t217444921\n\ttotal_crc\t323\n\ttype\t2\n\ttask_valid\t2\n\ttravel_access\t13\n\tdisplayopts\t2\n\tdisplaytype\tv\n\tpos\t-0.368634403\t0.00781063363\t-0.569040775\n\toldpos\t150.117996\t25.8658009\t8.19664001\n\trotation\t-0.06293071806430816650390625\t-0.6995697021484375\t-0.7002241611480712890625\t0.1277817934751510620117188\n\tchildpos\t-0.00499999989\t-0.0359999985\t0.307999998\n\tchildrot\t-0.515492737293243408203125\t-0.46601200103759765625\t0.529055416584014892578125\t0.4870323240756988525390625\n\tscale\t0.074629\t0.289956\t0.01\n\tsit_offset\t0\t0\t0\n\tcamera_eye_offset\t0\t0\t0\n\tcamera_at_offset\t0\t0\t0\n\tsit_quat\t0\t0\t0\t1\n\tsit_hint\t0\n\tstate\t160\n\tmaterial\t3\n\tsoundid\t00000000-0000-0000-0000-000000000000\n\tsoundgain\t0\n\tsoundradius\t0\n\tsoundflags\t0\n\ttextcolor\t0 0 0 1\n\tselected\t0\n\tselector\t00000000-0000-0000-0000-000000000000\n\tusephysics\t0\n\trotate_x\t1\n\trotate_y\t1\n\trotate_z\t1\n\tphantom\t0\n\tremote_script_access_pin\t0\n\tvolume_detect\t0\n\tblock_grabs\t0\n\tdie_at_edge\t0\n\treturn_at_edge\t0\n\ttemporary\t0\n\tsandbox\t0\n\tsandboxhome\t0\t0\t0\n\tshape 0\n\t{\n\t\tpath 0\n\t\t{\n\t\t\tcurve\t16\n\t\t\tbegin\t0\n\t\t\tend\t1\n\t\t\tscale_x\t1\n\t\t\tscale_y\t1\n\t\t\tshear_x\t0\n\t\t\tshear_y\t0\n\t\t\ttwist\t0\n\t\t\ttwist_begin\t0\n\t\t\tradius_offset\t0\n\t\t\ttaper_x\t0\n\t\t\ttaper_y\t0\n\t\t\trevolutions\t1\n\t\t\tskew\t0\n\t\t}\n\t\tprofile 0\n\t\t{\n\t\t\tcurve\t1\n\t\t\tbegin\t0\n\t\t\tend\t1\n\t\t\thollow\t0\n\t\t}\n\t}\n\tfaces\t6\n\t{\n\t\timageid\tddde1ffc-678b-3cda-1748-513086bdf01b\n\t\tcolors\t0.937255 0.796078 0.494118 1\n\t\tscales\t1\n\t\tscalet\t1\n\t\toffsets\t0\n\t\toffsett\t0\n\t\timagerot\t0\n\t\tbump\t0\n\t\tfullbright\t0\n\t\tmedia_flags\t0\n\t}\n\t{\n\t\timageid\tf54a0c32-3cd1-d49a-5b4f-7b792bebc204\n\t\tcolors\t0.937255 0.796078 0.494118 1\n\t\tscales\t1\n\t\tscalet\t1\n\t\toffsets\t0\n\t\toffsett\t0\n\t\timagerot\t0\n\t\tbump\t0\n\t\tfullbright\t0\n\t\tmedia_flags\t0\n\t}\n\t{\n\t\timageid\tf54a0c32-3cd1-d49a-5b4f-7b792bebc204\n\t\tcolors\t0.937255 0.796078 0.494118 1\n\t\tscales\t1\n\t\tscalet\t1\n\t\toffsets\t0\n\t\toffsett\t0\n\t\timagerot\t0\n\t\tbump\t0\n\t\tfullbright\t0\n\t\tmedia_flags\t0\n\t}\n\t{\n\t\timageid\tf54a0c32-3cd1-d49a-5b4f-7b792bebc204\n\t\tcolors\t0.937255 0.796078 0.494118 1\n\t\tscales\t1\n\t\tscalet\t1\n\t\toffsets\t0\n\t\toffsett\t0\n\t\timagerot\t0\n\t\tbump\t0\n\t\tfullbright\t0\n\t\tmedia_flags\t0\n\t}\n\t{\n\t\timageid\tf54a0c32-3cd1-d49a-5b4f-7b792bebc204\n\t\tcolors\t0.937255 0.796078 0.494118 1\n\t\tscales\t1\n\t\tscalet\t1\n\t\toffsets\t0\n\t\toffsett\t0\n\t\timagerot\t0\n\t\tbump\t0\n\t\tfullbright\t0\n\t\tmedia_flags\t0\n\t}\n\t{\n\t\timageid\tddde1ffc-678b-3cda-1748-513086bdf01b\n\t\tcolors\t0.937255 0.796078 0.494118 1\n\t\tscales\t1\n\t\tscalet\t-1\n\t\toffsets\t0\n\t\toffsett\t0\n\t\timagerot\t0\n\t\tbump\t0\n\t\tfullbright\t0\n\t\tmedia_flags\t0\n\t}\n\tps_next_crc\t1\n\tgpw_bias\t1\n\tip\t0\n\tcomplete\tTRUE\n\tdelay\t50000\n\tnextstart\t0\n\tbirthtime\t1061088050622956\n\treztime\t1094866329019785\n\tparceltime\t1133568981980596\n\ttax_rate\t1.00084\n\tscratchpad\t0\n\t{\n\t\n\t}\n\tsale_info\t0\n\t{\n\t\tsale_type\tnot\n\t\tsale_price\t10\n\t}\n\tcorrect_family_id\t00000000-0000-0000-0000-000000000000\n\thas_rezzed\t0\n\tpre_link_base_mask\t7fffffff\n\tlinked \tchild\n\tdefault_pay_price\t-2\t1\t5\t10\t20\n}\n{'task_id':u61fa7364-e151-0597-774c-523312dae31b}\n{\n\tname\tObject|\n\tpermissions 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