diff options
author | Brad Payne (Vir Linden) <vir@lindenlab.com> | 2012-12-03 14:35:45 -0500 |
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committer | Brad Payne (Vir Linden) <vir@lindenlab.com> | 2012-12-03 14:35:45 -0500 |
commit | 3be13024c51a714aa94ac55c2a972d3f523024f9 (patch) | |
tree | b9c5c477da9ca20a9cf4e202bad84a5105a33a4a /indra/llcorehttp/tests | |
parent | 5c245e941ace3f52dfa3539c473e2c02f207d8a3 (diff) | |
parent | f0a11b1590a8d52281683275f836ac347ccc510f (diff) |
merge
Diffstat (limited to 'indra/llcorehttp/tests')
-rw-r--r-- | indra/llcorehttp/tests/llcorehttp_test.cpp | 175 | ||||
-rw-r--r-- | indra/llcorehttp/tests/llcorehttp_test.h | 64 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_allocator.cpp | 184 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_allocator.h | 47 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_bufferarray.hpp | 432 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_bufferstream.hpp | 304 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_httpheaders.hpp | 108 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_httpoperation.hpp | 125 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_httprequest.hpp | 2670 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_httprequestqueue.hpp | 186 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_httpstatus.hpp | 265 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_llcorehttp_peer.py | 200 | ||||
-rw-r--r-- | indra/llcorehttp/tests/test_refcounted.hpp | 156 | ||||
-rw-r--r-- | indra/llcorehttp/tests/testrunner.py | 265 |
14 files changed, 5181 insertions, 0 deletions
diff --git a/indra/llcorehttp/tests/llcorehttp_test.cpp b/indra/llcorehttp/tests/llcorehttp_test.cpp new file mode 100644 index 0000000000..e863ddd13f --- /dev/null +++ b/indra/llcorehttp/tests/llcorehttp_test.cpp @@ -0,0 +1,175 @@ +/** + * @file llcorehttp_test + * @brief Main test runner + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + +#include "llcorehttp_test.h" + +#include <iostream> +#include <sstream> + +// These are not the right way in viewer for some reason: +// #include <tut/tut.hpp> +// #include <tut/tut_reporter.hpp> +// This works: +#include "../test/lltut.h" + +// Pull in each of the test sets +#include "test_bufferarray.hpp" +#include "test_bufferstream.hpp" +#include "test_httpstatus.hpp" +#include "test_refcounted.hpp" +#include "test_httpoperation.hpp" +#include "test_httprequest.hpp" +#include "test_httpheaders.hpp" +#include "test_httprequestqueue.hpp" + +#include "llproxy.h" + +unsigned long ssl_thread_id_callback(void); +void ssl_locking_callback(int mode, int type, const char * file, int line); + +#if 0 // lltut provides main and runner + +namespace tut +{ + test_runner_singleton runner; +} + +int main() +{ + curl_global_init(CURL_GLOBAL_ALL); + + // *FIXME: Need threaded/SSL curl setup here. + + tut::reporter reporter; + + tut::runner.get().set_callback(&reporter); + tut::runner.get().run_tests(); + return !reporter.all_ok(); + + curl_global_cleanup(); +} + +#endif // 0 + +int ssl_mutex_count(0); +LLCoreInt::HttpMutex ** ssl_mutex_list = NULL; + +void init_curl() +{ + curl_global_init(CURL_GLOBAL_ALL); + + ssl_mutex_count = CRYPTO_num_locks(); + if (ssl_mutex_count > 0) + { + ssl_mutex_list = new LLCoreInt::HttpMutex * [ssl_mutex_count]; + + for (int i(0); i < ssl_mutex_count; ++i) + { + ssl_mutex_list[i] = new LLCoreInt::HttpMutex; + } + + CRYPTO_set_locking_callback(ssl_locking_callback); + CRYPTO_set_id_callback(ssl_thread_id_callback); + } + + LLProxy::getInstance(); +} + + +void term_curl() +{ + LLProxy::cleanupClass(); + + CRYPTO_set_locking_callback(NULL); + for (int i(0); i < ssl_mutex_count; ++i) + { + delete ssl_mutex_list[i]; + } + delete [] ssl_mutex_list; +} + + +unsigned long ssl_thread_id_callback(void) +{ +#if defined(WIN32) + return (unsigned long) GetCurrentThread(); +#else + return (unsigned long) pthread_self(); +#endif +} + + +void ssl_locking_callback(int mode, int type, const char * /* file */, int /* line */) +{ + if (type >= 0 && type < ssl_mutex_count) + { + if (mode & CRYPTO_LOCK) + { + ssl_mutex_list[type]->lock(); + } + else + { + ssl_mutex_list[type]->unlock(); + } + } +} + + +std::string get_base_url() +{ + const char * env(getenv("LL_TEST_PORT")); + + if (! env) + { + std::cerr << "LL_TEST_PORT environment variable missing." << std::endl; + std::cerr << "Test expects to run in test_llcorehttp_peer.py script." << std::endl; + tut::ensure("LL_TEST_PORT set in environment", NULL != env); + } + + int port(atoi(env)); + std::ostringstream out; + out << "http://localhost:" << port << "/"; + return out.str(); +} + + +void stop_thread(LLCore::HttpRequest * req) +{ + if (req) + { + req->requestStopThread(NULL); + + int count = 0; + int limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + req->update(1000); + usleep(100000); + } + } +} + + diff --git a/indra/llcorehttp/tests/llcorehttp_test.h b/indra/llcorehttp/tests/llcorehttp_test.h new file mode 100644 index 0000000000..a9567435ce --- /dev/null +++ b/indra/llcorehttp/tests/llcorehttp_test.h @@ -0,0 +1,64 @@ +/** + * @file llcorehttp_test.h + * @brief Main test runner + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + + +#ifndef _LLCOREHTTP_TEST_H_ +#define _LLCOREHTTP_TEST_H_ + +#include "linden_common.h" // Modifies curl interfaces + +#include <curl/curl.h> +#include <openssl/crypto.h> +#include <string> + +#include "httprequest.h" + +// Initialization and cleanup for libcurl. Mainly provides +// a mutex callback for SSL and a thread ID hash for libcurl. +// If you don't use these (or equivalent) and do use libcurl, +// you'll see stalls and other anomalies when performing curl +// operations. +extern void init_curl(); +extern void term_curl(); +extern std::string get_base_url(); +extern void stop_thread(LLCore::HttpRequest * req); + +class ScopedCurlInit +{ +public: + ScopedCurlInit() + { + init_curl(); + } + + ~ScopedCurlInit() + { + term_curl(); + } +}; + + +#endif // _LLCOREHTTP_TEST_H_ diff --git a/indra/llcorehttp/tests/test_allocator.cpp b/indra/llcorehttp/tests/test_allocator.cpp new file mode 100644 index 0000000000..ea12dc58eb --- /dev/null +++ b/indra/llcorehttp/tests/test_allocator.cpp @@ -0,0 +1,184 @@ +/** + * @file test_allocator.cpp + * @brief quick and dirty allocator for tracking memory allocations + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + +#include "test_allocator.h" + +#if __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ >= 1050 +#include <libkern/OSAtomic.h> +#elif defined(_MSC_VER) +#include <Windows.h> +#elif (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__ ) > 40100 +// atomic extensions are built into GCC on posix platforms +#endif + +#include <cassert> +#include <cstdlib> +#include <cstring> +#include <vector> +#include <iostream> +#include <new> + +#include <boost/thread.hpp> + + +#if defined(WIN32) +#define THROW_BAD_ALLOC() _THROW1(std::bad_alloc) +#define THROW_NOTHING() _THROW0() +#else +#define THROW_BAD_ALLOC() throw(std::bad_alloc) +#define THROW_NOTHING() throw() +#endif + + +struct BlockHeader +{ + struct Block * next; + std::size_t size; + bool in_use; +}; + +struct Block +{ + BlockHeader hdr; + unsigned char data[1]; +}; + +#define TRACE_MSG(val) std::cout << __FUNCTION__ << "(" << val << ") [" << __FILE__ << ":" << __LINE__ << "]" << std::endl; + +static unsigned char MemBuf[ 4096 * 1024 ]; +Block * pNext = static_cast<Block *>(static_cast<void *>(MemBuf)); +volatile std::size_t MemTotal = 0; + +// cross-platform compare and swap operation +static bool CAS(void * volatile * ptr, void * expected, void * new_value) +{ +#if __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ >= 1050 + return OSAtomicCompareAndSwapPtr( expected, new_value, ptr ); +#elif defined(_MSC_VER) + return expected == InterlockedCompareExchangePointer( ptr, new_value, expected ); +#elif (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__ ) > 40100 + return __sync_bool_compare_and_swap( ptr, expected, new_value ); +#endif +} + +static void * GetMem(std::size_t size) +{ + // TRACE_MSG(size); + volatile Block * pBlock = NULL; + volatile Block * pNewNext = NULL; + + // do a lock-free update of the global next pointer + do + { + pBlock = pNext; + pNewNext = (volatile Block *)(pBlock->data + size); + + } while(! CAS((void * volatile *) &pNext, (void *) pBlock, (void *) pNewNext)); + + // if we get here, we safely carved out a block of memory in the + // memory pool... + + // initialize our block + pBlock->hdr.next = (Block *)(pBlock->data + size); + pBlock->hdr.size = size; + pBlock->hdr.in_use = true; + memset((void *) pBlock->data, 0, pBlock->hdr.size); + + // do a lock-free update of the global memory total + volatile size_t total = 0; + volatile size_t new_total = 0; + do + { + total = MemTotal; + new_total = total + size; + + } while (! CAS((void * volatile *) &MemTotal, (void *) total, (void *) new_total)); + + return (void *) pBlock->data; +} + + +static void FreeMem(void * p) +{ + // get the pointer to the block record + Block * pBlock = (Block *)((unsigned char *) p - sizeof(BlockHeader)); + + // TRACE_MSG(pBlock->hdr.size); + bool * cur_in_use = &(pBlock->hdr.in_use); + volatile bool in_use = false; + bool new_in_use = false; + do + { + in_use = pBlock->hdr.in_use; + } while (! CAS((void * volatile *) cur_in_use, (void *) in_use, (void *) new_in_use)); + + // do a lock-free update of the global memory total + volatile size_t total = 0; + volatile size_t new_total = 0; + do + { + total = MemTotal; + new_total = total - pBlock->hdr.size; + } while (! CAS((void * volatile *)&MemTotal, (void *) total, (void *) new_total)); +} + + +std::size_t GetMemTotal() +{ + return MemTotal; +} + + +void * operator new(std::size_t size) THROW_BAD_ALLOC() +{ + return GetMem( size ); +} + + +void * operator new[](std::size_t size) THROW_BAD_ALLOC() +{ + return GetMem( size ); +} + + +void operator delete(void * p) THROW_NOTHING() +{ + if (p) + { + FreeMem( p ); + } +} + + +void operator delete[](void * p) THROW_NOTHING() +{ + if (p) + { + FreeMem( p ); + } +} + + diff --git a/indra/llcorehttp/tests/test_allocator.h b/indra/llcorehttp/tests/test_allocator.h new file mode 100644 index 0000000000..3572bbc5c5 --- /dev/null +++ b/indra/llcorehttp/tests/test_allocator.h @@ -0,0 +1,47 @@ +/** + * @file test_allocator.h + * @brief quick and dirty allocator for tracking memory allocations + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + +#ifndef TEST_ALLOCATOR_H +#define TEST_ALLOCATOR_H + +#include <cstdlib> +#include <new> + +size_t GetMemTotal(); +#if defined(WIN32) +void * operator new(std::size_t size) _THROW1(std::bad_alloc); +void * operator new[](std::size_t size) _THROW1(std::bad_alloc); +void operator delete(void * p) _THROW0(); +void operator delete[](void * p) _THROW0(); +#else +void * operator new(std::size_t size) throw (std::bad_alloc); +void * operator new[](std::size_t size) throw (std::bad_alloc); +void operator delete(void * p) throw (); +void operator delete[](void * p) throw (); +#endif + +#endif // TEST_ALLOCATOR_H + diff --git a/indra/llcorehttp/tests/test_bufferarray.hpp b/indra/llcorehttp/tests/test_bufferarray.hpp new file mode 100644 index 0000000000..8a2a64d970 --- /dev/null +++ b/indra/llcorehttp/tests/test_bufferarray.hpp @@ -0,0 +1,432 @@ +/** + * @file test_bufferarray.hpp + * @brief unit tests for the LLCore::BufferArray class + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCORE_BUFFER_ARRAY_H_ +#define TEST_LLCORE_BUFFER_ARRAY_H_ + +#include "bufferarray.h" + +#include <iostream> + +#include "test_allocator.h" + + +using namespace LLCore; + + + +namespace tut +{ + +struct BufferArrayTestData +{ + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; +}; + +typedef test_group<BufferArrayTestData> BufferArrayTestGroupType; +typedef BufferArrayTestGroupType::object BufferArrayTestObjectType; +BufferArrayTestGroupType BufferArrayTestGroup("BufferArray Tests"); + +template <> template <> +void BufferArrayTestObjectType::test<1>() +{ + set_test_name("BufferArray construction"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + ensure("One ref on construction of BufferArray", ba->getRefCount() == 1); + ensure("Memory being used", mMemTotal < GetMemTotal()); + ensure("Nothing in BA", 0 == ba->size()); + + // Try to read + char buffer[20]; + size_t read_len(ba->read(0, buffer, sizeof(buffer))); + ensure("Read returns empty", 0 == read_len); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void BufferArrayTestObjectType::test<2>() +{ + set_test_name("BufferArray single write"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + char buffer[256]; + + size_t len = ba->write(0, str1, strlen(str1)); + ensure("Wrote length correct", strlen(str1) == len); + ensure("Recorded size correct", strlen(str1) == ba->size()); + + // read some data back + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(2, buffer, 2); + ensure("Read length correct", 2 == len); + ensure("Read content correct", 'c' == buffer[0] && 'd' == buffer[1]); + ensure("Read didn't overwrite", 'X' == buffer[2]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + + +template <> template <> +void BufferArrayTestObjectType::test<3>() +{ + set_test_name("BufferArray multiple writes"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + size_t str1_len(strlen(str1)); + char buffer[256]; + + size_t len = ba->write(0, str1, str1_len); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", str1_len == ba->size()); + + // again... + len = ba->write(str1_len, str1, strlen(str1)); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", (2 * str1_len) == ba->size()); + + // read some data back + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(8, buffer, 4); + ensure("Read length correct", 4 == len); + ensure("Read content correct", 'i' == buffer[0] && 'j' == buffer[1]); + ensure("Read content correct", 'a' == buffer[2] && 'b' == buffer[3]); + ensure("Read didn't overwrite", 'X' == buffer[4]); + + // Read whole thing + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(0, buffer, sizeof(buffer)); + ensure("Read length correct", (2 * str1_len) == len); + ensure("Read content correct (3)", 0 == strncmp(buffer, str1, str1_len)); + ensure("Read content correct (4)", 0 == strncmp(&buffer[str1_len], str1, str1_len)); + ensure("Read didn't overwrite (5)", 'X' == buffer[2 * str1_len]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void BufferArrayTestObjectType::test<4>() +{ + set_test_name("BufferArray overwriting"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + size_t str1_len(strlen(str1)); + char str2[] = "ABCDEFGHIJ"; + char buffer[256]; + + size_t len = ba->write(0, str1, str1_len); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", str1_len == ba->size()); + + // again... + len = ba->write(str1_len, str1, strlen(str1)); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", (2 * str1_len) == ba->size()); + + // reposition and overwrite + len = ba->write(8, str2, 4); + ensure("Overwrite length correct", 4 == len); + + // Leave position and read verifying content (stale really from seek() days) + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(12, buffer, 4); + ensure("Read length correct", 4 == len); + ensure("Read content correct", 'c' == buffer[0] && 'd' == buffer[1]); + ensure("Read content correct.2", 'e' == buffer[2] && 'f' == buffer[3]); + ensure("Read didn't overwrite", 'X' == buffer[4]); + + // reposition and check + len = ba->read(6, buffer, 8); + ensure("Read length correct.2", 8 == len); + ensure("Read content correct.3", 'g' == buffer[0] && 'h' == buffer[1]); + ensure("Read content correct.4", 'A' == buffer[2] && 'B' == buffer[3]); + ensure("Read content correct.5", 'C' == buffer[4] && 'D' == buffer[5]); + ensure("Read content correct.6", 'c' == buffer[6] && 'd' == buffer[7]); + ensure("Read didn't overwrite.7", 'X' == buffer[8]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void BufferArrayTestObjectType::test<5>() +{ + set_test_name("BufferArray multiple writes - sequential reads"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + size_t str1_len(strlen(str1)); + char buffer[256]; + + size_t len = ba->write(0, str1, str1_len); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", str1_len == ba->size()); + + // again... + len = ba->write(str1_len, str1, str1_len); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", (2 * str1_len) == ba->size()); + + // read some data back + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(8, buffer, 4); + ensure("Read length correct", 4 == len); + ensure("Read content correct", 'i' == buffer[0] && 'j' == buffer[1]); + ensure("Read content correct.2", 'a' == buffer[2] && 'b' == buffer[3]); + ensure("Read didn't overwrite", 'X' == buffer[4]); + + // Read some more without repositioning + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(12, buffer, sizeof(buffer)); + ensure("Read length correct", (str1_len - 2) == len); + ensure("Read content correct.3", 0 == strncmp(buffer, str1+2, str1_len-2)); + ensure("Read didn't overwrite.2", 'X' == buffer[str1_len-1]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void BufferArrayTestObjectType::test<6>() +{ + set_test_name("BufferArray overwrite spanning blocks and appending"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + size_t str1_len(strlen(str1)); + char str2[] = "ABCDEFGHIJKLMNOPQRST"; + size_t str2_len(strlen(str2)); + char buffer[256]; + + size_t len = ba->write(0, str1, str1_len); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", str1_len == ba->size()); + + // again... + len = ba->write(str1_len, str1, strlen(str1)); + ensure("Wrote length correct", str1_len == len); + ensure("Recorded size correct", (2 * str1_len) == ba->size()); + + // reposition and overwrite + len = ba->write(8, str2, str2_len); + ensure("Overwrite length correct", str2_len == len); + + // Leave position and read verifying content + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(8 + str2_len, buffer, 0); + ensure("Read length correct", 0 == len); + ensure("Read didn't overwrite", 'X' == buffer[0]); + + // reposition and check + len = ba->read(0, buffer, sizeof(buffer)); + ensure("Read length correct.2", (str1_len + str2_len - 2) == len); + ensure("Read content correct", 0 == strncmp(buffer, str1, str1_len-2)); + ensure("Read content correct.2", 0 == strncmp(buffer+str1_len-2, str2, str2_len)); + ensure("Read didn't overwrite.2", 'X' == buffer[str1_len + str2_len - 2]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure("All memory released", mMemTotal == GetMemTotal()); +} + +template <> template <> +void BufferArrayTestObjectType::test<7>() +{ + set_test_name("BufferArray overwrite spanning blocks and sequential writes"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + size_t str1_len(strlen(str1)); + char str2[] = "ABCDEFGHIJKLMNOPQRST"; + size_t str2_len(strlen(str2)); + char buffer[256]; + + // 2x str1 + size_t len = ba->write(0, str1, str1_len); + len = ba->write(str1_len, str1, str1_len); + + // reposition and overwrite + len = ba->write(6, str2, 2); + ensure("Overwrite length correct", 2 == len); + + len = ba->write(8, str2, 2); + ensure("Overwrite length correct.2", 2 == len); + + len = ba->write(10, str2, 2); + ensure("Overwrite length correct.3", 2 == len); + + // append some data + len = ba->append(str2, str2_len); + ensure("Append length correct", str2_len == len); + + // append some more + void * out_buf(ba->appendBufferAlloc(str1_len)); + memcpy(out_buf, str1, str1_len); + + // And some final writes + len = ba->write(3 * str1_len + str2_len, str2, 2); + ensure("Write length correct.2", 2 == len); + + // Check contents + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(0, buffer, sizeof(buffer)); + ensure("Final buffer length correct", (3 * str1_len + str2_len + 2) == len); + ensure("Read content correct", 0 == strncmp(buffer, str1, 6)); + ensure("Read content correct.2", 0 == strncmp(buffer + 6, str2, 2)); + ensure("Read content correct.3", 0 == strncmp(buffer + 8, str2, 2)); + ensure("Read content correct.4", 0 == strncmp(buffer + 10, str2, 2)); + ensure("Read content correct.5", 0 == strncmp(buffer + str1_len + 2, str1 + 2, str1_len - 2)); + ensure("Read content correct.6", 0 == strncmp(buffer + str1_len + str1_len, str2, str2_len)); + ensure("Read content correct.7", 0 == strncmp(buffer + str1_len + str1_len + str2_len, str1, str1_len)); + ensure("Read content correct.8", 0 == strncmp(buffer + str1_len + str1_len + str2_len + str1_len, str2, 2)); + ensure("Read didn't overwrite", 'X' == buffer[str1_len + str1_len + str2_len + str1_len + 2]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure("All memory released", mMemTotal == GetMemTotal()); +} + +template <> template <> +void BufferArrayTestObjectType::test<8>() +{ + set_test_name("BufferArray zero-length appendBufferAlloc"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArray * ba = new BufferArray(); + + // write some data to the buffer + char str1[] = "abcdefghij"; + size_t str1_len(strlen(str1)); + char str2[] = "ABCDEFGHIJKLMNOPQRST"; + size_t str2_len(strlen(str2)); + char buffer[256]; + + // 2x str1 + size_t len = ba->write(0, str1, str1_len); + len = ba->write(str1_len, str1, str1_len); + + // zero-length allocate (we allow this with a valid pointer returned) + void * out_buf(ba->appendBufferAlloc(0)); + ensure("Buffer from zero-length appendBufferAlloc non-NULL", NULL != out_buf); + + // Do it again + void * out_buf2(ba->appendBufferAlloc(0)); + ensure("Buffer from zero-length appendBufferAlloc non-NULL.2", NULL != out_buf2); + ensure("Two zero-length appendBufferAlloc buffers distinct", out_buf != out_buf2); + + // And some final writes + len = ba->write(2 * str1_len, str2, str2_len); + + // Check contents + memset(buffer, 'X', sizeof(buffer)); + len = ba->read(0, buffer, sizeof(buffer)); + ensure("Final buffer length correct", (2 * str1_len + str2_len) == len); + ensure("Read content correct.1", 0 == strncmp(buffer, str1, str1_len)); + ensure("Read content correct.2", 0 == strncmp(buffer + str1_len, str1, str1_len)); + ensure("Read content correct.3", 0 == strncmp(buffer + str1_len + str1_len, str2, str2_len)); + ensure("Read didn't overwrite", 'X' == buffer[str1_len + str1_len + str2_len]); + + // release the implicit reference, causing the object to be released + ba->release(); + + // make sure we didn't leak any memory + ensure("All memory released", mMemTotal == GetMemTotal()); +} + +} // end namespace tut + + +#endif // TEST_LLCORE_BUFFER_ARRAY_H_ diff --git a/indra/llcorehttp/tests/test_bufferstream.hpp b/indra/llcorehttp/tests/test_bufferstream.hpp new file mode 100644 index 0000000000..831c901b9d --- /dev/null +++ b/indra/llcorehttp/tests/test_bufferstream.hpp @@ -0,0 +1,304 @@ +/** + * @file test_bufferstream.hpp + * @brief unit tests for the LLCore::BufferArrayStreamBuf/BufferArrayStream classes + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCORE_BUFFER_STREAM_H_ +#define TEST_LLCORE_BUFFER_STREAM_H_ + +#include "bufferstream.h" + +#include <iostream> + +#include "test_allocator.h" +#include "llsd.h" +#include "llsdserialize.h" + + +using namespace LLCore; + + +namespace tut +{ + +struct BufferStreamTestData +{ + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; +}; + +typedef test_group<BufferStreamTestData> BufferStreamTestGroupType; +typedef BufferStreamTestGroupType::object BufferStreamTestObjectType; +BufferStreamTestGroupType BufferStreamTestGroup("BufferStream Tests"); +typedef BufferArrayStreamBuf::traits_type tst_traits_t; + + +template <> template <> +void BufferStreamTestObjectType::test<1>() +{ + set_test_name("BufferArrayStreamBuf construction with NULL BufferArray"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArrayStreamBuf * bsb = new BufferArrayStreamBuf(NULL); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // Not much will work with a NULL + ensure("underflow() on NULL fails", tst_traits_t::eof() == bsb->underflow()); + ensure("uflow() on NULL fails", tst_traits_t::eof() == bsb->uflow()); + ensure("pbackfail() on NULL fails", tst_traits_t::eof() == bsb->pbackfail('c')); + ensure("showmanyc() on NULL fails", bsb->showmanyc() == -1); + ensure("overflow() on NULL fails", tst_traits_t::eof() == bsb->overflow('c')); + ensure("xsputn() on NULL fails", bsb->xsputn("blah", 4) == 0); + ensure("seekoff() on NULL fails", bsb->seekoff(0, std::ios_base::beg, std::ios_base::in) == std::streampos(-1)); + + // release the implicit reference, causing the object to be released + delete bsb; + bsb = NULL; + + // make sure we didn't leak any memory + ensure("Allocated memory returned", mMemTotal == GetMemTotal()); +} + + +template <> template <> +void BufferStreamTestObjectType::test<2>() +{ + set_test_name("BufferArrayStream construction with NULL BufferArray"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + BufferArrayStream * bas = new BufferArrayStream(NULL); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // Not much will work with a NULL here + ensure("eof() is false on NULL", ! bas->eof()); + ensure("fail() is false on NULL", ! bas->fail()); + ensure("good() on NULL", bas->good()); + + // release the implicit reference, causing the object to be released + delete bas; + bas = NULL; + + // make sure we didn't leak any memory + ensure("Allocated memory returned", mMemTotal == GetMemTotal()); +} + + +template <> template <> +void BufferStreamTestObjectType::test<3>() +{ + set_test_name("BufferArrayStreamBuf construction with empty BufferArray"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted BufferArray with implicit reference + BufferArray * ba = new BufferArray; + BufferArrayStreamBuf * bsb = new BufferArrayStreamBuf(ba); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // I can release my ref on the BA + ba->release(); + ba = NULL; + + // release the implicit reference, causing the object to be released + delete bsb; + bsb = NULL; + + // make sure we didn't leak any memory + ensure("Allocated memory returned", mMemTotal == GetMemTotal()); +} + + +template <> template <> +void BufferStreamTestObjectType::test<4>() +{ + set_test_name("BufferArrayStream construction with empty BufferArray"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted BufferArray with implicit reference + BufferArray * ba = new BufferArray; + + { + // create a new ref counted object with an implicit reference + BufferArrayStream bas(ba); + ensure("Memory being used", mMemTotal < GetMemTotal()); + } + + // release the implicit reference, causing the object to be released + ba->release(); + ba = NULL; + + // make sure we didn't leak any memory + ensure("Allocated memory returned", mMemTotal == GetMemTotal()); +} + + +template <> template <> +void BufferStreamTestObjectType::test<5>() +{ + set_test_name("BufferArrayStreamBuf construction with real BufferArray"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted BufferArray with implicit reference + BufferArray * ba = new BufferArray; + const char * content("This is a string. A fragment."); + const size_t c_len(strlen(content)); + ba->append(content, c_len); + + // Creat an adapter for the BufferArray + BufferArrayStreamBuf * bsb = new BufferArrayStreamBuf(ba); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // I can release my ref on the BA + ba->release(); + ba = NULL; + + // Various static state + ensure("underflow() returns 'T'", bsb->underflow() == 'T'); + ensure("underflow() returns 'T' again", bsb->underflow() == 'T'); + ensure("uflow() returns 'T'", bsb->uflow() == 'T'); + ensure("uflow() returns 'h'", bsb->uflow() == 'h'); + ensure("pbackfail('i') fails", tst_traits_t::eof() == bsb->pbackfail('i')); + ensure("pbackfail('T') fails", tst_traits_t::eof() == bsb->pbackfail('T')); + ensure("pbackfail('h') succeeds", bsb->pbackfail('h') == 'h'); + ensure("showmanyc() is everything but the 'T'", bsb->showmanyc() == (c_len - 1)); + ensure("overflow() appends", bsb->overflow('c') == 'c'); + ensure("showmanyc() reflects append", bsb->showmanyc() == (c_len - 1 + 1)); + ensure("xsputn() appends some more", bsb->xsputn("bla!", 4) == 4); + ensure("showmanyc() reflects 2nd append", bsb->showmanyc() == (c_len - 1 + 5)); + ensure("seekoff() succeeds", bsb->seekoff(0, std::ios_base::beg, std::ios_base::in) == std::streampos(0)); + ensure("seekoff() succeeds 2", bsb->seekoff(4, std::ios_base::cur, std::ios_base::in) == std::streampos(4)); + ensure("showmanyc() picks up seekoff", bsb->showmanyc() == (c_len + 5 - 4)); + ensure("seekoff() succeeds 3", bsb->seekoff(0, std::ios_base::end, std::ios_base::in) == std::streampos(c_len + 4)); + ensure("pbackfail('!') succeeds", tst_traits_t::eof() == bsb->pbackfail('!')); + + // release the implicit reference, causing the object to be released + delete bsb; + bsb = NULL; + + // make sure we didn't leak any memory + ensure("Allocated memory returned", mMemTotal == GetMemTotal()); +} + + +template <> template <> +void BufferStreamTestObjectType::test<6>() +{ + set_test_name("BufferArrayStream construction with real BufferArray"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted BufferArray with implicit reference + BufferArray * ba = new BufferArray; + //const char * content("This is a string. A fragment."); + //const size_t c_len(strlen(content)); + //ba->append(content, strlen(content)); + + { + // Creat an adapter for the BufferArray + BufferArrayStream bas(ba); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // Basic operations + bas << "Hello" << 27 << "."; + ensure("BA length 8", ba->size() == 8); + + std::string str; + bas >> str; + ensure("reads correctly", str == "Hello27."); + } + + // release the implicit reference, causing the object to be released + ba->release(); + ba = NULL; + + // make sure we didn't leak any memory + // ensure("Allocated memory returned", mMemTotal == GetMemTotal()); + // static U64 mem = GetMemTotal(); +} + + +template <> template <> +void BufferStreamTestObjectType::test<7>() +{ + set_test_name("BufferArrayStream with LLSD serialization"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted BufferArray with implicit reference + BufferArray * ba = new BufferArray; + + { + // Creat an adapter for the BufferArray + BufferArrayStream bas(ba); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // LLSD + LLSD llsd = LLSD::emptyMap(); + + llsd["int"] = LLSD::Integer(3); + llsd["float"] = LLSD::Real(923289.28992); + llsd["string"] = LLSD::String("aksjdl;ajsdgfjgfal;sdgjakl;sdfjkl;ajsdfkl;ajsdfkl;jaskl;dfj"); + + LLSD llsd_map = LLSD::emptyMap(); + llsd_map["int"] = LLSD::Integer(-2889); + llsd_map["float"] = LLSD::Real(2.37829e32); + llsd_map["string"] = LLSD::String("OHIGODHSPDGHOSDHGOPSHDGP"); + + llsd["map"] = llsd_map; + + // Serialize it + LLSDSerialize::toXML(llsd, bas); + + std::string str; + bas >> str; + // std::cout << "SERIALIZED LLSD: " << str << std::endl; + ensure("Extracted string has reasonable length", str.size() > 60); + } + + // release the implicit reference, causing the object to be released + ba->release(); + ba = NULL; + + // make sure we didn't leak any memory + // ensure("Allocated memory returned", mMemTotal == GetMemTotal()); +} + + +} // end namespace tut + + +#endif // TEST_LLCORE_BUFFER_STREAM_H_ diff --git a/indra/llcorehttp/tests/test_httpheaders.hpp b/indra/llcorehttp/tests/test_httpheaders.hpp new file mode 100644 index 0000000000..ce0d19b058 --- /dev/null +++ b/indra/llcorehttp/tests/test_httpheaders.hpp @@ -0,0 +1,108 @@ +/** + * @file test_httpheaders.hpp + * @brief unit tests for the LLCore::HttpHeaders class + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCORE_HTTP_HEADERS_H_ +#define TEST_LLCORE_HTTP_HEADERS_H_ + +#include "httpheaders.h" + +#include <iostream> + +#include "test_allocator.h" + + +using namespace LLCoreInt; + + + +namespace tut +{ + +struct HttpHeadersTestData +{ + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; +}; + +typedef test_group<HttpHeadersTestData> HttpHeadersTestGroupType; +typedef HttpHeadersTestGroupType::object HttpHeadersTestObjectType; +HttpHeadersTestGroupType HttpHeadersTestGroup("HttpHeaders Tests"); + +template <> template <> +void HttpHeadersTestObjectType::test<1>() +{ + set_test_name("HttpHeaders construction"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpHeaders * headers = new HttpHeaders(); + ensure("One ref on construction of HttpHeaders", headers->getRefCount() == 1); + ensure("Memory being used", mMemTotal < GetMemTotal()); + ensure("Nothing in headers", 0 == headers->mHeaders.size()); + + // release the implicit reference, causing the object to be released + headers->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void HttpHeadersTestObjectType::test<2>() +{ + set_test_name("HttpHeaders construction"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpHeaders * headers = new HttpHeaders(); + + { + // Append a few strings + std::string str1("Pragma:"); + headers->mHeaders.push_back(str1); + std::string str2("Accept: application/json"); + headers->mHeaders.push_back(str2); + + ensure("Headers retained", 2 == headers->mHeaders.size()); + ensure("First is first", headers->mHeaders[0] == str1); + ensure("Second is second", headers->mHeaders[1] == str2); + } + + // release the implicit reference, causing the object to be released + headers->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +} // end namespace tut + + +#endif // TEST_LLCORE_HTTP_HEADERS_H_ diff --git a/indra/llcorehttp/tests/test_httpoperation.hpp b/indra/llcorehttp/tests/test_httpoperation.hpp new file mode 100644 index 0000000000..17b1a96878 --- /dev/null +++ b/indra/llcorehttp/tests/test_httpoperation.hpp @@ -0,0 +1,125 @@ +/** + * @file test_httpoperation.hpp + * @brief unit tests for the LLCore::HttpOperation-derived classes + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCORE_HTTP_OPERATION_H_ +#define TEST_LLCORE_HTTP_OPERATION_H_ + +#include "_httpoperation.h" +#include "httphandler.h" + +#include <iostream> + +#include "test_allocator.h" + + +using namespace LLCoreInt; + + +namespace +{ + +class TestHandler : public LLCore::HttpHandler +{ +public: + virtual void onCompleted(HttpHandle, HttpResponse *) + { + std::cout << "TestHandler::onCompleted() invoked" << std::endl; + } + +}; + + +} // end namespace anonymous + + +namespace tut +{ + struct HttpOperationTestData + { + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; + }; + + typedef test_group<HttpOperationTestData> HttpOperationTestGroupType; + typedef HttpOperationTestGroupType::object HttpOperationTestObjectType; + HttpOperationTestGroupType HttpOperationTestGroup("HttpOperation Tests"); + + template <> template <> + void HttpOperationTestObjectType::test<1>() + { + set_test_name("HttpOpNull construction"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpOpNull * op = new HttpOpNull(); + ensure(op->getRefCount() == 1); + ensure(mMemTotal < GetMemTotal()); + + // release the implicit reference, causing the object to be released + op->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); + } + + template <> template <> + void HttpOperationTestObjectType::test<2>() + { + set_test_name("HttpOpNull construction with handlers"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // Get some handlers + TestHandler * h1 = new TestHandler(); + + // create a new ref counted object with an implicit reference + HttpOpNull * op = new HttpOpNull(); + + // Add the handlers + op->setReplyPath(NULL, h1); + + // Check ref count + ensure(op->getRefCount() == 1); + + // release the reference, releasing the operation but + // not the handlers. + op->release(); + op = NULL; + ensure(mMemTotal != GetMemTotal()); + + // release the handlers + delete h1; + h1 = NULL; + + ensure(mMemTotal == GetMemTotal()); + } + +} + +#endif // TEST_LLCORE_HTTP_OPERATION_H_ diff --git a/indra/llcorehttp/tests/test_httprequest.hpp b/indra/llcorehttp/tests/test_httprequest.hpp new file mode 100644 index 0000000000..e5488cf941 --- /dev/null +++ b/indra/llcorehttp/tests/test_httprequest.hpp @@ -0,0 +1,2670 @@ +/** + * @file test_httprequest.hpp + * @brief unit tests for the LLCore::HttpRequest class + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCORE_HTTP_REQUEST_H_ +#define TEST_LLCORE_HTTP_REQUEST_H_ + +#include "httprequest.h" +#include "bufferarray.h" +#include "httphandler.h" +#include "httpheaders.h" +#include "httpresponse.h" +#include "httpoptions.h" +#include "_httpservice.h" +#include "_httprequestqueue.h" + +#include <curl/curl.h> +#include <boost/regex.hpp> +#include <sstream> + +#include "test_allocator.h" +#include "llcorehttp_test.h" + + +using namespace LLCoreInt; + + +namespace +{ + +#if defined(WIN32) + +void usleep(unsigned long usec); + +#endif + +} + +namespace tut +{ + +struct HttpRequestTestData +{ + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; + int mHandlerCalls; + HttpStatus mStatus; +}; + +class TestHandler2 : public LLCore::HttpHandler +{ +public: + TestHandler2(HttpRequestTestData * state, + const std::string & name) + : mState(state), + mName(name), + mExpectHandle(LLCORE_HTTP_HANDLE_INVALID) + {} + + virtual void onCompleted(HttpHandle handle, HttpResponse * response) + { + if (LLCORE_HTTP_HANDLE_INVALID != mExpectHandle) + { + ensure("Expected handle received in handler", mExpectHandle == handle); + } + ensure("Handler got a response", NULL != response); + if (response && mState) + { + const HttpStatus actual_status(response->getStatus()); + std::ostringstream test; + test << "Expected HttpStatus received in response. Wanted: " + << mState->mStatus.toHex() << " Received: " << actual_status.toHex(); + ensure(test.str().c_str(), actual_status == mState->mStatus); + } + if (mState) + { + mState->mHandlerCalls++; + } + if (! mHeadersRequired.empty() || ! mHeadersDisallowed.empty()) + { + ensure("Response required with header check", response != NULL); + HttpHeaders * header(response->getHeaders()); // Will not hold onto this + ensure("Some quantity of headers returned", header != NULL); + + if (! mHeadersRequired.empty()) + { + for (int i(0); i < mHeadersRequired.size(); ++i) + { + bool found = false; + for (HttpHeaders::container_t::const_iterator iter(header->mHeaders.begin()); + header->mHeaders.end() != iter; + ++iter) + { + if (boost::regex_match(*iter, mHeadersRequired[i])) + { + found = true; + break; + } + } + std::ostringstream str; + str << "Required header # " << i << " found in response"; + ensure(str.str(), found); + } + } + + if (! mHeadersDisallowed.empty()) + { + for (int i(0); i < mHeadersDisallowed.size(); ++i) + { + for (HttpHeaders::container_t::const_iterator iter(header->mHeaders.begin()); + header->mHeaders.end() != iter; + ++iter) + { + if (boost::regex_match(*iter, mHeadersDisallowed[i])) + { + std::ostringstream str; + str << "Disallowed header # " << i << " not found in response"; + ensure(str.str(), false); + } + } + } + } + } + + if (! mCheckContentType.empty()) + { + ensure("Response required with content type check", response != NULL); + std::string con_type(response->getContentType()); + ensure("Content-Type as expected (" + mCheckContentType + ")", + mCheckContentType == con_type); + } + + // std::cout << "TestHandler2::onCompleted() invoked" << std::endl; + } + + HttpRequestTestData * mState; + std::string mName; + HttpHandle mExpectHandle; + std::string mCheckContentType; + std::vector<boost::regex> mHeadersRequired; + std::vector<boost::regex> mHeadersDisallowed; +}; + +typedef test_group<HttpRequestTestData> HttpRequestTestGroupType; +typedef HttpRequestTestGroupType::object HttpRequestTestObjectType; +HttpRequestTestGroupType HttpRequestTestGroup("HttpRequest Tests"); + +template <> template <> +void HttpRequestTestObjectType::test<1>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest construction"); + + HttpRequest * req = NULL; + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + try + { + // Get singletons created + HttpRequest::createService(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // release the request object + delete req; + req = NULL; + + HttpRequest::destroyService(); + + // make sure we didn't leak any memory + ensure("Memory returned", mMemTotal == GetMemTotal()); + } + catch (...) + { + delete req; + HttpRequest::destroyService(); + throw; + } +} + +template <> template <> +void HttpRequestTestObjectType::test<2>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest and Null Op queued"); + + HttpRequest * req = NULL; + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + try + { + // Get singletons created + HttpRequest::createService(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // Issue a NoOp + HttpHandle handle = req->requestNoOp(NULL); + ensure("Request issued", handle != LLCORE_HTTP_HANDLE_INVALID); + + // release the request object + delete req; + req = NULL; + + // We're still holding onto the operation which is + // sitting, unserviced, on the request queue so... + ensure("Memory being used 2", mMemTotal < GetMemTotal()); + + // Request queue should have two references: global singleton & service object + ensure("Two references to request queue", 2 == HttpRequestQueue::instanceOf()->getRefCount()); + + // Okay, tear it down + HttpRequest::destroyService(); + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory returned", mMemTotal == GetMemTotal()); + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<3>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest NoOp + Stop execution"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a NoOp + HttpHandle handle = req->requestNoOp(&handler); + ensure("Valid handle returned for first request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(20); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 100; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + +template <> template <> +void HttpRequestTestObjectType::test<4>() +{ + ScopedCurlInit ready; + + set_test_name("2 HttpRequest instances, one thread"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + TestHandler2 handler1(this, "handler1"); + TestHandler2 handler2(this, "handler2"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req1 = NULL; + HttpRequest * req2 = NULL; + + try + { + + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req1 = new HttpRequest(); + req2 = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue some NoOps + HttpHandle handle = req1->requestNoOp(&handler1); + ensure("Valid handle returned for first request", handle != LLCORE_HTTP_HANDLE_INVALID); + handler1.mExpectHandle = handle; + + handle = req2->requestNoOp(&handler2); + ensure("Valid handle returned for first request", handle != LLCORE_HTTP_HANDLE_INVALID); + handler2.mExpectHandle = handle; + + // Run the notification pump. + int count(0); + int limit(20); + while (count++ < limit && mHandlerCalls < 2) + { + req1->update(1000000); + req2->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 2); + + // Okay, request a shutdown of the servicing thread + handle = req2->requestStopThread(&handler2); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + handler2.mExpectHandle = handle; + + // Run the notification pump again + count = 0; + limit = 100; + while (count++ < limit && mHandlerCalls < 3) + { + req1->update(1000000); + req2->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 3); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req1; + req1 = NULL; + delete req2; + req2 = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 3 == mHandlerCalls); + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); + } + catch (...) + { + stop_thread(req1); + delete req1; + delete req2; + HttpRequest::destroyService(); + throw; + } +} + +template <> template <> +void HttpRequestTestObjectType::test<5>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest Spin (soft) + NoOp + hard termination"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a Spin + HttpHandle handle = req->requestSpin(1); + ensure("Valid handle returned for spin request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Issue a NoOp + handle = req->requestNoOp(&handler); + ensure("Valid handle returned for no-op request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("NoOp notification received", mHandlerCalls == 1); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + // Check memory usage + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); + // This memory test should work but could give problems as it + // relies on the worker thread picking up a friendly request + // to shutdown. Doing so, it drops references to things and + // we should go back to where we started. If it gives you + // problems, look into the code before commenting things out. + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<6>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest Spin + NoOp + hard termination"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a Spin + HttpHandle handle = req->requestSpin(0); // Hard spin + ensure("Valid handle returned for spin request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Issue a NoOp + handle = req->requestNoOp(&handler); + ensure("Valid handle returned for no-op request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("No notifications received", mHandlerCalls == 0); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + // Check memory usage + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + // ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); + // This memory test won't work because we're killing the thread + // hard with the hard spinner. There's no opportunity to join + // nicely so many things leak or get destroyed unilaterally. + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<7>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest GET to dead port + Stop execution"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * opts = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + opts = new HttpOptions(); + opts->setRetries(1); // Don't try for too long - default retries take about 18S + + // Issue a GET that can't connect + mStatus = HttpStatus(HttpStatus::EXT_CURL_EASY, CURLE_COULDNT_CONNECT); + HttpHandle handle = req->requestGetByteRange(HttpRequest::DEFAULT_POLICY_ID, + 0U, + "http://127.0.0.1:2/nothing/here", + 0, + 0, + opts, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(50); // With one retry, should fail quickish + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 100; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options + opts->release(); + opts = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if 0 // defined(WIN32) + // Can't do this on any platform anymore, the LL logging system holds + // on to memory and produces what looks like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + if (opts) + { + opts->release(); + opts = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<8>() +{ + ScopedCurlInit ready; + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest GET to real service"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a GET that *can* connect + mStatus = HttpStatus(200); + HttpHandle handle = req->requestGet(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + NULL, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if defined(WIN32) + // Can only do this memory test on Windows. On other platforms, + // the LL logging system holds on to memory and produces what looks + // like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<9>() +{ + ScopedCurlInit ready; + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest GET with Range: header to real service"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a GET that *can* connect + mStatus = HttpStatus(200); + HttpHandle handle = req->requestGetByteRange(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + 0, + 0, + NULL, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if defined(WIN32) + // Can only do this memory test on Windows. On other platforms, + // the LL logging system holds on to memory and produces what looks + // like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<10>() +{ + ScopedCurlInit ready; + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest PUT to real service"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + BufferArray * body = new BufferArray; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a GET that *can* connect + static const char * body_text("Now is the time for all good men..."); + body->append(body_text, strlen(body_text)); + mStatus = HttpStatus(200); + HttpHandle handle = req->requestPut(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + body, + NULL, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // Lose the request body + body->release(); + body = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if 0 // defined(WIN32) + // Can't do this on any platform anymore, the LL logging system holds + // on to memory and produces what looks like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + if (body) + { + body->release(); + } + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + +template <> template <> +void HttpRequestTestObjectType::test<11>() +{ + ScopedCurlInit ready; + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest POST to real service"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + BufferArray * body = new BufferArray; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a GET that *can* connect + static const char * body_text("Now is the time for all good men..."); + body->append(body_text, strlen(body_text)); + mStatus = HttpStatus(200); + HttpHandle handle = req->requestPost(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + body, + NULL, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // Lose the request body + body->release(); + body = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if defined(WIN32) + // Can only do this memory test on Windows. On other platforms, + // the LL logging system holds on to memory and produces what looks + // like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + if (body) + { + body->release(); + } + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + +template <> template <> +void HttpRequestTestObjectType::test<12>() +{ + ScopedCurlInit ready; + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest GET with some tracing"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Enable tracing + HttpRequest::setPolicyGlobalOption(LLCore::HttpRequest::GP_TRACE, 2); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a GET that *can* connect + mStatus = HttpStatus(200); + HttpHandle handle = req->requestGetByteRange(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + 0, + 0, + NULL, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if 0 // defined(WIN32) + // Can't do this on any platform anymore, the LL logging system holds + // on to memory and produces what looks like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<13>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest GET with returned headers"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + handler.mHeadersRequired.reserve(20); // Avoid memory leak test failure + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * opts = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Enable tracing + HttpRequest::setPolicyGlobalOption(LLCore::HttpRequest::GP_TRACE, 2); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + opts = new HttpOptions(); + opts->setWantHeaders(true); + + // Issue a GET that succeeds + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("\\W*X-LL-Special:.*", boost::regex::icase)); + HttpHandle handle = req->requestGetByteRange(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + 0, + 0, + opts, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // release options + opts->release(); + opts = NULL; + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if defined(WIN32) + // Can only do this memory test on Windows. On other platforms, + // the LL logging system holds on to memory and produces what looks + // like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + if (opts) + { + opts->release(); + opts = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +template <> template <> +void HttpRequestTestObjectType::test<14>() +{ + ScopedCurlInit ready; + + set_test_name("HttpRequest GET timeout"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + std::string url_base(get_base_url() + "/sleep/"); // path to a 30-second sleep + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * opts = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + opts = new HttpOptions(); + opts->setRetries(0); // Don't retry + opts->setTimeout(2); + + // Issue a GET that sleeps + mStatus = HttpStatus(HttpStatus::EXT_CURL_EASY, CURLE_OPERATION_TIMEDOUT); + HttpHandle handle = req->requestGetByteRange(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + 0, + 0, + opts, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(50); // With one retry, should fail quickish + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 100; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options + opts->release(); + opts = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if defined(WIN32) + // Can only do this memory test on Windows. On other platforms, + // the LL logging system holds on to memory and produces what looks + // like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + if (opts) + { + opts->release(); + opts = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + +// Test retrieval of Content-Type/Content-Encoding headers +template <> template <> +void HttpRequestTestObjectType::test<15>() +{ + ScopedCurlInit ready; + + std::string url_base(get_base_url()); + // std::cerr << "Base: " << url_base << std::endl; + + set_test_name("HttpRequest GET with Content-Type"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // Load and clear the string setting to preload std::string object + // for memory return tests. + handler.mCheckContentType = "application/llsd+xml"; + handler.mCheckContentType.clear(); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + ensure("Memory allocated on construction", mMemTotal < GetMemTotal()); + + // Issue a GET that *can* connect + mStatus = HttpStatus(200); + handler.mCheckContentType = "application/llsd+xml"; + HttpHandle handle = req->requestGet(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base, + NULL, + NULL, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mCheckContentType.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + + ensure("Two handler calls on the way out", 2 == mHandlerCalls); + +#if defined(WIN32) + // Can only do this memory test on Windows. On other platforms, + // the LL logging system holds on to memory and produces what looks + // like memory leaks... + + // printf("Old mem: %d, New mem: %d\n", mMemTotal, GetMemTotal()); + ensure("Memory usage back to that at entry", mMemTotal == GetMemTotal()); +#endif + } + catch (...) + { + stop_thread(req); + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +// Test header generation on GET requests +template <> template <> +void HttpRequestTestObjectType::test<16>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + + set_test_name("Header generation for HttpRequest GET"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * options = NULL; + HttpHeaders * headers = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + + // options set + options = new HttpOptions(); + options->setWantHeaders(true); + + // Issue a GET that *can* connect + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*\\*/\\*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-cache-control:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-type:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + HttpHandle handle = req->requestGet(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + options, + NULL, + &handler); + ensure("Valid handle returned for get request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Do a texture-style fetch + headers = new HttpHeaders; + headers->mHeaders.push_back("Accept: image/x-j2c"); + + mStatus = HttpStatus(200); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*image/x-j2c", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("\\W*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-cache-control:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-type:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + handle = req->requestGetByteRange(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + 0, + 47, + options, + headers, + &handler); + ensure("Valid handle returned for ranged request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 2); + + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 3) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 3); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options & headers + if (options) + { + options->release(); + } + options = NULL; + + if (headers) + { + headers->release(); + } + headers = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + } + catch (...) + { + stop_thread(req); + if (options) + { + options->release(); + options = NULL; + } + if (headers) + { + headers->release(); + headers = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +// Test header generation on POST requests +template <> template <> +void HttpRequestTestObjectType::test<17>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + + set_test_name("Header generation for HttpRequest POST"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * options = NULL; + HttpHeaders * headers = NULL; + BufferArray * ba = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + + // options set + options = new HttpOptions(); + options->setWantHeaders(true); + + // And a buffer array + const char * msg("It was the best of times, it was the worst of times."); + ba = new BufferArray; + ba->append(msg, strlen(msg)); + + // Issue a default POST + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*\\*/\\*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-length:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-type:\\s*application/x-www-form-urlencoded", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-cache-control:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-expect:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:\\s*.*chunked.*", boost::regex::icase)); + HttpHandle handle = req->requestPost(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + ba, + options, + NULL, + &handler); + ensure("Valid handle returned for get request", handle != LLCORE_HTTP_HANDLE_INVALID); + ba->release(); + ba = NULL; + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options & headers + if (options) + { + options->release(); + } + options = NULL; + + if (headers) + { + headers->release(); + } + headers = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + } + catch (...) + { + stop_thread(req); + if (ba) + { + ba->release(); + ba = NULL; + } + if (options) + { + options->release(); + options = NULL; + } + if (headers) + { + headers->release(); + headers = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +// Test header generation on PUT requests +template <> template <> +void HttpRequestTestObjectType::test<18>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + + set_test_name("Header generation for HttpRequest PUT"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * options = NULL; + HttpHeaders * headers = NULL; + BufferArray * ba = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + + // options set + options = new HttpOptions(); + options->setWantHeaders(true); + + // And a buffer array + const char * msg("It was the best of times, it was the worst of times."); + ba = new BufferArray; + ba->append(msg, strlen(msg)); + + // Issue a default PUT + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*\\*/\\*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-length:\\s*\\d+", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-cache-control:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-expect:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:\\s*.*chunked.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-content-type:.*", boost::regex::icase)); + HttpHandle handle = req->requestPut(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + ba, + options, + NULL, + &handler); + ensure("Valid handle returned for get request", handle != LLCORE_HTTP_HANDLE_INVALID); + ba->release(); + ba = NULL; + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options & headers + if (options) + { + options->release(); + } + options = NULL; + + if (headers) + { + headers->release(); + } + headers = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + } + catch (...) + { + stop_thread(req); + if (ba) + { + ba->release(); + ba = NULL; + } + if (options) + { + options->release(); + options = NULL; + } + if (headers) + { + headers->release(); + headers = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +// Test header generation on GET requests with overrides +template <> template <> +void HttpRequestTestObjectType::test<19>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + + set_test_name("Header generation for HttpRequest GET with header overrides"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * options = NULL; + HttpHeaders * headers = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + + // options set + options = new HttpOptions(); + options->setWantHeaders(true); + + // headers + headers = new HttpHeaders; + headers->mHeaders.push_back("Keep-Alive: 120"); + headers->mHeaders.push_back("Accept-encoding: deflate"); + headers->mHeaders.push_back("Accept: text/plain"); + + // Issue a GET with modified headers + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*text/plain", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*deflate", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*120", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-keep-alive:\\s*300", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-accept:\\s*\\*/\\*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-cache-control:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-type:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + HttpHandle handle = req->requestGet(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + options, + headers, + &handler); + ensure("Valid handle returned for get request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options & headers + if (options) + { + options->release(); + } + options = NULL; + + if (headers) + { + headers->release(); + } + headers = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + } + catch (...) + { + stop_thread(req); + if (options) + { + options->release(); + options = NULL; + } + if (headers) + { + headers->release(); + headers = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +// Test header generation on POST requests with overrides +template <> template <> +void HttpRequestTestObjectType::test<20>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + + set_test_name("Header generation for HttpRequest POST with header overrides"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * options = NULL; + HttpHeaders * headers = NULL; + BufferArray * ba = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + + // options set + options = new HttpOptions(); + options->setWantHeaders(true); + + // headers + headers = new HttpHeaders(); + headers->mHeaders.push_back("keep-Alive: 120"); + headers->mHeaders.push_back("Accept: text/html"); + headers->mHeaders.push_back("content-type: application/llsd+xml"); + headers->mHeaders.push_back("cache-control: no-store"); + + // And a buffer array + const char * msg("<xml><llsd><string>It was the best of times, it was the worst of times.</string></llsd></xml>"); + ba = new BufferArray; + ba->append(msg, strlen(msg)); + + // Issue a default POST + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*text/html", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*120", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-length:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-type:\\s*application/llsd\\+xml", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("\\s*X-Reflect-cache-control:\\s*no-store", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-content-type:\\s*application/x-www-form-urlencoded", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-accept:\\s*\\*/\\*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-keep-alive:\\s*300", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-expect:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:\\s*.*chunked.*", boost::regex::icase)); + HttpHandle handle = req->requestPost(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + ba, + options, + headers, + &handler); + ensure("Valid handle returned for get request", handle != LLCORE_HTTP_HANDLE_INVALID); + ba->release(); + ba = NULL; + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options & headers + if (options) + { + options->release(); + } + options = NULL; + + if (headers) + { + headers->release(); + } + headers = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + } + catch (...) + { + stop_thread(req); + if (ba) + { + ba->release(); + ba = NULL; + } + if (options) + { + options->release(); + options = NULL; + } + if (headers) + { + headers->release(); + headers = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +// Test header generation on PUT requests with overrides +template <> template <> +void HttpRequestTestObjectType::test<21>() +{ + ScopedCurlInit ready; + + // Warmup boost::regex to pre-alloc memory for memory size tests + boost::regex warmup("askldjflasdj;f", boost::regex::icase); + boost::regex_match("akl;sjflajfk;ajsk", warmup); + + std::string url_base(get_base_url()); + + set_test_name("Header generation for HttpRequest PUT with header overrides"); + + // Handler can be stack-allocated *if* there are no dangling + // references to it after completion of this method. + // Create before memory record as the string copy will bump numbers. + TestHandler2 handler(this, "handler"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + mHandlerCalls = 0; + + HttpRequest * req = NULL; + HttpOptions * options = NULL; + HttpHeaders * headers = NULL; + BufferArray * ba = NULL; + + try + { + // Get singletons created + HttpRequest::createService(); + + // Start threading early so that thread memory is invariant + // over the test. + HttpRequest::startThread(); + + // create a new ref counted object with an implicit reference + req = new HttpRequest(); + + // options set + options = new HttpOptions(); + options->setWantHeaders(true); + + // headers + headers = new HttpHeaders; + headers->mHeaders.push_back("content-type: text/plain"); + headers->mHeaders.push_back("content-type: text/html"); + headers->mHeaders.push_back("content-type: application/llsd+xml"); + + // And a buffer array + const char * msg("<xml><llsd><string>It was the best of times, it was the worst of times.</string></llsd></xml>"); + ba = new BufferArray; + ba->append(msg, strlen(msg)); + + // Issue a default PUT + mStatus = HttpStatus(200); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-connection:\\s*keep-alive", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept:\\s*\\*/\\*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-accept-encoding:\\s*((gzip|deflate),\\s*)+(gzip|deflate)", boost::regex::icase)); // close enough + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-keep-alive:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-host:\\s*.*", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-length:\\s*\\d+", boost::regex::icase)); + handler.mHeadersRequired.push_back(boost::regex("X-Reflect-content-type:\\s*application/llsd\\+xml", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-cache-control:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-pragma:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-range:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-referer:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-content-encoding:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-expect:.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("\\s*X-Reflect-transfer-encoding:\\s*.*chunked.*", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-content-type:\\s*text/plain", boost::regex::icase)); + handler.mHeadersDisallowed.push_back(boost::regex("X-Reflect-content-type:\\s*text/html", boost::regex::icase)); + HttpHandle handle = req->requestPut(HttpRequest::DEFAULT_POLICY_ID, + 0U, + url_base + "reflect/", + ba, + options, + headers, + &handler); + ensure("Valid handle returned for get request", handle != LLCORE_HTTP_HANDLE_INVALID); + ba->release(); + ba = NULL; + + // Run the notification pump. + int count(0); + int limit(10); + while (count++ < limit && mHandlerCalls < 1) + { + req->update(1000000); + usleep(100000); + } + ensure("Request executed in reasonable time", count < limit); + ensure("One handler invocation for request", mHandlerCalls == 1); + + + // Okay, request a shutdown of the servicing thread + mStatus = HttpStatus(); + handler.mHeadersRequired.clear(); + handler.mHeadersDisallowed.clear(); + handle = req->requestStopThread(&handler); + ensure("Valid handle returned for second request", handle != LLCORE_HTTP_HANDLE_INVALID); + + // Run the notification pump again + count = 0; + limit = 10; + while (count++ < limit && mHandlerCalls < 2) + { + req->update(1000000); + usleep(100000); + } + ensure("Second request executed in reasonable time", count < limit); + ensure("Second handler invocation", mHandlerCalls == 2); + + // See that we actually shutdown the thread + count = 0; + limit = 10; + while (count++ < limit && ! HttpService::isStopped()) + { + usleep(100000); + } + ensure("Thread actually stopped running", HttpService::isStopped()); + + // release options & headers + if (options) + { + options->release(); + } + options = NULL; + + if (headers) + { + headers->release(); + } + headers = NULL; + + // release the request object + delete req; + req = NULL; + + // Shut down service + HttpRequest::destroyService(); + } + catch (...) + { + stop_thread(req); + if (ba) + { + ba->release(); + ba = NULL; + } + if (options) + { + options->release(); + options = NULL; + } + if (headers) + { + headers->release(); + headers = NULL; + } + delete req; + HttpRequest::destroyService(); + throw; + } +} + + +} // end namespace tut + +namespace +{ + +#if defined(WIN32) + +void usleep(unsigned long usec) +{ + Sleep((DWORD) (usec / 1000UL)); +} + +#endif + +} + +#endif // TEST_LLCORE_HTTP_REQUEST_H_ diff --git a/indra/llcorehttp/tests/test_httprequestqueue.hpp b/indra/llcorehttp/tests/test_httprequestqueue.hpp new file mode 100644 index 0000000000..1de2d8f9ab --- /dev/null +++ b/indra/llcorehttp/tests/test_httprequestqueue.hpp @@ -0,0 +1,186 @@ +/** + * @file test_httprequestqueue.hpp + * @brief unit tests for the LLCore::HttpRequestQueue class + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCORE_HTTP_REQUESTQUEUE_H_ +#define TEST_LLCORE_HTTP_REQUESTQUEUE_H_ + +#include "_httprequestqueue.h" + +#include <iostream> + +#include "test_allocator.h" +#include "_httpoperation.h" + + +using namespace LLCoreInt; + + + +namespace tut +{ + +struct HttpRequestqueueTestData +{ + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; +}; + +typedef test_group<HttpRequestqueueTestData> HttpRequestqueueTestGroupType; +typedef HttpRequestqueueTestGroupType::object HttpRequestqueueTestObjectType; +HttpRequestqueueTestGroupType HttpRequestqueueTestGroup("HttpRequestqueue Tests"); + +template <> template <> +void HttpRequestqueueTestObjectType::test<1>() +{ + set_test_name("HttpRequestQueue construction"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpRequestQueue::init(); + + ensure("One ref on construction of HttpRequestQueue", HttpRequestQueue::instanceOf()->getRefCount() == 1); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // release the implicit reference, causing the object to be released + HttpRequestQueue::term(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void HttpRequestqueueTestObjectType::test<2>() +{ + set_test_name("HttpRequestQueue refcount works"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpRequestQueue::init(); + + HttpRequestQueue * rq = HttpRequestQueue::instanceOf(); + rq->addRef(); + + // release the singleton, hold on to the object + HttpRequestQueue::term(); + + ensure("One ref after term() called", rq->getRefCount() == 1); + ensure("Memory being used", mMemTotal < GetMemTotal()); + + // Drop ref + rq->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void HttpRequestqueueTestObjectType::test<3>() +{ + set_test_name("HttpRequestQueue addOp/fetchOp work"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpRequestQueue::init(); + + HttpRequestQueue * rq = HttpRequestQueue::instanceOf(); + + HttpOperation * op = new HttpOpNull(); + + rq->addOp(op); // transfer my refcount + + op = rq->fetchOp(true); // Potentially hangs the test on failure + ensure("One goes in, one comes out", NULL != op); + op->release(); + + op = rq->fetchOp(false); + ensure("Better not be two of them", NULL == op); + + // release the singleton, hold on to the object + HttpRequestQueue::term(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); +} + +template <> template <> +void HttpRequestqueueTestObjectType::test<4>() +{ + set_test_name("HttpRequestQueue addOp/fetchAll work"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + HttpRequestQueue::init(); + + HttpRequestQueue * rq = HttpRequestQueue::instanceOf(); + + HttpOperation * op = new HttpOpNull(); + rq->addOp(op); // transfer my refcount + + op = new HttpOpNull(); + rq->addOp(op); // transfer my refcount + + op = new HttpOpNull(); + rq->addOp(op); // transfer my refcount + + { + HttpRequestQueue::OpContainer ops; + rq->fetchAll(true, ops); // Potentially hangs the test on failure + ensure("Three go in, three come out", 3 == ops.size()); + + op = rq->fetchOp(false); + ensure("Better not be any more of them", NULL == op); + + // release the singleton, hold on to the object + HttpRequestQueue::term(); + + // We're still holding onto the ops. + ensure(mMemTotal < GetMemTotal()); + + // Release them + while (! ops.empty()) + { + HttpOperation * op = ops.front(); + ops.erase(ops.begin()); + op->release(); + } + } + + // Should be clean + ensure("All memory returned", mMemTotal == GetMemTotal()); +} + +} // end namespace tut + + +#endif // TEST_LLCORE_HTTP_REQUESTQUEUE_H_ diff --git a/indra/llcorehttp/tests/test_httpstatus.hpp b/indra/llcorehttp/tests/test_httpstatus.hpp new file mode 100644 index 0000000000..f7b542d3b5 --- /dev/null +++ b/indra/llcorehttp/tests/test_httpstatus.hpp @@ -0,0 +1,265 @@ +/** + * @file test_llrefcounted + * @brief unit tests for HttpStatus struct + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + +#ifndef TEST_HTTP_STATUS_H_ +#define TEST_HTTP_STATUS_H_ + +#include "httpcommon.h" + +#include <curl/curl.h> +#include <curl/multi.h> + +using namespace LLCore; + +namespace tut +{ + +struct HttpStatusTestData +{ + HttpStatusTestData() + {} +}; + +typedef test_group<HttpStatusTestData> HttpStatusTestGroupType; +typedef HttpStatusTestGroupType::object HttpStatusTestObjectType; + +HttpStatusTestGroupType HttpStatusTestGroup("HttpStatus Tests"); + +template <> template <> +void HttpStatusTestObjectType::test<1>() +{ + set_test_name("HttpStatus construction"); + + // auto allocation fine for this + HttpStatus status; + status.mType = HttpStatus::EXT_CURL_EASY; + status.mStatus = 0; + + ensure(bool(status)); + ensure(false == !(status)); + + status.mType = HttpStatus::EXT_CURL_MULTI; + status.mStatus = 0; + + ensure(bool(status)); + ensure(false == !(status)); + + status.mType = HttpStatus::LLCORE; + status.mStatus = HE_SUCCESS; + + ensure(bool(status)); + ensure(false == !(status)); + + status.mType = HttpStatus::EXT_CURL_MULTI; + status.mStatus = -1; + + ensure(false == bool(status)); + ensure(!(status)); + + status.mType = HttpStatus::EXT_CURL_EASY; + status.mStatus = CURLE_BAD_DOWNLOAD_RESUME; + + ensure(false == bool(status)); + ensure(!(status)); +} + + +template <> template <> +void HttpStatusTestObjectType::test<2>() +{ + set_test_name("HttpStatus memory structure"); + + // Require that an HttpStatus object can be trivially + // returned as a function return value in registers. + // One should fit in an int on all platforms. + + ensure(sizeof(HttpStatus) <= sizeof(int)); +} + + +template <> template <> +void HttpStatusTestObjectType::test<3>() +{ + set_test_name("HttpStatus valid error string conversion"); + + HttpStatus status; + status.mType = HttpStatus::EXT_CURL_EASY; + status.mStatus = 0; + std::string msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(msg.empty()); + + status.mType = HttpStatus::EXT_CURL_EASY; + status.mStatus = CURLE_BAD_FUNCTION_ARGUMENT; + msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(! msg.empty()); + + status.mType = HttpStatus::EXT_CURL_MULTI; + status.mStatus = CURLM_OUT_OF_MEMORY; + msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(! msg.empty()); + + status.mType = HttpStatus::LLCORE; + status.mStatus = HE_SHUTTING_DOWN; + msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(! msg.empty()); +} + + +template <> template <> +void HttpStatusTestObjectType::test<4>() +{ + set_test_name("HttpStatus invalid error string conversion"); + + HttpStatus status; + status.mType = HttpStatus::EXT_CURL_EASY; + status.mStatus = 32726; + std::string msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(! msg.empty()); + + status.mType = HttpStatus::EXT_CURL_MULTI; + status.mStatus = -470; + msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(! msg.empty()); + + status.mType = HttpStatus::LLCORE; + status.mStatus = 923; + msg = status.toString(); + // std::cout << "Result: " << msg << std::endl; + ensure(! msg.empty()); +} + +template <> template <> +void HttpStatusTestObjectType::test<5>() +{ + set_test_name("HttpStatus equality/inequality testing"); + + // Make certain equality/inequality tests do not pass + // through the bool conversion. Distinct successful + // and error statuses should compare unequal. + + HttpStatus status1(HttpStatus::LLCORE, HE_SUCCESS); + HttpStatus status2(HttpStatus::EXT_CURL_EASY, HE_SUCCESS); + ensure(status1 != status2); + + status1.mType = HttpStatus::LLCORE; + status1.mStatus = HE_REPLY_ERROR; + status2.mType = HttpStatus::LLCORE; + status2.mStatus= HE_SHUTTING_DOWN; + ensure(status1 != status2); +} + +template <> template <> +void HttpStatusTestObjectType::test<6>() +{ + set_test_name("HttpStatus basic HTTP status encoding"); + + HttpStatus status; + status.mType = 200; + status.mStatus = HE_SUCCESS; + std::string msg = status.toString(); + ensure(msg.empty()); + ensure(bool(status)); + + // Normally a success but application says error + status.mStatus = HE_REPLY_ERROR; + msg = status.toString(); + ensure(! msg.empty()); + ensure(! bool(status)); + ensure(status.toULong() > 1UL); // Biggish number, not a bool-to-ulong + + // Same statuses with distinct success/fail are distinct + status.mType = 200; + status.mStatus = HE_SUCCESS; + HttpStatus status2(200, HE_REPLY_ERROR); + ensure(status != status2); + + // Normally an error but application says okay + status.mType = 406; + status.mStatus = HE_SUCCESS; + msg = status.toString(); + ensure(msg.empty()); + ensure(bool(status)); + + // Different statuses but both successful are distinct + status.mType = 200; + status.mStatus = HE_SUCCESS; + status2.mType = 201; + status2.mStatus = HE_SUCCESS; + ensure(status != status2); + + // Different statuses but both failed are distinct + status.mType = 200; + status.mStatus = HE_REPLY_ERROR; + status2.mType = 201; + status2.mStatus = HE_REPLY_ERROR; + ensure(status != status2); +} + +template <> template <> +void HttpStatusTestObjectType::test<7>() +{ + set_test_name("HttpStatus HTTP error text strings"); + + HttpStatus status(100, HE_REPLY_ERROR); + std::string msg(status.toString()); + ensure(! msg.empty()); // Should be something + ensure(msg == "Continue"); + + status.mStatus = HE_SUCCESS; + msg = status.toString(); + ensure(msg.empty()); // Success is empty + + status.mType = 199; + status.mStatus = HE_REPLY_ERROR; + msg = status.toString(); + ensure(msg == "Unknown error"); + + status.mType = 505; // Last defined string + status.mStatus = HE_REPLY_ERROR; + msg = status.toString(); + ensure(msg == "HTTP Version not supported"); + + status.mType = 506; // One beyond + status.mStatus = HE_REPLY_ERROR; + msg = status.toString(); + ensure(msg == "Unknown error"); + + status.mType = 999; // Last HTTP status + status.mStatus = HE_REPLY_ERROR; + msg = status.toString(); + ensure(msg == "Unknown error"); +} + +} // end namespace tut + +#endif // TEST_HTTP_STATUS_H + diff --git a/indra/llcorehttp/tests/test_llcorehttp_peer.py b/indra/llcorehttp/tests/test_llcorehttp_peer.py new file mode 100644 index 0000000000..3257f6924d --- /dev/null +++ b/indra/llcorehttp/tests/test_llcorehttp_peer.py @@ -0,0 +1,200 @@ +#!/usr/bin/env python
+"""\
+@file test_llsdmessage_peer.py
+@author Nat Goodspeed
+@date 2008-10-09
+@brief This script asynchronously runs the executable (with args) specified on
+ the command line, returning its result code. While that executable is
+ running, we provide dummy local services for use by C++ tests.
+
+$LicenseInfo:firstyear=2008&license=viewerlgpl$
+Second Life Viewer Source Code
+Copyright (C) 2012, Linden Research, Inc.
+
+This library is free software; you can redistribute it and/or
+modify it under the terms of the GNU Lesser General Public
+License as published by the Free Software Foundation;
+version 2.1 of the License only.
+
+This library is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+Lesser General Public License for more details.
+
+You should have received a copy of the GNU Lesser General Public
+License along with this library; if not, write to the Free Software
+Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
+
+Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
+$/LicenseInfo$
+"""
+
+import os
+import sys
+import time
+import select
+import getopt
+from threading import Thread
+from BaseHTTPServer import HTTPServer, BaseHTTPRequestHandler
+from SocketServer import ThreadingMixIn
+
+mydir = os.path.dirname(__file__) # expected to be .../indra/llcorehttp/tests/
+sys.path.insert(0, os.path.join(mydir, os.pardir, os.pardir, "lib", "python"))
+from indra.util.fastest_elementtree import parse as xml_parse
+from indra.base import llsd
+from testrunner import freeport, run, debug, VERBOSE
+import time
+
+_storage=None
+
+class TestHTTPRequestHandler(BaseHTTPRequestHandler):
+ """This subclass of BaseHTTPRequestHandler is to receive and echo
+ LLSD-flavored messages sent by the C++ LLHTTPClient.
+ """
+ def read(self):
+ # The following logic is adapted from the library module
+ # SimpleXMLRPCServer.py.
+ # Get arguments by reading body of request.
+ # We read this in chunks to avoid straining
+ # socket.read(); around the 10 or 15Mb mark, some platforms
+ # begin to have problems (bug #792570).
+ try:
+ size_remaining = int(self.headers["content-length"])
+ except (KeyError, ValueError):
+ return ""
+ max_chunk_size = 10*1024*1024
+ L = []
+ while size_remaining:
+ chunk_size = min(size_remaining, max_chunk_size)
+ chunk = self.rfile.read(chunk_size)
+ L.append(chunk)
+ size_remaining -= len(chunk)
+ return ''.join(L)
+ # end of swiped read() logic
+
+ def read_xml(self):
+ # This approach reads the entire POST data into memory first
+ return llsd.parse(self.read())
+## # This approach attempts to stream in the LLSD XML from self.rfile,
+## # assuming that the underlying XML parser reads its input file
+## # incrementally. Unfortunately I haven't been able to make it work.
+## tree = xml_parse(self.rfile)
+## debug("Finished raw parse")
+## debug("parsed XML tree %s", tree)
+## debug("parsed root node %s", tree.getroot())
+## debug("root node tag %s", tree.getroot().tag)
+## return llsd.to_python(tree.getroot())
+
+ def do_HEAD(self):
+ self.do_GET(withdata=False)
+
+ def do_GET(self, withdata=True):
+ # Of course, don't attempt to read data.
+ self.answer(dict(reply="success", status=200,
+ reason="Your GET operation worked"))
+
+ def do_POST(self):
+ # Read the provided POST data.
+ # self.answer(self.read())
+ self.answer(dict(reply="success", status=200,
+ reason=self.read()))
+
+ def do_PUT(self):
+ # Read the provided PUT data.
+ # self.answer(self.read())
+ self.answer(dict(reply="success", status=200,
+ reason=self.read()))
+
+ def answer(self, data, withdata=True):
+ global _storage
+ debug("%s.answer(%s): self.path = %r", self.__class__.__name__, data, self.path)
+ if "/sleep/" in self.path:
+ time.sleep(30)
+
+ if "/reflect/" in self.path:
+ self.reflect_headers()
+ self.send_header("X-LL-Special", "Mememememe");
+ status = data.get("status", 500)
+ # self.responses maps an int status to a (short, long) pair of
+ # strings. We want the longer string. That's why we pass a string
+ # pair to get(): the [1] will select the second string, whether it
+ # came from self.responses or from our default pair.
+ reason = data.get("reason",
+ self.responses.get(status,
+ ("fail requested",
+ "Your request specified failure status %s "
+ "without providing a reason" % status))[1])
+ debug("fail requested: %s: %r", status, reason)
+ self.send_error(status, reason)
+ if "/reflect/" in self.path:
+ self.reflect_headers()
+ pass
+ elif "test/timeout" in self.path:
+ time.sleep(5.0)
+ return
+ elif "test/storage" in self.path:
+ if "GET" == self.command:
+ data = _storage
+ else:
+ _storage = data
+ data = "ok"
+ else:
+ data = data.copy() # we're going to modify
+ # Ensure there's a "reply" key in data, even if there wasn't before
+ data["reply"] = data.get("reply", llsd.LLSD("success"))
+ response = llsd.format_xml(data)
+ debug("success: %s", response)
+ self.send_response(200)
+ self.send_header("Content-type", "application/llsd+xml")
+ self.send_header("Content-Length", str(len(response)))
+ self.end_headers()
+
+ def reflect_headers(self):
+ for name in self.headers.keys():
+ # print "Header: %s: %s" % (name, self.headers[name])
+ self.send_header("X-Reflect-" + name, self.headers[name])
+
+ if not VERBOSE:
+ # When VERBOSE is set, skip both these overrides because they exist to
+ # suppress output.
+
+ def log_request(self, code, size=None):
+ # For present purposes, we don't want the request splattered onto
+ # stderr, as it would upset devs watching the test run
+ pass
+
+ def log_error(self, format, *args):
+ # Suppress error output as well
+ pass
+
+class Server(ThreadingMixIn, HTTPServer):
+ # This pernicious flag is on by default in HTTPServer. But proper
+ # operation of freeport() absolutely depends on it being off.
+ allow_reuse_address = False
+
+if __name__ == "__main__":
+ do_valgrind = False
+ path_search = False
+ options, args = getopt.getopt(sys.argv[1:], "V", ["valgrind"])
+ for option, value in options:
+ if option == "-V" or option == "--valgrind":
+ do_valgrind = True
+
+ # Instantiate a Server(TestHTTPRequestHandler) on the first free port
+ # in the specified port range. Doing this inline is better than in a
+ # daemon thread: if it blows up here, we'll get a traceback. If it blew up
+ # in some other thread, the traceback would get eaten and we'd run the
+ # subject test program anyway.
+ httpd, port = freeport(xrange(8000, 8020),
+ lambda port: Server(('127.0.0.1', port), TestHTTPRequestHandler))
+
+ # Pass the selected port number to the subject test program via the
+ # environment. We don't want to impose requirements on the test program's
+ # command-line parsing -- and anyway, for C++ integration tests, that's
+ # performed in TUT code rather than our own.
+ os.environ["LL_TEST_PORT"] = str(port)
+ debug("$LL_TEST_PORT = %s", port)
+ if do_valgrind:
+ args = ["valgrind", "--log-file=./valgrind.log"] + args
+ path_search = True
+ sys.exit(run(server=Thread(name="httpd", target=httpd.serve_forever), use_path=path_search, *args))
diff --git a/indra/llcorehttp/tests/test_refcounted.hpp b/indra/llcorehttp/tests/test_refcounted.hpp new file mode 100644 index 0000000000..cb4b50287a --- /dev/null +++ b/indra/llcorehttp/tests/test_refcounted.hpp @@ -0,0 +1,156 @@ +/** + * @file test_refcounted.hpp + * @brief unit tests for the LLCoreInt::RefCounted class + * + * $LicenseInfo:firstyear=2012&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ +#ifndef TEST_LLCOREINT_REF_COUNTED_H_ +#define TEST_LLCOREINT_REF_COUNTED_H_ + +#include "_refcounted.h" + +#include "test_allocator.h" + +using namespace LLCoreInt; + +namespace tut +{ + struct RefCountedTestData + { + // the test objects inherit from this so the member functions and variables + // can be referenced directly inside of the test functions. + size_t mMemTotal; + }; + + typedef test_group<RefCountedTestData> RefCountedTestGroupType; + typedef RefCountedTestGroupType::object RefCountedTestObjectType; + RefCountedTestGroupType RefCountedTestGroup("RefCounted Tests"); + + template <> template <> + void RefCountedTestObjectType::test<1>() + { + set_test_name("RefCounted construction with implicit count"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + RefCounted * rc = new RefCounted(true); + ensure(rc->getRefCount() == 1); + + // release the implicit reference, causing the object to be released + rc->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); + } + + template <> template <> + void RefCountedTestObjectType::test<2>() + { + set_test_name("RefCounted construction without implicit count"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + // create a new ref counted object with an implicit reference + RefCounted * rc = new RefCounted(false); + ensure(rc->getRefCount() == 0); + + // add a reference + rc->addRef(); + ensure(rc->getRefCount() == 1); + + // release the implicit reference, causing the object to be released + rc->release(); + + ensure(mMemTotal == GetMemTotal()); + } + + template <> template <> + void RefCountedTestObjectType::test<3>() + { + set_test_name("RefCounted addRef and release"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + RefCounted * rc = new RefCounted(false); + + for (int i = 0; i < 1024; ++i) + { + rc->addRef(); + } + + ensure(rc->getRefCount() == 1024); + + for (int i = 0; i < 1024; ++i) + { + rc->release(); + } + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); + } + + template <> template <> + void RefCountedTestObjectType::test<4>() + { + set_test_name("RefCounted isLastRef check"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + RefCounted * rc = new RefCounted(true); + + // with only one reference, isLastRef should be true + ensure(rc->isLastRef()); + + // release it to clean up memory + rc->release(); + + // make sure we didn't leak any memory + ensure(mMemTotal == GetMemTotal()); + } + + template <> template <> + void RefCountedTestObjectType::test<5>() + { + set_test_name("RefCounted noRef check"); + + // record the total amount of dynamically allocated memory + mMemTotal = GetMemTotal(); + + RefCounted * rc = new RefCounted(false); + + // set the noRef + rc->noRef(); + + // with only one reference, isLastRef should be true + ensure(rc->getRefCount() == RefCounted::NOT_REF_COUNTED); + + // allow this memory leak, but check that we're leaking a known amount + ensure(mMemTotal == (GetMemTotal() - sizeof(RefCounted))); + } +} + +#endif // TEST_LLCOREINT_REF_COUNTED_H_ diff --git a/indra/llcorehttp/tests/testrunner.py b/indra/llcorehttp/tests/testrunner.py new file mode 100644 index 0000000000..9a2de71142 --- /dev/null +++ b/indra/llcorehttp/tests/testrunner.py @@ -0,0 +1,265 @@ +#!/usr/bin/env python +"""\ +@file testrunner.py +@author Nat Goodspeed +@date 2009-03-20 +@brief Utilities for writing wrapper scripts for ADD_COMM_BUILD_TEST unit tests + +$LicenseInfo:firstyear=2009&license=viewerlgpl$ +Second Life Viewer Source Code +Copyright (C) 2010, Linden Research, Inc. + +This library is free software; you can redistribute it and/or +modify it under the terms of the GNU Lesser General Public +License as published by the Free Software Foundation; +version 2.1 of the License only. + +This library is distributed in the hope that it will be useful, +but WITHOUT ANY WARRANTY; without even the implied warranty of +MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU +Lesser General Public License for more details. + +You should have received a copy of the GNU Lesser General Public +License along with this library; if not, write to the Free Software +Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + +Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA +$/LicenseInfo$ +""" + +from __future__ import with_statement + +import os +import sys +import re +import errno +import socket + +VERBOSE = os.environ.get("INTEGRATION_TEST_VERBOSE", "0") # default to quiet +# Support usage such as INTEGRATION_TEST_VERBOSE=off -- distressing to user if +# that construct actually turns on verbosity... +VERBOSE = not re.match(r"(0|off|false|quiet)$", VERBOSE, re.IGNORECASE) + +if VERBOSE: + def debug(fmt, *args): + print fmt % args + sys.stdout.flush() +else: + debug = lambda *args: None + +def freeport(portlist, expr): + """ + Find a free server port to use. Specifically, evaluate 'expr' (a + callable(port)) until it stops raising EADDRINUSE exception. + + Pass: + + portlist: an iterable (e.g. xrange()) of ports to try. If you exhaust the + range, freeport() lets the socket.error exception propagate. If you want + unbounded, you could pass itertools.count(baseport), though of course in + practice the ceiling is 2^16-1 anyway. But it seems prudent to constrain + the range much more sharply: if we're iterating an absurd number of times, + probably something else is wrong. + + expr: a callable accepting a port number, specifically one of the items + from portlist. If calling that callable raises socket.error with + EADDRINUSE, freeport() retrieves the next item from portlist and retries. + + Returns: (expr(port), port) + + port: the value from portlist for which expr(port) succeeded + + Raises: + + Any exception raised by expr(port) other than EADDRINUSE. + + socket.error if, for every item from portlist, expr(port) raises + socket.error. The exception you see is the one from the last item in + portlist. + + StopIteration if portlist is completely empty. + + Example: + + class Server(HTTPServer): + # If you use BaseHTTPServer.HTTPServer, turning off this flag is + # essential for proper operation of freeport()! + allow_reuse_address = False + # ... + server, port = freeport(xrange(8000, 8010), + lambda port: Server(("localhost", port), + MyRequestHandler)) + # pass 'port' to client code + # call server.serve_forever() + """ + try: + # If portlist is completely empty, let StopIteration propagate: that's an + # error because we can't return meaningful values. We have no 'port', + # therefore no 'expr(port)'. + portiter = iter(portlist) + port = portiter.next() + + while True: + try: + # If this value of port works, return as promised. + value = expr(port) + + except socket.error, err: + # Anything other than 'Address already in use', propagate + if err.args[0] != errno.EADDRINUSE: + raise + + # Here we want the next port from portiter. But on StopIteration, + # we want to raise the original exception rather than + # StopIteration. So save the original exc_info(). + type, value, tb = sys.exc_info() + try: + try: + port = portiter.next() + except StopIteration: + raise type, value, tb + finally: + # Clean up local traceback, see docs for sys.exc_info() + del tb + + else: + debug("freeport() returning %s on port %s", value, port) + return value, port + + # Recap of the control flow above: + # If expr(port) doesn't raise, return as promised. + # If expr(port) raises anything but EADDRINUSE, propagate that + # exception. + # If portiter.next() raises StopIteration -- that is, if the port + # value we just passed to expr(port) was the last available -- reraise + # the EADDRINUSE exception. + # If we've actually arrived at this point, portiter.next() delivered a + # new port value. Loop back to pass that to expr(port). + + except Exception, err: + debug("*** freeport() raising %s: %s", err.__class__.__name__, err) + raise + +def run(*args, **kwds): + """All positional arguments collectively form a command line, executed as + a synchronous child process. + In addition, pass server=new_thread_instance as an explicit keyword (to + differentiate it from an additional command-line argument). + new_thread_instance should be an instantiated but not yet started Thread + subclass instance, e.g.: + run("python", "-c", 'print "Hello, world!"', server=TestHTTPServer(name="httpd")) + """ + # If there's no server= keyword arg, don't start a server thread: simply + # run a child process. + try: + thread = kwds.pop("server") + except KeyError: + pass + else: + # Start server thread. Note that this and all other comm server + # threads should be daemon threads: we'll let them run "forever," + # confident that the whole process will terminate when the main thread + # terminates, which will be when the child process terminates. + thread.setDaemon(True) + thread.start() + # choice of os.spawnv(): + # - [v vs. l] pass a list of args vs. individual arguments, + # - [no p] don't use the PATH because we specifically want to invoke the + # executable passed as our first arg, + # - [no e] child should inherit this process's environment. + debug("Running %s...", " ".join(args)) + if kwds.get("use_path", False): + rc = os.spawnvp(os.P_WAIT, args[0], args) + else: + rc = os.spawnv(os.P_WAIT, args[0], args) + debug("%s returned %s", args[0], rc) + return rc + +# **************************************************************************** +# test code -- manual at this point, see SWAT-564 +# **************************************************************************** +def test_freeport(): + # ------------------------------- Helpers -------------------------------- + from contextlib import contextmanager + # helper Context Manager for expecting an exception + # with exc(SomeError): + # raise SomeError() + # raises AssertionError otherwise. + @contextmanager + def exc(exception_class, *args): + try: + yield + except exception_class, err: + for i, expected_arg in enumerate(args): + assert expected_arg == err.args[i], \ + "Raised %s, but args[%s] is %r instead of %r" % \ + (err.__class__.__name__, i, err.args[i], expected_arg) + print "Caught expected exception %s(%s)" % \ + (err.__class__.__name__, ', '.join(repr(arg) for arg in err.args)) + else: + assert False, "Failed to raise " + exception_class.__class__.__name__ + + # helper to raise specified exception + def raiser(exception): + raise exception + + # the usual + def assert_equals(a, b): + assert a == b, "%r != %r" % (a, b) + + # ------------------------ Sanity check the above ------------------------ + class SomeError(Exception): pass + # Without extra args, accept any err.args value + with exc(SomeError): + raiser(SomeError("abc")) + # With extra args, accept only the specified value + with exc(SomeError, "abc"): + raiser(SomeError("abc")) + with exc(AssertionError): + with exc(SomeError, "abc"): + raiser(SomeError("def")) + with exc(AssertionError): + with exc(socket.error, errno.EADDRINUSE): + raiser(socket.error(errno.ECONNREFUSED, 'Connection refused')) + + # ----------- freeport() without engaging socket functionality ----------- + # If portlist is empty, freeport() raises StopIteration. + with exc(StopIteration): + freeport([], None) + + assert_equals(freeport([17], str), ("17", 17)) + + # This is the magic exception that should prompt us to retry + inuse = socket.error(errno.EADDRINUSE, 'Address already in use') + # Get the iterator to our ports list so we can check later if we've used all + ports = iter(xrange(5)) + with exc(socket.error, errno.EADDRINUSE): + freeport(ports, lambda port: raiser(inuse)) + # did we entirely exhaust 'ports'? + with exc(StopIteration): + ports.next() + + ports = iter(xrange(2)) + # Any exception but EADDRINUSE should quit immediately + with exc(SomeError): + freeport(ports, lambda port: raiser(SomeError())) + assert_equals(ports.next(), 1) + + # ----------- freeport() with platform-dependent socket stuff ------------ + # This is what we should've had unit tests to begin with (see CHOP-661). + def newbind(port): + sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) + sock.bind(('127.0.0.1', port)) + return sock + + bound0, port0 = freeport(xrange(7777, 7780), newbind) + assert_equals(port0, 7777) + bound1, port1 = freeport(xrange(7777, 7780), newbind) + assert_equals(port1, 7778) + bound2, port2 = freeport(xrange(7777, 7780), newbind) + assert_equals(port2, 7779) + with exc(socket.error, errno.EADDRINUSE): + bound3, port3 = freeport(xrange(7777, 7780), newbind) + +if __name__ == "__main__": + test_freeport() |