Merge branch 'main' into wbl-generic-and-rc-citizen

This commit is contained in:
Aaron Kimbre 2023-08-15 10:11:29 -05:00
commit b37574c05e
1186 changed files with 23552 additions and 14391 deletions

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@ -1,37 +0,0 @@
---
BraceWrapping:
AfterCaseLabel: false
AfterClass: false
AfterControlStatement: false
AfterEnum: false
AfterFunction: false
AfterNamespace: false
AfterObjCDeclaration: false
AfterStruct: false
AfterUnion: false
AfterExternBlock: false
BeforeCatch: false
BeforeElse: false
IndentBraces: false
SplitEmptyFunction: false
SplitEmptyRecord: false
SplitEmptyNamespace: false
BeforeLambdaBody: false
BeforeWhile: false
BreakBeforeBraces: Attach
ColumnLimit: 0
IndentWidth: 4
IndentCaseLabels: true
IncludeBlocks: Regroup
IncludeCategories:
- Regex: '<[[:alnum:].]+\.h>'
Priority: 1
- Regex: '<[[:alnum:].]+>'
Priority: 2
- Regex: '.*/.*'
Priority: 3
- Regex: '.*'
Priority: 4
DerivePointerAlignment: false
PointerAlignment: Left
...

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@ -1,17 +0,0 @@
Checks: '-*,readability-*,performance-*,modernize-*,-modernize-use-trailing-return-type,bugprone-*'
WarningsAsErrors: true
HeaderFilterRegex: ''
FormatStyle: none
CheckOptions:
- key: readability-identifier-naming.ClassCase
value: CamelCase
- key: readability-identifier-naming.ClassMethodCase
value: CamelCase
- key: readability-identifier-naming.ClassMemberPrefix
value: m_
- key: readability-identifier-naming.ClassMemberCase
value: CamelCase
- key: readability-identifier-naming.ClassConstantCase
value: UPPER_CASE
- key: readability-identifier-naming.FunctionCase
value: CamelCase

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@ -14,4 +14,4 @@ EXTERNAL_IP=localhost
MARIADB_USER=darkflame
MARIADB_PASSWORD=SECRET_VALUE_CHANGE_ME
MARIADB_ROOT_PASSWORD=SECRET_VALUE_CHANGE_ME
MARIADB_DATABASE=darkflame
MARIADB_DATABASE=darkflame

View File

@ -6,3 +6,6 @@
# convert to unix line endings
72477e01e2711e0f61cdb192ee266e5e21b8846f
# enum cleanup
faf42d2f8cf432df2993b031f079b0b8c6d7dbe7

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@ -10,12 +10,13 @@ jobs:
build-and-test:
name: Build & Test (${{ matrix.os }})
runs-on: ${{ matrix.os }}
continue-on-error: true
strategy:
matrix:
os: [ windows-2022, ubuntu-20.04, macos-11 ]
steps:
- uses: actions/checkout@v2
- uses: actions/checkout@v3
with:
submodules: true
- name: Add msbuild to PATH (Windows only)
@ -34,23 +35,17 @@ jobs:
buildPreset: "ci-${{matrix.os}}"
testPreset: "ci-${{matrix.os}}"
- name: artifacts
uses: actions/upload-artifact@v2
if: ${{ github.ref == 'ref/head/main' }}
uses: actions/upload-artifact@v3
with:
name: build-${{matrix.os}}
path: |
build
!build/tests
!build/Testing
!build/CMakeFiles
!build/DartConfiguration.tcl
!build/CTestTestfile.cmake
!build/CMakeCache.txt
!build/build.ninja
!build/_deps
!build/cmake_install.cmake
!build/*.a
!build/*.lib
!build/*.dir
!build/*.vcxproj
!build/*.vcxproj.filters
build/*Server*
build/*.ini
build/*.so
build/*.dll
build/vanity/
build/navmeshes/
build/migrations/
build/*.dcf
!build/*.pdb
!build/d*/

2
.gitignore vendored
View File

@ -121,4 +121,4 @@ docker/__pycache__
docker-compose.override.yml
!/tests/TestBitStreams/*.bin
!*Test.bin

6
.gitmodules vendored
View File

@ -14,12 +14,6 @@
path = thirdparty/mariadb-connector-cpp
url = https://github.com/mariadb-corporation/mariadb-connector-cpp.git
ignore = dirty
[submodule "thirdparty/docker-utils"]
path = thirdparty/docker-utils
url = https://github.com/lcdr/utils.git
[submodule "thirdparty/LUnpack"]
path = thirdparty/LUnpack
url = https://github.com/Xiphoseer/LUnpack.git
[submodule "thirdparty/AccountManager"]
path = thirdparty/AccountManager
url = https://github.com/DarkflameUniverse/AccountManager

View File

@ -1,4 +1,4 @@
cmake_minimum_required(VERSION 3.14)
cmake_minimum_required(VERSION 3.18)
project(Darkflame)
include(CTest)
@ -58,7 +58,7 @@ if(UNIX)
if(APPLE)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=gnu++17 -O2 -Wuninitialized -D_GLIBCXX_USE_CXX11_ABI=0 -D_GLIBCXX_USE_CXX17_ABI=0 -fPIC")
else()
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=gnu++17 -O2 -Wuninitialized -D_GLIBCXX_USE_CXX11_ABI=0 -D_GLIBCXX_USE_CXX17_ABI=0 -static-libgcc -fPIC")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=gnu++17 -O2 -Wuninitialized -D_GLIBCXX_USE_CXX11_ABI=0 -D_GLIBCXX_USE_CXX17_ABI=0 -static-libgcc -fPIC -lstdc++fs")
endif()
if (__dynamic AND CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -rdynamic")
@ -76,30 +76,88 @@ endif()
# Our output dir
set(CMAKE_BINARY_DIR ${PROJECT_BINARY_DIR})
# TODO make this not have to override the build type directories
set(CMAKE_RUNTIME_OUTPUT_DIRECTORY_RELWITHDEBINFO ${CMAKE_BINARY_DIR})
set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY_RELWITHDEBINFO ${CMAKE_BINARY_DIR})
set(CMAKE_LIBRARY_OUTPUT_DIRECTORY_RELWITHDEBINFO ${CMAKE_BINARY_DIR})
set(CMAKE_RUNTIME_OUTPUT_DIRECTORY_RELEASE ${CMAKE_BINARY_DIR})
set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY_RELEASE ${CMAKE_BINARY_DIR})
set(CMAKE_LIBRARY_OUTPUT_DIRECTORY_RELEASE ${CMAKE_BINARY_DIR})
set(CMAKE_RUNTIME_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR})
set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR})
set(CMAKE_LIBRARY_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR})
# Create a /res directory
make_directory(${CMAKE_BINARY_DIR}/res)
# Create a /locale directory
make_directory(${CMAKE_BINARY_DIR}/locale)
# Create a /resServer directory
make_directory(${CMAKE_BINARY_DIR}/resServer)
# Create a /logs directory
make_directory(${CMAKE_BINARY_DIR}/logs)
# Copy resource files on first build
set(RESOURCE_FILES "authconfig.ini" "chatconfig.ini" "worldconfig.ini" "masterconfig.ini" "blacklist.dcf")
foreach(resource_file ${RESOURCE_FILES})
if (NOT EXISTS ${PROJECT_BINARY_DIR}/${resource_file})
set(RESOURCE_FILES "sharedconfig.ini" "authconfig.ini" "chatconfig.ini" "worldconfig.ini" "masterconfig.ini" "blacklist.dcf")
message(STATUS "Checking resource file integrity")
foreach (resource_file ${RESOURCE_FILES})
set(file_size 0)
if (EXISTS ${PROJECT_BINARY_DIR}/${resource_file})
file(SIZE ${PROJECT_BINARY_DIR}/${resource_file} file_size)
endif()
if (${file_size} EQUAL 0)
configure_file(
${CMAKE_SOURCE_DIR}/resources/${resource_file} ${PROJECT_BINARY_DIR}/${resource_file}
COPYONLY
)
message("Moved ${resource_file} to project binary directory")
message(STATUS "Moved " ${resource_file} " to project binary directory")
elseif (resource_file MATCHES ".ini")
message(STATUS "Checking " ${resource_file} " for missing config options")
file(READ ${PROJECT_BINARY_DIR}/${resource_file} current_file_contents)
string(REPLACE "\\\n" "" current_file_contents ${current_file_contents})
string(REPLACE "\n" ";" current_file_contents ${current_file_contents})
set(parsed_current_file_contents "")
# Remove comment lines so they do not interfere with the variable parsing
foreach (line ${current_file_contents})
string(FIND ${line} "#" is_comment)
if (NOT ${is_comment} EQUAL 0)
string(APPEND parsed_current_file_contents ${line})
endif()
endforeach()
file(READ ${CMAKE_SOURCE_DIR}/resources/${resource_file} depot_file_contents)
string(REPLACE "\\\n" "" depot_file_contents ${depot_file_contents})
string(REPLACE "\n" ";" depot_file_contents ${depot_file_contents})
set(line_to_add "")
foreach (line ${depot_file_contents})
string(FIND ${line} "#" is_comment)
if (NOT ${is_comment} EQUAL 0)
string(REPLACE "=" ";" line_split ${line})
list(GET line_split 0 variable_name)
if (NOT ${parsed_current_file_contents} MATCHES ${variable_name})
message(STATUS "Adding missing config option " ${variable_name} " to " ${resource_file})
set(line_to_add ${line_to_add} ${line})
foreach (line_to_append ${line_to_add})
file(APPEND ${PROJECT_BINARY_DIR}/${resource_file} "\n" ${line_to_append})
endforeach()
file(APPEND ${PROJECT_BINARY_DIR}/${resource_file} "\n")
endif()
set(line_to_add "")
else()
set(line_to_add ${line_to_add} ${line})
endif()
endforeach()
endif()
endforeach()
message(STATUS "Resource file integrity check complete")
# Copy navmesh data on first build and extract it
if (NOT EXISTS ${PROJECT_BINARY_DIR}/navmeshes/)
configure_file(
${CMAKE_SOURCE_DIR}/resources/navmeshes.zip ${PROJECT_BINARY_DIR}/navmeshes.zip
COPYONLY
)
file(ARCHIVE_EXTRACT INPUT ${PROJECT_BINARY_DIR}/navmeshes.zip)
file(REMOVE ${PROJECT_BINARY_DIR}/navmeshes.zip)
endif()
# Copy vanity files on first build
set(VANITY_FILES "CREDITS.md" "INFO.md" "TESTAMENT.md" "NPC.xml")
@ -108,13 +166,25 @@ foreach(file ${VANITY_FILES})
endforeach()
# Move our migrations for MasterServer to run
file(MAKE_DIRECTORY ${PROJECT_BINARY_DIR}/migrations/)
file(MAKE_DIRECTORY ${PROJECT_BINARY_DIR}/migrations/dlu/)
file(GLOB SQL_FILES ${CMAKE_SOURCE_DIR}/migrations/dlu/*.sql)
foreach(file ${SQL_FILES})
get_filename_component(file ${file} NAME)
if (NOT EXISTS ${PROJECT_BINARY_DIR}/migrations/${file})
if (NOT EXISTS ${PROJECT_BINARY_DIR}/migrations/dlu/${file})
configure_file(
${CMAKE_SOURCE_DIR}/migrations/dlu/${file} ${PROJECT_BINARY_DIR}/migrations/${file}
${CMAKE_SOURCE_DIR}/migrations/dlu/${file} ${PROJECT_BINARY_DIR}/migrations/dlu/${file}
COPYONLY
)
endif()
endforeach()
file(MAKE_DIRECTORY ${PROJECT_BINARY_DIR}/migrations/cdserver/)
file(GLOB SQL_FILES ${CMAKE_SOURCE_DIR}/migrations/cdserver/*.sql)
foreach(file ${SQL_FILES})
get_filename_component(file ${file} NAME)
if (NOT EXISTS ${PROJECT_BINARY_DIR}/migrations/cdserver/${file})
configure_file(
${CMAKE_SOURCE_DIR}/migrations/cdserver/${file} ${PROJECT_BINARY_DIR}/migrations/cdserver/${file}
COPYONLY
)
endif()
@ -123,6 +193,8 @@ endforeach()
# Create our list of include directories
set(INCLUDED_DIRECTORIES
"dCommon"
"dCommon/dClient"
"dCommon/dEnums"
"dChatFilter"
"dGame"
"dGame/dBehaviors"
@ -131,6 +203,8 @@ set(INCLUDED_DIRECTORIES
"dGame/dInventory"
"dGame/dMission"
"dGame/dEntity"
"dGame/dPropertyBehaviors"
"dGame/dPropertyBehaviors/ControlBehaviorMessages"
"dGame/dUtilities"
"dPhysics"
"dNavigation"
@ -140,12 +214,86 @@ set(INCLUDED_DIRECTORIES
"dDatabase/Tables"
"dNet"
"dScripts"
"dScripts/02_server"
"dScripts/ai"
"dScripts/client"
"dScripts/EquipmentScripts"
"dScripts/EquipmentTriggers"
"dScripts/zone"
"dScripts/02_server/DLU"
"dScripts/02_server/Enemy"
"dScripts/02_server/Equipment"
"dScripts/02_server/Map"
"dScripts/02_server/Minigame"
"dScripts/02_server/Objects"
"dScripts/02_server/Pets"
"dScripts/02_server/Enemy/AG"
"dScripts/02_server/Enemy/AM"
"dScripts/02_server/Enemy/FV"
"dScripts/02_server/Enemy/General"
"dScripts/02_server/Enemy/Survival"
"dScripts/02_server/Enemy/VE"
"dScripts/02_server/Enemy/Waves"
"dScripts/02_server/Map/AG"
"dScripts/02_server/Map/AG_Spider_Queen"
"dScripts/02_server/Map/AM"
"dScripts/02_server/Map/FV"
"dScripts/02_server/Map/General"
"dScripts/02_server/Map/GF"
"dScripts/02_server/Map/njhub"
"dScripts/02_server/Map/NS"
"dScripts/02_server/Map/NT"
"dScripts/02_server/Map/PR"
"dScripts/02_server/Map/Property"
"dScripts/02_server/Map/SS"
"dScripts/02_server/Map/VE"
"dScripts/02_server/Map/FV/Racing"
"dScripts/02_server/Map/General/Ninjago"
"dScripts/02_server/Map/njhub/boss_instance"
"dScripts/02_server/Map/NS/Waves"
"dScripts/02_server/Map/Property/AG_Med"
"dScripts/02_server/Map/Property/AG_Small"
"dScripts/02_server/Map/Property/NS_Med"
"dScripts/02_server/Minigame/General"
"dScripts/ai/ACT"
"dScripts/ai/AG"
"dScripts/ai/FV"
"dScripts/ai/GENERAL"
"dScripts/ai/GF"
"dScripts/ai/MINIGAME"
"dScripts/ai/NP"
"dScripts/ai/NS"
"dScripts/ai/PETS"
"dScripts/ai/PROPERTY"
"dScripts/ai/RACING"
"dScripts/ai/SPEC"
"dScripts/ai/WILD"
"dScripts/ai/ACT/FootRace"
"dScripts/ai/MINIGAME/SG_GF"
"dScripts/ai/MINIGAME/SG_GF/SERVER"
"dScripts/ai/NS/NS_PP_01"
"dScripts/ai/NS/WH"
"dScripts/ai/PROPERTY/AG"
"dScripts/ai/RACING/OBJECTS"
"dScripts/client/ai"
"dScripts/client/ai/PR"
"dScripts/zone/AG"
"dScripts/zone/LUPs"
"dScripts/zone/PROPERTY"
"dScripts/zone/PROPERTY/FV"
"dScripts/zone/PROPERTY/GF"
"dScripts/zone/PROPERTY/NS"
"thirdparty/raknet/Source"
"thirdparty/tinyxml2"
"thirdparty/recastnavigation"
"thirdparty/SQLite"
"thirdparty/cpplinq"
"tests"
"tests/dCommonTests"
"tests/dGameTests"
"tests/dGameTests/dComponentsTests"
)
# Add system specfic includes for Apple, Windows and Other Unix OS' (including Linux)
@ -160,7 +308,6 @@ elseif (UNIX)
set(INCLUDED_DIRECTORIES ${INCLUDED_DIRECTORIES} "thirdparty/libbcrypt/include/bcrypt")
endif()
include_directories(${ZLIB_INCLUDE_DIRS})
# Add binary directory as an include directory
include_directories(${PROJECT_BINARY_DIR})
@ -228,8 +375,6 @@ if (UNIX)
endif()
endif()
add_subdirectory(tests)
# Include all of our binary directories
add_subdirectory(dWorldServer)
add_subdirectory(dAuthServer)
@ -262,3 +407,7 @@ target_precompile_headers(
tinyxml2 PRIVATE
"$<$<COMPILE_LANGUAGE:CXX>:${PROJECT_SOURCE_DIR}/thirdparty/tinyxml2/tinyxml2.h>"
)
if (${__enable_testing__} MATCHES "1")
add_subdirectory(tests)
endif()

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@ -1,126 +1,128 @@
{
"version": 3,
"cmakeMinimumRequired": {
"major": 3,
"minor": 14,
"patch": 0
},
"configurePresets": [
{
"name": "default",
"displayName": "Default configure step",
"description": "Use 'build' dir and Unix makefiles",
"binaryDir": "${sourceDir}/build",
"generator": "Unix Makefiles"
"version": 3,
"cmakeMinimumRequired": {
"major": 3,
"minor": 14,
"patch": 0
},
{
"name": "ci-ubuntu-20.04",
"displayName": "CI configure step for Ubuntu",
"description": "Same as default, Used in GitHub actions workflow",
"inherits": "default"
},
{
"name": "ci-macos-11",
"displayName": "CI configure step for MacOS",
"description": "Same as default, Used in GitHub actions workflow",
"inherits": "default",
"cacheVariables": {
"OPENSSL_ROOT_DIR": "/usr/local/Cellar/openssl@3/3.0.5/"
}
},
{
"name": "ci-windows-2022",
"displayName": "CI configure step for Windows",
"description": "Set architecture to 64-bit (b/c RakNet)",
"inherits": "default",
"generator": "Visual Studio 17 2022",
"architecture": {
"value": "x64"
"configurePresets": [
{
"name": "default",
"displayName": "Default configure step",
"description": "Use 'build' dir and Unix makefiles",
"binaryDir": "${sourceDir}/build",
"generator": "Unix Makefiles"
},
"cacheVariables": {
"CMAKE_BUILD_TYPE": "RelWithDebInfo"
{
"name": "ci-ubuntu-20.04",
"displayName": "CI configure step for Ubuntu",
"description": "Same as default, Used in GitHub actions workflow",
"inherits": "default"
},
{
"name": "ci-macos-11",
"displayName": "CI configure step for MacOS",
"description": "Same as default, Used in GitHub actions workflow",
"inherits": "default"
},
{
"name": "ci-windows-2022",
"displayName": "CI configure step for Windows",
"description": "Set architecture to 64-bit (b/c RakNet)",
"inherits": "default",
"generator": "Visual Studio 17 2022",
"architecture": {
"value": "x64"
},
"cacheVariables": {
"CMAKE_BUILD_TYPE": "RelWithDebInfo"
}
},
{
"name": "windows-default",
"inherits": "ci-windows-2022",
"displayName": "Windows only Configure Settings",
"description": "Sets build and install directories",
"generator": "Ninja",
"architecture": {
"value": "x64",
"strategy": "external"
}
}
},
{
"name": "windows-default",
"inherits": "ci-windows-2022",
"displayName": "Windows only Configure Settings",
"description": "Sets build and install directories",
"generator": "Ninja",
"architecture": {
"value": "x64",
"strategy": "external"
}
}
],
"buildPresets": [
{
"name": "default",
"configurePreset": "default",
"displayName": "Default Build",
"description": "Default Build",
"jobs": 2
},
{
"name": "ci-windows-2022",
"configurePreset": "ci-windows-2022",
"displayName": "Windows CI Build",
"description": "This preset is used by the CI build on windows",
"configuration": "RelWithDebInfo",
"jobs": 2
},
{
"name": "ci-ubuntu-20.04",
"configurePreset": "ci-ubuntu-20.04",
"displayName": "Linux CI Build",
"description": "This preset is used by the CI build on linux",
"jobs": 2
},
{
"name": "ci-macos-11",
"configurePreset": "ci-macos-11",
"displayName": "MacOS CI Build",
"description": "This preset is used by the CI build on MacOS",
"jobs": 2
}
],
"testPresets": [
{
"name": "ci-ubuntu-20.04",
"configurePreset": "ci-ubuntu-20.04",
"displayName": "CI Tests on Linux",
"description": "Runs all tests on a linux configuration",
"execution": {
],
"buildPresets": [
{
"name": "default",
"configurePreset": "default",
"displayName": "Default Build",
"description": "Default Build",
"jobs": 2
},
"output": {
"outputOnFailure": true
}
},
{
"name": "ci-macos-11",
"configurePreset": "ci-macos-11",
"displayName": "CI Tests on MacOS",
"description": "Runs all tests on a Mac configuration",
"execution": {
{
"name": "ci-windows-2022",
"configurePreset": "ci-windows-2022",
"displayName": "Windows CI Build",
"description": "This preset is used by the CI build on windows",
"configuration": "RelWithDebInfo",
"jobs": 2
},
"output": {
"outputOnFailure": true
}
},
{
"name": "ci-windows-2022",
"configurePreset": "ci-windows-2022",
"displayName": "CI Tests on windows",
"description": "Runs all tests on a windows configuration",
"configuration": "RelWithDebInfo",
"execution": {
{
"name": "ci-ubuntu-20.04",
"configurePreset": "ci-ubuntu-20.04",
"displayName": "Linux CI Build",
"description": "This preset is used by the CI build on linux",
"jobs": 2
},
"output": {
"outputOnFailure": true
{
"name": "ci-macos-11",
"configurePreset": "ci-macos-11",
"displayName": "MacOS CI Build",
"description": "This preset is used by the CI build on MacOS",
"jobs": 2
}
}
]
}
],
"testPresets": [
{
"name": "ci-ubuntu-20.04",
"configurePreset": "ci-ubuntu-20.04",
"displayName": "CI Tests on Linux",
"description": "Runs all tests on a linux configuration",
"execution": {
"jobs": 2
},
"output": {
"outputOnFailure": true
}
},
{
"name": "ci-macos-11",
"configurePreset": "ci-macos-11",
"displayName": "CI Tests on MacOS",
"description": "Runs all tests on a Mac configuration",
"execution": {
"jobs": 2
},
"output": {
"outputOnFailure": true
}
},
{
"name": "ci-windows-2022",
"configurePreset": "ci-windows-2022",
"displayName": "CI Tests on windows",
"description": "Runs all tests on a windows configuration",
"configuration": "RelWithDebInfo",
"execution": {
"jobs": 2
},
"output": {
"outputOnFailure": true
},
"filter": {
"exclude": {
"name": "((example)|(minigzip))+"
}
}
}
]
}

View File

@ -1,20 +1,20 @@
PROJECT_VERSION_MAJOR=1
PROJECT_VERSION_MINOR=0
PROJECT_VERSION_PATCH=4
PROJECT_VERSION_PATCH=1
# LICENSE
LICENSE=AGPL-3.0
# The network version.
# 171023 - Darkflame Universe client
# 171022 - Unmodded client
NET_VERSION=171022
# Debugging
__dynamic=1
# Set __dynamic to 1 to enable the -rdynamic flag for the linker, yielding some symbols in crashlogs.
# __ggdb=1
__dynamic=1
# Set __ggdb to 1 to enable the -ggdb flag for the linker, including more debug info.
# __include_backtrace__=1
# __ggdb=1
# Set __include_backtrace__ to 1 to includes the backtrace library for better crashlogs.
# __include_backtrace__=1
# Set __compile_backtrace__ to 1 to compile the backtrace library instead of using system libraries.
# __compile_backtrace__=1
# Set __compile_backtrace__ to 1 to compile the backtrace library instead of using system libraries.
__maria_db_connector_compile_jobs__=1
# Set to the number of jobs (make -j equivalent) to compile the mariadbconn files with.
__maria_db_connector_compile_jobs__=1
# When set to 1 and uncommented, compiling and linking testing folders and libraries will be done.
__enable_testing__=1
# The path to OpenSSL. Change this if your OpenSSL install path is different than the default.
OPENSSL_ROOT_DIR=/usr/local/opt/openssl@3/

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@ -4,7 +4,7 @@
- [Docker](https://docs.docker.com/get-docker/) (Docker Desktop or on Linux normal Docker)
- [Docker Compose](https://docs.docker.com/compose/install/) (Included in Docker Desktop)
- LEGO® Universe packed Client. Check the main [README](./README.md) for details on this.
- LEGO® Universe Client. Check the main [README](./README.md) for details on this.
## Run server inside Docker

View File

@ -25,7 +25,7 @@
11. Once the command has completed (you can see you path again and can enter commands), close the window.
12. Inside the downloaded folder, copy `.env.example` and name the copy `.env`
13. Open `.env` with Notepad by right-clicking it and selecting _Open With_ -> _More apps_ -> _Notepad_.
14. Change the text after `CLIENT_PATH=` to the location of your client. The folder you are pointing to must contain a folder called `client` which should contain the client files.
14. Change the text after `CLIENT_PATH=` to the location of your client. This folder must contain either a folder `client` or `legouniverse.exe`.
> If you need the extra performance, place the client files in `\\wsl$\<your linux OS>\...` to avoid working across file systems, see [Docker Best Practices](https://docs.docker.com/desktop/windows/wsl/#best-practices) and [WSL documentation](https://docs.microsoft.com/en-us/windows/wsl/filesystems#file-storage-and-performance-across-file-systems).
15. Optionally, you can change the number after `BUILD_THREADS=` to the number of cores / threads your processor has. If your computer crashes while building, you can try to reduce this value.

596
README.md
View File

@ -18,204 +18,192 @@ Darkflame Universe is licensed under AGPLv3, please read [LICENSE](LICENSE). Som
Throughout the entire build and setup process a level of familiarity with the command line and preferably a Unix-like development environment is greatly advantageous.
### Hosting a server
We do not recommend hosting public servers. DLU is intended for small scale deployment, for example within a group of friends. It has not been tested for large scale deployment which comes with additional security risks.
We do not recommend hosting public servers. Darkflame Universe is intended for small scale deployment, for example within a group of friends. It has not been tested for large scale deployment which comes with additional security risks.
### Supply of resource files
Darkflame Universe is a server emulator and does not distribute any LEGO® Universe files. A separate game client is required to setup this server emulator and play the game, which we cannot supply. Users are strongly suggested to refer to the safe checksums listed in the resources tab below when checking if a client will work.
Darkflame Universe is a server emulator and does not distribute any LEGO® Universe files. A separate game client is required to setup this server emulator and play the game, which we cannot supply. Users are strongly suggested to refer to the safe checksums listed [here](#verifying-your-client-files) to see if a client will work.
## Build
Development of the latest iteration of Darkflame Universe has been done primarily in a Unix-like environment and is where it has been tested and designed for deployment. It is therefore highly recommended that Darkflame Universe be built and deployed using a Unix-like environment for the most streamlined experience.
## Steps to setup server
* [Clone this repository](#clone-the-repository)
* [Install dependencies](#install-dependencies)
* [Database setup](#database-setup)
* [Build the server](#build-the-server)
* [Configuring your server](#configuring-your-server)
* [Required Configuration](#required-configuration)
* [Optional Configuration](#optional-configuration)
* [Verify your setup](#verify-your-setup)
* [Running the server](#running-the-server)
* [User Guide](#user-guide)
### Prerequisites
#### Clone the repository
## Clone the repository
If you are on Windows, you will need to download and install git from [here](https://git-scm.com/download/win)
Then run the following command
```bash
git clone --recursive https://github.com/DarkflameUniverse/DarkflameServer
```
#### Python
Some tools utilized to streamline the setup process require Python 3, make sure you have it installed.
## Install dependencies
### Windows packages
Ensure that you have either the [MSVC C++ compiler](https://visualstudio.microsoft.com/vs/features/cplusplus/) (recommended) or the [Clang compiler](https://github.com/llvm/llvm-project/releases/) installed.
You'll also need to download and install [CMake](https://cmake.org/download/) (version <font size="4">**CMake version 3.18**</font> or later!).
### Choosing the right version for your client
DLU clients identify themselves using a higher version number than the regular live clients out there.
This was done make sure that older and incomplete clients wouldn't produce false positive bug reports for us, and because we made bug fixes and new content for the client.
### MacOS packages
Ensure you have [brew](https://brew.sh) installed.
You will need to install the following packages
```bash
brew install cmake gcc mariadb openssl zlib
```
If you're using a DLU client you'll have to go into the "CMakeVariables.txt" file and change the NET_VERSION variable to 171023 to match the modified client's version number.
### Linux packages
Make sure packages like `gcc`, and `zlib` are installed. Depending on the distribution, these packages might already be installed. Note that on systems like Ubuntu, you will need the `zlib1g-dev` package so that the header files are available. `libssl-dev` will also be required as well as `openssl`. You will also need a MySQL database solution to use. We recommend using `mariadb-server`.
### Using Docker
Refer to [Docker.md](/Docker.md).
For Ubuntu, you would run the following commands. On other systems, the package install command will differ.
For Windows, refer to [Docker_Windows.md](/Docker_Windows.md).
```bash
sudo apt update && sudo apt upgrade
### Linux builds
Make sure packages like `gcc`, `cmake`, and `zlib` are installed. Depending on the distribution, these packages might already be installed. Note that on systems like Ubuntu, you will need the `zlib1g-dev` package so that the header files are available. `libssl-dev` will also be required as well as `openssl`.
# Install packages
sudo apt install build-essential gcc zlib1g-dev libssl-dev openssl mariadb-server cmake
```
CMake must be version 3.14 or higher!
#### Required CMake version
This project uses <font size="4">**CMake version 3.18**</font> or higher and as such you will need to ensure you have this version installed.
You can check your CMake version by using the following command in a terminal.
```bash
cmake --version
```
#### Build the repository
If you are going to be using an Ubuntu environment to run the server, you may need to get a more recent version of `cmake` than the packages available may provide.
The general approach to do so would be to obtain a copy of the signing key and then add the CMake repository to your apt.
You can do so with the following commands.
[Source of the below commands](https://askubuntu.com/questions/355565/how-do-i-install-the-latest-version-of-cmake-from-the-command-line)
```bash
# Remove the old version of CMake
sudo apt purge --auto-remove cmake
# Prepare for installation
sudo apt update && sudo apt install -y software-properties-common lsb-release && sudo apt clean all
# Obtain a copy of the signing key
wget -O - https://apt.kitware.com/keys/kitware-archive-latest.asc 2>/dev/null | gpg --dearmor - | sudo tee /etc/apt/trusted.gpg.d/kitware.gpg >/dev/null
# Add the repository to your sources list.
sudo apt-add-repository "deb https://apt.kitware.com/ubuntu/ $(lsb_release -cs) main"
# Next you'll want to ensure that Kitware's keyring stays up to date
sudo apt update
sudo apt install kitware-archive-keyring
sudo rm /etc/apt/trusted.gpg.d/kitware.gpg
# If sudo apt update above returned an error, copy the public key at the end of the error message and run the following command
# if the error message was "The following signatures couldn't be verified because the public key is not available: NO_PUBKEY 6AF7F09730B3F0A4"
# then the below command would be "sudo apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 6AF7F09730B3F0A4"
sudo apt-key adv --keyserver keyserver.ubuntu.com --recv-keys <TheCopiedPublicKey>
# Finally update and install
sudo apt update
sudo apt install cmake
```
## Database setup
First you'll need to start MariaDB.
For Windows the service is always running by default.
For MacOS, run the following command
```bash
brew services start mariadb
```
For Linux, run the following command
```bash
sudo systemctl start mysql
# If systemctl is not a known command on your distribution, try the following instead
sudo service mysql start
```
<font size="4">**You will need to run this command every time you restart your environment**</font>
If you are using Linux and `systemctl` and want the MariaDB instance to start on startup, run the following command
```bash
sudo systemctl enable --now mysql
```
Once MariaDB is started, you'll need to create a user and an empty database for Darkflame Universe to use.
First, login to the MariaDB instance.
To do this on Ubuntu/Linux, MacOS, or another Unix like operating system, run the following command in a terminal
```bash
# Logs you into the MariaDB instance as root
sudo mysql
```
For Windows, run the following command in the `Command Prompt (MariaDB xx.xx)` terminal
```bash
# Logs you into the mysql instance
mysql -u root -p
# You will then be prompted for the password you set for root during installation of MariaDB
```
Now that you are logged in, run the following commands.
```bash
# Creates a user for this computer which uses a password and grant said user all privileges.
# Change mydarkflameuser to a custom username and password to a custom password.
GRANT ALL ON *.* TO 'mydarkflameuser'@'localhost' IDENTIFIED BY 'password' WITH GRANT OPTION;
FLUSH PRIVILEGES;
# Then create a database for Darkflame Universe to use.
CREATE DATABASE darkflame;
```
## Build the server
You can either run `build.sh` when in the root folder of the repository:
```bash
./build.sh
```
Or manually run the commands used in `build.sh`:
Or manually run the commands used in [build.sh](build.sh).
If you would like to build the server faster, append `-j<number>` where number is the number of simultaneous compile jobs to run at once. It is recommended that you have this number always be 1 less than your core count to prevent slowdowns. The command would look like this if you would build with 4 jobs at once:
```bash
# Create the build directory, preserving it if it already exists
mkdir -p build
cd build
# Run CMake to generate make files
cmake ..
# To build utilizing multiple cores, append `-j` and the amount of cores to utilize, for example `cmake --build . --config Release -j8'
cmake --build . --config Release
./build.sh -j4
```
### Notes
Depending on your operating system, you may need to adjust some pre-processor defines in [CMakeVariables.txt](./CMakeVariables.txt) before building:
* If you are on MacOS, ensure OPENSSL_ROOT_DIR is pointing to the openssl root directory.
* If you are using a Darkflame Universe client, ensure `client_net_version` in `build/sharedconfig.ini` is changed to 171023.
### MacOS builds
Ensure `cmake`, `zlib` and `open ssl` are installed as well as a compiler (e.g `clang` or `gcc`).
## Configuring your server
This server has a few steps that need to be taken to configure the server for your use case.
In the repository root folder run the following. Ensure -DOPENSSL_ROOT_DIR=/path/to/openssl points to your openssl install location
```bash
# Create the build directory, preserving it if it already exists
mkdir -p build
cd build
### Required Configuration
Darkflame Universe can run with either a packed or an unpacked client.
Navigate to `build/sharedconfig.ini` and fill in the following fields:
* `mysql_host` (This is the IP address or hostname of your MariaDB server. This is highly likely `localhost`)
* If you setup your MariaDB instance on a port other than 3306, which can be done on a Windows install, you will need to make this value `tcp://localhost:portNum` where portNum is replaced with the port you chose to run MariaDB on.
* `mysql_database` (This is the database you created for the server)
* `mysql_username` (This is the user you created for the server)
* `mysql_password` (This is the password for the user you created for the server)
* `client_location` (This is the location of the client files. This should be the folder path of a packed or unpacked client)
* Ideally the path to the client should not contain any spaces.
# Run CMake to generate build files
cmake .. -DOPENSSL_ROOT_DIR=/path/to/openssl
# Get cmake to build the project. If make files are being used then using make and appending `-j` and the amount of cores to utilize may be preferable, for example `make -j8`
cmake --build . --config Release
```
### Windows builds (native)
Ensure that you have either the [MSVC](https://visualstudio.microsoft.com/vs/) or the [Clang](https://github.com/llvm/llvm-project/releases/) (recommended) compiler installed. You will also need to install [CMake](https://cmake.org/download/). Currently on native Windows the server will only work in Release mode.
#### Build the repository
```batch
:: Create the build directory
mkdir build
cd build
:: Run CMake to generate make files
cmake ..
:: Run CMake with build flag to build
cmake --build . --config Release
```
#### Windows for ARM has not been tested but should build by doing the following
```batch
:: Create the build directory
mkdir build
cd build
:: Run CMake to generate make files
cmake .. -DMARIADB_BUILD_SOURCE=ON
:: Run CMake with build flag to build
cmake --build . --config Release
```
### Windows builds (WSL)
This section will go through how to install [WSL](https://docs.microsoft.com/en-us/windows/wsl/install) and building in a Linux environment under Windows. WSL requires Windows 10 version 2004 and higher (Build 19041 and higher) or Windows 11.
#### Open the Command Prompt application with Administrator permissions and run the following:
```bash
# Installing Windows Subsystem for Linux
wsl --install
```
#### Open the Ubuntu application and run the following:
```bash
# Make sure the install is up to date
apt update && apt upgrade
# Make sure the gcc, cmake, and build-essentials are installed
sudo apt install gcc
sudo apt install cmake
sudo apt install build-essential
```
[**Follow the Linux instructions**](#linux-builds)
### ARM builds
AArch64 builds should work on linux and MacOS using their respective build steps. Windows ARM should build but it has not been tested
### Updating your build
To update your server to the latest version navigate to your cloned directory
```bash
cd /path/to/DarkflameServer
```
run the following commands to update to the latest changes
```bash
git pull
git submodule update --init --recursive
```
now follow the build section for your system
## Setting up the environment
### Resources
#### LEGO® Universe 1.10.64
This repository does not distribute any LEGO® Universe files. A full install of LEGO® Universe version 1.10.64 (latest) is required to finish setting up Darkflame Universe.
Known good SHA256 checksums of the client:
- `8f6c7e84eca3bab93232132a88c4ae6f8367227d7eafeaa0ef9c40e86c14edf5` (packed client, rar compressed)
- `c1531bf9401426042e8bab2de04ba1b723042dc01d9907c2635033d417de9e05` (packed client, includes extra locales, rar compressed)
- `0d862f71eedcadc4494c4358261669721b40b2131101cbd6ef476c5a6ec6775b` (unpacked client, includes extra locales, rar compressed)
Known good *SHA1* checksum of the DLU client:
- `91498e09b83ce69f46baf9e521d48f23fe502985` (packed client, zip compressed)
How to generate a SHA256 checksum:
```bash
# Replace <file> with the file path to the client
# If on Linux or MacOS
shasum -a 256 <file>
# If on Windows
certutil -hashfile <file> SHA256
```
#### Unpacking the client
* Clone lcdr's utilities repository [here](https://github.com/lcdr/utils)
* Use `pkextractor.pyw` to unpack the client files if they are not already unpacked
#### Setup resource directory
* In the `build` directory create a `res` directory if it does not already exist.
* Copy over or create symlinks from `macros`, `BrickModels`, `chatplus_en_us.txt`, `names`, and `maps` in your client `res` directory to the server `build/res` directory
* Unzip the navmeshes [here](./resources/navmeshes.zip) and place them in `build/res/maps/navmeshes`
#### Setup locale
* In the `build` directory create a `locale` directory if it does not already exist
* Copy over or create symlinks from `locale.xml` in your client `locale` directory to the `build/locale` directory
#### Client database
* Use `fdb_to_sqlite.py` in lcdr's utilities on `res/cdclient.fdb` in the unpacked client to convert the client database to `cdclient.sqlite`
* Move and rename `cdclient.sqlite` into `build/res/CDServer.sqlite`
* Run each SQL file in the order at which they appear [here](migrations/cdserver/) on the SQLite database
### Database
Darkflame Universe utilizes a MySQL/MariaDB database for account and character information.
Initial setup can vary drastically based on which operating system or distribution you are running; there are instructions out there for most setups, follow those and come back here when you have a database up and running.
* Create a database for Darkflame Universe to use
#### Configuration
After the server has been built there should be four `ini` files in the build director: `authconfig.ini`, `chatconfig.ini`, `masterconfig.ini`, and `worldconfig.ini`. Go through them and fill in the database credentials and configure other settings if necessary.
#### Setup and Migrations
Use the command `./MasterServer -m` to setup the tables in the database. The first time this command is run on a database, the tables will be up to date with the most recent version. To update your database tables, run this command again. Multiple invocations will not affect any functionality.
#### Verify
### Optional Configuration
* After the server has been built there should be five `ini` files in the build directory: `sharedconfig.ini`, `authconfig.ini`, `chatconfig.ini`, `masterconfig.ini`, and `worldconfig.ini`.
* `authconfig.ini` contains an option to enable or disable play keys on your server. Do not change the default port for auth.
* `chatconfig.ini` contains a port option.
* `masterconfig.ini` contains options related to permissions you want to run your servers with.
* `sharedconfig.ini` contains several options that are shared across all servers
* `worldconfig.ini` contains several options to turn on QOL improvements should you want them. If you would like the most vanilla experience possible, you will need to turn some of these settings off.
## Verify your setup
Your build directory should now look like this:
* AuthServer
* ChatServer
@ -224,212 +212,105 @@ Your build directory should now look like this:
* authconfig.ini
* chatconfig.ini
* masterconfig.ini
* sharedconfig.ini
* worldconfig.ini
* **locale/**
* locale.xml
* **res/**
* CDServer.sqlite
* chatplus_en_us.txt
* **macros/**
* ...
* **BrickModels/**
* ...
* **maps/**
* **navmeshes/**
* ...
* ...
* ...
## Running the server
If everything has been configured correctly you should now be able to run the `MasterServer` binary. Darkflame Universe utilizes port numbers under 1024, so under Linux you either have to give the binary network permissions or run it under sudo.
If everything has been configured correctly you should now be able to run the `MasterServer` binary which is located in the `build` directory. Darkflame Universe utilizes port numbers under 1024, so under Linux you either have to give the `AuthServer` binary network permissions or run it under sudo.
To give `AuthServer` network permissions and not require sudo, run the following command
```bash
sudo setcap 'cap_net_bind_service=+ep' AuthServer
```
and then go to `build/masterconfig.ini` and change `use_sudo_auth` to 0.
### First admin user
Run `MasterServer -a` to get prompted to create an admin account. This method is only intended for the system administrator as a means to get started, do NOT use this method to create accounts for other users!
### Account Manager
### Account management tool (Nexus Dashboard)
**If you are just using this server for yourself, you can skip setting up Nexus Dashboard**
Follow the instructions [here](https://github.com/DarkflameUniverse/AccountManager) to setup the DLU account management Python web application. This is the intended way for users to create accounts.
Follow the instructions [here](https://github.com/DarkflameUniverse/NexusDashboard) to setup the DLU Nexus Dashboard web application. This is the intended way for users to create accounts and the intended way for moderators to approve names/pets/properties and do other moderation actions.
### Admin levels
The admin level, or Game Master level (hereafter referred to as gmlevel), is specified in the `accounts.gm_level` column in the MySQL database. Normal players should have this set to `0`, which comes with no special privileges. The system administrator will have this set to `9`, which comes will all privileges. gmlevel `8` should be used to give a player a majority of privileges without the safety critical once.
The admin level, or game master level, is specified in the `accounts.gm_level` column in the MySQL database. Normal players should have this set to `0`, which comes with no special privileges. The system administrator will have this set to `9`, which comes will all privileges. Admin level `8` should be used to give a player a majority of privileges without the safety critical once.
While a character has a gmlevel of anything but `0`, some gameplay behavior will change. When testing gameplay, you should always use a character with a gmlevel of `0`.
While a character has a gmlevel of anything but 0, some gameplay behavior will change. When testing gameplay, you should always use a character with a gmlevel of 0.
# User guide
Some changes to the client `boot.cfg` file are needed to play on your server.
## User guide
A few modifications have to be made to the client.
### Client configuration
## Allowing a user to connect to your server
To connect to a server follow these steps:
* In the client directory, locate `boot.cfg`
* Open it in a text editor and locate where it says `AUTHSERVERIP=0:`
* Replace the contents after to `:` and the following `,` with what you configured as the server's public facing IP. For example `AUTHSERVERIP=0:localhost` for locally hosted servers
* Next locate the line `UGCUSE3DSERVICES=7:`
* Ensure the number after the 7 is a `0`
* Launch `legouniverse.exe`, through `wine` if on a Unix-like operating system
* Note that if you are on WSL2, you will need to configure the public IP in the server and client to be the IP of the WSL2 instance and not localhost, which can be found by running `ifconfig` in the terminal. Windows defaults to WSL1, so this will not apply to most users.
### Survival
## Updating your server
To update your server to the latest version navigate to your cloned directory
```bash
cd path/to/DarkflameServer
```
Run the following commands to update to the latest changes
```bash
git pull
git submodule update --init --recursive
```
Now follow the [build](#build-the-server) section for your system and your server is up to date.
The client script for the survival minigame has a bug in it which can cause the minigame to not load. To fix this, follow these instructions:
* Open `res/scripts/ai/minigame/survival/l_zone_survival_client.lua`
* Navigate to line `617`
* Change `PlayerReady(self)` to `onPlayerReady(self)`
* Save the file, overriding readonly mode if required
## In-game commands
* A list of all in-game commands can be found [here](./docs/Commands.md).
If you still experience the bug, try deleting/renaming `res/pack/scripts.pk`.
## Verifying your client files
### Brick-By-Brick building
### LEGO® Universe 1.10.64
To verify that you are indeed using a LEGO® Universe 1.10.64 client, make sure you have the full client compressed **in a rar file** and run the following command.
```bash
# Replace <file> with the file path to the zipped client
Brick-By-Brick building requires `PATCHSERVERIP=0:` in the `boot.cfg` to point to a HTTP server which always returns `HTTP 404 - Not Found` for all requests. This can be achieved by pointing it to `localhost` while having `sudo python -m http.server 80` running in the background.
# If on Linux or MacOS
shasum -a 256 <file>
### In-game commands
Here is a summary of the commands available in-game. All commands are prefixed by `/` and typed in the in-game chat window. Some commands requires admin privileges. Operands within `<>` are required, operands within `()` are not. For the full list of in-game commands, please checkout [the source file](./dGame/dUtilities/SlashCommandHandler.cpp).
# If on Windows using the Command Prompt
certutil -hashfile <file> SHA256
```
<table>
<thead>
<th>
Command
</th>
<th>
Usage
</th>
<th>
Description
</th>
<th>
Admin Level Requirement
</th>
</thead>
<tbody>
<tr>
<td>
info
</td>
<td>
/info
</td>
<td>
Displays server info to the user, including where to find the server's source code.
</td>
<td>
</td>
</tr>
<tr>
<td>
credits
</td>
<td>
/credits
</td>
<td>
Displays the names of the people behind Darkflame Universe.
</td>
<td>
</td>
</tr>
<tr>
<td>
instanceinfo
</td>
<td>
/instanceinfo
</td>
<td>
Displays in the chat the current zone, clone, and instance id.
</td>
<td>
</td>
</tr>
<tr>
<td>
gmlevel
</td>
<td>
/gmlevel &#60;level&#62;
</td>
<td>
Within the authorized range of levels for the current account, changes the character's game master level to the specified value. This is required to use certain commands.
</td>
<td>
</td>
</tr>
<tr>
<td>
testmap
</td>
<td>
/testmap &#60;zone&#62; (clone-id)
</td>
<td>
Transfers you to the given zone by id and clone id.
</td>
<td>
1
</td>
</tr>
<tr>
<td>
ban
</td>
<td>
/ban &#60;username&#62;
</td>
<td>
Bans a user from the server.
</td>
<td>
4
</td>
</tr>
<tr>
<td>
gmadditem
</td>
<td>
/gmadditem &#60;id&#62; (count)
</td>
<td>
Adds the given item to your inventory by id.
</td>
<td>
8
</td>
</tr>
<tr>
<td>
spawn
</td>
<td>
/spawn &#60;id&#62;
</td>
<td>
Spawns an object at your location by id.
</td>
<td>
8
</td>
</tr>
<tr>
<td>
metrics
</td>
<td>
/metrics
</td>
<td>
Prints some information about the server's performance.
</td>
<td>
8
</td>
</tr>
</tbody>
</table>
Below are known good SHA256 checksums of the client:
* `8f6c7e84eca3bab93232132a88c4ae6f8367227d7eafeaa0ef9c40e86c14edf5` (packed client, rar compressed)
* `c1531bf9401426042e8bab2de04ba1b723042dc01d9907c2635033d417de9e05` (packed client, includes extra locales, rar compressed)
* `0d862f71eedcadc4494c4358261669721b40b2131101cbd6ef476c5a6ec6775b` (unpacked client, includes extra locales, rar compressed)
If the returned hash matches one of the lines above then you can continue with setting up the server. If you are using a fully downloaded and complete client from live, then it will work, but the hash above may not match. Otherwise you must obtain a full install of LEGO® Universe 1.10.64.
### Darkflame Universe Client
Darkflame Universe clients identify themselves using a higher version number than the regular live clients out there.
This was done make sure that older and incomplete clients wouldn't produce false positive bug reports for us, and because we made bug fixes and new content for the client.
To verify that you are indeed using a Darkflame Universe client, make sure you have the full client compressed **in a zip file** and run the following command.
```bash
# Replace <file> with the file path to the zipped client
# If on Linux or MacOS
shasum -a 1 <file>
# If on Windows using the Command Prompt
certutil -hashfile <file> SHA1
```
Known good *SHA1* checksum of the Darkflame Universe client:
- `91498e09b83ce69f46baf9e521d48f23fe502985` (packed client, zip compressed)
# Development Documentation
This is a Work in Progress, but below are some quick links to documentaion for systems and structs in the server
[Networked message structs](https://lcdruniverse.org/lu_packets/lu_packets/index.html)
[General system documentation](https://docs.lu-dev.net/en/latest/index.html)
# Credits
## Active Contributors
* [EmosewaMC](https://github.com/EmosewaMC)
* [Jettford](https://github.com/Jettford)
* [Aaron K.](https://github.com/aronwk-aaron)
## DLU Team
* [DarwinAnim8or](https://github.com/DarwinAnim8or)
@ -438,25 +319,30 @@ Here is a summary of the commands available in-game. All commands are prefixed b
* [averysumner](https://github.com/codeshaunted)
* [Jon002](https://github.com/jaller200)
* [Jonny](https://github.com/cuzitsjonny)
* [Aaron K.](https://github.com/aronwk-aaron)
### Research and tools
### Research and Tools
* [lcdr](https://github.com/lcdr)
* [Xiphoseer](https://github.com/Xiphoseer)
### Community management
### Community Management
* [Neal](https://github.com/NealSpellman)
### Former contributors
* TheMachine
* Matthew
* [Raine](https://github.com/Rainebannister)
* Bricknave
### Logo
* Cole Peterson (BlasterBuilder)
## Special thanks
## Active Contributors
* [EmosewaMC](https://github.com/EmosewaMC)
* [Jettford](https://github.com/Jettford)
## Former Contributors
* TheMachine
* Matthew
* [Raine](https://github.com/uwainium)
* Bricknave
## Special Thanks
* humanoid24
* pwjones1969
* [Simon](https://github.com/SimonNitzsche)
* ALL OF THE NETDEVIL AND LEGO TEAMS!
* [ALL OF THE NETDEVIL AND LEGO TEAMS!](https://www.mobygames.com/game/macintosh/lego-universe/credits)

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@ -1,3 +1,6 @@
# Error if any command fails
set -e
# Create the build directory, preserving it if it already exists
mkdir -p build
cd build
@ -6,7 +9,5 @@ cd build
cmake ..
# To build utilizing multiple cores, append `-j` and the amount of cores to utilize, for example `cmake --build . --config Release -j8'
cmake --build . --config Release
cmake --build . --config Release $1
# Run migrations
./MasterServer -m

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@ -11,47 +11,55 @@
#include "Database.h"
#include "dConfig.h"
#include "Diagnostics.h"
#include "BinaryPathFinder.h"
//RakNet includes:
#include "RakNetDefines.h"
#include <MessageIdentifiers.h>
//Auth includes:
#include "AuthPackets.h"
#include "dMessageIdentifiers.h"
#include "eConnectionType.h"
#include "eServerMessageType.h"
#include "eAuthMessageType.h"
#include "Game.h"
namespace Game {
dLogger* logger;
dServer* server;
dConfig* config;
dLogger* logger = nullptr;
dServer* server = nullptr;
dConfig* config = nullptr;
bool shouldShutdown = false;
std::mt19937 randomEngine;
}
dLogger* SetupLogger();
void HandlePacket(Packet* packet);
int main(int argc, char** argv) {
constexpr uint32_t authFramerate = mediumFramerate;
constexpr uint32_t authFrameDelta = mediumFrameDelta;
Diagnostics::SetProcessName("Auth");
Diagnostics::SetProcessFileName(argv[0]);
Diagnostics::Initialize();
//Create all the objects we need to run our service:
Game::logger = SetupLogger();
if (!Game::logger) return 0;
if (!Game::logger) return EXIT_FAILURE;
//Read our config:
Game::config = new dConfig((BinaryPathFinder::GetBinaryDir() / "authconfig.ini").string());
Game::logger->SetLogToConsole(Game::config->GetValue("log_to_console") != "0");
Game::logger->SetLogDebugStatements(Game::config->GetValue("log_debug_statements") == "1");
Game::logger->Log("AuthServer", "Starting Auth server...");
Game::logger->Log("AuthServer", "Version: %i.%i", PROJECT_VERSION_MAJOR, PROJECT_VERSION_MINOR);
Game::logger->Log("AuthServer", "Compiled on: %s", __TIMESTAMP__);
//Read our config:
dConfig config("authconfig.ini");
Game::config = &config;
Game::logger->SetLogToConsole(bool(std::stoi(config.GetValue("log_to_console"))));
Game::logger->SetLogDebugStatements(config.GetValue("log_debug_statements") == "1");
//Connect to the MySQL Database
std::string mysql_host = config.GetValue("mysql_host");
std::string mysql_database = config.GetValue("mysql_database");
std::string mysql_username = config.GetValue("mysql_username");
std::string mysql_password = config.GetValue("mysql_password");
std::string mysql_host = Game::config->GetValue("mysql_host");
std::string mysql_database = Game::config->GetValue("mysql_database");
std::string mysql_username = Game::config->GetValue("mysql_username");
std::string mysql_password = Game::config->GetValue("mysql_password");
try {
Database::Connect(mysql_host, mysql_database, mysql_username, mysql_password);
@ -60,12 +68,12 @@ int main(int argc, char** argv) {
Database::Destroy("AuthServer");
delete Game::server;
delete Game::logger;
return 0;
return EXIT_FAILURE;
}
//Find out the master's IP:
std::string masterIP;
int masterPort = 1500;
uint32_t masterPort = 1500;
sql::PreparedStatement* stmt = Database::CreatePreppedStmt("SELECT ip, port FROM servers WHERE name='master';");
auto res = stmt->executeQuery();
while (res->next()) {
@ -76,27 +84,31 @@ int main(int argc, char** argv) {
delete res;
delete stmt;
//It's safe to pass 'localhost' here, as the IP is only used as the external IP.
int maxClients = 50;
int ourPort = 1001; //LU client is hardcoded to use this for auth port, so I'm making it the default.
if (config.GetValue("max_clients") != "") maxClients = std::stoi(config.GetValue("max_clients"));
if (config.GetValue("port") != "") ourPort = std::atoi(config.GetValue("port").c_str());
Game::randomEngine = std::mt19937(time(0));
Game::server = new dServer(config.GetValue("external_ip"), ourPort, 0, maxClients, false, true, Game::logger, masterIP, masterPort, ServerType::Auth);
//It's safe to pass 'localhost' here, as the IP is only used as the external IP.
uint32_t maxClients = 50;
uint32_t ourPort = 1001; //LU client is hardcoded to use this for auth port, so I'm making it the default.
if (Game::config->GetValue("max_clients") != "") maxClients = std::stoi(Game::config->GetValue("max_clients"));
if (Game::config->GetValue("port") != "") ourPort = std::atoi(Game::config->GetValue("port").c_str());
Game::server = new dServer(Game::config->GetValue("external_ip"), ourPort, 0, maxClients, false, true, Game::logger, masterIP, masterPort, ServerType::Auth, Game::config, &Game::shouldShutdown);
//Run it until server gets a kill message from Master:
auto t = std::chrono::high_resolution_clock::now();
Packet* packet = nullptr;
int framesSinceLastFlush = 0;
int framesSinceMasterDisconnect = 0;
int framesSinceLastSQLPing = 0;
constexpr uint32_t logFlushTime = 30 * authFramerate; // 30 seconds in frames
constexpr uint32_t sqlPingTime = 10 * 60 * authFramerate; // 10 minutes in frames
uint32_t framesSinceLastFlush = 0;
uint32_t framesSinceMasterDisconnect = 0;
uint32_t framesSinceLastSQLPing = 0;
while (true) {
while (!Game::shouldShutdown) {
//Check if we're still connected to master:
if (!Game::server->GetIsConnectedToMaster()) {
framesSinceMasterDisconnect++;
if (framesSinceMasterDisconnect >= 30)
if (framesSinceMasterDisconnect >= authFramerate)
break; //Exit our loop, shut down.
} else framesSinceMasterDisconnect = 0;
@ -112,16 +124,16 @@ int main(int argc, char** argv) {
}
//Push our log every 30s:
if (framesSinceLastFlush >= 900) {
if (framesSinceLastFlush >= logFlushTime) {
Game::logger->Flush();
framesSinceLastFlush = 0;
} else framesSinceLastFlush++;
//Every 10 min we ping our sql server to keep it alive hopefully:
if (framesSinceLastSQLPing >= 40000) {
if (framesSinceLastSQLPing >= sqlPingTime) {
//Find out the master's IP for absolutely no reason:
std::string masterIP;
int masterPort;
uint32_t masterPort;
sql::PreparedStatement* stmt = Database::CreatePreppedStmt("SELECT ip, port FROM servers WHERE name='master';");
auto res = stmt->executeQuery();
while (res->next()) {
@ -136,7 +148,7 @@ int main(int argc, char** argv) {
} else framesSinceLastSQLPing++;
//Sleep our thread since auth can afford to.
t += std::chrono::milliseconds(mediumFramerate); //Auth can run at a lower "fps"
t += std::chrono::milliseconds(authFrameDelta); //Auth can run at a lower "fps"
std::this_thread::sleep_until(t);
}
@ -144,13 +156,13 @@ int main(int argc, char** argv) {
Database::Destroy("AuthServer");
delete Game::server;
delete Game::logger;
delete Game::config;
exit(EXIT_SUCCESS);
return EXIT_SUCCESS;
}
dLogger* SetupLogger() {
std::string logPath = "./logs/AuthServer_" + std::to_string(time(nullptr)) + ".log";
std::string logPath = (BinaryPathFinder::GetBinaryDir() / ("logs/AuthServer_" + std::to_string(time(nullptr)) + ".log")).string();
bool logToConsole = false;
bool logDebugStatements = false;
#ifdef _DEBUG
@ -162,13 +174,15 @@ dLogger* SetupLogger() {
}
void HandlePacket(Packet* packet) {
if (packet->length < 4) return;
if (packet->data[0] == ID_USER_PACKET_ENUM) {
if (packet->data[1] == SERVER) {
if (packet->data[3] == MSG_SERVER_VERSION_CONFIRM) {
if (static_cast<eConnectionType>(packet->data[1]) == eConnectionType::SERVER) {
if (static_cast<eServerMessageType>(packet->data[3]) == eServerMessageType::VERSION_CONFIRM) {
AuthPackets::HandleHandshake(Game::server, packet);
}
} else if (packet->data[1] == AUTH) {
if (packet->data[3] == MSG_AUTH_LOGIN_REQUEST) {
} else if (static_cast<eConnectionType>(packet->data[1]) == eConnectionType::AUTH) {
if (static_cast<eAuthMessageType>(packet->data[3]) == eAuthMessageType::LOGIN_REQUEST) {
AuthPackets::HandleLoginRequest(Game::server, packet);
}
}

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@ -1,4 +1,2 @@
set(DAUTHSERVER_SOURCES "AuthServer.cpp")
add_executable(AuthServer ${DAUTHSERVER_SOURCES})
add_executable(AuthServer "AuthServer.cpp")
target_link_libraries(AuthServer ${COMMON_LIBRARIES})

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@ -12,6 +12,7 @@
#include "dConfig.h"
#include "Database.h"
#include "Game.h"
#include "eGameMasterLevel.h"
using namespace dChatFilterDCF;
@ -108,8 +109,8 @@ void dChatFilter::ExportWordlistToDCF(const std::string& filepath, bool whiteLis
}
}
std::vector<std::pair<uint8_t, uint8_t>> dChatFilter::IsSentenceOkay(const std::string& message, int gmLevel, bool whiteList) {
if (gmLevel > GAME_MASTER_LEVEL_FORUM_MODERATOR) return { }; //If anything but a forum mod, return true.
std::vector<std::pair<uint8_t, uint8_t>> dChatFilter::IsSentenceOkay(const std::string& message, eGameMasterLevel gmLevel, bool whiteList) {
if (gmLevel > eGameMasterLevel::FORUM_MODERATOR) return { }; //If anything but a forum mod, return true.
if (message.empty()) return { };
if (!whiteList && m_DeniedWords.empty()) return { { 0, message.length() } };

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@ -4,6 +4,7 @@
#include "dCommonVars.h"
enum class eGameMasterLevel : uint8_t;
namespace dChatFilterDCF {
static const uint32_t header = ('D' + ('C' << 8) + ('F' << 16) + ('B' << 24));
static const uint32_t formatVersion = 2;
@ -23,7 +24,7 @@ public:
void ReadWordlistPlaintext(const std::string& filepath, bool whiteList);
bool ReadWordlistDCF(const std::string& filepath, bool whiteList);
void ExportWordlistToDCF(const std::string& filepath, bool whiteList);
std::vector<std::pair<uint8_t, uint8_t>> IsSentenceOkay(const std::string& message, int gmLevel, bool whiteList = true);
std::vector<std::pair<uint8_t, uint8_t>> IsSentenceOkay(const std::string& message, eGameMasterLevel gmLevel, bool whiteList = true);
private:
bool m_DontGenerateDCF;

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@ -1,6 +1,10 @@
set(DCHATSERVER_SOURCES "ChatPacketHandler.cpp"
"ChatServer.cpp"
"PlayerContainer.cpp")
add_executable(ChatServer ${DCHATSERVER_SOURCES})
target_link_libraries(ChatServer ${COMMON_LIBRARIES} dChatFilter)
set(DCHATSERVER_SOURCES
"ChatPacketHandler.cpp"
"PlayerContainer.cpp"
)
add_executable(ChatServer "ChatServer.cpp")
add_library(dChatServer ${DCHATSERVER_SOURCES})
target_link_libraries(dChatServer ${COMMON_LIBRARIES} dChatFilter)
target_link_libraries(ChatServer ${COMMON_LIBRARIES} dChatFilter dChatServer)

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@ -3,24 +3,28 @@
#include "Database.h"
#include <vector>
#include "PacketUtils.h"
#include "dMessageIdentifiers.h"
#include "Game.h"
#include "dServer.h"
#include "GeneralUtils.h"
#include "dLogger.h"
#include "AddFriendResponseCode.h"
#include "AddFriendResponseType.h"
#include "eAddFriendResponseCode.h"
#include "eAddFriendResponseType.h"
#include "RakString.h"
#include "dConfig.h"
#include "eObjectBits.h"
#include "eConnectionType.h"
#include "eChatMessageType.h"
#include "eChatInternalMessageType.h"
#include "eClientMessageType.h"
#include "eGameMessageType.h"
extern PlayerContainer playerContainer;
void ChatPacketHandler::HandleFriendlistRequest(Packet* packet) {
//Get from the packet which player we want to do something with:
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = 0;
inStream.Read(playerID);
inStream.Read(playerID);
auto player = playerContainer.GetPlayerData(playerID);
if (!player) return;
@ -33,9 +37,10 @@ void ChatPacketHandler::HandleFriendlistRequest(Packet* packet) {
"WHEN friend_id = ? THEN player_id "
"END AS requested_player, best_friend FROM friends) AS fr "
"JOIN charinfo AS ci ON ci.id = fr.requested_player "
"WHERE fr.requested_player IS NOT NULL;"));
"WHERE fr.requested_player IS NOT NULL AND fr.requested_player != ?;"));
stmt->setUInt(1, static_cast<uint32_t>(playerID));
stmt->setUInt(2, static_cast<uint32_t>(playerID));
stmt->setUInt(3, static_cast<uint32_t>(playerID));
std::vector<FriendData> friends;
@ -44,8 +49,8 @@ void ChatPacketHandler::HandleFriendlistRequest(Packet* packet) {
FriendData fd;
fd.isFTP = false; // not a thing in DLU
fd.friendID = res->getUInt(1);
GeneralUtils::SetBit(fd.friendID, static_cast<size_t>(eObjectBits::OBJECT_BIT_PERSISTENT));
GeneralUtils::SetBit(fd.friendID, static_cast<size_t>(eObjectBits::OBJECT_BIT_CHARACTER));
GeneralUtils::SetBit(fd.friendID, eObjectBits::PERSISTENT);
GeneralUtils::SetBit(fd.friendID, eObjectBits::CHARACTER);
fd.isBestFriend = res->getInt(2) == 3; //0 = friends, 1 = left_requested, 2 = right_requested, 3 = both_accepted - are now bffs
if (fd.isBestFriend) player->countOfBestFriends += 1;
@ -70,11 +75,11 @@ void ChatPacketHandler::HandleFriendlistRequest(Packet* packet) {
//Now, we need to send the friendlist to the server they came from:
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(playerID);
//portion that will get routed:
PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_GET_FRIENDS_LIST_RESPONSE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::GET_FRIENDS_LIST_RESPONSE);
bitStream.Write<uint8_t>(0);
bitStream.Write<uint16_t>(1); //Length of packet -- just writing one as it doesn't matter, client skips it.
bitStream.Write((uint16_t)friends.size());
@ -93,10 +98,9 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
auto maxNumberOfBestFriendsAsString = Game::config->GetValue("max_number_of_best_friends");
// If this config option doesn't exist, default to 5 which is what live used.
auto maxNumberOfBestFriends = maxNumberOfBestFriendsAsString != "" ? std::stoi(maxNumberOfBestFriendsAsString) : 5U;
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID requestorPlayerID;
inStream.Read(requestorPlayerID);
inStream.Read(requestorPlayerID);
uint32_t spacing{};
inStream.Read(spacing);
std::string playerName = "";
@ -113,6 +117,10 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
inStream.Read(isBestFriendRequest);
auto requestor = playerContainer.GetPlayerData(requestorPlayerID);
if (requestor->playerName == playerName) {
SendFriendResponse(requestor, requestor, eAddFriendResponseType::MYTHRAN);
return;
};
std::unique_ptr<PlayerData> requestee(playerContainer.GetPlayerData(playerName));
// Check if player is online first
@ -148,7 +156,7 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
requestee.reset(new PlayerData());
requestee->playerName = playerName;
SendFriendResponse(requestor, requestee.get(), result->next() ? AddFriendResponseType::NOTONLINE : AddFriendResponseType::INVALIDCHARACTER);
SendFriendResponse(requestor, requestee.get(), result->next() ? eAddFriendResponseType::NOTONLINE : eAddFriendResponseType::INVALIDCHARACTER);
return;
}
@ -173,10 +181,10 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
bestFriendStatus = oldBestFriendStatus;
// Set the bits
GeneralUtils::SetBit(queryPlayerID, static_cast<size_t>(eObjectBits::OBJECT_BIT_CHARACTER));
GeneralUtils::SetBit(queryPlayerID, static_cast<size_t>(eObjectBits::OBJECT_BIT_PERSISTENT));
GeneralUtils::SetBit(queryFriendID, static_cast<size_t>(eObjectBits::OBJECT_BIT_CHARACTER));
GeneralUtils::SetBit(queryFriendID, static_cast<size_t>(eObjectBits::OBJECT_BIT_PERSISTENT));
GeneralUtils::SetBit(queryPlayerID, eObjectBits::CHARACTER);
GeneralUtils::SetBit(queryPlayerID, eObjectBits::PERSISTENT);
GeneralUtils::SetBit(queryFriendID, eObjectBits::CHARACTER);
GeneralUtils::SetBit(queryFriendID, eObjectBits::PERSISTENT);
// Since this player can either be the friend of someone else or be friends with someone else
// their column in the database determines what bit gets set. When the value hits 3, they
@ -192,10 +200,10 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
if (oldBestFriendStatus != bestFriendStatus) {
if (requestee->countOfBestFriends >= maxNumberOfBestFriends || requestor->countOfBestFriends >= maxNumberOfBestFriends) {
if (requestee->countOfBestFriends >= maxNumberOfBestFriends) {
SendFriendResponse(requestor, requestee.get(), AddFriendResponseType::THEIRFRIENDLISTFULL, false);
SendFriendResponse(requestor, requestee.get(), eAddFriendResponseType::THEIRFRIENDLISTFULL, false);
}
if (requestor->countOfBestFriends >= maxNumberOfBestFriends) {
SendFriendResponse(requestor, requestee.get(), AddFriendResponseType::YOURFRIENDSLISTFULL, false);
SendFriendResponse(requestor, requestee.get(), eAddFriendResponseType::YOURFRIENDSLISTFULL, false);
}
} else {
// Then update the database with this new info.
@ -210,8 +218,8 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
if (bestFriendStatus == 3U) {
requestee->countOfBestFriends += 1;
requestor->countOfBestFriends += 1;
if (requestee->sysAddr != UNASSIGNED_SYSTEM_ADDRESS) SendFriendResponse(requestee.get(), requestor, AddFriendResponseType::ACCEPTED, false, true);
if (requestor->sysAddr != UNASSIGNED_SYSTEM_ADDRESS) SendFriendResponse(requestor, requestee.get(), AddFriendResponseType::ACCEPTED, false, true);
if (requestee->sysAddr != UNASSIGNED_SYSTEM_ADDRESS) SendFriendResponse(requestee.get(), requestor, eAddFriendResponseType::ACCEPTED, false, true);
if (requestor->sysAddr != UNASSIGNED_SYSTEM_ADDRESS) SendFriendResponse(requestor, requestee.get(), eAddFriendResponseType::ACCEPTED, false, true);
for (auto& friendData : requestor->friends) {
if (friendData.friendID == requestee->playerID) {
friendData.isBestFriend = true;
@ -225,7 +233,7 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
}
}
} else {
if (requestor->sysAddr != UNASSIGNED_SYSTEM_ADDRESS) SendFriendResponse(requestor, requestee.get(), AddFriendResponseType::WAITINGAPPROVAL, true, true);
if (requestor->sysAddr != UNASSIGNED_SYSTEM_ADDRESS) SendFriendResponse(requestor, requestee.get(), eAddFriendResponseType::WAITINGAPPROVAL, true, true);
}
} else {
// Do not send this if we are requesting to be a best friend.
@ -237,12 +245,11 @@ void ChatPacketHandler::HandleFriendRequest(Packet* packet) {
}
void ChatPacketHandler::HandleFriendResponse(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID;
inStream.Read(playerID);
inStream.Read(playerID);
AddFriendResponseCode clientResponseCode = static_cast<AddFriendResponseCode>(packet->data[0x14]);
eAddFriendResponseCode clientResponseCode = static_cast<eAddFriendResponseCode>(packet->data[0x14]);
std::string friendName = PacketUtils::ReadString(0x15, packet, true);
//Now to try and find both of these:
@ -250,29 +257,29 @@ void ChatPacketHandler::HandleFriendResponse(Packet* packet) {
auto requestee = playerContainer.GetPlayerData(friendName);
if (!requestor || !requestee) return;
AddFriendResponseType serverResponseCode{};
eAddFriendResponseType serverResponseCode{};
uint8_t isAlreadyBestFriends = 0U;
// We need to convert this response code to one we can actually send back to the client.
switch (clientResponseCode) {
case AddFriendResponseCode::ACCEPTED:
serverResponseCode = AddFriendResponseType::ACCEPTED;
case eAddFriendResponseCode::ACCEPTED:
serverResponseCode = eAddFriendResponseType::ACCEPTED;
break;
case AddFriendResponseCode::BUSY:
serverResponseCode = AddFriendResponseType::BUSY;
case eAddFriendResponseCode::BUSY:
serverResponseCode = eAddFriendResponseType::BUSY;
break;
case AddFriendResponseCode::CANCELLED:
serverResponseCode = AddFriendResponseType::CANCELLED;
case eAddFriendResponseCode::CANCELLED:
serverResponseCode = eAddFriendResponseType::CANCELLED;
break;
case AddFriendResponseCode::REJECTED:
serverResponseCode = AddFriendResponseType::DECLINED;
case eAddFriendResponseCode::REJECTED:
serverResponseCode = eAddFriendResponseType::DECLINED;
break;
}
// Now that we have handled the base cases, we need to check the other cases.
if (serverResponseCode == AddFriendResponseType::ACCEPTED) {
if (serverResponseCode == eAddFriendResponseType::ACCEPTED) {
for (auto friendData : requestor->friends) {
if (friendData.friendID == requestee->playerID) {
serverResponseCode = AddFriendResponseType::ALREADYFRIEND;
serverResponseCode = eAddFriendResponseType::ALREADYFRIEND;
if (friendData.isBestFriend) {
isAlreadyBestFriends = 1U;
}
@ -281,7 +288,7 @@ void ChatPacketHandler::HandleFriendResponse(Packet* packet) {
}
// This message is NOT sent for best friends and is handled differently for those requests.
if (serverResponseCode == AddFriendResponseType::ACCEPTED) {
if (serverResponseCode == eAddFriendResponseType::ACCEPTED) {
// Add the each player to the others friend list.
FriendData requestorData;
requestorData.zoneID = requestor->zoneID;
@ -308,15 +315,14 @@ void ChatPacketHandler::HandleFriendResponse(Packet* packet) {
statement->execute();
}
if (serverResponseCode != AddFriendResponseType::DECLINED) SendFriendResponse(requestor, requestee, serverResponseCode, isAlreadyBestFriends);
if (serverResponseCode != AddFriendResponseType::ALREADYFRIEND) SendFriendResponse(requestee, requestor, serverResponseCode, isAlreadyBestFriends);
if (serverResponseCode != eAddFriendResponseType::DECLINED) SendFriendResponse(requestor, requestee, serverResponseCode, isAlreadyBestFriends);
if (serverResponseCode != eAddFriendResponseType::ALREADYFRIEND) SendFriendResponse(requestee, requestor, serverResponseCode, isAlreadyBestFriends);
}
void ChatPacketHandler::HandleRemoveFriend(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID;
inStream.Read(playerID);
inStream.Read(playerID);
std::string friendName = PacketUtils::ReadString(0x14, packet, true);
//we'll have to query the db here to find the user, since you can delete them while they're offline.
@ -331,8 +337,8 @@ void ChatPacketHandler::HandleRemoveFriend(Packet* packet) {
}
// Convert friendID to LWOOBJID
GeneralUtils::SetBit(friendID, static_cast<size_t>(eObjectBits::OBJECT_BIT_PERSISTENT));
GeneralUtils::SetBit(friendID, static_cast<size_t>(eObjectBits::OBJECT_BIT_CHARACTER));
GeneralUtils::SetBit(friendID, eObjectBits::PERSISTENT);
GeneralUtils::SetBit(friendID, eObjectBits::CHARACTER);
std::unique_ptr<sql::PreparedStatement> deletestmt(Database::CreatePreppedStmt("DELETE FROM friends WHERE (player_id = ? AND friend_id = ?) OR (player_id = ? AND friend_id = ?) LIMIT 1;"));
deletestmt->setUInt(1, static_cast<uint32_t>(playerID));
@ -371,10 +377,9 @@ void ChatPacketHandler::HandleRemoveFriend(Packet* packet) {
}
void ChatPacketHandler::HandleChatMessage(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
auto* sender = playerContainer.GetPlayerData(playerID);
@ -389,7 +394,7 @@ void ChatPacketHandler::HandleChatMessage(Packet* packet) {
uint8_t channel = 0;
inStream.Read(channel);
std::string message = PacketUtils::ReadString(0x66, packet, true);
std::string message = PacketUtils::ReadString(0x66, packet, true, 512);
Game::logger->Log("ChatPacketHandler", "Got a message from (%s) [%d]: %s", senderName.c_str(), channel, message.c_str());
@ -407,10 +412,10 @@ void ChatPacketHandler::HandleChatMessage(Packet* packet) {
const auto otherName = std::string(otherMember->playerName.c_str());
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(otherMember->playerID);
PacketUtils::WriteHeader(bitStream, CHAT, MSG_CHAT_PRIVATE_CHAT_MESSAGE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT, eChatMessageType::PRIVATE_CHAT_MESSAGE);
bitStream.Write(otherMember->playerID);
bitStream.Write<uint8_t>(8);
bitStream.Write<unsigned int>(69);
@ -431,7 +436,7 @@ void ChatPacketHandler::HandleChatMessage(Packet* packet) {
void ChatPacketHandler::HandlePrivateChatMessage(Packet* packet) {
LWOOBJID senderID = PacketUtils::ReadPacketS64(0x08, packet);
std::string receiverName = PacketUtils::ReadString(0x66, packet, true);
std::string message = PacketUtils::ReadString(0xAA, packet, true);
std::string message = PacketUtils::ReadString(0xAA, packet, true, 512);
//Get the bois:
auto goonA = playerContainer.GetPlayerData(senderID);
@ -446,10 +451,10 @@ void ChatPacketHandler::HandlePrivateChatMessage(Packet* packet) {
//To the sender:
{
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(goonA->playerID);
PacketUtils::WriteHeader(bitStream, CHAT, MSG_CHAT_PRIVATE_CHAT_MESSAGE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT, eChatMessageType::PRIVATE_CHAT_MESSAGE);
bitStream.Write(goonA->playerID);
bitStream.Write<uint8_t>(7);
bitStream.Write<unsigned int>(69);
@ -469,10 +474,10 @@ void ChatPacketHandler::HandlePrivateChatMessage(Packet* packet) {
//To the receiver:
{
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(goonB->playerID);
PacketUtils::WriteHeader(bitStream, CHAT, MSG_CHAT_PRIVATE_CHAT_MESSAGE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT, eChatMessageType::PRIVATE_CHAT_MESSAGE);
bitStream.Write(goonA->playerID);
bitStream.Write<uint8_t>(7);
bitStream.Write<unsigned int>(69);
@ -491,10 +496,9 @@ void ChatPacketHandler::HandlePrivateChatMessage(Packet* packet) {
}
void ChatPacketHandler::HandleTeamInvite(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID;
inStream.Read(playerID);
inStream.Read(playerID);
std::string invitedPlayer = PacketUtils::ReadString(0x14, packet, true);
auto* player = playerContainer.GetPlayerData(playerID);
@ -532,10 +536,9 @@ void ChatPacketHandler::HandleTeamInvite(Packet* packet) {
}
void ChatPacketHandler::HandleTeamInviteResponse(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
uint32_t size = 0;
inStream.Read(size);
char declined = 0;
@ -566,10 +569,9 @@ void ChatPacketHandler::HandleTeamInviteResponse(Packet* packet) {
}
void ChatPacketHandler::HandleTeamLeave(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
uint32_t size = 0;
inStream.Read(size);
@ -583,10 +585,9 @@ void ChatPacketHandler::HandleTeamLeave(Packet* packet) {
}
void ChatPacketHandler::HandleTeamKick(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
std::string kickedPlayer = PacketUtils::ReadString(0x14, packet, true);
@ -614,10 +615,9 @@ void ChatPacketHandler::HandleTeamKick(Packet* packet) {
}
void ChatPacketHandler::HandleTeamPromote(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
std::string promotedPlayer = PacketUtils::ReadString(0x14, packet, true);
@ -637,10 +637,9 @@ void ChatPacketHandler::HandleTeamPromote(Packet* packet) {
}
void ChatPacketHandler::HandleTeamLootOption(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
uint32_t size = 0;
inStream.Read(size);
@ -661,10 +660,9 @@ void ChatPacketHandler::HandleTeamLootOption(Packet* packet) {
}
void ChatPacketHandler::HandleTeamStatusRequest(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID = LWOOBJID_EMPTY;
inStream.Read(playerID);
inStream.Read(playerID);
auto* team = playerContainer.GetTeam(playerID);
auto* data = playerContainer.GetPlayerData(playerID);
@ -711,11 +709,11 @@ void ChatPacketHandler::HandleTeamStatusRequest(Packet* packet) {
void ChatPacketHandler::SendTeamInvite(PlayerData* receiver, PlayerData* sender) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_TEAM_INVITE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::TEAM_INVITE);
PacketUtils::WritePacketWString(sender->playerName.c_str(), 33, &bitStream);
bitStream.Write(sender->playerID);
@ -726,14 +724,14 @@ void ChatPacketHandler::SendTeamInvite(PlayerData* receiver, PlayerData* sender)
void ChatPacketHandler::SendTeamInviteConfirm(PlayerData* receiver, bool bLeaderIsFreeTrial, LWOOBJID i64LeaderID, LWOZONEID i64LeaderZoneID, uint8_t ucLootFlag, uint8_t ucNumOfOtherPlayers, uint8_t ucResponseCode, std::u16string wsLeaderName) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
CMSGHEADER;
bitStream.Write(receiver->playerID);
bitStream.Write(GAME_MSG::GAME_MSG_TEAM_INVITE_CONFIRM);
bitStream.Write(eGameMessageType::TEAM_INVITE_CONFIRM);
bitStream.Write(bLeaderIsFreeTrial);
bitStream.Write(i64LeaderID);
@ -753,14 +751,14 @@ void ChatPacketHandler::SendTeamInviteConfirm(PlayerData* receiver, bool bLeader
void ChatPacketHandler::SendTeamStatus(PlayerData* receiver, LWOOBJID i64LeaderID, LWOZONEID i64LeaderZoneID, uint8_t ucLootFlag, uint8_t ucNumOfOtherPlayers, std::u16string wsLeaderName) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
CMSGHEADER;
bitStream.Write(receiver->playerID);
bitStream.Write(GAME_MSG::GAME_MSG_TEAM_GET_STATUS_RESPONSE);
bitStream.Write(eGameMessageType::TEAM_GET_STATUS_RESPONSE);
bitStream.Write(i64LeaderID);
bitStream.Write(i64LeaderZoneID);
@ -778,14 +776,14 @@ void ChatPacketHandler::SendTeamStatus(PlayerData* receiver, LWOOBJID i64LeaderI
void ChatPacketHandler::SendTeamSetLeader(PlayerData* receiver, LWOOBJID i64PlayerID) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
CMSGHEADER;
bitStream.Write(receiver->playerID);
bitStream.Write(GAME_MSG::GAME_MSG_TEAM_SET_LEADER);
bitStream.Write(eGameMessageType::TEAM_SET_LEADER);
bitStream.Write(i64PlayerID);
@ -795,14 +793,14 @@ void ChatPacketHandler::SendTeamSetLeader(PlayerData* receiver, LWOOBJID i64Play
void ChatPacketHandler::SendTeamAddPlayer(PlayerData* receiver, bool bIsFreeTrial, bool bLocal, bool bNoLootOnDeath, LWOOBJID i64PlayerID, std::u16string wsPlayerName, LWOZONEID zoneID) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
CMSGHEADER;
bitStream.Write(receiver->playerID);
bitStream.Write(GAME_MSG::GAME_MSG_TEAM_ADD_PLAYER);
bitStream.Write(eGameMessageType::TEAM_ADD_PLAYER);
bitStream.Write(bIsFreeTrial);
bitStream.Write(bLocal);
@ -824,14 +822,14 @@ void ChatPacketHandler::SendTeamAddPlayer(PlayerData* receiver, bool bIsFreeTria
void ChatPacketHandler::SendTeamRemovePlayer(PlayerData* receiver, bool bDisband, bool bIsKicked, bool bIsLeaving, bool bLocal, LWOOBJID i64LeaderID, LWOOBJID i64PlayerID, std::u16string wsPlayerName) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
CMSGHEADER;
bitStream.Write(receiver->playerID);
bitStream.Write(GAME_MSG::GAME_MSG_TEAM_REMOVE_PLAYER);
bitStream.Write(eGameMessageType::TEAM_REMOVE_PLAYER);
bitStream.Write(bDisband);
bitStream.Write(bIsKicked);
@ -850,14 +848,14 @@ void ChatPacketHandler::SendTeamRemovePlayer(PlayerData* receiver, bool bDisband
void ChatPacketHandler::SendTeamSetOffWorldFlag(PlayerData* receiver, LWOOBJID i64PlayerID, LWOZONEID zoneID) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
CMSGHEADER;
bitStream.Write(receiver->playerID);
bitStream.Write(GAME_MSG::GAME_MSG_TEAM_SET_OFF_WORLD_FLAG);
bitStream.Write(eGameMessageType::TEAM_SET_OFF_WORLD_FLAG);
bitStream.Write(i64PlayerID);
if (receiver->zoneID.GetCloneID() == zoneID.GetCloneID()) {
@ -884,11 +882,11 @@ void ChatPacketHandler::SendFriendUpdate(PlayerData* friendData, PlayerData* pla
[bool] - is FTP*/
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(friendData->playerID);
//portion that will get routed:
PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_UPDATE_FRIEND_NOTIFY);
PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::UPDATE_FRIEND_NOTIFY);
bitStream.Write<uint8_t>(notifyType);
std::string playerName = playerData->playerName.c_str();
@ -917,17 +915,17 @@ void ChatPacketHandler::SendFriendRequest(PlayerData* receiver, PlayerData* send
//Make sure people aren't requesting people that they're already friends with:
for (auto fr : receiver->friends) {
if (fr.friendID == sender->playerID) {
SendFriendResponse(sender, receiver, AddFriendResponseType::ALREADYFRIEND, fr.isBestFriend);
SendFriendResponse(sender, receiver, eAddFriendResponseType::ALREADYFRIEND, fr.isBestFriend);
return; //we have this player as a friend, yeet this function so it doesn't send another request.
}
}
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_ADD_FRIEND_REQUEST);
PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::ADD_FRIEND_REQUEST);
PacketUtils::WritePacketWString(sender->playerName.c_str(), 33, &bitStream);
bitStream.Write<uint8_t>(0); // This is a BFF flag however this is unused in live and does not have an implementation client side.
@ -935,22 +933,22 @@ void ChatPacketHandler::SendFriendRequest(PlayerData* receiver, PlayerData* send
SEND_PACKET;
}
void ChatPacketHandler::SendFriendResponse(PlayerData* receiver, PlayerData* sender, AddFriendResponseType responseCode, uint8_t isBestFriendsAlready, uint8_t isBestFriendRequest) {
void ChatPacketHandler::SendFriendResponse(PlayerData* receiver, PlayerData* sender, eAddFriendResponseType responseCode, uint8_t isBestFriendsAlready, uint8_t isBestFriendRequest) {
if (!receiver || !sender) return;
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
// Portion that will get routed:
PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_ADD_FRIEND_RESPONSE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::ADD_FRIEND_RESPONSE);
bitStream.Write(responseCode);
// For all requests besides accepted, write a flag that says whether or not we are already best friends with the receiver.
bitStream.Write<uint8_t>(responseCode != AddFriendResponseType::ACCEPTED ? isBestFriendsAlready : sender->sysAddr != UNASSIGNED_SYSTEM_ADDRESS);
bitStream.Write<uint8_t>(responseCode != eAddFriendResponseType::ACCEPTED ? isBestFriendsAlready : sender->sysAddr != UNASSIGNED_SYSTEM_ADDRESS);
// Then write the player name
PacketUtils::WritePacketWString(sender->playerName.c_str(), 33, &bitStream);
// Then if this is an acceptance code, write the following extra info.
if (responseCode == AddFriendResponseType::ACCEPTED) {
if (responseCode == eAddFriendResponseType::ACCEPTED) {
bitStream.Write(sender->playerID);
bitStream.Write(sender->zoneID);
bitStream.Write(isBestFriendRequest); //isBFF
@ -964,11 +962,11 @@ void ChatPacketHandler::SendRemoveFriend(PlayerData* receiver, std::string& pers
if (!receiver) return;
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_ROUTE_TO_PLAYER);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::ROUTE_TO_PLAYER);
bitStream.Write(receiver->playerID);
//portion that will get routed:
PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_REMOVE_FRIEND_RESPONSE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::REMOVE_FRIEND_RESPONSE);
bitStream.Write<uint8_t>(isSuccessful); //isOnline
PacketUtils::WritePacketWString(personToRemove, 33, &bitStream);

View File

@ -4,7 +4,7 @@
#include "BitStream.h"
struct PlayerData;
enum class AddFriendResponseType : uint8_t;
enum class eAddFriendResponseType : uint8_t;
namespace ChatPacketHandler {
void HandleFriendlistRequest(Packet* packet);
@ -35,6 +35,6 @@ namespace ChatPacketHandler {
void SendFriendUpdate(PlayerData* friendData, PlayerData* playerData, uint8_t notifyType, uint8_t isBestFriend);
void SendFriendRequest(PlayerData* receiver, PlayerData* sender);
void SendFriendResponse(PlayerData* receiver, PlayerData* sender, AddFriendResponseType responseCode, uint8_t isBestFriendsAlready = 0U, uint8_t isBestFriendRequest = 0U);
void SendFriendResponse(PlayerData* receiver, PlayerData* sender, eAddFriendResponseType responseCode, uint8_t isBestFriendsAlready = 0U, uint8_t isBestFriendRequest = 0U);
void SendRemoveFriend(PlayerData* receiver, std::string& personToRemove, bool isSuccessful);
};

View File

@ -9,23 +9,33 @@
#include "dLogger.h"
#include "Database.h"
#include "dConfig.h"
#include "dMessageIdentifiers.h"
#include "dChatFilter.h"
#include "Diagnostics.h"
#include "AssetManager.h"
#include "BinaryPathFinder.h"
#include "eConnectionType.h"
#include "PlayerContainer.h"
#include "ChatPacketHandler.h"
#include "eChatMessageType.h"
#include "eChatInternalMessageType.h"
#include "eWorldMessageType.h"
#include "Game.h"
namespace Game {
dLogger* logger;
dServer* server;
dConfig* config;
dChatFilter* chatFilter;
}
//RakNet includes:
#include "RakNetDefines.h"
#include <MessageIdentifiers.h>
namespace Game {
dLogger* logger = nullptr;
dServer* server = nullptr;
dConfig* config = nullptr;
dChatFilter* chatFilter = nullptr;
AssetManager* assetManager = nullptr;
bool shouldShutdown = false;
std::mt19937 randomEngine;
}
dLogger* SetupLogger();
void HandlePacket(Packet* packet);
@ -33,28 +43,45 @@ void HandlePacket(Packet* packet);
PlayerContainer playerContainer;
int main(int argc, char** argv) {
constexpr uint32_t chatFramerate = mediumFramerate;
constexpr uint32_t chatFrameDelta = mediumFrameDelta;
Diagnostics::SetProcessName("Chat");
Diagnostics::SetProcessFileName(argv[0]);
Diagnostics::Initialize();
//Create all the objects we need to run our service:
Game::logger = SetupLogger();
if (!Game::logger) return 0;
if (!Game::logger) return EXIT_FAILURE;
//Read our config:
Game::config = new dConfig((BinaryPathFinder::GetBinaryDir() / "chatconfig.ini").string());
Game::logger->SetLogToConsole(Game::config->GetValue("log_to_console") != "0");
Game::logger->SetLogDebugStatements(Game::config->GetValue("log_debug_statements") == "1");
Game::logger->Log("ChatServer", "Starting Chat server...");
Game::logger->Log("ChatServer", "Version: %i.%i", PROJECT_VERSION_MAJOR, PROJECT_VERSION_MINOR);
Game::logger->Log("ChatServer", "Compiled on: %s", __TIMESTAMP__);
//Read our config:
dConfig config("chatconfig.ini");
Game::config = &config;
Game::logger->SetLogToConsole(bool(std::stoi(config.GetValue("log_to_console"))));
Game::logger->SetLogDebugStatements(config.GetValue("log_debug_statements") == "1");
try {
std::string clientPathStr = Game::config->GetValue("client_location");
if (clientPathStr.empty()) clientPathStr = "./res";
std::filesystem::path clientPath = std::filesystem::path(clientPathStr);
if (clientPath.is_relative()) {
clientPath = BinaryPathFinder::GetBinaryDir() / clientPath;
}
Game::assetManager = new AssetManager(clientPath);
} catch (std::runtime_error& ex) {
Game::logger->Log("ChatServer", "Got an error while setting up assets: %s", ex.what());
return EXIT_FAILURE;
}
//Connect to the MySQL Database
std::string mysql_host = config.GetValue("mysql_host");
std::string mysql_database = config.GetValue("mysql_database");
std::string mysql_username = config.GetValue("mysql_username");
std::string mysql_password = config.GetValue("mysql_password");
std::string mysql_host = Game::config->GetValue("mysql_host");
std::string mysql_database = Game::config->GetValue("mysql_database");
std::string mysql_username = Game::config->GetValue("mysql_username");
std::string mysql_password = Game::config->GetValue("mysql_password");
try {
Database::Connect(mysql_host, mysql_database, mysql_username, mysql_password);
@ -63,12 +90,12 @@ int main(int argc, char** argv) {
Database::Destroy("ChatServer");
delete Game::server;
delete Game::logger;
return 0;
return EXIT_FAILURE;
}
//Find out the master's IP:
std::string masterIP;
int masterPort = 1000;
uint32_t masterPort = 1000;
sql::PreparedStatement* stmt = Database::CreatePreppedStmt("SELECT ip, port FROM servers WHERE name='master';");
auto res = stmt->executeQuery();
while (res->next()) {
@ -80,28 +107,32 @@ int main(int argc, char** argv) {
delete stmt;
//It's safe to pass 'localhost' here, as the IP is only used as the external IP.
int maxClients = 50;
int ourPort = 1501;
if (config.GetValue("max_clients") != "") maxClients = std::stoi(config.GetValue("max_clients"));
if (config.GetValue("port") != "") ourPort = std::atoi(config.GetValue("port").c_str());
uint32_t maxClients = 50;
uint32_t ourPort = 1501;
if (Game::config->GetValue("max_clients") != "") maxClients = std::stoi(Game::config->GetValue("max_clients"));
if (Game::config->GetValue("port") != "") ourPort = std::atoi(Game::config->GetValue("port").c_str());
Game::server = new dServer(config.GetValue("external_ip"), ourPort, 0, maxClients, false, true, Game::logger, masterIP, masterPort, ServerType::Chat);
Game::server = new dServer(Game::config->GetValue("external_ip"), ourPort, 0, maxClients, false, true, Game::logger, masterIP, masterPort, ServerType::Chat, Game::config, &Game::shouldShutdown);
Game::chatFilter = new dChatFilter("./res/chatplus_en_us", bool(std::stoi(config.GetValue("dont_generate_dcf"))));
Game::chatFilter = new dChatFilter(Game::assetManager->GetResPath().string() + "/chatplus_en_us", bool(std::stoi(Game::config->GetValue("dont_generate_dcf"))));
Game::randomEngine = std::mt19937(time(0));
//Run it until server gets a kill message from Master:
auto t = std::chrono::high_resolution_clock::now();
Packet* packet = nullptr;
int framesSinceLastFlush = 0;
int framesSinceMasterDisconnect = 0;
int framesSinceLastSQLPing = 0;
constexpr uint32_t logFlushTime = 30 * chatFramerate; // 30 seconds in frames
constexpr uint32_t sqlPingTime = 10 * 60 * chatFramerate; // 10 minutes in frames
uint32_t framesSinceLastFlush = 0;
uint32_t framesSinceMasterDisconnect = 0;
uint32_t framesSinceLastSQLPing = 0;
while (true) {
while (!Game::shouldShutdown) {
//Check if we're still connected to master:
if (!Game::server->GetIsConnectedToMaster()) {
framesSinceMasterDisconnect++;
if (framesSinceMasterDisconnect >= 30)
if (framesSinceMasterDisconnect >= chatFramerate)
break; //Exit our loop, shut down.
} else framesSinceMasterDisconnect = 0;
@ -117,16 +148,16 @@ int main(int argc, char** argv) {
}
//Push our log every 30s:
if (framesSinceLastFlush >= 900) {
if (framesSinceLastFlush >= logFlushTime) {
Game::logger->Flush();
framesSinceLastFlush = 0;
} else framesSinceLastFlush++;
//Every 10 min we ping our sql server to keep it alive hopefully:
if (framesSinceLastSQLPing >= 40000) {
if (framesSinceLastSQLPing >= sqlPingTime) {
//Find out the master's IP for absolutely no reason:
std::string masterIP;
int masterPort;
uint32_t masterPort;
sql::PreparedStatement* stmt = Database::CreatePreppedStmt("SELECT ip, port FROM servers WHERE name='master';");
auto res = stmt->executeQuery();
while (res->next()) {
@ -141,7 +172,7 @@ int main(int argc, char** argv) {
} else framesSinceLastSQLPing++;
//Sleep our thread since auth can afford to.
t += std::chrono::milliseconds(mediumFramerate); //Chat can run at a lower "fps"
t += std::chrono::milliseconds(chatFrameDelta); //Chat can run at a lower "fps"
std::this_thread::sleep_until(t);
}
@ -149,13 +180,13 @@ int main(int argc, char** argv) {
Database::Destroy("ChatServer");
delete Game::server;
delete Game::logger;
delete Game::config;
exit(EXIT_SUCCESS);
return EXIT_SUCCESS;
}
dLogger* SetupLogger() {
std::string logPath = "./logs/ChatServer_" + std::to_string(time(nullptr)) + ".log";
std::string logPath = (BinaryPathFinder::GetBinaryDir() / ("logs/ChatServer_" + std::to_string(time(nullptr)) + ".log")).string();
bool logToConsole = false;
bool logDebugStatements = false;
#ifdef _DEBUG
@ -175,25 +206,27 @@ void HandlePacket(Packet* packet) {
Game::logger->Log("ChatServer", "A server is connecting, awaiting user list.");
}
if (packet->data[1] == CHAT_INTERNAL) {
switch (packet->data[3]) {
case MSG_CHAT_INTERNAL_PLAYER_ADDED_NOTIFICATION:
if (packet->length < 4) return; // Nothing left to process. Need 4 bytes to continue.
if (static_cast<eConnectionType>(packet->data[1]) == eConnectionType::CHAT_INTERNAL) {
switch (static_cast<eChatInternalMessageType>(packet->data[3])) {
case eChatInternalMessageType::PLAYER_ADDED_NOTIFICATION:
playerContainer.InsertPlayer(packet);
break;
case MSG_CHAT_INTERNAL_PLAYER_REMOVED_NOTIFICATION:
case eChatInternalMessageType::PLAYER_REMOVED_NOTIFICATION:
playerContainer.RemovePlayer(packet);
break;
case MSG_CHAT_INTERNAL_MUTE_UPDATE:
case eChatInternalMessageType::MUTE_UPDATE:
playerContainer.MuteUpdate(packet);
break;
case MSG_CHAT_INTERNAL_CREATE_TEAM:
case eChatInternalMessageType::CREATE_TEAM:
playerContainer.CreateTeamServer(packet);
break;
case MSG_CHAT_INTERNAL_ANNOUNCEMENT: {
case eChatInternalMessageType::ANNOUNCEMENT: {
//we just forward this packet to every connected server
CINSTREAM;
Game::server->Send(&inStream, packet->systemAddress, true); //send to everyone except origin
@ -205,67 +238,67 @@ void HandlePacket(Packet* packet) {
}
}
if (packet->data[1] == CHAT) {
switch (packet->data[3]) {
case MSG_CHAT_GET_FRIENDS_LIST:
if (static_cast<eConnectionType>(packet->data[1]) == eConnectionType::CHAT) {
switch (static_cast<eChatMessageType>(packet->data[3])) {
case eChatMessageType::GET_FRIENDS_LIST:
ChatPacketHandler::HandleFriendlistRequest(packet);
break;
case MSG_CHAT_GET_IGNORE_LIST:
case eChatMessageType::GET_IGNORE_LIST:
Game::logger->Log("ChatServer", "Asked for ignore list, but is unimplemented right now.");
break;
case MSG_CHAT_TEAM_GET_STATUS:
case eChatMessageType::TEAM_GET_STATUS:
ChatPacketHandler::HandleTeamStatusRequest(packet);
break;
case MSG_CHAT_ADD_FRIEND_REQUEST:
case eChatMessageType::ADD_FRIEND_REQUEST:
//this involves someone sending the initial request, the response is below, response as in from the other player.
//We basically just check to see if this player is online or not and route the packet.
ChatPacketHandler::HandleFriendRequest(packet);
break;
case MSG_CHAT_ADD_FRIEND_RESPONSE:
case eChatMessageType::ADD_FRIEND_RESPONSE:
//This isn't the response a server sent, rather it is a player's response to a received request.
//Here, we'll actually have to add them to eachother's friend lists depending on the response code.
ChatPacketHandler::HandleFriendResponse(packet);
break;
case MSG_CHAT_REMOVE_FRIEND:
case eChatMessageType::REMOVE_FRIEND:
ChatPacketHandler::HandleRemoveFriend(packet);
break;
case MSG_CHAT_GENERAL_CHAT_MESSAGE:
case eChatMessageType::GENERAL_CHAT_MESSAGE:
ChatPacketHandler::HandleChatMessage(packet);
break;
case MSG_CHAT_PRIVATE_CHAT_MESSAGE:
case eChatMessageType::PRIVATE_CHAT_MESSAGE:
//This message is supposed to be echo'd to both the sender and the receiver
//BUT: they have to have different responseCodes, so we'll do some of the ol hacky wacky to fix that right up.
ChatPacketHandler::HandlePrivateChatMessage(packet);
break;
case MSG_CHAT_TEAM_INVITE:
case eChatMessageType::TEAM_INVITE:
ChatPacketHandler::HandleTeamInvite(packet);
break;
case MSG_CHAT_TEAM_INVITE_RESPONSE:
case eChatMessageType::TEAM_INVITE_RESPONSE:
ChatPacketHandler::HandleTeamInviteResponse(packet);
break;
case MSG_CHAT_TEAM_LEAVE:
case eChatMessageType::TEAM_LEAVE:
ChatPacketHandler::HandleTeamLeave(packet);
break;
case MSG_CHAT_TEAM_SET_LEADER:
case eChatMessageType::TEAM_SET_LEADER:
ChatPacketHandler::HandleTeamPromote(packet);
break;
case MSG_CHAT_TEAM_KICK:
case eChatMessageType::TEAM_KICK:
ChatPacketHandler::HandleTeamKick(packet);
break;
case MSG_CHAT_TEAM_SET_LOOT:
case eChatMessageType::TEAM_SET_LOOT:
ChatPacketHandler::HandleTeamLootOption(packet);
break;
@ -274,9 +307,9 @@ void HandlePacket(Packet* packet) {
}
}
if (packet->data[1] == WORLD) {
switch (packet->data[3]) {
case MSG_WORLD_CLIENT_ROUTE_PACKET: {
if (static_cast<eConnectionType>(packet->data[1]) == eConnectionType::WORLD) {
switch (static_cast<eWorldMessageType>(packet->data[3])) {
case eWorldMessageType::ROUTE_PACKET: {
Game::logger->Log("ChatServer", "Routing packet from world");
break;
}

View File

@ -6,9 +6,10 @@
#include "dLogger.h"
#include "ChatPacketHandler.h"
#include "GeneralUtils.h"
#include "dMessageIdentifiers.h"
#include "PacketUtils.h"
#include "Database.h"
#include "eConnectionType.h"
#include "eChatInternalMessageType.h"
PlayerContainer::PlayerContainer() {
}
@ -18,9 +19,8 @@ PlayerContainer::~PlayerContainer() {
}
void PlayerContainer::InsertPlayer(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
PlayerData* data = new PlayerData();
inStream.SetReadOffset(inStream.GetReadOffset() + 64);
inStream.Read(data->playerID);
uint32_t len;
@ -51,9 +51,8 @@ void PlayerContainer::InsertPlayer(Packet* packet) {
}
void PlayerContainer::RemovePlayer(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID;
inStream.Read(playerID); //skip header
inStream.Read(playerID);
//Before they get kicked, we need to also send a message to their friends saying that they disconnected.
@ -96,9 +95,8 @@ void PlayerContainer::RemovePlayer(Packet* packet) {
}
void PlayerContainer::MuteUpdate(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID;
inStream.Read(playerID); //skip header
inStream.Read(playerID);
time_t expire = 0;
inStream.Read(expire);
@ -117,9 +115,8 @@ void PlayerContainer::MuteUpdate(Packet* packet) {
}
void PlayerContainer::CreateTeamServer(Packet* packet) {
CINSTREAM;
CINSTREAM_SKIP_HEADER;
LWOOBJID playerID;
inStream.Read(playerID); //skip header
inStream.Read(playerID);
size_t membersSize = 0;
inStream.Read(membersSize);
@ -149,7 +146,7 @@ void PlayerContainer::CreateTeamServer(Packet* packet) {
void PlayerContainer::BroadcastMuteUpdate(LWOOBJID player, time_t time) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_MUTE_UPDATE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::MUTE_UPDATE);
bitStream.Write(player);
bitStream.Write(time);
@ -348,7 +345,7 @@ void PlayerContainer::TeamStatusUpdate(TeamData* team) {
void PlayerContainer::UpdateTeamsOnWorld(TeamData* team, bool deleteTeam) {
CBITSTREAM;
PacketUtils::WriteHeader(bitStream, CHAT_INTERNAL, MSG_CHAT_INTERNAL_TEAM_UPDATE);
PacketUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::TEAM_UPDATE);
bitStream.Write(team->teamID);
bitStream.Write(deleteTeam);

View File

@ -1,77 +1,79 @@
#include "AMFDeserialize.h"
#include "AMFFormat.h"
#include <stdexcept>
#include "Amf3.h"
/**
* AMF3 Reference document https://rtmp.veriskope.com/pdf/amf3-file-format-spec.pdf
* AMF3 Deserializer written by EmosewaMC
*/
AMFValue* AMFDeserialize::Read(RakNet::BitStream* inStream) {
AMFBaseValue* AMFDeserialize::Read(RakNet::BitStream* inStream) {
if (!inStream) return nullptr;
AMFValue* returnValue = nullptr;
AMFBaseValue* returnValue = nullptr;
// Read in the value type from the bitStream
int8_t marker;
eAmf marker;
inStream->Read(marker);
// Based on the typing, create the value associated with that and return the base value class
switch (marker) {
case AMFValueType::AMFUndefined: {
returnValue = new AMFUndefinedValue();
case eAmf::Undefined: {
returnValue = new AMFBaseValue();
break;
}
case AMFValueType::AMFNull: {
case eAmf::Null: {
returnValue = new AMFNullValue();
break;
}
case AMFValueType::AMFFalse: {
returnValue = new AMFFalseValue();
case eAmf::False: {
returnValue = new AMFBoolValue(false);
break;
}
case AMFValueType::AMFTrue: {
returnValue = new AMFTrueValue();
case eAmf::True: {
returnValue = new AMFBoolValue(true);
break;
}
case AMFValueType::AMFInteger: {
case eAmf::Integer: {
returnValue = ReadAmfInteger(inStream);
break;
}
case AMFValueType::AMFDouble: {
case eAmf::Double: {
returnValue = ReadAmfDouble(inStream);
break;
}
case AMFValueType::AMFString: {
case eAmf::String: {
returnValue = ReadAmfString(inStream);
break;
}
case AMFValueType::AMFArray: {
case eAmf::Array: {
returnValue = ReadAmfArray(inStream);
break;
}
// TODO We do not need these values, but if someone wants to implement them
// then please do so and add the corresponding unit tests.
case AMFValueType::AMFXMLDoc:
case AMFValueType::AMFDate:
case AMFValueType::AMFObject:
case AMFValueType::AMFXML:
case AMFValueType::AMFByteArray:
case AMFValueType::AMFVectorInt:
case AMFValueType::AMFVectorUInt:
case AMFValueType::AMFVectorDouble:
case AMFValueType::AMFVectorObject:
case AMFValueType::AMFDictionary: {
throw static_cast<AMFValueType>(marker);
// These values are unimplemented in the live client and will remain unimplemented
// unless someone modifies the client to allow serializing of these values.
case eAmf::XMLDoc:
case eAmf::Date:
case eAmf::Object:
case eAmf::XML:
case eAmf::ByteArray:
case eAmf::VectorInt:
case eAmf::VectorUInt:
case eAmf::VectorDouble:
case eAmf::VectorObject:
case eAmf::Dictionary: {
throw marker;
break;
}
default:
throw static_cast<AMFValueType>(marker);
throw std::invalid_argument("Invalid AMF3 marker" + std::to_string(static_cast<int32_t>(marker)));
break;
}
return returnValue;
@ -99,7 +101,7 @@ uint32_t AMFDeserialize::ReadU29(RakNet::BitStream* inStream) {
return actualNumber;
}
std::string AMFDeserialize::ReadString(RakNet::BitStream* inStream) {
const std::string AMFDeserialize::ReadString(RakNet::BitStream* inStream) {
auto length = ReadU29(inStream);
// Check if this is a reference
bool isReference = length % 2 == 1;
@ -113,48 +115,39 @@ std::string AMFDeserialize::ReadString(RakNet::BitStream* inStream) {
return value;
} else {
// Length is a reference to a previous index - use that as the read in value
return accessedElements[length];
return accessedElements.at(length);
}
}
AMFValue* AMFDeserialize::ReadAmfDouble(RakNet::BitStream* inStream) {
auto doubleValue = new AMFDoubleValue();
AMFBaseValue* AMFDeserialize::ReadAmfDouble(RakNet::BitStream* inStream) {
double value;
inStream->Read<double>(value);
doubleValue->SetDoubleValue(value);
return doubleValue;
return new AMFDoubleValue(value);
}
AMFValue* AMFDeserialize::ReadAmfArray(RakNet::BitStream* inStream) {
AMFBaseValue* AMFDeserialize::ReadAmfArray(RakNet::BitStream* inStream) {
auto arrayValue = new AMFArrayValue();
// Read size of dense array
auto sizeOfDenseArray = (ReadU29(inStream) >> 1);
// Then read Key'd portion
// Then read associative portion
while (true) {
auto key = ReadString(inStream);
// No more values when we encounter an empty string
// No more associative values when we encounter an empty string key
if (key.size() == 0) break;
arrayValue->InsertValue(key, Read(inStream));
arrayValue->Insert(key, Read(inStream));
}
// Finally read dense portion
for (uint32_t i = 0; i < sizeOfDenseArray; i++) {
arrayValue->PushBackValue(Read(inStream));
arrayValue->Insert(i, Read(inStream));
}
return arrayValue;
}
AMFValue* AMFDeserialize::ReadAmfString(RakNet::BitStream* inStream) {
auto stringValue = new AMFStringValue();
stringValue->SetStringValue(ReadString(inStream));
return stringValue;
AMFBaseValue* AMFDeserialize::ReadAmfString(RakNet::BitStream* inStream) {
return new AMFStringValue(ReadString(inStream));
}
AMFValue* AMFDeserialize::ReadAmfInteger(RakNet::BitStream* inStream) {
auto integerValue = new AMFIntegerValue();
integerValue->SetIntegerValue(ReadU29(inStream));
return integerValue;
AMFBaseValue* AMFDeserialize::ReadAmfInteger(RakNet::BitStream* inStream) {
return new AMFIntValue(ReadU29(inStream));
}

View File

@ -5,7 +5,8 @@
#include <vector>
#include <string>
class AMFValue;
class AMFBaseValue;
class AMFDeserialize {
public:
/**
@ -14,7 +15,7 @@ public:
* @param inStream inStream to read value from.
* @return Returns an AMFValue with all the information from the bitStream in it.
*/
AMFValue* Read(RakNet::BitStream* inStream);
AMFBaseValue* Read(RakNet::BitStream* inStream);
private:
/**
* @brief Private method to read a U29 integer from a bitstream
@ -30,7 +31,7 @@ private:
* @param inStream bitStream to read data from
* @return The read string
*/
std::string ReadString(RakNet::BitStream* inStream);
const std::string ReadString(RakNet::BitStream* inStream);
/**
* @brief Read an AMFDouble value from a bitStream
@ -38,7 +39,7 @@ private:
* @param inStream bitStream to read data from
* @return Double value represented as an AMFValue
*/
AMFValue* ReadAmfDouble(RakNet::BitStream* inStream);
AMFBaseValue* ReadAmfDouble(RakNet::BitStream* inStream);
/**
* @brief Read an AMFArray from a bitStream
@ -46,7 +47,7 @@ private:
* @param inStream bitStream to read data from
* @return Array value represented as an AMFValue
*/
AMFValue* ReadAmfArray(RakNet::BitStream* inStream);
AMFBaseValue* ReadAmfArray(RakNet::BitStream* inStream);
/**
* @brief Read an AMFString from a bitStream
@ -54,7 +55,7 @@ private:
* @param inStream bitStream to read data from
* @return String value represented as an AMFValue
*/
AMFValue* ReadAmfString(RakNet::BitStream* inStream);
AMFBaseValue* ReadAmfString(RakNet::BitStream* inStream);
/**
* @brief Read an AMFInteger from a bitStream
@ -62,7 +63,7 @@ private:
* @param inStream bitStream to read data from
* @return Integer value represented as an AMFValue
*/
AMFValue* ReadAmfInteger(RakNet::BitStream* inStream);
AMFBaseValue* ReadAmfInteger(RakNet::BitStream* inStream);
/**
* List of strings read so far saved to be read by reference.

View File

@ -1,171 +0,0 @@
#include "AMFFormat.h"
// AMFInteger
void AMFIntegerValue::SetIntegerValue(uint32_t value) {
this->value = value;
}
uint32_t AMFIntegerValue::GetIntegerValue() {
return this->value;
}
// AMFDouble
void AMFDoubleValue::SetDoubleValue(double value) {
this->value = value;
}
double AMFDoubleValue::GetDoubleValue() {
return this->value;
}
// AMFString
void AMFStringValue::SetStringValue(const std::string& value) {
this->value = value;
}
std::string AMFStringValue::GetStringValue() {
return this->value;
}
// AMFXMLDoc
void AMFXMLDocValue::SetXMLDocValue(const std::string& value) {
this->xmlData = value;
}
std::string AMFXMLDocValue::GetXMLDocValue() {
return this->xmlData;
}
// AMFDate
void AMFDateValue::SetDateValue(uint64_t value) {
this->millisecondTimestamp = value;
}
uint64_t AMFDateValue::GetDateValue() {
return this->millisecondTimestamp;
}
// AMFArray Insert Value
void AMFArrayValue::InsertValue(const std::string& key, AMFValue* value) {
this->associative.insert(std::make_pair(key, value));
}
// AMFArray Remove Value
void AMFArrayValue::RemoveValue(const std::string& key) {
_AMFArrayMap_::iterator it = this->associative.find(key);
if (it != this->associative.end()) {
this->associative.erase(it);
}
}
// AMFArray Find Value
AMFValue* AMFArrayValue::FindValue(const std::string& key) {
_AMFArrayMap_::iterator it = this->associative.find(key);
if (it != this->associative.end()) {
return it->second;
}
return nullptr;
}
// AMFArray Get Associative Iterator Begin
_AMFArrayMap_::iterator AMFArrayValue::GetAssociativeIteratorValueBegin() {
return this->associative.begin();
}
// AMFArray Get Associative Iterator End
_AMFArrayMap_::iterator AMFArrayValue::GetAssociativeIteratorValueEnd() {
return this->associative.end();
}
// AMFArray Push Back Value
void AMFArrayValue::PushBackValue(AMFValue* value) {
this->dense.push_back(value);
}
// AMFArray Pop Back Value
void AMFArrayValue::PopBackValue() {
this->dense.pop_back();
}
// AMFArray Get Dense List Size
uint32_t AMFArrayValue::GetDenseValueSize() {
return (uint32_t)this->dense.size();
}
// AMFArray Get value at index in Dense List
AMFValue* AMFArrayValue::GetValueAt(uint32_t index) {
return this->dense.at(index);
}
// AMFArray Get Dense Iterator Begin
_AMFArrayList_::iterator AMFArrayValue::GetDenseIteratorBegin() {
return this->dense.begin();
}
// AMFArray Get Dense Iterator End
_AMFArrayList_::iterator AMFArrayValue::GetDenseIteratorEnd() {
return this->dense.end();
}
AMFArrayValue::~AMFArrayValue() {
for (auto valueToDelete : GetDenseArray()) {
if (valueToDelete) delete valueToDelete;
}
for (auto valueToDelete : GetAssociativeMap()) {
if (valueToDelete.second) delete valueToDelete.second;
}
}
// AMFObject Constructor
AMFObjectValue::AMFObjectValue(std::vector<std::pair<std::string, AMFValueType>> traits) {
this->traits.reserve(traits.size());
std::vector<std::pair<std::string, AMFValueType>>::iterator it = traits.begin();
while (it != traits.end()) {
this->traits.insert(std::make_pair(it->first, std::make_pair(it->second, new AMFNullValue())));
it++;
}
}
// AMFObject Set Value
void AMFObjectValue::SetTraitValue(const std::string& trait, AMFValue* value) {
if (value) {
_AMFObjectTraits_::iterator it = this->traits.find(trait);
if (it != this->traits.end()) {
if (it->second.first == value->GetValueType()) {
it->second.second = value;
}
}
}
}
// AMFObject Get Value
AMFValue* AMFObjectValue::GetTraitValue(const std::string& trait) {
_AMFObjectTraits_::iterator it = this->traits.find(trait);
if (it != this->traits.end()) {
return it->second.second;
}
return nullptr;
}
// AMFObject Get Trait Iterator Begin
_AMFObjectTraits_::iterator AMFObjectValue::GetTraitsIteratorBegin() {
return this->traits.begin();
}
// AMFObject Get Trait Iterator End
_AMFObjectTraits_::iterator AMFObjectValue::GetTraitsIteratorEnd() {
return this->traits.end();
}
// AMFObject Get Trait Size
uint32_t AMFObjectValue::GetTraitArrayCount() {
return (uint32_t)this->traits.size();
}
AMFObjectValue::~AMFObjectValue() {
for (auto valueToDelete = GetTraitsIteratorBegin(); valueToDelete != GetTraitsIteratorEnd(); valueToDelete++) {
if (valueToDelete->second.second) delete valueToDelete->second.second;
}
}

View File

@ -1,384 +0,0 @@
#pragma once
// Custom Classes
#include "dCommonVars.h"
// C++
#include <unordered_map>
#include <vector>
/*!
\file AMFFormat.hpp
\brief A class for managing AMF values
*/
class AMFValue; // Forward declaration
// Definitions
#define _AMFArrayMap_ std::unordered_map<std::string, AMFValue*>
#define _AMFArrayList_ std::vector<AMFValue*>
#define _AMFObjectTraits_ std::unordered_map<std::string, std::pair<AMFValueType, AMFValue*>>
#define _AMFObjectDynamicTraits_ std::unordered_map<std::string, AMFValue*>
//! An enum for each AMF value type
enum AMFValueType : unsigned char {
AMFUndefined = 0x00, //!< An undefined AMF Value
AMFNull = 0x01, //!< A null AMF value
AMFFalse = 0x02, //!< A false AMF value
AMFTrue = 0x03, //!< A true AMF value
AMFInteger = 0x04, //!< An integer AMF value
AMFDouble = 0x05, //!< A double AMF value
AMFString = 0x06, //!< A string AMF value
AMFXMLDoc = 0x07, //!< An XML Doc AMF value
AMFDate = 0x08, //!< A date AMF value
AMFArray = 0x09, //!< An array AMF value
AMFObject = 0x0A, //!< An object AMF value
AMFXML = 0x0B, //!< An XML AMF value
AMFByteArray = 0x0C, //!< A byte array AMF value
AMFVectorInt = 0x0D, //!< An integer vector AMF value
AMFVectorUInt = 0x0E, //!< An unsigned integer AMF value
AMFVectorDouble = 0x0F, //!< A double vector AMF value
AMFVectorObject = 0x10, //!< An object vector AMF value
AMFDictionary = 0x11 //!< A dictionary AMF value
};
//! An enum for the object value types
enum AMFObjectValueType : unsigned char {
AMFObjectAnonymous = 0x01,
AMFObjectTyped = 0x02,
AMFObjectDynamic = 0x03,
AMFObjectExternalizable = 0x04
};
//! The base AMF value class
class AMFValue {
public:
//! Returns the AMF value type
/*!
\return The AMF value type
*/
virtual AMFValueType GetValueType() = 0;
virtual ~AMFValue() {};
};
//! A typedef for a pointer to an AMF value
typedef AMFValue* NDGFxValue;
// The various AMF value types
//! The undefined value AMF type
class AMFUndefinedValue : public AMFValue {
private:
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFUndefined; }
};
//! The null value AMF type
class AMFNullValue : public AMFValue {
private:
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFNull; }
};
//! The false value AMF type
class AMFFalseValue : public AMFValue {
private:
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFFalse; }
};
//! The true value AMF type
class AMFTrueValue : public AMFValue {
private:
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFTrue; }
};
//! The integer value AMF type
class AMFIntegerValue : public AMFValue {
private:
uint32_t value; //!< The value of the AMF type
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFInteger; }
public:
//! Sets the integer value
/*!
\param value The value to set
*/
void SetIntegerValue(uint32_t value);
//! Gets the integer value
/*!
\return The integer value
*/
uint32_t GetIntegerValue();
};
//! The double value AMF type
class AMFDoubleValue : public AMFValue {
private:
double value; //!< The value of the AMF type
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFDouble; }
public:
//! Sets the double value
/*!
\param value The value to set to
*/
void SetDoubleValue(double value);
//! Gets the double value
/*!
\return The double value
*/
double GetDoubleValue();
};
//! The string value AMF type
class AMFStringValue : public AMFValue {
private:
std::string value; //!< The value of the AMF type
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFString; }
public:
//! Sets the string value
/*!
\param value The string value to set to
*/
void SetStringValue(const std::string& value);
//! Gets the string value
/*!
\return The string value
*/
std::string GetStringValue();
};
//! The XML doc value AMF type
class AMFXMLDocValue : public AMFValue {
private:
std::string xmlData; //!< The value of the AMF type
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFXMLDoc; }
public:
//! Sets the XML Doc value
/*!
\param value The value to set to
*/
void SetXMLDocValue(const std::string& value);
//! Gets the XML Doc value
/*!
\return The XML Doc value
*/
std::string GetXMLDocValue();
};
//! The date value AMF type
class AMFDateValue : public AMFValue {
private:
uint64_t millisecondTimestamp; //!< The time in milliseconds since the ephoch
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFDate; }
public:
//! Sets the date time
/*!
\param value The value to set to
*/
void SetDateValue(uint64_t value);
//! Gets the date value
/*!
\return The date value in milliseconds since the epoch
*/
uint64_t GetDateValue();
};
//! The array value AMF type
// This object will manage it's own memory map and list. Do not delete its values.
class AMFArrayValue : public AMFValue {
private:
_AMFArrayMap_ associative; //!< The array map (associative part)
_AMFArrayList_ dense; //!< The array list (dense part)
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFArray; }
public:
~AMFArrayValue() override;
//! Inserts an item into the array map for a specific key
/*!
\param key The key to set
\param value The value to add
*/
void InsertValue(const std::string& key, AMFValue* value);
//! Removes an item for a specific key
/*!
\param key The key to remove
*/
void RemoveValue(const std::string& key);
//! Finds an AMF value
/*!
\return The AMF value if found, nullptr otherwise
*/
AMFValue* FindValue(const std::string& key);
//! Returns where the associative iterator begins
/*!
\return Where the array map iterator begins
*/
_AMFArrayMap_::iterator GetAssociativeIteratorValueBegin();
//! Returns where the associative iterator ends
/*!
\return Where the array map iterator ends
*/
_AMFArrayMap_::iterator GetAssociativeIteratorValueEnd();
//! Pushes back a value into the array list
/*!
\param value The value to push back
*/
void PushBackValue(AMFValue* value);
//! Pops back the last value in the array list
void PopBackValue();
//! Gets the count of the dense list
/*!
\return The dense list size
*/
uint32_t GetDenseValueSize();
//! Gets a specific value from the list for the specified index
/*!
\param index The index to get
*/
AMFValue* GetValueAt(uint32_t index);
//! Returns where the dense iterator begins
/*!
\return Where the iterator begins
*/
_AMFArrayList_::iterator GetDenseIteratorBegin();
//! Returns where the dense iterator ends
/*!
\return Where the iterator ends
*/
_AMFArrayList_::iterator GetDenseIteratorEnd();
//! Returns the associative map
/*!
\return The associative map
*/
_AMFArrayMap_ GetAssociativeMap() { return this->associative; };
//! Returns the dense array
/*!
\return The dense array
*/
_AMFArrayList_ GetDenseArray() { return this->dense; };
};
//! The anonymous object value AMF type
class AMFObjectValue : public AMFValue {
private:
_AMFObjectTraits_ traits; //!< The object traits
//! Returns the AMF value type
/*!
\return The AMF value type
*/
AMFValueType GetValueType() { return AMFObject; }
~AMFObjectValue() override;
public:
//! Constructor
/*!
\param traits The traits to set
*/
AMFObjectValue(std::vector<std::pair<std::string, AMFValueType>> traits);
//! Gets the object value type
/*!
\return The object value type
*/
virtual AMFObjectValueType GetObjectValueType() { return AMFObjectAnonymous; }
//! Sets the value of a trait
/*!
\param trait The trait to set the value for
\param value The AMF value to set
*/
void SetTraitValue(const std::string& trait, AMFValue* value);
//! Gets a trait value
/*!
\param trait The trait to get the value for
\return The trait value
*/
AMFValue* GetTraitValue(const std::string& trait);
//! Gets the beginning of the object traits iterator
/*!
\return The AMF trait array iterator begin
*/
_AMFObjectTraits_::iterator GetTraitsIteratorBegin();
//! Gets the end of the object traits iterator
/*!
\return The AMF trait array iterator begin
*/
_AMFObjectTraits_::iterator GetTraitsIteratorEnd();
//! Gets the amount of traits
/*!
\return The amount of traits
*/
uint32_t GetTraitArrayCount();
};

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#include "AMFFormat_BitStream.h"
// Writes an AMFValue pointer to a RakNet::BitStream
template<>
void RakNet::BitStream::Write<AMFValue*>(AMFValue* value) {
if (value != nullptr) {
AMFValueType type = value->GetValueType();
switch (type) {
case AMFUndefined: {
AMFUndefinedValue* v = (AMFUndefinedValue*)value;
this->Write(*v);
break;
}
case AMFNull: {
AMFNullValue* v = (AMFNullValue*)value;
this->Write(*v);
break;
}
case AMFFalse: {
AMFFalseValue* v = (AMFFalseValue*)value;
this->Write(*v);
break;
}
case AMFTrue: {
AMFTrueValue* v = (AMFTrueValue*)value;
this->Write(*v);
break;
}
case AMFInteger: {
AMFIntegerValue* v = (AMFIntegerValue*)value;
this->Write(*v);
break;
}
case AMFDouble: {
AMFDoubleValue* v = (AMFDoubleValue*)value;
this->Write(*v);
break;
}
case AMFString: {
AMFStringValue* v = (AMFStringValue*)value;
this->Write(*v);
break;
}
case AMFXMLDoc: {
AMFXMLDocValue* v = (AMFXMLDocValue*)value;
this->Write(*v);
break;
}
case AMFDate: {
AMFDateValue* v = (AMFDateValue*)value;
this->Write(*v);
break;
}
case AMFArray: {
this->Write((AMFArrayValue*)value);
break;
}
}
}
}
/**
* A private function to write an value to a RakNet::BitStream
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteUInt29(RakNet::BitStream* bs, uint32_t v) {
unsigned char b4 = (unsigned char)v;
if (v < 0x00200000) {
b4 = b4 & 0x7F;
if (v > 0x7F) {
unsigned char b3;
v = v >> 7;
b3 = ((unsigned char)(v)) | 0x80;
if (v > 0x7F) {
unsigned char b2;
v = v >> 7;
b2 = ((unsigned char)(v)) | 0x80;
bs->Write(b2);
}
bs->Write(b3);
}
} else {
unsigned char b1;
unsigned char b2;
unsigned char b3;
v = v >> 8;
b3 = ((unsigned char)(v)) | 0x80;
v = v >> 7;
b2 = ((unsigned char)(v)) | 0x80;
v = v >> 7;
b1 = ((unsigned char)(v)) | 0x80;
bs->Write(b1);
bs->Write(b2);
bs->Write(b3);
}
bs->Write(b4);
}
/**
* Writes a flag number to a RakNet::BitStream
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteFlagNumber(RakNet::BitStream* bs, uint32_t v) {
v = (v << 1) | 0x01;
WriteUInt29(bs, v);
}
/**
* Writes an AMFString to a RakNet::BitStream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFString(RakNet::BitStream* bs, const std::string& str) {
WriteFlagNumber(bs, (uint32_t)str.size());
bs->Write(str.c_str(), (uint32_t)str.size());
}
/**
* Writes an U16 to a bitstream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFU16(RakNet::BitStream* bs, uint16_t value) {
bs->Write(value);
}
/**
* Writes an U32 to a bitstream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFU32(RakNet::BitStream* bs, uint32_t value) {
bs->Write(value);
}
/**
* Writes an U64 to a bitstream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFU64(RakNet::BitStream* bs, uint64_t value) {
bs->Write(value);
}
// Writes an AMFUndefinedValue to BitStream
template<>
void RakNet::BitStream::Write<AMFUndefinedValue>(AMFUndefinedValue value) {
this->Write(AMFUndefined);
}
// Writes an AMFNullValue to BitStream
template<>
void RakNet::BitStream::Write<AMFNullValue>(AMFNullValue value) {
this->Write(AMFNull);
}
// Writes an AMFFalseValue to BitStream
template<>
void RakNet::BitStream::Write<AMFFalseValue>(AMFFalseValue value) {
this->Write(AMFFalse);
}
// Writes an AMFTrueValue to BitStream
template<>
void RakNet::BitStream::Write<AMFTrueValue>(AMFTrueValue value) {
this->Write(AMFTrue);
}
// Writes an AMFIntegerValue to BitStream
template<>
void RakNet::BitStream::Write<AMFIntegerValue>(AMFIntegerValue value) {
this->Write(AMFInteger);
WriteUInt29(this, value.GetIntegerValue());
}
// Writes an AMFDoubleValue to BitStream
template<>
void RakNet::BitStream::Write<AMFDoubleValue>(AMFDoubleValue value) {
this->Write(AMFDouble);
double d = value.GetDoubleValue();
WriteAMFU64(this, *((unsigned long long*) & d));
}
// Writes an AMFStringValue to BitStream
template<>
void RakNet::BitStream::Write<AMFStringValue>(AMFStringValue value) {
this->Write(AMFString);
std::string v = value.GetStringValue();
WriteAMFString(this, v);
}
// Writes an AMFXMLDocValue to BitStream
template<>
void RakNet::BitStream::Write<AMFXMLDocValue>(AMFXMLDocValue value) {
this->Write(AMFXMLDoc);
std::string v = value.GetXMLDocValue();
WriteAMFString(this, v);
}
// Writes an AMFDateValue to BitStream
template<>
void RakNet::BitStream::Write<AMFDateValue>(AMFDateValue value) {
this->Write(AMFDate);
uint64_t date = value.GetDateValue();
WriteAMFU64(this, date);
}
// Writes an AMFArrayValue to BitStream
template<>
void RakNet::BitStream::Write<AMFArrayValue*>(AMFArrayValue* value) {
this->Write(AMFArray);
uint32_t denseSize = value->GetDenseValueSize();
WriteFlagNumber(this, denseSize);
_AMFArrayMap_::iterator it = value->GetAssociativeIteratorValueBegin();
_AMFArrayMap_::iterator end = value->GetAssociativeIteratorValueEnd();
while (it != end) {
WriteAMFString(this, it->first);
this->Write(it->second);
it++;
}
this->Write(AMFNull);
if (denseSize > 0) {
_AMFArrayList_::iterator it2 = value->GetDenseIteratorBegin();
_AMFArrayList_::iterator end2 = value->GetDenseIteratorEnd();
while (it2 != end2) {
this->Write(*it2);
it2++;
}
}
}

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#pragma once
// Custom Classes
#include "AMFFormat.h"
// RakNet
#include <BitStream.h>
/*!
\file AMFFormat_BitStream.h
\brief A class that implements native writing of AMF values to RakNet::BitStream
*/
// We are using the RakNet namespace
namespace RakNet {
//! Writes an AMFValue pointer to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFValue*>(AMFValue* value);
//! Writes an AMFUndefinedValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFUndefinedValue>(AMFUndefinedValue value);
//! Writes an AMFNullValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFNullValue>(AMFNullValue value);
//! Writes an AMFFalseValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFFalseValue>(AMFFalseValue value);
//! Writes an AMFTrueValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFTrueValue>(AMFTrueValue value);
//! Writes an AMFIntegerValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFIntegerValue>(AMFIntegerValue value);
//! Writes an AMFDoubleValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFDoubleValue>(AMFDoubleValue value);
//! Writes an AMFStringValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFStringValue>(AMFStringValue value);
//! Writes an AMFXMLDocValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFXMLDocValue>(AMFXMLDocValue value);
//! Writes an AMFDateValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFDateValue>(AMFDateValue value);
//! Writes an AMFArrayValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFArrayValue*>(AMFArrayValue* value);
} // namespace RakNet

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#ifndef __AMF3__H__
#define __AMF3__H__
#include "dCommonVars.h"
#include "dLogger.h"
#include "Game.h"
#include <unordered_map>
#include <vector>
enum class eAmf : uint8_t {
Undefined = 0x00, // An undefined AMF Value
Null = 0x01, // A null AMF value
False = 0x02, // A false AMF value
True = 0x03, // A true AMF value
Integer = 0x04, // An integer AMF value
Double = 0x05, // A double AMF value
String = 0x06, // A string AMF value
XMLDoc = 0x07, // Unused in the live client and cannot be serialized without modification. An XML Doc AMF value
Date = 0x08, // Unused in the live client and cannot be serialized without modification. A date AMF value
Array = 0x09, // An array AMF value
Object = 0x0A, // Unused in the live client and cannot be serialized without modification. An object AMF value
XML = 0x0B, // Unused in the live client and cannot be serialized without modification. An XML AMF value
ByteArray = 0x0C, // Unused in the live client and cannot be serialized without modification. A byte array AMF value
VectorInt = 0x0D, // Unused in the live client and cannot be serialized without modification. An integer vector AMF value
VectorUInt = 0x0E, // Unused in the live client and cannot be serialized without modification. An unsigned integer AMF value
VectorDouble = 0x0F, // Unused in the live client and cannot be serialized without modification. A double vector AMF value
VectorObject = 0x10, // Unused in the live client and cannot be serialized without modification. An object vector AMF value
Dictionary = 0x11 // Unused in the live client and cannot be serialized without modification. A dictionary AMF value
};
class AMFBaseValue {
public:
virtual eAmf GetValueType() { return eAmf::Undefined; };
AMFBaseValue() {};
virtual ~AMFBaseValue() {};
};
template<typename ValueType>
class AMFValue : public AMFBaseValue {
public:
AMFValue() {};
AMFValue(ValueType value) { SetValue(value); };
virtual ~AMFValue() override {};
eAmf GetValueType() override { return eAmf::Undefined; };
const ValueType& GetValue() { return data; };
void SetValue(ValueType value) { data = value; };
protected:
ValueType data;
};
// As a string this is much easier to write and read from a BitStream.
template<>
class AMFValue<const char*> : public AMFBaseValue {
public:
AMFValue() {};
AMFValue(const char* value) { SetValue(std::string(value)); };
virtual ~AMFValue() override {};
eAmf GetValueType() override { return eAmf::String; };
const std::string& GetValue() { return data; };
void SetValue(std::string value) { data = value; };
protected:
std::string data;
};
typedef AMFValue<std::nullptr_t> AMFNullValue;
typedef AMFValue<bool> AMFBoolValue;
typedef AMFValue<int32_t> AMFIntValue;
typedef AMFValue<std::string> AMFStringValue;
typedef AMFValue<double> AMFDoubleValue;
template<> inline eAmf AMFValue<std::nullptr_t>::GetValueType() { return eAmf::Null; };
template<> inline eAmf AMFValue<bool>::GetValueType() { return this->data ? eAmf::True : eAmf::False; };
template<> inline eAmf AMFValue<int32_t>::GetValueType() { return eAmf::Integer; };
template<> inline eAmf AMFValue<uint32_t>::GetValueType() { return eAmf::Integer; };
template<> inline eAmf AMFValue<std::string>::GetValueType() { return eAmf::String; };
template<> inline eAmf AMFValue<double>::GetValueType() { return eAmf::Double; };
/**
* The AMFArrayValue object holds 2 types of lists:
* An associative list where a key maps to a value
* A Dense list where elements are stored back to back
*
* Objects that are Registered are owned by this object
* and are not to be deleted by a caller.
*/
class AMFArrayValue : public AMFBaseValue {
typedef std::unordered_map<std::string, AMFBaseValue*> AMFAssociative;
typedef std::vector<AMFBaseValue*> AMFDense;
public:
eAmf GetValueType() override { return eAmf::Array; };
~AMFArrayValue() override {
for (auto valueToDelete : GetDense()) {
if (valueToDelete) {
delete valueToDelete;
valueToDelete = nullptr;
}
}
for (auto valueToDelete : GetAssociative()) {
if (valueToDelete.second) {
delete valueToDelete.second;
valueToDelete.second = nullptr;
}
}
};
/**
* Returns the Associative portion of the object
*/
inline AMFAssociative& GetAssociative() { return this->associative; };
/**
* Returns the dense portion of the object
*/
inline AMFDense& GetDense() { return this->dense; };
/**
* Inserts an AMFValue into the associative portion with the given key.
* If a duplicate is attempted to be inserted, it is ignored and the
* first value with that key is kept in the map.
*
* These objects are not to be deleted by the caller as they are owned by
* the AMFArray object which manages its own memory.
*
* @param key The key to associate with the value
* @param value The value to insert
*
* @return The inserted element if the type matched,
* or nullptr if a key existed and was not the same type
*/
template<typename ValueType>
std::pair<AMFValue<ValueType>*, bool> Insert(const std::string& key, ValueType value) {
auto element = associative.find(key);
AMFValue<ValueType>* val = nullptr;
bool found = true;
if (element == associative.end()) {
val = new AMFValue<ValueType>(value);
associative.insert(std::make_pair(key, val));
} else {
val = dynamic_cast<AMFValue<ValueType>*>(element->second);
found = false;
}
return std::make_pair(val, found);
};
// Associates an array with a string key
std::pair<AMFBaseValue*, bool> Insert(const std::string& key) {
auto element = associative.find(key);
AMFArrayValue* val = nullptr;
bool found = true;
if (element == associative.end()) {
val = new AMFArrayValue();
associative.insert(std::make_pair(key, val));
} else {
val = dynamic_cast<AMFArrayValue*>(element->second);
found = false;
}
return std::make_pair(val, found);
};
// Associates an array with an integer key
std::pair<AMFBaseValue*, bool> Insert(const uint32_t& index) {
AMFArrayValue* val = nullptr;
bool inserted = false;
if (index >= dense.size()) {
dense.resize(index + 1);
val = new AMFArrayValue();
dense.at(index) = val;
inserted = true;
}
return std::make_pair(dynamic_cast<AMFArrayValue*>(dense.at(index)), inserted);
};
/**
* @brief Inserts an AMFValue into the AMFArray key'd by index.
* Attempting to insert the same key to the same value twice overwrites
* the previous value with the new one.
*
* @param index The index to associate with the value
* @param value The value to insert
* @return The inserted element, or nullptr if the type did not match
* what was at the index.
*/
template<typename ValueType>
std::pair<AMFValue<ValueType>*, bool> Insert(const uint32_t& index, ValueType value) {
AMFValue<ValueType>* val = nullptr;
bool inserted = false;
if (index >= this->dense.size()) {
this->dense.resize(index + 1);
val = new AMFValue<ValueType>(value);
this->dense.at(index) = val;
inserted = true;
}
return std::make_pair(dynamic_cast<AMFValue<ValueType>*>(this->dense.at(index)), inserted);
};
/**
* Inserts an AMFValue into the associative portion with the given key.
* If a duplicate is attempted to be inserted, it replaces the original
*
* The inserted element is now owned by this object and is not to be deleted
*
* @param key The key to associate with the value
* @param value The value to insert
*/
void Insert(const std::string& key, AMFBaseValue* value) {
auto element = associative.find(key);
if (element != associative.end() && element->second) {
delete element->second;
element->second = value;
} else {
associative.insert(std::make_pair(key, value));
}
};
/**
* Inserts an AMFValue into the associative portion with the given index.
* If a duplicate is attempted to be inserted, it replaces the original
*
* The inserted element is now owned by this object and is not to be deleted
*
* @param key The key to associate with the value
* @param value The value to insert
*/
void Insert(const uint32_t index, AMFBaseValue* value) {
if (index < dense.size()) {
AMFDense::iterator itr = dense.begin() + index;
if (*itr) delete dense.at(index);
} else {
dense.resize(index + 1);
}
dense.at(index) = value;
};
/**
* Pushes an AMFValue into the back of the dense portion.
*
* These objects are not to be deleted by the caller as they are owned by
* the AMFArray object which manages its own memory.
*
* @param value The value to insert
*
* @return The inserted pointer, or nullptr should the key already be in use.
*/
template<typename ValueType>
inline AMFValue<ValueType>* Push(ValueType value) {
return Insert(this->dense.size(), value).first;
};
/**
* Removes the key from the associative portion
*
* The pointer removed is now no longer managed by this container
*
* @param key The key to remove from the associative portion
*/
void Remove(const std::string& key, bool deleteValue = true) {
AMFAssociative::iterator it = this->associative.find(key);
if (it != this->associative.end()) {
if (deleteValue) delete it->second;
this->associative.erase(it);
}
}
/**
* Pops the last element in the dense portion, deleting it in the process.
*/
void Remove(const uint32_t index) {
if (!this->dense.empty() && index < this->dense.size()) {
auto itr = this->dense.begin() + index;
if (*itr) delete (*itr);
this->dense.erase(itr);
}
}
void Pop() {
if (!this->dense.empty()) Remove(this->dense.size() - 1);
}
AMFArrayValue* GetArray(const std::string& key) {
AMFAssociative::const_iterator it = this->associative.find(key);
if (it != this->associative.end()) {
return dynamic_cast<AMFArrayValue*>(it->second);
}
return nullptr;
};
AMFArrayValue* GetArray(const uint32_t index) {
return index >= this->dense.size() ? nullptr : dynamic_cast<AMFArrayValue*>(this->dense.at(index));
};
inline AMFArrayValue* InsertArray(const std::string& key) {
return static_cast<AMFArrayValue*>(Insert(key).first);
};
inline AMFArrayValue* InsertArray(const uint32_t index) {
return static_cast<AMFArrayValue*>(Insert(index).first);
};
inline AMFArrayValue* PushArray() {
return static_cast<AMFArrayValue*>(Insert(this->dense.size()).first);
};
/**
* Gets an AMFValue by the key from the associative portion and converts it
* to the AmfValue template type. If the key did not exist, it is inserted.
*
* @tparam The target object type
* @param key The key to lookup
*
* @return The AMFValue
*/
template <typename AmfType>
AMFValue<AmfType>* Get(const std::string& key) const {
AMFAssociative::const_iterator it = this->associative.find(key);
return it != this->associative.end() ?
dynamic_cast<AMFValue<AmfType>*>(it->second) :
nullptr;
};
// Get from the array but dont cast it
AMFBaseValue* Get(const std::string& key) const {
AMFAssociative::const_iterator it = this->associative.find(key);
return it != this->associative.end() ? it->second : nullptr;
};
/**
* @brief Get an AMFValue object at a position in the dense portion.
* Gets an AMFValue by the index from the dense portion and converts it
* to the AmfValue template type. If the index did not exist, it is inserted.
*
* @tparam The target object type
* @param index The index to get
* @return The casted object, or nullptr.
*/
template <typename AmfType>
AMFValue<AmfType>* Get(uint32_t index) const {
return index < this->dense.size() ?
dynamic_cast<AMFValue<AmfType>*>(this->dense.at(index)) :
nullptr;
};
// Get from the dense but dont cast it
AMFBaseValue* Get(const uint32_t index) const {
return index < this->dense.size() ? this->dense.at(index) : nullptr;
};
private:
/**
* The associative portion. These values are key'd with strings to an AMFValue.
*/
AMFAssociative associative;
/**
* The dense portion. These AMFValue's are stored one after
* another with the most recent addition being at the back.
*/
AMFDense dense;
};
#endif //!__AMF3__H__

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#include "AmfSerialize.h"
#include "Game.h"
#include "dLogger.h"
// Writes an AMFValue pointer to a RakNet::BitStream
template<>
void RakNet::BitStream::Write<AMFBaseValue&>(AMFBaseValue& value) {
eAmf type = value.GetValueType();
this->Write(type);
switch (type) {
case eAmf::Integer: {
this->Write<AMFIntValue&>(*static_cast<AMFIntValue*>(&value));
break;
}
case eAmf::Double: {
this->Write<AMFDoubleValue&>(*static_cast<AMFDoubleValue*>(&value));
break;
}
case eAmf::String: {
this->Write<AMFStringValue&>(*static_cast<AMFStringValue*>(&value));
break;
}
case eAmf::Array: {
this->Write<AMFArrayValue&>(*static_cast<AMFArrayValue*>(&value));
break;
}
default: {
Game::logger->Log("AmfSerialize", "Encountered unwritable AMFType %i!", type);
}
case eAmf::Undefined:
case eAmf::Null:
case eAmf::False:
case eAmf::True:
case eAmf::Date:
case eAmf::Object:
case eAmf::XML:
case eAmf::XMLDoc:
case eAmf::ByteArray:
case eAmf::VectorInt:
case eAmf::VectorUInt:
case eAmf::VectorDouble:
case eAmf::VectorObject:
case eAmf::Dictionary:
break;
}
}
/**
* A private function to write an value to a RakNet::BitStream
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteUInt29(RakNet::BitStream* bs, uint32_t v) {
unsigned char b4 = (unsigned char)v;
if (v < 0x00200000) {
b4 = b4 & 0x7F;
if (v > 0x7F) {
unsigned char b3;
v = v >> 7;
b3 = ((unsigned char)(v)) | 0x80;
if (v > 0x7F) {
unsigned char b2;
v = v >> 7;
b2 = ((unsigned char)(v)) | 0x80;
bs->Write(b2);
}
bs->Write(b3);
}
} else {
unsigned char b1;
unsigned char b2;
unsigned char b3;
v = v >> 8;
b3 = ((unsigned char)(v)) | 0x80;
v = v >> 7;
b2 = ((unsigned char)(v)) | 0x80;
v = v >> 7;
b1 = ((unsigned char)(v)) | 0x80;
bs->Write(b1);
bs->Write(b2);
bs->Write(b3);
}
bs->Write(b4);
}
/**
* Writes a flag number to a RakNet::BitStream
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteFlagNumber(RakNet::BitStream* bs, uint32_t v) {
v = (v << 1) | 0x01;
WriteUInt29(bs, v);
}
/**
* Writes an AMFString to a RakNet::BitStream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFString(RakNet::BitStream* bs, const std::string& str) {
WriteFlagNumber(bs, (uint32_t)str.size());
bs->Write(str.c_str(), (uint32_t)str.size());
}
/**
* Writes an U16 to a bitstream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFU16(RakNet::BitStream* bs, uint16_t value) {
bs->Write(value);
}
/**
* Writes an U32 to a bitstream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFU32(RakNet::BitStream* bs, uint32_t value) {
bs->Write(value);
}
/**
* Writes an U64 to a bitstream
*
* RakNet writes in the correct byte order - do not reverse this.
*/
void WriteAMFU64(RakNet::BitStream* bs, uint64_t value) {
bs->Write(value);
}
// Writes an AMFIntegerValue to BitStream
template<>
void RakNet::BitStream::Write<AMFIntValue&>(AMFIntValue& value) {
WriteUInt29(this, value.GetValue());
}
// Writes an AMFDoubleValue to BitStream
template<>
void RakNet::BitStream::Write<AMFDoubleValue&>(AMFDoubleValue& value) {
double d = value.GetValue();
WriteAMFU64(this, *reinterpret_cast<uint64_t*>(&d));
}
// Writes an AMFStringValue to BitStream
template<>
void RakNet::BitStream::Write<AMFStringValue&>(AMFStringValue& value) {
WriteAMFString(this, value.GetValue());
}
// Writes an AMFArrayValue to BitStream
template<>
void RakNet::BitStream::Write<AMFArrayValue&>(AMFArrayValue& value) {
uint32_t denseSize = value.GetDense().size();
WriteFlagNumber(this, denseSize);
auto it = value.GetAssociative().begin();
auto end = value.GetAssociative().end();
while (it != end) {
WriteAMFString(this, it->first);
this->Write<AMFBaseValue&>(*it->second);
it++;
}
this->Write(eAmf::Null);
if (denseSize > 0) {
auto it2 = value.GetDense().begin();
auto end2 = value.GetDense().end();
while (it2 != end2) {
this->Write<AMFBaseValue&>(**it2);
it2++;
}
}
}

50
dCommon/AmfSerialize.h Normal file
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@ -0,0 +1,50 @@
#pragma once
// Custom Classes
#include "Amf3.h"
// RakNet
#include <BitStream.h>
/*!
\file AmfSerialize.h
\brief A class that implements native writing of AMF values to RakNet::BitStream
*/
// We are using the RakNet namespace
namespace RakNet {
//! Writes an AMFValue pointer to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFBaseValue&>(AMFBaseValue& value);
//! Writes an AMFIntegerValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFIntValue&>(AMFIntValue& value);
//! Writes an AMFDoubleValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFDoubleValue&>(AMFDoubleValue& value);
//! Writes an AMFStringValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFStringValue&>(AMFStringValue& value);
//! Writes an AMFArrayValue to a RakNet::BitStream
/*!
\param value The value to write
*/
template <>
void RakNet::BitStream::Write<AMFArrayValue&>(AMFArrayValue& value);
} // namespace RakNet

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@ -10,7 +10,7 @@ void BinaryIO::WriteString(const std::string& stringToWrite, std::ofstream& outs
}
//For reading null-terminated strings
std::string BinaryIO::ReadString(std::ifstream& instream) {
std::string BinaryIO::ReadString(std::istream& instream) {
std::string toReturn;
char buffer;
@ -25,7 +25,7 @@ std::string BinaryIO::ReadString(std::ifstream& instream) {
}
//For reading strings of a specific size
std::string BinaryIO::ReadString(std::ifstream& instream, size_t size) {
std::string BinaryIO::ReadString(std::istream& instream, size_t size) {
std::string toReturn;
char buffer;
@ -37,7 +37,7 @@ std::string BinaryIO::ReadString(std::ifstream& instream, size_t size) {
return toReturn;
}
std::string BinaryIO::ReadWString(std::ifstream& instream) {
std::string BinaryIO::ReadWString(std::istream& instream) {
size_t size;
BinaryRead(instream, size);
//toReturn.resize(size);

View File

@ -10,16 +10,15 @@ namespace BinaryIO {
template<typename T>
std::istream& BinaryRead(std::istream& stream, T& value) {
if (!stream.good())
printf("bla");
if (!stream.good()) throw std::runtime_error("Failed to read from istream.");
return stream.read(reinterpret_cast<char*>(&value), sizeof(T));
}
void WriteString(const std::string& stringToWrite, std::ofstream& outstream);
std::string ReadString(std::ifstream& instream);
std::string ReadString(std::ifstream& instream, size_t size);
std::string ReadWString(std::ifstream& instream);
std::string ReadString(std::istream& instream);
std::string ReadString(std::istream& instream, size_t size);
std::string ReadWString(std::istream& instream);
inline bool DoesFileExist(const std::string& name) {
std::ifstream f(name.c_str());

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@ -0,0 +1,71 @@
#include <filesystem>
#include <string>
#include "BinaryPathFinder.h"
#include "dPlatforms.h"
#if defined(DARKFLAME_PLATFORM_WIN32)
#include <Windows.h>
#elif defined(DARKFLAME_PLATFORM_MACOS) || defined(DARKFLAME_PLATFORM_IOS)
#include <mach-o/dyld.h>
#elif defined(DARKFLAME_PLATFORM_FREEBSD)
#include <sys/types.h>
#include <sys/sysctl.h>
#include <stdlib.h>
#endif
std::filesystem::path BinaryPathFinder::binaryDir;
std::filesystem::path BinaryPathFinder::GetBinaryDir() {
if (!binaryDir.empty()) {
return binaryDir;
}
std::string pathStr;
// Derived from boost::dll::program_location, licensed under the Boost Software License: http://www.boost.org/LICENSE_1_0.txt
#if defined(DARKFLAME_PLATFORM_WIN32)
char path[MAX_PATH];
GetModuleFileName(NULL, path, MAX_PATH);
pathStr = std::string(path);
#elif defined(DARKFLAME_PLATFORM_MACOS) || defined(DARKFLAME_PLATFORM_IOS)
char path[1024];
uint32_t size = sizeof(path);
if (_NSGetExecutablePath(path, &size) == 0) {
pathStr = std::string(path);
} else {
// The filepath size is greater than our initial buffer size, so try again with the size
// that _NSGetExecutablePath told us it actually is
char *p = new char[size];
if (_NSGetExecutablePath(p, &size) != 0) {
throw std::runtime_error("Failed to get binary path from _NSGetExecutablePath");
}
pathStr = std::string(p);
delete[] p;
}
#elif defined(DARKFLAME_PLATFORM_FREEBSD)
int mib[4];
mib[0] = CTL_KERN;
mib[1] = KERN_PROC;
mib[2] = KERN_PROC_PATHNAME;
mib[3] = -1;
char buf[10240];
size_t cb = sizeof(buf);
sysctl(mib, 4, buf, &cb, NULL, 0);
pathStr = std::string(buf);
#else // DARKFLAME_PLATFORM_LINUX || DARKFLAME_PLATFORM_UNIX || DARKFLAME_PLATFORM_ANDROID
pathStr = std::filesystem::read_symlink("/proc/self/exe");
#endif
// Some methods like _NSGetExecutablePath could return a symlink
// Either way, we need to get the parent path because we want the directory, not the binary itself
// We also ensure that it is an absolute path so that it is valid if we need to construct a path
// to exucute on unix systems (eg sudo BinaryPathFinder::GetBinaryDir() / WorldServer)
if (std::filesystem::is_symlink(pathStr)) {
binaryDir = std::filesystem::absolute(std::filesystem::read_symlink(pathStr).parent_path());
} else {
binaryDir = std::filesystem::absolute(std::filesystem::path(pathStr).parent_path());
}
return binaryDir;
}

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@ -0,0 +1,15 @@
#pragma once
#ifndef __BINARYPATHFINDER__H__
#define __BINARYPATHFINDER__H__
#include <filesystem>
class BinaryPathFinder {
private:
static std::filesystem::path binaryDir;
public:
static std::filesystem::path GetBinaryDir();
};
#endif //!__BINARYPATHFINDER__H__

11
dCommon/Brick.h Normal file
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@ -0,0 +1,11 @@
#ifndef __BRICK__H__
#define __BRICK__H__
#include <cstdint>
struct Brick {
uint32_t designerID;
uint32_t materialID;
};
#endif //!__BRICK__H__

180
dCommon/BrickByBrickFix.cpp Normal file
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@ -0,0 +1,180 @@
#include "BrickByBrickFix.h"
#include <memory>
#include <iostream>
#include <sstream>
#include "tinyxml2.h"
#include "Database.h"
#include "Game.h"
#include "ZCompression.h"
#include "dLogger.h"
//! Forward declarations
std::unique_ptr<sql::ResultSet> GetModelsFromDatabase();
void WriteSd0Magic(char* input, uint32_t chunkSize);
bool CheckSd0Magic(sql::Blob* streamToCheck);
/**
* @brief Truncates all models with broken data from the database.
*
* @return The number of models deleted
*/
uint32_t BrickByBrickFix::TruncateBrokenBrickByBrickXml() {
uint32_t modelsTruncated{};
auto modelsToTruncate = GetModelsFromDatabase();
bool previousCommitValue = Database::GetAutoCommit();
Database::SetAutoCommit(false);
while (modelsToTruncate->next()) {
std::unique_ptr<sql::PreparedStatement> ugcModelToDelete(Database::CreatePreppedStmt("DELETE FROM ugc WHERE ugc.id = ?;"));
std::unique_ptr<sql::PreparedStatement> pcModelToDelete(Database::CreatePreppedStmt("DELETE FROM properties_contents WHERE ugc_id = ?;"));
std::string completeUncompressedModel{};
uint32_t chunkCount{};
uint64_t modelId = modelsToTruncate->getInt(1);
std::unique_ptr<sql::Blob> modelAsSd0(modelsToTruncate->getBlob(2));
// Check that header is sd0 by checking for the sd0 magic.
if (CheckSd0Magic(modelAsSd0.get())) {
while (true) {
uint32_t chunkSize{};
modelAsSd0->read(reinterpret_cast<char*>(&chunkSize), sizeof(uint32_t)); // Extract chunk size from istream
// Check if good here since if at the end of an sd0 file, this will have eof flagged.
if (!modelAsSd0->good()) break;
std::unique_ptr<uint8_t[]> compressedChunk(new uint8_t[chunkSize]);
for (uint32_t i = 0; i < chunkSize; i++) {
compressedChunk[i] = modelAsSd0->get();
}
// Ignore the valgrind warning about uninitialized values. These are discarded later when we know the actual uncompressed size.
std::unique_ptr<uint8_t[]> uncompressedChunk(new uint8_t[ZCompression::MAX_SD0_CHUNK_SIZE]);
int32_t err{};
int32_t actualUncompressedSize = ZCompression::Decompress(
compressedChunk.get(), chunkSize, uncompressedChunk.get(), ZCompression::MAX_SD0_CHUNK_SIZE, err);
if (actualUncompressedSize != -1) {
uint32_t previousSize = completeUncompressedModel.size();
completeUncompressedModel.append((char*)uncompressedChunk.get());
completeUncompressedModel.resize(previousSize + actualUncompressedSize);
} else {
Game::logger->Log("BrickByBrickFix", "Failed to inflate chunk %i for model %llu. Error: %i", chunkCount, modelId, err);
break;
}
chunkCount++;
}
std::unique_ptr<tinyxml2::XMLDocument> document = std::make_unique<tinyxml2::XMLDocument>();
if (!document) {
Game::logger->Log("BrickByBrickFix", "Failed to initialize tinyxml document. Aborting.");
return 0;
}
if (!(document->Parse(completeUncompressedModel.c_str(), completeUncompressedModel.size()) == tinyxml2::XML_SUCCESS)) {
if (completeUncompressedModel.find(
"</LXFML>",
completeUncompressedModel.length() >= 15 ? completeUncompressedModel.length() - 15 : 0) == std::string::npos
) {
Game::logger->Log("BrickByBrickFix",
"Brick-by-brick model %llu will be deleted!", modelId);
ugcModelToDelete->setInt64(1, modelsToTruncate->getInt64(1));
pcModelToDelete->setInt64(1, modelsToTruncate->getInt64(1));
ugcModelToDelete->execute();
pcModelToDelete->execute();
modelsTruncated++;
}
}
} else {
Game::logger->Log("BrickByBrickFix",
"Brick-by-brick model %llu will be deleted!", modelId);
ugcModelToDelete->setInt64(1, modelsToTruncate->getInt64(1));
pcModelToDelete->setInt64(1, modelsToTruncate->getInt64(1));
ugcModelToDelete->execute();
pcModelToDelete->execute();
modelsTruncated++;
}
}
Database::Commit();
Database::SetAutoCommit(previousCommitValue);
return modelsTruncated;
}
/**
* @brief Updates all current models in the database to have the Segmented Data 0 (SD0) format.
* Any models that do not start with zlib and best compression magic will not be updated.
*
* @return The number of models updated to SD0
*/
uint32_t BrickByBrickFix::UpdateBrickByBrickModelsToSd0() {
uint32_t updatedModels = 0;
auto modelsToUpdate = GetModelsFromDatabase();
auto previousAutoCommitState = Database::GetAutoCommit();
Database::SetAutoCommit(false);
std::unique_ptr<sql::PreparedStatement> insertionStatement(Database::CreatePreppedStmt("UPDATE ugc SET lxfml = ? WHERE id = ?;"));
while (modelsToUpdate->next()) {
int64_t modelId = modelsToUpdate->getInt64(1);
std::unique_ptr<sql::Blob> oldLxfml(modelsToUpdate->getBlob(2));
// Check if the stored blob starts with zlib magic (0x78 0xDA - best compression of zlib)
// If it does, convert it to sd0.
if (oldLxfml->get() == 0x78 && oldLxfml->get() == 0xDA) {
// Get and save size of zlib compressed chunk.
oldLxfml->seekg(0, std::ios::end);
uint32_t oldLxfmlSize = static_cast<uint32_t>(oldLxfml->tellg());
oldLxfml->seekg(0);
// Allocate 9 extra bytes. 5 for sd0 magic, 4 for the only zlib compressed size.
uint32_t oldLxfmlSizeWithHeader = oldLxfmlSize + 9;
std::unique_ptr<char[]> sd0ConvertedModel(new char[oldLxfmlSizeWithHeader]);
WriteSd0Magic(sd0ConvertedModel.get(), oldLxfmlSize);
for (uint32_t i = 9; i < oldLxfmlSizeWithHeader; i++) {
sd0ConvertedModel.get()[i] = oldLxfml->get();
}
std::string outputString(sd0ConvertedModel.get(), oldLxfmlSizeWithHeader);
std::istringstream outputStringStream(outputString);
insertionStatement->setBlob(1, static_cast<std::istream*>(&outputStringStream));
insertionStatement->setInt64(2, modelId);
try {
insertionStatement->executeUpdate();
Game::logger->Log("BrickByBrickFix", "Updated model %i to sd0", modelId);
updatedModels++;
} catch (sql::SQLException exception) {
Game::logger->Log(
"BrickByBrickFix",
"Failed to update model %i. This model should be inspected manually to see why."
"The database error is %s", modelId, exception.what());
}
}
}
Database::Commit();
Database::SetAutoCommit(previousAutoCommitState);
return updatedModels;
}
std::unique_ptr<sql::ResultSet> GetModelsFromDatabase() {
std::unique_ptr<sql::PreparedStatement> modelsRawDataQuery(Database::CreatePreppedStmt("SELECT id, lxfml FROM ugc;"));
return std::unique_ptr<sql::ResultSet>(modelsRawDataQuery->executeQuery());
}
/**
* @brief Writes sd0 magic at the front of a char*
*
* @param input the char* to write at the front of
* @param chunkSize The size of the first chunk to write the size of
*/
void WriteSd0Magic(char* input, uint32_t chunkSize) {
input[0] = 's';
input[1] = 'd';
input[2] = '0';
input[3] = 0x01;
input[4] = 0xFF;
*reinterpret_cast<uint32_t*>(input + 5) = chunkSize; // Write the integer to the character array
}
bool CheckSd0Magic(sql::Blob* streamToCheck) {
return streamToCheck->get() == 's' && streamToCheck->get() == 'd' && streamToCheck->get() == '0' && streamToCheck->get() == 0x01 && streamToCheck->get() == 0xFF;
}

20
dCommon/BrickByBrickFix.h Normal file
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@ -0,0 +1,20 @@
#pragma once
#include <cstdint>
namespace BrickByBrickFix {
/**
* @brief Deletes all broken BrickByBrick models that have invalid XML
*
* @return The number of BrickByBrick models that were truncated
*/
uint32_t TruncateBrokenBrickByBrickXml();
/**
* @brief Updates all BrickByBrick models in the database to be
* in the sd0 format as opposed to a zlib compressed format.
*
* @return The number of BrickByBrick models that were updated
*/
uint32_t UpdateBrickByBrickModelsToSd0();
};

View File

@ -1,6 +1,6 @@
set(DCOMMON_SOURCES "AMFFormat.cpp"
set(DCOMMON_SOURCES
"AMFDeserialize.cpp"
"AMFFormat_BitStream.cpp"
"AmfSerialize.cpp"
"BinaryIO.cpp"
"dConfig.cpp"
"Diagnostics.cpp"
@ -13,15 +13,51 @@ set(DCOMMON_SOURCES "AMFFormat.cpp"
"NiQuaternion.cpp"
"SHA512.cpp"
"Type.cpp"
"ZCompression.cpp")
"ZCompression.cpp"
"BrickByBrickFix.cpp"
"BinaryPathFinder.cpp"
"FdbToSqlite.cpp"
)
add_subdirectory(dClient)
foreach(file ${DCOMMON_DCLIENT_SOURCES})
set(DCOMMON_SOURCES ${DCOMMON_SOURCES} "dClient/${file}")
endforeach()
include_directories(${PROJECT_SOURCE_DIR}/dCommon/)
add_library(dCommon STATIC ${DCOMMON_SOURCES})
target_link_libraries(dCommon bcrypt)
target_link_libraries(dCommon bcrypt dDatabase tinyxml2)
if (UNIX)
find_package(ZLIB REQUIRED)
target_link_libraries(dCommon ZLIB::ZLIB)
endif()
elseif (WIN32)
include(FetchContent)
# TODO Keep an eye on the zlib repository for an update to disable testing. Don't forget to update CMakePresets
FetchContent_Declare(
zlib
URL https://github.com/madler/zlib/archive/refs/tags/v1.2.11.zip
URL_HASH MD5=9d6a627693163bbbf3f26403a3a0b0b1
)
# Disable warning about no project version.
set(CMAKE_POLICY_DEFAULT_CMP0048 NEW)
# Disable warning about the minimum version of cmake used for bcrypt being deprecated in the future
set(CMAKE_WARN_DEPRECATED OFF CACHE BOOL "" FORCE)
FetchContent_MakeAvailable(zlib)
set(ZLIB_INCLUDE_DIRS ${zlib_SOURCE_DIR} ${zlib_BINARY_DIR})
set_target_properties(zlib PROPERTIES INTERFACE_INCLUDE_DIRECTORIES "${ZLIB_INCLUDE_DIRS}")
add_library(ZLIB::ZLIB ALIAS zlib)
else ()
message(
FATAL_ERROR
"This platform does not have a way to use zlib.\nCreate an issue on GitHub with your build system so it can be configured."
)
endif ()
target_link_libraries(dCommon ZLIB::ZLIB)

View File

@ -1,4 +1,6 @@
#include "Diagnostics.h"
#include "Game.h"
#include "dLogger.h"
// If we're on Win32, we'll include our minidump writer
#ifdef _WIN32
@ -26,7 +28,7 @@ void make_minidump(EXCEPTION_POINTERS* e) {
"_%4d%02d%02d_%02d%02d%02d.dmp",
t.wYear, t.wMonth, t.wDay, t.wHour, t.wMinute, t.wSecond);
}
Game::logger->Log("Diagnostics", "Creating crash dump %s", name);
auto hFile = CreateFileA(name, GENERIC_WRITE, FILE_SHARE_READ, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0);
if (hFile == INVALID_HANDLE_VALUE)
return;
@ -81,6 +83,7 @@ struct bt_ctx {
static inline void Bt(struct backtrace_state* state) {
std::string fileName = Diagnostics::GetOutDirectory() + "crash_" + Diagnostics::GetProcessName() + "_" + std::to_string(getpid()) + ".log";
Game::logger->Log("Diagnostics", "backtrace is enabled, crash dump located at %s", fileName.c_str());
FILE* file = fopen(fileName.c_str(), "w+");
if (file != nullptr) {
backtrace_print(state, 2, file);
@ -108,12 +111,14 @@ static void ErrorCallback(void* data, const char* msg, int errnum) {
void GenerateDump() {
std::string cmd = "sudo gcore " + std::to_string(getpid());
system(cmd.c_str());
int ret = system(cmd.c_str()); // Saving a return just to prevent warning
}
void CatchUnhandled(int sig) {
#ifndef __include_backtrace__
std::string fileName = Diagnostics::GetOutDirectory() + "crash_" + Diagnostics::GetProcessName() + "_" + std::to_string(getpid()) + ".log";
Game::logger->Log("Diagnostics", "Encountered signal %i, creating crash dump %s", sig, fileName.c_str());
if (Diagnostics::GetProduceMemoryDump()) {
GenerateDump();
}
@ -124,7 +129,6 @@ void CatchUnhandled(int sig) {
// get void*'s for all entries on the stack
size = backtrace(array, 10);
printf("Fatal error %i\nStacktrace:\n", sig);
#if defined(__GNUG__) and defined(__dynamic)
// Loop through the returned addresses, and get the symbols to be demangled
@ -142,19 +146,18 @@ void CatchUnhandled(int sig) {
demangled = demangle(functionName.c_str());
if (demangled.empty()) {
printf("[%02zu] %s\n", i, demangled.c_str());
Game::logger->Log("Diagnostics", "[%02zu] %s", i, demangled.c_str());
} else {
printf("[%02zu] %s\n", i, functionName.c_str());
Game::logger->Log("Diagnostics", "[%02zu] %s", i, functionName.c_str());
}
} else {
printf("[%02zu] %s\n", i, functionName.c_str());
Game::logger->Log("Diagnostics", "[%02zu] %s", i, functionName.c_str());
}
}
#else
backtrace_symbols_fd(array, size, STDOUT_FILENO);
#endif
std::string fileName = Diagnostics::GetOutDirectory() + "crash_" + Diagnostics::GetProcessName() + "_" + std::to_string(getpid()) + ".log";
FILE* file = fopen(fileName.c_str(), "w+");
if (file != NULL) {
// print out all the frames to stderr

12
dCommon/DluAssert.h Normal file
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@ -0,0 +1,12 @@
#ifndef __DLUASSERT__H__
#define __DLUASSERT__H__
#include <assert.h>
#ifdef _DEBUG
# define DluAssert(expression) assert(expression)
#else
# define DluAssert(expression)
#endif
#endif //!__DLUASSERT__H__

247
dCommon/FdbToSqlite.cpp Normal file
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@ -0,0 +1,247 @@
#include "FdbToSqlite.h"
#include <map>
#include <fstream>
#include <cassert>
#include <iomanip>
#include "BinaryIO.h"
#include "CDClientDatabase.h"
#include "GeneralUtils.h"
#include "Game.h"
#include "dLogger.h"
#include "AssetManager.h"
#include "eSqliteDataType.h"
std::map<eSqliteDataType, std::string> FdbToSqlite::Convert::m_SqliteType = {
{ eSqliteDataType::NONE, "none"},
{ eSqliteDataType::INT32, "int32"},
{ eSqliteDataType::REAL, "real"},
{ eSqliteDataType::TEXT_4, "text_4"},
{ eSqliteDataType::INT_BOOL, "int_bool"},
{ eSqliteDataType::INT64, "int64"},
{ eSqliteDataType::TEXT_8, "text_8"}
};
FdbToSqlite::Convert::Convert(std::string binaryOutPath) {
this->m_BinaryOutPath = binaryOutPath;
}
bool FdbToSqlite::Convert::ConvertDatabase(AssetMemoryBuffer& buffer) {
if (m_ConversionStarted) return false;
std::istream cdClientBuffer(&buffer);
this->m_ConversionStarted = true;
try {
CDClientDatabase::Connect(m_BinaryOutPath + "/CDServer.sqlite");
CDClientDatabase::ExecuteQuery("BEGIN TRANSACTION;");
int32_t numberOfTables = ReadInt32(cdClientBuffer);
ReadTables(numberOfTables, cdClientBuffer);
CDClientDatabase::ExecuteQuery("COMMIT;");
} catch (CppSQLite3Exception& e) {
Game::logger->Log("FdbToSqlite", "Encountered error %s converting FDB to SQLite", e.errorMessage());
return false;
}
return true;
}
int32_t FdbToSqlite::Convert::ReadInt32(std::istream& cdClientBuffer) {
int32_t nextInt{};
BinaryIO::BinaryRead(cdClientBuffer, nextInt);
return nextInt;
}
int64_t FdbToSqlite::Convert::ReadInt64(std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int64_t value{};
BinaryIO::BinaryRead(cdClientBuffer, value);
cdClientBuffer.seekg(prevPosition);
return value;
}
std::string FdbToSqlite::Convert::ReadString(std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
auto readString = BinaryIO::ReadString(cdClientBuffer);
cdClientBuffer.seekg(prevPosition);
return readString;
}
int32_t FdbToSqlite::Convert::SeekPointer(std::istream& cdClientBuffer) {
int32_t position{};
BinaryIO::BinaryRead(cdClientBuffer, position);
int32_t prevPosition = cdClientBuffer.tellg();
cdClientBuffer.seekg(position);
return prevPosition;
}
std::string FdbToSqlite::Convert::ReadColumnHeader(std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t numberOfColumns = ReadInt32(cdClientBuffer);
std::string tableName = ReadString(cdClientBuffer);
auto columns = ReadColumns(numberOfColumns, cdClientBuffer);
std::string newTable = "CREATE TABLE IF NOT EXISTS '" + tableName + "' (" + columns + ");";
CDClientDatabase::ExecuteDML(newTable);
cdClientBuffer.seekg(prevPosition);
return tableName;
}
void FdbToSqlite::Convert::ReadTables(int32_t& numberOfTables, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
for (int32_t i = 0; i < numberOfTables; i++) {
auto columnHeader = ReadColumnHeader(cdClientBuffer);
ReadRowHeader(columnHeader, cdClientBuffer);
}
cdClientBuffer.seekg(prevPosition);
}
std::string FdbToSqlite::Convert::ReadColumns(int32_t& numberOfColumns, std::istream& cdClientBuffer) {
std::stringstream columnsToCreate;
int32_t prevPosition = SeekPointer(cdClientBuffer);
std::string name{};
eSqliteDataType dataType{};
for (int32_t i = 0; i < numberOfColumns; i++) {
if (i != 0) columnsToCreate << ", ";
dataType = static_cast<eSqliteDataType>(ReadInt32(cdClientBuffer));
name = ReadString(cdClientBuffer);
columnsToCreate << "'" << name << "' " << FdbToSqlite::Convert::m_SqliteType[dataType];
}
cdClientBuffer.seekg(prevPosition);
return columnsToCreate.str();
}
void FdbToSqlite::Convert::ReadRowHeader(std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t numberOfAllocatedRows = ReadInt32(cdClientBuffer);
if (numberOfAllocatedRows != 0) assert((numberOfAllocatedRows & (numberOfAllocatedRows - 1)) == 0); // assert power of 2 allocation size
ReadRows(numberOfAllocatedRows, tableName, cdClientBuffer);
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRows(int32_t& numberOfAllocatedRows, std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t rowid = 0;
for (int32_t row = 0; row < numberOfAllocatedRows; row++) {
int32_t rowPointer = ReadInt32(cdClientBuffer);
if (rowPointer == -1) rowid++;
else ReadRow(rowPointer, tableName, cdClientBuffer);
}
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRow(int32_t& position, std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = cdClientBuffer.tellg();
cdClientBuffer.seekg(position);
while (true) {
ReadRowInfo(tableName, cdClientBuffer);
int32_t linked = ReadInt32(cdClientBuffer);
if (linked == -1) break;
cdClientBuffer.seekg(linked);
}
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRowInfo(std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t numberOfColumns = ReadInt32(cdClientBuffer);
ReadRowValues(numberOfColumns, tableName, cdClientBuffer);
cdClientBuffer.seekg(prevPosition);
}
void FdbToSqlite::Convert::ReadRowValues(int32_t& numberOfColumns, std::string& tableName, std::istream& cdClientBuffer) {
int32_t prevPosition = SeekPointer(cdClientBuffer);
int32_t emptyValue{};
int32_t intValue{};
float_t floatValue{};
std::string stringValue{};
int32_t boolValue{};
int64_t int64Value{};
bool insertedFirstEntry = false;
std::stringstream insertedRow;
insertedRow << "INSERT INTO " << tableName << " values (";
for (int32_t i = 0; i < numberOfColumns; i++) {
if (i != 0) insertedRow << ", "; // Only append comma and space after first entry in row.
switch (static_cast<eSqliteDataType>(ReadInt32(cdClientBuffer))) {
case eSqliteDataType::NONE:
BinaryIO::BinaryRead(cdClientBuffer, emptyValue);
assert(emptyValue == 0);
insertedRow << "NULL";
break;
case eSqliteDataType::INT32:
intValue = ReadInt32(cdClientBuffer);
insertedRow << intValue;
break;
case eSqliteDataType::REAL:
BinaryIO::BinaryRead(cdClientBuffer, floatValue);
insertedRow << std::fixed << std::setprecision(34) << floatValue; // maximum precision of floating point number
break;
case eSqliteDataType::TEXT_4:
case eSqliteDataType::TEXT_8: {
stringValue = ReadString(cdClientBuffer);
size_t position = 0;
// Need to escape quote with a double of ".
while (position < stringValue.size()) {
if (stringValue.at(position) == '\"') {
stringValue.insert(position, "\"");
position++;
}
position++;
}
insertedRow << "\"" << stringValue << "\"";
break;
}
case eSqliteDataType::INT_BOOL:
BinaryIO::BinaryRead(cdClientBuffer, boolValue);
insertedRow << static_cast<bool>(boolValue);
break;
case eSqliteDataType::INT64:
int64Value = ReadInt64(cdClientBuffer);
insertedRow << std::to_string(int64Value);
break;
default:
throw std::invalid_argument("Unsupported SQLite type encountered.");
break;
}
}
insertedRow << ");";
auto copiedString = insertedRow.str();
CDClientDatabase::ExecuteDML(copiedString);
cdClientBuffer.seekg(prevPosition);
}

145
dCommon/FdbToSqlite.h Normal file
View File

@ -0,0 +1,145 @@
#ifndef __FDBTOSQLITE__H__
#define __FDBTOSQLITE__H__
#pragma once
#include <cstdint>
#include <iosfwd>
#include <map>
class AssetMemoryBuffer;
enum class eSqliteDataType : int32_t;
namespace FdbToSqlite {
class Convert {
public:
/**
* Create a new convert object with an input .fdb file and an output binary path.
*
* @param inputFile The file which ends in .fdb to be converted
* @param binaryPath The base path where the file will be saved
*/
Convert(std::string binaryOutPath);
/**
* Converts the input file to sqlite. Calling multiple times is safe.
*
* @return true if the database was converted properly, false otherwise.
*/
bool ConvertDatabase(AssetMemoryBuffer& buffer);
/**
* @brief Reads a 32 bit int from the fdb file.
*
* @return The read value
*/
int32_t ReadInt32(std::istream& cdClientBuffer);
/**
* @brief Reads a 64 bit integer from the fdb file.
*
* @return The read value
*/
int64_t ReadInt64(std::istream& cdClientBuffer);
/**
* @brief Reads a string from the fdb file.
*
* @return The read string
*
* TODO This needs to be translated to latin-1!
*/
std::string ReadString(std::istream& cdClientBuffer);
/**
* @brief Seeks to a pointer position.
*
* @return The previous position before the seek
*/
int32_t SeekPointer(std::istream& cdClientBuffer);
/**
* @brief Reads a column header from the fdb file and creates the table in the database
*
* @return The table name
*/
std::string ReadColumnHeader(std::istream& cdClientBuffer);
/**
* @brief Read the tables from the fdb file.
*
* @param numberOfTables The number of tables to read
*/
void ReadTables(int32_t& numberOfTables, std::istream& cdClientBuffer);
/**
* @brief Reads the columns from the fdb file.
*
* @param numberOfColumns The number of columns to read
* @return All columns of the table formatted for a sql query
*/
std::string ReadColumns(int32_t& numberOfColumns, std::istream& cdClientBuffer);
/**
* @brief Reads the row header from the fdb file.
*
* @param tableName The tables name
*/
void ReadRowHeader(std::string& tableName, std::istream& cdClientBuffer);
/**
* @brief Read the rows from the fdb file.,
*
* @param numberOfAllocatedRows The number of rows that were allocated. Always a power of 2!
* @param tableName The tables name.
*/
void ReadRows(int32_t& numberOfAllocatedRows, std::string& tableName, std::istream& cdClientBuffer);
/**
* @brief Reads a row from the fdb file.
*
* @param position The position to seek in the fdb to
* @param tableName The tables name
*/
void ReadRow(int32_t& position, std::string& tableName, std::istream& cdClientBuffer);
/**
* @brief Reads the row info from the fdb file.
*
* @param tableName The tables name
*/
void ReadRowInfo(std::string& tableName, std::istream& cdClientBuffer);
/**
* @brief Reads each row and its values from the fdb file and inserts them into the database
*
* @param numberOfColumns The number of columns to read in
* @param tableName The tables name
*/
void ReadRowValues(int32_t& numberOfColumns, std::string& tableName, std::istream& cdClientBuffer);
private:
/**
* Maps each sqlite data type to its string equivalent.
*/
static std::map<eSqliteDataType, std::string> m_SqliteType;
/**
* Base path of the folder containing the fdb file
*/
std::string m_BasePath{};
/**
* Whether or not a conversion was started. If one was started, do not attempt to convert the file again.
*/
bool m_ConversionStarted{};
/**
* The path where the CDServer will be stored
*/
std::string m_BinaryOutPath{};
}; //! class FdbToSqlite
}; //! namespace FdbToSqlite
#endif //!__FDBTOSQLITE__H__

View File

@ -5,22 +5,25 @@
class dServer;
class dLogger;
class InstanceManager;
class dpWorld;
class dChatFilter;
class dConfig;
class dLocale;
class RakPeerInterface;
class AssetManager;
struct SystemAddress;
class EntityManager;
class dZoneManager;
namespace Game {
extern dLogger* logger;
extern dServer* server;
extern InstanceManager* im;
extern dpWorld* physicsWorld;
extern dChatFilter* chatFilter;
extern dConfig* config;
extern dLocale* locale;
extern std::mt19937 randomEngine;
extern RakPeerInterface* chatServer;
extern AssetManager* assetManager;
extern SystemAddress chatSysAddr;
extern bool shouldShutdown;
extern EntityManager* entityManager;
extern dZoneManager* zoneManager;
}

View File

@ -4,6 +4,8 @@
#include <cstdint>
#include <cassert>
#include <algorithm>
#include <filesystem>
#include <map>
template <typename T>
inline size_t MinSize(size_t size, const std::basic_string_view<T>& string) {
@ -50,6 +52,7 @@ bool _IsSuffixChar(uint8_t c) {
bool GeneralUtils::_NextUTF8Char(std::string_view& slice, uint32_t& out) {
size_t rem = slice.length();
if (slice.empty()) return false;
const uint8_t* bytes = (const uint8_t*)&slice.front();
if (rem > 0) {
uint8_t first = bytes[0];
@ -238,7 +241,7 @@ std::vector<std::wstring> GeneralUtils::SplitString(std::wstring& str, wchar_t d
return vector;
}
std::vector<std::u16string> GeneralUtils::SplitString(std::u16string& str, char16_t delimiter) {
std::vector<std::u16string> GeneralUtils::SplitString(const std::u16string& str, char16_t delimiter) {
std::vector<std::u16string> vector = std::vector<std::u16string>();
std::u16string current;
@ -289,51 +292,34 @@ std::u16string GeneralUtils::ReadWString(RakNet::BitStream* inStream) {
return string;
}
#ifdef _WIN32
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
std::vector<std::string> GeneralUtils::GetFileNamesFromFolder(const std::string& folder) {
std::vector<std::string> names;
std::string search_path = folder + "/*.*";
WIN32_FIND_DATA fd;
HANDLE hFind = ::FindFirstFile(search_path.c_str(), &fd);
if (hFind != INVALID_HANDLE_VALUE) {
do {
if (!(fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) {
names.push_back(fd.cFileName);
}
} while (::FindNextFile(hFind, &fd));
::FindClose(hFind);
}
return names;
}
#else
#include <stdio.h>
#include <dirent.h>
#include <sys/types.h>
#include <iostream>
#include <vector>
#include <cstring>
std::vector<std::string> GeneralUtils::GetFileNamesFromFolder(const std::string& folder) {
std::vector<std::string> names;
struct dirent* entry;
DIR* dir = opendir(folder.c_str());
if (dir == NULL) {
return names;
std::vector<std::string> GeneralUtils::GetSqlFileNamesFromFolder(const std::string& folder) {
// Because we dont know how large the initial number before the first _ is we need to make it a map like so.
std::map<uint32_t, std::string> filenames{};
for (auto& t : std::filesystem::directory_iterator(folder)) {
auto filename = t.path().filename().string();
auto index = std::stoi(GeneralUtils::SplitString(filename, '_').at(0));
filenames.insert(std::make_pair(index, filename));
}
while ((entry = readdir(dir)) != NULL) {
std::string value(entry->d_name, strlen(entry->d_name));
if (value == "." || value == "..") {
continue;
// Now sort the map by the oldest migration.
std::vector<std::string> sortedFiles{};
auto fileIterator = filenames.begin();
std::map<uint32_t, std::string>::iterator oldest = filenames.begin();
while (!filenames.empty()) {
if (fileIterator == filenames.end()) {
sortedFiles.push_back(oldest->second);
filenames.erase(oldest);
fileIterator = filenames.begin();
oldest = filenames.begin();
continue;
}
names.push_back(value);
if (oldest->first > fileIterator->first) oldest = fileIterator;
fileIterator++;
}
closedir(dir);
return names;
return sortedFiles;
}
bool GeneralUtils::TryParse(const std::string& x, const std::string& y, const std::string& z, NiPoint3& dst) {
return TryParse<float>(x.c_str(), dst.x) && TryParse<float>(y.c_str(), dst.y) && TryParse<float>(z.c_str(), dst.z);
}
#endif

View File

@ -10,8 +10,14 @@
#include <type_traits>
#include <stdexcept>
#include <BitStream.h>
#include "NiPoint3.h"
#include "Game.h"
#include "dLogger.h"
enum eInventoryType : uint32_t;
enum class eObjectBits : size_t;
enum class eReplicaComponentType : uint32_t;
/*!
\file GeneralUtils.hpp
@ -61,9 +67,9 @@ namespace GeneralUtils {
//! Sets a bit on a numerical value
template <typename T>
void SetBit(T& value, size_t index) {
inline void SetBit(T& value, eObjectBits bits) {
static_assert(std::is_arithmetic<T>::value, "Not an arithmetic type");
auto index = static_cast<size_t>(bits);
if (index > (sizeof(T) * 8) - 1) {
return;
}
@ -73,9 +79,9 @@ namespace GeneralUtils {
//! Clears a bit on a numerical value
template <typename T>
void ClearBit(T& value, size_t index) {
inline void ClearBit(T& value, eObjectBits bits) {
static_assert(std::is_arithmetic<T>::value, "Not an arithmetic type");
auto index = static_cast<size_t>(bits);
if (index > (sizeof(T) * 8 - 1)) {
return;
}
@ -105,40 +111,17 @@ namespace GeneralUtils {
*/
bool CheckBit(int64_t value, uint32_t index);
// MARK: Random Number Generation
//! Generates a random number
/*!
\param min The minimum the generate from
\param max The maximum to generate to
*/
template <typename T>
inline T GenerateRandomNumber(std::size_t min, std::size_t max) {
// Make sure it is a numeric type
static_assert(std::is_arithmetic<T>::value, "Not an arithmetic type");
if constexpr (std::is_integral_v<T>) { // constexpr only necessary on first statement
std::uniform_int_distribution<T> distribution(min, max);
return distribution(Game::randomEngine);
} else if (std::is_floating_point_v<T>) {
std::uniform_real_distribution<T> distribution(min, max);
return distribution(Game::randomEngine);
}
return T();
}
bool ReplaceInString(std::string& str, const std::string& from, const std::string& to);
std::u16string ReadWString(RakNet::BitStream* inStream);
std::vector<std::wstring> SplitString(std::wstring& str, wchar_t delimiter);
std::vector<std::u16string> SplitString(std::u16string& str, char16_t delimiter);
std::vector<std::u16string> SplitString(const std::u16string& str, char16_t delimiter);
std::vector<std::string> SplitString(const std::string& str, char delimiter);
std::vector<std::string> GetFileNamesFromFolder(const std::string& folder);
std::vector<std::string> GetSqlFileNamesFromFolder(const std::string& folder);
template <typename T>
T Parse(const char* value);
@ -173,6 +156,16 @@ namespace GeneralUtils {
return std::stoull(value);
}
template <>
inline eInventoryType Parse(const char* value) {
return static_cast<eInventoryType>(std::stoul(value));
}
template <>
inline eReplicaComponentType Parse(const char* value) {
return static_cast<eReplicaComponentType>(std::stoul(value));
}
template <typename T>
bool TryParse(const char* value, T& dst) {
try {
@ -194,6 +187,8 @@ namespace GeneralUtils {
return TryParse<T>(value.c_str(), dst);
}
bool TryParse(const std::string& x, const std::string& y, const std::string& z, NiPoint3& dst);
template<typename T>
std::u16string to_u16string(T value) {
return GeneralUtils::ASCIIToUTF16(std::to_string(value));
@ -205,4 +200,42 @@ namespace GeneralUtils {
std::hash<T> h;
s ^= h(v) + 0x9e3779b9 + (s << 6) + (s >> 2);
}
// MARK: Random Number Generation
//! Generates a random number
/*!
\param min The minimum the generate from
\param max The maximum to generate to
*/
template <typename T>
inline T GenerateRandomNumber(std::size_t min, std::size_t max) {
// Make sure it is a numeric type
static_assert(std::is_arithmetic<T>::value, "Not an arithmetic type");
if constexpr (std::is_integral_v<T>) { // constexpr only necessary on first statement
std::uniform_int_distribution<T> distribution(min, max);
return distribution(Game::randomEngine);
} else if (std::is_floating_point_v<T>) {
std::uniform_real_distribution<T> distribution(min, max);
return distribution(Game::randomEngine);
}
return T();
}
// on Windows we need to undef these or else they conflict with our numeric limits calls
// DEVELOPERS DEVELOPERS DEVELOPERS DEVELOPERS DEVELOPERS DEVELOPERS DEVELOPERS DEVELOPERS
#ifdef _WIN32
#undef min
#undef max
#endif
template <typename T>
inline T GenerateRandomNumber() {
// Make sure it is a numeric type
static_assert(std::is_arithmetic<T>::value, "Not an arithmetic type");
return GenerateRandomNumber<T>(std::numeric_limits<T>::min(), std::numeric_limits<T>::max());
}
}

View File

@ -3,122 +3,174 @@
// Custom Classes
#include "GeneralUtils.h"
#include "Game.h"
#include "dLogger.h"
// C++
#include <sstream>
#include <string_view>
#include <vector>
using LDFKey = std::string_view;
using LDFTypeAndValue = std::string_view;
using LDFType = std::string_view;
using LDFValue = std::string_view;
//! Returns a pointer to a LDFData value based on string format
LDFBaseData* LDFBaseData::DataFromString(const std::string& format) {
LDFBaseData* LDFBaseData::DataFromString(const std::string_view& format) {
// A valid LDF must be at least 3 characters long (=0:) is the shortest valid LDF (empty UTF-16 key with no initial value)
if (format.empty() || format.length() <= 2) return nullptr;
auto equalsPosition = format.find('=');
// You can have an empty key, just make sure the type and value might exist
if (equalsPosition == std::string::npos || equalsPosition == (format.size() - 1)) return nullptr;
// First, check the format
std::istringstream ssFormat(format);
std::string token;
std::pair<LDFKey, LDFTypeAndValue> keyValue;
keyValue.first = format.substr(0, equalsPosition);
keyValue.second = format.substr(equalsPosition + 1, format.size());
std::vector<std::string> keyValueArray;
while (std::getline(ssFormat, token, '=')) {
keyValueArray.push_back(token);
std::u16string key = GeneralUtils::ASCIIToUTF16(keyValue.first);
auto colonPosition = keyValue.second.find(':');
// If : is the first thing after an =, then this is an invalid LDF since
// we dont have a type to use.
if (colonPosition == std::string::npos || colonPosition == 0) return nullptr;
std::pair<LDFType, LDFValue> ldfTypeAndValue;
ldfTypeAndValue.first = keyValue.second.substr(0, colonPosition);
ldfTypeAndValue.second = keyValue.second.substr(colonPosition + 1, keyValue.second.size());
// Only allow empty values for string values.
if (ldfTypeAndValue.second.size() == 0 && !(ldfTypeAndValue.first == "0" || ldfTypeAndValue.first == "13")) return nullptr;
eLDFType type;
char* storage;
try {
type = static_cast<eLDFType>(strtol(ldfTypeAndValue.first.data(), &storage, 10));
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Attempted to process invalid ldf type (%s) from string (%s)", ldfTypeAndValue.first.data(), format.data());
return nullptr;
}
if (keyValueArray.size() == 2) {
std::u16string key = GeneralUtils::ASCIIToUTF16(keyValueArray[0]);
LDFBaseData* returnValue = nullptr;
switch (type) {
case LDF_TYPE_UTF_16: {
std::u16string data = GeneralUtils::UTF8ToUTF16(ldfTypeAndValue.second);
returnValue = new LDFData<std::u16string>(key, data);
break;
}
std::vector<std::string> dataArray;
std::istringstream ssData(keyValueArray[1]);
while (std::getline(ssData, token, ':')) {
dataArray.push_back(token);
case LDF_TYPE_S32: {
try {
int32_t data = static_cast<int32_t>(strtoul(ldfTypeAndValue.second.data(), &storage, 10));
returnValue = new LDFData<int32_t>(key, data);
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid int32 value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
break;
}
if (dataArray.size() > 2) { // hacky fix for strings with colons in them
std::vector<std::string> newDataArray;
newDataArray.push_back(dataArray[0]);
std::string value = "";
for (size_t i = 1; i < dataArray.size(); ++i) {
value += dataArray[i] + ':';
}
value.pop_back(); // remove last colon
newDataArray.push_back(value);
dataArray = newDataArray;
case LDF_TYPE_FLOAT: {
try {
float data = strtof(ldfTypeAndValue.second.data(), &storage);
returnValue = new LDFData<float>(key, data);
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid float value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
break;
}
if ((dataArray[0] == "0" || dataArray[0] == "13") && dataArray.size() == 1) {
dataArray.push_back("");
case LDF_TYPE_DOUBLE: {
try {
double data = strtod(ldfTypeAndValue.second.data(), &storage);
returnValue = new LDFData<double>(key, data);
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid double value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
break;
}
if (dataArray.size() == 2) {
eLDFType type = static_cast<eLDFType>(stoi(dataArray[0]));
case LDF_TYPE_U32:
{
uint32_t data;
switch (type) {
case LDF_TYPE_UTF_16: {
std::u16string data = GeneralUtils::UTF8ToUTF16(dataArray[1]);
return new LDFData<std::u16string>(key, data);
}
case LDF_TYPE_S32: {
int32_t data = static_cast<int32_t>(stoull(dataArray[1]));
return new LDFData<int32_t>(key, data);
}
case LDF_TYPE_FLOAT: {
float data = static_cast<float>(stof(dataArray[1]));
return new LDFData<float>(key, data);
}
case LDF_TYPE_DOUBLE: {
double data = static_cast<float>(stod(dataArray[1]));
return new LDFData<double>(key, data);
}
case LDF_TYPE_U32:
{
uint32_t data;
if (dataArray[1] == "true") {
data = 1;
} else if (dataArray[1] == "false") {
data = 0;
} else {
data = static_cast<uint32_t>(stoul(dataArray[1]));
}
return new LDFData<uint32_t>(key, data);
}
case LDF_TYPE_BOOLEAN: {
bool data;
if (dataArray[1] == "true") {
data = true;
} else if (dataArray[1] == "false") {
data = false;
} else {
data = static_cast<bool>(stoi(dataArray[1]));
}
return new LDFData<bool>(key, data);
}
case LDF_TYPE_U64: {
uint64_t data = static_cast<uint64_t>(stoull(dataArray[1]));
return new LDFData<uint64_t>(key, data);
}
case LDF_TYPE_OBJID: {
LWOOBJID data = static_cast<LWOOBJID>(stoll(dataArray[1]));
return new LDFData<LWOOBJID>(key, data);
}
case LDF_TYPE_UTF_8: {
std::string data = dataArray[1];
return new LDFData<std::string>(key, data);
}
case LDF_TYPE_UNKNOWN: {
if (ldfTypeAndValue.second == "true") {
data = 1;
} else if (ldfTypeAndValue.second == "false") {
data = 0;
} else {
try {
data = static_cast<uint32_t>(strtoul(ldfTypeAndValue.second.data(), &storage, 10));
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid uint32 value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
}
}
returnValue = new LDFData<uint32_t>(key, data);
break;
}
return nullptr;
case LDF_TYPE_BOOLEAN: {
bool data;
if (ldfTypeAndValue.second == "true") {
data = true;
} else if (ldfTypeAndValue.second == "false") {
data = false;
} else {
try {
data = static_cast<bool>(strtol(ldfTypeAndValue.second.data(), &storage, 10));
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid bool value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
}
returnValue = new LDFData<bool>(key, data);
break;
}
case LDF_TYPE_U64: {
try {
uint64_t data = static_cast<uint64_t>(strtoull(ldfTypeAndValue.second.data(), &storage, 10));
returnValue = new LDFData<uint64_t>(key, data);
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid uint64 value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
break;
}
case LDF_TYPE_OBJID: {
try {
LWOOBJID data = static_cast<LWOOBJID>(strtoll(ldfTypeAndValue.second.data(), &storage, 10));
returnValue = new LDFData<LWOOBJID>(key, data);
} catch (std::exception) {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid LWOOBJID value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
return nullptr;
}
break;
}
case LDF_TYPE_UTF_8: {
std::string data = ldfTypeAndValue.second.data();
returnValue = new LDFData<std::string>(key, data);
break;
}
case LDF_TYPE_UNKNOWN: {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid unknown value (%s) from string (%s)", ldfTypeAndValue.second.data(), format.data());
break;
}
default: {
Game::logger->Log("LDFFormat", "Warning: Attempted to process invalid LDF type (%d) from string (%s)", type, format.data());
break;
}
}
return returnValue;
}

View File

@ -1,4 +1,5 @@
#pragma once
#ifndef __LDFFORMAT__H__
#define __LDFFORMAT__H__
// Custom Classes
#include "dCommonVars.h"
@ -6,18 +7,12 @@
// C++
#include <string>
#include <string_view>
#include <sstream>
// RakNet
#include "BitStream.h"
#include "../thirdparty/raknet/Source/BitStream.h"
/*!
\file LDFFormat.hpp
\brief A collection of LDF format classes
*/
//! An enum for LDF Data Types
enum eLDFType {
LDF_TYPE_UNKNOWN = -1, //!< Unknown data type
LDF_TYPE_UTF_16 = 0, //!< UTF-16 wstring data type
@ -31,36 +26,21 @@ enum eLDFType {
LDF_TYPE_UTF_8 = 13, //!< UTF-8 string data type
};
//! A base class for the LDF data
class LDFBaseData {
public:
//! Destructor
virtual ~LDFBaseData(void) {}
virtual ~LDFBaseData() {}
//! Writes the data to a packet
/*!
\param packet The packet
*/
virtual void WriteToPacket(RakNet::BitStream* packet) = 0;
//! Gets the key
/*!
\return The key
*/
virtual const std::u16string& GetKey(void) = 0;
virtual const std::u16string& GetKey() = 0;
//! Gets the value type
/*!
\return The value type
*/
virtual eLDFType GetValueType(void) = 0;
virtual eLDFType GetValueType() = 0;
//! Gets a string from the key/value pair
/*!
\param includeKey Whether or not to include the key in the data
\param includeTypeId Whether or not to include the type id in the data
\return The string representation of the data
/** Gets a string from the key/value pair
* @param includeKey Whether or not to include the key in the data
* @param includeTypeId Whether or not to include the type id in the data
* @return The string representation of the data
*/
virtual std::string GetString(bool includeKey = true, bool includeTypeId = true) = 0;
@ -68,19 +48,15 @@ public:
virtual LDFBaseData* Copy() = 0;
// MARK: Functions
//! Returns a pointer to a LDFData value based on string format
/*!
\param format The format
/**
* Given an input string, return the data as a LDF key.
*/
static LDFBaseData* DataFromString(const std::string& format);
static LDFBaseData* DataFromString(const std::string_view& format);
};
//! A structure for an LDF key-value pair
template<typename T>
class LDFData : public LDFBaseData {
class LDFData: public LDFBaseData {
private:
std::u16string key;
T value;
@ -164,15 +140,11 @@ public:
if (includeKey) {
const std::string& sKey = GeneralUtils::UTF16ToWTF8(this->key, this->key.size());
stream << sKey << "=";
stream << sKey << '=';
}
if (includeTypeId) {
const std::string& sType = std::to_string(this->GetValueType());
stream << sType << ":";
stream << this->GetValueType() << ':';
}
const std::string& sData = this->GetValueString();
@ -234,20 +206,18 @@ inline void LDFData<std::string>::WriteValue(RakNet::BitStream* packet) {
}
}
// MARK: String Data
template<> inline std::string LDFData<std::u16string>::GetValueString(void) {
//std::string toReturn(this->value.begin(), this->value.end());
//return toReturn;
template<> inline std::string LDFData<std::u16string>::GetValueString() {
return GeneralUtils::UTF16ToWTF8(this->value, this->value.size());
}
template<> inline std::string LDFData<int32_t>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<float>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<double>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<uint32_t>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<bool>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<uint64_t>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<LWOOBJID>::GetValueString(void) { return std::to_string(this->value); }
template<> inline std::string LDFData<int32_t>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<float>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<double>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<uint32_t>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<bool>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<uint64_t>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<LWOOBJID>::GetValueString() { return std::to_string(this->value); }
template<> inline std::string LDFData<std::string>::GetValueString(void) { return this->value; }
template<> inline std::string LDFData<std::string>::GetValueString() { return this->value; }
#endif //!__LDFFORMAT__H__

View File

@ -128,6 +128,14 @@ NiPoint3 NiPoint3::operator+(const NiPoint3& point) const {
return NiPoint3(this->x + point.x, this->y + point.y, this->z + point.z);
}
//! Operator for addition of vectors
NiPoint3& NiPoint3::operator+=(const NiPoint3& point) {
this->x += point.x;
this->y += point.y;
this->z += point.z;
return *this;
}
//! Operator for subtraction of vectors
NiPoint3 NiPoint3::operator-(const NiPoint3& point) const {
return NiPoint3(this->x - point.x, this->y - point.y, this->z - point.z);

View File

@ -135,6 +135,9 @@ public:
//! Operator for addition of vectors
NiPoint3 operator+(const NiPoint3& point) const;
//! Operator for addition of vectors
NiPoint3& operator+=(const NiPoint3& point);
//! Operator for subtraction of vectors
NiPoint3 operator-(const NiPoint3& point) const;

View File

@ -1,42 +0,0 @@
#pragma once
#include <cstdint>
/**
* Bitmap of permissions and restrictions for characters.
*/
enum class PermissionMap : uint64_t
{
/**
* Reserved for future use, bit 0-3.
*/
/**
* The character has restricted trade acccess, bit 4.
*/
RestrictedTradeAccess = 0x1 << 4,
/**
* The character has restricted mail access, bit 5.
*/
RestrictedMailAccess = 0x1 << 5,
/**
* The character has restricted chat access, bit 6.
*/
RestrictedChatAccess = 0x1 << 6,
//
// Combined permissions
//
/**
* The character is marked as 'old', restricted from trade and mail.
*/
Old = RestrictedTradeAccess | RestrictedMailAccess,
/**
* The character is soft banned, restricted from trade, mail, and chat.
*/
SoftBanned = RestrictedTradeAccess | RestrictedMailAccess | RestrictedChatAccess,
};

View File

@ -1,7 +1,5 @@
#include "ZCompression.h"
#ifndef _WIN32
#include <zlib.h>
namespace ZCompression {
@ -27,7 +25,6 @@ namespace ZCompression {
}
deflateEnd(&zInfo); // zlib function
return(nRet);
}
int32_t Decompress(const uint8_t* abSrc, int32_t nLenSrc, uint8_t* abDst, int32_t nLenDst, int32_t& nErr) {
@ -48,26 +45,6 @@ namespace ZCompression {
}
inflateEnd(&zInfo); // zlib function
return(nRet);
/*
z_stream zInfo = { 0 };
zInfo.total_in = zInfo.avail_in = nLenSrc;
zInfo.total_out = zInfo.avail_out = nLenDst;
zInfo.next_in = const_cast<Bytef*>(abSrc);
zInfo.next_out = const_cast<Bytef*>(abDst);
int nRet = -1;
nErr = inflateInit(&zInfo); // zlib function
if (nErr == Z_OK) {
nErr = inflate(&zInfo, Z_FINISH); // zlib function
if (nErr == Z_STREAM_END) {
nRet = zInfo.total_out;
}
}
inflateEnd(&zInfo); // zlib function
return(nRet); // -1 or len of output
*/
}
}
#endif

View File

@ -2,16 +2,17 @@
#include <cstdint>
#include "dPlatforms.h"
#ifndef DARKFLAME_PLATFORM_WIN32
namespace ZCompression {
int32_t GetMaxCompressedLength(int32_t nLenSrc);
int32_t Compress(const uint8_t* abSrc, int32_t nLenSrc, uint8_t* abDst, int32_t nLenDst);
int32_t Decompress(const uint8_t* abSrc, int32_t nLenSrc, uint8_t* abDst, int32_t nLenDst, int32_t& nErr);
/**
* @brief Max size of an inflated sd0 zlib chunk
*
*/
constexpr uint32_t MAX_SD0_CHUNK_SIZE = 1024 * 256;
}
#endif

View File

@ -0,0 +1,183 @@
#include <filesystem>
#include "AssetManager.h"
#include "Game.h"
#include "dLogger.h"
#include <zlib.h>
AssetManager::AssetManager(const std::filesystem::path& path) {
if (!std::filesystem::is_directory(path)) {
throw std::runtime_error("Attempted to load asset bundle (" + path.string() + ") however it is not a valid directory.");
}
m_Path = path;
if (std::filesystem::exists(m_Path / "client") && std::filesystem::exists(m_Path / "versions")) {
m_AssetBundleType = eAssetBundleType::Packed;
m_RootPath = m_Path;
m_ResPath = (m_Path / "client" / "res");
} else if (std::filesystem::exists(m_Path / ".." / "versions") && std::filesystem::exists(m_Path / "res")) {
m_AssetBundleType = eAssetBundleType::Packed;
m_RootPath = (m_Path / "..");
m_ResPath = (m_Path / "res");
} else if (std::filesystem::exists(m_Path / "pack") && std::filesystem::exists(m_Path / ".." / ".." / "versions")) {
m_AssetBundleType = eAssetBundleType::Packed;
m_RootPath = (m_Path / ".." / "..");
m_ResPath = m_Path;
} else if ((std::filesystem::exists(m_Path / "res" / "cdclient.fdb") || std::filesystem::exists(m_Path / "res" / "CDServer.sqlite")) && !std::filesystem::exists(m_Path / "res" / "pack")) {
m_AssetBundleType = eAssetBundleType::Unpacked;
m_ResPath = (m_Path / "res");
} else if ((std::filesystem::exists(m_Path / "cdclient.fdb") || std::filesystem::exists(m_Path / "CDServer.sqlite")) && !std::filesystem::exists(m_Path / "pack")) {
m_AssetBundleType = eAssetBundleType::Unpacked;
m_ResPath = m_Path;
}
if (m_AssetBundleType == eAssetBundleType::None) {
throw std::runtime_error("Failed to identify client type, cannot read client data.");
}
switch (m_AssetBundleType) {
case eAssetBundleType::Packed: {
this->LoadPackIndex();
break;
}
case eAssetBundleType::None:
case eAssetBundleType::Unpacked: {
break;
}
}
}
void AssetManager::LoadPackIndex() {
m_PackIndex = new PackIndex(m_RootPath);
}
std::filesystem::path AssetManager::GetResPath() {
return m_ResPath;
}
eAssetBundleType AssetManager::GetAssetBundleType() {
return m_AssetBundleType;
}
bool AssetManager::HasFile(const char* name) {
auto fixedName = std::string(name);
std::transform(fixedName.begin(), fixedName.end(), fixedName.begin(), [](uint8_t c) { return std::tolower(c); });
// Special case for unpacked client have BrickModels in upper case
if (this->m_AssetBundleType == eAssetBundleType::Unpacked) GeneralUtils::ReplaceInString(fixedName, "brickmodels", "BrickModels");
std::replace(fixedName.begin(), fixedName.end(), '\\', '/');
if (std::filesystem::exists(m_ResPath / fixedName)) return true;
if (this->m_AssetBundleType == eAssetBundleType::Unpacked) return false;
std::replace(fixedName.begin(), fixedName.end(), '/', '\\');
if (fixedName.rfind("client\\res\\", 0) != 0) fixedName = "client\\res\\" + fixedName;
uint32_t crc = crc32b(0xFFFFFFFF, (uint8_t*)fixedName.c_str(), fixedName.size());
crc = crc32b(crc, (Bytef*)"\0\0\0\0", 4);
for (const auto& item : this->m_PackIndex->GetPackFileIndices()) {
if (item.m_Crc == crc) {
return true;
}
}
return false;
}
bool AssetManager::GetFile(const char* name, char** data, uint32_t* len) {
auto fixedName = std::string(name);
std::transform(fixedName.begin(), fixedName.end(), fixedName.begin(), [](uint8_t c) { return std::tolower(c); });
std::replace(fixedName.begin(), fixedName.end(), '\\', '/'); // On the off chance someone has the wrong slashes, force forward slashes
// Special case for unpacked client have BrickModels in upper case
if (this->m_AssetBundleType == eAssetBundleType::Unpacked) GeneralUtils::ReplaceInString(fixedName, "brickmodels", "BrickModels");
if (std::filesystem::exists(m_ResPath / fixedName)) {
FILE* file;
#ifdef _WIN32
fopen_s(&file, (m_ResPath / fixedName).string().c_str(), "rb");
#elif __APPLE__
// macOS has 64bit file IO by default
file = fopen((m_ResPath / fixedName).string().c_str(), "rb");
#else
file = fopen64((m_ResPath / fixedName).string().c_str(), "rb");
#endif
fseek(file, 0, SEEK_END);
*len = ftell(file);
*data = (char*)malloc(*len);
fseek(file, 0, SEEK_SET);
int32_t readInData = fread(*data, sizeof(uint8_t), *len, file);
fclose(file);
return true;
}
if (this->m_AssetBundleType == eAssetBundleType::Unpacked) return false;
// The crc in side of the pack always uses backslashes, so we need to convert them again...
std::replace(fixedName.begin(), fixedName.end(), '/', '\\');
if (fixedName.rfind("client\\res\\", 0) != 0) {
fixedName = "client\\res\\" + fixedName;
}
int32_t packIndex = -1;
uint32_t crc = crc32b(0xFFFFFFFF, (uint8_t*)fixedName.c_str(), fixedName.size());
crc = crc32b(crc, (Bytef*)"\0\0\0\0", 4);
for (const auto& item : this->m_PackIndex->GetPackFileIndices()) {
if (item.m_Crc == crc) {
packIndex = item.m_PackFileIndex;
crc = item.m_Crc;
break;
}
}
if (packIndex == -1 || !crc) {
return false;
}
auto packs = this->m_PackIndex->GetPacks();
auto* pack = packs.at(packIndex);
bool success = pack->ReadFileFromPack(crc, data, len);
return success;
}
AssetMemoryBuffer AssetManager::GetFileAsBuffer(const char* name) {
char* buf;
uint32_t len;
bool success = this->GetFile(name, &buf, &len);
return AssetMemoryBuffer(buf, len, success);
}
uint32_t AssetManager::crc32b(uint32_t base, uint8_t* message, size_t l) {
size_t i, j;
uint32_t crc, msb;
crc = base;
for (i = 0; i < l; i++) {
// xor next byte to upper bits of crc
crc ^= (((unsigned int)message[i]) << 24);
for (j = 0; j < 8; j++) { // Do eight times.
msb = crc >> 31;
crc <<= 1;
crc ^= (0 - msb) & 0x04C11DB7;
}
}
return crc; // don't complement crc on output
}
AssetManager::~AssetManager() {
delete m_PackIndex;
}

View File

@ -0,0 +1,77 @@
#pragma once
#include <string>
#include <vector>
#include <unordered_map>
#include <filesystem>
#include "Pack.h"
#include "PackIndex.h"
enum class eAssetBundleType {
None,
Unpacked,
Packed
};
struct AssetMemoryBuffer : std::streambuf {
char* m_Base;
bool m_Success;
AssetMemoryBuffer(char* base, std::ptrdiff_t n, bool success) {
m_Base = base;
m_Success = success;
if (!m_Success) return;
this->setg(base, base, base + n);
}
pos_type seekpos(pos_type sp, std::ios_base::openmode which) override {
return seekoff(sp - pos_type(off_type(0)), std::ios_base::beg, which);
}
pos_type seekoff(off_type off,
std::ios_base::seekdir dir,
std::ios_base::openmode which = std::ios_base::in) override {
if (dir == std::ios_base::cur)
gbump(off);
else if (dir == std::ios_base::end)
setg(eback(), egptr() + off, egptr());
else if (dir == std::ios_base::beg)
setg(eback(), eback() + off, egptr());
return gptr() - eback();
}
void close() {
delete m_Base;
}
};
class AssetManager {
public:
AssetManager(const std::filesystem::path& path);
~AssetManager();
std::filesystem::path GetResPath();
eAssetBundleType GetAssetBundleType();
bool HasFile(const char* name);
bool GetFile(const char* name, char** data, uint32_t* len);
AssetMemoryBuffer GetFileAsBuffer(const char* name);
private:
void LoadPackIndex();
// Modified crc algorithm (mpeg2)
// Reference: https://stackoverflow.com/questions/54339800/how-to-modify-crc-32-to-crc-32-mpeg-2
inline uint32_t crc32b(uint32_t base, uint8_t* message, size_t l);
bool m_SuccessfullyLoaded;
std::filesystem::path m_Path;
std::filesystem::path m_RootPath;
std::filesystem::path m_ResPath;
eAssetBundleType m_AssetBundleType = eAssetBundleType::None;
PackIndex* m_PackIndex;
};

View File

@ -0,0 +1,6 @@
set(DCOMMON_DCLIENT_SOURCES
"PackIndex.cpp"
"Pack.cpp"
"AssetManager.cpp"
PARENT_SCOPE
)

119
dCommon/dClient/Pack.cpp Normal file
View File

@ -0,0 +1,119 @@
#include "Pack.h"
#include "BinaryIO.h"
#include "ZCompression.h"
Pack::Pack(const std::filesystem::path& filePath) {
m_FilePath = filePath;
if (!std::filesystem::exists(filePath)) {
return;
}
m_FileStream = std::ifstream(filePath, std::ios::in | std::ios::binary);
m_FileStream.read(m_Version, 7);
m_FileStream.seekg(-8, std::ios::end); // move file pointer to 8 bytes before the end (location of the address of the record count)
uint32_t recordCountPos = 0;
BinaryIO::BinaryRead<uint32_t>(m_FileStream, recordCountPos);
m_FileStream.seekg(recordCountPos, std::ios::beg);
BinaryIO::BinaryRead<uint32_t>(m_FileStream, m_RecordCount);
for (int i = 0; i < m_RecordCount; i++) {
PackRecord record;
BinaryIO::BinaryRead<PackRecord>(m_FileStream, record);
m_Records.push_back(record);
}
m_FileStream.close();
}
bool Pack::HasFile(uint32_t crc) {
for (const auto& record : m_Records) {
if (record.m_Crc == crc) {
return true;
}
}
return false;
}
bool Pack::ReadFileFromPack(uint32_t crc, char** data, uint32_t* len) {
// Time for some wacky C file reading for speed reasons
PackRecord pkRecord{};
for (const auto& record : m_Records) {
if (record.m_Crc == crc) {
pkRecord = record;
break;
}
}
if (pkRecord.m_Crc == 0) return false;
size_t pos = 0;
pos += pkRecord.m_FilePointer;
bool isCompressed = (pkRecord.m_IsCompressed & 0xff) > 0;
auto inPackSize = isCompressed ? pkRecord.m_CompressedSize : pkRecord.m_UncompressedSize;
FILE* file;
#ifdef _WIN32
fopen_s(&file, m_FilePath.string().c_str(), "rb");
#elif __APPLE__
// macOS has 64bit file IO by default
file = fopen(m_FilePath.string().c_str(), "rb");
#else
file = fopen64(m_FilePath.string().c_str(), "rb");
#endif
fseek(file, pos, SEEK_SET);
if (!isCompressed) {
char* tempData = (char*)malloc(pkRecord.m_UncompressedSize);
int32_t readInData = fread(tempData, sizeof(uint8_t), pkRecord.m_UncompressedSize, file);
*data = tempData;
*len = pkRecord.m_UncompressedSize;
fclose(file);
return true;
}
pos += 5; // skip header
fseek(file, pos, SEEK_SET);
char* decompressedData = (char*)malloc(pkRecord.m_UncompressedSize);
uint32_t currentReadPos = 0;
while (true) {
if (currentReadPos >= pkRecord.m_UncompressedSize) break;
uint32_t size;
int32_t readInData = fread(&size, sizeof(uint32_t), 1, file);
pos += 4; // Move pointer position 4 to the right
char* chunk = (char*)malloc(size);
int32_t readInData2 = fread(chunk, sizeof(int8_t), size, file);
pos += size; // Move pointer position the amount of bytes read to the right
int32_t err;
currentReadPos += ZCompression::Decompress((uint8_t*)chunk, size, reinterpret_cast<uint8_t*>(decompressedData + currentReadPos), ZCompression::MAX_SD0_CHUNK_SIZE, err);
free(chunk);
}
*data = decompressedData;
*len = pkRecord.m_UncompressedSize;
fclose(file);
return true;
}

38
dCommon/dClient/Pack.h Normal file
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#pragma once
#include <vector>
#include <string>
#include <filesystem>
#pragma pack(push, 1)
struct PackRecord {
uint32_t m_Crc;
int32_t m_LowerCrc;
int32_t m_UpperCrc;
uint32_t m_UncompressedSize;
char m_UncompressedHash[32];
uint32_t m_Padding1;
uint32_t m_CompressedSize;
char m_CompressedHash[32];
uint32_t m_Padding2;
uint32_t m_FilePointer;
uint32_t m_IsCompressed; // u32 bool
};
#pragma pack(pop)
class Pack {
public:
Pack(const std::filesystem::path& filePath);
~Pack() = default;
bool HasFile(uint32_t crc);
bool ReadFileFromPack(uint32_t crc, char** data, uint32_t* len);
private:
std::ifstream m_FileStream;
std::filesystem::path m_FilePath;
char m_Version[7];
uint32_t m_RecordCount;
std::vector<PackRecord> m_Records;
};

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#include "PackIndex.h"
#include "BinaryIO.h"
#include "Game.h"
#include "dLogger.h"
PackIndex::PackIndex(const std::filesystem::path& filePath) {
m_FileStream = std::ifstream(filePath / "versions" / "primary.pki", std::ios::in | std::ios::binary);
BinaryIO::BinaryRead<uint32_t>(m_FileStream, m_Version);
BinaryIO::BinaryRead<uint32_t>(m_FileStream, m_PackPathCount);
for (int i = 0; i < m_PackPathCount; i++) {
uint32_t stringLen = 0;
BinaryIO::BinaryRead<uint32_t>(m_FileStream, stringLen);
std::string path;
for (int j = 0; j < stringLen; j++) {
char inChar;
BinaryIO::BinaryRead<char>(m_FileStream, inChar);
path += inChar;
}
m_PackPaths.push_back(path);
}
BinaryIO::BinaryRead<uint32_t>(m_FileStream, m_PackFileIndexCount);
for (int i = 0; i < m_PackFileIndexCount; i++) {
PackFileIndex packFileIndex;
BinaryIO::BinaryRead<PackFileIndex>(m_FileStream, packFileIndex);
m_PackFileIndices.push_back(packFileIndex);
}
Game::logger->Log("PackIndex", "Loaded pack catalog with %i pack files and %i files", m_PackPaths.size(), m_PackFileIndices.size());
for (auto& item : m_PackPaths) {
std::replace(item.begin(), item.end(), '\\', '/');
auto* pack = new Pack(filePath / item);
m_Packs.push_back(pack);
}
m_FileStream.close();
}
PackIndex::~PackIndex() {
for (const auto* item : m_Packs) {
delete item;
}
}

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#pragma once
#include <cstdint>
#include <string>
#include <vector>
#include <filesystem>
#include "Pack.h"
#pragma pack(push, 1)
struct PackFileIndex {
uint32_t m_Crc;
int32_t m_LowerCrc;
int32_t m_UpperCrc;
uint32_t m_PackFileIndex;
uint32_t m_IsCompressed; // u32 bool?
};
#pragma pack(pop)
class PackIndex {
public:
PackIndex(const std::filesystem::path& filePath);
~PackIndex();
const std::vector<std::string>& GetPackPaths() { return m_PackPaths; }
const std::vector<PackFileIndex>& GetPackFileIndices() { return m_PackFileIndices; }
const std::vector<Pack*>& GetPacks() { return m_Packs; }
private:
std::ifstream m_FileStream;
uint32_t m_Version;
uint32_t m_PackPathCount;
std::vector<std::string> m_PackPaths;
uint32_t m_PackFileIndexCount;
std::vector<PackFileIndex> m_PackFileIndices;
std::vector<Pack*> m_Packs;
};

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@ -1,650 +0,0 @@
#pragma once
#include <cstdint>
#include <string>
#include <set>
#include "../thirdparty/raknet/Source/BitStream.h"
#pragma warning (disable:4251) //Disables SQL warnings
typedef int RESTICKET;
const int highFrameRate = 16; //60fps
const int mediumFramerate = 33; //30fps
const int lowFramerate = 66; //15fps
//========== MACROS ===========
#define CBITSTREAM RakNet::BitStream bitStream;
#define CINSTREAM RakNet::BitStream inStream(packet->data, packet->length, false);
#define CMSGHEADER PacketUtils::WriteHeader(bitStream, CLIENT, MSG_CLIENT_GAME_MSG);
#define SEND_PACKET Game::server->Send(&bitStream, sysAddr, false);
#define SEND_PACKET_BROADCAST Game::server->Send(&bitStream, UNASSIGNED_SYSTEM_ADDRESS, true);
//=========== TYPEDEFS ==========
typedef int32_t LOT; //!< A LOT
typedef int64_t LWOOBJID; //!< An object ID (should be unsigned actually but ok)
typedef int32_t TSkillID; //!< A skill ID
typedef uint32_t LWOCLONEID; //!< Used for Clone IDs
typedef uint16_t LWOMAPID; //!< Used for Map IDs
typedef uint16_t LWOINSTANCEID; //!< Used for Instance IDs
typedef uint32_t PROPERTYCLONELIST; //!< Used for Property Clone IDs
typedef int32_t PetTamingPiece; //!< Pet Taming Pieces
const LWOOBJID LWOOBJID_EMPTY = 0; //!< An empty object ID
const LOT LOT_NULL = -1; //!< A null LOT
const int32_t LOOTTYPE_NONE = 0; //!< No loot type available
const float SECONDARY_PRIORITY = 1.0f; //!< Secondary Priority
const uint32_t INVENTORY_INVALID = -1; //!< Invalid Inventory
const uint32_t INVENTORY_DEFAULT = -1; //!< Default Inventory
const uint32_t StatusChangeInfo = 0; //!< Status Change Info (???)
const uint32_t INVENTORY_MAX = 9999999; //!< The Maximum Inventory Size
const uint32_t LWOCLONEID_INVALID = -1; //!< Invalid LWOCLONEID
const uint16_t LWOINSTANCEID_INVALID = -1; //!< Invalid LWOINSTANCEID
const uint16_t LWOMAPID_INVALID = -1; //!< Invalid LWOMAPID
const uint64_t LWOZONEID_INVALID = 0; //!< Invalid LWOZONEID
typedef std::set<LWOOBJID> TSetObjID;
const float PI = 3.14159f;
#if defined(__unix) || defined(__APPLE__)
//For Linux:
typedef __int64_t __int64;
#endif
//============ STRUCTS ==============
struct LWOSCENEID {
public:
LWOSCENEID() { m_sceneID = -1; m_layerID = 0; }
LWOSCENEID(int sceneID) { m_sceneID = sceneID; m_layerID = 0; }
LWOSCENEID(int sceneID, unsigned int layerID) { m_sceneID = sceneID; m_layerID = layerID; }
LWOSCENEID& operator=(const LWOSCENEID& rhs) { m_sceneID = rhs.m_sceneID; m_layerID = rhs.m_layerID; return *this; }
LWOSCENEID& operator=(const int rhs) { m_sceneID = rhs; m_layerID = 0; return *this; }
bool operator<(const LWOSCENEID& rhs) const { return (m_sceneID < rhs.m_sceneID || (m_sceneID == rhs.m_sceneID && m_layerID < rhs.m_layerID)); }
bool operator<(const int rhs) const { return m_sceneID < rhs; }
bool operator==(const LWOSCENEID& rhs) const { return (m_sceneID == rhs.m_sceneID && m_layerID == rhs.m_layerID); }
bool operator==(const int rhs) const { return m_sceneID == rhs; }
const int GetSceneID() const { return m_sceneID; }
const unsigned int GetLayerID() const { return m_layerID; }
void SetSceneID(const int sceneID) { m_sceneID = sceneID; }
void SetLayerID(const unsigned int layerID) { m_layerID = layerID; }
private:
int m_sceneID;
unsigned int m_layerID;
};
struct LWOZONEID {
public:
const LWOMAPID& GetMapID() const { return m_MapID; }
const LWOINSTANCEID& GetInstanceID() const { return m_InstanceID; }
const LWOCLONEID& GetCloneID() const { return m_CloneID; }
//In order: def constr, constr, assign op
LWOZONEID() { m_MapID = LWOMAPID_INVALID; m_InstanceID = LWOINSTANCEID_INVALID; m_CloneID = LWOCLONEID_INVALID; }
LWOZONEID(const LWOMAPID& mapID, const LWOINSTANCEID& instanceID, const LWOCLONEID& cloneID) { m_MapID = mapID; m_InstanceID = instanceID; m_CloneID = cloneID; }
LWOZONEID(const LWOZONEID& replacement) { *this = replacement; }
private:
LWOMAPID m_MapID; //1000 for VE, 1100 for AG, etc...
LWOINSTANCEID m_InstanceID; //Instances host the same world, but on a different dWorld process.
LWOCLONEID m_CloneID; //To differentiate between "your property" and "my property". Always 0 for non-prop worlds.
};
const LWOSCENEID LWOSCENEID_INVALID = -1;
struct LWONameValue {
uint32_t length = 0; //!< The length of the name
std::u16string name; //!< The name
LWONameValue(void) {}
LWONameValue(const std::u16string& name) {
this->name = name;
this->length = static_cast<uint32_t>(name.length());
}
~LWONameValue(void) {}
};
struct FriendData {
public:
bool isOnline = false;
bool isBestFriend = false;
bool isFTP = false;
LWOZONEID zoneID;
LWOOBJID friendID;
std::string friendName;
void Serialize(RakNet::BitStream& bitStream) {
bitStream.Write<uint8_t>(isOnline);
bitStream.Write<uint8_t>(isBestFriend);
bitStream.Write<uint8_t>(isFTP);
bitStream.Write<uint32_t>(0); //???
bitStream.Write<uint8_t>(0); //???
bitStream.Write(zoneID.GetMapID());
bitStream.Write(zoneID.GetInstanceID());
bitStream.Write(zoneID.GetCloneID());
bitStream.Write(friendID);
uint32_t maxSize = 33;
uint32_t size = static_cast<uint32_t>(friendName.length());
uint32_t remSize = static_cast<uint32_t>(maxSize - size);
if (size > maxSize) size = maxSize;
for (uint32_t i = 0; i < size; ++i) {
bitStream.Write(static_cast<uint16_t>(friendName[i]));
}
for (uint32_t j = 0; j < remSize; ++j) {
bitStream.Write(static_cast<uint16_t>(0));
}
bitStream.Write<uint32_t>(0); //???
bitStream.Write<uint16_t>(0); //???
}
};
struct Brick {
uint32_t designerID;
uint32_t materialID;
};
//This union is used by the behavior system
union suchar {
unsigned char usigned;
char svalue;
};
//=========== DLU ENUMS ============
enum eGameMasterLevel : int32_t {
GAME_MASTER_LEVEL_CIVILIAN = 0, // Normal player.
GAME_MASTER_LEVEL_FORUM_MODERATOR = 1, // No permissions on live servers.
GAME_MASTER_LEVEL_JUNIOR_MODERATOR = 2, // Can kick/mute and pull chat logs.
GAME_MASTER_LEVEL_MODERATOR = 3, // Can return lost items.
GAME_MASTER_LEVEL_SENIOR_MODERATOR = 4, // Can ban.
GAME_MASTER_LEVEL_LEAD_MODERATOR = 5, // Can approve properties.
GAME_MASTER_LEVEL_JUNIOR_DEVELOPER = 6, // Junior developer & future content team. Civilan on live.
GAME_MASTER_LEVEL_INACTIVE_DEVELOPER = 7, // Inactive developer, limited permissions.
GAME_MASTER_LEVEL_DEVELOPER = 8, // Active developer, full permissions on live.
GAME_MASTER_LEVEL_OPERATOR = 9 // Can shutdown server for restarts & updates.
};
//=========== LU ENUMS ============
//! An enum for object ID bits
enum eObjectBits : int32_t {
OBJECT_BIT_PERSISTENT = 32, //!< The 32 bit index
OBJECT_BIT_CLIENT = 46, //!< The 46 bit index
OBJECT_BIT_SPAWNED = 58, //!< The 58 bit index
OBJECT_BIT_CHARACTER = 60 //!< The 60 bit index
};
//! An enum for MatchUpdate types
enum eMatchUpdate : int {
MATCH_UPDATE_PLAYER_JOINED = 0,
MATCH_UPDATE_PLAYER_LEFT = 1,
MATCH_UPDATE_TIME = 3,
MATCH_UPDATE_TIME_START_DELAY = 4,
MATCH_UPDATE_PLAYER_READY = 5,
MATCH_UPDATE_PLAYER_UNREADY = 6
};
//! An enum for camera cycling modes
enum eCyclingMode : uint32_t {
ALLOW_CYCLE_TEAMMATES,
DISALLOW_CYCLING
};
enum eCinematicEvent : uint32_t {
STARTED,
WAYPOINT,
ENDED,
};
//! An enum for character creation responses
enum eCreationResponse : uint8_t {
CREATION_RESPONSE_SUCCESS = 0, //!< The creation was successful
CREATION_RESPONSE_OBJECT_ID_UNAVAILABLE, //!< The Object ID can't be used
CREATION_RESPONSE_NAME_NOT_ALLOWED, //!< The name is not allowed
CREATION_RESPONSE_PREDEFINED_NAME_IN_USE, //!< The predefined name is already in use
CREATION_RESPONSE_CUSTOM_NAME_IN_USE //!< The custom name is already in use
};
//! An enum for login responses
enum eLoginResponse : uint8_t {
LOGIN_RESPONSE_GENERAL_FAILED = 0,
LOGIN_RESPONSE_SUCCESS = 1,
LOGIN_RESPONSE_BANNED = 2,
LOGIN_RESPONSE_PERMISSIONS_NOT_HIGH_ENOUGH = 5,
LOGIN_RESPONSE_WRONG_PASS_OR_USER = 6,
LOGIN_RESPONSE_ACCOUNT_LOCKED = 7
};
//! An enum for character rename responses
enum eRenameResponse : uint8_t {
RENAME_RESPONSE_SUCCESS = 0, //!< The renaming was successful
RENAME_RESPONSE_UNKNOWN_ERROR, //!< There was an unknown error
RENAME_RESPONSE_NAME_UNAVAILABLE, //!< The name is unavailable
RENAME_RESPONSE_NAME_IN_USE //!< The name is already in use
};
//! A replica packet type
enum eReplicaPacketType {
PACKET_TYPE_CONSTRUCTION, //!< A construction packet
PACKET_TYPE_SERIALIZATION, //!< A serialization packet
PACKET_TYPE_DESTRUCTION //!< A destruction packet
};
enum ServerDisconnectIdentifiers {
SERVER_DISCON_UNKNOWN_SERVER_ERROR = 0, //!< Unknown server error
SERVER_DISCON_DUPLICATE_LOGIN = 4, //!< Used when another user with the same username is logged in (duplicate login)
SERVER_DISCON_SERVER_SHUTDOWN = 5, //!< Used when the server is shutdown
SERVER_DISCON_SERVER_MAP_LOAD_FAILURE = 6, //!< Used when the server cannot load a map
SERVER_DISCON_INVALID_SESSION_KEY = 7, //!< Used if the session is invalid
SERVER_DISCON_ACCOUNT_NOT_IN_PENDING_LIST = 8, //!< ???
SERVER_DISCON_CHARACTER_NOT_FOUND = 9, //!< Used if a character that the server has is not found (i.e, corruption with user-player data)
SERVER_DISCON_CHARACTER_CORRUPTED = 10, //!< Similar to abovce
SERVER_DISCON_KICK = 11, //!< Used if the user is kicked from the server
SERVER_DISCON_FREE_TRIAL_EXPIRED = 12, //!< Used if the user's free trial expired
SERVER_DISCON_PLAY_SCHEDULE_TIME_DONE = 13 //!< Used if the user's play time is used up
};
//! The Behavior Types for use with the AI system
enum eCombatBehaviorTypes : uint32_t {
PASSIVE = 0, //!< The object is passive
AGGRESSIVE = 1, //!< The object is aggressive
PASSIVE_TURRET = 2, //!< The object is a passive turret
AGGRESSIVE_TURRET = 3 //!< The object is an aggressive turret
};
//! The Combat Role Type for use with the AI system
enum eCombatRoleType : uint32_t {
MELEE = 0, //!< Used for melee attacks
RANGED = 1, //!< Used for range attacks
SUPPORT = 2 //!< Used for support
};
//! The kill types for the Die packet
enum eKillType : uint32_t {
VIOLENT,
SILENT
};
//! The various world states used throughout the server
enum eObjectWorldState {
WORLDSTATE_INWORLD, //!< Probably used when the object is in the world
WORLDSTATE_ATTACHED, //!< Probably used when the object is attached to another object
WORLDSTATE_INVENTORY //!< Probably used when the object is in an inventory
};
//! The trigger stats (???)
enum eTriggerStat {
INVALID_STAT, //!< ???
HEALTH, //!< Probably used for health
ARMOR, //!< Probably used for armor
IMAGINATION //!< Probably used for imagination
};
//! The trigger operations (???)
enum eTriggerOperator {
INVALID_OPER, //!< ???
EQUAL, //!< ???
NOT_EQUAL, //!< ???
GREATER, //!< ???
GREATER_EQUAL, //!< ???
LESS, //!< ???
LESS_EQUAL //!< ???
};
//! The various build types
enum eBuildType {
BUILD_NOWHERE, //!< Used if something can't be built anywhere
BUILD_IN_WORLD, //!< Used if something can be built in the world
BUILD_ON_PROPERTY //!< Used if something can be build on a property
};
//! Quickbuild fail reasons
enum eFailReason : uint32_t {
REASON_NOT_GIVEN,
REASON_OUT_OF_IMAGINATION,
REASON_CANCELED_EARLY,
REASON_BUILD_ENDED
};
//! Terminate interaction type
enum eTerminateType : uint32_t {
RANGE,
USER,
FROM_INTERACTION
};
//! The combat state
enum eCombatState {
IDLE, //!< The AI is in an idle state
AGGRO, //!< The AI is in an aggressive state
TETHER, //!< The AI is being redrawn back to tether point
SPAWN, //!< The AI is spawning
DEAD //!< The AI is dead
};
enum eControlSceme {
SCHEME_A,
SCHEME_D,
SCHEME_GAMEPAD,
SCHEME_E,
SCHEME_FPS,
SCHEME_DRIVING,
SCHEME_TAMING,
SCHEME_MODULAR_BUILD,
SCHEME_WEAR_A_ROBOT //== freecam?
};
enum eStunState {
PUSH,
POP
};
enum eNotifyType {
NOTIFY_TYPE_SUCCESS,
NOTIFY_TYPE_QUIT,
NOTIFY_TYPE_FAILED,
NOTIFY_TYPE_BEGIN,
NOTIFY_TYPE_READY,
NOTIFY_TYPE_NAMINGPET
};
enum eReplicaComponentType : int32_t {
COMPONENT_TYPE_CONTROLLABLE_PHYSICS = 1, //!< The ControllablePhysics Component
COMPONENT_TYPE_RENDER = 2, //!< The Render Component
COMPONENT_TYPE_SIMPLE_PHYSICS = 3, //!< The SimplePhysics Component
COMPONENT_TYPE_CHARACTER = 4, //!< The Character Component
COMPONENT_TYPE_SCRIPT = 5, //!< The Script Component
COMPONENT_TYPE_BOUNCER = 6, //!< The Bouncer Component
COMPONENT_TYPE_BUFF = 7, //!< The Buff Component
COMPONENT_TYPE_SKILL = 9, //!< The Skill Component
COMPONENT_TYPE_ITEM = 11, //!< The Item Component
COMPONENT_TYPE_VENDOR = 16, //!< The Vendor Component
COMPONENT_TYPE_INVENTORY = 17, //!< The Inventory Component
COMPONENT_TYPE_SHOOTING_GALLERY = 19, //!< The Shooting Gallery Component
COMPONENT_TYPE_RIGID_BODY_PHANTOM_PHYSICS = 20, //!< The RigidBodyPhantomPhysics Component
COMPONENT_TYPE_COLLECTIBLE = 23, //!< The Collectible Component
COMPONENT_TYPE_MOVING_PLATFORM = 25, //!< The MovingPlatform Component
COMPONENT_TYPE_PET = 26, //!< The Pet Component
COMPONENT_TYPE_VEHICLE_PHYSICS = 30, //!< The VehiclePhysics Component
COMPONENT_TYPE_MOVEMENT_AI = 31, //!< The MovementAI Component
COMPONENT_TYPE_PROPERTY = 36, //!< The Property Component
COMPONENT_TYPE_SCRIPTED_ACTIVITY = 39, //!< The ScriptedActivity Component
COMPONENT_TYPE_PHANTOM_PHYSICS = 40, //!< The PhantomPhysics Component
COMPONENT_TYPE_MODEL = 42, //!< The Model Component
COMPONENT_TYPE_PROPERTY_ENTRANCE = 43, //!< The PhantomPhysics Component
COMPONENT_TYPE_PROPERTY_MANAGEMENT = 45, //!< The PropertyManagement Component
COMPONENT_TYPE_REBUILD = 48, //!< The Rebuild Component
COMPONENT_TYPE_SWITCH = 49, //!< The Switch Component
COMPONENT_TYPE_ZONE_CONTROL = 50, //!< The ZoneControl Component
COMPONENT_TYPE_PACKAGE = 53, //!< The Package Component
COMPONENT_TYPE_PLAYER_FLAG = 58, //!< The PlayerFlag Component
COMPONENT_TYPE_BASE_COMBAT_AI = 60, //!< The BaseCombatAI Component
COMPONENT_TYPE_MODULE_ASSEMBLY = 61, //!< The ModuleAssembly Component
COMPONENT_TYPE_PROPERTY_VENDOR = 65, //!< The PropertyVendor Component
COMPONENT_TYPE_ROCKET_LAUNCH = 67, //!< The RocketLaunch Component
COMPONENT_TYPE_RACING_CONTROL = 71, //!< The RacingControl Component
COMPONENT_TYPE_MISSION_OFFER = 73, //!< The MissionOffer Component
COMPONENT_TYPE_EXHIBIT = 75, //!< The Exhibit Component
COMPONENT_TYPE_RACING_STATS = 74, //!< The Racing Stats Component
COMPONENT_TYPE_SOUND_TRIGGER = 77, //!< The Sound Trigger Component
COMPONENT_TYPE_PROXIMITY_MONITOR = 78, //!< The Proximity Monitor Component
COMPONENT_TYPE_MISSION = 84, //!< The Mission Component
COMPONENT_TYPE_ROCKET_LAUNCH_LUP = 97, //!< The LUP Launchpad Componen
COMPONENT_TYPE_RAIL_ACTIVATOR = 104, //!< The Rail Activator Component
COMPONENT_TYPE_PLAYER_FORCED_MOVEMENT = 106, //!< The Player Forced Movement Component
COMPONENT_TYPE_POSSESSABLE = 108, //!< The Possessable Component
COMPONENT_TYPE_LEVEL_PROGRESSION = 109, //!< The Level Progression Component
COMPONENT_TYPE_POSSESSOR = 110, //!< The Possessor Component
COMPONENT_TYPE_BUILD_BORDER = 114, //!< The Build Border Component
COMPONENT_TYPE_DESTROYABLE = 1000, //!< The Destroyable Component
};
enum class UseItemResponse : uint32_t {
NoImaginationForPet = 1,
FailedPrecondition,
MountsNotAllowed
};
/**
* Represents the different types of inventories an entity may have
*/
enum eInventoryType : uint32_t {
ITEMS = 0,
VAULT_ITEMS,
BRICKS,
TEMP_ITEMS = 4,
MODELS,
TEMP_MODELS,
BEHAVIORS,
PROPERTY_DEEDS,
VENDOR_BUYBACK = 11,
HIDDEN = 12, //Used for missional items
VAULT_MODELS = 14,
ITEM_SETS, //internal
INVALID // made up, for internal use!!!
};
enum eRebuildState : uint32_t {
REBUILD_OPEN,
REBUILD_COMPLETED = 2,
REBUILD_RESETTING = 4,
REBUILD_BUILDING,
REBUILD_INCOMPLETE
};
/**
* The loot source's type.
*/
enum eLootSourceType : int32_t {
LOOT_SOURCE_NONE = 0,
LOOT_SOURCE_CHEST,
LOOT_SOURCE_MISSION,
LOOT_SOURCE_MAIL,
LOOT_SOURCE_CURRENCY,
LOOT_SOURCE_ACHIEVEMENT,
LOOT_SOURCE_TRADE,
LOOT_SOURCE_QUICKBUILD,
LOOT_SOURCE_DELETION,
LOOT_SOURCE_VENDOR,
LOOT_SOURCE_ACTIVITY,
LOOT_SOURCE_PICKUP,
LOOT_SOURCE_BRICK,
LOOT_SOURCE_PROPERTY,
LOOT_SOURCE_MODERATION,
LOOT_SOURCE_EXHIBIT,
LOOT_SOURCE_INVENTORY,
LOOT_SOURCE_CLAIMCODE,
LOOT_SOURCE_CONSUMPTION,
LOOT_SOURCE_CRAFTING,
LOOT_SOURCE_LEVEL_REWARD,
LOOT_SOURCE_RELOCATE
};
enum eGameActivities : uint32_t {
ACTIVITY_NONE,
ACTIVITY_QUICKBUILDING,
ACTIVITY_SHOOTING_GALLERY,
ACTIVITY_RACING,
ACTIVITY_PINBALL,
ACTIVITY_PET_TAMING
};
enum ePlayerFlags {
BTARR_TESTING = 0,
PLAYER_HAS_ENTERED_PET_RANCH = 1,
MINIMAP_UNLOCKED = 2,
ACTIVITY_REBUILDING_FAIL_TIME = 3,
ACTIVITY_REBUILDING_FAIL_RANGE = 4,
ACTIVITY_SHOOTING_GALLERY_HELP = 5,
HELP_WALKING_CONTROLS = 6,
FIRST_SMASHABLE = 7,
FIRST_IMAGINATION_PICKUP = 8,
FIRST_DAMAGE = 9,
FIRST_ITEM = 10,
FIRST_BRICK = 11,
FIRST_CONSUMABLE = 12,
FIRST_EQUIPPABLE = 13,
CHAT_HELP = 14,
FIRST_PET_TAMING_MINIGAME = 15,
FIRST_PET_ON_SWITCH = 16,
FIRST_PET_JUMPED_ON_SWITCH = 17,
FIRST_PET_FOUND_TREASURE = 18,
FIRST_PET_DUG_TREASURE = 19,
FIRST_PET_OWNER_ON_PET_BOUNCER = 20,
FIRST_PET_DESPAWN_NO_IMAGINATION = 21,
FIRST_PET_SELECTED_ENOUGH_BRICKS = 22,
FIRST_EMOTE_UNLOCKED = 23,
GF_PIRATE_REP = 24,
AG_BOB_CINEMATIC_EVENT = 25,
HELP_JUMPING_CONTROLS = 26,
HELP_DOUBLE_JUMP_CONTROLS = 27,
HELP_CAMERA_CONTROLS = 28,
HELP_ROTATE_CONTROLS = 29,
HELP_SMASH = 30,
MONUMENT_INTRO_MUSIC_PLAYED = 31,
BEGINNING_ZONE_SUMMARY_DISPLAYED = 32,
AG_FINISH_LINE_BUILT = 33,
AG_BOSS_AREA_FOUND = 34,
AG_LANDED_IN_BATTLEFIELD = 35,
GF_PLAYER_HAS_BEEN_TO_THE_RAVINE = 36,
MODULAR_BUILD_STARTED = 37,
MODULAR_BUILD_FINISHED_CLICK_BUTTON = 38,
THINKING_HAT_RECEIVED_GO_TO_MODULAR_BUILD_AREA = 39,
BUILD_AREA_ENTERED_MOD_NOT_ACTIVATED_PUT_ON_HAT = 40,
HAT_ON_INSIDE_OF_MOD_BUILD_EQUIP_A_MODULE_FROM_LEG = 41,
MODULE_EQUIPPED_PLACE_ON_GLOWING_BLUE_SPOT = 42,
FIRST_MODULE_PLACED_CORRECTLY_NOW_DO_THE_REST = 43,
ROCKET_COMPLETE_NOW_LAUNCH_FROM_PAD = 44,
JOINED_A_FACTION = 45,
VENTURE_FACTION = 46,
ASSEMBLY_FACTION = 47,
PARADOX_FACTION = 48,
SENTINEL_FACTION = 49,
LUP_WORLD_ACCESS = 50,
AG_FIRST_FLAG_COLLECTED = 51,
TOOLTIP_TALK_TO_SKYLAND_TO_GET_HAT = 52,
MODULAR_BUILD_PLAYER_PLACES_FIRST_MODEL_IN_SCRATCH = 53,
MODULAR_BUILD_FIRST_ARROW_DISPLAY_FOR_MODULE = 54,
AG_BEACON_QB_SO_THE_PLAYER_CAN_ALWAYS_BUILD_THEM = 55,
GF_PET_DIG_FLAG_1 = 56,
GF_PET_DIG_FLAG_2 = 57,
GF_PET_DIG_FLAG_3 = 58,
SUPPRESS_SPACESHIP_CINEMATIC_FLYTHROUGH = 59,
GF_PLAYER_FALL_DEATH = 60,
GF_PLAYER_CAN_GET_FLAG_1 = 61,
GF_PLAYER_CAN_GET_FLAG_2 = 62,
GF_PLAYER_CAN_GET_FLAG_3 = 63,
ENTER_BBB_FROM_PROPERTY_EDIT_CONFIRMATION_DIALOG = 64,
AG_FIRST_COMBAT_COMPLETE = 65,
AG_COMPLETE_BOB_MISSION = 66,
NJ_GARMADON_CINEMATIC_SEEN = 125,
ELEPHANT_PET_3050 = 801,
CAT_PET_3054 = 802,
TRICERATOPS_PET_3195 = 803,
TERRIER_PET_3254 = 804,
SKUNK_PET_3261 = 805,
LION_PET_3520 = 806,
BUNNY_PET_3672 = 807,
CROCODILE_PET_3994 = 808,
DOBERMAN_PET_5635 = 809,
BUFFALO_PET_5636 = 810,
ROBOT_DOG_PET_5637 = 811,
EUROPEAN_DRAGON_PET_5639 = 812,
TORTOISE_PET_5640 = 813,
ASIAN_DRAGON_PET_5641 = 814,
MANTIS_PET_5642 = 815,
PANDA_PET_5643 = 816,
WARTHOG_PET_6720 = 817,
GOAT_PET_7638 = 818,
CRAB_PET_7694 = 819,
AG_SPACE_SHIP_BINOC_AT_LAUNCH = 1001,
AG_SPACE_SHIP_BINOC_AT_LAUNCH_PLATFORM = 1002,
AG_SPACE_SHIP_BINOC_ON_PLATFORM_TO_LEFT_OF_START = 1003,
AG_SPACE_SHIP_BINOC_ON_PLATFORM_TO_RIGHT_OF_START = 1004,
AG_SPACE_SHIP_BINOC_AT_BOB = 1005,
AG_BATTLE_BINOC_FOR_TRICERETOPS = 1101,
AG_BATTLE_BINOC_AT_PARADOX = 1102,
AG_BATTLE_BINOC_AT_MISSION_GIVER = 1103,
AG_BATTLE_BINOC_AT_BECK = 1104,
AG_MONUMENT_BINOC_INTRO = 1105,
AG_MONUMENT_BINOC_OUTRO = 1106,
AG_LAUNCH_BINOC_INTRO = 1107,
AG_LAUNCH_BINOC_BISON = 1108,
AG_LAUNCH_BINOC_SHARK = 1109,
NS_BINOC_CONCERT_TRANSITION = 1201,
NS_BINOC_RACE_PLACE_TRANSITION = 1202,
NS_BINOC_BRICK_ANNEX_TRANSITION = 1203,
NS_BINOC_GF_LAUNCH = 1204,
NS_BINOC_FV_LAUNCH = 1205,
NS_BINOC_BRICK_ANNEX_WATER = 1206,
NS_BINOC_AG_LAUNCH_AT_RACE_PLACE = 1207,
NS_BINOC_AG_LAUNCH_AT_BRICK_ANNEX = 1208,
NS_BINOC_AG_LAUNCH_AT_PLAZA = 1209,
NS_BINOC_TBA = 1210,
NS_FLAG_COLLECTABLE_1_BY_JONNY_THUNDER = 1211,
NS_FLAG_COLLECTABLE_2_UNDER_CONCERT_BRIDGE = 1212,
NS_FLAG_COLLECTABLE_3_BY_FV_LAUNCH = 1213,
NS_FLAG_COLLECTABLE_4_IN_PLAZA_BEHIND_BUILDING = 1214,
NS_FLAG_COLLECTABLE_5_BY_GF_LAUNCH = 1215,
NS_FLAG_COLLECTABLE_6_BY_DUCK_SG = 1216,
NS_FLAG_COLLECTABLE_7_BY_LUP_LAUNCH = 1217,
NS_FLAG_COLLECTABLE_8_BY_NT_LUANCH = 1218,
NS_FLAG_COLLECTABLE_9_BY_RACE_BUILD = 1219,
NS_FLAG_COLLECTABLE_10_ON_AG_LAUNCH_PATH = 1220,
PR_BINOC_AT_LAUNCH_PAD = 1251,
PR_BINOC_AT_BEGINNING_OF_ISLAND_B = 1252,
PR_BINOC_AT_FIRST_PET_BOUNCER = 1253,
PR_BINOC_ON_BY_CROWS_NEST = 1254,
PR_PET_DIG_AT_BEGINNING_OF_ISLAND_B = 1261,
PR_PET_DIG_AT_THE_LOCATION_OF_OLD_BOUNCE_BACK = 1262,
PR_PET_DIG_UNDER_QB_BRIDGE = 1263,
PR_PET_DIG_BACK_SIDE_BY_PARTNER_BOUNCE = 1264,
PR_PET_DIG_BY_LAUNCH_PAD = 1265,
PR_PET_DIG_BY_FIRST_PET_BOUNCER = 1266,
GF_BINOC_ON_LANDING_PAD = 1301,
GF_BINOC_AT_RAVINE_START = 1302,
GF_BINOC_ON_TOP_OF_RAVINE_HEAD = 1303,
GF_BINOC_AT_TURTLE_AREA = 1304,
GF_BINOC_IN_TUNNEL_TO_ELEPHANTS = 1305,
GF_BINOC_IN_ELEPHANTS_AREA = 1306,
GF_BINOC_IN_RACING_AREA = 1307,
GF_BINOC_IN_CROC_AREA = 1308,
GF_BINOC_IN_JAIL_AREA = 1309,
GF_BINOC_TELESCOPE_NEXT_TO_CAPTAIN_JACK = 1310,
NT_PLINTH_REBUILD = 1919,
NT_FACTION_SPY_DUKE = 1974,
NT_FACTION_SPY_OVERBUILD = 1976,
NT_FACTION_SPY_HAEL = 1977,
NJ_EARTH_SPINJITZU = 2030,
NJ_LIGHTNING_SPINJITZU = 2031,
NJ_ICE_SPINJITZU = 2032,
NJ_FIRE_SPINJITZU = 2033,
NJ_WU_SHOW_DAILY_CHEST = 2099
};
//======== FUNC ===========
template<typename T>
inline T const& clamp(const T& val, const T& low, const T& high) {
if (val < low) return low;
else if (val > high) return high;
return val;
}

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@ -1,45 +1,53 @@
#include "dConfig.h"
#include <sstream>
#include "BinaryPathFinder.h"
#include "GeneralUtils.h"
dConfig::dConfig(const std::string& filepath) {
m_EmptyString = "";
std::ifstream in(filepath);
m_ConfigFilePath = filepath;
LoadConfig();
}
void dConfig::LoadConfig() {
std::ifstream in(BinaryPathFinder::GetBinaryDir() / m_ConfigFilePath);
if (!in.good()) return;
std::string line;
std::string line{};
while (std::getline(in, line)) {
if (line.length() > 0) {
if (line[0] != '#') ProcessLine(line);
}
if (!line.empty() && line.front() != '#') ProcessLine(line);
}
std::ifstream sharedConfig(BinaryPathFinder::GetBinaryDir() / "sharedconfig.ini", std::ios::in);
if (!sharedConfig.good()) return;
line.clear();
while (std::getline(sharedConfig, line)) {
if (!line.empty() && line.front() != '#') ProcessLine(line);
}
}
dConfig::~dConfig(void) {
void dConfig::ReloadConfig() {
this->m_ConfigValues.clear();
LoadConfig();
}
const std::string& dConfig::GetValue(std::string key) {
for (size_t i = 0; i < m_Keys.size(); ++i) {
if (m_Keys[i] == key) return m_Values[i];
}
return m_EmptyString;
return this->m_ConfigValues[key];
}
void dConfig::ProcessLine(const std::string& line) {
std::stringstream ss(line);
std::string segment;
std::vector<std::string> seglist;
auto splitLine = GeneralUtils::SplitString(line, '=');
while (std::getline(ss, segment, '=')) {
seglist.push_back(segment);
}
if (seglist.size() != 2) return;
if (splitLine.size() != 2) return;
//Make sure that on Linux, we remove special characters:
if (!seglist[1].empty() && seglist[1][seglist[1].size() - 1] == '\r')
seglist[1].erase(seglist[1].size() - 1);
auto& key = splitLine.at(0);
auto& value = splitLine.at(1);
if (!value.empty() && value.at(value.size() - 1) == '\r') value.erase(value.size() - 1);
m_Keys.push_back(seglist[0]);
m_Values.push_back(seglist[1]);
if (this->m_ConfigValues.find(key) != this->m_ConfigValues.end()) return;
this->m_ConfigValues.insert(std::make_pair(key, value));
}

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@ -1,20 +1,33 @@
#pragma once
#include <fstream>
#include <map>
#include <string>
#include <vector>
class dConfig {
public:
dConfig(const std::string& filepath);
~dConfig(void);
/**
* Gets the specified key from the config. Returns an empty string if the value is not found.
*
* @param key Key to find
* @return The keys value in the config
*/
const std::string& GetValue(std::string key);
/**
* Loads the config from a file
*/
void LoadConfig();
/**
* Reloads the config file to reset values
*/
void ReloadConfig();
private:
void ProcessLine(const std::string& line);
private:
std::vector<std::string> m_Keys;
std::vector<std::string> m_Values;
std::string m_EmptyString;
std::map<std::string, std::string> m_ConfigValues;
std::string m_ConfigFilePath;
};

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@ -0,0 +1,162 @@
#pragma once
#ifndef __DCOMMONVARS__H__
#define __DCOMMONVARS__H__
#include <cstdint>
#include <string>
#include <set>
#include "BitStream.h"
#include "eConnectionType.h"
#include "eClientMessageType.h"
#pragma warning (disable:4251) //Disables SQL warnings
// These are the same define, but they mean two different things in different contexts
// so a different define to distinguish what calculation is happening will help clarity.
#define FRAMES_TO_MS(x) 1000 / x
#define MS_TO_FRAMES(x) 1000 / x
//=========== FRAME TIMINGS ===========
constexpr uint32_t highFramerate = 60;
constexpr uint32_t mediumFramerate = 30;
constexpr uint32_t lowFramerate = 15;
constexpr uint32_t highFrameDelta = FRAMES_TO_MS(highFramerate);
constexpr uint32_t mediumFrameDelta = FRAMES_TO_MS(mediumFramerate);
constexpr uint32_t lowFrameDelta = FRAMES_TO_MS(lowFramerate);
//========== MACROS ===========
#define HEADER_SIZE 8
#define CBITSTREAM RakNet::BitStream bitStream;
#define CINSTREAM RakNet::BitStream inStream(packet->data, packet->length, false);
#define CINSTREAM_SKIP_HEADER CINSTREAM if (inStream.GetNumberOfUnreadBits() >= BYTES_TO_BITS(HEADER_SIZE)) inStream.IgnoreBytes(HEADER_SIZE); else inStream.IgnoreBits(inStream.GetNumberOfUnreadBits());
#define CMSGHEADER PacketUtils::WriteHeader(bitStream, eConnectionType::CLIENT, eClientMessageType::GAME_MSG);
#define SEND_PACKET Game::server->Send(&bitStream, sysAddr, false);
#define SEND_PACKET_BROADCAST Game::server->Send(&bitStream, UNASSIGNED_SYSTEM_ADDRESS, true);
//=========== TYPEDEFS ==========
typedef int32_t LOT; //!< A LOT
typedef int64_t LWOOBJID; //!< An object ID (should be unsigned actually but ok)
typedef int32_t TSkillID; //!< A skill ID
typedef uint32_t LWOCLONEID; //!< Used for Clone IDs
typedef uint16_t LWOMAPID; //!< Used for Map IDs
typedef uint16_t LWOINSTANCEID; //!< Used for Instance IDs
typedef uint32_t PROPERTYCLONELIST; //!< Used for Property Clone IDs
typedef uint32_t StripId;
const LWOOBJID LWOOBJID_EMPTY = 0; //!< An empty object ID
const LOT LOT_NULL = -1; //!< A null LOT
const int32_t LOOTTYPE_NONE = 0; //!< No loot type available
const float SECONDARY_PRIORITY = 1.0f; //!< Secondary Priority
const uint32_t INVENTORY_MAX = 9999999; //!< The Maximum Inventory Size
const uint32_t LWOCLONEID_INVALID = -1; //!< Invalid LWOCLONEID
const uint16_t LWOINSTANCEID_INVALID = -1; //!< Invalid LWOINSTANCEID
const uint16_t LWOMAPID_INVALID = -1; //!< Invalid LWOMAPID
const uint64_t LWOZONEID_INVALID = 0; //!< Invalid LWOZONEID
const float PI = 3.14159f;
//============ STRUCTS ==============
struct LWOSCENEID {
public:
LWOSCENEID() { m_sceneID = -1; m_layerID = 0; }
LWOSCENEID(int sceneID) { m_sceneID = sceneID; m_layerID = 0; }
LWOSCENEID(int sceneID, unsigned int layerID) { m_sceneID = sceneID; m_layerID = layerID; }
LWOSCENEID& operator=(const LWOSCENEID& rhs) { m_sceneID = rhs.m_sceneID; m_layerID = rhs.m_layerID; return *this; }
LWOSCENEID& operator=(const int rhs) { m_sceneID = rhs; m_layerID = 0; return *this; }
bool operator<(const LWOSCENEID& rhs) const { return (m_sceneID < rhs.m_sceneID || (m_sceneID == rhs.m_sceneID && m_layerID < rhs.m_layerID)); }
bool operator<(const int rhs) const { return m_sceneID < rhs; }
bool operator==(const LWOSCENEID& rhs) const { return (m_sceneID == rhs.m_sceneID && m_layerID == rhs.m_layerID); }
bool operator==(const int rhs) const { return m_sceneID == rhs; }
const int GetSceneID() const { return m_sceneID; }
const unsigned int GetLayerID() const { return m_layerID; }
void SetSceneID(const int sceneID) { m_sceneID = sceneID; }
void SetLayerID(const unsigned int layerID) { m_layerID = layerID; }
private:
int m_sceneID;
unsigned int m_layerID;
};
struct LWOZONEID {
public:
const LWOMAPID& GetMapID() const { return m_MapID; }
const LWOINSTANCEID& GetInstanceID() const { return m_InstanceID; }
const LWOCLONEID& GetCloneID() const { return m_CloneID; }
//In order: def constr, constr, assign op
LWOZONEID() { m_MapID = LWOMAPID_INVALID; m_InstanceID = LWOINSTANCEID_INVALID; m_CloneID = LWOCLONEID_INVALID; }
LWOZONEID(const LWOMAPID& mapID, const LWOINSTANCEID& instanceID, const LWOCLONEID& cloneID) { m_MapID = mapID; m_InstanceID = instanceID; m_CloneID = cloneID; }
LWOZONEID(const LWOZONEID& replacement) { *this = replacement; }
private:
LWOMAPID m_MapID; //1000 for VE, 1100 for AG, etc...
LWOINSTANCEID m_InstanceID; //Instances host the same world, but on a different dWorld process.
LWOCLONEID m_CloneID; //To differentiate between "your property" and "my property". Always 0 for non-prop worlds.
};
const LWOSCENEID LWOSCENEID_INVALID = -1;
struct LWONameValue {
uint32_t length = 0; //!< The length of the name
std::u16string name; //!< The name
LWONameValue(void) {}
LWONameValue(const std::u16string& name) {
this->name = name;
this->length = static_cast<uint32_t>(name.length());
}
~LWONameValue(void) {}
};
struct FriendData {
public:
bool isOnline = false;
bool isBestFriend = false;
bool isFTP = false;
LWOZONEID zoneID;
LWOOBJID friendID;
std::string friendName;
void Serialize(RakNet::BitStream& bitStream) {
bitStream.Write<uint8_t>(isOnline);
bitStream.Write<uint8_t>(isBestFriend);
bitStream.Write<uint8_t>(isFTP);
bitStream.Write<uint32_t>(0); //???
bitStream.Write<uint8_t>(0); //???
bitStream.Write(zoneID.GetMapID());
bitStream.Write(zoneID.GetInstanceID());
bitStream.Write(zoneID.GetCloneID());
bitStream.Write(friendID);
uint32_t maxSize = 33;
uint32_t size = static_cast<uint32_t>(friendName.length());
uint32_t remSize = static_cast<uint32_t>(maxSize - size);
if (size > maxSize) size = maxSize;
for (uint32_t i = 0; i < size; ++i) {
bitStream.Write(static_cast<uint16_t>(friendName[i]));
}
for (uint32_t j = 0; j < remSize; ++j) {
bitStream.Write(static_cast<uint16_t>(0));
}
bitStream.Write<uint32_t>(0); //???
bitStream.Write<uint16_t>(0); //???
}
};
#endif //!__DCOMMONVARS__H__

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@ -1,11 +1,11 @@
#pragma once
#ifndef __ADDFRIENDRESPONSECODE__H__
#define __ADDFRIENDRESPONSECODE__H__
#ifndef __EADDFRIENDRESPONSECODE__H__
#define __EADDFRIENDRESPONSECODE__H__
#include <cstdint>
enum class AddFriendResponseCode : uint8_t {
enum class eAddFriendResponseCode : uint8_t {
ACCEPTED = 0,
REJECTED,
BUSY,

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@ -1,11 +1,11 @@
#pragma once
#ifndef __ADDFRIENDRESPONSETYPE__H__
#define __ADDFRIENDRESPONSETYPE__H__
#ifndef __EADDFRIENDRESPONSETYPE__H__
#define __EADDFRIENDRESPONSETYPE__H__
#include <cstdint>
enum class AddFriendResponseType : uint8_t {
enum class eAddFriendResponseType : uint8_t {
ACCEPTED = 0,
ALREADYFRIEND,
INVALIDCHARACTER,
@ -21,4 +21,4 @@ enum class AddFriendResponseType : uint8_t {
FRIENDISFREETRIAL
};
#endif //!__ADDFRIENDRESPONSETYPE__H__
#endif //!__EADDFRIENDRESPONSETYPE__H__

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@ -6,7 +6,7 @@
#include <cstdint>
enum class eAnimationFlags : uint32_t {
IDLE_INVALID = 0, // made up, for internal use!!!
IDLE_NONE = 0,
IDLE_BASIC,
IDLE_SWIM,
IDLE_CARRY,

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@ -0,0 +1,15 @@
#ifndef __EAUTHMESSAGETYPE__H__
#define __EAUTHMESSAGETYPE__H__
#include <cstdint>
enum class eAuthMessageType : uint32_t {
LOGIN_REQUEST = 0,
LOGOUT_REQUEST,
CREATE_NEW_ACCOUNT_REQUEST,
LEGOINTERFACE_AUTH_RESPONSE,
SESSIONKEY_RECEIVED_CONFIRM,
RUNTIME_CONFIG
};
#endif //!__EAUTHMESSAGETYPE__H__

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#ifndef __EBASICATTACKSUCCESSTYPES__H__
#define __EBASICATTACKSUCCESSTYPES__H__
#include <cstdint>
enum class eBasicAttackSuccessTypes : uint8_t {
SUCCESS = 1,
FAILARMOR,
FAILIMMUNE
};
#endif //!__EBASICATTACKSUCCESSTYPES__H__

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#pragma once
#ifndef __EBLUEPRINTSAVERESPONSETYPE__H__
#define __EBLUEPRINTSAVERESPONSETYPE__H__
#include <cstdint>
enum class eBlueprintSaveResponseType : uint32_t {
EverythingWorked = 0,
SaveCancelled,
CantBeginTransaction,
SaveBlueprintFailed,
SaveUgobjectFailed,
CantEndTransaction,
SaveFilesFailed,
BadInput,
NotEnoughBricks,
InventoryFull,
ModelGenerationFailed,
PlacementFailed,
GmLevelInsufficient,
WaitForPreviousSave,
FindMatchesFailed
};
#endif //!__EBLUEPRINTSAVERESPONSETYPE__H__

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#pragma once
#ifndef __EBUBBLETYPE__H__
#define __EBUBBLETYPE__H__
#include <cstdint>
enum class eBubbleType : uint32_t {
DEFAULT = 0,
ENERGY,
SKUNK
};
#endif //!__EBUBBLETYPE__H__

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#ifndef __EBUILDTYPE__H__
#define __EBUILDTYPE__H__
#include <cstdint>
enum class eBuildType :uint32_t {
NOWHERE,
IN_WORLD,
ON_PROPERTY
};
#endif //!__EBUILDTYPE__H__

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#ifndef __ECHARACTERCREATIONRESPONSE__H__
#define __ECHARACTERCREATIONRESPONSE__H__
#include <cstdint>
enum class eCharacterCreationResponse : uint8_t {
SUCCESS = 0,
OBJECT_ID_UNAVAILABLE,
NAME_NOT_ALLOWED,
PREDEFINED_NAME_IN_USE,
CUSTOM_NAME_IN_USE
};
#endif //!__ECHARACTERCREATIONRESPONSE__H__

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#pragma once
#ifndef __ECHARACTERVERSION__H__
#define __ECHARACTERVERSION__H__
#include <cstdint>
enum class eCharacterVersion : uint32_t {
// Versions from the live game
RELEASE = 0, // Initial release of the game
LIVE, // Fixes for the 1.9 release bug fixes for missions leading up to joining a faction
// New versions for DLU fixes
// Fixes the "Joined a faction" player flag not being set properly
PLAYER_FACTION_FLAGS,
// Fixes vault size value
VAULT_SIZE,
// Fixes speed base value in level component
UP_TO_DATE, // will become SPEED_BASE
};
#endif //!__ECHARACTERVERSION__H__

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#ifndef __ECHATINTERNALMESSAGETYPE__H__
#define __ECHATINTERNALMESSAGETYPE__H__
#include <cstdint>
enum eChatInternalMessageType : uint32_t {
PLAYER_ADDED_NOTIFICATION = 0,
PLAYER_REMOVED_NOTIFICATION,
ADD_FRIEND,
ADD_BEST_FRIEND,
ADD_TO_TEAM,
ADD_BLOCK,
REMOVE_FRIEND,
REMOVE_BLOCK,
REMOVE_FROM_TEAM,
DELETE_TEAM,
REPORT,
PRIVATE_CHAT,
PRIVATE_CHAT_RESPONSE,
ANNOUNCEMENT,
MAIL_COUNT_UPDATE,
MAIL_SEND_NOTIFY,
REQUEST_USER_LIST,
FRIEND_LIST,
ROUTE_TO_PLAYER,
TEAM_UPDATE,
MUTE_UPDATE,
CREATE_TEAM,
};
#endif //!__ECHATINTERNALMESSAGETYPE__H__

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#ifndef __ECHATMESSAGETYPE__H__
#define __ECHATMESSAGETYPE__H__
#include <cstdint>
//! The Internal Chat Packet Identifiers
enum class eChatMessageType :uint32_t {
LOGIN_SESSION_NOTIFY = 0,
GENERAL_CHAT_MESSAGE,
PRIVATE_CHAT_MESSAGE,
USER_CHANNEL_CHAT_MESSAGE,
WORLD_DISCONNECT_REQUEST,
WORLD_PROXIMITY_RESPONSE,
WORLD_PARCEL_RESPONSE,
ADD_FRIEND_REQUEST,
ADD_FRIEND_RESPONSE,
REMOVE_FRIEND,
GET_FRIENDS_LIST,
ADD_IGNORE,
REMOVE_IGNORE,
GET_IGNORE_LIST,
TEAM_MISSED_INVITE_CHECK,
TEAM_INVITE,
TEAM_INVITE_RESPONSE,
TEAM_KICK,
TEAM_LEAVE,
TEAM_SET_LOOT,
TEAM_SET_LEADER,
TEAM_GET_STATUS,
GUILD_CREATE,
GUILD_INVITE,
GUILD_INVITE_RESPONSE,
GUILD_LEAVE,
GUILD_KICK,
GUILD_GET_STATUS,
GUILD_GET_ALL,
SHOW_ALL,
BLUEPRINT_MODERATED,
BLUEPRINT_MODEL_READY,
PROPERTY_READY_FOR_APPROVAL,
PROPERTY_MODERATION_CHANGED,
PROPERTY_BUILDMODE_CHANGED,
PROPERTY_BUILDMODE_CHANGED_REPORT,
MAIL,
WORLD_INSTANCE_LOCATION_REQUEST,
REPUTATION_UPDATE,
SEND_CANNED_TEXT,
GMLEVEL_UPDATE,
CHARACTER_NAME_CHANGE_REQUEST,
CSR_REQUEST,
CSR_REPLY,
GM_KICK,
GM_ANNOUNCE,
GM_MUTE,
ACTIVITY_UPDATE,
WORLD_ROUTE_PACKET,
GET_ZONE_POPULATIONS,
REQUEST_MINIMUM_CHAT_MODE,
REQUEST_MINIMUM_CHAT_MODE_PRIVATE,
MATCH_REQUEST,
UGCMANIFEST_REPORT_MISSING_FILE,
UGCMANIFEST_REPORT_DONE_FILE,
UGCMANIFEST_REPORT_DONE_BLUEPRINT,
UGCC_REQUEST,
WHO,
WORLD_PLAYERS_PET_MODERATED_ACKNOWLEDGE,
ACHIEVEMENT_NOTIFY,
GM_CLOSE_PRIVATE_CHAT_WINDOW,
UNEXPECTED_DISCONNECT,
PLAYER_READY,
GET_DONATION_TOTAL,
UPDATE_DONATION,
PRG_CSR_COMMAND,
HEARTBEAT_REQUEST_FROM_WORLD,
UPDATE_FREE_TRIAL_STATUS
};
#endif //!__ECHATMESSAGETYPE__H__

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#ifndef __ECINEMATICEVENT__H__
#define __ECINEMATICEVENT__H__
#include <cstdint>
enum class eCinematicEvent : uint32_t {
STARTED,
WAYPOINT,
ENDED,
};
#endif //!__ECINEMATICEVENT__H__

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#ifndef __ECLIENTMESSAGETYPE__H__
#define __ECLIENTMESSAGETYPE__H__
#include <cstdint>
enum class eClientMessageType : uint32_t {
LOGIN_RESPONSE = 0,
LOGOUT_RESPONSE,
LOAD_STATIC_ZONE,
CREATE_OBJECT,
CREATE_CHARACTER,
CREATE_CHARACTER_EXTENDED,
CHARACTER_LIST_RESPONSE,
CHARACTER_CREATE_RESPONSE,
CHARACTER_RENAME_RESPONSE,
CHAT_CONNECT_RESPONSE,
AUTH_ACCOUNT_CREATE_RESPONSE,
DELETE_CHARACTER_RESPONSE,
GAME_MSG,
CONNECT_CHAT,
TRANSFER_TO_WORLD,
IMPENDING_RELOAD_NOTIFY,
MAKE_GM_RESPONSE,
HTTP_MONITOR_INFO_RESPONSE,
SLASH_PUSH_MAP_RESPONSE,
SLASH_PULL_MAP_RESPONSE,
SLASH_LOCK_MAP_RESPONSE,
BLUEPRINT_SAVE_RESPONSE,
BLUEPRINT_LUP_SAVE_RESPONSE,
BLUEPRINT_LOAD_RESPONSE_ITEMID,
BLUEPRINT_GET_ALL_DATA_RESPONSE,
MODEL_INSTANTIATE_RESPONSE,
DEBUG_OUTPUT,
ADD_FRIEND_REQUEST,
ADD_FRIEND_RESPONSE,
REMOVE_FRIEND_RESPONSE,
GET_FRIENDS_LIST_RESPONSE,
UPDATE_FRIEND_NOTIFY,
ADD_IGNORE_RESPONSE,
REMOVE_IGNORE_RESPONSE,
GET_IGNORE_LIST_RESPONSE,
TEAM_INVITE,
TEAM_INVITE_INITIAL_RESPONSE,
GUILD_CREATE_RESPONSE,
GUILD_GET_STATUS_RESPONSE,
GUILD_INVITE,
GUILD_INVITE_INITIAL_RESPONSE,
GUILD_INVITE_FINAL_RESPONSE,
GUILD_INVITE_CONFIRM,
GUILD_ADD_PLAYER,
GUILD_REMOVE_PLAYER,
GUILD_LOGIN_LOGOUT,
GUILD_RANK_CHANGE,
GUILD_DATA,
GUILD_STATUS,
MAIL,
DB_PROXY_RESULT,
SHOW_ALL_RESPONSE,
WHO_RESPONSE,
SEND_CANNED_TEXT,
UPDATE_CHARACTER_NAME,
SET_NETWORK_SIMULATOR,
INVALID_CHAT_MESSAGE,
MINIMUM_CHAT_MODE_RESPONSE,
MINIMUM_CHAT_MODE_RESPONSE_PRIVATE,
CHAT_MODERATION_STRING,
UGC_MANIFEST_RESPONSE,
IN_LOGIN_QUEUE,
SERVER_STATES,
GM_CLOSE_TARGET_CHAT_WINDOW,
GENERAL_TEXT_FOR_LOCALIZATION,
UPDATE_FREE_TRIAL_STATUS,
UGC_DOWNLOAD_FAILED = 120
};
#endif //!__ECLIENTMESSAGETYPE__H__

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#ifndef __ECONNECTIONTYPE__H__
#define __ECONNECTIONTYPE__H__
enum class eConnectionType : uint16_t {
SERVER = 0,
AUTH,
CHAT,
CHAT_INTERNAL,
WORLD,
CLIENT,
MASTER
};
#endif //!__ECONNECTIONTYPE__H__

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#ifndef __ECONTROLSCHEME__H__
#define __ECONTROLSCHEME__H__
#include <cstdint>
enum class eControlScheme : uint32_t {
SCHEME_A,
SCHEME_D,
SCHEME_GAMEPAD,
SCHEME_E,
SCHEME_FPS,
SCHEME_DRIVING,
SCHEME_TAMING,
SCHEME_MODULAR_BUILD,
SCHEME_WEAR_A_ROBOT //== freecam?
};
#endif //!__ECONTROLSCHEME__H__

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#ifndef __ECYCLINGMODE__H__
#define __ECYCLINGMODE__H__
#include <cstdint>
enum class eCyclingMode : uint32_t {
ALLOW_CYCLE_TEAMMATES,
DISALLOW_CYCLING
};
#endif //!__ECYCLINGMODE__H__

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#ifndef __EENDBEHAVIOR__H__
#define __EENDBEHAVIOR__H__
#include <cstdint>
enum class eEndBehavior : uint32_t {
RETURN,
WAIT
};
#endif //!__EENDBEHAVIOR__H__

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#ifndef __EGAMEACTIVITY__H__
#define __EGAMEACTIVITY__H__
#include <cstdint>
enum class eGameActivity : uint32_t {
NONE,
QUICKBUILDING,
SHOOTING_GALLERY,
RACING,
PINBALL,
PET_TAMING
};
#endif //!__EGAMEACTIVITY__H__

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#ifndef __EGAMEMASTERLEVEL__H__
#define __EGAMEMASTERLEVEL__H__
#include <cstdint>
enum class eGameMasterLevel : uint8_t {
CIVILIAN = 0, // Normal player.
FORUM_MODERATOR = 1, // No permissions on live servers.
JUNIOR_MODERATOR = 2, // Can kick/mute and pull chat logs.
MODERATOR = 3, // Can return lost items.
SENIOR_MODERATOR = 4, // Can ban.
LEAD_MODERATOR = 5, // Can approve properties.
JUNIOR_DEVELOPER = 6, // Junior developer & future content team. Civilan on live.
INACTIVE_DEVELOPER = 7, // Inactive developer, limited permissions.
DEVELOPER = 8, // Active developer, full permissions on live.
OPERATOR = 9 // Can shutdown server for restarts & updates.
};
#endif //!__EGAMEMASTERLEVEL__H__

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#ifndef __EHELPTYPE__H__
#define __EHELPTYPE__H__
#include <cstdint>
enum class eHelpType : int32_t {
NONE = 0,
UNLOCK_MINIMAP = 2,
TOGGLETOOLTIP_OUTOFTIME_REBUILD = 3,
TOGGLETOOLTIP_LEAVELOSE_REBUILD = 4,
TOGGLECONTROLSTUTORIAL_WALKING = 6,
DISPLAYTUTORIAL_PASSPORT_1ST_SMASH = 7,
TOOLTIP_1ST_IMAGINATION_PICKUP = 8,
UNKNOWN9 = 9,
PETTAMINGMINIGAME_TUTORIAL_01 = 15,
PR_BOUNCER_TUTORIAL_03 = 16,
PR_TOOLTIP_1ST_PET_JUMPED_ON_SWITCH = 17,
PR_DIG_TUTORIAL_01 = 18,
PR_DIG_TUTORIAL_03 = 19,
PR_BOUNCER_TUTORIAL_01 = 20,
PR_NO_IMAGINATION_HIBERNATE = 21,
UNKNOWN22 = 22,
TOGGLECONTROLSTUTORIAL_JUMPING = 26,
TOGGLECONTROLSTUTORIAL_DOUBLEJUMPING = 27,
TOGGLECONTROLSTUTORIAL_CAMERA = 28,
TOGGLECONTROLSTUTORIAL_SMASH = 30,
UNKNOWN38 = 38,
UI_MOD_BUILD_PUT_ON_HAT = 40,
UI_MOD_BUILD_EQUIP_FIRST_MODULE = 41,
UNKNOWN42 = 42,
UNKNOWN43 = 43,
UI_MOD_BUILD_GO_LAUNCH_ROCKET = 44,
UI_MOD_BUILD_TALK_TO_SKYLANE = 45,
UNKNOWN53 = 53,
PET_DESPAWN_BY_OWNER_HIBERNATE = 69,
PET_DESPAWN_TAMING_NEW_PET = 70,
UI_INVENTORY_FULL_CANNOT_PICKUP_ITEM = 86
};
#endif //!__EHELPTYPE__H__

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#pragma once
#ifndef __EINVENTORYTYPE__H__
#define __EINVENTORYTYPE__H__
#include <cstdint>
static const uint8_t NUMBER_OF_INVENTORIES = 17;
/**
* Represents the different types of inventories an entity may have
*/
enum eInventoryType : uint32_t {
ITEMS = 0,
VAULT_ITEMS,
BRICKS,
MODELS_IN_BBB,
TEMP_ITEMS,
MODELS,
TEMP_MODELS,
BEHAVIORS,
PROPERTY_DEEDS,
BRICKS_IN_BBB,
VENDOR,
VENDOR_BUYBACK,
QUEST, //Used for mission items
DONATION,
VAULT_MODELS,
ITEM_SETS, //internal, technically this is BankBehaviors.
INVALID // made up, for internal use!!!, Technically this called the ALL inventory.
};
class InventoryType {
public:
static const char* InventoryTypeToString(eInventoryType inventory) {
const char* eInventoryTypeTable[NUMBER_OF_INVENTORIES] = {
"ITEMS",
"VAULT_ITEMS",
"BRICKS",
"MODELS_IN_BBB",
"TEMP_ITEMS",
"MODELS",
"TEMP_MODELS",
"BEHAVIORS",
"PROPERTY_DEEDS",
"BRICKS_IN_BBB",
"VENDOR",
"VENDOR_BUYBACK",
"QUEST", //Used for mission items
"DONATION",
"VAULT_MODELS",
"ITEM_SETS", //internal, technically this is BankBehaviors.
"INVALID" // made up, for internal use!!!, Technically this called the ALL inventory.
};
if (inventory > NUMBER_OF_INVENTORIES - 1) return nullptr;
return eInventoryTypeTable[inventory];
};
};
#endif //!__EINVENTORYTYPE__H__

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#pragma once
#ifndef __EITEMSETPASSIVEABILITYID__H__
#define __EITEMSETPASSIVEABILITYID__H__
enum class eItemSetPassiveAbilityID {
EngineerRank1 = 2,
EngineerRank2 = 3,
EngineerRank3 = 4,
KnightRank1 = 7,
KnightRank2 = 8,
KnightRank3 = 9,
SpaceRangerRank1 = 10,
SpaceRangerRank2 = 11,
SpaceRangerRank3 = 12,
SamuraiRank1 = 13,
SamuraiRank2 = 14,
SamuraiRank3 = 15,
SorcererRank1 = 16,
SorcererRank2 = 17,
SorcererRank3 = 18,
SpaceMarauderRank1 = 19,
SpaceMarauderRank2 = 20,
SpaceMarauderRank3 = 21,
ShinobiRank1 = 22,
ShinobiRank2 = 23,
ShinobiRank3 = 24,
InventorRank1 = 25,
InventorRank2 = 26,
InventorRank3 = 27,
SummonerRank1 = 28,
SummonerRank2 = 29,
SummonerRank3 = 30,
AdventurerRank1 = 31,
AdventurerRank2 = 32,
AdventurerRank3 = 33,
DaredevilRank1 = 34,
DaredevilRank2 = 35,
DaredevilRank3 = 36,
BuccaneerRank1 = 37,
BuccaneerRank2 = 38,
BuccaneerRank3 = 39,
BoneSuit = 40,
ImaginationSpinjitzu = 41,
BatLord = 42,
MosaicJester = 43,
ExplorienBot = 44,
Unnamed1 = 45,
Unnamed2 = 46,
Unnamed3 = 47,
EarthSpinjitzu = 48,
Unnamed4 = 49,
FireSpinjitzu = 50,
IceSpinjitzu = 51,
LightningSpinjitzu = 52
};
#endif //!__EITEMSETPASSIVEABILITYID__H__

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#pragma once
#ifndef __EITEMTYPE__H__
#define __EITEMTYPE__H__
#include <cstdint>
enum class eItemType : int32_t {
UNKNOWN = -1,
BRICK = 1,
HAT,
HAIR,
NECK,
LEFT_HAND,
RIGHT_HAND,
LEGS,
LEFT_TRINKET,
RIGHT_TRINKET,
BEHAVIOR,
PROPERTY,
MODEL,
COLLECTIBLE,
CONSUMABLE,
CHEST,
EGG,
PET_FOOD,
QUEST_OBJECT,
PET_INVENTORY_ITEM,
PACKAGE,
LOOT_MODEL,
VEHICLE,
LUP_MODEL,
MOUNT
};
#endif //!__EITEMTYPE__H__

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#ifndef __EKILLTYPE__H__
#define __EKILLTYPE__H__
#include <cstdint>
enum class eKillType : uint32_t {
VIOLENT,
SILENT
};
#endif //!__EKILLTYPE__H__

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#ifndef __ELOGINRESPONSE__H__
#define __ELOGINRESPONSE__H__
#include <cstdint>
enum class eLoginResponse : uint8_t {
GENERAL_FAILED = 0,
SUCCESS,
BANNED,
// Unused 3
// Unused 4
PERMISSIONS_NOT_HIGH_ENOUGH = 5,
INVALID_USER,
ACCOUNT_LOCKED,
WRONG_PASS,
ACCOUNT_ACTIVATION_PENDING,
ACCOUNT_DISABLED,
GAME_TIME_EXPIRED,
FREE_TRIAL_ENDED,
PLAY_SCHEDULE_TIME_UP,
ACCOUNT_NOT_ACTIVATED
};
#endif //!__ELOGINRESPONSE__H__

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#ifndef __ELOOTSOURCETYPE__H__
#define __ELOOTSOURCETYPE__H__
#include <cstdint>
enum class eLootSourceType : uint32_t {
NONE = 0,
CHEST,
MISSION,
MAIL,
CURRENCY,
ACHIEVEMENT,
TRADE,
QUICKBUILD,
DELETION,
VENDOR,
ACTIVITY,
PICKUP,
BRICK,
PROPERTY,
MODERATION,
EXHIBIT,
INVENTORY,
CLAIMCODE,
CONSUMPTION,
CRAFTING,
LEVEL_REWARD,
RELOCATE
};
#endif //!__ELOOTSOURCETYPE__H__

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#ifndef __EMASTERMESSAGETYPE__H__
#define __EMASTERMESSAGETYPE__H__
#include <cstdint>
enum class eMasterMessageType : uint32_t {
REQUEST_PERSISTENT_ID = 1,
REQUEST_PERSISTENT_ID_RESPONSE,
REQUEST_ZONE_TRANSFER,
REQUEST_ZONE_TRANSFER_RESPONSE,
SERVER_INFO,
REQUEST_SESSION_KEY,
SET_SESSION_KEY,
SESSION_KEY_RESPONSE,
PLAYER_ADDED,
PLAYER_REMOVED,
CREATE_PRIVATE_ZONE,
REQUEST_PRIVATE_ZONE,
WORLD_READY,
PREP_ZONE,
SHUTDOWN,
SHUTDOWN_RESPONSE,
SHUTDOWN_IMMEDIATE,
SHUTDOWN_UNIVERSE,
AFFIRM_TRANSFER_REQUEST,
AFFIRM_TRANSFER_RESPONSE,
NEW_SESSION_ALERT
};
#endif //!__EMASTERMESSAGETYPE__H__

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#ifndef __EMATCHUPDATE__H__
#define __EMATCHUPDATE__H__
#include <cstdint>
enum class eMatchUpdate : int32_t {
PLAYER_ADDED = 0,
PLAYER_REMOVED,
PHASE_CREATED,
PHASE_WAIT_READY,
PHASE_WAIT_START,
PLAYER_READY,
PLAYER_NOT_READY,
PLAYER_UPDATE
};
#endif //!__EMATCHUPDATE__H__

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#pragma once
#ifndef __EMISSIONLOCKSTATE__H__
#define __EMISSIONLOCKSTATE__H__
enum class eMissionLockState : int {
LOCKED,
NEW,
UNLOCKED,
};
#endif //!__EMISSIONLOCKSTATE__H__

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