/* Copyright (C) 2010-2012 kaosu (qiupf2000@gmail.com) * This file is part of the Interactive Text Hooker. * Interactive Text Hooker is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as published * by the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "host/host.h" #include "host/hookman.h" #include "vnrhook/include/types.h" #include "vnrhook/include/const.h" #include "Profile.h" #include "misc.h" #include #include "pugixml.h" extern HookManager* man; Profile::Profile(const std::wstring& title) : select_index(-1), title(title) {} const std::unordered_set& Profile::Hooks() const { return hooks; } const std::vector& Profile::Threads() const { return threads; } const std::unordered_set& Profile::Links() const { return links; } bool Profile::XmlReadProfile(pugi::xml_node profile) { auto hooks_node = profile.child(L"Hooks"); auto threads_node = profile.child(L"Threads"); auto links_node = profile.child(L"Links"); if (hooks_node && !XmlReadProfileHook(hooks_node)) return false; if (threads_node && !XmlReadProfileThread(threads_node)) return false; if (links_node && !XmlReadProfileLink(links_node)) return false; auto select_node = profile.child(L"Select"); if (select_node) { auto thread_index = select_node.attribute(L"ThreadIndex"); if (!thread_index) return false; DWORD tmp_select = std::stoul(thread_index.value(), NULL, 16); select_index = tmp_select & 0xFFFF; } return true; } bool Profile::XmlReadProfileHook(pugi::xml_node hooks_node) { for (auto hook = hooks_node.begin(); hook != hooks_node.end(); ++hook) { std::wstring name = hook->name(); if (name.empty() || name.compare(L"Hook") != 0) return false; auto type = hook->attribute(L"Type"); if (!type || type.empty()) return false; auto code = hook->attribute(L"Code"); if (!code) return false; std::wstring code_value = code.value(); HookParam hp = {}; switch (type.value()[0]) { case L'H': if (code_value[0] != L'/') return false; if (code_value[1] != L'H' && code_value[1] != L'h') return false; if (Parse(code_value.substr(2), hp)) { auto name = hook->attribute(L"Name"); if (!name || name.empty()) AddHook(hook_ptr(new HookProfile(hp, L""))); else AddHook(hook_ptr(new HookProfile(hp, name.value()))); } break; default: return false; } } return true; } bool Profile::XmlReadProfileThread(pugi::xml_node threads_node) { std::wstring hook_name_buffer; for (auto thread = threads_node.begin(); thread != threads_node.end(); ++thread) { std::wstring name = thread->name(); if (name.empty() || name.compare(L"Thread") != 0) return false; auto hook_name = thread->attribute(L"HookName"); if (!hook_name) return false; auto context = thread->attribute(L"Context"); if (!context) return false; auto sub_context = thread->attribute(L"SubContext"); if (!sub_context) return false; auto mask = thread->attribute(L"Mask"); if (!mask) return false; DWORD mask_tmp = std::stoul(mask.value(), NULL, 16); auto comment = thread->attribute(L"Comment"); auto retn = std::stoul(context.value(), NULL, 16); auto split = std::stoul(sub_context.value(), NULL, 16); WORD flags = mask_tmp & 0xFFFF; auto tp = new ThreadProfile(hook_name.value(), retn, split, 0, 0, flags, comment.value()); AddThread(thread_ptr(tp)); } return true; } bool Profile::XmlReadProfileLink(pugi::xml_node links_node) { for (auto link = links_node.begin(); link != links_node.end(); ++link) { std::wstring name = link->name(); if (name.empty() || name.compare(L"Link") != 0) return false; auto from = link->attribute(L"From"); if (!from) return false; DWORD link_from = std::stoul(from.value(), NULL, 16); auto to = link->attribute(L"To"); if (!to) return false; DWORD link_to = std::stoul(to.value(), NULL, 16); auto lp = new LinkProfile(link_from & 0xFFFF, link_to & 0xFFFF); AddLink(link_ptr(lp)); } return true; } bool Profile::XmlWriteProfile(pugi::xml_node profile_node) { if (!hooks.empty()) { auto node = profile_node.append_child(L"Hooks"); XmlWriteProfileHook(node); } if (!threads.empty()) { auto node = profile_node.append_child(L"Threads"); XmlWriteProfileThread(node); } if (!links.empty()) { auto node = profile_node.append_child(L"Links"); XmlWriteProfileLink(node); } if (select_index != 0xFFFF) { auto node = profile_node.append_child(L"Select"); node.append_attribute(L"ThreadIndex") = select_index; } return true; } bool Profile::XmlWriteProfileHook(pugi::xml_node hooks_node) { for (auto hook = hooks.begin(); hook != hooks.end(); ++hook) { auto hook_node = hooks_node.append_child(L"Hook"); hook_node.append_attribute(L"Type") = L"H"; hook_node.append_attribute(L"Code") = ParseCode((*hook)->HP()).c_str(); if (!(*hook)->Name().empty()) hook_node.append_attribute(L"Name") = (*hook)->Name().c_str(); } return true; } bool Profile::XmlWriteProfileThread(pugi::xml_node threads_node) { for (auto thread = threads.begin(); thread != threads.end(); ++thread) { const std::wstring& name = (*thread)->HookName(); if (name.empty()) return false; auto node = threads_node.append_child(L"Thread"); node.append_attribute(L"HookName") = name.c_str(); std::wstring hex = ToHexString((*thread)->Flags() & (THREAD_MASK_RETN | THREAD_MASK_SPLIT)); node.append_attribute(L"Mask") = hex.c_str(); hex = ToHexString((*thread)->Split()); node.append_attribute(L"SubContext") = hex.c_str(); hex = ToHexString((*thread)->Return()); node.append_attribute(L"Context") = hex.c_str(); if (!(*thread)->Comment().empty()) node.append_attribute(L"Comment") = (*thread)->Comment().c_str(); } return true; } bool Profile::XmlWriteProfileLink(pugi::xml_node links_node) { for (auto link = links.begin(); link != links.end(); ++link) { auto node = links_node.append_child(L"Link"); node.append_attribute(L"From") = ToHexString((*link)->FromIndex()).c_str(); node.append_attribute(L"To") = ToHexString((*link)->ToIndex()).c_str(); } return true; } void Profile::Clear() { title = L""; select_index = -1; hooks.clear(); threads.clear(); links.clear(); } void Profile::AddHook(hook_ptr hook) { hooks.insert(std::move(hook)); } // add the thread profile and return its index int Profile::AddThread(thread_ptr tp) { auto it = std::find_if(threads.begin(), threads.end(), [&tp](thread_ptr& thread) { return thread->HookName().compare(tp->HookName()) == 0 && thread->Return() == tp->Return() && thread->Split() == tp->Split(); }); if (it != threads.end()) return it - threads.begin(); threads.push_back(std::move(tp)); return threads.size() - 1; } void Profile::AddLink(link_ptr link) { links.insert(std::move(link)); } const std::wstring& Profile::Title() const { return title; } bool Profile::IsThreadSelected(thread_ptr_iter thread_profile) { if (thread_profile != threads.end()) { auto thread_index = thread_profile - threads.begin(); return select_index == thread_index; } return false; } thread_ptr_iter Profile::FindThread(const ThreadParameter* tp, const std::wstring& hook_name) const { auto thread_profile = std::find_if(threads.begin(), threads.end(), [&tp, &hook_name](const thread_ptr& thread_profile) -> bool { return thread_profile->HookName().compare(hook_name) == 0 && thread_profile->Return() == tp->retn && thread_profile->Split() == tp->spl; }); return thread_profile; }