#include #include #include #include "net.h" #include "steam.h" #include "toast.h" #include "pool.h" #include "./ui_mainwindow.h" #include "workers.hpp" struct thread_object_info { QString infoText; char* of_dir; char* remote; struct revision_t* rev; size_t index; Worker* worker; }; static void* thread_download(void* pinfo) { struct thread_object_info* info = (struct thread_object_info*)pinfo; if (info) { char* of_dir = info->of_dir; char* remote = info->remote; struct revision_t* rev = info->rev; size_t i = info->index; struct file_info* file = &rev->files[i]; if (file->type == TYPE_WRITE) { info->infoText = QString("Verifying %1").arg(file->object); if (verifyFileHash(of_dir, file)) { info->infoText = QString("Downloading %1").arg(file->object); downloadObject(of_dir, remote, file); } } QString* threadString = &info->infoText; if (!threadString->isEmpty()) { pthread_mutex_lock(&info->worker->textMutex); // allow the main thread to clear the string before we continue while (!info->worker->infoText.isEmpty()) {}; info->worker->progress = (int)(((info->index * 100) + 1) / rev->file_count); info->worker->infoText = *threadString; emit info->worker->resultReady(Worker::RESULT_UPDATE_TEXT); pthread_mutex_unlock(&info->worker->textMutex); } } return NULL; } Worker::Worker() { net_init(); of_dir = NULL; remote = NULL; textMutex = PTHREAD_MUTEX_INITIALIZER; } Worker::~Worker() { net_deinit(); if (of_dir) free(of_dir); if (remote) free(remote); } QString Worker::getOfDir() { return QString(of_dir); } QString Worker::getRemote() { return QString(remote); } void Worker::setRemote(QString remotestr) { if (remote) free(remote); remote = strdup(remotestr.toStdString().c_str()); setLocalRemote(of_dir, remote); } QString Worker::getArguments() { return settings.value("launchArguments", QString()).toString(); } void Worker::setArguments(QString argumentstr) { settings.setValue("launchArguments", argumentstr); } int Worker::getRevision() { return getLocalRevision(of_dir); } int Worker::getRemoteRevision() { return getLatestRemoteRevision(remote); } bool Worker::isOutdated() { return getRemoteRevision() > getRevision(); } void Worker::stop_work() { do_work = false; } int Worker::update_setup(int local_rev, int remote_rev) { if (!of_dir) return 1; else if (update_in_progress) return 0; update_in_progress = true; int retval = 0; struct revision_t* rev = fastFowardRevisions(remote, local_rev, remote_rev); if (rev) { for (size_t i = 0; i < rev->file_count; ++i) { struct file_info* file = &rev->files[i]; if (leavesRelativePath(file->path)) { infoText = QString("Revision contains invalid path '%1'").arg(file->path); emit resultReady(RESULT_UPDATE_TEXT); update_in_progress = false; freeRevision(rev); return 1; } } struct thread_object_info* thread_info = new struct thread_object_info[rev->file_count]; struct pool_t* pool = pool_init(); pool->condition = &do_work; for (size_t i = 0; i < rev->file_count; ++i) { struct thread_object_info* info = &thread_info[i]; info->of_dir = of_dir; info->remote = remote; info->rev = rev; info->index = i; info->worker = this; pool_submit(pool, thread_download, info); } pool_complete(pool); pool_free(pool); delete[] thread_info; progress = 0; infoText = QString("Processing"); emit resultReady(RESULT_UPDATE_TEXT); for (size_t i = 0; i < rev->file_count && do_work; ++i) { struct file_info* file = &rev->files[i]; if (file->type != TYPE_MKDIR) continue; progress = (int)(((i * 100) + 1) / rev->file_count); emit resultReady(RESULT_UPDATE_TEXT); size_t len = strlen(of_dir) + strlen(OS_PATH_SEP) + strlen(file->path) + 1; char* buf = (char*)malloc(len); snprintf(buf, len, "%s%s%s", of_dir, OS_PATH_SEP, file->path); makeDir(buf); free(buf); } for (size_t i = 0; i < rev->file_count && do_work; ++i) { struct file_info* file = &rev->files[i]; progress = (int)(((i * 100) + 1) / rev->file_count); emit resultReady(RESULT_UPDATE_TEXT); switch (file->type) { case TYPE_WRITE: case TYPE_MKDIR: { retval += applyObject(of_dir, file); } break; case TYPE_DELETE: { size_t len = strlen(of_dir) + strlen(OS_PATH_SEP) + strlen(file->path) + 1; char* buf = (char*)malloc(len); snprintf(buf, len, "%s%s%s", of_dir, OS_PATH_SEP, file->path); if (isFile(buf)) retval += remove(buf); free(buf); } break; default: assert(0); break; } } if (do_work) { removeObjects(of_dir); setLocalRemote(of_dir, remote); setLocalRevision(of_dir, remote_rev); } progress = 0; infoText = QString(""); emit resultReady(RESULT_UPDATE_TEXT); freeRevision(rev); } update_in_progress = false; return retval; } void Worker::doWork(const enum Worker::Tasks_t ¶meter) { Results_t result = RESULT_NONE; switch (parameter) { case TASK_INVALID: break; case TASK_INIT: result = RESULT_INIT_FAILURE; of_dir = getOpenFortressDir(); if (of_dir) { of_dir_len = strlen(of_dir); remote = getLocalRemote(of_dir); if (remote) { remote_len = strlen(remote); result = RESULT_INIT_COMPLETE; } else { free(of_dir); of_dir = NULL; remote = NULL; } } else { of_dir = NULL; remote = NULL; } break; case TASK_IS_INSTALLED: result = getRevision() > -1 ? RESULT_IS_INSTALLED : RESULT_IS_NOT_INSTALLED; break; case TASK_IS_UPTODATE: result = isOutdated() ? RESULT_IS_OUTDATED : RESULT_IS_UPTODATE; break; case TASK_UNINSTALL: result = RESULT_UNINSTALL_FAILURE; //if (direxists) result = svn_delete(mod) ? RESULT_UNINSTALL_FAILURE : RESULT_UNINSTALL_COMPLETE; break; case TASK_INSTALL: result = update_setup(0, getRemoteRevision()) > 0 ? RESULT_INSTALL_FAILURE : RESULT_INSTALL_COMPLETE; break; case TASK_UPDATE: result = update_setup(getRevision(), getRemoteRevision()) > 0 ? RESULT_UPDATE_FAILURE : RESULT_UPDATE_COMPLETE; break; case TASK_UPDATE_RUN: result = update_setup(getRevision(), getRemoteRevision()) > 0 ? RESULT_UPDATE_FAILURE : RESULT_UPDATE_COMPLETE; break; case TASK_RUN: result = getSteamPID() > -1 ? RESULT_EXIT : RESULT_NO_STEAM; if (result == RESULT_EXIT) { auto arg_list = getArguments().split(' '); auto argv = (char**)malloc(sizeof(char*) * arg_list.size()); for (int i = 0; i < arg_list.size(); ++i) argv[i] = strdup(arg_list[i].toStdString().c_str()); runOpenFortress(argv, arg_list.size()); for (int i = 0; i < arg_list.size(); ++i) free(argv[i]); free(argv); } break; default: assert(0); break; } emit resultReady(result); }