/* htop - htop.c (C) 2004-2011 Hisham H. Muhammad Released under the GNU GPL, see the COPYING file in the source distribution for its full text. */ #include "ProcessList.h" #include "CRT.h" #include "Panel.h" #include "UsersTable.h" #include "RichString.h" #include "Settings.h" #include "ScreenManager.h" #include "FunctionBar.h" #include "ListItem.h" #include "String.h" #include "ColumnsPanel.h" #include "CategoriesPanel.h" #include "SignalsPanel.h" #include "TraceScreen.h" #include "OpenFilesScreen.h" #include "AffinityPanel.h" #include "Platform.h" #include "IncSet.h" #include "Action.h" #include "htop.h" #include #include #include #include #include #include #include #include #include #include #include #include //#link m #define COPYRIGHT "(C) 2004-2015 Hisham Muhammad" static void printVersionFlag() { fputs("htop " VERSION " - " COPYRIGHT "\n" "Released under the GNU GPL.\n\n", stdout); exit(0); } static const char* defaultFunctions[] = {"Help ", "Setup ", "Search", "Filter", "Tree ", "SortBy", "Nice -", "Nice +", "Kill ", "Quit ", NULL}; static void printHelpFlag() { fputs("htop " VERSION " - " COPYRIGHT "\n" "Released under the GNU GPL.\n\n" "-C --no-color Use a monochrome color scheme\n" "-d --delay=DELAY Set the delay between updates, in tenths of seconds\n" "-h --help Print this help screen\n" "-s --sort-key=COLUMN Sort by COLUMN (try --sort-key=help for a list)\n" "-u --user=USERNAME Show only processes of a given user\n" "-p --pid=PID,[,PID,PID...] Show only the given PIDs\n" "-v --version Print version info\n" "\n" "Long options may be passed with a single dash.\n\n" "Press F1 inside htop for online help.\n" "See 'man htop' for more information.\n", stdout); exit(0); } static struct { const char* key; const char* info; } helpLeft[] = { { .key = " Arrows: ", .info = "scroll process list" }, { .key = " Digits: ", .info = "incremental PID search" }, { .key = " F3 /: ", .info = "incremental name search" }, { .key = " F4 \\: ",.info = "incremental name filtering" }, { .key = " F5 t: ", .info = "tree view" }, { .key = " u: ", .info = "show processes of a single user" }, { .key = " H: ", .info = "hide/show user threads" }, { .key = " K: ", .info = "hide/show kernel threads" }, { .key = " F: ", .info = "cursor follows process" }, { .key = " F6 + -: ", .info = "expand/collapse tree" }, { .key = " P M T: ", .info = "sort by CPU%, MEM% or TIME" }, { .key = " I: ", .info = "invert sort order" }, { .key = " F6 >: ", .info = "select sort column" }, { .key = NULL, .info = NULL } }; static struct { const char* key; const char* info; } helpRight[] = { { .key = " Space: ", .info = "tag process" }, { .key = " c: ", .info = "tag process and its children" }, { .key = " U: ", .info = "untag all processes" }, { .key = " F9 k: ", .info = "kill process/tagged processes" }, { .key = " F7 ]: ", .info = "higher priority (root only)" }, { .key = " F8 [: ", .info = "lower priority (+ nice)" }, #if (HAVE_LIBHWLOC || HAVE_NATIVE_AFFINITY) { .key = " a: ", .info = "set CPU affinity" }, #endif { .key = " i: ", .info = "set IO prority" }, { .key = " l: ", .info = "list open files with lsof" }, { .key = " s: ", .info = "trace syscalls with strace" }, { .key = " ", .info = "" }, { .key = " F2 S: ", .info = "setup" }, { .key = " F1 h: ", .info = "show this help screen" }, { .key = " F10 q: ", .info = "quit" }, { .key = NULL, .info = NULL } }; static void showHelp(ProcessList* pl) { clear(); attrset(CRT_colors[HELP_BOLD]); for (int i = 0; i < LINES-1; i++) mvhline(i, 0, ' ', COLS); mvaddstr(0, 0, "htop " VERSION " - " COPYRIGHT); mvaddstr(1, 0, "Released under the GNU GPL. See 'man' page for more info."); attrset(CRT_colors[DEFAULT_COLOR]); mvaddstr(3, 0, "CPU usage bar: "); #define addattrstr(a,s) attrset(a);addstr(s) addattrstr(CRT_colors[BAR_BORDER], "["); if (pl->detailedCPUTime) { addattrstr(CRT_colors[CPU_NICE_TEXT], "low"); addstr("/"); addattrstr(CRT_colors[CPU_NORMAL], "normal"); addstr("/"); addattrstr(CRT_colors[CPU_KERNEL], "kernel"); addstr("/"); addattrstr(CRT_colors[CPU_IRQ], "irq"); addstr("/"); addattrstr(CRT_colors[CPU_SOFTIRQ], "soft-irq"); addstr("/"); addattrstr(CRT_colors[CPU_STEAL], "steal"); addstr("/"); addattrstr(CRT_colors[CPU_GUEST], "guest"); addstr("/"); addattrstr(CRT_colors[CPU_IOWAIT], "io-wait"); addattrstr(CRT_colors[BAR_SHADOW], " used%"); } else { addattrstr(CRT_colors[CPU_NICE_TEXT], "low-priority"); addstr("/"); addattrstr(CRT_colors[CPU_NORMAL], "normal"); addstr("/"); addattrstr(CRT_colors[CPU_KERNEL], "kernel"); addstr("/"); addattrstr(CRT_colors[CPU_STEAL], "virtualiz"); addattrstr(CRT_colors[BAR_SHADOW], " used%"); } addattrstr(CRT_colors[BAR_BORDER], "]"); attrset(CRT_colors[DEFAULT_COLOR]); mvaddstr(4, 0, "Memory bar: "); addattrstr(CRT_colors[BAR_BORDER], "["); addattrstr(CRT_colors[MEMORY_USED], "used"); addstr("/"); addattrstr(CRT_colors[MEMORY_BUFFERS_TEXT], "buffers"); addstr("/"); addattrstr(CRT_colors[MEMORY_CACHE], "cache"); addattrstr(CRT_colors[BAR_SHADOW], " used/total"); addattrstr(CRT_colors[BAR_BORDER], "]"); attrset(CRT_colors[DEFAULT_COLOR]); mvaddstr(5, 0, "Swap bar: "); addattrstr(CRT_colors[BAR_BORDER], "["); addattrstr(CRT_colors[SWAP], "used"); addattrstr(CRT_colors[BAR_SHADOW], " used/total"); addattrstr(CRT_colors[BAR_BORDER], "]"); attrset(CRT_colors[DEFAULT_COLOR]); mvaddstr(6,0, "Type and layout of header meters are configurable in the setup screen."); if (CRT_colorScheme == COLORSCHEME_MONOCHROME) { mvaddstr(7, 0, "In monochrome, meters are displayed through different chars, in order: |#*@$%&"); } mvaddstr( 8, 0, " Status: R: running; S: sleeping; T: traced/stopped; Z: zombie; D: disk sleep"); for (int i = 0; helpLeft[i].info; i++) { mvaddstr(9+i, 9, helpLeft[i].info); } for (int i = 0; helpRight[i].info; i++) { mvaddstr(9+i, 49, helpRight[i].info); } attrset(CRT_colors[HELP_BOLD]); for (int i = 0; helpLeft[i].key; i++) { mvaddstr(9+i, 0, helpLeft[i].key); } for (int i = 0; helpRight[i].key; i++) { mvaddstr(9+i, 40, helpRight[i].key); } attrset(CRT_colors[HELP_BOLD]); mvaddstr(23,0, "Press any key to return."); attrset(CRT_colors[DEFAULT_COLOR]); refresh(); CRT_readKey(); clear(); } static const char* CategoriesFunctions[] = {" ", " ", " ", " ", " ", " ", " ", " ", " ", "Done ", NULL}; static void Setup_run(Settings* settings, const Header* header) { ScreenManager* scr = ScreenManager_new(0, header->height, 0, -1, HORIZONTAL, header, true); CategoriesPanel* panelCategories = CategoriesPanel_new(settings, scr); ScreenManager_add(scr, (Panel*) panelCategories, FunctionBar_new(CategoriesFunctions, NULL, NULL), 16); CategoriesPanel_makeMetersPage(panelCategories); Panel* panelFocus; int ch; ScreenManager_run(scr, &panelFocus, &ch); ScreenManager_delete(scr); } static bool changePriority(Panel* panel, int delta) { bool anyTagged; bool ok = Action_foreachProcess(panel, (Action_ForeachProcessFn) Process_changePriorityBy, delta, &anyTagged); if (!ok) beep(); return anyTagged; } static void addUserToVector(int key, void* userCast, void* panelCast) { char* user = (char*) userCast; Panel* panel = (Panel*) panelCast; Panel_add(panel, (Object*) ListItem_new(user, key)); } static bool setUserOnly(const char* userName, bool* userOnly, uid_t* userId) { struct passwd* user = getpwnam(userName); if (user) { *userOnly = true; *userId = user->pw_uid; return true; } return false; } static const char* getMainPanelValue(Panel* panel, int i) { Process* p = (Process*) Panel_get(panel, i); if (p) return p->comm; return ""; } static void tagAllChildren(Panel* panel, Process* parent) { parent->tag = true; pid_t ppid = parent->pid; for (int i = 0; i < Panel_size(panel); i++) { Process* p = (Process*) Panel_get(panel, i); if (!p->tag && p->ppid == ppid) { tagAllChildren(panel, p); } } } static bool expandCollapse(Panel* panel) { Process* p = (Process*) Panel_getSelected(panel); if (!p) return false; p->showChildren = !p->showChildren; return true; } static inline Htop_Reaction setSortKey(ProcessList* pl, ProcessField sortKey) { pl->sortKey = sortKey; pl->direction = 1; pl->treeView = false; return HTOP_REFRESH | HTOP_SAVE_SETTINGS | HTOP_UPDATE_PANELHDR; } static Htop_Reaction sortBy(Panel* panel, ProcessList* pl, Header* header) { Htop_Reaction reaction = HTOP_OK; Panel* sortPanel = Panel_new(0, 0, 0, 0, true, Class(ListItem)); Panel_setHeader(sortPanel, "Sort by"); const char* fuFunctions[] = {"Sort ", "Cancel ", NULL}; ProcessField* fields = pl->fields; for (int i = 0; fields[i]; i++) { char* name = String_trim(Process_fieldNames[fields[i]]); Panel_add(sortPanel, (Object*) ListItem_new(name, fields[i])); if (fields[i] == pl->sortKey) Panel_setSelected(sortPanel, i); free(name); } ListItem* field = (ListItem*) Action_pickFromVector(panel, sortPanel, 15, fuFunctions, header); if (field) { reaction |= setSortKey(pl, field->key); } Object_delete(sortPanel); return reaction | HTOP_REFRESH | HTOP_REDRAW_BAR | HTOP_UPDATE_PANELHDR; } static void millisleep(unsigned long millisec) { struct timespec req = { .tv_sec = 0, .tv_nsec = millisec * 1000000L }; while(nanosleep(&req,&req)==-1) { continue; } } // ---------------------------------------- static Htop_Reaction actionResize(Panel* panel) { Panel_resize(panel, COLS, LINES-(panel->y)-1); return HTOP_REDRAW_BAR; } static Htop_Reaction actionSortByMemory(Panel* panel, ProcessList* pl) { (void) panel; return setSortKey(pl, PERCENT_MEM); } static Htop_Reaction actionSortByCPU(Panel* panel, ProcessList* pl) { (void) panel; return setSortKey(pl, PERCENT_CPU); } static Htop_Reaction actionSortByTime(Panel* panel, ProcessList* pl) { (void) panel; return setSortKey(pl, TIME); } static Htop_Reaction actionToggleKernelThreads(Panel* panel, ProcessList* pl) { (void) panel; pl->hideKernelThreads = !pl->hideKernelThreads; return HTOP_RECALCULATE | HTOP_SAVE_SETTINGS; } static Htop_Reaction actionToggleUserlandThreads(Panel* panel, ProcessList* pl) { (void) panel; pl->hideUserlandThreads = !pl->hideUserlandThreads; pl->hideThreads = pl->hideUserlandThreads; return HTOP_RECALCULATE | HTOP_SAVE_SETTINGS; } static Htop_Reaction actionToggleTreeView(Panel* panel, ProcessList* pl) { (void) panel; pl->treeView = !pl->treeView; if (pl->treeView) pl->direction = 1; ProcessList_expandTree(pl); return HTOP_REFRESH | HTOP_SAVE_SETTINGS | HTOP_KEEP_FOLLOWING | HTOP_REDRAW_BAR | HTOP_UPDATE_PANELHDR; } static Htop_Reaction actionIncFilter(Panel* panel, ProcessList* pl, Header* header, State* state) { (void) panel, (void) pl, (void) header; IncSet_activate(state->inc, INC_FILTER); return HTOP_REFRESH | HTOP_KEEP_FOLLOWING; } static Htop_Reaction actionIncSearch(Panel* panel, ProcessList* pl, Header* header, State* state) { (void) panel, (void) pl, (void) header; IncSet_activate(state->inc, INC_SEARCH); return HTOP_REFRESH | HTOP_KEEP_FOLLOWING; } static Htop_Reaction actionHigherPriority(Panel* panel) { bool changed = changePriority(panel, -1); return changed ? HTOP_REFRESH : HTOP_OK; } static Htop_Reaction actionLowerPriority(Panel* panel) { bool changed = changePriority(panel, 1); return changed ? HTOP_REFRESH : HTOP_OK; } static Htop_Reaction actionInvertSortOrder(Panel* panel, ProcessList* pl) { (void) panel; ProcessList_invertSortOrder(pl); return HTOP_REFRESH | HTOP_SAVE_SETTINGS; } static Htop_Reaction actionSetSortColumn(Panel* panel, ProcessList* pl, Header* header) { return sortBy(panel, pl, header); } static Htop_Reaction actionExpandOrCollapse(Panel* panel) { bool changed = expandCollapse(panel); return changed ? HTOP_RECALCULATE : HTOP_OK; } static Htop_Reaction actionExpandCollapseOrSortColumn(Panel* panel, ProcessList* pl, Header* header) { return pl->treeView ? actionExpandOrCollapse(panel) : actionSetSortColumn(panel, pl, header); } static Htop_Reaction actionQuit() { return HTOP_QUIT; } static Htop_Reaction actionSetAffinity(Panel* panel, ProcessList* pl, Header* header) { if (pl->cpuCount == 1) return HTOP_OK; #if (HAVE_LIBHWLOC || HAVE_NATIVE_AFFINITY) Process* p = (Process*) Panel_getSelected(panel); if (!p) return HTOP_OK; Affinity* affinity = Process_getAffinity(p); if (!affinity) return HTOP_OK; Panel* affinityPanel = AffinityPanel_new(pl, affinity); Affinity_delete(affinity); const char* fuFunctions[] = {"Set ", "Cancel ", NULL}; void* set = Action_pickFromVector(panel, affinityPanel, 15, fuFunctions, header); if (set) { Affinity* affinity = AffinityPanel_getAffinity(affinityPanel); bool ok = Action_foreachProcess(panel, (Action_ForeachProcessFn) Process_setAffinity, (size_t) affinity, NULL); if (!ok) beep(); Affinity_delete(affinity); } Panel_delete((Object*)affinityPanel); #else (void) panel; (void) header; #endif return HTOP_REFRESH | HTOP_REDRAW_BAR | HTOP_UPDATE_PANELHDR; } static Htop_Reaction actionKill(Panel* panel, ProcessList* pl, Header* header) { (void) pl; Panel* signalsPanel = (Panel*) SignalsPanel_new(); const char* fuFunctions[] = {"Send ", "Cancel ", NULL}; ListItem* sgn = (ListItem*) Action_pickFromVector(panel, signalsPanel, 15, fuFunctions, header); if (sgn) { if (sgn->key != 0) { Panel_setHeader(panel, "Sending..."); Panel_draw(panel, true); refresh(); Action_foreachProcess(panel, (Action_ForeachProcessFn) Process_sendSignal, (size_t) sgn->key, NULL); napms(500); } } Panel_delete((Object*)signalsPanel); return HTOP_REFRESH | HTOP_REDRAW_BAR | HTOP_UPDATE_PANELHDR; } static Htop_Reaction actionFilterByUser(Panel* panel, ProcessList* pl, Header* header, State* state) { Panel* usersPanel = Panel_new(0, 0, 0, 0, true, Class(ListItem)); Panel_setHeader(usersPanel, "Show processes of:"); UsersTable_foreach(state->ut, addUserToVector, usersPanel); Vector_insertionSort(usersPanel->items); ListItem* allUsers = ListItem_new("All users", -1); Panel_insert(usersPanel, 0, (Object*) allUsers); const char* fuFunctions[] = {"Show ", "Cancel ", NULL}; ListItem* picked = (ListItem*) Action_pickFromVector(panel, usersPanel, 20, fuFunctions, header); if (picked) { if (picked == allUsers) { pl->userOnly = false; } else { setUserOnly(ListItem_getRef(picked), &(pl->userOnly), &(pl->userId)); } } Panel_delete((Object*)usersPanel); return HTOP_REFRESH | HTOP_REDRAW_BAR | HTOP_UPDATE_PANELHDR; } static Htop_Reaction actionFollow() { return HTOP_KEEP_FOLLOWING; } static Htop_Reaction actionSetup(Panel* panel, ProcessList* pl, Header* header, State* state) { (void) pl; Setup_run(state->settings, header); // TODO: shouldn't need this, colors should be dynamic int headerHeight = Header_calculateHeight(header); Panel_move(panel, 0, headerHeight); Panel_resize(panel, COLS, LINES-headerHeight-1); return HTOP_REFRESH | HTOP_REDRAW_BAR | HTOP_UPDATE_PANELHDR; } static Htop_Reaction actionLsof(Panel* panel) { Process* p = (Process*) Panel_getSelected(panel); if (!p) return HTOP_OK; OpenFilesScreen* ts = OpenFilesScreen_new(p); OpenFilesScreen_run(ts); OpenFilesScreen_delete(ts); clear(); CRT_enableDelay(); return HTOP_REFRESH | HTOP_REDRAW_BAR; } static Htop_Reaction actionStrace(Panel* panel) { Process* p = (Process*) Panel_getSelected(panel); if (!p) return HTOP_OK; TraceScreen* ts = TraceScreen_new(p); TraceScreen_run(ts); TraceScreen_delete(ts); clear(); CRT_enableDelay(); return HTOP_REFRESH | HTOP_REDRAW_BAR; } static Htop_Reaction actionTag(Panel* panel) { Process* p = (Process*) Panel_getSelected(panel); if (!p) return HTOP_OK; Process_toggleTag(p); Panel_onKey(panel, KEY_DOWN); return HTOP_OK; } static Htop_Reaction actionRedraw() { clear(); return HTOP_REFRESH | HTOP_REDRAW_BAR; } static Htop_Reaction actionHelp(Panel* panel, ProcessList* pl) { (void) panel; showHelp(pl); return HTOP_RECALCULATE | HTOP_REDRAW_BAR; } static Htop_Reaction actionUntagAll(Panel* panel) { for (int i = 0; i < Panel_size(panel); i++) { Process* p = (Process*) Panel_get(panel, i); p->tag = false; } return HTOP_REFRESH; } static Htop_Reaction actionTagAllChildren(Panel* panel) { Process* p = (Process*) Panel_getSelected(panel); if (!p) return HTOP_OK; tagAllChildren(panel, p); return HTOP_OK; } static void setBindings(Htop_Action* keys) { keys[KEY_RESIZE] = actionResize; keys['M'] = actionSortByMemory; keys['T'] = actionSortByTime; keys['P'] = actionSortByCPU; keys['H'] = actionToggleUserlandThreads; keys['K'] = actionToggleKernelThreads; keys['t'] = actionToggleTreeView; keys[KEY_F(5)] = actionToggleTreeView; keys[KEY_F(4)] = actionIncFilter; keys['\\'] = actionIncFilter; keys[KEY_F(3)] = actionIncSearch; keys['/'] = actionIncSearch; keys[']'] = actionHigherPriority; keys[KEY_F(7)] = actionHigherPriority; keys['['] = actionLowerPriority; keys[KEY_F(8)] = actionLowerPriority; keys['I'] = actionInvertSortOrder; keys[KEY_F(6)] = actionExpandCollapseOrSortColumn; keys[KEY_F(18)] = actionExpandCollapseOrSortColumn; keys['<'] = actionSetSortColumn; keys[','] = actionSetSortColumn; keys['>'] = actionSetSortColumn; keys['.'] = actionSetSortColumn; keys[KEY_F(10)] = actionQuit; keys['q'] = actionQuit; keys['a'] = actionSetAffinity; keys[KEY_F(9)] = actionKill; keys['k'] = actionKill; keys['+'] = actionExpandOrCollapse; keys['='] = actionExpandOrCollapse; keys['-'] = actionExpandOrCollapse; keys['u'] = actionFilterByUser; keys['F'] = actionFollow; keys['S'] = actionSetup; keys['C'] = actionSetup; keys[KEY_F(2)] = actionSetup; keys['l'] = actionLsof; keys['s'] = actionStrace; keys[' '] = actionTag; keys['\014'] = actionRedraw; // Ctrl+L keys[KEY_F(1)] = actionHelp; keys['h'] = actionHelp; keys['?'] = actionHelp; keys['U'] = actionUntagAll; keys['c'] = actionTagAllChildren; } // ---------------------------------------- static void updateTreeFunctions(FunctionBar* fuBar, bool mode) { if (mode) { FunctionBar_setLabel(fuBar, KEY_F(5), "Sorted"); FunctionBar_setLabel(fuBar, KEY_F(6), "Collap"); } else { FunctionBar_setLabel(fuBar, KEY_F(5), "Tree "); FunctionBar_setLabel(fuBar, KEY_F(6), "SortBy"); } } int main(int argc, char** argv) { int delay = -1; bool userOnly = false; uid_t userId = 0; int usecolors = 1; char *argCopy; char *pid; Hashtable *pidWhiteList = NULL; int opt, opti=0; static struct option long_opts[] = { {"help", no_argument, 0, 'h'}, {"version", no_argument, 0, 'v'}, {"delay", required_argument, 0, 'd'}, {"sort-key", required_argument, 0, 's'}, {"user", required_argument, 0, 'u'}, {"no-color", no_argument, 0, 'C'}, {"no-colour",no_argument, 0, 'C'}, {"pid", required_argument, 0, 'p'}, {0,0,0,0} }; int sortKey = 0; char *lc_ctype = getenv("LC_CTYPE"); if(lc_ctype != NULL) setlocale(LC_CTYPE, lc_ctype); else if ((lc_ctype = getenv("LC_ALL"))) setlocale(LC_CTYPE, lc_ctype); else setlocale(LC_CTYPE, ""); /* Parse arguments */ while ((opt = getopt_long(argc, argv, "hvCs:d:u:p:", long_opts, &opti))) { if (opt == EOF) break; switch (opt) { case 'h': printHelpFlag(); break; case 'v': printVersionFlag(); break; case 's': if (strcmp(optarg, "help") == 0) { for (int j = 1; j < LAST_PROCESSFIELD; j++) printf ("%s\n", Process_fieldNames[j]); exit(0); } sortKey = ColumnsPanel_fieldNameToIndex(optarg); if (sortKey == -1) { fprintf(stderr, "Error: invalid column \"%s\".\n", optarg); exit(1); } break; case 'd': if (sscanf(optarg, "%16d", &delay) == 1) { if (delay < 1) delay = 1; if (delay > 100) delay = 100; } else { fprintf(stderr, "Error: invalid delay value \"%s\".\n", optarg); exit(1); } break; case 'u': if (!setUserOnly(optarg, &userOnly, &userId)) { fprintf(stderr, "Error: invalid user \"%s\".\n", optarg); exit(1); } break; case 'C': usecolors=0; break; case 'p': { argCopy = strdup(optarg); char* saveptr; pid = strtok_r(argCopy, ",", &saveptr); if( !pidWhiteList ) { pidWhiteList = Hashtable_new(8, false); } while( pid ) { unsigned int num_pid = atoi(pid); Hashtable_put(pidWhiteList, num_pid, (void *) 1); pid = strtok_r(NULL, ",", &saveptr); } free(argCopy); break; } default: exit(1); } } if (access(PROCDIR, R_OK) != 0) { fprintf(stderr, "Error: could not read procfs (compiled to look in %s).\n", PROCDIR); exit(1); } #ifdef HAVE_LIBNCURSESW char *locale = setlocale(LC_ALL, NULL); if (locale == NULL || locale[0] == '\0') locale = setlocale(LC_CTYPE, NULL); if (locale != NULL && (strstr(locale, "UTF-8") || strstr(locale, "utf-8") || strstr(locale, "UTF8") || strstr(locale, "utf8"))) CRT_utf8 = true; else CRT_utf8 = false; #endif UsersTable* ut = UsersTable_new(); ProcessList* pl = ProcessList_new(ut, pidWhiteList); pl->userOnly = userOnly; pl->userId = userId; Process_setupColumnWidths(); Header* header = Header_new(pl); Settings* settings = Settings_new(pl, header, pl->cpuCount); int headerHeight = Header_calculateHeight(header); // FIXME: move delay code to settings if (delay != -1) settings->delay = delay; if (!usecolors) settings->colorScheme = COLORSCHEME_MONOCHROME; CRT_init(settings->delay, settings->colorScheme); Panel* panel = Panel_new(0, headerHeight, COLS, LINES - headerHeight - 2, false, &Process_class); ProcessList_setPanel(pl, panel); FunctionBar* defaultBar = FunctionBar_new(defaultFunctions, NULL, NULL); updateTreeFunctions(defaultBar, pl->treeView); if (sortKey > 0) { pl->sortKey = sortKey; pl->treeView = false; pl->direction = 1; } ProcessList_printHeader(pl, Panel_getHeader(panel)); IncSet* inc = IncSet_new(defaultBar); ProcessList_scan(pl); millisleep(75); ProcessList_scan(pl); FunctionBar_draw(defaultBar, NULL); int acc = 0; bool follow = false; struct timeval tv; double oldTime = 0.0; int ch = ERR; int closeTimeout = 0; bool drawPanel = true; bool collapsed = false; Htop_Action keys[KEY_MAX] = { NULL }; setBindings(keys); Platform_setBindings(keys); State state = { .inc = inc, .settings = settings, .ut = ut, }; bool quit = false; int sortTimeout = 0; int resetSortTimeout = 5; bool doRefresh = true; bool forceRecalculate = false; while (!quit) { gettimeofday(&tv, NULL); double newTime = ((double)tv.tv_sec * 10) + ((double)tv.tv_usec / 100000); bool timeToRecalculate = (newTime - oldTime > settings->delay); if (newTime < oldTime) timeToRecalculate = true; // clock was adjusted? int following = follow ? Action_selectedPid(panel) : -1; if (timeToRecalculate) { Header_draw(header); oldTime = newTime; } if (doRefresh) { if (timeToRecalculate || forceRecalculate) { ProcessList_scan(pl); forceRecalculate = false; } if (sortTimeout == 0 || pl->treeView) { ProcessList_sort(pl); sortTimeout = 1; } ProcessList_rebuildPanel(pl, true, following, IncSet_filter(inc)); drawPanel = true; } doRefresh = true; if (pl->treeView) { Process* p = (Process*) Panel_getSelected(panel); if (p) { if (!p->showChildren && !collapsed) { FunctionBar_setLabel(defaultBar, KEY_F(6), "Expand"); FunctionBar_draw(defaultBar, NULL); } else if (p->showChildren && collapsed) { FunctionBar_setLabel(defaultBar, KEY_F(6), "Collap"); FunctionBar_draw(defaultBar, NULL); } collapsed = !p->showChildren; } } else { collapsed = false; } if (drawPanel) { Panel_draw(panel, true); } int prev = ch; if (inc->active) move(LINES-1, CRT_cursorX); ch = getch(); if (ch == ERR) { if (!inc->active) sortTimeout--; if (prev == ch && !timeToRecalculate) { closeTimeout++; if (closeTimeout == 100) { break; } } else closeTimeout = 0; drawPanel = false; continue; } drawPanel = true; Htop_Reaction reaction = HTOP_OK; if (ch == KEY_MOUSE) { MEVENT mevent; int ok = getmouse(&mevent); if (ok == OK) { if (mevent.bstate & BUTTON1_CLICKED) { if (mevent.y == panel->y) { int x = panel->scrollH + mevent.x + 1; ProcessField field = ProcessList_keyAt(pl, x); if (field == pl->sortKey) { ProcessList_invertSortOrder(pl); pl->treeView = false; reaction |= HTOP_REDRAW_BAR; } else { reaction |= setSortKey(pl, field); } sortTimeout = 0; ch = ERR; } else if (mevent.y >= panel->y + 1 && mevent.y < LINES - 1) { Panel_setSelected(panel, mevent.y - panel->y + panel->scrollV - 1); follow = true; ch = ERR; } if (mevent.y == LINES - 1) { ch = FunctionBar_synthesizeEvent(inc->bar, mevent.x); } } else if (mevent.bstate & BUTTON4_CLICKED) { ch = KEY_UP; #if NCURSES_MOUSE_VERSION > 1 } else if (mevent.bstate & BUTTON5_CLICKED) { ch = KEY_DOWN; #endif } } } if (inc->active) { doRefresh = IncSet_handleKey(inc, ch, panel, getMainPanelValue, NULL); if (!inc->active) { follow = true; } continue; } if (isdigit((char)ch)) { if (Panel_size(panel) == 0) continue; pid_t pid = ch-48 + acc; for (int i = 0; i < ProcessList_size(pl); i++) { Panel_setSelected(panel, i); Process* p = (Process*) Panel_getSelected(panel); if (p && p->pid == pid) { break; } } acc = pid * 10; if (acc > 10000000) acc = 0; continue; } else { acc = 0; } if(ch != ERR && keys[ch]) { reaction |= (keys[ch])(panel, pl, header, &state); } else { doRefresh = false; sortTimeout = resetSortTimeout; Panel_onKey(panel, ch); } // Reaction handlers: if (reaction & HTOP_REDRAW_BAR) { updateTreeFunctions(defaultBar, pl->treeView); IncSet_drawBar(inc); } if (reaction & HTOP_UPDATE_PANELHDR) { ProcessList_printHeader(pl, Panel_getHeader(panel)); } if (reaction & HTOP_REFRESH) { doRefresh = true; sortTimeout = 0; } if (reaction & HTOP_RECALCULATE) { forceRecalculate = true; sortTimeout = 0; } if (reaction & HTOP_SAVE_SETTINGS) { settings->changed = true; } if (reaction & HTOP_QUIT) { quit = true; } follow = (reaction & HTOP_KEEP_FOLLOWING); } attron(CRT_colors[RESET_COLOR]); mvhline(LINES-1, 0, ' ', COLS); attroff(CRT_colors[RESET_COLOR]); refresh(); CRT_done(); if (settings->changed) Settings_write(settings); Header_delete(header); ProcessList_delete(pl); FunctionBar_delete((Object*)defaultBar); Panel_delete((Object*)panel); IncSet_delete(inc); UsersTable_delete(ut); Settings_delete(settings); if(pidWhiteList) { Hashtable_delete(pidWhiteList); } return 0; }