radare2/libr/cons/cons.c

/* radare2 - LGPL - Copyright 2008-2018 - pancake, Jody Frankowski */

#include <r_cons.h>
#include <r_util.h>
#include <r_util/r_print.h>
#include <limits.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <stdarg.h>
#if __UNIX__ || __CYGWIN__
#include <signal.h>
#endif

#define COUNT_LINES 1
#define CTX(x) I.context->x

R_LIB_VERSION (r_cons);

static RConsContext r_cons_context_default = {{{{0}}}};
static RCons r_cons_instance = {0};
#define I r_cons_instance

//this structure goes into cons_stack when r_cons_push/pop
typedef struct {
	char *buf;
	int buf_len;
	int buf_size;
	RConsGrep *grep;
} RConsStack;

typedef struct {
	bool breaked;
	RConsEvent event_interrupt;
	void *event_interrupt_data;
} RConsBreakStack;

static void break_stack_free(void *ptr) {
	RConsBreakStack *b = (RConsBreakStack*)ptr;
	free (b);
}

static void cons_stack_free(void *ptr) {
	RConsStack *s = (RConsStack *)ptr;
	free (s->buf);
	if (s->grep) {
		R_FREE (s->grep->str);
		CTX(grep.str) = NULL;
	}
	free (s->grep);
	free (s);
}

static RConsStack *cons_stack_dump(bool recreate) {
	RConsStack *data = R_NEW0 (RConsStack);
	if (!data) {
		return NULL;
	}

	if (CTX (buffer)) {
		data->buf = CTX (buffer);
		data->buf_len = CTX (buffer_len);
		data->buf_size = CTX (buffer_sz);
	}

	data->grep = R_NEW0 (RConsGrep);
	if (data->grep) {
		memcpy (data->grep, &I.context->grep, sizeof (RConsGrep));
		if (I.context->grep.str) {
			data->grep->str = strdup (I.context->grep.str);
		}
	}

	if (recreate && I.context->buffer_sz > 0) {
		I.context->buffer = malloc (I.context->buffer_sz);
		if (!I.context->buffer) {
			I.context->buffer = data->buf;
			free (data);
			return NULL;
		}
	} else {
		I.context->buffer = NULL;
	}

	return data;
}

static void cons_stack_load(RConsStack *data, bool free_current) {
	if (free_current) {
		free (I.context->buffer);
	}
	I.context->buffer = data->buf;
	data->buf = NULL;
	I.context->buffer_len = data->buf_len;
	I.context->buffer_sz = data->buf_size;

	if (data->grep) {
		free (I.context->grep.str);
		memcpy (&I.context->grep, data->grep, sizeof (RConsGrep));
	}
}

static void cons_context_init(RConsContext *context) {
	context->breaked = false;
	context->buffer = NULL;
	context->buffer_sz = 0;
	context->lastEnabled = true;
	context->buffer_len = 0;
	context->cons_stack = r_stack_newf (6, cons_stack_free);
	context->break_stack = r_stack_newf (6, break_stack_free);
	context->event_interrupt = NULL;
	context->event_interrupt_data = NULL;
	context->pageable = true;
	context->log_callback = NULL;
}

static void cons_context_deinit(RConsContext *context) {
	r_stack_free (context->cons_stack);
	r_stack_free (context->break_stack);
}

static void break_signal(int sig) {
	r_cons_context_break (&r_cons_context_default);
}

static inline void r_cons_write(const char *buf, int len) {
#if __WINDOWS__ && !__CYGWIN__
	if (I.ansicon) {
		(void) write (I.fdout, buf, len);
	} else {
		if (I.fdout == 1) {
			r_cons_w32_print ((const ut8*)buf, len, 0);
		} else {
			(void) write (I.fdout, buf, len);
		}
	}
#else
	if (I.fdout < 1) {
		I.fdout = 1;
	}
	(void) write (I.fdout, buf, len);
#endif
}

R_API RColor r_cons_color_random(ut8 alpha) {
	RColor rcolor = {0};
	if (I.color > COLOR_MODE_16) {
		rcolor.r = r_num_rand (0xff);
		rcolor.g = r_num_rand (0xff);
		rcolor.b = r_num_rand (0xff);
		rcolor.a = alpha;
		return rcolor;
	}
	int r = r_num_rand (16);
	switch (r) {
	case 0: case 1: rcolor = (RColor) RColor_RED; break;
	case 2: case 3: rcolor = (RColor) RColor_WHITE; break;
	case 4: case 5: rcolor = (RColor) RColor_GREEN; break;
	case 6: case 7: rcolor = (RColor) RColor_MAGENTA; break;
	case 8: case 9: rcolor = (RColor) RColor_YELLOW; break;
	case 10: case 11: rcolor = (RColor) RColor_CYAN; break;
	case 12: case 13: rcolor = (RColor) RColor_BLUE; break;
	case 14: case 15: rcolor = (RColor) RColor_GRAY; break;
	}
	if (r & 1) {
		rcolor.attr = R_CONS_ATTR_BOLD;
	}
	return rcolor;
}

R_API void r_cons_color(int fg, int r, int g, int b) {
	int k;
	r = R_DIM (r, 0, 255);
	g = R_DIM (g, 0, 255);
	b = R_DIM (b, 0, 255);
	if (r == g && g == b) { // b&w
		k = 232 + (int)(((r+g+b)/3)/10.3);
	} else {
		r = (int)(r / 42.6);
		g = (int)(g / 42.6);
		b = (int)(b / 42.6);
		k = 16 + (r * 36) + (g * 6) + b;
	}
	r_cons_printf ("\x1b[%d;5;%dm", fg? 48: 38, k);
}

R_API void r_cons_println(const char* str) {
	r_cons_print (str);
	r_cons_newline ();
}

R_API void r_cons_strcat_justify(const char *str, int j, char c) {
	int i, o, len;
	for (o = i = len = 0; str[i]; i++, len++) {
		if (str[i] == '\n') {
			r_cons_memset (' ', j);
			if (c) {
				r_cons_memset (c, 1);
				r_cons_memset (' ', 1);
			}
			r_cons_memcat (str + o, len);
			if (str[o + len] == '\n') {
				r_cons_newline ();
			}
			o = i + 1;
			len = 0;
		}
	}
	if (len > 1) {
		r_cons_memcat (str + o, len);
	}
}

R_API RCons *r_cons_singleton() {
	return &I;
}

R_API void r_cons_break_clear() {
	I.context->breaked = false;
}

R_API void r_cons_context_break_push(RConsContext *context, RConsBreak cb, void *user, bool sig) {
	if (!context->break_stack) {
		return;
	}

	//if we don't have any element in the stack start the signal
	RConsBreakStack *b = R_NEW0 (RConsBreakStack);
	if (!b) {
		return;
	}
	if (r_stack_is_empty (context->break_stack)) {
#if __UNIX__ || __CYGWIN__
		if (sig && r_cons_context_is_main ()) {
			signal (SIGINT, break_signal);
		}
#endif
		context->breaked = false;
	}
	//save the actual state
	b->event_interrupt = context->event_interrupt;
	b->event_interrupt_data = context->event_interrupt_data;
	r_stack_push (context->break_stack, b);
	//configure break
	context->event_interrupt = cb;
	context->event_interrupt_data = user;
}

R_API void r_cons_context_break_pop(RConsContext *context, bool sig) {
	if (!context->break_stack) {
		return;
	}
	//restore old state
	RConsBreakStack *b = NULL;
	b = r_stack_pop (context->break_stack);
	if (b) {
		context->event_interrupt = b->event_interrupt;
		context->event_interrupt_data = b->event_interrupt_data;
		break_stack_free (b);
	} else {
		//there is not more elements in the stack
#if __UNIX__ || __CYGWIN__
		if (sig && r_cons_context_is_main ()) {
			signal (SIGINT, SIG_IGN);
		}
#endif
		context->breaked = false;
	}
}

R_API void r_cons_break_push(RConsBreak cb, void *user) {
	r_cons_context_break_push (I.context, cb, user, true);
}

R_API void r_cons_break_pop() {
	r_cons_context_break_pop (I.context, true);
}

R_API bool r_cons_is_breaked() {
	if (I.cb_break) {
		I.cb_break (I.user);
	}
	if (I.timeout) {
		if (r_sys_now () > I.timeout) {
			I.context->breaked = true;
			eprintf ("\nTimeout!\n");
			I.timeout = 0;
		}
	}
	return I.context->breaked;
}

R_API void r_cons_break_timeout(int timeout) {
	if (!timeout && I.timeout) {
		I.timeout = 0;
	} else {
		if (timeout) {
			I.timeout = r_sys_now () + (timeout * 1000000);
		} else {
			I.timeout = 0;
		}
	}
}

R_API void r_cons_break_end() {
	I.context->breaked = false;
	I.timeout = 0;
#if __UNIX__ || __CYGWIN__
	signal (SIGINT, SIG_IGN);
#endif
	if (!r_stack_is_empty (I.context->break_stack)) {
		//free all the stack
		r_stack_free (I.context->break_stack);
		//create another one
		I.context->break_stack = r_stack_newf (6, break_stack_free);
		I.context->event_interrupt_data = NULL;
		I.context->event_interrupt = NULL;
	}
}

R_API void *r_cons_sleep_begin(void) {
	if (!I.cb_sleep_begin) {
		return NULL;
	}
	return I.cb_sleep_begin (I.user);
}

R_API void r_cons_sleep_end(void *user) {
	if (!I.cb_sleep_end) {
		return;
	}
	I.cb_sleep_end (I.user, user);
}

#if __WINDOWS__ && !__CYGWIN__
static HANDLE h;
static BOOL __w32_control(DWORD type) {
	if (type == CTRL_C_EVENT) {
		break_signal (2); // SIGINT
		eprintf ("{ctrl+c} pressed.\n");
		return true;
	}
	return false;
}
#elif __UNIX__ || __CYGWIN__
volatile sig_atomic_t sigwinchFlag;
static void resize(int sig) {
	sigwinchFlag = 1;
}

void resizeWin(void) {
	if (I.event_resize) {
		I.event_resize (I.event_data);
	}
}
#endif

R_API bool r_cons_enable_mouse(const bool enable) {
#if __UNIX__ || __CYGWIN__
	const char *code = enable
		? "\x1b[?1001s" "\x1b[?1000h"
		: "\x1b[?1001r" "\x1b[?1000l";
	bool enabled = I.mouse;
	I.mouse = enable;
	write (2, code, 16);
	return enabled;
#else
	return false;
#endif
}

// Stub function that cb_main_output gets pointed to in util/log.c by r_cons_new
// This allows Cutter to set per-task logging redirection
R_API RCons *r_cons_new() {
	I.refcnt++;
	if (I.refcnt != 1) {
		return &I;
	}
	I.rgbstr = r_cons_rgb_str_off;
	I.line = r_line_new ();
	I.highlight = NULL;
	I.is_wine = -1;
	I.fps = 0;
	I.color = COLOR_MODE_DISABLED;
	I.blankline = true;
	I.teefile = NULL;
	I.fix_columns = 0;
	I.fix_rows = 0;
	I.mouse_event = 0;
	I.force_rows = 0;
	I.force_columns = 0;
	I.event_resize = NULL;
	I.event_data = NULL;
	I.is_interactive = true;
	I.noflush = false;
	I.linesleep = 0;
	I.fdin = stdin;
	I.fdout = 1;
	I.break_lines = false;
	I.lines = 0;

	I.context = &r_cons_context_default;
	cons_context_init (I.context);

	r_cons_get_size (&I.pagesize);
	I.num = NULL;
	I.null = 0;
#if __WINDOWS__ && !__CYGWIN__
	I.ansicon = r_sys_getenv ("ANSICON");
#endif
#if EMSCRIPTEN
	/* do nothing here :? */
#elif __UNIX__ || __CYGWIN__
	tcgetattr (0, &I.term_buf);
	memcpy (&I.term_raw, &I.term_buf, sizeof (I.term_raw));
	I.term_raw.c_iflag &= ~(BRKINT|PARMRK|ISTRIP|INLCR|IGNCR|ICRNL|IXON);
	I.term_raw.c_lflag &= ~(ECHO|ECHONL|ICANON|ISIG|IEXTEN);
	I.term_raw.c_cflag &= ~(CSIZE|PARENB);
	I.term_raw.c_cflag |= CS8;
	I.term_raw.c_cc[VMIN] = 1; // Solaris stuff hehe
	signal (SIGWINCH, resize);
#elif __WINDOWS__
	h = GetStdHandle (STD_INPUT_HANDLE);
	GetConsoleMode (h, &I.term_buf);
	I.term_raw = 0;
	if (!SetConsoleCtrlHandler ((PHANDLER_ROUTINE)__w32_control, TRUE)) {
		eprintf ("r_cons: Cannot set control console handler\n");
	}
#endif
	I.pager = NULL; /* no pager by default */
	I.mouse = 0;
	r_cons_reset ();
	r_cons_rgb_init ();
	r_cons_pal_init ();

	r_print_set_is_interrupted_cb (r_cons_is_breaked);

	return &I;
}

R_API RCons *r_cons_free() {
	I.refcnt--;
	if (I.refcnt != 0) {
		return NULL;
	}
	r_cons_pal_free ();
	if (I.line) {
		r_line_free ();
		I.line = NULL;
	}
	if (I.context->buffer) {
		R_FREE (I.context->buffer);
	}
	R_FREE (I.break_word);
	cons_context_deinit (I.context);
	R_FREE (I.context->lastOutput);
	I.context->lastLength = 0;
	R_FREE (I.pager);
	return NULL;
}

#define MOAR (4096 * 8)
static bool palloc(int moar) {
	void *temp;
	if (moar <= 0) {
		return false;
	}
	if (!I.context->buffer) {
		int new_sz;
		if ((INT_MAX - MOAR) < moar) {
			return false;
		}
		new_sz = moar + MOAR;
		temp = calloc (1, new_sz);
		if (temp) {
			I.context->buffer_sz = new_sz;
			I.context->buffer = temp;
			I.context->buffer[0] = '\0';
		}
	} else if (moar + I.context->buffer_len > I.context->buffer_sz) {
		char *new_buffer;
		int old_buffer_sz = I.context->buffer_sz;
		if ((INT_MAX - MOAR - moar) < I.context->buffer_sz) {
			return false;
		}
		I.context->buffer_sz += moar + MOAR;
		new_buffer = realloc (I.context->buffer, I.context->buffer_sz);
		if (new_buffer) {
			I.context->buffer = new_buffer;
		} else {
			I.context->buffer_sz = old_buffer_sz;
			return false;
		}
	}
	return true;
}

R_API int r_cons_eof() {
	return feof (I.fdin);
}

R_API void r_cons_gotoxy(int x, int y) {
	r_cons_printf ("\x1b[%d;%dH", y, x);
}

R_API void r_cons_print_clear() {
	r_cons_strcat ("\x1b[0;0H\x1b[0m");
}

R_API void r_cons_fill_line() {
	char *p, white[1024];
	int cols = I.columns - 1;
	if (cols < 1) {
		return;
	}
	p = (cols >= sizeof (white))
		?  malloc (cols + 1): white;
	if (p) {
		memset (p, ' ', cols);
		p[cols] = 0;
		r_cons_strcat (p);
		if (white != p) {
			free (p);
		}
	}
}

R_API void r_cons_clear_line(int std_err) {
#if __WINDOWS__
	if (I.ansicon) {
		fprintf (std_err? stderr: stdout,"%s", R_CONS_CLEAR_LINE);
	} else {
		char white[1024];
		memset (&white, ' ', sizeof (white));
		if (I.columns > 0 && I.columns < sizeof (white)) {
			white[I.columns - 1] = 0;
		} else if (I.columns == 0) {
			white[0] = 0;
		} else {
			white[sizeof (white) - 1] = 0; // HACK
		}
		fprintf (std_err? stderr: stdout, "\r%s\r", white);
	}
#else
	fprintf (std_err? stderr: stdout,"%s", R_CONS_CLEAR_LINE);
#endif
	fflush (std_err? stderr: stdout);
}

R_API void r_cons_clear00() {
	r_cons_clear ();
	r_cons_gotoxy (0, 0);
}

R_API void r_cons_reset_colors() {
	r_cons_strcat (Color_RESET);
}

R_API void r_cons_clear() {
	r_cons_strcat (Color_RESET R_CONS_CLEAR_SCREEN);
	I.lines = 0;
}

static void cons_grep_reset(RConsGrep *grep) {
	grep->strings[0][0] = '\0';
	grep->nstrings = 0; // XXX
	grep->line = -1;
	grep->sort = -1;
	grep->sort_invert = false;
	R_FREE (grep->str);
	ZERO_FILL (grep->tokens);
	grep->tokens_used = 0;
}

R_API void r_cons_reset() {
	if (I.context->buffer) {
		I.context->buffer[0] = '\0';
	}
	I.context->buffer_len = 0;
	I.lines = 0;
	I.lastline = I.context->buffer;
	cons_grep_reset (&I.context->grep);
	CTX (pageable) = true;
}

R_API const char *r_cons_get_buffer() {
	//check len otherwise it will return trash
	return I.context->buffer_len? I.context->buffer : NULL;
}

R_API void r_cons_filter() {
	/* grep */
	if (I.filter || I.context->grep.nstrings > 0 || I.context->grep.tokens_used || I.context->grep.less || I.context->grep.json) {
		r_cons_grepbuf (I.context->buffer, I.context->buffer_len);
		I.filter = false;
	}
	/* html */
	if (I.is_html) {
		int newlen = 0;
		char *input = r_str_ndup (I.context->buffer, I.context->buffer_len);
		char *res = r_cons_html_filter (input, &newlen);
		free (I.context->buffer);
		free (input);
		I.context->buffer = res;
		I.context->buffer_len = newlen;
		I.context->buffer_sz = newlen;
	}
	/* TODO */
}

R_API void r_cons_push() {
	if (!I.context->cons_stack) {
		return;
	}
	RConsStack *data = cons_stack_dump (true);
	if (!data) {
		return;
	}
	r_stack_push (I.context->cons_stack, data);
	I.context->buffer_len = 0;
	if (I.context->buffer) {
		memset (I.context->buffer, 0, I.context->buffer_sz);
	}
}

R_API void r_cons_pop() {
	if (!I.context->cons_stack) {
		return;
	}
	RConsStack *data = (RConsStack *)r_stack_pop (I.context->cons_stack);
	if (!data) {
		return;
	}
	cons_stack_load (data, true);
	cons_stack_free ((void *)data);
}

R_API RConsContext *r_cons_context_new(void) {
	RConsContext *context = R_NEW0 (RConsContext);
	if (!context) {
		return NULL;
	}
	cons_context_init (context);
	return context;
	/*
	RStack *stack = r_stack_newf (6, cons_stack_free);
	if (!stack) {
		return NULL;
	}

	RConsStack *data = R_NEW0 (RConsStack);
	if (!data) {
		r_stack_free (stack);
		return NULL;
	}

	data->grep = R_NEW0 (RConsGrep);
	if (!data->grep) {
		R_FREE (data);
		r_stack_free (stack);
		return NULL;
	}
	cons_grep_reset (data->grep);

	r_stack_push (stack, data);

	return stack;*/
}

R_API void r_cons_context_free(RConsContext *context) {
	if (!context) {
		return;
	}
	cons_context_deinit (context);
	free (context);
}

R_API void r_cons_context_load(RConsContext *context) {
	I.context = context;
}

R_API void r_cons_context_reset() {
	I.context = &r_cons_context_default;
}

R_API bool r_cons_context_is_main() {
	return I.context == &r_cons_context_default;
}

R_API void r_cons_context_break(RConsContext *context) {
	if (!context) {
		return;
	}
	context->breaked = true;
	if (context->event_interrupt) {
		context->event_interrupt (context->event_interrupt_data);
	}
}

R_API void r_cons_last(void) {
	if (!CTX (lastEnabled)) {
		return;
	}
	CTX (lastMode) = true;
	r_cons_memcat (CTX (lastOutput), CTX (lastLength));
}

static bool lastMatters() {
	return (I.context->buffer_len > 0) \
		&& (CTX (lastEnabled) && !I.filter && I.context->grep.nstrings < 1 && \
		!I.context->grep.tokens_used && !I.context->grep.less && \
		!I.context->grep.json && !I.is_html);
}

R_API void r_cons_flush(void) {
	const char *tee = I.teefile;
	if (I.noflush) {
		return;
	}
	if (I.null) {
		r_cons_reset ();
		return;
	}
	if (lastMatters () && !CTX (lastMode)) {
		// snapshot of the output
		if (CTX (buffer_len) > CTX (lastLength)) {
			free (CTX (lastOutput));
			CTX (lastOutput) = malloc (CTX (buffer_len) + 1);
		}
		CTX (lastLength) = CTX (buffer_len);
		memcpy (CTX (lastOutput), CTX (buffer), CTX (buffer_len));
	} else {
		CTX (lastMode) = false;
	}
	r_cons_filter ();
	if (I.is_interactive && I.fdout == 1) {
		/* Use a pager if the output doesn't fit on the terminal window. */
		if (CTX (pageable) && CTX (buffer) && I.pager && *I.pager && CTX (buffer_len) > 0 && r_str_char_count (CTX (buffer), '\n') >= I.rows) {
			I.context->buffer[I.context->buffer_len - 1] = 0;
			if (!strcmp (I.pager, "..")) {
				char *str = r_str_ndup (CTX (buffer), CTX (buffer_len));
				CTX (pageable) = false;
				r_cons_less_str (str, NULL);
				r_cons_reset ();
				free (str);
				return;
			} else {
				r_sys_cmd_str_full (I.pager, CTX (buffer), NULL, NULL, NULL);
				r_cons_reset ();
			}
		} else if (I.context->buffer_len > CONS_MAX_USER) {
#if COUNT_LINES
			int i, lines = 0;
			for (i = 0; I.context->buffer[i]; i++) {
				if (I.context->buffer[i] == '\n') {
					lines ++;
				}
			}
			if (lines > 0 && !r_cons_yesno ('n',"Do you want to print %d lines? (y/N)", lines)) {
				r_cons_reset ();
				return;
			}
#else
			char buf[8];
			r_num_units (buf, sizeof (buf), I.context->buffer_len);
			if (!r_cons_yesno ('n', "Do you want to print %s chars? (y/N)", buf)) {
				r_cons_reset ();
				return;
			}
#endif
			// fix | more | less problem
			r_cons_set_raw (true);
		}
	}
	if (tee && *tee) {
		FILE *d = r_sandbox_fopen (tee, "a+");
		if (d) {
			if (I.context->buffer_len != fwrite (I.context->buffer, 1, I.context->buffer_len, d)) {
				eprintf ("r_cons_flush: fwrite: error (%s)\n", tee);
			}
			fclose (d);
		} else {
			eprintf ("Cannot write on '%s'\n", tee);
		}
	}
	r_cons_highlight (I.highlight);

	// is_html must be a filter, not a write endpoint
	if (I.is_interactive && !r_sandbox_enable (false)) {
		if (I.linesleep > 0 && I.linesleep < 1000) {
			int i = 0;
			int pagesize = R_MAX (1, I.pagesize);
			char *ptr = I.context->buffer;
			char *nl = strchr (ptr, '\n');
			int len = I.context->buffer_len;
			I.context->buffer[I.context->buffer_len] = 0;
			r_cons_break_push (NULL, NULL);
			while (nl && !r_cons_is_breaked ()) {
				r_cons_write (ptr, nl - ptr + 1);
				if (!(i % pagesize)) {
					r_sys_usleep (I.linesleep * 1000);
				}
				ptr = nl + 1;
				nl = strchr (ptr, '\n');
				i++;
			}
			r_cons_write (ptr, I.context->buffer + len - ptr);
			r_cons_break_pop ();
		} else {
			r_cons_write (I.context->buffer, I.context->buffer_len);
		}
	} else {
		r_cons_write (I.context->buffer, I.context->buffer_len);
	}

	r_cons_reset ();
	if (I.newline) {
		eprintf ("\n");
		I.newline = false;
	}
}

R_API void r_cons_visual_flush() {
	if (I.noflush) {
		return;
	}
	r_cons_highlight (I.highlight);
	if (!I.null) {
/* TODO: this ifdef must go in the function body */
#if __WINDOWS__ && !__CYGWIN__
		if (I.ansicon) {
			r_cons_visual_write (I.context->buffer);
		} else {
			r_cons_w32_print ((const ut8*)I.context->buffer, I.context->buffer_len, 1);
		}
#else
		r_cons_visual_write (I.context->buffer);
#endif
	}
	r_cons_reset ();
	if (I.fps) {
		int fps = 0, w = r_cons_get_size (NULL);
		static ut64 prev = 0LL; //r_sys_now ();
		fps = 0;
		if (prev) {
			ut64 now = r_sys_now ();
			st64 diff = (st64)(now - prev);
			if (diff < 0) {
				fps = 0;
			} else {
				fps = (diff < 1000000)? (1000000.0/diff): 0;
			}
			prev = now;
		} else {
			prev = r_sys_now ();
		}
		eprintf ("\x1b[0;%dH[%d FPS] \n", w-10, fps);
	}
}

static int real_strlen(const char *ptr, int len) {
	int utf8len = r_str_len_utf8 (ptr);
	int ansilen = r_str_ansi_len (ptr);
	int diff = len - utf8len;
	if (diff > 0) {
		diff--;
	}
	return ansilen - diff;
}

R_API void r_cons_visual_write(char *buffer) {
	char white[1024];
	int cols = I.columns;
	int alen, plen, lines = I.rows;
	bool break_lines = I.break_lines;
	const char *endptr;
	char *nl, *ptr = buffer, *pptr;

	if (I.null) {
		return;
	}
	memset (&white, ' ', sizeof (white));
	while ((nl = strchr (ptr, '\n'))) {
		int len = ((int)(size_t)(nl-ptr))+1;
		int lines_needed;

		*nl = 0;
		alen = real_strlen (ptr, len);
		*nl = '\n';
		pptr = ptr > buffer ? ptr - 1 : ptr;
		plen = ptr > buffer ? len : len - 1;

		if (break_lines) {
			lines_needed = alen / cols + (alen % cols == 0 ? 0 : 1);
		}
		if ((break_lines && lines < lines_needed && lines > 0)
		    || (!break_lines && alen > cols)) {
			int olen = len;
			endptr = r_str_ansi_chrn (ptr, (break_lines ? cols * lines : cols) + 1);
			endptr++;
			len = endptr - ptr;
			plen = ptr > buffer ? len : len - 1;
			if (lines > 0) {
				r_cons_write (pptr, plen);
				if (len != olen) {
					r_cons_write (Color_RESET, strlen (Color_RESET));
				}
			}
		} else {
			if (lines > 0) {
				int w = cols - (alen % cols == 0 ? cols : alen % cols);
				r_cons_write (pptr, plen);
				if (I.blankline && w > 0) {
					if (w > sizeof (white) - 1) {
						w = sizeof (white) - 1;
					}
					r_cons_write (white, w);
				}
			}
			// TRICK to empty columns.. maybe buggy in w32
			if (r_mem_mem ((const ut8*)ptr, len, (const ut8*)"\x1b[0;0H", 6)) {
				lines = I.rows;
				r_cons_write (pptr, plen);
			}
		}
		if (break_lines) {
			lines -= lines_needed;
		} else {
			lines--; // do not use last line
		}
		ptr = nl + 1;
	}
	/* fill the rest of screen */
	if (lines > 0) {
		if (cols > sizeof (white)) {
			cols = sizeof (white);
		}
		while (--lines >= 0) {
			r_cons_write (white, cols);
		}
	}
}

R_API void r_cons_printf_list(const char *format, va_list ap) {
	size_t size, written;
	va_list ap2, ap3;

	va_copy (ap2, ap);
	va_copy (ap3, ap);
	if (I.null || !format) {
		va_end (ap2);
		va_end (ap3);
		return;
	}
	if (strchr (format, '%')) {
		palloc (MOAR + strlen (format) * 20);
club:
		size = I.context->buffer_sz - I.context->buffer_len - 1; /* remaining space in I.context->buffer */
		written = vsnprintf (I.context->buffer + I.context->buffer_len, size, format, ap3);
		if (written >= size) { /* not all bytes were written */
			palloc (written);
			va_end (ap3);
			va_copy (ap3, ap2);
			goto club;
		}
		I.context->buffer_len += written;
		I.context->buffer[I.context->buffer_len] = 0;
	} else {
		r_cons_strcat (format);
	}
	va_end (ap2);
	va_end (ap3);
}

R_API int r_cons_printf(const char *format, ...) {
	va_list ap;
	if (!format || !*format) {
		return -1;
	}
	va_start (ap, format);
	r_cons_printf_list (format, ap);
	va_end (ap);

	return 0;
}

R_API int r_cons_get_column() {
	char *line = strrchr (I.context->buffer, '\n');
	if (!line) {
		line = I.context->buffer;
	}
	I.context->buffer[I.context->buffer_len] = 0;
	return r_str_ansi_len (line);
}

/* final entrypoint for adding stuff in the buffer screen */
R_API int r_cons_memcat(const char *str, int len) {
	if (len < 0 || (I.context->buffer_len + len) < 0) {
		return -1;
	}
	if (I.echo) {
		write (2, str, len);
	}
	if (str && len > 0 && !I.null) {
		if (palloc (len + 1)) {
			memcpy (I.context->buffer + I.context->buffer_len, str, len);
			I.context->buffer_len += len;
			I.context->buffer[I.context->buffer_len] = 0;
		}
	}
	if (I.flush) {
		r_cons_flush ();
	}
	if (I.break_word && str && len > 0) {
		if (r_mem_mem ((const ut8*)str, len, (const ut8*)I.break_word, I.break_word_len)) {
			I.context->breaked = true;
		}
	}
	return len;
}

R_API void r_cons_memset(char ch, int len) {
	if (!I.null && len > 0) {
		palloc (len + 1);
		memset (I.context->buffer + I.context->buffer_len, ch, len);
		I.context->buffer_len += len;
		I.context->buffer[I.context->buffer_len] = 0;
	}
}

R_API void r_cons_strcat(const char *str) {
	int len;
	if (!str || I.null) {
		return;
	}
	len = strlen (str);
	if (len > 0) {
		r_cons_memcat (str, len);
	}
}

R_API void r_cons_newline() {
	if (!I.null) {
		r_cons_strcat ("\n");
	}
// This place is wrong to manage the color reset, can interfire with r2pipe output sending resetchars
//  and break json output appending extra chars.
// this code now is managed into output.c:118 at function r_cons_w32_print
// now the console color is reset with each \n (same stuff do it here but in correct place ... i think)
//#if __WINDOWS__
	//r_cons_reset_colors();
//#endif
	//if (I.is_html) r_cons_strcat ("<br />\n");
}

/* return the aproximated x,y of cursor before flushing */
// XXX this function is a huge bottleneck
R_API int r_cons_get_cursor(int *rows) {
	int i, col = 0;
	int row = 0;
	// TODO: we need to handle GOTOXY and CLRSCR ansi escape code too
	for (i = 0; i < I.context->buffer_len; i++) {
		// ignore ansi chars, copypasta from r_str_ansi_len
		if (I.context->buffer[i] == 0x1b) {
			char ch2 = I.context->buffer[i + 1];
			char *str = I.context->buffer;
			if (ch2 == '\\') {
				i++;
			} else if (ch2 == ']') {
				if (!strncmp (str + 2 + 5, "rgb:", 4)) {
					i += 18;
				}
			} else if (ch2 == '[') {
				for (++i; str[i] && str[i] != 'J' && str[i] != 'm' && str[i] != 'H'; i++) {
					;
				}
			}
		} else if (I.context->buffer[i] == '\n') {
			row++;
			col = 0;
		} else {
			col++;
		}
	}
	if (rows) {
		*rows = row;
	}
	return col;
}

R_API bool r_cons_isatty() {
#if __UNIX__ || __CYGWIN__
	struct winsize win = { 0 };
	const char *tty;
	struct stat sb;

	if (!isatty (1)) {
		return false;
	}
	if (ioctl (1, TIOCGWINSZ, &win)) {
		return false;
	}
	if (!win.ws_col || !win.ws_row) {
		return false;
	}
	tty = ttyname (1);
	if (!tty) {
		return false;
	}
	if (stat (tty, &sb) || !S_ISCHR (sb.st_mode)) {
		return false;
	}
	return true;
#endif
	/* non-UNIX do not have ttys */
	return false;
}

// XXX: if this function returns <0 in rows or cols expect MAYHEM
R_API int r_cons_get_size(int *rows) {
#if __WINDOWS__ && !__CYGWIN__
	CONSOLE_SCREEN_BUFFER_INFO csbi;
	GetConsoleScreenBufferInfo (GetStdHandle (STD_OUTPUT_HANDLE), &csbi);
	I.columns = (csbi.srWindow.Right - csbi.srWindow.Left) - 1;
	I.rows = csbi.srWindow.Bottom - csbi.srWindow.Top; // last row empty
 	if (I.columns == -1 && I.rows == 0) {
		// Stdout is probably redirected so we set default values
		I.columns = 80;
		I.rows = 23;
	}
#elif EMSCRIPTEN
	I.columns = 80;
	I.rows = 23;
#elif __UNIX__ || __CYGWIN__
	struct winsize win = { 0 };
	if (isatty (0) && !ioctl (0, TIOCGWINSZ, &win)) {
		if ((!win.ws_col) || (!win.ws_row)) {
			const char *tty = isatty (1)? ttyname (1): NULL;
			int fd = open (tty? tty: "/dev/tty", O_RDONLY);
			if (fd != -1) {
				int ret = ioctl (fd, TIOCGWINSZ, &win);
				if (ret || !win.ws_col || !win.ws_row) {
					win.ws_col = 80;
					win.ws_row = 23;
				}
				close (fd);
			}
		}
		I.columns = win.ws_col;
		I.rows = win.ws_row;
	} else {
		I.columns = 80;
		I.rows = 23;
	}
#else
	char *str = r_sys_getenv ("COLUMNS");
	if (str) {
		I.columns = atoi (str);
		I.rows = 23; // XXX. windows must get console size
		free (str);
	} else {
		I.columns = 80;
		I.rows = 23;
	}
#endif
#if SIMULATE_ADB_SHELL
	I.rows = 0;
	I.columns = 0;
#endif
#if SIMULATE_MAYHEM
	// expect tons of crashes
	I.rows = -1;
	I.columns = -1;
#endif
	if (I.rows < 0) {
		I.rows = 0;
	}
	if (I.columns < 0) {
		I.columns = 0;
	}
	if (I.force_columns) {
		I.columns = I.force_columns;
	}
	if (I.force_rows) {
		I.rows = I.force_rows;
	}
	if (I.fix_columns) {
		I.columns += I.fix_columns;
	}
	if (I.fix_rows) {
		I.rows += I.fix_rows;
	}
	if (rows) {
		*rows = I.rows;
	}
	I.rows = R_MAX (0, I.rows);
	return R_MAX (0, I.columns);
}

R_API void r_cons_show_cursor(int cursor) {
#if __WINDOWS__ && !__CYGWIN__
	// TODO
#else
	if (cursor) {
		write (1, "\x1b[?25h", 6);
	} else {
		write (1, "\x1b[?25l", 6);
	}
#endif
}

/**
 * void r_cons_set_raw( [0,1] )
 *
 *   Change canonicality of the terminal
 *
 * For optimization reasons, there's no initialization flag, so you need to
 * ensure that the make the first call to r_cons_set_raw() with '1' and
 * the next calls ^=1, so: 1, 0, 1, 0, 1, ...
 *
 * If you doesn't use this order you'll probably loss your terminal properties.
 *
 */
static int oldraw = -1;
R_API void r_cons_set_raw(bool is_raw) {
	if (oldraw != -1) {
		if (is_raw == oldraw) {
			return;
		}
	}
#if EMSCRIPTEN
	/* do nothing here */
#elif __UNIX__ || __CYGWIN__
	// enforce echo off
	if (is_raw) {
		I.term_raw.c_lflag &= ~(ECHO|ECHONL|ICANON|ISIG|IEXTEN);
		tcsetattr (0, TCSANOW, &I.term_raw);
	} else {
		tcsetattr (0, TCSANOW, &I.term_buf);
	}
#elif __WINDOWS__
	if (is_raw) {
		SetConsoleMode (h, I.term_raw);
	} else {
		SetConsoleMode (h, I.term_buf);
	}
#else
#warning No raw console supported for this platform
#endif
	fflush (stdout);
	oldraw = is_raw;
}

R_API void r_cons_invert(int set, int color) {
	r_cons_strcat (R_CONS_INVERT (set, color));
}

/*
  Enable/Disable scrolling in terminal:
    FMI: cd libr/cons/t ; make ti ; ./ti
  smcup: disable terminal scrolling (fullscreen mode)
  rmcup: enable terminal scrolling (normal mode)
*/
R_API void r_cons_set_cup(int enable) {
#if __UNIX__ || __CYGWIN__
	const char *code = enable
		? "\x1b[?1049h" "\x1b" "7\x1b[?47h"
		: "\x1b[?1049l" "\x1b[?47l" "\x1b" "8";
	write (2, code, strlen (code));
	fflush (stdout);
#elif __WINDOWS__ && !__CYGWIN__
	if (I.ansicon) {
		if (enable) {
			const char *code =
				"\x1b[?1049h" // xterm
				"\x1b" "7\x1b[?47h"; // xterm-color
			write (2, code, strlen (code));
		} else {
			const char *code =
				"\x1b[?1049l" // xterm
				"\x1b[?47l""\x1b""8"; // xterm-color
			write (2, code, strlen (code));
		}
		fflush (stdout);
	}
#endif
	/* not supported ? */
}

R_API void r_cons_column(int c) {
	char *b = malloc (I.context->buffer_len + 1);
	if (!b) {
		return;
	}
	memcpy (b, I.context->buffer, I.context->buffer_len);
	b[I.context->buffer_len] = 0;
	r_cons_reset ();
	// align current buffer N chars right
	r_cons_strcat_justify (b, c, 0);
	r_cons_gotoxy (0, 0);
	free (b);
}

static int lasti = 0; /* last interactive mode */

R_API void r_cons_set_interactive(bool x) {
	lasti = r_cons_singleton ()->is_interactive;
	r_cons_singleton ()->is_interactive = x;
}

R_API void r_cons_set_last_interactive() {
	r_cons_singleton ()->is_interactive = lasti;
}

R_API void r_cons_set_title(const char *str) {
	r_cons_printf ("\x1b]0;%s\007", str);
}

R_API void r_cons_zero() {
	if (I.line) {
		I.line->zerosep = true;
	}
	write (1, "", 1);
}

R_API void r_cons_highlight(const char *word) {
	int l, *cpos = NULL;
	char *rword = NULL, *res, *clean = NULL;
	char *inv[2] = {
		R_CONS_INVERT (true, true),
		R_CONS_INVERT (false, true)
	};
	int linv[2] = {
		strlen (inv[0]),
		strlen (inv[1])
	};

	if (word && *word && I.context->buffer) {
		int word_len = strlen (word);
		char *orig;
		clean = r_str_ndup (I.context->buffer, I.context->buffer_len);
		l = r_str_ansi_filter (clean, &orig, &cpos, -1);
		I.context->buffer = orig;
		if (I.highlight) {
			if (strcmp (word, I.highlight)) {
				free (I.highlight);
				I.highlight = strdup (word);
			}
		} else {
			I.highlight = strdup (word);
		}
		rword = malloc (word_len + linv[0] + linv[1] + 1);
		if (!rword) {
			free (cpos);
			free (clean);
			return;
		}
		strcpy (rword, inv[0]);
		strcpy (rword + linv[0], word);
		strcpy (rword + linv[0] + word_len, inv[1]);
		res = r_str_replace_thunked (I.context->buffer, clean, cpos,
					     l, word, rword, 1);
		if (res) {
			I.context->buffer = res;
			I.context->buffer_len = I.context->buffer_sz = strlen (res);
		}
		free (rword);
		free (clean);
		free (cpos);
		/* don't free orig - it's assigned
		 * to I.context->buffer and possibly realloc'd */
	} else {
		R_FREE (I.highlight);
	}
}

R_API char *r_cons_lastline(int *len) {
	char *b = I.context->buffer + I.context->buffer_len;
	while (b > I.context->buffer) {
		if (*b == '\n') {
			b++;
			break;
		}
		b--;
	}
	if (len) {
		int delta = b - I.context->buffer;
		*len = I.context->buffer_len - delta;
	}
	return b;
}

// same as r_cons_lastline(), but len will be the number of
// utf-8 characters excluding ansi escape sequences as opposed to just bytes
R_API char *r_cons_lastline_utf8_ansi_len(int *len) {
	if (!len) {
		return r_cons_lastline (0);
	}

	char *b = I.context->buffer + I.context->buffer_len;
	int l = 0;
	int last_possible_ansi_end = 0;
	char ch = '\0';
	char ch2;
	while (b > I.context->buffer) {
		ch2 = ch;
		ch = *b;

		if (ch == '\n') {
			b++;
			l--;
			break;
		}

		// utf-8
		if ((ch & 0xc0) != 0x80) {
			l++;
		}

		// ansi
		if (ch == 'J' || ch == 'm' || ch == 'H') {
			last_possible_ansi_end = l - 1;
		} else if (ch == '\x1b' && ch2 == '[') {
			l = last_possible_ansi_end;
		}

		b--;
	}

	*len = l;
	return b;
}

/* swap color from foreground to background, returned value must be freed */
R_API char *r_cons_swap_ground(const char *col) {
	if (!col) {
		return NULL;
	}
	if (!strncmp (col, "\x1b[48;5;", 7)) {
		/* rgb background */
		return r_str_newf ("\x1b[38;5;%s", col+7);
	} else if (!strncmp (col, "\x1b[38;5;", 7)) {
		/* rgb foreground */
		return r_str_newf ("\x1b[48;5;%s", col+7);
	} else if (!strncmp (col, "\x1b[4", 3)) {
		/* is background */
		return r_str_newf ("\x1b[3%s", col+3);
	} else if (!strncmp (col, "\x1b[3", 3)) {
		/* is foreground */
		return r_str_newf ("\x1b[4%s", col+3);
	}
	return strdup (col);
}

R_API bool r_cons_drop(int n) {
	if (n > I.context->buffer_len) {
		I.context->buffer_len = 0;
		return false;
	}
	I.context->buffer_len -= n;
	return true;
}

R_API void r_cons_chop() {
	while (I.context->buffer_len > 0) {
		char ch = I.context->buffer[I.context->buffer_len - 1];
		if (ch != '\n' && !IS_WHITESPACE (ch)) {
			break;
		}
		I.context->buffer_len--;
	}
}

R_API void r_cons_bind(RConsBind *bind) {
	if (!bind) {
		return;
	}
	bind->get_size = r_cons_get_size;
	bind->get_cursor = r_cons_get_cursor;
}

R_API const char* r_cons_get_rune(const ut8 ch) {
	if (ch >= RUNECODE_MIN && ch < RUNECODE_MAX) {
		switch (ch) {
		case RUNECODE_LINE_HORIZ: return RUNE_LINE_HORIZ;
		case RUNECODE_LINE_VERT:  return RUNE_LINE_VERT;
		case RUNECODE_LINE_CROSS: return RUNE_LINE_CROSS;
		case RUNECODE_CORNER_TL:  return RUNE_CORNER_TL;
		case RUNECODE_CORNER_TR:  return RUNE_CORNER_TR;
		case RUNECODE_CORNER_BR:  return RUNE_CORNER_BR;
		case RUNECODE_CORNER_BL:  return RUNE_CORNER_BL;
		case RUNECODE_CURVE_CORNER_TL:  return RUNE_CURVE_CORNER_TL;
		case RUNECODE_CURVE_CORNER_TR:  return RUNE_CURVE_CORNER_TR;
		case RUNECODE_CURVE_CORNER_BR:  return RUNE_CURVE_CORNER_BR;
		case RUNECODE_CURVE_CORNER_BL:  return RUNE_CURVE_CORNER_BL;
		}
	}
	return NULL;
}

R_API void r_cons_breakword(R_NULLABLE const char *s) {
	free (I.break_word);
	if (s) {
		I.break_word = strdup (s);
		I.break_word_len = strlen (s);
	} else {
		I.break_word = NULL;
		I.break_word_len = 0;
	}
}

/* Prints a coloured help message.
 * help should be an array of the following form:
 * {"command", "args", "description",
 * "command2", "args2", "description"}; */
R_API void r_cons_cmd_help(const char *help[], bool use_color) {
	RCons *cons = r_cons_singleton ();
	const char *pal_args_color = use_color ? cons->pal.args : "",
			*pal_help_color = use_color ? cons->pal.help : "",
			*pal_reset = use_color ? cons->pal.reset : "";
	int i, max_length = 0;
	const char *usage_str = "Usage:";

	for (i = 0; help[i]; i += 3) {
		int len0 = strlen (help[i]);
		int len1 = strlen (help[i + 1]);
		if (i) {
			max_length = R_MAX (max_length, len0 + len1);
		}
	}

	for (i = 0; help[i]; i += 3) {
		if (!strncmp (help[i], usage_str, strlen (usage_str))) {
			// Lines matching Usage: should always be the first in inline doc
			r_cons_printf ("%s%s %s  %s%s\n", pal_args_color,
				help[i], help[i + 1], help[i + 2], pal_reset);
			continue;
		}
		if (!help[i + 1][0] && !help[i + 2][0]) {
			// no need to indent the sections lines
			r_cons_printf ("%s%s%s\n", pal_help_color, help[i], pal_reset);
		} else {
			// these are the normal lines
			int str_length = strlen (help[i]) + strlen (help[i + 1]);
			int padding = (str_length < max_length)? (max_length - str_length): 0;
			r_cons_printf ("| %s%s%s%*s  %s%s%s\n",
				help[i], pal_args_color, help[i + 1],
				padding, "", pal_help_color, help[i + 2], pal_reset);
		}
	}
}

R_API void r_cons_clear_buffer(void) {
#if __UNIX__ || __CYGWIN__
	write (1, "\x1b" "c\x1b[3J",  6);
#endif
}