shithub: riscv

ref: 90143609212ed4500409a64d26f6b12d097b13ed
dir: /sys/lib/acid/port/

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// portable acid for all architectures

defn pfl(addr)
{
	print(pcfile(addr), ":", pcline(addr), "\n");
}

defn
notestk(addr)
{
	local pc, sp;
	complex Ureg addr;

	pc = addr.pc\A;
	sp = addr.sp\A;

	print("Note pc:", pc, " sp:", sp, " ", fmt(pc, 'a'), " ");
	pfl(pc);
	_stk(pc, sp, linkreg(addr), 1);
}

defn
notelstk(addr)
{
	local pc, sp;
	complex Ureg addr;

	pc = addr.pc\A;
	sp = addr.sp\A;

	print("Note pc:", pc, " sp:", sp, " ", fmt(pc, 'a'), " ");
	pfl(pc);
	_stk(pc, sp, linkreg(addr), 1);
}

defn params(param)
{
	while param do {
		sym = head param;
		print(sym[0], "=", itoa(sym[1], "%ux"));
		param = tail param;
		if param then
			print (",");
	}	
}

stkprefix = "";
stkignore = {};
stkend = 0;

defn locals(l)
{
	local sym;

	while l do {
		sym = head l;
		print(stkprefix, "\t", sym[0], "=", itoa(sym[1], "%ux"), "\n");
		l = tail l;
	}	
}

defn _stkign(file)
{
	s = stkignore;
	while s do {
		if regexp(head s, file) then
			return 1;
		s = tail s;
	}
	return 0;
}

// print a stack trace
//
// in a run of leading frames in files matched by regexps in stkignore,
// only print the last one.
defn _stk(pc, sp, link, dolocals)
{
	local stk, ign, last, lastpc;

	stk = strace(pc, sp, link);
	if stkignore then
		ign = 1;
	else
		ign = 0;
	last = stk;
	lastpc = pc;
	while stk do {
		if ign then {
			if !_stkign(pcfile(pc)) then {
				ign = 0;
				stk = last;
				pc = lastpc;
			}
		}
		frame = head stk;
		if !ign then {
			print(stkprefix, fmt(frame[0], 'a'), "(");
			params(frame[2]);
			print(")+", itoa(pc-frame[0], "%ux"), " ");
			pfl(pc);
			if dolocals then
				locals(frame[3]);
		}
		last = stk;
		lastpc = pc;
		stk = tail stk;
		pc = frame[1];
	}
	print(stkprefix, fmt(pc, 'a'), " ");
	pfl(pc);
}

defn findsrc(file)
{
	local lst, src;

	if file[0] == '/' then {
		src = file(file);
		if src != {} then {
			srcfiles = append srcfiles, file;
			srctext = append srctext, src;
			return src;
		}
		return {};
	}

	lst = srcpath;
	while head lst do {
		src = file(head lst+file);
		if src != {} then {
			srcfiles = append srcfiles, file;
			srctext = append srctext, src;
			return src;
		}
		lst = tail lst;
	}
}

defn line(addr)
{
	local src, file;

	file = pcfile(addr);
	src = match(file, srcfiles);

	if src >= 0 then
		src = srctext[src];
	else
		src = findsrc(file);

	if src == {} then {
		print("no source for ", file, "\n");
		return {};
	}
	line = pcline(addr)-1;
	print(file, ":", line+1, ":", src[line], "\n");
}

defn addsrcdir(dir)
{
	dir = dir+"/";

	if match(dir, srcpath) >= 0 then {
		print("already in srcpath\n");
		return {};
	}

	srcpath = {dir}+srcpath;
}

defn source()
{
	local l;

	l = srcpath;
	while l do {
		print(head l, "\n");
		l = tail l;
	}
	l = srcfiles;

	while l do {
		print("\t", head l, "\n");
		l = tail l;
	}
}

defn Bsrc(addr)
{
	local lst;

	lst = srcpath;
	file = pcfile(addr);
	if file[0] == '/' && access(file) then {
		rc("B "+file+":"+itoa(pcline(addr)));
		return {};
	}
	while head lst do {
		name = head lst+file;
		if access(name) then {
			rc("B "+name+":"+itoa(pcline(addr)));
			return {};
		}
		lst = tail lst;
	}
	print("no source for ", file, "\n");
}

defn srcline(addr)
{
	local text, cline, line, file, src;
	file = pcfile(addr);
	src = match(file,srcfiles);
	if (src>=0) then
		src = srctext[src];
	else
		src = findsrc(file);
	if (src=={}) then
	{
		return "(no source)";
	}
	return src[pcline(addr)-1];
}

defn src(addr)
{
	local src, file, line, cline, text;

	file = pcfile(addr);
	src = match(file, srcfiles);

	if src >= 0 then
		src = srctext[src];
	else
		src = findsrc(file);

	if src == {} then {
		print("no source for ", file, "\n");
		return {};
	}

	cline = pcline(addr)-1;
	print(file, ":", cline+1, "\n");
	line = cline-5;
	loop 0,10 do {
		if line >= 0 then {
			text = src[line];
			if text == {} then
				return {};
			if line == cline then
				print(">");
			else
				print(" ");
			print(line+1, "\t", text, "\n");
		}
		line = line+1;
	}	
}

defn step()					// single step the process
{
	local lst, lpl, addr, bput;

	bput = 0;
	if match(*PC, bplist) >= 0 then {	// Sitting on a breakpoint
		bput = fmt(*PC, bpfmt);
		*bput = @bput;
	}
	wpupdate(0);

	lst = follow(*PC);

	lpl = lst;
	while lpl do {				// place break points
		*(head lpl) = bpinst;
		lpl = tail lpl;
	}

	startstop(pid);				// do the step

	while lst do {				// remove the breakpoints
		addr = fmt(head lst, bpfmt);
		*addr = @addr;
		lst = tail lst;
	}
	if bput != 0 then
		*bput = bpinst;
}

defn bpset(addr)				// set a breakpoint
{
	if status(pid) != "Stopped" then {
		print("Waiting...\n");
		stop(pid);
	}
	if match(addr, bplist) >= 0 then
		print("breakpoint already set at ", fmt(addr, 'a'), "\n");
	else {
		*fmt(addr, bpfmt) = bpinst;
		bplist = append bplist, addr;
	}
}

defn bptab()					// print a table of breakpoints
{
	local lst, addr;

	lst = bplist;
	while lst do {
		addr = head lst;
		print("\t", fmt(addr, 'A'), " ", fmt(addr, 'a'), "  ", fmt(addr, 'i'), "\n");
		lst = tail lst;
	}
}

defn bpdel(addr)				// delete a breakpoint
{
	local n, pc, nbplist;

	n = match(addr, bplist);
	if n < 0  then {
		print("no breakpoint at ", fmt(addr, 'a'), "\n");
		return {};
	}

	addr = fmt(addr, bpfmt);
	*addr = @addr;

	nbplist = {};				// delete from list
	while bplist do {
		pc = head bplist;
		if pc != addr then
			nbplist = append nbplist, pc;
		bplist = tail bplist;
	}
	bplist = nbplist;			// delete from memory
}

defn wpflush()					// copy wplist to /proc/$pid/watchpt
{
	local s, lst, el;

	lst = wplist;
	s = "";
	while lst do {
		el = head lst;
		s = s + (el[0] + " " + itoa(el[1]) + " " + itoa(el[2]) + "\n");
		lst = tail lst;
	}
	lst = proclist;
	while lst do {
		if access("/proc/"+itoa(head lst)+"/watchpt") then
			printto("/proc/"+itoa(head lst)+"/watchpt", s);
		lst = tail lst;
	}
}

defn wpset(type, addr, len)			// set a watchpoint
{
	local lst;

	if status(pid) != "Stopped" then {
		print("Waiting...\n");
		stop(pid);
	}
	if !regexp("^[rwx\\-]+$", type) then {
		print("invalid type\n");
		return {};
	}
	lst = proclist;
	while lst do {
		if rc("echo '"+type+" "+itoa(addr)+" "+itoa(len)+"' >> /proc/"+itoa(head lst)+"/watchpt") != "" then
			return {};
		lst = tail lst;
	}
	wplist = append wplist, {type, addr, len, {}};
}

defn wptab()					// print a table of watchpoints
{
	local lst, el;

	lst = wplist;
	while lst do {
		el = head lst;
		print("\t", el[0], " ", fmt(el[1], 'A'), " ", fmt(el[1], 'a'), " ", fmt(el[2], 'd'), "\n");
		lst = tail lst;
	}
}

defn wpdel(addr)
{
	local lst, el, found, nwplist;
	
	lst = wplist;
	found = 0;
	nwplist = {};
	while lst do {
		el = head lst;
		if el[1] == addr then
			found = 1;
		else
			nwplist = append nwplist, el;
		lst = tail lst;
	}
	if found == 0 then {
		print("no watchpoint at ", fmt(addr, 'a'), "\n");
		return {};
	}
	wplist = nwplist;
	wpflush();
}

defn bytes(b)
{
	local s;
	
	s = "";
	while b do {
		s = s + itoa(head b, "%#.2x ");
		b = tail b;
	}
	return s;
}

defn wpupdate(ch)				// update remembered values
{
	local el, nwplist, mem, lst, i;
	
	lst = wplist;
	nwplist = {};
	while lst do {
		el = head lst;
		i = 0;
		mem = {};
		while i < el[2] do {
			mem = append mem, *((el[1] + i)\b);
			i = i + 1;
		}
		if ch && el[3] != {} && el[3] != mem then {
			print("\t", fmt(el[1], 'a'), "\twas ", bytes(el[3]), "\n");
			print("\t", fmt(el[1], 'a'), "\tis  ", bytes(mem), "\n");
		}
		nwplist = append nwplist, {el[0], el[1], el[2], mem};
		lst = tail lst;
	}
	wplist = nwplist;
}

defn wpprocess()				// trapped at watchpoint
{
	local pts;
	local el;
	
	pts = getfields(getfields(notes[0], " ", 1)[2], ",", 1);
	while pts do {
		el = head pts;
		el = wplist[atoi(el)];
		if el != {} then {
			print("\ttriggered ", el[0], " watchpoint at ", fmt(el[1], 'a'), " (", fmt(el[1], 'A'), ")\n");
		}
		pts = tail pts;
	}
	wpupdate(1);
}

defn cont()					// continue execution
{
	local addr;

	addr = fmt(*PC, bpfmt);
	if match(addr, bplist) >= 0 then {	// Sitting on a breakpoint
		*addr = @addr;
		step();				// Step over
		*addr = bpinst;
	}
	wpupdate(0);
	startstop(pid);				// Run
}

defn stopped(pid)		// called from acid when a process changes state
{
	pstop(pid);		// stub so this is easy to replace
}

defn procs()			// print status of processes
{
	local c, lst, cpid;

	cpid = pid;
	lst = proclist;
	while lst do {
		np = head lst;
		setproc(np);
		if np == cpid then
			c = '>';
		else
			c = ' ';
		print(fmt(c, 'c'), np, ": ", status(np), " at ", fmt(*PC, 'a'), " setproc(", np, ")\n");
		lst = tail lst;
	}
	pid = cpid;
	if pid != 0 then
		setproc(pid);
}

_asmlines = 30;

defn asm(addr)
{
	local bound;

	bound = fnbound(addr);

	addr = fmt(addr, 'i');
	loop 1,_asmlines do {
		print(fmt(addr, 'a'), " ", fmt(addr, 'A'));
		print("\t", @addr++, "\n");
		if bound != {} && addr > bound[1] then {
			lasmaddr = addr;
			return {};
		}
	}
	lasmaddr = addr;
}

defn casm()
{
	asm(lasmaddr);
}

defn win()
{
	local npid, estr;

	bplist = {};
	wplist = {};
	notes = {};

	estr = "/sys/lib/acid/window '0 0 600 400' "+textfile;
	if progargs != "" then
		estr = estr+" "+progargs;

	npid = rc(estr);
	npid = atoi(npid);
	if npid == 0 then
		error("win failed to create process");

	setproc(npid);
	stopped(npid);
}

defn win2()
{
	local npid, estr;

	bplist = {};
	wplist = {};
	notes = {};

	estr = "/sys/lib/acid/transcript '0 0 600 400' '100 100 700 500' "+textfile;
	if progargs != "" then
		estr = estr+" "+progargs;

	npid = rc(estr);
	npid = atoi(npid);
	if npid == 0 then
		error("win failed to create process");

	setproc(npid);
	stopped(npid);
}

defn new()
{
	bplist = {};
	wplist = {};
	newproc(progargs);
	// Dont miss the delay slot calls
	bpset(follow(main)[0]);
	cont();
	bpdel(*PC);
}

defn stmnt()			// step one statement
{
	local line;

	line = pcline(*PC);
	while 1 do {
		step();
		if line != pcline(*PC) then {
			src(*PC);
			return {};
		}
	}
}

defn func()			// step until we leave the current function
{
	local bound, end, start, pc;

	bound = fnbound(*PC);
	if bound == {} then {
		print("cannot locate text symbol\n");
		return {};
	}

	pc = *PC;
	start = bound[0];
	end = bound[1];
	while pc >= start && pc < end do {
		step();
		pc = *PC;
	}
}

defn next()
{
	local sp, bound;

	sp = *SP;
	bound = fnbound(*PC);
	stmnt();
	pc = *PC;
	if pc >= bound[0] && pc < bound[1] then
		return {};

	while (pc < bound[0] || pc > bound[1]) && sp >= *SP do {
		step();
		pc = *PC;
	}
	src(*PC);
}

defn dump(addr, n, fmt)
{
	// see definition of dump in acid manual: it does n+1 iterations
	loop 0, n do {
		print(fmt(addr, 'A'), ": ");
		addr = mem(addr, fmt);
	}
}

defn mem(addr, fmt)
{

	local i, c, n;

	i = 0;
	while fmt[i] != 0 do {
		c = fmt[i];
		n = 0;
		while '0' <= fmt[i] && fmt[i] <= '9' do {
			n = 10*n + fmt[i]-'0';
			i = i+1;
		}
		if n <= 0 then n = 1;
		addr = fmt(addr, fmt[i]);
		while n > 0 do {
			print(*addr++, " ");
			n = n-1;
		}
		i = i+1;
	}
	print("\n");
	return addr;
}

defn symbols(pattern)
{
	local l, s;

	l = symbols;
	while l do {
		s = head l;
		if regexp(pattern, s[0]) then
			print(s[0], "\t", s[1], "\t", s[2], "\n");
		l = tail l;
	}
}

defn spsrch(len)
{
	local addr, a, s, e;

	addr = *SP;
	s = origin & 0x7fffffff;
	e = etext & 0x7fffffff;
	loop 1, len do {
		a = *addr++;
		c = a & 0x7fffffff;
		if c > s && c < e then {
			print("src(", a, ")\n");
			pfl(a);
		}			
	}
}

defn procattach()
{
	wpflush();
}

defn dying()
{
	wplist = {};
	wpflush();
}

progargs="";
print("/sys/lib/acid/port");