freebsd-skq/stand/common/interp_forth.c

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/*-
* Copyright (c) 1998 Michael Smith <msmith@freebsd.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h> /* to pick up __FreeBSD_version */
#include <string.h>
#include <stand.h>
#include "bootstrap.h"
#include "ficl.h"
extern unsigned bootprog_rev;
userboot: handle guest interpreter mismatches more intelligently The switch to lualoader creates a problem with userboot: the host is inclined to build userboot with Lua, but the host userboot's interpreter must match what's available on the guest. For almost all FreeBSD guests in the wild, Lua is not yet available and a Lua-based userboot will fail. This revision updates userboot protocol to version 5, which adds a swap_interpreter callback to request a different interpreter, and tries to determine the proper interpreter to be used based on how the guest /boot/loader is compiled. This is still a bit of a guess, but it's likely the best possible guess we can make in order to get it right. The interpreter is now embedded in the resulting executable, so we can open /boot/loader on the guest and hunt that down to derive the interpreter it was built with. Using -l with bhyveload will not allow an intepreter swap, even if the loader specified happens to be a userboot with the wrong interpreter. We'll simply complain about the mismatch and bail out. For legacy guests without the interpreter marker, we assume they're 4th. For new guests with the interpreter marker, we'll read it and swap over to the proper interpreter if it doesn't match what the userboot we're using was compiled with. Both flavors of userboot are installed by default, userboot_4th.so and userboot_lua.so. This fixes the build WITHOUT_FORTH as a coincidence, which was broken by userboot being forced to 4th. Reviewed by: imp, jhb, araujo (earlier version) Approved by: re (gjb) Differential Revision: https://reviews.freebsd.org/D16945
2018-09-01 02:23:45 +00:00
INTERP_DEFINE("4th");
/* #define BFORTH_DEBUG */
#ifdef BFORTH_DEBUG
#define DPRINTF(fmt, args...) printf("%s: " fmt "\n" , __func__ , ## args)
#else
#define DPRINTF(fmt, args...) ((void)0)
#endif
/*
* Eventually, all builtin commands throw codes must be defined
* elsewhere, possibly bootstrap.h. For now, just this code, used
* just in this file, it is getting defined.
*/
#define BF_PARSE 100
/*
* FreeBSD loader default dictionary cells
*/
#ifndef BF_DICTSIZE
#define BF_DICTSIZE 10000
#endif
/*
* BootForth Interface to Ficl Forth interpreter.
*/
FICL_SYSTEM *bf_sys;
FICL_VM *bf_vm;
/*
* Shim for taking commands from BF and passing them out to 'standard'
* argv/argc command functions.
*/
static void
bf_command(FICL_VM *vm)
{
char *name, *line, *tail, *cp;
size_t len;
struct bootblk_command **cmdp;
bootblk_cmd_t *cmd;
int nstrings, i;
int argc, result;
char **argv;
/* Get the name of the current word */
name = vm->runningWord->name;
/* Find our command structure */
cmd = NULL;
SET_FOREACH(cmdp, Xcommand_set) {
if (((*cmdp)->c_name != NULL) && !strcmp(name, (*cmdp)->c_name))
cmd = (*cmdp)->c_fn;
}
if (cmd == NULL)
panic("callout for unknown command '%s'", name);
/* Check whether we have been compiled or are being interpreted */
if (stackPopINT(vm->pStack)) {
/*
* Get parameters from stack, in the format:
* an un ... a2 u2 a1 u1 n --
* Where n is the number of strings, a/u are pairs of
* address/size for strings, and they will be concatenated
* in LIFO order.
*/
nstrings = stackPopINT(vm->pStack);
for (i = 0, len = 0; i < nstrings; i++)
len += stackFetch(vm->pStack, i * 2).i + 1;
line = malloc(strlen(name) + len + 1);
strcpy(line, name);
if (nstrings)
for (i = 0; i < nstrings; i++) {
len = stackPopINT(vm->pStack);
cp = stackPopPtr(vm->pStack);
strcat(line, " ");
strncat(line, cp, len);
}
} else {
/* Get remainder of invocation */
tail = vmGetInBuf(vm);
for (cp = tail, len = 0; cp != vm->tib.end && *cp != 0 && *cp != '\n'; cp++, len++)
;
line = malloc(strlen(name) + len + 2);
strcpy(line, name);
if (len > 0) {
strcat(line, " ");
strncat(line, tail, len);
vmUpdateTib(vm, tail + len);
}
}
DPRINTF("cmd '%s'", line);
command_errmsg = command_errbuf;
command_errbuf[0] = 0;
if (!parse(&argc, &argv, line)) {
result = (cmd)(argc, argv);
free(argv);
} else {
result=BF_PARSE;
}
switch (result) {
case CMD_CRIT:
printf("%s\n", command_errmsg);
command_errmsg = NULL;
break;
case CMD_FATAL:
panic("%s", command_errmsg);
}
free(line);
/*
* If there was error during nested ficlExec(), we may no longer have
* valid environment to return. Throw all exceptions from here.
*/
if (result != CMD_OK)
vmThrow(vm, result);
/* This is going to be thrown!!! */
stackPushINT(vm->pStack,result);
}
/*
* Replace a word definition (a builtin command) with another
* one that:
*
* - Throw error results instead of returning them on the stack
* - Pass a flag indicating whether the word was compiled or is
* being interpreted.
*
* There is one major problem with builtins that cannot be overcome
* in anyway, except by outlawing it. We want builtins to behave
* differently depending on whether they have been compiled or they
* are being interpreted. Notice that this is *not* the interpreter's
* current state. For example:
*
* : example ls ; immediate
* : problem example ; \ "ls" gets executed while compiling
* example \ "ls" gets executed while interpreting
*
* Notice that, though the current state is different in the two
* invocations of "example", in both cases "ls" has been
* *compiled in*, which is what we really want.
*
* The problem arises when you tick the builtin. For example:
*
* : example-1 ['] ls postpone literal ; immediate
* : example-2 example-1 execute ; immediate
* : problem example-2 ;
* example-2
*
* We have no way, when we get EXECUTEd, of knowing what our behavior
* should be. Thus, our only alternative is to "outlaw" this. See RFI
* 0007, and ANS Forth Standard's appendix D, item 6.7 for a related
* problem, concerning compile semantics.
*
* The problem is compounded by the fact that "' builtin CATCH" is valid
* and desirable. The only solution is to create an intermediary word.
* For example:
*
* : my-ls ls ;
* : example ['] my-ls catch ;
*
* So, with the below implementation, here is a summary of the behavior
* of builtins:
*
* ls -l \ "interpret" behavior, ie,
* \ takes parameters from TIB
* : ex-1 s" -l" 1 ls ; \ "compile" behavior, ie,
* \ takes parameters from the stack
* : ex-2 ['] ls catch ; immediate \ undefined behavior
* : ex-3 ['] ls catch ; \ undefined behavior
* ex-2 ex-3 \ "interpret" behavior,
* \ catch works
* : ex-4 ex-2 ; \ "compile" behavior,
* \ catch does not work
* : ex-5 ex-3 ; immediate \ same as ex-2
* : ex-6 ex-3 ; \ same as ex-3
* : ex-7 ['] ex-1 catch ; \ "compile" behavior,
* \ catch works
* : ex-8 postpone ls ; immediate \ same as ex-2
* : ex-9 postpone ls ; \ same as ex-3
*
* As the definition below is particularly tricky, and it's side effects
* must be well understood by those playing with it, I'll be heavy on
* the comments.
*
* (if you edit this definition, pay attention to trailing spaces after
* each word -- I warned you! :-) )
*/
#define BUILTIN_CONSTRUCTOR \
": builtin: " \
">in @ " /* save the tib index pointer */ \
"' " /* get next word's xt */ \
"swap >in ! " /* point again to next word */ \
"create " /* create a new definition of the next word */ \
", " /* save previous definition's xt */ \
"immediate " /* make the new definition an immediate word */ \
\
"does> " /* Now, the *new* definition will: */ \
"state @ if " /* if in compiling state: */ \
"1 postpone literal " /* pass 1 flag to indicate compile */ \
"@ compile, " /* compile in previous definition */ \
"postpone throw " /* throw stack-returned result */ \
"else " /* if in interpreting state: */ \
"0 swap " /* pass 0 flag to indicate interpret */ \
"@ execute " /* call previous definition */ \
"throw " /* throw stack-returned result */ \
"then ; "
/*
* Initialise the Forth interpreter, create all our commands as words.
*/
void
bf_init(void)
{
struct bootblk_command **cmdp;
char create_buf[41]; /* 31 characters-long builtins */
int fd;
bf_sys = ficlInitSystem(BF_DICTSIZE);
bf_vm = ficlNewVM(bf_sys);
/* Put all private definitions in a "builtins" vocabulary */
ficlExec(bf_vm, "vocabulary builtins also builtins definitions");
/* Builtin constructor word */
ficlExec(bf_vm, BUILTIN_CONSTRUCTOR);
/* make all commands appear as Forth words */
SET_FOREACH(cmdp, Xcommand_set) {
ficlBuild(bf_sys, (char *)(*cmdp)->c_name, bf_command, FW_DEFAULT);
ficlExec(bf_vm, "forth definitions builtins");
sprintf(create_buf, "builtin: %s", (*cmdp)->c_name);
ficlExec(bf_vm, create_buf);
ficlExec(bf_vm, "builtins definitions");
}
ficlExec(bf_vm, "only forth definitions");
/* Export some version numbers so that code can detect the loader/host version */
ficlSetEnv(bf_sys, "FreeBSD_version", __FreeBSD_version);
ficlSetEnv(bf_sys, "loader_version", bootprog_rev);
/* try to load and run init file if present */
if ((fd = open("/boot/boot.4th", O_RDONLY)) != -1) {
#ifdef LOADER_VERIEXEC
if (verify_file(fd, "/boot/boot.4th", 0, VE_GUESS) < 0) {
close(fd);
return;
}
#endif
(void)ficlExecFD(bf_vm, fd);
close(fd);
}
}
/*
* Feed a line of user input to the Forth interpreter
*/
static int
bf_run(const char *line)
{
int result;
/*
* ficl would require extensive changes to accept a const char *
* interface. Instead, cast it away here and hope for the best.
* We know at the present time the caller for us in the boot
* forth loader can tolerate the string being modified because
* the string is passed in here and then not touched again.
*/
result = ficlExec(bf_vm, __DECONST(char *, line));
DPRINTF("ficlExec '%s' = %d", line, result);
switch (result) {
case VM_OUTOFTEXT:
case VM_ABORTQ:
case VM_QUIT:
case VM_ERREXIT:
break;
case VM_USEREXIT:
printf("No where to leave to!\n");
break;
case VM_ABORT:
printf("Aborted!\n");
break;
case BF_PARSE:
printf("Parse error!\n");
break;
default:
if (command_errmsg != NULL) {
printf("%s\n", command_errmsg);
command_errmsg = NULL;
}
}
if (result == VM_USEREXIT)
panic("interpreter exit");
setenv("interpret", bf_vm->state ? "" : "OK", 1);
return (result);
}
void
interp_init(void)
{
setenv("script.lang", "forth", 1);
bf_init();
/* Read our default configuration. */
interp_include("/boot/loader.rc");
}
int
interp_run(const char *input)
{
bf_vm->sourceID.i = 0;
return bf_run(input);
}
/*
* Header prepended to each line. The text immediately follows the header.
* We try to make this short in order to save memory -- the loader has
* limited memory available, and some of the forth files are very long.
*/
struct includeline
{
struct includeline *next;
char text[0];
};
int
interp_include(const char *filename)
{
struct includeline *script, *se, *sp;
char input[256]; /* big enough? */
int res;
char *cp;
int prevsrcid, fd, line;
if (((fd = open(filename, O_RDONLY)) == -1)) {
snprintf(command_errbuf, sizeof(command_errbuf),
"can't open '%s': %s", filename, strerror(errno));
return(CMD_ERROR);
}
#ifdef LOADER_VERIEXEC
if (verify_file(fd, filename, 0, VE_GUESS) < 0) {
close(fd);
sprintf(command_errbuf,"can't verify '%s'", filename);
return(CMD_ERROR);
}
#endif
/*
* Read the script into memory.
*/
script = se = NULL;
line = 0;
while (fgetstr(input, sizeof(input), fd) >= 0) {
line++;
cp = input;
/* Allocate script line structure and copy line, flags */
if (*cp == '\0')
continue; /* ignore empty line, save memory */
sp = malloc(sizeof(struct includeline) + strlen(cp) + 1);
/* On malloc failure (it happens!), free as much as possible and exit */
if (sp == NULL) {
while (script != NULL) {
se = script;
script = script->next;
free(se);
}
snprintf(command_errbuf, sizeof(command_errbuf),
"file '%s' line %d: memory allocation failure - aborting",
filename, line);
close(fd);
return (CMD_ERROR);
}
strcpy(sp->text, cp);
sp->next = NULL;
if (script == NULL) {
script = sp;
} else {
se->next = sp;
}
se = sp;
}
close(fd);
/*
* Execute the script
*/
prevsrcid = bf_vm->sourceID.i;
bf_vm->sourceID.i = fd;
res = CMD_OK;
for (sp = script; sp != NULL; sp = sp->next) {
res = bf_run(sp->text);
if (res != VM_OUTOFTEXT) {
snprintf(command_errbuf, sizeof(command_errbuf),
"Error while including %s, in the line:\n%s",
filename, sp->text);
res = CMD_ERROR;
break;
} else
res = CMD_OK;
}
bf_vm->sourceID.i = prevsrcid;
while (script != NULL) {
se = script;
script = script->next;
free(se);
}
return(res);
}