/* * Copyright (c) 1998 Michael Smith * Copyright 2019 OmniOS Community Edition (OmniOSce) Association. * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "loader_emu.h" #include "gfx_fb.h" #include "ficl.h" #define MDIR_REMOVED 0x0001 #define MDIR_NOHINTS 0x0002 struct moduledir { char *d_path; /* path of modules directory */ uchar_t *d_hints; /* content of linker.hints file */ int d_hintsz; /* size of hints data */ int d_flags; STAILQ_ENTRY(moduledir) d_link; }; static STAILQ_HEAD(, moduledir) moduledir_list = STAILQ_HEAD_INITIALIZER(moduledir_list); static const char *default_searchpath = "/platform/i86pc"; static char typestr[] = "?fc?d?b? ?l?s?w"; static int ls_getdir(char **pathp); extern char **_environ; char *command_errmsg; char command_errbuf[256]; extern void pager_open(void); extern void pager_close(void); extern int pager_output(const char *); extern int pager_file(const char *); static int page_file(char *); static int include(const char *); static int command_help(int argc, char *argv[]); static int command_commandlist(int argc, char *argv[]); static int command_show(int argc, char *argv[]); static int command_set(int argc, char *argv[]); static int command_setprop(int argc, char *argv[]); static int command_unset(int argc, char *argv[]); static int command_echo(int argc, char *argv[]); static int command_read(int argc, char *argv[]); static int command_more(int argc, char *argv[]); static int command_ls(int argc, char *argv[]); static int command_include(int argc, char *argv[]); static int command_autoboot(int argc, char *argv[]); static int command_boot(int argc, char *argv[]); static int command_unload(int argc, char *argv[]); static int command_load(int argc, char *argv[]); static int command_reboot(int argc, char *argv[]); static int command_sifting(int argc, char *argv[]); static int command_framebuffer(int argc, char *argv[]); #define BF_PARSE 100 #define BF_DICTSIZE 30000 /* update when loader version will change */ static const char bootprog_rev[] = "1.1"; /* * BootForth Interface to Ficl Forth interpreter. */ ficlSystem *bf_sys; ficlVm *bf_vm; /* * 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. * * Jordan K. Hubbard * 29 August 1998 * * The meat of the simple parser. */ static void clean(void); static int insert(int *argcp, char *buf); #define PARSE_BUFSIZE 1024 /* maximum size of one element */ #define MAXARGS 20 /* maximum number of elements */ static char *args[MAXARGS]; #define DIGIT(x) \ (isdigit(x) ? (x) - '0' : islower(x) ? (x) + 10 - 'a' : (x) + 10 - 'A') /* * backslash: Return malloc'd copy of str with all standard "backslash * processing" done on it. Original can be free'd if desired. */ char * backslash(char *str) { /* * Remove backslashes from the strings. Turn \040 etc. into a single * character (we allow eight bit values). Currently NUL is not * allowed. * * Turn "\n" and "\t" into '\n' and '\t' characters. Etc. */ char *new_str; int seenbs = 0; int i = 0; if ((new_str = strdup(str)) == NULL) return (NULL); while (*str) { if (seenbs) { seenbs = 0; switch (*str) { case '\\': new_str[i++] = '\\'; str++; break; /* preserve backslashed quotes, dollar signs */ case '\'': case '"': case '$': new_str[i++] = '\\'; new_str[i++] = *str++; break; case 'b': new_str[i++] = '\b'; str++; break; case 'f': new_str[i++] = '\f'; str++; break; case 'r': new_str[i++] = '\r'; str++; break; case 'n': new_str[i++] = '\n'; str++; break; case 's': new_str[i++] = ' '; str++; break; case 't': new_str[i++] = '\t'; str++; break; case 'v': new_str[i++] = '\13'; str++; break; case 'z': str++; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': { char val; /* Three digit octal constant? */ if (*str >= '0' && *str <= '3' && *(str + 1) >= '0' && *(str + 1) <= '7' && *(str + 2) >= '0' && *(str + 2) <= '7') { val = (DIGIT(*str) << 6) + (DIGIT(*(str + 1)) << 3) + DIGIT(*(str + 2)); /* * Allow null value if user really * wants to shoot at feet, but beware! */ new_str[i++] = val; str += 3; break; } /* * One or two digit hex constant? * If two are there they will both be taken. * Use \z to split them up if this is not * wanted. */ if (*str == '0' && (*(str + 1) == 'x' || *(str + 1) == 'X') && isxdigit(*(str + 2))) { val = DIGIT(*(str + 2)); if (isxdigit(*(str + 3))) { val = (val << 4) + DIGIT(*(str + 3)); str += 4; } else str += 3; /* Yep, allow null value here too */ new_str[i++] = val; break; } } break; default: new_str[i++] = *str++; break; } } else { if (*str == '\\') { seenbs = 1; str++; } else new_str[i++] = *str++; } } if (seenbs) { /* * The final character was a '\'. * Put it in as a single backslash. */ new_str[i++] = '\\'; } new_str[i] = '\0'; return (new_str); } /* * parse: accept a string of input and "parse" it for backslash * substitutions and environment variable expansions (${var}), * returning an argc/argv style vector of whitespace separated * arguments. Returns 0 on success, 1 on failure (ok, ok, so I * wimped-out on the error codes! :). * * Note that the argv array returned must be freed by the caller, but * we own the space allocated for arguments and will free that on next * invocation. This allows argv consumers to modify the array if * required. * * NB: environment variables that expand to more than one whitespace * separated token will be returned as a single argv[] element, not * split in turn. Expanded text is also immune to further backslash * elimination or expansion since this is a one-pass, non-recursive * parser. You didn't specify more than this so if you want more, ask * me. - jkh */ #define PARSE_FAIL(expr) \ if (expr) { \ printf("fail at line %d\n", __LINE__); \ clean(); \ free(copy); \ free(buf); \ return (1); \ } /* Accept the usual delimiters for a variable, returning counterpart */ static char isdelim(int ch) { if (ch == '{') return ('}'); else if (ch == '(') return (')'); return ('\0'); } static int isquote(int ch) { return (ch == '\''); } static int isdquote(int ch) { return (ch == '"'); } int parse(int *argc, char ***argv, char *str) { int ac; char *val, *p, *q, *copy = NULL; size_t i = 0; char token, tmp, quote, dquote, *buf; enum { STR, VAR, WHITE } state; ac = *argc = 0; dquote = quote = 0; if (!str || (p = copy = backslash(str)) == NULL) return (1); /* Initialize vector and state */ clean(); state = STR; buf = (char *)malloc(PARSE_BUFSIZE); token = 0; /* And awaaaaaaaaay we go! */ while (*p) { switch (state) { case STR: if ((*p == '\\') && p[1]) { p++; PARSE_FAIL(i == (PARSE_BUFSIZE - 1)); buf[i++] = *p++; } else if (isquote(*p)) { quote = quote ? 0 : *p; if (dquote) { /* keep quote */ PARSE_FAIL(i == (PARSE_BUFSIZE - 1)); buf[i++] = *p++; } else ++p; } else if (isdquote(*p)) { dquote = dquote ? 0 : *p; if (quote) { /* keep dquote */ PARSE_FAIL(i == (PARSE_BUFSIZE - 1)); buf[i++] = *p++; } else ++p; } else if (isspace(*p) && !quote && !dquote) { state = WHITE; if (i) { buf[i] = '\0'; PARSE_FAIL(insert(&ac, buf)); i = 0; } ++p; } else if (*p == '$' && !quote) { token = isdelim(*(p + 1)); if (token) p += 2; else ++p; state = VAR; } else { PARSE_FAIL(i == (PARSE_BUFSIZE - 1)); buf[i++] = *p++; } break; case WHITE: if (isspace(*p)) ++p; else state = STR; break; case VAR: if (token) { PARSE_FAIL((q = strchr(p, token)) == NULL); } else { q = p; while (*q && !isspace(*q)) ++q; } tmp = *q; *q = '\0'; if ((val = getenv(p)) != NULL) { size_t len = strlen(val); (void) strncpy(buf + i, val, PARSE_BUFSIZE - (i + 1)); i += min(len, PARSE_BUFSIZE - 1); } *q = tmp; /* restore value */ p = q + (token ? 1 : 0); state = STR; break; } } /* missing terminating ' or " */ PARSE_FAIL(quote || dquote); /* If at end of token, add it */ if (i && state == STR) { buf[i] = '\0'; PARSE_FAIL(insert(&ac, buf)); } args[ac] = NULL; *argc = ac; *argv = (char **)malloc((sizeof (char *) * ac + 1)); bcopy(args, *argv, sizeof (char *) * ac + 1); free(buf); free(copy); return (0); } #define MAXARGS 20 /* Clean vector space */ static void clean(void) { int i; for (i = 0; i < MAXARGS; i++) { if (args[i] != NULL) { free(args[i]); args[i] = NULL; } } } static int insert(int *argcp, char *buf) { if (*argcp >= MAXARGS) return (1); args[(*argcp)++] = strdup(buf); return (0); } static char * isadir(void) { char *buf; size_t bufsize = 20; int ret; if ((buf = malloc(bufsize)) == NULL) return (NULL); ret = sysinfo(SI_ARCHITECTURE_K, buf, bufsize); if (ret == -1) { free(buf); return (NULL); } return (buf); } /* * Shim for taking commands from BF and passing them out to 'standard' * argv/argc command functions. */ static void bf_command(ficlVm *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) == 0) cmd = (*cmdp)->c_fn; } if (cmd == NULL) printf("callout for unknown command '%s'\n", name); /* Check whether we have been compiled or are being interpreted */ if (ficlStackPopInteger(ficlVmGetDataStack(vm))) { /* * 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 = ficlStackPopInteger(ficlVmGetDataStack(vm)); for (i = 0, len = 0; i < nstrings; i++) len += ficlStackFetch(ficlVmGetDataStack(vm), i * 2).i + 1; line = malloc(strlen(name) + len + 1); (void) strcpy(line, name); if (nstrings) for (i = 0; i < nstrings; i++) { len = ficlStackPopInteger( ficlVmGetDataStack(vm)); cp = ficlStackPopPointer( ficlVmGetDataStack(vm)); (void) strcat(line, " "); (void) strncat(line, cp, len); } } else { /* Get remainder of invocation */ tail = ficlVmGetInBuf(vm); for (cp = tail, len = 0; cp != vm->tib.end && *cp != 0 && *cp != '\n'; cp++, len++) ; line = malloc(strlen(name) + len + 2); (void) strcpy(line, name); if (len > 0) { (void) strcat(line, " "); (void) strncat(line, tail, len); ficlVmUpdateTib(vm, tail + len); } } command_errmsg = command_errbuf; command_errbuf[0] = 0; if (!parse(&argc, &argv, line)) { result = (cmd)(argc, argv); free(argv); } else { result = BF_PARSE; } 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 != 0) ficlVmThrow(vm, result); /* This is going to be thrown!!! */ ficlStackPushInteger(ficlVmGetDataStack(vm), result); } static char * get_currdev(void) { int ret; char *currdev; FILE *fp; struct mnttab mpref = {0}; struct mnttab mp = {0}; mpref.mnt_mountp = "/"; fp = fopen(MNTTAB, "r"); /* do the best we can to return something... */ if (fp == NULL) return (strdup(":")); ret = getmntany(fp, &mp, &mpref); (void) fclose(fp); if (ret == 0) (void) asprintf(&currdev, "zfs:%s:", mp.mnt_special); else return (strdup(":")); return (currdev); } /* * 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 ; " extern int ficlExecFD(ficlVm *, int); /* * Initialise the Forth interpreter, create all our commands as words. */ ficlVm * bf_init(const char *rc, ficlOutputFunction out) { struct bootblk_command **cmdp; char create_buf[41]; /* 31 characters-long builtins */ char *buf; int fd, rv; ficlSystemInformation *fsi; ficlDictionary *dict; ficlDictionary *env; fsi = malloc(sizeof (ficlSystemInformation)); ficlSystemInformationInitialize(fsi); fsi->textOut = out; fsi->dictionarySize = BF_DICTSIZE; bf_sys = ficlSystemCreate(fsi); free(fsi); ficlSystemCompileExtras(bf_sys); bf_vm = ficlSystemCreateVm(bf_sys); buf = isadir(); if (buf == NULL || strcmp(buf, "amd64") != 0) { (void) setenv("ISADIR", "", 1); } else { (void) setenv("ISADIR", buf, 1); } if (buf != NULL) free(buf); buf = get_currdev(); (void) setenv("currdev", buf, 1); free(buf); (void) setenv("console", "text", 1); /* Put all private definitions in a "builtins" vocabulary */ rv = ficlVmEvaluate(bf_vm, "vocabulary builtins also builtins definitions"); if (rv != FICL_VM_STATUS_OUT_OF_TEXT) { printf("error interpreting forth: %d\n", rv); exit(1); } /* Builtin constructor word */ rv = ficlVmEvaluate(bf_vm, BUILTIN_CONSTRUCTOR); if (rv != FICL_VM_STATUS_OUT_OF_TEXT) { printf("error interpreting forth: %d\n", rv); exit(1); } /* make all commands appear as Forth words */ dict = ficlSystemGetDictionary(bf_sys); cmdp = NULL; SET_FOREACH(cmdp, Xcommand_set) { (void) ficlDictionaryAppendPrimitive(dict, (char *)(*cmdp)->c_name, bf_command, FICL_WORD_DEFAULT); rv = ficlVmEvaluate(bf_vm, "forth definitions builtins"); if (rv != FICL_VM_STATUS_OUT_OF_TEXT) { printf("error interpreting forth: %d\n", rv); exit(1); } (void) snprintf(create_buf, sizeof (create_buf), "builtin: %s", (*cmdp)->c_name); rv = ficlVmEvaluate(bf_vm, create_buf); if (rv != FICL_VM_STATUS_OUT_OF_TEXT) { printf("error interpreting forth: %d\n", rv); exit(1); } rv = ficlVmEvaluate(bf_vm, "builtins definitions"); if (rv != FICL_VM_STATUS_OUT_OF_TEXT) { printf("error interpreting forth: %d\n", rv); exit(1); } } rv = ficlVmEvaluate(bf_vm, "only forth definitions"); if (rv != FICL_VM_STATUS_OUT_OF_TEXT) { printf("error interpreting forth: %d\n", rv); exit(1); } /* * Export some version numbers so that code can detect the * loader/host version */ env = ficlSystemGetEnvironment(bf_sys); (void) ficlDictionarySetConstant(env, "loader_version", (bootprog_rev[0] - '0') * 10 + (bootprog_rev[2] - '0')); /* try to load and run init file if present */ if (rc == NULL) rc = "/boot/forth/boot.4th"; if (*rc != '\0') { fd = open(rc, O_RDONLY); if (fd != -1) { (void) ficlExecFD(bf_vm, fd); (void) close(fd); } } gfx_framework_init(); return (bf_vm); } void bf_fini(void) { ficlSystemDestroy(bf_sys); gfx_framework_fini(); } /* * Feed a line of user input to the Forth interpreter */ int bf_run(char *line) { int result; ficlString s; FICL_STRING_SET_FROM_CSTRING(s, line); result = ficlVmExecuteString(bf_vm, s); switch (result) { case FICL_VM_STATUS_OUT_OF_TEXT: case FICL_VM_STATUS_ABORTQ: case FICL_VM_STATUS_QUIT: case FICL_VM_STATUS_ERROR_EXIT: break; case FICL_VM_STATUS_USER_EXIT: break; case FICL_VM_STATUS_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; } } (void) setenv("interpret", bf_vm->state ? "" : "ok", 1); return (result); } char * get_dev(const char *path) { FILE *fp; struct mnttab mpref = {0}; struct mnttab mp = {0}; char *currdev; int ret; char *buf; char *tmppath; char *tmpdev; char *cwd = NULL; fp = fopen(MNTTAB, "r"); /* do the best we can to return something... */ if (fp == NULL) return (strdup(path)); /* * the path can have device provided, check for it * and extract it. */ buf = strrchr(path, ':'); if (buf != NULL) { tmppath = buf+1; /* real path */ buf = strchr(path, ':'); /* skip zfs: */ buf++; tmpdev = strdup(buf); buf = strchr(tmpdev, ':'); /* get ending : */ *buf = '\0'; } else { tmppath = (char *)path; if (tmppath[0] != '/') if ((cwd = getcwd(NULL, PATH_MAX)) == NULL) { (void) fclose(fp); return (strdup(path)); } currdev = getenv("currdev"); buf = strchr(currdev, ':'); /* skip zfs: */ if (buf == NULL) { (void) fclose(fp); return (strdup(path)); } buf++; tmpdev = strdup(buf); buf = strchr(tmpdev, ':'); /* get ending : */ *buf = '\0'; } mpref.mnt_special = tmpdev; ret = getmntany(fp, &mp, &mpref); (void) fclose(fp); free(tmpdev); if (cwd == NULL) (void) asprintf(&buf, "%s/%s", ret? "":mp.mnt_mountp, tmppath); else { (void) asprintf(&buf, "%s/%s/%s", ret? "":mp.mnt_mountp, cwd, tmppath); free(cwd); } return (buf); } static void ngets(char *buf, int n) { int c; char *lp; for (lp = buf; ; ) switch (c = getchar() & 0177) { case '\n': case '\r': *lp = '\0'; (void) putchar('\n'); return; case '\b': case '\177': if (lp > buf) { lp--; (void) putchar('\b'); (void) putchar(' '); (void) putchar('\b'); } break; case 'r'&037: { char *p; (void) putchar('\n'); for (p = buf; p < lp; ++p) (void) putchar(*p); break; } case 'u'&037: case 'w'&037: lp = buf; (void) putchar('\n'); break; default: if ((n < 1) || ((lp - buf) < n - 1)) { *lp++ = c; (void) putchar(c); } } /*NOTREACHED*/ } static int fgetstr(char *buf, int size, int fd) { char c; int err, len; size--; /* leave space for terminator */ len = 0; while (size != 0) { err = read(fd, &c, sizeof (c)); if (err < 0) /* read error */ return (-1); if (err == 0) { /* EOF */ if (len == 0) return (-1); /* nothing to read */ break; } if ((c == '\r') || (c == '\n')) /* line terminators */ break; *buf++ = c; /* keep char */ size--; len++; } *buf = 0; return (len); } static char * unargv(int argc, char *argv[]) { size_t hlong; int i; char *cp; for (i = 0, hlong = 0; i < argc; i++) hlong += strlen(argv[i]) + 2; if (hlong == 0) return (NULL); cp = malloc(hlong); cp[0] = 0; for (i = 0; i < argc; i++) { (void) strcat(cp, argv[i]); if (i < (argc - 1)) (void) strcat(cp, " "); } return (cp); } /* * Help is read from a formatted text file. * * Entries in the file are formatted as: * # Ttopic [Ssubtopic] Ddescription * help * text * here * # * * Note that for code simplicity's sake, the above format must be followed * exactly. * * Subtopic entries must immediately follow the topic (this is used to * produce the listing of subtopics). * * If no argument(s) are supplied by the user, the help for 'help' is displayed. */ static int help_getnext(int fd, char **topic, char **subtopic, char **desc) { char line[81], *cp, *ep; *topic = *subtopic = *desc = NULL; for (;;) { if (fgetstr(line, 80, fd) < 0) return (0); if (strlen(line) < 3 || line[0] != '#' || line[1] != ' ') continue; *topic = *subtopic = *desc = NULL; cp = line + 2; while (cp != NULL && *cp != 0) { ep = strchr(cp, ' '); if (*cp == 'T' && *topic == NULL) { if (ep != NULL) *ep++ = 0; *topic = strdup(cp + 1); } else if (*cp == 'S' && *subtopic == NULL) { if (ep != NULL) *ep++ = 0; *subtopic = strdup(cp + 1); } else if (*cp == 'D') { *desc = strdup(cp + 1); ep = NULL; } cp = ep; } if (*topic == NULL) { free(*subtopic); free(*desc); continue; } return (1); } } static int help_emitsummary(char *topic, char *subtopic, char *desc) { int i; (void) pager_output(" "); (void) pager_output(topic); i = strlen(topic); if (subtopic != NULL) { (void) pager_output(" "); (void) pager_output(subtopic); i += strlen(subtopic) + 1; } if (desc != NULL) { do { (void) pager_output(" "); } while (i++ < 30); (void) pager_output(desc); } return (pager_output("\n")); } COMMAND_SET(help, "help", "detailed help", command_help); static int command_help(int argc, char *argv[]) { char buf[81]; /* XXX buffer size? */ int hfd, matched, doindex; char *topic, *subtopic, *t, *s, *d; /* page the help text from our load path */ (void) snprintf(buf, sizeof (buf), "/boot/loader.help"); if ((hfd = open(buf, O_RDONLY)) < 0) { printf("Verbose help not available, " "use '?' to list commands\n"); return (CMD_OK); } /* pick up request from arguments */ topic = subtopic = NULL; switch (argc) { case 3: subtopic = strdup(argv[2]); /* FALLTHROUGH */ case 2: topic = strdup(argv[1]); break; case 1: topic = strdup("help"); break; default: command_errmsg = "usage is 'help []"; (void) close(hfd); return (CMD_ERROR); } /* magic "index" keyword */ doindex = strcmp(topic, "index") == 0; matched = doindex; /* Scan the helpfile looking for help matching the request */ pager_open(); while (help_getnext(hfd, &t, &s, &d)) { if (doindex) { /* dink around formatting */ if (help_emitsummary(t, s, d)) break; } else if (strcmp(topic, t)) { /* topic mismatch */ /* nothing more on this topic, stop scanning */ if (matched) break; } else { /* topic matched */ matched = 1; if ((subtopic == NULL && s == NULL) || (subtopic != NULL && s != NULL && strcmp(subtopic, s) == 0)) { /* exact match, print text */ while (fgetstr(buf, 80, hfd) >= 0 && buf[0] != '#') { if (pager_output(buf)) break; if (pager_output("\n")) break; } } else if (subtopic == NULL && s != NULL) { /* topic match, list subtopics */ if (help_emitsummary(t, s, d)) break; } } free(t); free(s); free(d); t = s = d = NULL; } free(t); free(s); free(d); pager_close(); (void) close(hfd); if (!matched) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "no help available for '%s'", topic); free(topic); free(subtopic); return (CMD_ERROR); } free(topic); free(subtopic); return (CMD_OK); } COMMAND_SET(commandlist, "?", "list commands", command_commandlist); static int command_commandlist(int argc __unused, char *argv[] __unused) { struct bootblk_command **cmdp; int res; char name[20]; res = 0; pager_open(); res = pager_output("Available commands:\n"); SET_FOREACH(cmdp, Xcommand_set) { if (res) break; if ((*cmdp)->c_name != NULL && (*cmdp)->c_desc != NULL) { (void) snprintf(name, sizeof (name), " %-15s ", (*cmdp)->c_name); (void) pager_output(name); (void) pager_output((*cmdp)->c_desc); res = pager_output("\n"); } } pager_close(); return (CMD_OK); } /* * XXX set/show should become set/echo if we have variable * substitution happening. */ COMMAND_SET(show, "show", "show variable(s)", command_show); COMMAND_SET(printenv, "printenv", "show variable(s)", command_show); static int command_show(int argc, char *argv[]) { char **ev; char *cp; if (argc < 2) { /* * With no arguments, print everything. */ pager_open(); for (ev = _environ; *ev != NULL; ev++) { (void) pager_output(*ev); cp = getenv(*ev); if (cp != NULL) { (void) pager_output("="); (void) pager_output(cp); } if (pager_output("\n")) break; } pager_close(); } else { if ((cp = getenv(argv[1])) != NULL) { printf("%s\n", cp); } else { (void) snprintf(command_errbuf, sizeof (command_errbuf), "variable '%s' not found", argv[1]); return (CMD_ERROR); } } return (CMD_OK); } COMMAND_SET(set, "set", "set a variable", command_set); static int command_set(int argc, char *argv[]) { int err; char *value, *copy; if (argc != 2) { command_errmsg = "wrong number of arguments"; return (CMD_ERROR); } else { copy = strdup(argv[1]); if (copy == NULL) { command_errmsg = strerror(errno); return (CMD_ERROR); } if ((value = strchr(copy, '=')) != NULL) *(value++) = 0; else value = ""; if ((err = setenv(copy, value, 1)) != 0) { free(copy); command_errmsg = strerror(errno); return (CMD_ERROR); } free(copy); } return (CMD_OK); } COMMAND_SET(setprop, "setprop", "set a variable", command_setprop); static int command_setprop(int argc, char *argv[]) { int err; if (argc != 3) { command_errmsg = "wrong number of arguments"; return (CMD_ERROR); } else { if ((err = setenv(argv[1], argv[2], 1)) != 0) { command_errmsg = strerror(err); return (CMD_ERROR); } } return (CMD_OK); } COMMAND_SET(unset, "unset", "unset a variable", command_unset); static int command_unset(int argc, char *argv[]) { int err; if (argc != 2) { command_errmsg = "wrong number of arguments"; return (CMD_ERROR); } else { if ((err = unsetenv(argv[1])) != 0) { command_errmsg = strerror(err); return (CMD_ERROR); } } return (CMD_OK); } COMMAND_SET(echo, "echo", "echo arguments", command_echo); static int command_echo(int argc, char *argv[]) { char *s; int nl, ch; nl = 0; optind = 1; opterr = 1; while ((ch = getopt(argc, argv, "n")) != -1) { switch (ch) { case 'n': nl = 1; break; case '?': default: /* getopt has already reported an error */ return (CMD_OK); } } argv += (optind); argc -= (optind); s = unargv(argc, argv); if (s != NULL) { printf("%s", s); free(s); } if (!nl) printf("\n"); return (CMD_OK); } /* * A passable emulation of the sh(1) command of the same name. */ static int ischar(void) { return (1); } COMMAND_SET(read, "read", "read input from the terminal", command_read); static int command_read(int argc, char *argv[]) { char *prompt; int timeout; time_t when; char *cp; char *name; char buf[256]; /* XXX size? */ int c; timeout = -1; prompt = NULL; optind = 1; opterr = 1; while ((c = getopt(argc, argv, "p:t:")) != -1) { switch (c) { case 'p': prompt = optarg; break; case 't': timeout = strtol(optarg, &cp, 0); if (cp == optarg) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "bad timeout '%s'", optarg); return (CMD_ERROR); } break; default: return (CMD_OK); } } argv += (optind); argc -= (optind); name = (argc > 0) ? argv[0]: NULL; if (prompt != NULL) printf("%s", prompt); if (timeout >= 0) { when = time(NULL) + timeout; while (!ischar()) if (time(NULL) >= when) return (CMD_OK); /* is timeout an error? */ } ngets(buf, sizeof (buf)); if (name != NULL) (void) setenv(name, buf, 1); return (CMD_OK); } /* * File pager */ COMMAND_SET(more, "more", "show contents of a file", command_more); static int command_more(int argc, char *argv[]) { int i; int res; char line[80]; char *name; res = 0; pager_open(); for (i = 1; (i < argc) && (res == 0); i++) { (void) snprintf(line, sizeof (line), "*** FILE %s BEGIN ***\n", argv[i]); if (pager_output(line)) break; name = get_dev(argv[i]); res = page_file(name); free(name); if (!res) { (void) snprintf(line, sizeof (line), "*** FILE %s END ***\n", argv[i]); res = pager_output(line); } } pager_close(); if (res == 0) return (CMD_OK); return (CMD_ERROR); } static int page_file(char *filename) { int result; result = pager_file(filename); if (result == -1) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "error showing %s", filename); } return (result); } COMMAND_SET(ls, "ls", "list files", command_ls); static int command_ls(int argc, char *argv[]) { DIR *dir; int fd; struct stat sb; struct dirent *d; char *buf, *path; char lbuf[128]; /* one line */ int result, ch; int verbose; result = CMD_OK; fd = -1; verbose = 0; optind = 1; opterr = 1; while ((ch = getopt(argc, argv, "l")) != -1) { switch (ch) { case 'l': verbose = 1; break; case '?': default: /* getopt has already reported an error */ return (CMD_OK); } } argv += (optind - 1); argc -= (optind - 1); if (argc < 2) { path = ""; } else { path = argv[1]; } fd = ls_getdir(&path); if (fd == -1) { result = CMD_ERROR; goto out; } dir = fdopendir(fd); pager_open(); (void) pager_output(path); (void) pager_output("\n"); while ((d = readdir(dir)) != NULL) { if (strcmp(d->d_name, ".") && strcmp(d->d_name, "..")) { /* stat the file, if possible */ if (path[0] == '\0') { (void) asprintf(&buf, "%s", d->d_name); } else { (void) asprintf(&buf, "%s/%s", path, d->d_name); } if (buf != NULL) { /* ignore return, could be symlink, etc. */ if (stat(buf, &sb)) { sb.st_size = 0; sb.st_mode = 0; } free(buf); } if (verbose) { (void) snprintf(lbuf, sizeof (lbuf), " %c %8d %s\n", typestr[sb.st_mode >> 12], (int)sb.st_size, d->d_name); } else { (void) snprintf(lbuf, sizeof (lbuf), " %c %s\n", typestr[sb.st_mode >> 12], d->d_name); } if (pager_output(lbuf)) goto out; } } out: pager_close(); if (fd != -1) (void) closedir(dir); if (path != NULL) free(path); return (result); } /* * Given (path) containing a vaguely reasonable path specification, return an fd * on the directory, and an allocated copy of the path to the directory. */ static int ls_getdir(char **pathp) { struct stat sb; int fd; char *cp, *path; fd = -1; /* one extra byte for a possible trailing slash required */ path = malloc(strlen(*pathp) + 2); (void) strcpy(path, *pathp); /* Make sure the path is respectable to begin with */ if ((cp = get_dev(path)) == NULL) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "bad path '%s'", path); goto out; } /* If there's no path on the device, assume '/' */ if (*cp == 0) (void) strcat(path, "/"); fd = open(cp, O_RDONLY); if (fd < 0) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "open '%s' failed: %s", path, strerror(errno)); goto out; } if (fstat(fd, &sb) < 0) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "stat failed: %s", strerror(errno)); goto out; } if (!S_ISDIR(sb.st_mode)) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "%s: %s", path, strerror(ENOTDIR)); goto out; } free(cp); *pathp = path; return (fd); out: free(cp); free(path); *pathp = NULL; if (fd != -1) (void) close(fd); return (-1); } COMMAND_SET(include, "include", "read commands from a file", command_include); static int command_include(int argc, char *argv[]) { int i; int res; char **argvbuf; /* * Since argv is static, we need to save it here. */ argvbuf = (char **)calloc(argc, sizeof (char *)); for (i = 0; i < argc; i++) argvbuf[i] = strdup(argv[i]); res = CMD_OK; for (i = 1; (i < argc) && (res == CMD_OK); i++) res = include(argvbuf[i]); for (i = 0; i < argc; i++) free(argvbuf[i]); free(argvbuf); return (res); } /* * 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; int line; char text[]; }; int include(const char *filename) { struct includeline *script, *se, *sp; int res = CMD_OK; int prevsrcid, fd, line; char *cp, input[256]; /* big enough? */ char *path; path = get_dev(filename); if (((fd = open(path, O_RDONLY)) == -1)) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "can't open '%s': %s", filename, strerror(errno)); free(path); return (CMD_ERROR); } free(path); /* * 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 */ if (cp[0] == '\\' && cp[1] == ' ') continue; /* ignore comment */ 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); } (void) snprintf(command_errbuf, sizeof (command_errbuf), "file '%s' line %d: memory allocation " "failure - aborting", filename, line); return (CMD_ERROR); } (void) strcpy(sp->text, cp); sp->line = line; sp->next = NULL; if (script == NULL) { script = sp; } else { se->next = sp; } se = sp; } (void) close(fd); /* * Execute the script */ prevsrcid = bf_vm->sourceId.i; bf_vm->sourceId.i = fd+1; /* 0 is user input device */ res = CMD_OK; for (sp = script; sp != NULL; sp = sp->next) { res = bf_run(sp->text); if (res != FICL_VM_STATUS_OUT_OF_TEXT) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "Error while including %s, in the line %d:\n%s", filename, sp->line, sp->text); res = CMD_ERROR; break; } else res = CMD_OK; } bf_vm->sourceId.i = -1; (void) bf_run(""); bf_vm->sourceId.i = prevsrcid; while (script != NULL) { se = script; script = script->next; free(se); } return (res); } COMMAND_SET(boot, "boot", "boot a file or loaded kernel", command_boot); static int command_boot(int argc, char *argv[]) { return (CMD_OK); } COMMAND_SET(autoboot, "autoboot", "boot automatically after a delay", command_autoboot); static int command_autoboot(int argc, char *argv[]) { return (CMD_OK); } static void moduledir_rebuild(void) { struct moduledir *mdp, *mtmp; const char *path, *cp, *ep; int cplen; path = getenv("module_path"); if (path == NULL) path = default_searchpath; /* * Rebuild list of module directories if it changed */ STAILQ_FOREACH(mdp, &moduledir_list, d_link) mdp->d_flags |= MDIR_REMOVED; for (ep = path; *ep != 0; ep++) { cp = ep; for (; *ep != 0 && *ep != ';'; ep++) ; /* * Ignore trailing slashes */ for (cplen = ep - cp; cplen > 1 && cp[cplen - 1] == '/'; cplen--) ; STAILQ_FOREACH(mdp, &moduledir_list, d_link) { if (strlen(mdp->d_path) != cplen || bcmp(cp, mdp->d_path, cplen) != 0) continue; mdp->d_flags &= ~MDIR_REMOVED; break; } if (mdp == NULL) { mdp = malloc(sizeof (*mdp) + cplen + 1); if (mdp == NULL) return; mdp->d_path = (char *)(mdp + 1); bcopy(cp, mdp->d_path, cplen); mdp->d_path[cplen] = 0; mdp->d_hints = NULL; mdp->d_flags = 0; STAILQ_INSERT_TAIL(&moduledir_list, mdp, d_link); } if (*ep == 0) break; } /* * Delete unused directories if any */ mdp = STAILQ_FIRST(&moduledir_list); while (mdp) { if ((mdp->d_flags & MDIR_REMOVED) == 0) { mdp = STAILQ_NEXT(mdp, d_link); } else { if (mdp->d_hints) free(mdp->d_hints); mtmp = mdp; mdp = STAILQ_NEXT(mdp, d_link); STAILQ_REMOVE(&moduledir_list, mtmp, moduledir, d_link); free(mtmp); } } } static char * file_lookup(const char *path, const char *name, int namelen) { struct stat st; char *result, *cp, *gz; int pathlen; pathlen = strlen(path); result = malloc(pathlen + namelen + 2); if (result == NULL) return (NULL); bcopy(path, result, pathlen); if (pathlen > 0 && result[pathlen - 1] != '/') result[pathlen++] = '/'; cp = result + pathlen; bcopy(name, cp, namelen); cp += namelen; *cp = '\0'; if (stat(result, &st) == 0 && S_ISREG(st.st_mode)) return (result); /* also check for gz file */ (void) asprintf(&gz, "%s.gz", result); if (gz != NULL) { int res = stat(gz, &st); free(gz); if (res == 0) return (result); } free(result); return (NULL); } static char * file_search(const char *name) { struct moduledir *mdp; struct stat sb; char *result; int namelen; if (name == NULL) return (NULL); if (*name == 0) return (strdup(name)); if (strchr(name, '/') != NULL) { char *gz; if (stat(name, &sb) == 0) return (strdup(name)); /* also check for gz file */ (void) asprintf(&gz, "%s.gz", name); if (gz != NULL) { int res = stat(gz, &sb); free(gz); if (res == 0) return (strdup(name)); } return (NULL); } moduledir_rebuild(); result = NULL; namelen = strlen(name); STAILQ_FOREACH(mdp, &moduledir_list, d_link) { result = file_lookup(mdp->d_path, name, namelen); if (result) break; } return (result); } COMMAND_SET(load, "load", "load a kernel or module", command_load); static int command_load(int argc, char *argv[]) { int dofile, ch; char *typestr = NULL; char *filename; dofile = 0; optind = 1; if (argc == 1) { command_errmsg = "no filename specified"; return (CMD_ERROR); } while ((ch = getopt(argc, argv, "kt:")) != -1) { switch (ch) { case 'k': break; case 't': typestr = optarg; dofile = 1; break; case '?': default: return (CMD_OK); } } argv += (optind - 1); argc -= (optind - 1); if (dofile) { if ((typestr == NULL) || (*typestr == 0)) { command_errmsg = "invalid load type"; return (CMD_ERROR); } #if 0 return (file_loadraw(argv[1], typestr, argc - 2, argv + 2, 1) ? CMD_OK : CMD_ERROR); #endif return (CMD_OK); } filename = file_search(argv[1]); if (filename == NULL) { (void) snprintf(command_errbuf, sizeof (command_errbuf), "can't find '%s'", argv[1]); return (CMD_ERROR); } (void) setenv("kernelname", filename, 1); return (CMD_OK); } COMMAND_SET(unload, "unload", "unload all modules", command_unload); static int command_unload(int argc, char *argv[]) { (void) unsetenv("kernelname"); return (CMD_OK); } COMMAND_SET(reboot, "reboot", "reboot the system", command_reboot); static int command_reboot(int argc, char *argv[]) { exit(0); return (CMD_OK); } COMMAND_SET(sifting, "sifting", "find words", command_sifting); static int command_sifting(int argc, char *argv[]) { if (argc != 2) { command_errmsg = "wrong number of arguments"; return (CMD_ERROR); } ficlPrimitiveSiftingImpl(bf_vm, argv[1]); return (CMD_OK); } /* Only implement get and list. Ignore arguments on, off and set. */ COMMAND_SET(framebuffer, "framebuffer", "framebuffer mode management", command_framebuffer); static int command_framebuffer(int argc, char *argv[]) { if (fb.fd < 0) { printf("Framebuffer is not available.\n"); return (CMD_OK); } if (argc == 2 && strcmp(argv[1], "get") == 0) { printf("\nSystem frame buffer: %s\n", fb.ident.name); printf("%dx%dx%d, stride=%d\n", fb.fb_width, fb.fb_height, fb.fb_depth, (fb.fb_pitch << 3) / fb.fb_depth); return (CMD_OK); } if (argc == 2 && strcmp(argv[1], "list") == 0) { printf("0: %dx%dx%d\n", fb.fb_width, fb.fb_height, fb.fb_depth); return (CMD_OK); } if (argc == 3 && strcmp(argv[1], "set") == 0) return (CMD_OK); if (argc == 2 && strcmp(argv[1], "on") == 0) return (CMD_OK); if (argc == 2 && strcmp(argv[1], "off") == 0) return (CMD_OK); (void) snprintf(command_errbuf, sizeof (command_errbuf), "usage: %s get | list", argv[0]); return (CMD_ERROR); }