/* $Vendor-Id: cgi.c,v 1.42 2012/03/24 01:46:25 kristaps Exp $ */ /* * Copyright (c) 2011, 2012 Kristaps Dzonsons * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "apropos_db.h" #include "mandoc.h" #include "mdoc.h" #include "man.h" #include "main.h" #include "manpath.h" #include "mandocdb.h" #ifdef __linux__ # include #else # include #endif enum page { PAGE_INDEX, PAGE_SEARCH, PAGE_SHOW, PAGE__MAX }; struct paths { char *name; char *path; }; /* * A query as passed to the search function. */ struct query { const char *arch; /* architecture */ const char *sec; /* manual section */ const char *expr; /* unparsed expression string */ int manroot; /* manroot index (or -1)*/ int legacy; /* whether legacy mode */ }; struct req { struct query q; struct paths *p; size_t psz; enum page page; }; static int atou(const char *, unsigned *); static void catman(const struct req *, const char *); static int cmp(const void *, const void *); static void format(const struct req *, const char *); static void html_print(const char *); static void html_printquery(const struct req *); static void html_putchar(char); static int http_decode(char *); static void http_parse(struct req *, char *); static void http_print(const char *); static void http_putchar(char); static void http_printquery(const struct req *); static int pathstop(DIR *); static void pathgen(DIR *, char *, struct req *); static void pg_index(const struct req *, char *); static void pg_search(const struct req *, char *); static void pg_show(const struct req *, char *); static void resp_bad(void); static void resp_baddb(void); static void resp_error400(void); static void resp_error404(const char *); static void resp_begin_html(int, const char *); static void resp_begin_http(int, const char *); static void resp_end_html(void); static void resp_index(const struct req *); static void resp_search(struct res *, size_t, void *); static void resp_searchform(const struct req *); static const char *progname; /* cgi script name */ static const char *cache; /* cache directory */ static const char *css; /* css directory */ static const char *host; /* hostname */ static const char * const pages[PAGE__MAX] = { "index", /* PAGE_INDEX */ "search", /* PAGE_SEARCH */ "show", /* PAGE_SHOW */ }; /* * This is just OpenBSD's strtol(3) suggestion. * I use it instead of strtonum(3) for portability's sake. */ static int atou(const char *buf, unsigned *v) { char *ep; long lval; errno = 0; lval = strtol(buf, &ep, 10); if (buf[0] == '\0' || *ep != '\0') return(0); if ((errno == ERANGE && (lval == LONG_MAX || lval == LONG_MIN)) || (lval > INT_MAX || lval < 0)) return(0); *v = (unsigned int)lval; return(1); } /* * Print a character, escaping HTML along the way. * This will pass non-ASCII straight to output: be warned! */ static void html_putchar(char c) { switch (c) { case ('"'): printf(""e;"); break; case ('&'): printf("&"); break; case ('>'): printf(">"); break; case ('<'): printf("<"); break; default: putchar((unsigned char)c); break; } } static void http_printquery(const struct req *req) { printf("&expr="); http_print(req->q.expr ? req->q.expr : ""); printf("&sec="); http_print(req->q.sec ? req->q.sec : ""); printf("&arch="); http_print(req->q.arch ? req->q.arch : ""); } static void html_printquery(const struct req *req) { printf("&expr="); html_print(req->q.expr ? req->q.expr : ""); printf("&sec="); html_print(req->q.sec ? req->q.sec : ""); printf("&arch="); html_print(req->q.arch ? req->q.arch : ""); } static void http_print(const char *p) { if (NULL == p) return; while ('\0' != *p) http_putchar(*p++); } /* * Call through to html_putchar(). * Accepts NULL strings. */ static void html_print(const char *p) { if (NULL == p) return; while ('\0' != *p) html_putchar(*p++); } /* * Parse out key-value pairs from an HTTP request variable. * This can be either a cookie or a POST/GET string, although man.cgi * uses only GET for simplicity. */ static void http_parse(struct req *req, char *p) { char *key, *val, *manroot; int i, legacy; memset(&req->q, 0, sizeof(struct query)); legacy = -1; manroot = NULL; while ('\0' != *p) { key = p; val = NULL; p += (int)strcspn(p, ";&"); if ('\0' != *p) *p++ = '\0'; if (NULL != (val = strchr(key, '='))) *val++ = '\0'; if ('\0' == *key || NULL == val || '\0' == *val) continue; /* Just abort handling. */ if ( ! http_decode(key)) break; if (NULL != val && ! http_decode(val)) break; if (0 == strcmp(key, "expr")) req->q.expr = val; else if (0 == strcmp(key, "query")) req->q.expr = val; else if (0 == strcmp(key, "sec")) req->q.sec = val; else if (0 == strcmp(key, "sektion")) req->q.sec = val; else if (0 == strcmp(key, "arch")) req->q.arch = val; else if (0 == strcmp(key, "manpath")) manroot = val; else if (0 == strcmp(key, "apropos")) legacy = 0 == strcmp(val, "0"); } /* Test for old man.cgi compatibility mode. */ req->q.legacy = legacy > 0; /* * Section "0" means no section when in legacy mode. * For some man.cgi scripts, "default" arch is none. */ if (req->q.legacy && NULL != req->q.sec) if (0 == strcmp(req->q.sec, "0")) req->q.sec = NULL; if (req->q.legacy && NULL != req->q.arch) if (0 == strcmp(req->q.arch, "default")) req->q.arch = NULL; /* Default to first manroot. */ if (NULL != manroot) { for (i = 0; i < (int)req->psz; i++) if (0 == strcmp(req->p[i].name, manroot)) break; req->q.manroot = i < (int)req->psz ? i : -1; } } static void http_putchar(char c) { if (isalnum((unsigned char)c)) { putchar((unsigned char)c); return; } else if (' ' == c) { putchar('+'); return; } printf("%%%.2x", c); } /* * HTTP-decode a string. The standard explanation is that this turns * "%4e+foo" into "n foo" in the regular way. This is done in-place * over the allocated string. */ static int http_decode(char *p) { char hex[3]; int c; hex[2] = '\0'; for ( ; '\0' != *p; p++) { if ('%' == *p) { if ('\0' == (hex[0] = *(p + 1))) return(0); if ('\0' == (hex[1] = *(p + 2))) return(0); if (1 != sscanf(hex, "%x", &c)) return(0); if ('\0' == c) return(0); *p = (char)c; memmove(p + 1, p + 3, strlen(p + 3) + 1); } else *p = '+' == *p ? ' ' : *p; } *p = '\0'; return(1); } static void resp_begin_http(int code, const char *msg) { if (200 != code) printf("Status: %d %s\n", code, msg); puts("Content-Type: text/html; charset=utf-8\n" "Cache-Control: no-cache\n" "Pragma: no-cache\n" ""); fflush(stdout); } static void resp_begin_html(int code, const char *msg) { resp_begin_http(code, msg); printf("\n" "\n" "\n" "\n" "\n" "\n" "System Manpage Reference\n" "\n" "\n" "\n", css, css); } static void resp_end_html(void) { puts("\n" ""); } static void resp_searchform(const struct req *req) { int i; puts(""); printf("
\n" "
\n" "
\n" "Search Parameters\n" " for manuals satisfying \n" "q.expr ? req->q.expr : ""); printf("\">, section " "q.sec ? req->q.sec : ""); printf("\">, arch " "q.arch ? req->q.arch : ""); printf("\">"); if (req->psz > 1) { puts(", "); } puts(".\n" "\n" "
\n" "
\n" "
"); puts(""); } static void resp_index(const struct req *req) { resp_begin_html(200, NULL); resp_searchform(req); resp_end_html(); } static void resp_error400(void) { resp_begin_html(400, "Query Malformed"); printf("

Malformed Query

\n" "

\n" "The query your entered was malformed.\n" "Try again from the\n" "main page.\n" "

", progname); resp_end_html(); } static void resp_error404(const char *page) { resp_begin_html(404, "Not Found"); puts("

Page Not Found

\n" "

\n" "The page you're looking for, "); printf(""); html_print(page); printf(",\n" "could not be found.\n" "Try searching from the\n" "main page.\n" "

", progname); resp_end_html(); } static void resp_bad(void) { resp_begin_html(500, "Internal Server Error"); puts("

Generic badness happened.

"); resp_end_html(); } static void resp_baddb(void) { resp_begin_html(500, "Internal Server Error"); puts("

Your database is broken.

"); resp_end_html(); } static void resp_search(struct res *r, size_t sz, void *arg) { size_t i, matched; const struct req *req; req = (const struct req *)arg; if (sz > 0) assert(req->q.manroot >= 0); for (matched = i = 0; i < sz; i++) if (r[i].matched) matched++; if (1 == matched) { for (i = 0; i < sz; i++) if (r[i].matched) break; /* * If we have just one result, then jump there now * without any delay. */ puts("Status: 303 See Other"); printf("Location: http://%s%s/show/%d/%u/%u.html?", host, progname, req->q.manroot, r[i].volume, r[i].rec); http_printquery(req); puts("\n" "Content-Type: text/html; charset=utf-8\n"); return; } resp_begin_html(200, NULL); resp_searchform(req); puts("
"); if (0 == matched) { puts("

\n" "No results found.\n" "

\n" "
"); resp_end_html(); return; } qsort(r, sz, sizeof(struct res), cmp); puts(""); for (i = 0; i < sz; i++) { if ( ! r[i].matched) continue; printf("\n" "\n" "\n" ""); } puts("
\n" "q.manroot, r[i].volume, r[i].rec); html_printquery(req); printf("\">"); html_print(r[i].title); putchar('('); html_print(r[i].cat); if (r[i].arch && '\0' != *r[i].arch) { putchar('/'); html_print(r[i].arch); } printf(")\n" ""); html_print(r[i].desc); puts("
\n" ""); resp_end_html(); } /* ARGSUSED */ static void pg_index(const struct req *req, char *path) { resp_index(req); } static void catman(const struct req *req, const char *file) { FILE *f; size_t len; int i; char *p; int italic, bold; if (NULL == (f = fopen(file, "r"))) { resp_baddb(); return; } resp_begin_html(200, NULL); resp_searchform(req); puts("
\n" "
");

	while (NULL != (p = fgetln(f, &len))) {
		bold = italic = 0;
		for (i = 0; i < (int)len - 1; i++) {
			/* 
			 * This means that the catpage is out of state.
			 * Ignore it and keep going (although the
			 * catpage is bogus).
			 */

			if ('\b' == p[i] || '\n' == p[i])
				continue;

			/*
			 * Print a regular character.
			 * Close out any bold/italic scopes.
			 * If we're in back-space mode, make sure we'll
			 * have something to enter when we backspace.
			 */

			if ('\b' != p[i + 1]) {
				if (italic)
					printf("");
				if (bold)
					printf("");
				italic = bold = 0;
				html_putchar(p[i]);
				continue;
			} else if (i + 2 >= (int)len)
				continue;

			/* Italic mode. */

			if ('_' == p[i]) {
				if (bold)
					printf("");
				if ( ! italic)
					printf("");
				bold = 0;
				italic = 1;
				i += 2;
				html_putchar(p[i]);
				continue;
			}

			/* 
			 * Handle funny behaviour troff-isms.
			 * These grok'd from the original man2html.c.
			 */

			if (('+' == p[i] && 'o' == p[i + 2]) ||
					('o' == p[i] && '+' == p[i + 2]) ||
					('|' == p[i] && '=' == p[i + 2]) ||
					('=' == p[i] && '|' == p[i + 2]) ||
					('*' == p[i] && '=' == p[i + 2]) ||
					('=' == p[i] && '*' == p[i + 2]) ||
					('*' == p[i] && '|' == p[i + 2]) ||
					('|' == p[i] && '*' == p[i + 2]))  {
				if (italic)
					printf("");
				if (bold)
					printf("");
				italic = bold = 0;
				putchar('*');
				i += 2;
				continue;
			} else if (('|' == p[i] && '-' == p[i + 2]) ||
					('-' == p[i] && '|' == p[i + 1]) ||
					('+' == p[i] && '-' == p[i + 1]) ||
					('-' == p[i] && '+' == p[i + 1]) ||
					('+' == p[i] && '|' == p[i + 1]) ||
					('|' == p[i] && '+' == p[i + 1]))  {
				if (italic)
					printf("");
				if (bold)
					printf("");
				italic = bold = 0;
				putchar('+');
				i += 2;
				continue;
			}

			/* Bold mode. */
			
			if (italic)
				printf("");
			if ( ! bold)
				printf("");
			bold = 1;
			italic = 0;
			i += 2;
			html_putchar(p[i]);
		}

		/* 
		 * Clean up the last character.
		 * We can get to a newline; don't print that. 
		 */

		if (italic)
			printf("");
		if (bold)
			printf("");

		if (i == (int)len - 1 && '\n' != p[i])
			html_putchar(p[i]);

		putchar('\n');
	}

	puts("
\n" "
\n" "\n" ""); fclose(f); } static void format(const struct req *req, const char *file) { struct mparse *mp; int fd; struct mdoc *mdoc; struct man *man; void *vp; enum mandoclevel rc; char opts[MAXPATHLEN + 128]; if (-1 == (fd = open(file, O_RDONLY, 0))) { resp_baddb(); return; } mp = mparse_alloc(MPARSE_AUTO, MANDOCLEVEL_FATAL, NULL, NULL); rc = mparse_readfd(mp, fd, file); close(fd); if (rc >= MANDOCLEVEL_FATAL) { resp_baddb(); return; } snprintf(opts, sizeof(opts), "fragment," "man=%s/search.html?sec=%%S&expr=%%N," /*"includes=/cgi-bin/man.cgi/usr/include/%%I"*/, progname); mparse_result(mp, &mdoc, &man); if (NULL == man && NULL == mdoc) { resp_baddb(); mparse_free(mp); return; } resp_begin_html(200, NULL); resp_searchform(req); vp = html_alloc(opts); if (NULL != mdoc) html_mdoc(vp, mdoc); else html_man(vp, man); puts("\n" ""); html_free(vp); mparse_free(mp); } static void pg_show(const struct req *req, char *path) { struct manpaths ps; size_t sz; char *sub; char file[MAXPATHLEN]; const char *cp; int rc, catm; unsigned int vol, rec, mr; DB *idx; DBT key, val; idx = NULL; /* Parse out mroot, volume, and record from the path. */ if (NULL == path || NULL == (sub = strchr(path, '/'))) { resp_error400(); return; } *sub++ = '\0'; if ( ! atou(path, &mr)) { resp_error400(); return; } path = sub; if (NULL == (sub = strchr(path, '/'))) { resp_error400(); return; } *sub++ = '\0'; if ( ! atou(path, &vol) || ! atou(sub, &rec)) { resp_error400(); return; } else if (mr >= (unsigned int)req->psz) { resp_error400(); return; } /* * Begin by chdir()ing into the manroot. * This way we can pick up the database files, which are * relative to the manpath root. */ if (-1 == chdir(req->p[(int)mr].path)) { perror(req->p[(int)mr].path); resp_baddb(); return; } memset(&ps, 0, sizeof(struct manpaths)); manpath_manconf(&ps, "etc/catman.conf"); if (vol >= (unsigned int)ps.sz) { resp_error400(); goto out; } sz = strlcpy(file, ps.paths[vol], MAXPATHLEN); assert(sz < MAXPATHLEN); strlcat(file, "/", MAXPATHLEN); strlcat(file, MANDOC_IDX, MAXPATHLEN); /* Open the index recno(3) database. */ idx = dbopen(file, O_RDONLY, 0, DB_RECNO, NULL); if (NULL == idx) { perror(file); resp_baddb(); goto out; } key.data = &rec; key.size = 4; if (0 != (rc = (*idx->get)(idx, &key, &val, 0))) { rc < 0 ? resp_baddb() : resp_error400(); goto out; } else if (0 == val.size) { resp_baddb(); goto out; } cp = (char *)val.data; catm = 'c' == *cp++; if (NULL == memchr(cp, '\0', val.size - 1)) resp_baddb(); else { file[(int)sz] = '\0'; strlcat(file, "/", MAXPATHLEN); strlcat(file, cp, MAXPATHLEN); if (catm) catman(req, file); else format(req, file); } out: if (idx) (*idx->close)(idx); manpath_free(&ps); } static void pg_search(const struct req *req, char *path) { size_t tt, ressz; struct manpaths ps; int i, sz, rc; const char *ep, *start; struct res *res; char **cp; struct opts opt; struct expr *expr; if (req->q.manroot < 0 || 0 == req->psz) { resp_search(NULL, 0, (void *)req); return; } memset(&opt, 0, sizeof(struct opts)); ep = req->q.expr; opt.arch = req->q.arch; opt.cat = req->q.sec; rc = -1; sz = 0; cp = NULL; ressz = 0; res = NULL; /* * Begin by chdir()ing into the root of the manpath. * This way we can pick up the database files, which are * relative to the manpath root. */ assert(req->q.manroot < (int)req->psz); if (-1 == (chdir(req->p[req->q.manroot].path))) { perror(req->p[req->q.manroot].path); resp_search(NULL, 0, (void *)req); return; } memset(&ps, 0, sizeof(struct manpaths)); manpath_manconf(&ps, "etc/catman.conf"); /* * Poor man's tokenisation: just break apart by spaces. * Yes, this is half-ass. But it works for now. */ while (ep && isspace((unsigned char)*ep)) ep++; while (ep && '\0' != *ep) { cp = mandoc_realloc(cp, (sz + 1) * sizeof(char *)); start = ep; while ('\0' != *ep && ! isspace((unsigned char)*ep)) ep++; cp[sz] = mandoc_malloc((ep - start) + 1); memcpy(cp[sz], start, ep - start); cp[sz++][ep - start] = '\0'; while (isspace((unsigned char)*ep)) ep++; } /* * Pump down into apropos backend. * The resp_search() function is called with the results. */ expr = req->q.legacy ? termcomp(sz, cp, &tt) : exprcomp(sz, cp, &tt); if (NULL != expr) rc = apropos_search (ps.sz, ps.paths, &opt, expr, tt, (void *)req, &ressz, &res, resp_search); /* ...unless errors occured. */ if (0 == rc) resp_baddb(); else if (-1 == rc) resp_search(NULL, 0, NULL); for (i = 0; i < sz; i++) free(cp[i]); free(cp); resfree(res, ressz); exprfree(expr); manpath_free(&ps); } int main(void) { int i; char buf[MAXPATHLEN]; DIR *cwd; struct req req; char *p, *path, *subpath; /* Scan our run-time environment. */ if (NULL == (cache = getenv("CACHE_DIR"))) cache = "/cache/man.cgi"; if (NULL == (progname = getenv("SCRIPT_NAME"))) progname = ""; if (NULL == (css = getenv("CSS_DIR"))) css = ""; if (NULL == (host = getenv("HTTP_HOST"))) host = "localhost"; /* * First we change directory into the cache directory so that * subsequent scanning for manpath directories is rooted * relative to the same position. */ if (-1 == chdir(cache)) { perror(cache); resp_bad(); return(EXIT_FAILURE); } else if (NULL == (cwd = opendir(cache))) { perror(cache); resp_bad(); return(EXIT_FAILURE); } memset(&req, 0, sizeof(struct req)); strlcpy(buf, ".", MAXPATHLEN); pathgen(cwd, buf, &req); closedir(cwd); /* Next parse out the query string. */ if (NULL != (p = getenv("QUERY_STRING"))) http_parse(&req, p); /* * Now juggle paths to extract information. * We want to extract our filetype (the file suffix), the * initial path component, then the trailing component(s). * Start with leading subpath component. */ subpath = path = NULL; req.page = PAGE__MAX; if (NULL == (path = getenv("PATH_INFO")) || '\0' == *path) req.page = PAGE_INDEX; if (NULL != path && '/' == *path && '\0' == *++path) req.page = PAGE_INDEX; /* Strip file suffix. */ if (NULL != path && NULL != (p = strrchr(path, '.'))) if (NULL != p && NULL == strchr(p, '/')) *p++ = '\0'; /* Resolve subpath component. */ if (NULL != path && NULL != (subpath = strchr(path, '/'))) *subpath++ = '\0'; /* Map path into one we recognise. */ if (NULL != path && '\0' != *path) for (i = 0; i < (int)PAGE__MAX; i++) if (0 == strcmp(pages[i], path)) { req.page = (enum page)i; break; } /* Route pages. */ switch (req.page) { case (PAGE_INDEX): pg_index(&req, subpath); break; case (PAGE_SEARCH): pg_search(&req, subpath); break; case (PAGE_SHOW): pg_show(&req, subpath); break; default: resp_error404(path); break; } for (i = 0; i < (int)req.psz; i++) { free(req.p[i].path); free(req.p[i].name); } free(req.p); return(EXIT_SUCCESS); } static int cmp(const void *p1, const void *p2) { return(strcasecmp(((const struct res *)p1)->title, ((const struct res *)p2)->title)); } /* * Check to see if an "etc" path consists of a catman.conf file. If it * does, that means that the path contains a tree created by catman(8) * and should be used for indexing. */ static int pathstop(DIR *dir) { struct dirent *d; while (NULL != (d = readdir(dir))) if (DT_REG == d->d_type) if (0 == strcmp(d->d_name, "catman.conf")) return(1); return(0); } /* * Scan for indexable paths. * This adds all paths with "etc/catman.conf" to the buffer. */ static void pathgen(DIR *dir, char *path, struct req *req) { struct dirent *d; char *cp; DIR *cd; int rc; size_t sz, ssz; sz = strlcat(path, "/", MAXPATHLEN); if (sz >= MAXPATHLEN) { fprintf(stderr, "%s: Path too long", path); return; } /* * First, scan for the "etc" directory. * If it's found, then see if it should cause us to stop. This * happens when a catman.conf is found in the directory. */ rc = 0; while (0 == rc && NULL != (d = readdir(dir))) { if (DT_DIR != d->d_type || strcmp(d->d_name, "etc")) continue; path[(int)sz] = '\0'; ssz = strlcat(path, d->d_name, MAXPATHLEN); if (ssz >= MAXPATHLEN) { fprintf(stderr, "%s: Path too long", path); return; } else if (NULL == (cd = opendir(path))) { perror(path); return; } rc = pathstop(cd); closedir(cd); } if (rc > 0) { /* This also strips the trailing slash. */ path[(int)--sz] = '\0'; req->p = mandoc_realloc (req->p, (req->psz + 1) * sizeof(struct paths)); /* * Strip out the leading "./" unless we're just a ".", * in which case use an empty string as our name. */ req->p[(int)req->psz].path = mandoc_strdup(path); req->p[(int)req->psz].name = cp = mandoc_strdup(path + (1 == sz ? 1 : 2)); req->psz++; /* * The name is just the path with all the slashes taken * out of it. Simple but effective. */ for ( ; '\0' != *cp; cp++) if ('/' == *cp) *cp = ' '; return; } /* * If no etc/catman.conf was found, recursively enter child * directory and continue scanning. */ rewinddir(dir); while (NULL != (d = readdir(dir))) { if (DT_DIR != d->d_type || '.' == d->d_name[0]) continue; path[(int)sz] = '\0'; ssz = strlcat(path, d->d_name, MAXPATHLEN); if (ssz >= MAXPATHLEN) { fprintf(stderr, "%s: Path too long", path); return; } else if (NULL == (cd = opendir(path))) { perror(path); return; } pathgen(cd, path, req); closedir(cd); } }