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File mod_line_edit.c of Package apache2-webthings-collection (Revision 6)
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/******************************************************************** Copyright (c) 2005-6, WebThing Ltd Author: Nick Kew <nick@webthing.com> This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *********************************************************************/ #define LINE_EDIT_VERSION "1.0.0" #include <ctype.h> #include <httpd.h> #include <http_config.h> #include <util_filter.h> #include <apr_strmatch.h> #include <apr_strings.h> #ifdef AP_REG_ICASE #define APACHE21 #else #define APACHE20 #endif #ifdef APACHE20 #define ap_regex_t regex_t #define ap_regmatch_t regmatch_t #define AP_REG_EXTENDED REG_EXTENDED #define AP_REG_ICASE REG_ICASE #define AP_REG_NOSUB REG_NOSUB #define AP_REG_NEWLINE REG_NEWLINE /* we don't have protocol handling in 2.0 */ #define ap_register_output_filter_protocol(a,b,c,d,e) \ ap_register_output_filter(a,b,c,d) #endif #define M_REGEX 0x01 #define M_NOCASE 0x08 #define M_NEWLINE 0x10 #define M_ENV 0x20 typedef struct { union { const apr_strmatch_pattern* s; const ap_regex_t* r ; } from ; const char* to ; unsigned int flags ; unsigned int length ; } rewriterule ; typedef struct { enum { LINEEND_UNSET, LINEEND_ANY, LINEEND_UNIX, LINEEND_MAC, LINEEND_DOS, LINEEND_CUSTOM, LINEEND_NONE } lineend ; apr_array_header_t* rewriterules ; int lechar; } line_edit_cfg ; module AP_MODULE_DECLARE_DATA line_edit_module ; static const char* const line_edit_filter_name = "line-editor" ; typedef struct { apr_bucket_brigade* bbsave ; apr_pool_t* lpool ; apr_array_header_t* rewriterules ; /* make a copy if per-request interpolation is wanted */ } line_edit_ctx ; static const char* interpolate_env(request_rec *r, const char *str) { /* Interpolate an env str in a configuration string * Syntax ${var} --> value_of(var) * Method: replace one var, and recurse on remainder of string * Nothing clever here, and crap like nested vars may do silly things * but we'll at least avoid sending the unwary into a loop */ const char *start; const char *end; const char *var; const char *val; const char *firstpart; start = ap_strstr(str, "${"); if (start == NULL) { return str; } end = ap_strchr(start+2, '}'); if (end == NULL) { return str; } /* OK, this is syntax we want to interpolate. Is there such a var ? */ var = apr_pstrndup(r->pool, start+2, end-(start+2)); val = apr_table_get(r->subprocess_env, var); firstpart = apr_pstrndup(r->pool, str, (start-str)); if (val == NULL) { return apr_pstrcat(r->pool, firstpart, interpolate_env(r, end+1), NULL); } else { return apr_pstrcat(r->pool, firstpart, val, interpolate_env(r, end+1), NULL); } } static apr_status_t line_edit_filter(ap_filter_t* f, apr_bucket_brigade* bb) { int i, j; unsigned int match ; unsigned int nmatch = 10 ; ap_regmatch_t pmatch[10] ; const char* bufp; const char* subs ; apr_size_t bytes ; apr_size_t fbytes ; apr_size_t offs ; const char* buf ; const char* le = NULL ; const char* le_n ; const char* le_r ; char* fbuf ; apr_bucket* b = APR_BRIGADE_FIRST(bb) ; apr_bucket* b1 ; int found = 0 ; apr_status_t rv ; apr_bucket_brigade* bbline ; line_edit_cfg* cfg = ap_get_module_config(f->r->per_dir_config, &line_edit_module) ; rewriterule* rules = (rewriterule*) cfg->rewriterules->elts ; rewriterule* newrule; line_edit_ctx* ctx = f->ctx ; if (ctx == NULL) { /* check env to see if we're wanted, to give basic control with 2.0 */ buf = apr_table_get(f->r->subprocess_env, "LineEdit"); if (buf && f->r->content_type) { char* lcbuf = apr_pstrdup(f->r->pool, buf) ; char* lctype = apr_pstrdup(f->r->pool, f->r->content_type) ; char* c ; for (c = lcbuf; *c; ++c) if (isupper(*c)) *c = tolower(*c) ; for (c = lctype; *c; ++c) if (isupper(*c)) *c = tolower(*c) ; else if (*c == ';') { *c = 0 ; break ; } if (!strstr(lcbuf, lctype)) { /* don't filter this content type */ ap_filter_t* fnext = f->next ; ap_remove_output_filter(f) ; return ap_pass_brigade(fnext, bb) ; } } ctx = f->ctx = apr_palloc(f->r->pool, sizeof(line_edit_ctx)) ; ctx->bbsave = apr_brigade_create(f->r->pool, f->c->bucket_alloc) ; /* If we have any regex matches, we'll need to copy everything, so we * have null-terminated strings to parse. That's a lot of memory if * we're streaming anything big. So we'll use (and reuse) a local * subpool. Fall back to the request pool if anything bad happens. */ ctx->lpool = f->r->pool ; for (i = 0; i < cfg->rewriterules->nelts; ++i) { if ( rules[i].flags & M_REGEX ) { if (apr_pool_create(&ctx->lpool, f->r->pool) != APR_SUCCESS) { ctx->lpool = f->r->pool ; } break ; } } /* If we have env interpolation, we'll need a private copy of * our rewrite rules with this requests env. Otherwise we can * save processing time by using the original. * * If one ENV is found, we also have to copy all previous and * subsequent rules, even those with no interpolation. */ ctx->rewriterules = cfg->rewriterules; for (i = 0; i < cfg->rewriterules->nelts; ++i) { found |= (rules[i].flags & M_ENV) ; if ( found ) { if (ctx->rewriterules == cfg->rewriterules) { ctx->rewriterules = apr_array_make(f->r->pool, cfg->rewriterules->nelts, sizeof(rewriterule)); for (j = 0; j < i; ++j) { newrule = apr_array_push (((line_edit_ctx*)ctx)->rewriterules) ; newrule->from = rules[j].from; newrule->to = rules[j].to; newrule->flags = rules[j].flags; newrule->length = rules[j].length; } } /* this rule needs to be interpolated */ newrule = apr_array_push (((line_edit_ctx*)ctx)->rewriterules) ; newrule->from = rules[i].from; if (rules[i].flags & M_ENV) { newrule->to = interpolate_env(f->r, rules[i].to); } else { newrule->to = rules[i].to ; } newrule->flags = rules[i].flags; newrule->length = rules[i].length; } } /* for back-compatibility with Apache 2.0, set some protocol stuff */ apr_table_unset(f->r->headers_out, "Content-Length") ; apr_table_unset(f->r->headers_out, "Content-MD5") ; apr_table_unset(f->r->headers_out, "Accept-Ranges") ; } /* by now our rules are in ctx->rewriterules */ rules = (rewriterule*) ctx->rewriterules->elts ; /* bbline is what goes to the next filter, * so we (can) have a new one each time. */ bbline = apr_brigade_create(f->r->pool, f->c->bucket_alloc) ; /* first ensure we have no mid-line breaks that might be in the * middle of a search string causing us to miss it! At the same * time we split into lines to avoid pattern-matching over big * chunks of memory. */ while ( b != APR_BRIGADE_SENTINEL(bb) ) { if ( !APR_BUCKET_IS_METADATA(b) ) { if ( apr_bucket_read(b, &buf, &bytes, APR_BLOCK_READ) == APR_SUCCESS ) { if ( bytes == 0 ) { APR_BUCKET_REMOVE(b) ; } else while ( bytes > 0 ) { switch (cfg->lineend) { case LINEEND_UNIX: le = memchr(buf, '\n', bytes) ; break ; case LINEEND_MAC: le = memchr(buf, '\r', bytes) ; break ; case LINEEND_DOS: /* Edge-case issue: if a \r\n spans buckets it'll get missed. * Not a problem for present purposes, but would be an issue * if we claimed to support pattern matching on the lineends. */ found = 0 ; le = memchr(buf+1, '\n', bytes-1) ; while ( le && !found ) { if ( le[-1] == '\r' ) { found = 1 ; } else { le = memchr(le+1, '\n', bytes-1 - (le+1 - buf)) ; } } if ( !found ) le = 0 ; break; case LINEEND_ANY: case LINEEND_UNSET: /* Edge-case notabug: if a \r\n spans buckets it'll get seen as * two line-ends. It'll insert the \n as a one-byte bucket. */ le_n = memchr(buf, '\n', bytes) ; le_r = memchr(buf, '\r', bytes) ; if ( le_n != NULL ) if ( le_n == le_r + sizeof(char)) le = le_n ; else if ( (le_r < le_n) && (le_r != NULL) ) le = le_r ; else le = le_n ; else le = le_r ; break; case LINEEND_NONE: le = 0 ; break; case LINEEND_CUSTOM: le = memchr(buf, cfg->lechar, bytes) ; break; } if ( le ) { /* found a lineend in this bucket. */ offs = 1 + ((unsigned int)le-(unsigned int)buf) / sizeof(char) ; apr_bucket_split(b, offs) ; bytes -= offs ; buf += offs ; b1 = APR_BUCKET_NEXT(b) ; APR_BUCKET_REMOVE(b); /* Is there any previous unterminated content ? */ if ( !APR_BRIGADE_EMPTY(ctx->bbsave) ) { /* append this to any content waiting for a lineend */ APR_BRIGADE_INSERT_TAIL(ctx->bbsave, b) ; rv = apr_brigade_pflatten(ctx->bbsave, &fbuf, &fbytes, f->r->pool) ; /* make b a new bucket of the flattened stuff */ b = apr_bucket_pool_create(fbuf, fbytes, f->r->pool, f->r->connection->bucket_alloc) ; /* bbsave has been consumed, so clear it */ apr_brigade_cleanup(ctx->bbsave) ; } /* b now contains exactly one line */ APR_BRIGADE_INSERT_TAIL(bbline, b); b = b1 ; } else { /* no lineend found. Remember the dangling content */ APR_BUCKET_REMOVE(b); APR_BRIGADE_INSERT_TAIL(ctx->bbsave, b); bytes = 0 ; } } /* while bytes > 0 */ } else { /* bucket read failed - oops ! Let's remove it. */ APR_BUCKET_REMOVE(b); } } else if ( APR_BUCKET_IS_EOS(b) ) { /* If there's data to pass, send it in one bucket */ if ( !APR_BRIGADE_EMPTY(ctx->bbsave) ) { rv = apr_brigade_pflatten(ctx->bbsave, &fbuf, &fbytes, f->r->pool) ; b1 = apr_bucket_pool_create(fbuf, fbytes, f->r->pool, f->r->connection->bucket_alloc) ; APR_BRIGADE_INSERT_TAIL(bbline, b1); } apr_brigade_cleanup(ctx->bbsave) ; /* start again rather than segfault if a seriously buggy * filter in front of us sent a bogus EOS */ f->ctx = NULL ; /* move the EOS to the new brigade */ APR_BUCKET_REMOVE(b); APR_BRIGADE_INSERT_TAIL(bbline, b); } else { /* chop flush or unknown metadata bucket types */ apr_bucket_delete(b); } /* OK, reset pointer to what's left (since we're not in a for-loop) */ b = APR_BRIGADE_FIRST(bb) ; } /* OK, now we have a bunch of complete lines in bbline, * so we can apply our edit rules */ /* When we get a match, we split the line into before+match+after. * To flatten that back into one buf every time would be inefficient. * So we treat it as three separate bufs to apply future rules. * * We can only reasonably do that by looping over buckets *inside* * the loop over rules. * * That means concepts like one-match-per-line or start-of-line-only * won't work, except for the first rule. So we won't pretend. */ for (i = 0; i < ctx->rewriterules->nelts; ++i) { for ( b = APR_BRIGADE_FIRST(bbline) ; b != APR_BRIGADE_SENTINEL(bbline) ; b = APR_BUCKET_NEXT(b) ) { if ( !APR_BUCKET_IS_METADATA(b) && (apr_bucket_read(b, &buf, &bytes, APR_BLOCK_READ) == APR_SUCCESS)) { if ( rules[i].flags & M_REGEX ) { bufp = apr_pstrmemdup(ctx->lpool, buf, bytes) ; while ( ! ap_regexec(rules[i].from.r, bufp, nmatch, pmatch, 0) ) { match = pmatch[0].rm_so ; subs = ap_pregsub(f->r->pool, rules[i].to, bufp, nmatch, pmatch) ; apr_bucket_split(b, match) ; b1 = APR_BUCKET_NEXT(b) ; apr_bucket_split(b1, pmatch[0].rm_eo - match) ; b = APR_BUCKET_NEXT(b1) ; apr_bucket_delete(b1) ; b1 = apr_bucket_pool_create(subs, strlen(subs), f->r->pool, f->r->connection->bucket_alloc) ; APR_BUCKET_INSERT_BEFORE(b, b1) ; bufp += pmatch[0].rm_eo ; } } else { bufp = buf ; while (subs = apr_strmatch(rules[i].from.s, bufp, bytes), subs != NULL) { match = ((unsigned int)subs - (unsigned int)bufp) / sizeof(char) ; bytes -= match ; bufp += match ; apr_bucket_split(b, match) ; b1 = APR_BUCKET_NEXT(b) ; apr_bucket_split(b1, rules[i].length) ; b = APR_BUCKET_NEXT(b1) ; apr_bucket_delete(b1) ; bytes -= rules[i].length ; bufp += rules[i].length ; b1 = apr_bucket_immortal_create(rules[i].to, strlen(rules[i].to), f->r->connection->bucket_alloc) ; APR_BUCKET_INSERT_BEFORE(b, b1) ; } } } } /* If we used a local pool, clear it now */ if ( (ctx->lpool != f->r->pool) && (rules[i].flags & M_REGEX) ) { apr_pool_clear(ctx->lpool) ; } } /* now pass it down the chain */ rv = ap_pass_brigade(f->next, bbline) ; /* if we have leftover data, don't risk it going out of scope */ for ( b = APR_BRIGADE_FIRST(ctx->bbsave) ; b != APR_BRIGADE_SENTINEL(ctx->bbsave) ; b = APR_BUCKET_NEXT(b)) { apr_bucket_setaside(b, f->r->pool) ; } return rv ; } static int line_edit(apr_pool_t* pool, apr_pool_t* p1, apr_pool_t* p2, server_rec* s) { ap_add_version_component(pool, "Line-Edit/" LINE_EDIT_VERSION) ; return DECLINED ; } static void line_edit_hooks(apr_pool_t* pool) { ap_register_output_filter_protocol(line_edit_filter_name, line_edit_filter, NULL, AP_FTYPE_RESOURCE, AP_FILTER_PROTO_CHANGE|AP_FILTER_PROTO_CHANGE_LENGTH) ; ap_hook_post_config(line_edit, NULL, NULL, APR_HOOK_MIDDLE) ; } static const char* line_edit_lineend(cmd_parms* cmd, void* cfg, const char* arg, const char *ch) { line_edit_cfg* fcfg = cfg ; if (!strcasecmp(arg, "unix")) { fcfg->lineend = LINEEND_UNIX ; } else if (!strcasecmp(arg, "dos")) { fcfg->lineend = LINEEND_DOS ; } else if (!strcasecmp(arg, "mac")) { fcfg->lineend = LINEEND_MAC ; } else if (!strcasecmp(arg, "any")) { fcfg->lineend = LINEEND_ANY ; } else if (!strcasecmp(arg, "none")) { fcfg->lineend = LINEEND_NONE ; } else if (!strcasecmp(arg, "custom")) { if (ch) { fcfg->lineend = LINEEND_CUSTOM ; fcfg->lechar = ch[0]; } else { return "You must specify the custom lineend character."; } } else { return "Unknown lineend scheme"; } return NULL; } #define REGFLAG(n,s,c) ( (s&&(ap_strchr((char*)(s),(c))!=NULL)) ? (n) : 0 ) static const char* line_edit_rewriterule(cmd_parms* cmd, void* cfg, const char* from, const char* to, const char* flags) { rewriterule* rule = apr_array_push (((line_edit_cfg*)cfg)->rewriterules) ; int lflags = 0 ; rule->to = to ; if ( flags ) { rule->flags = REGFLAG(M_REGEX, flags, 'R') | REGFLAG(M_NOCASE, flags, 'i') | REGFLAG(M_NEWLINE, flags, 'm') | REGFLAG(M_ENV, flags, 'V') ; } else { rule->flags = 0 ; } if ( rule->flags & M_REGEX ) { if ( rule->flags & M_NOCASE ) { lflags |= AP_REG_ICASE; } if ( rule->flags & M_NEWLINE ) { lflags |= AP_REG_NEWLINE; } rule->from.r = ap_pregcomp(cmd->pool, from, lflags) ; } else { lflags = (rule->flags & M_NOCASE) ? 0 : 1 ; rule->length = strlen(from) ; rule->from.s = apr_strmatch_precompile(cmd->pool, from, lflags) ; } return NULL; } static const command_rec line_edit_cmds[] = { AP_INIT_TAKE12("LELineEnd", line_edit_lineend, NULL, OR_ALL, "Use line ending: UNIX|MAC|DOS|ANY|NONE|CUSTOM [char]") , AP_INIT_TAKE23("LERewriteRule", line_edit_rewriterule, NULL, OR_ALL, "Line-oriented text rewrite rule: From-pattern, To-pattern [, Flags]") , {NULL} } ; static void* line_edit_cr_cfg(apr_pool_t* pool, char* x) { line_edit_cfg* ret = apr_palloc(pool, sizeof(line_edit_cfg)) ; ret->lineend = LINEEND_UNSET; ret->rewriterules = apr_array_make(pool, 8, sizeof(rewriterule)) ; ret->lechar = 0; return ret ; } static void* line_edit_merge(apr_pool_t* pool, void* BASE, void* ADD) { line_edit_cfg* base = (line_edit_cfg*) BASE ; line_edit_cfg* add = (line_edit_cfg*) ADD ; line_edit_cfg* conf = apr_palloc(pool, sizeof(line_edit_cfg)) ; conf->lineend = (add->lineend == LINEEND_UNSET) ? base->lineend : add->lineend ; conf->rewriterules = apr_array_append(pool, base->rewriterules, add->rewriterules) ; conf->lechar = (add->lechar == 0) ? base->lechar : add->lechar; return conf ; } module AP_MODULE_DECLARE_DATA line_edit_module = { STANDARD20_MODULE_STUFF, line_edit_cr_cfg , line_edit_merge , NULL , NULL , line_edit_cmds , line_edit_hooks };