/* +----------------------------------------------------------------------+ | PHP Version 5 | +----------------------------------------------------------------------+ | Copyright (c) 1997-2014 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Wez Furlong | +----------------------------------------------------------------------+ */ /* $Id$ */ #include "php.h" #include "php_globals.h" #include "php_network.h" #include "php_open_temporary_file.h" #include "ext/standard/file.h" #include #include #include "php_streams_int.h" /* Global filter hash, copied to FG(stream_filters) on registration of volatile filter */ static HashTable stream_filters_hash; /* Should only be used during core initialization */ PHPAPI HashTable *php_get_stream_filters_hash_global(void) { return &stream_filters_hash; } /* Normal hash selection/retrieval call */ PHPAPI HashTable *_php_get_stream_filters_hash(TSRMLS_D) { return (FG(stream_filters) ? FG(stream_filters) : &stream_filters_hash); } /* API for registering GLOBAL filters */ PHPAPI int php_stream_filter_register_factory(const char *filterpattern, php_stream_filter_factory *factory TSRMLS_DC) { return zend_hash_add(&stream_filters_hash, (char*)filterpattern, strlen(filterpattern) + 1, factory, sizeof(*factory), NULL); } PHPAPI int php_stream_filter_unregister_factory(const char *filterpattern TSRMLS_DC) { return zend_hash_del(&stream_filters_hash, (char*)filterpattern, strlen(filterpattern) + 1); } /* API for registering VOLATILE wrappers */ PHPAPI int php_stream_filter_register_factory_volatile(const char *filterpattern, php_stream_filter_factory *factory TSRMLS_DC) { if (!FG(stream_filters)) { php_stream_filter_factory tmpfactory; ALLOC_HASHTABLE(FG(stream_filters)); zend_hash_init(FG(stream_filters), zend_hash_num_elements(&stream_filters_hash), NULL, NULL, 1); zend_hash_copy(FG(stream_filters), &stream_filters_hash, NULL, &tmpfactory, sizeof(php_stream_filter_factory)); } return zend_hash_add(FG(stream_filters), (char*)filterpattern, strlen(filterpattern) + 1, factory, sizeof(*factory), NULL); } /* Buckets */ PHPAPI php_stream_bucket *php_stream_bucket_new(php_stream *stream, char *buf, size_t buflen, int own_buf, int buf_persistent TSRMLS_DC) { int is_persistent = php_stream_is_persistent(stream); php_stream_bucket *bucket; bucket = (php_stream_bucket*)pemalloc(sizeof(php_stream_bucket), is_persistent); if (bucket == NULL) { return NULL; } bucket->next = bucket->prev = NULL; if (is_persistent && !buf_persistent) { /* all data in a persistent bucket must also be persistent */ bucket->buf = pemalloc(buflen, 1); if (bucket->buf == NULL) { pefree(bucket, 1); return NULL; } memcpy(bucket->buf, buf, buflen); bucket->buflen = buflen; bucket->own_buf = 1; } else { bucket->buf = buf; bucket->buflen = buflen; bucket->own_buf = own_buf; } bucket->is_persistent = is_persistent; bucket->refcount = 1; bucket->brigade = NULL; return bucket; } /* Given a bucket, returns a version of that bucket with a writeable buffer. * If the original bucket has a refcount of 1 and owns its buffer, then it * is returned unchanged. * Otherwise, a copy of the buffer is made. * In both cases, the original bucket is unlinked from its brigade. * If a copy is made, the original bucket is delref'd. * */ PHPAPI php_stream_bucket *php_stream_bucket_make_writeable(php_stream_bucket *bucket TSRMLS_DC) { php_stream_bucket *retval; php_stream_bucket_unlink(bucket TSRMLS_CC); if (bucket->refcount == 1 && bucket->own_buf) { return bucket; } retval = (php_stream_bucket*)pemalloc(sizeof(php_stream_bucket), bucket->is_persistent); memcpy(retval, bucket, sizeof(*retval)); retval->buf = pemalloc(retval->buflen, retval->is_persistent); memcpy(retval->buf, bucket->buf, retval->buflen); retval->refcount = 1; retval->own_buf = 1; php_stream_bucket_delref(bucket TSRMLS_CC); return retval; } PHPAPI int php_stream_bucket_split(php_stream_bucket *in, php_stream_bucket **left, php_stream_bucket **right, size_t length TSRMLS_DC) { *left = (php_stream_bucket*)pecalloc(1, sizeof(php_stream_bucket), in->is_persistent); *right = (php_stream_bucket*)pecalloc(1, sizeof(php_stream_bucket), in->is_persistent); if (*left == NULL || *right == NULL) { goto exit_fail; } (*left)->buf = pemalloc(length, in->is_persistent); (*left)->buflen = length; memcpy((*left)->buf, in->buf, length); (*left)->refcount = 1; (*left)->own_buf = 1; (*left)->is_persistent = in->is_persistent; (*right)->buflen = in->buflen - length; (*right)->buf = pemalloc((*right)->buflen, in->is_persistent); memcpy((*right)->buf, in->buf + length, (*right)->buflen); (*right)->refcount = 1; (*right)->own_buf = 1; (*right)->is_persistent = in->is_persistent; return SUCCESS; exit_fail: if (*right) { if ((*right)->buf) { pefree((*right)->buf, in->is_persistent); } pefree(*right, in->is_persistent); } if (*left) { if ((*left)->buf) { pefree((*left)->buf, in->is_persistent); } pefree(*left, in->is_persistent); } return FAILURE; } PHPAPI void php_stream_bucket_delref(php_stream_bucket *bucket TSRMLS_DC) { if (--bucket->refcount == 0) { if (bucket->own_buf) { pefree(bucket->buf, bucket->is_persistent); } pefree(bucket, bucket->is_persistent); } } PHPAPI void php_stream_bucket_prepend(php_stream_bucket_brigade *brigade, php_stream_bucket *bucket TSRMLS_DC) { bucket->next = brigade->head; bucket->prev = NULL; if (brigade->head) { brigade->head->prev = bucket; } else { brigade->tail = bucket; } brigade->head = bucket; bucket->brigade = brigade; } PHPAPI void php_stream_bucket_append(php_stream_bucket_brigade *brigade, php_stream_bucket *bucket TSRMLS_DC) { if (brigade->tail == bucket) { return; } bucket->prev = brigade->tail; bucket->next = NULL; if (brigade->tail) { brigade->tail->next = bucket; } else { brigade->head = bucket; } brigade->tail = bucket; bucket->brigade = brigade; } PHPAPI void php_stream_bucket_unlink(php_stream_bucket *bucket TSRMLS_DC) { if (bucket->prev) { bucket->prev->next = bucket->next; } else if (bucket->brigade) { bucket->brigade->head = bucket->next; } if (bucket->next) { bucket->next->prev = bucket->prev; } else if (bucket->brigade) { bucket->brigade->tail = bucket->prev; } bucket->brigade = NULL; bucket->next = bucket->prev = NULL; } /* We allow very simple pattern matching for filter factories: * if "convert.charset.utf-8/sjis" is requested, we search first for an exact * match. If that fails, we try "convert.charset.*", then "convert.*" * This means that we don't need to clog up the hashtable with a zillion * charsets (for example) but still be able to provide them all as filters */ PHPAPI php_stream_filter *php_stream_filter_create(const char *filtername, zval *filterparams, int persistent TSRMLS_DC) { HashTable *filter_hash = (FG(stream_filters) ? FG(stream_filters) : &stream_filters_hash); php_stream_filter_factory *factory = NULL; php_stream_filter *filter = NULL; int n; char *period; n = strlen(filtername); if (SUCCESS == zend_hash_find(filter_hash, (char*)filtername, n + 1, (void**)&factory)) { filter = factory->create_filter(filtername, filterparams, persistent TSRMLS_CC); } else if ((period = strrchr(filtername, '.'))) { /* try a wildcard */ char *wildname; wildname = emalloc(n+3); memcpy(wildname, filtername, n+1); period = wildname + (period - filtername); while (period && !filter) { *period = '\0'; strncat(wildname, ".*", 2); if (SUCCESS == zend_hash_find(filter_hash, wildname, strlen(wildname) + 1, (void**)&factory)) { filter = factory->create_filter(filtername, filterparams, persistent TSRMLS_CC); } *period = '\0'; period = strrchr(wildname, '.'); } efree(wildname); } if (filter == NULL) { /* TODO: these need correct docrefs */ if (factory == NULL) php_error_docref(NULL TSRMLS_CC, E_WARNING, "unable to locate filter \"%s\"", filtername); else php_error_docref(NULL TSRMLS_CC, E_WARNING, "unable to create or locate filter \"%s\"", filtername); } return filter; } PHPAPI php_stream_filter *_php_stream_filter_alloc(php_stream_filter_ops *fops, void *abstract, int persistent STREAMS_DC TSRMLS_DC) { php_stream_filter *filter; filter = (php_stream_filter*) pemalloc_rel_orig(sizeof(php_stream_filter), persistent); memset(filter, 0, sizeof(php_stream_filter)); filter->fops = fops; filter->abstract = abstract; filter->is_persistent = persistent; return filter; } PHPAPI void php_stream_filter_free(php_stream_filter *filter TSRMLS_DC) { if (filter->fops->dtor) filter->fops->dtor(filter TSRMLS_CC); pefree(filter, filter->is_persistent); } PHPAPI int php_stream_filter_prepend_ex(php_stream_filter_chain *chain, php_stream_filter *filter TSRMLS_DC) { filter->next = chain->head; filter->prev = NULL; if (chain->head) { chain->head->prev = filter; } else { chain->tail = filter; } chain->head = filter; filter->chain = chain; return SUCCESS; } PHPAPI void _php_stream_filter_prepend(php_stream_filter_chain *chain, php_stream_filter *filter TSRMLS_DC) { php_stream_filter_prepend_ex(chain, filter TSRMLS_CC); } PHPAPI int php_stream_filter_append_ex(php_stream_filter_chain *chain, php_stream_filter *filter TSRMLS_DC) { php_stream *stream = chain->stream; filter->prev = chain->tail; filter->next = NULL; if (chain->tail) { chain->tail->next = filter; } else { chain->head = filter; } chain->tail = filter; filter->chain = chain; if (&(stream->readfilters) == chain && (stream->writepos - stream->readpos) > 0) { /* Let's going ahead and wind anything in the buffer through this filter */ php_stream_bucket_brigade brig_in = { NULL, NULL }, brig_out = { NULL, NULL }; php_stream_bucket_brigade *brig_inp = &brig_in, *brig_outp = &brig_out; php_stream_filter_status_t status; php_stream_bucket *bucket; size_t consumed = 0; bucket = php_stream_bucket_new(stream, (char*) stream->readbuf + stream->readpos, stream->writepos - stream->readpos, 0, 0 TSRMLS_CC); php_stream_bucket_append(brig_inp, bucket TSRMLS_CC); status = filter->fops->filter(stream, filter, brig_inp, brig_outp, &consumed, PSFS_FLAG_NORMAL TSRMLS_CC); if (stream->readpos + consumed > (uint)stream->writepos) { /* No behaving filter should cause this. */ status = PSFS_ERR_FATAL; } switch (status) { case PSFS_ERR_FATAL: while (brig_in.head) { bucket = brig_in.head; php_stream_bucket_unlink(bucket TSRMLS_CC); php_stream_bucket_delref(bucket TSRMLS_CC); } while (brig_out.head) { bucket = brig_out.head; php_stream_bucket_unlink(bucket TSRMLS_CC); php_stream_bucket_delref(bucket TSRMLS_CC); } php_error_docref(NULL TSRMLS_CC, E_WARNING, "Filter failed to process pre-buffered data"); return FAILURE; case PSFS_FEED_ME: /* We don't actually need data yet, leave this filter in a feed me state until data is needed. Reset stream's internal read buffer since the filter is "holding" it. */ stream->readpos = 0; stream->writepos = 0; break; case PSFS_PASS_ON: /* If any data is consumed, we cannot rely upon the existing read buffer, as the filtered data must replace the existing data, so invalidate the cache */ /* note that changes here should be reflected in main/streams/streams.c::php_stream_fill_read_buffer */ stream->writepos = 0; stream->readpos = 0; while (brig_outp->head) { bucket = brig_outp->head; /* Grow buffer to hold this bucket if need be. TODO: See warning in main/stream/streams.c::php_stream_fill_read_buffer */ if (stream->readbuflen - stream->writepos < bucket->buflen) { stream->readbuflen += bucket->buflen; stream->readbuf = perealloc(stream->readbuf, stream->readbuflen, stream->is_persistent); } memcpy(stream->readbuf + stream->writepos, bucket->buf, bucket->buflen); stream->writepos += bucket->buflen; php_stream_bucket_unlink(bucket TSRMLS_CC); php_stream_bucket_delref(bucket TSRMLS_CC); } break; } } return SUCCESS; } PHPAPI void _php_stream_filter_append(php_stream_filter_chain *chain, php_stream_filter *filter TSRMLS_DC) { if (php_stream_filter_append_ex(chain, filter TSRMLS_CC) != SUCCESS) { if (chain->head == filter) { chain->head = NULL; chain->tail = NULL; } else { filter->prev->next = NULL; chain->tail = filter->prev; } } } PHPAPI int _php_stream_filter_flush(php_stream_filter *filter, int finish TSRMLS_DC) { php_stream_bucket_brigade brig_a = { NULL, NULL }, brig_b = { NULL, NULL }, *inp = &brig_a, *outp = &brig_b, *brig_temp; php_stream_bucket *bucket; php_stream_filter_chain *chain; php_stream_filter *current; php_stream *stream; size_t flushed_size = 0; long flags = (finish ? PSFS_FLAG_FLUSH_CLOSE : PSFS_FLAG_FLUSH_INC); if (!filter->chain || !filter->chain->stream) { /* Filter is not attached to a chain, or chain is somehow not part of a stream */ return FAILURE; } chain = filter->chain; stream = chain->stream; for(current = filter; current; current = current->next) { php_stream_filter_status_t status; status = filter->fops->filter(stream, filter, inp, outp, NULL, flags TSRMLS_CC); if (status == PSFS_FEED_ME) { /* We've flushed the data far enough */ return SUCCESS; } if (status == PSFS_ERR_FATAL) { return FAILURE; } /* Otherwise we have data available to PASS_ON Swap the brigades and continue */ brig_temp = inp; inp = outp; outp = brig_temp; outp->head = NULL; outp->tail = NULL; flags = PSFS_FLAG_NORMAL; } /* Last filter returned data via PSFS_PASS_ON Do something with it */ for(bucket = inp->head; bucket; bucket = bucket->next) { flushed_size += bucket->buflen; } if (flushed_size == 0) { /* Unlikely, but possible */ return SUCCESS; } if (chain == &(stream->readfilters)) { /* Dump any newly flushed data to the read buffer */ if (stream->readpos > 0) { /* Back the buffer up */ memcpy(stream->readbuf, stream->readbuf + stream->readpos, stream->writepos - stream->readpos); stream->readpos = 0; stream->writepos -= stream->readpos; } if (flushed_size > (stream->readbuflen - stream->writepos)) { /* Grow the buffer */ stream->readbuf = perealloc(stream->readbuf, stream->writepos + flushed_size + stream->chunk_size, stream->is_persistent); } while ((bucket = inp->head)) { memcpy(stream->readbuf + stream->writepos, bucket->buf, bucket->buflen); stream->writepos += bucket->buflen; php_stream_bucket_unlink(bucket TSRMLS_CC); php_stream_bucket_delref(bucket TSRMLS_CC); } } else if (chain == &(stream->writefilters)) { /* Send flushed data to the stream */ while ((bucket = inp->head)) { stream->ops->write(stream, bucket->buf, bucket->buflen TSRMLS_CC); php_stream_bucket_unlink(bucket TSRMLS_CC); php_stream_bucket_delref(bucket TSRMLS_CC); } } return SUCCESS; } PHPAPI php_stream_filter *php_stream_filter_remove(php_stream_filter *filter, int call_dtor TSRMLS_DC) { if (filter->prev) { filter->prev->next = filter->next; } else { filter->chain->head = filter->next; } if (filter->next) { filter->next->prev = filter->prev; } else { filter->chain->tail = filter->prev; } if (filter->rsrc_id > 0) { zend_list_delete(filter->rsrc_id); } if (call_dtor) { php_stream_filter_free(filter TSRMLS_CC); return NULL; } return filter; } /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: * vim600: noet sw=4 ts=4 fdm=marker * vim<600: noet sw=4 ts=4 */