apache-http-server/include/util_filter.h

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#ifndef AP_FILTER_H
#define AP_FILTER_H

#include "apr.h"
#include "apr_buckets.h"

#include "httpd.h"

#if APR_HAVE_STDARG_H
#include <stdarg.h>
#endif

#ifdef __cplusplus
extern "C" {
#endif

/**
 * @file util_filter.h
 * @brief Apache filter library
 */

/** Returned by the bottom-most filter if no data was written.
 *  @see ap_pass_brigade(). */
#define AP_NOBODY_WROTE         -1
/** Returned by the bottom-most filter if no data was read.
 *  @see ap_get_brigade(). */
#define AP_NOBODY_READ          -2
/** Returned when?? @bug find out when! */
#define AP_FILTER_ERROR         -3

/**
 * input filtering modes
 */
typedef enum {
    /** The filter should return at most readbytes data. */
    AP_MODE_READBYTES,
    /** The filter should return at most one line of CRLF data.
     *  (If a potential line is too long or no CRLF is found, the 
     *   filter may return partial data).
     */
    AP_MODE_GETLINE,
    /** The filter should implicitly eat any CRLF pairs that it sees. */
    AP_MODE_EATCRLF,
    /** The filter read should be treated as speculative and any returned
     *  data should be stored for later retrieval in another mode. */
    AP_MODE_SPECULATIVE,
    /** The filter read should be exhaustive and read until it can not
     *  read any more.
     *  Use this mode with extreme caution.
     */
    AP_MODE_EXHAUSTIVE,
    /** The filter should initialize the connection if needed,
     *  NNTP or FTP over SSL for example.
     */
    AP_MODE_INIT
} ap_input_mode_t;

/**
 * @defgroup filter FILTER CHAIN
 *
 * Filters operate using a "chaining" mechanism. The filters are chained
 * together into a sequence. When output is generated, it is passed through
 * each of the filters on this chain, until it reaches the end (or "bottom")
 * and is placed onto the network.
 *
 * The top of the chain, the code generating the output, is typically called
 * a "content generator." The content generator's output is fed into the
 * filter chain using the standard Apache output mechanisms: ap_rputs(),
 * ap_rprintf(), ap_rwrite(), etc.
 *
 * Each filter is defined by a callback. This callback takes the output from
 * the previous filter (or the content generator if there is no previous
 * filter), operates on it, and passes the result to the next filter in the
 * chain. This pass-off is performed using the ap_fc_* functions, such as
 * ap_fc_puts(), ap_fc_printf(), ap_fc_write(), etc.
 *
 * When content generation is complete, the system will pass an "end of
 * stream" marker into the filter chain. The filters will use this to flush
 * out any internal state and to detect incomplete syntax (for example, an
 * unterminated SSI directive).
 */

/* forward declare the filter type */
typedef struct ap_filter_t ap_filter_t;

/**
 * @name Filter callbacks
 *
 * This function type is used for filter callbacks. It will be passed a
 * pointer to "this" filter, and a "bucket" containing the content to be
 * filtered.
 *
 * In filter->ctx, the callback will find its context. This context is
 * provided here, so that a filter may be installed multiple times, each
 * receiving its own per-install context pointer.
 *
 * Callbacks are associated with a filter definition, which is specified
 * by name. See ap_register_input_filter() and ap_register_output_filter()
 * for setting the association between a name for a filter and its 
 * associated callback (and other information).
 *
 * The *bucket structure (and all those referenced by ->next and ->prev)
 * should be considered "const". The filter is allowed to modify the
 * next/prev to insert/remove/replace elements in the bucket list, but
 * the types and values of the individual buckets should not be altered.
 *
 * The return value of a filter should be an APR status value.
 * 
 * @ingroup filter
 * @{
 */
typedef apr_status_t (*ap_out_filter_func)(ap_filter_t *f, apr_bucket_brigade *b);
typedef apr_status_t (*ap_in_filter_func)(ap_filter_t *f, apr_bucket_brigade *b, 
                                          ap_input_mode_t mode, apr_read_type_e block, apr_off_t readbytes);

typedef union ap_filter_func {
    ap_out_filter_func out_func;
    ap_in_filter_func in_func;
} ap_filter_func;

/** @} */

/**
 * Filters have different types/classifications. These are used to group
 * and sort the filters to properly sequence their operation.
 *
 * The types have a particular sort order, which allows us to insert them
 * into the filter chain in a determistic order. Within a particular grouping,
 * the ordering is equivalent to the order of calls to ap_add_*_filter().
 */
typedef enum {
    /** These filters are used to alter the content that is passed through
     *  them. Examples are SSI or PHP. */
    AP_FTYPE_CONTENT     = 10,
    /** (XXX somebody rename me or get rid of me please)
     *  This special type ensures that the HTTP header filter ends up in
     *  the proper location in the filter chain. */
    AP_FTYPE_HTTP_HEADER = 20,
    /** These filters implement transport encodings (e.g., chunking). */
    AP_FTYPE_TRANSCODE   = 30,
    /** These filters will alter the content, but in ways that are
     *  more strongly associated with the connection.  Examples are
     *  splitting * an HTTP connection into multiple requests and
     *  buffering HTTP * responses across multiple requests.
     *
     *  It is important to note that these types of filters are not
     *  allowed in a sub-request. A sub-request's output can certainly
     *  be filtered by ::AP_FTYPE_CONTENT filters, but all of the "final
     *  processing" is determined by the main request. */
    AP_FTYPE_CONNECTION  = 40,
    /** These filters don't alter the content.  They are responsible for
     *  sending/receiving data to/from the client. */
    AP_FTYPE_NETWORK     = 50
} ap_filter_type;

/**
 * This is the request-time context structure for an installed filter (in
 * the output filter chain). It provides the callback to use for filtering,
 * the request this filter is associated with (which is important when
 * an output chain also includes sub-request filters), the context for this
 * installed filter, and the filter ordering/chaining fields.
 *
 * Filter callbacks are free to use ->ctx as they please, to store context
 * during the filter process. Generally, this is superior over associating
 * the state directly with the request. A callback should not change any of
 * the other fields.
 */

typedef struct ap_filter_rec_t ap_filter_rec_t;

/**
 * This structure is used for recording information about the
 * registered filters. It associates a name with the filter's callback
 * and filter type.
 *
 * At the moment, these are simply linked in a chain, so a ->next pointer
 * is available.
 */
struct ap_filter_rec_t {
    /** The registered name for this filter */
    const char *name;
    /** The function to call when this filter is invoked. */
    ap_filter_func filter_func;
    /** The type of filter, either AP_FTYPE_CONTENT or AP_FTYPE_CONNECTION.  
     * An AP_FTYPE_CONTENT filter modifies the data based on information 
     * found in the content.  An AP_FTYPE_CONNECTION filter modifies the 
     * data based on the type of connection.
     */
    ap_filter_type ftype;

    /** The next filter_rec in the list */
    struct ap_filter_rec_t *next;
};

/**
 * The representation of a filter chain.  Each request has a list
 * of these structures which are called in turn to filter the data.  Sub
 * requests get an exact copy of the main requests filter chain.
 */
struct ap_filter_t {
     /** The internal representation of this filter.  This includes
      *  the filter's name, type, and the actual function pointer.
     */
    ap_filter_rec_t *frec;

    /** A place to store any data associated with the current filter */
    void *ctx;

    /** The next filter in the chain */
    ap_filter_t *next;

    /** The request_rec associated with the current filter.  If a sub-request
     *  adds filters, then the sub-request is the request associated with the
     *  filter.
     */
    request_rec *r;

    /** The conn_rec associated with the current filter.  This is analogous
     *  to the request_rec, except that it is used for input filtering.
     */
    conn_rec *c;
};

/**
 * Get the current bucket brigade from the next filter on the filter
 * stack.  The filter returns an apr_status_t value.  If the bottom-most 
 * filter doesn't read from the network, then ::AP_NOBODY_READ is returned.
 * @param filter The next filter in the chain
 * @param bucket The current bucket brigade
 * @param mode   The way in which the data should be read
 * @param block  How the operations should be performed
 *               ::APR_BLOCK_READ, ::APR_NONBLOCK_READ
 * @param readbytes How many bytes to read from the next filter.
 */
AP_DECLARE(apr_status_t) ap_get_brigade(ap_filter_t *filter, 
                                        apr_bucket_brigade *bucket, 
                                        ap_input_mode_t mode,
                                        apr_read_type_e block, 
                                        apr_off_t readbytes);

/**
 * Pass the current bucket brigade down to the next filter on the filter
 * stack.  The filter returns an apr_status_t value.  If the bottom-most 
 * filter doesn't write to the network, then ::AP_NOBODY_WROTE is returned.
 * @param filter The next filter in the chain
 * @param bucket The current bucket brigade
 */
AP_DECLARE(apr_status_t) ap_pass_brigade(ap_filter_t *filter, apr_bucket_brigade *bucket);

/**
 * This function is used to register an input filter with the system. 
 * After this registration is performed, then a filter may be added 
 * into the filter chain by using ap_add_input_filter() and simply 
 * specifying the name.
 *
 * @param name The name to attach to the filter function
 * @param filter_func The filter function to name
 * @param ftype The type of filter function, either ::AP_FTYPE_CONTENT or ::
 *        AP_FTYPE_CONNECTION
 * @see add_input_filter()
 */
AP_DECLARE(ap_filter_rec_t *) ap_register_input_filter(const char *name,
					  ap_in_filter_func filter_func,
					  ap_filter_type ftype);
/**
 * This function is used to register an output filter with the system. 
 * After this registration is performed, then a filter may be added 
 * into the filter chain by using ap_add_output_filter() and simply 
 * specifying the name.
 *
 * @param name The name to attach to the filter function
 * @param filter_func The filter function to name
 * @param ftype The type of filter function, either ::AP_FTYPE_CONTENT or
 *              ::AP_FTYPE_CONNECTION
 * @see ap_add_output_filter()
 */
AP_DECLARE(ap_filter_rec_t *) ap_register_output_filter(const char *name,
					    ap_out_filter_func filter_func,
					    ap_filter_type ftype);

/**
 * Adds a named filter into the filter chain on the specified request record.
 * The filter will be installed with the specified context pointer.
 *
 * Filters added in this way will always be placed at the end of the filters
 * that have the same type (thus, the filters have the same order as the
 * calls to ap_add_filter). If the current filter chain contains filters
 * from another request, then this filter will be added before those other
 * filters.
 * 
 * To re-iterate that last comment.  This function is building a FIFO
 * list of filters.  Take note of that when adding your filter to the chain.
 *
 * @param name The name of the filter to add
 * @param r The request to add this filter for (or NULL if it isn't associated with a request)
 * @param c The connection to add the fillter for
 */
AP_DECLARE(ap_filter_t *) ap_add_input_filter(const char *name, void *ctx,
					      request_rec *r, conn_rec *c);

/**
 * Variant of ap_add_input_filter() that accepts a registered filter handle
 * (as returned by ap_register_input_filter()) rather than a filter name
 *
 * @param name The filter to add
 * @param r The request to add this filter for (or NULL if it isn't associated with a request)
 * @param c The connection to add the fillter for
 */
AP_DECLARE(ap_filter_t *) ap_add_input_filter_handle(ap_filter_rec_t *f,
                                                     void *ctx,
                                                     request_rec *r,
                                                     conn_rec *c);

/**
 * Add a filter to the current request.  Filters are added in a FIFO manner.
 * The first filter added will be the first filter called.
 * @param name The name of the filter to add
 * @param ctx Context data to set in the filter
 * @param r The request to add this filter for (or NULL if it isn't associated with a request)
 * @param c The connection to add this filter for
 */
AP_DECLARE(ap_filter_t *) ap_add_output_filter(const char *name, void *ctx, 
					       request_rec *r, conn_rec *c);

/**
 * Variant of ap_add_output_filter() that accepts a registered filter handle
 * (as returned by ap_register_output_filter()) rather than a filter name
 *
 * @param name The filter to add
 * @param r The request to add this filter for (or NULL if it isn't associated with a request)
 * @param c The connection to add the fillter for
 */
AP_DECLARE(ap_filter_t *) ap_add_output_filter_handle(ap_filter_rec_t *f,
                                                      void *ctx,
                                                      request_rec *r,
                                                      conn_rec *c);

/**
 * Remove an input filter from either the request or connection stack
 * it is associated with.
 * @param f The filter to remove
 */

AP_DECLARE(void) ap_remove_input_filter(ap_filter_t *f);

/**
 * Remove an output filter from either the request or connection stack
 * it is associated with.
 * @param f The filter to remove
 */

AP_DECLARE(void) ap_remove_output_filter(ap_filter_t *f);

/* The next two filters are for abstraction purposes only.  They could be
 * done away with, but that would require that we break modules if we ever
 * want to change our filter registration method.  The basic idea, is that
 * all filters have a place to store data, the ctx pointer.  These functions
 * fill out that pointer with a bucket brigade, and retrieve that data on
 * the next call.  The nice thing about these functions, is that they
 * automatically concatenate the bucket brigades together for you.  This means
 * that if you have already stored a brigade in the filters ctx pointer, then
 * when you add more it will be tacked onto the end of that brigade.  When
 * you retrieve data, if you pass in a bucket brigade to the get function,
 * it will append the current brigade onto the one that you are retrieving.
 */

/**
 * prepare a bucket brigade to be setaside.  If a different brigade was 
 * set-aside earlier, then the two brigades are concatenated together.
 * @param f The current filter
 * @param save_to The brigade that was previously set-aside.  Regardless, the
 *             new bucket brigade is returned in this location.
 * @param b The bucket brigade to save aside.  This brigade is always empty
 *          on return
 * @param p Ensure that all data in the brigade lives as long as this pool
 */
AP_DECLARE(apr_status_t) ap_save_brigade(ap_filter_t *f, apr_bucket_brigade **save_to,
                                         apr_bucket_brigade **b, apr_pool_t *p);    

/**
 * Flush function for apr_brigade_* calls.  This calls ap_pass_brigade
 * to flush the brigade if the brigade buffer overflows.
 * @param bb The brigade to flush
 * @param ctx The filter to pass the brigade to
 */
AP_DECLARE_NONSTD(apr_status_t) ap_filter_flush(apr_bucket_brigade *bb, void *ctx);

/**
 * Flush the current brigade down the filter stack.
 * @param f The current filter
 * @param bb The brigade to flush
 */
AP_DECLARE(apr_status_t) ap_fflush(ap_filter_t *f, apr_bucket_brigade *bb);

/**
 * Write a buffer for the current filter, buffering if possible.
 * @param f the filter doing the writing
 * @param bb The brigade to buffer into
 * @param data The data to write
 * @param nbyte The number of bytes in the data
 */
#define ap_fwrite(f, bb, data, nbyte) \
	apr_brigade_write(bb, ap_filter_flush, f, data, nbyte)

/**
 * Write a buffer for the current filter, buffering if possible.
 * @param f the filter doing the writing
 * @param bb The brigade to buffer into
 * @param str The string to write
 */
#define ap_fputs(f, bb, str) \
	apr_brigade_puts(bb, ap_filter_flush, f, str)

/**
 * Write a character for the current filter, buffering if possible.
 * @param f the filter doing the writing
 * @param bb The brigade to buffer into
 * @param c The character to write
 */
#define ap_fputc(f, bb, c) \
	apr_brigade_putc(bb, ap_filter_flush, f, c)

/**
 * Write an unspecified number of strings to the current filter
 * @param f the filter doing the writing
 * @param bb The brigade to buffer into
 * @param ... The strings to write
 */
AP_DECLARE_NONSTD(apr_status_t) ap_fputstrs(ap_filter_t *f,
                                            apr_bucket_brigade *bb,
                                            ...);

/**
 * Output data to the filter in printf format
 * @param f the filter doing the writing
 * @param bb The brigade to buffer into
 * @param fmt The format string
 * @param ... The argumets to use to fill out the format string
 */
AP_DECLARE_NONSTD(apr_status_t) ap_fprintf(ap_filter_t *f,
                                           apr_bucket_brigade *bb,
                                           const char *fmt,
                                           ...)
        __attribute__((format(printf,3,4)));                                    

#ifdef __cplusplus
}
#endif

#endif	/* !AP_FILTER_H */