delete app

Change-Id: Id4c572809969ebe89e946e88063eaed262cff3f2
Signed-off-by: hongbotian <hongbo.tianhongbo@huawei.com>

7 files changed, 0 insertions, 876 deletions

diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/APRDesign.html b/rubbos/app/httpd-2.0.64/srclib/apr/docs/APRDesign.html
deleted file mode 100644
index 7d1caeb8..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/APRDesign.html
+++ /dev/null
@@ -1,399 +0,0 @@
-<HTML>
-<HEAD><TITLE>APR Design Document</TITLE></HEAD>
-<BODY>
-<h1>Design of APR</h1>
-
-<p>The Apache Portable Run-time libraries have been designed to provide a common
-interface to low level routines across any platform.  The original goal of APR
-was to combine all code in Apache to one common code base.  This is not the
-correct approach however, so the goal of APR has changed.  There are places 
-where common code is not a good thing.  For example, how to map requests 
-to either threads or processes should be platform specific.  APR's place 
-is now to combine any code that can be safely combined without sacrificing 
-performance.</p>
-
-<p>To this end we have created a set of operations that are required for cross
-platform development.  There may be other types that are desired and those
-will be implemented in the future.</p>
-
-<p>This document will discuss the structure of APR, and how best to contribute
-code to the effort.</p>
-
-<h2>APR On Windows and Netware</h2>
-
-<p>APR on Windows and Netware is different from APR on all other systems, 
-because those platforms don't use autoconf. On Unix, apr_private.h (private to 
-APR) and apr.h (public, used by applications that use APR) are generated by 
-autoconf from acconfig.h and apr.h.in respectively. On Windows (and Netware), 
-apr_private.h and apr.h are created from apr_private.hw (apr_private.hwn) 
-and apr.hw (apr.hwn) respectively.</p>
-
-<p> <strong>
-        If you add code to acconfig.h or tests to configure.in or aclocal.m4,
-        please give some thought to whether or not Windows and Netware need 
-	these additions as well.  A general rule of thumb, is that if it is 
-	a feature macro, such as APR_HAS_THREADS, Windows and Netware need it.
-	In other words, if the definition is going to be used in a public APR 
-	header file, such as apr_general.h, Windows needs it.
-        
-        The only time it is safe to add a macro or test without also adding 
-        the macro to apr*.h[n]w, is if the macro tells APR how to build.  For
-        example, a test for a header file does not need to be added to Windows.
-</strong></p>
-
-<h2>APR Features</h2>
-
-<p>One of the goals of APR is to provide a common set of features across all 
-platforms.  This is an admirable goal, it is also not realistic.  We cannot
-expect to be able to implement ALL features on ALL platforms.  So we are
-going to do the next best thing.  Provide a common interface to ALL APR 
-features on MOST platforms.</p>
-
-<p>APR developers should create FEATURE MACROS for any feature that is not
-available on ALL platforms.  This should be a simple definition which has
-the form:</p>
-
-<code>APR_HAS_FEATURE</code>
-
-<p>This macro should evaluate to true if APR has this feature on this platform.
-For example, Linux and Windows have mmap'ed files, and APR is providing an
-interface for mmapp'ing a file.  On both Linux and Windows, APR_HAS_MMAP
-should evaluate to one, and the ap_mmap_* functions should map files into
-memory and return the appropriate status codes.</p>
-
-<p>If your OS of choice does not have mmap'ed files, APR_HAS_MMAP should 
-evaluate to zero, and all ap_mmap_* functions should not be defined.  The 
-second step is a precaution that will allow us to break at compile time if a 
-programmer tries to use unsupported functions.</p>
-
-<h2>APR types</h2>
-
-<p>The base types in APR</p>
-
-<ul>
-<li>dso<br>
-	Shared library routines
-<li>mmap<br>
-	Memory-mapped files
-<li>poll<br>
-	Polling I/O
-<li>time<br>
-	Time
-<li>user<br>
-	Users and groups
-<li>locks<br>
-	Process and thread locks (critical sections)
-<li>shmem<br>
-	Shared memory
-<li>file_io<br>
-	File I/O, including pipes
-<li>atomic<br>
-	Atomic integer operations
-<li>strings<br>
-	String handling routines
-<li>memory<br>
-	Pool-based memory allocation
-<li>passwd<br>
-	Reading passwords from the terminal
-<li>tables<br>
-	Tables and hashes
-<li>network_io<br>
-	Network I/O
-<li>threadproc<br>
-	Threads and processes
-<li>misc<br>
-	Any APR type which doesn't have any other place to belong.  This
-	should be used sparingly.
-<li>support<br>
-	Functions meant to be used across multiple APR types.  This area
-	is for internal functions only.  If a function is exposed, it should
-	not be put here.
-</ul>
-
-<h2>Directory Structure</h2>
-
-<p>Each type has a base directory.  Inside this base directory, are
-subdirectories, which contain the actual code.  These subdirectories are named
-after the platforms the are compiled on.  Unix is also used as a common
-directory.  If the code you are writing is POSIX based, you should look at the
-code in the unix directory.  A good rule of thumb, is that if more than half
-your code needs to be ifdef'ed out, and the structures required for your code
-are substantively different from the POSIX code, you should create a new
-directory.</p>
-
-<p>Currently, the APR code is written for Unix, BeOS, Windows, and OS/2.  An
-example of the directory structure is the file I/O directory:</p>
-
-<pre>
-apr
-  |
-   ->  file_io
-          |
-           -> unix            The Unix and common base code
-          |
-           -> win32           The Windows code
-          | 
-           -> os2             The OS/2 code
-</pre>
-
-<p>Obviously, BeOS does not have a directory.  This is because BeOS is currently
-using the Unix directory for it's file_io.</p>
-
-<p>There are a few special top level directories.  These are test and include.
-Test is a directory which stores all test programs.  It is expected
-that if a new type is developed, there will also be a new test program, to
-help people port this new type to different platforms.  A small document
-describing how to create new tests that integrate with the test suite can be
-found in the test/ directory.  Include is a directory which stores all 
-required APR header files for external use.</p>
-
-<h2>Creating an APR Type</h2>
-
-<p>The current design of APR requires that most APR types be incomplete.  
-It is not possible to write flexible portable code if programs can access 
-the internals of APR types.  This is because different platforms are 
-likely to define different native types.  There are only two execptions to
-this rule:</p>
-
-<ul>
-<li>The first exception to this rule is if the type can only reasonably be 
-implemented one way.  For example, time is a complete type because there 
-is only one reasonable time implementation.
-
-<li>The second exception to the incomplete type rule can be found in 
-apr_portable.h.  This file defines the native types for each platform.  
-Using these types, it is possible to extract native types for any APR type.</p>
-</ul>
-
-<p>For this reason, each platform defines a structure in their own directories. 
-Those structures are then typedef'ed in an external header file.  For example
-in file_io/unix/fileio.h:</p>
-
-<pre>
-    struct ap_file_t {
-        apr_pool_t *cntxt;
-        int filedes;
-        FILE *filehand;
-        ...
-    }
-</pre>
-
-<p>In include/apr_file_io.h:</p>
-    </pre>
-    typedef struct ap_file_t    ap_file_t;
-    </pre>
-
-<p> This will cause a compiler error if somebody tries to access the filedes 
-field in this structure.  Windows does not have a filedes field, so obviously, 
-it is important that programs not be able to access these.</p>
-
-<p>You may notice the apr_pool_t field.  Most APR types have this field.  This
-type is used to allocate memory within APR.  Because every APR type has a pool,
-any APR function can allocate memory if it needs to.  This is very important
-and it is one of the reasons that APR works.  If you create a new type, you
-must add a pool to it.  If you do not, then all functions that operate on that
-type will need a pool argument.</p>
-
-<h2>New Function</h2>
-
-<p>When creating a new function, please try to adhere to these rules.</p>
-
-<ul>
-<li>  Result arguments should be the first arguments.
-<li>  If a function needs a pool, it should be the last argument.
-<li>  These rules are flexible, especially if it makes the code easier
-      to understand because it mimics a standard function.
-</ul>
-
-<h2>Documentation</h2>
-
-<p>Whenever a new function is added to APR, it MUST be documented.  New 
-functions will not be committed unless there are docs to go along with them.
-The documentation should be a comment block above the function in the header
-file.</p>
-
-<p>The format for the comment block is:</p>
-
-<pre>
-    /**
-     * Brief description of the function
-     * @param parma_1_name explanation
-     * @param parma_2_name explanation
-     * @param parma_n_name explanation
-     * @tip Any extra information people should know.
-     * @deffunc function prototype if required
-     */ 
-</pre>
-
-<p>For an actual example, look at any file in the include directory.  The 
-reason the docs are in the header files is to ensure that the docs always
-reflect the current code.  If you change paramters or return values for a 
-function, please be sure to update the documentation.</p>
-
-<h2>APR Error reporting</h2>
-
-<p>Most APR functions should return an ap_status_t type.  The only time an
-APR function does not return an ap_status_t is if it absolutely CAN NOT
-fail.  Examples of this would be filling out an array when you know you are
-not beyond the array's range.  If it cannot fail on your platform, but it
-could conceivably fail on another platform, it should return an ap_status_t.
-Unless you are sure, return an ap_status_t.</p>
-
-<strong>
-        This includes functions that return TRUE/FALSE values.  How that 
-        is handled is discussed below
-</strong>
-
-<p>All platforms return errno values unchanged.  Each platform can also have
-one system error type, which can be returned after an offset is added.  
-There are five types of error values in APR, each with it's own offset.</p>
-
-<!--  This should be turned into a table, but I am lazy today -->
-<pre>
-    Name			Purpose
-0) 			This is 0 for all platforms and isn't really defined
- 			anywhere, but it is the offset for errno values.
-			(This has no name because it isn't actually defined, 
-                        but for completeness we are discussing it here).
-
-1) APR_OS_START_ERROR	This is platform dependent, and is the offset at which
-			APR errors start to be defined.  Error values are 
-			defined as anything which caused the APR function to 
-			fail.  APR errors in this range should be named 
-			APR_E* (i.e. APR_ENOSOCKET)
-
-2) APR_OS_START_STATUS	This is platform dependent, and is the offset at which
-			APR status values start.  Status values do not indicate
-			success or failure, and should be returned if 
-			APR_SUCCESS does not make sense.  APR status codes in 
-			this range should be name APR_* (i.e. APR_DETACH)
-
-4) APR_OS_START_USEERR	This is platform dependent, and is the offset at which
-			APR apps can begin to add their own error codes.
-
-3) APR_OS_START_SYSERR	This is platform dependent, and is the offset at which
-			system error values begin.
-</pre>
-
-<strong>The difference in naming between APR_OS_START_ERROR and 
-APR_OS_START_STATUS mentioned above allows programmers to easily determine if
-the error code indicates an error condition or a status codition.</strong>
-
-<p>If your function has multiple return codes that all indicate success, but
-with different results, or if your function can only return PASS/FAIL, you 
-should still return an apr_status_t.  In the first case, define one
-APR status code for each return value, an example of this is
-<code>apr_proc_wait</code>, which can only return APR_CHILDDONE, 
-APR_CHILDNOTDONE, or an error code.  In the second case, please return 
-APR_SUCCESS for PASS, and define a new APR status code for failure, an 
-example of this is <code>apr_compare_users</code>, which can only return
-APR_SUCCESS, APR_EMISMATCH, or an error code.</p>
-
-<p>All of these definitions can be found in apr_errno.h for all platforms.  When
-an error occurs in an APR function, the function must return an error code.
-If the error occurred in a system call and that system call uses errno to
-report an error, then the code is returned unchanged.  For example: </p>
-
-<pre>
-    if (open(fname, oflags, 0777) < 0)
-        return errno;
-</pre>
-
-<p>The next place an error can occur is a system call that uses some error value
-other than the primary error value on a platform.  This can also be handled
-by APR applications.  For example:</p>
-
-<pre>
-    if (CreateFile(fname, oflags, sharemod, NULL, 
-                   createflags, attributes, 0) == INVALID_HANDLE_VALUE
-        return (GetLAstError() + APR_OS_START_SYSERR);
-</pre>
-
-<p>These two examples implement the same function for two different platforms.
-Obviously even if the underlying problem is the same on both platforms, this
-will result in two different error codes being returned.  This is OKAY, and
-is correct for APR.  APR relies on the fact that most of the time an error
-occurs, the program logs the error and continues, it does not try to
-programatically solve the problem.  This does not mean we have not provided
-support for programmatically solving the problem, it just isn't the default
-case.  We'll get to how this problem is solved in a little while.</p>
-
-<p>If the error occurs in an APR function but it is not due to a system call,
-but it is actually an APR error or just a status code from APR, then the
-appropriate code should be returned.  These codes are defined in apr_errno.h
-and should be self explanatory.</p>
-
-<p>No APR code should ever return a code between APR_OS_START_USEERR and 
-APR_OS_START_SYSERR, those codes are reserved for APR applications.</p>
-
-<p>To programmatically correct an error in a running application, the error 
-codes need to be consistent across platforms.  This should make sense.  APR
-has provided macros to test for status code equivalency.  For example, to
-determine if the code that you received from the APR function means EOF, you
-would use the macro APR_STATUS_IS_EOF().</p>
-
-<p>Why did APR take this approach?  There are two ways to deal with error 
-codes portably.</p>
-
-<ol type=1>
-<li>  Return the same error code across all platforms.
-<li>  Return platform specific error codes and convert them when necessary.  
-</ol>
-
-<p>The problem with option number one is that it takes time to convert error 
-codes to a common code, and most of the time programs want to just output 
-an error string.  If we convert all errors to a common subset, we have four 
-steps to output an error string:</p>
-
-<p>The seocnd problem with option 1, is that it is a lossy conversion.  For
-example, Windows and OS/2 have a couple hundred error codes, but POSIX errno
-only defines about 50 errno values.  This means that if we convert to a
-canonical error value immediately, there is no way for the programmer to
-get the actual system error.</p>
-
-<pre>
-    make syscall that fails
-        convert to common error code                 step 1
-        return common error code
-            check for success
-            call error output function               step 2
-                convert back to system error         step 3
-                output error string                  step 4
-</pre>
-
-<p>By keeping the errors platform specific, we can output error strings in two
-steps.</p>
-
-<pre>
-    make syscall that fails
-        return error code
-            check for success
-            call error output function               step 1
-                output error string                  step 2
-</pre>
-
-<p>Less often, programs change their execution based on what error was returned.
-This is no more expensive using option 2 than it is using option 1, but we
-put the onus of converting the error code on the programmer themselves.
-For example, using option 1:</p>
-
-<pre>
-    make syscall that fails
-        convert to common error code
-        return common error code
-            decide execution based on common error code
-</pre>
-
-<p>Using option 2:</p>
-    
-<pre>
-    make syscall that fails
-        return error code
-            convert to common error code (using ap_canonical_error)
-            decide execution based on common error code
-</pre>
-
-<p>Finally, there is one more operation on error codes.  You can get a string
-that explains in human readable form what has happened.  To do this using 
-APR, call ap_strerror().</p>
-
diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/canonical_filenames.html b/rubbos/app/httpd-2.0.64/srclib/apr/docs/canonical_filenames.html
deleted file mode 100644
index 10867d37..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/canonical_filenames.html
+++ /dev/null
@@ -1,156 +0,0 @@
-<HTML>
-<HEAD><TITLE>APR Canonical Filenames</TITLE></HEAD>
-<BODY>
-<h1>APR Canonical Filename</h1>
-
-<h2>Requirements</h2>
-
-<p>APR porters need to address the underlying discrepancies between
-file systems.  To achieve a reasonable degree of security, the
-program depending upon APR needs to know that two paths may be
-compared, and that a mismatch is guarenteed to reflect that the
-two paths do not return the same resource</p>.
-
-<p>The first discrepancy is in volume roots.  Unix and pure deriviates
-have only one root path, "/".  Win32 and OS2 share root paths of
-the form "D:/", D: is the volume designation.  However, this can
-be specified as "//./D:/" as well, indicating D: volume of the 
-'this' machine.  Win32 and OS2 also may employ a UNC root path,
-of the form "//server/share/" where share is a share-point of the
-specified network server.  Finally, NetWare root paths are of the
-form "server/volume:/", or the simpler "volume:/" syntax for 'this'
-machine.  All these non-Unix file systems accept volume:path,
-without a slash following the colon, as a path relative to the
-current working directory, which APR will treat as ambigious, that
-is, neither an absolute nor a relative path per se.</p>
-
-<p>The second discrepancy is in the meaning of the 'this' directory.
-In general, 'this' must be eliminated from the path where it occurs.
-The syntax "path/./" and "path/" are both aliases to path.  However,
-this isn't file system independent, since the double slash "//" has
-a special meaning on OS2 and Win32 at the start of the path name,
-and is invalid on those platforms before the "//server/share/" UNC
-root path is completed.  Finally, as noted above, "//./volume/" is
-legal root syntax on WinNT, and perhaps others.</p>
-
-<p>The third discrepancy is in the context of the 'parent' directory.
-When "parent/path/.." occurs, the path must be unwound to "parent".
-It's also critical to simply truncate leading "/../" paths to "/",
-since the parent of the root is root.  This gets tricky on the
-Win32 and OS2 platforms, since the ".." element is invalid before
-the "//server/share/" is complete, and the "//server/share/../"
-seqence is the complete UNC root "//server/share/".  In relative
-paths, leading ".." elements are significant, until they are merged
-with an absolute path.  The relative form must only retain the ".."
-segments as leading segments, to be resolved once merged to another
-relative or an absolute path.</p>
-
-<p>The fourth discrepancy occurs with acceptance of alternate character
-codes for the same element.  Path seperators are not retained within
-the APR canonical forms.  The OS filesystem and APR (slashed) forms
-can both be returned as strings, to be used in the proper context.
-Unix, Win32 and Netware all accept slashes and backslashes as the
-same path seperator symbol, although unix strictly accepts slashes.
-While the APR form of the name strictly uses slashes, always consider
-that there could be a platform that actually accepts slashes as a
-character within a segment name.</p>
-
-<p>The fifth and worst discrepancy plauges Win32, OS2, Netware, and some
-filesystems mounted in Unix.  Case insensitivity can permit the same
-file to slip through in both it's proper case and alternate cases.
-Simply changing the case is insufficient for any character set beyond
-ASCII, since various dilectic forms of characters suffer from one to
-many or many to one translations.  An example would be u-umlaut, which
-might be accepted as a single character u-umlaut, a two character
-sequence u and the zero-width umlaut, the upper case form of the same,
-or perhaps even a captial U alone.  This can be handled in different
-ways depending on the purposes of the APR based program, but the one
-requirement is that the path must be absolute in order to resolve these
-ambiguities.  Methods employed include comparison of device and inode
-file uniqifiers, which is a fairly fast operation, or quering the OS
-for the true form of the name, which can be much slower.  Only the
-acknowledgement of the file names by the OS can validate the equality
-of two different cases of the same filename.</p>
-
-<p>The sixth discrepancy, illegal or insignificant characters, is especially 
-significant in non-unix file systems.  Trailing periods are accepted
-but never stored, therefore trailing periods must be ignored for any
-form of comparison.  And all OS's have certain expectations of what
-characters are illegal (or undesireable due to confusion.)</p>
-
-<p>A final warning, canonical functions don't transform or resolve case
-or character ambiguity issues until they are resolved into an absolute
-path.  The relative canonical path, while useful, while useful for URL
-or similar identifiers, cannot be used for testing or comparison of file 
-system objects.</p>
-
-<hr>
-
-<h2>Canonical API</h2>
-
-Functions to manipulate the apr_canon_file_t (an opaque type) include:
-
-<ul>
-<li>Create canon_file_t (from char* path and canon_file_t parent path)
-<li>Merged canon_file_t (from path and parent, both canon_file_t)
-<li>Get char* path of all or some segments
-<li>Get path flags of IsRelative, IsVirtualRoot, and IsAbsolute
-<li>Compare two canon_file_t structures for file equality
-</ul>
-
-<p>The path is corrected to the file system case only if is in absolute 
-form.  The apr_canon_file_t should be preserved as long as possible and 
-used as the parent to create child entries to reduce the number of expensive 
-stat and case canonicalization calls to the OS.</p>
-
-<p>The comparison operation provides that the APR can postpone correction
-of case by simply relying upon the device and inode for equivilance.  The
-stat implementation provides that two files are the same, while their
-strings are not equivilant, and eliminates the need for the operating
-system to return the proper form of the name.</p>
-
-<p>In any case, returning the char* path, with a flag to request the proper
-case, forces the OS calls to resolve the true names of each segment.  Where
-there is a penality for this operation and the stat device and inode test
-is faster, case correction is postponed until the char* result is requested.
-On platforms that identify the inode, device, or proper name interchangably
-with no penalities, this may occur when the name is initially processed.</p>
-
-<hr>
-
-<h2>Unix Example</h2>
-
-<p>First the simplest case:</p>
-
-<pre>
-Parse Canonical Name 
-accepts parent path as canonical_t
-        this path as string
-
-Split this path Segments on '/'
-
-For each of this path Segments
-  If first Segment
-    If this Segment is Empty ([nothing]/)
-      Append this Root Segment (don't merge)
-      Continue to next Segment
-    Else is relative
-      Append parent Segments (to merge)
-      Continue with this Segment
-  If Segment is '.' or empty (2 slashes)
-    Discard this Segment
-    Continue with next Segment
-  If Segment is '..'
-    If no previous Segment or previous Segment is '..'
-      Append this Segment
-      Continue with next Segment
-    If previous Segment and previous is not Root Segment
-      Discard previous Segment
-    Discard this Segment
-    Continue with next Segment
-  Append this Relative Segment
-  Continue with next Segment        
-</pre>
-
-</BODY>
-</HTML>
\ No newline at end of file
diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/doxygen.conf b/rubbos/app/httpd-2.0.64/srclib/apr/docs/doxygen.conf
deleted file mode 100644
index 2efb5547..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/doxygen.conf
+++ /dev/null
@@ -1,33 +0,0 @@
-PROJECT_NAME="Apache Portable Runtime"
-
-INPUT=.
-QUIET=YES
-RECURSIVE=YES
-FILE_PATTERNS=*.h
-
-OUTPUT_DIRECTORY=docs/dox
-
-MACRO_EXPANSION=YES
-EXPAND_ONLY_PREDEF=YES
-#EXPAND_AS_DEFINED=
-# not sure why this doesn't work as EXPAND_AS_DEFINED, it should!
-PREDEFINED="APR_DECLARE(x)=x" \
-           "APR_DECLARE_NONSTD(x)=x" \
-           "APR_DECLARE_DATA" \
-           "APR_POOL_DECLARE_ACCESSOR(x)=apr_pool_t* apr_##x##_pool_get (const apr_##x##_t *the##x)" \
-           "APR_DECLARE_INHERIT_SET(x)=apr_status_t apr_##x##_inherit_set(apr_##x##_t *the##x)" \
-           "APR_DECLARE_INHERIT_UNSET(x)=apr_status_t apr_##x##_inherit_unset(apr_##x##_t *the##x)" \
-           "APR_HAS_THREADS" \
-           "__attribute__(x)=" \
-           DOXYGEN=
-
-OPTIMIZE_OUTPUT_FOR_C=YES
-
-FULL_PATH_NAMES=NO
-# some autoconf guru needs to make configure set this correctly...
-# in the meantime, simply listing the headers should be alright
-STRIP_FROM_PATH=/buildpath/apr
-
-EXCLUDE_PATTERNS="*/acconfig.h" \
-                 "*/test/*" \
-                 "*/arch/*"
diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/incomplete_types b/rubbos/app/httpd-2.0.64/srclib/apr/docs/incomplete_types
deleted file mode 100644
index cbed7774..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/incomplete_types
+++ /dev/null
@@ -1,84 +0,0 @@
-The question has been asked multiple times, "Why is APR using Incomplete
-types?"  This document will try to explain that.
-
-Incomplete types are used in APR because they can enforce portability, and
-they make the APR developers job easier, as well as allowing APR to use native
-types on all platforms.  Imagine a scenario where APR wasn't using incomplete
-types.  The ap_file_t type would have to be defined as:
-
-typedef struct ap_file_t {
-    ap_pool_t *pool
-    char *fname;
-    int eof_hit;
-    int pipe;
-    ap_interval_time_t timeout;
-#ifdef WIN32
-    HANDLE file_handle;
-    DWORD dwFileAttributes;
-#elif defined(OS2)
-    HFILE filedes;
-    HEV PipeSem
-#else
-    int filedes;
-    int ungetchar;
-#endif
-
-#ifndef WIN32
-    int buffered;
-    ap_int32_flags
-    int isopen;
-   
-    /* Stuff for buffered mode */
-    char *buffer;
-    int bufpos;
-    unsigned long dataRead;
-    int direction;
-    unsigned long filePtr;
-    ap_lock_t *mutex; 
-#endif
-} ap_file_t;
-
-This captures the essense of what is currently being defined for ap_file_t
-using incomplete types.  However, using this structure leads developers to
-believe that they are safe accessing any of the fields in this structure.
-This is not true.  On some platforms, such as Windows, about half of the
-structure disappears.  We could combine some of these definitions with
-macros, for example:
-
-#ifdef WIN32
-#define filetype HANDLE
-#elif OS2
-#define filetype HFILE
-#else
-#define filetype int
-#endif
-
-And then in the defintion for ap_file_t, we could say:
-    filetype filedes;
-
-This gets rid of some of the complexity, by moving it off to the side, but
-it is still not safe for a programmers to access the filedes field directly 
-outside of APR, because the programmer has no way of knowing what the actual 
-type is.  So for example printing the filedes using printf would yield wildly 
-varying results on Windows and OS2 when compared to Unix.
-
-Another option also presents itself.  Stick strictly to POSIX.  This means
-that all code can be shared on any POSIX compliant platform.  The problem
-with this is performance.  One of the benefits to APR, is that it allows
-developers to easily use native types on all platforms with the same code.
-This has proven to provide a substantial performance boost on most non-Unix
-platforms.
-
-Having said all of that, sometimes incomplete types just don't make sense.
-For example, the first implementation of time functions used incomplete types,
-which added a layer of complexity that turned out to be unnecessary.  If
-a platform cannot provide a simple number that represents the number of seconds
-elapsed since a specifed date and time, then APR doesn't really want to 
-provide support for that platform.
-
-APR is trying hard to provide a balance of incomplete and complete types, 
-but like all things, sometimes the developers make mistakes.  If you are
-using APR and find that there is an incomplete type that doesn't need to be
-an incomplete type, please let us know, we are more than willing to listen
-and design parts of APR that do not use incomplete types.
-
diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/non_apr_programs b/rubbos/app/httpd-2.0.64/srclib/apr/docs/non_apr_programs
deleted file mode 100644
index 5003a8bd..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/non_apr_programs
+++ /dev/null
@@ -1,47 +0,0 @@
-How do I use APR'ized programs in connection with programs that don't
-use APR?  These darn incomplete types don't let me fill out the APR types.
-
-The APR developers acknowledge that most programs are not using APR, and
-we don't expect them to migrate to using APR just because APR has been
-released.  So, we have provided a way for non-APR'ized programs to interact
-very cleanly with APR.
-
-There are a set of functions, all documented in apr_portable.h, which allow
-a programmer to either get a native type from an APR type, or to setup an
-APR type from a native type.
-
-For example, if you are writing an add-on to another program that does not use
-APR for file I/O, but you (in your infinite wisdom) want to use APR to make
-sure your section is portable.  Assume the program provides a type foo_t with
-a file descriptor in it (fd).
-
-void function_using_apr(foo_t non_apr_struct, ap_pool_t *p)
-{
-    ap_file_t *apr_file = NULL;
-
-    ap_put_os_file(&apr_file, &non_apr_struct->fd, p);
-
-    ...
-}
-
-There are portable functions for each APR incomplete type.  They are all 
-called ap_put_os_foobar(), and they each take the same basic arguments, a
-pointer to a pointer to the incomplete type (the last pointer in that list 
-should be NULL), a pointer to the native type, and a pool.  Each of these can
-be found in apr_portable.h.
-
-If you have to do the exact opposite (take an APR type and convert it to a 
-native type, there are functions for that too.  For example:
-
-void function_not_using_apr(apr_file_t *apr_file)
-{
-    int unix_file_desc;
-
-    ap_get_os_file(&unix_file_desc, apr_file);
-   
-    ...
-}
-
-For each ap_put_os_foobar, there is a corresponding ap_get_os_file.  These are
-also documented in apr_portable.h.
-
diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/pool-design.html b/rubbos/app/httpd-2.0.64/srclib/apr/docs/pool-design.html
deleted file mode 100644
index d862ff9c..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/pool-design.html
+++ /dev/null
@@ -1,100 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html><head>
-    <title>Using APR Pools</title>
-  </head>
-  <body>
-    <div align="right">
-      Last modified at [$Date: 2004-11-24 23:02:04 +0000 (Wed, 24 Nov 2004) $]
-    </div>
-
-    <h1>Using APR Pools</h1>
-
-    <p>
-      From <a href="http://subversion.tigris.org/">Subversion</a>, we
-      have learned a <em>lot</em> about how to use pools in a heavily
-      structured/object-based environment.
-      <a href="http://httpd.apache.org/">Apache httpd</a> is a
-      completely different beast: "allocate a request pool. use
-      it. destroy it."
-    </p>
-
-    <p>
-      In a complex app, that request-style of behavior is not
-      present. Luckily, the "proper" use of pools can be described in
-      just a few rules:
-    </p>
-
-    <ul>
-      <li>
-        Objects should not have their own pools. An object is
-        allocated into a pool defined by the constructor's caller. The
-        <strong>caller</strong> knows the lifetime of the object and
-        will manage it via the pool. Generally, this also means that
-        objects will not have a "close" or a "free" since those
-        operations will happen implicitly as part of the destruction
-        of the pool the objects live within.
-      </li>
-
-      <li>
-        <p>
-          Functions should not create/destroy pools for their
-          operation; they should use a pool provided by the
-          caller. Again, the <strong>caller</strong> knows more about
-          how the function will be used, how often, how many times,
-          etc. Thus, it should be in charge of the function's memory
-          usage.
-        </p>
-        <p>
-          As an example, the caller might know that the app will exit
-          upon the function's return. Thus, the function would be
-          creating extra work if it built and destroyed a
-          pool. Instead, it should use the passed-in pool, which the
-          caller is going to be tossing as part of app-exit anyways.
-        </p>
-      </li>
-
-      <li>
-        <p>
-          Whenever an unbounded iteration occurs, a subpool should be
-          used. The general pattern is:
-        </p>
-        <blockquote>
-          <pre>
-subpool = apr_create_subpool(pool);
-for (i = 0; i < n; ++i) {
-  apr_pool_clear(subpool);
-
-  do_operation(..., subpool);
-}
-apr_pool_destroy(subpool);</pre>
-        </blockquote>
-        <p>
-          This pattern prevents the 'pool' from growing unbounded and
-          consuming all of memory. Note that it is slightly more
-          optimal to clear the pool on loop-entry. This pattern also
-          allows for a '<tt>continue</tt>' to occur within the loop,
-          yet still ensure the pool will be cleared.
-        </p>
-      </li>
-
-      <li>
-        Given all of the above, it is pretty well mandatory to pass a
-        pool to <em>every</em> function. Since objects are not
-        recording pools for themselves, and the caller is always
-        supposed to be managing memory, then each function needs a
-        pool, rather than relying on some hidden magic pool. In
-        limited cases, objects may record the pool used for their
-        construction so that they can construct sub-parts, but these
-        cases should be examined carefully. Internal pools can lead to
-        unbounded pool usage if the object is not careful.
-      </li>
-    </ul>
-
-    <hr>
-    <address>Greg Stein</address>
-    <!-- Created: Wed Jun 25 14:39:57 PDT 2003 -->
-    <!-- hhmts start -->
-Last modified: Wed Jun 25 14:50:19 PDT 2003
-<!-- hhmts end -->
-
-</body></html>
diff --git a/rubbos/app/httpd-2.0.64/srclib/apr/docs/win32_builds.html b/rubbos/app/httpd-2.0.64/srclib/apr/docs/win32_builds.html
deleted file mode 100644
index ad57d8e1..00000000
--- a/rubbos/app/httpd-2.0.64/srclib/apr/docs/win32_builds.html
+++ /dev/null
@@ -1,57 +0,0 @@
-<HTML>
-<HEAD><TITLE>APR Win32 Builds and Debugging</TITLE></HEAD>
-<BODY>
-<h1>APR Win32 Builds and Debugging</h1>
-
-<h2>Configuration and Flavors</h2>
-
-<p>The Win32 APR Developer Studio projects consist of</p>
-
-<dl>
-  <dt>apr/apr.dsp</dt>
-    <dd>Builds the static apr.lib library (-D APR_DECLARE_STATIC)</dd>
-  <dt>apr/libapr.dsp</dt>
-    <dd>Builds the dynamic libapr.dll library (no define required)</dd>
-  <dt>apr-util/aprutil.dsp</dt>
-    <dd>Builds the static aprutil.lib library (-D APU_DECLARE_STATIC)</dd>
-  <dt>apr-util/libaprutil.dsp</dt>
-    <dd>Builds the dynamic libaprutil.dll library (no define required)</dd>
-  <dt>apr-iconv/apriconv.dsp</dt>
-    <dd>Builds the static apriconv.lib library (-D API_DECLARE_STATIC)</dd>
-  <dt>apr-iconv/libapriconv.dsp</dt>
-    <dd>Builds the dynamic libapriconv.dll library (no define required)</dd>
-</dl>
-
-<p>In order to prepare to use one of the <em>static</em> libraries above, 
-   your application must be compiled with the define shown above, so that the
-   correct linkage is created.  The APR authors intended the use of dynamic
-   libraries by default, so application authors do not need any special
-   defines in order to link to the dynamic library flavors.</p>
-
-<p>In order to build APR, you must use the proper dependencies.  A good
-   example of those dependencies is given in the apr-util/aprutil.dsw
-   Developer Studio workspace.  You can borrow the parts of that structure
-   your application needs, that workspace defines both the dynamic and static
-   library dependencies.</p>
-
-<p>The APR libraries (dynamic and static) are compiled with debugging symbols,
-   even in Release builds.  The dynamic library symbols are always usable,
-   simply keep the correspond .pdb file in the same path as the library .dll.
-   (E.g. both libapr.dll and libapr.pdb should be copied to the same path.)</p>
-
-<p>The static symbols will only be fully usable if your application does <em>not<em>
-   link with the /pdbtype:sept flag!  At the time your application links to
-   an APR library, the corresponding _src.pdb file should exist in the original
-   path the library was built, or it may be sufficient to keep the _src.pdb file
-   in the same path as the library file.  (E.g. apr.lib and apr_src.pdb should
-   reside together in your lib directory.)  The later option is unconfirmed.</p>
-
-<p>In order to keep the symbols compiled into the static library, your application
-   must use the linker's /debug flag.  If you do not want the application to be
-   debuggable with its corresponding .pdb file, omit the /debug flag and all debug
-   symbolic information is discarded.  Note that your application can only be
-   debugged with the corresponding .pdb file created by the linker, unless you use
-   /debugtype:coff or /debugtype:both in your link options.</p>
-
-</BODY>
-</HTML>