/* dlfcn.cc This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include #include #include #include #include "path.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "perprocess.h" #include "dlfcn.h" #include "cygtls.h" #include "tls_pbuf.h" #include "ntdll.h" #include "shared_info.h" #include "pathfinder.h" /* Dumb allocator using memory from tmp_pathbuf.w_get (). Does not reuse free'd memory areas. Instead, memory is released when the tmp_pathbuf goes out of scope. ATTENTION: Requesting memory from an instance of tmp_pathbuf breaks when another instance on a newer stack frame has provided memory. */ class tmp_pathbuf_allocator : public allocator_interface { tmp_pathbuf & tp_; union { PWCHAR wideptr; void * voidptr; char * byteptr; } freemem_; size_t freesize_; /* allocator_interface */ virtual void * alloc (size_t need) { if (need == 0) need = 1; /* GNU-ish */ size_t chunksize = NT_MAX_PATH * sizeof (WCHAR); if (need > chunksize) api_fatal ("temporary buffer too small for %d bytes", need); if (need > freesize_) { /* skip remaining, use next chunk */ freemem_.wideptr = tp_.w_get (); freesize_ = chunksize; } void * ret = freemem_.voidptr; /* adjust remaining, aligned at 8 byte boundary */ need = need + 7 - (need - 1) % 8; freemem_.byteptr += need; if (need > freesize_) freesize_ = 0; else freesize_ -= need; return ret; } /* allocator_interface */ virtual void free (void *) { /* no-op: released by tmp_pathbuf at end of scope */ } tmp_pathbuf_allocator (); tmp_pathbuf_allocator (tmp_pathbuf_allocator const &); tmp_pathbuf_allocator & operator = (tmp_pathbuf_allocator const &); public: /* use tmp_pathbuf of current stack frame */ tmp_pathbuf_allocator (tmp_pathbuf & tp) : allocator_interface () , tp_ (tp) , freemem_ () , freesize_ (0) {} }; static void set_dl_error (const char *str) { strcpy (_my_tls.locals.dl_buffer, strerror (get_errno ())); _my_tls.locals.dl_error = 1; } /* Identify basename and baselen within name, return true if there is a dir in name. */ static bool spot_basename (const char * &basename, int &baselen, const char * name) { basename = strrchr (name, '/'); basename = basename ? basename + 1 : name; baselen = name + strlen (name) - basename; return basename > name; } /* Setup basenames using basename and baselen, return true if basenames do have some suffix. */ static void collect_basenames (pathfinder::basenamelist & basenames, const char * basename, int baselen) { /* like strrchr (basename, '.'), but limited to baselen */ const char *suffix = basename + baselen; while (--suffix >= basename) if (*suffix == '.') break; int suffixlen; if (suffix >= basename) suffixlen = basename + baselen - suffix; else { suffixlen = 0; suffix = NULL; } char const * ext = ""; /* Without some suffix, reserve space for a trailing dot to override GetModuleHandleExA's automatic adding of the ".dll" suffix. */ int extlen = suffix ? 0 : 1; /* If we have the ".so" suffix, ... */ if (suffixlen == 3 && !strncmp (suffix, ".so", 3)) { /* ... keep the basename with original suffix, before ... */ basenames.appendv (basename, baselen, NULL); /* ... replacing the ".so" with the ".dll" suffix. */ baselen -= 3; ext = ".dll"; extlen = 4; } /* If the basename starts with "lib", ... */ if (!strncmp (basename, "lib", 3)) { /* ... replace "lib" with "cyg", before ... */ basenames.appendv ("cyg", 3, basename+3, baselen-3, ext, extlen, NULL); } /* ... using original basename with new suffix. */ basenames.appendv (basename, baselen, ext, extlen, NULL); } /* Identify dir of current executable into exedirbuf using wpathbuf buffer. Return length of exedirbuf on success, or zero on error. */ static int get_exedir (char * exedirbuf, wchar_t * wpathbuf) { /* Unless we have a special cygwin loader, there is no such thing like DT_RUNPATH on Windows we can use to search for dlls, except for the directory of the main executable. */ *exedirbuf = '\0'; wchar_t * wlastsep = wcpcpy (wpathbuf, global_progname); /* like wcsrchr(L'\\'), but we know the wcslen already */ while (--wlastsep > wpathbuf) if (*wlastsep == L'\\') break; if (wlastsep <= wpathbuf) return 0; *wlastsep = L'\0'; if (mount_table->conv_to_posix_path (wpathbuf, exedirbuf, 0)) return 0; return strlen (exedirbuf); } extern "C" void * dlopen (const char *name, int flags) { void *ret = NULL; do { if (name == NULL || *name == '\0') { ret = (void *) GetModuleHandle (NULL); /* handle for the current module */ if (!ret) __seterrno (); break; } DWORD gmheflags = (flags & RTLD_NODELETE) ? GET_MODULE_HANDLE_EX_FLAG_PIN : 0; tmp_pathbuf tp; /* single one per stack frame */ tmp_pathbuf_allocator allocator (tp); pathfinder::basenamelist basenames (allocator); const char *basename; int baselen; bool have_dir = spot_basename (basename, baselen, name); collect_basenames (basenames, basename, baselen); /* handle for the named library */ path_conv real_filename; wchar_t *wpath = tp.w_get (); char *cpath = tp.c_get (); pathfinder finder (allocator, basenames); /* eats basenames */ if (have_dir) { int dirlen = basename - 1 - name; /* if the specified dir is x/lib, and the current executable dir is x/bin, do the /lib -> /bin mapping, which is the same actually as adding the executable dir */ if (dirlen >= 4 && !strncmp (name + dirlen - 4, "/lib", 4)) { int exedirlen = get_exedir (cpath, wpath); if (exedirlen == dirlen && !strncmp (cpath, name, dirlen - 4) && !strcmp (cpath + dirlen - 4, "/bin")) finder.add_searchdir (cpath, exedirlen); } /* search the specified dir */ finder.add_searchdir (name, dirlen); } else { /* NOTE: The Windows loader (for linked dlls) does not use the LD_LIBRARY_PATH environment variable. */ finder.add_envsearchpath ("LD_LIBRARY_PATH"); /* Finally we better have some fallback. */ finder.add_searchdir ("/usr/bin", 8); finder.add_searchdir ("/usr/lib", 8); } /* now search the file system */ if (!finder.find (pathfinder:: exists_and_not_dir (real_filename, PC_SYM_FOLLOW | PC_POSIX))) { /* If nothing worked, create a relative path from the original incoming filename and let LoadLibrary search for it using the system default DLL search path. */ real_filename.check (name, PC_SYM_FOLLOW | PC_NOFULL | PC_NULLEMPTY); if (real_filename.error) break; } real_filename.get_wide_win32_path (wpath); /* Check if the last path component contains a dot. If so, leave the filename alone. Otherwise add a trailing dot to override LoadLibrary's automatic adding of a ".dll" suffix. */ wchar_t *last_bs = wcsrchr (wpath, L'\\') ?: wpath; if (last_bs && !wcschr (last_bs, L'.')) wcscat (last_bs, L"."); if (flags & RTLD_NOLOAD) { GetModuleHandleExW (gmheflags, wpath, (HMODULE *) &ret); if (ret) break; } #ifndef __x86_64__ /* Workaround for broken DLLs built against Cygwin versions 1.7.0-49 up to 1.7.0-57. They override the cxx_malloc pointer in their DLL initialization code even if loaded dynamically. This is a no-no since a later dlclose lets cxx_malloc point into nirvana. The below kludge "fixes" that by reverting the original cxx_malloc pointer after LoadLibrary. This implies that their overrides won't be applied; that's OK. All overrides should be present at final link time, as Windows doesn't allow undefined references; it would actually be wrong for a dlopen'd DLL to opportunistically override functions in a way that wasn't known then. We're not going to try and reproduce the full ELF dynamic loader here! */ /* Store original cxx_malloc pointer. */ struct per_process_cxx_malloc *tmp_malloc; tmp_malloc = __cygwin_user_data.cxx_malloc; #endif ret = (void *) LoadLibraryW (wpath); #ifndef __x86_64__ /* Restore original cxx_malloc pointer. */ __cygwin_user_data.cxx_malloc = tmp_malloc; #endif if (ret && gmheflags) GetModuleHandleExW (gmheflags, wpath, (HMODULE *) &ret); if (!ret) __seterrno (); } while (0); if (!ret) set_dl_error ("dlopen"); debug_printf ("ret %p", ret); return ret; } extern "C" void * dlsym (void *handle, const char *name) { void *ret = NULL; if (handle == RTLD_DEFAULT) { /* search all modules */ PDEBUG_BUFFER buf; NTSTATUS status; buf = RtlCreateQueryDebugBuffer (0, FALSE); if (!buf) { set_errno (ENOMEM); set_dl_error ("dlsym"); return NULL; } status = RtlQueryProcessDebugInformation (GetCurrentProcessId (), PDI_MODULES, buf); if (!NT_SUCCESS (status)) __seterrno_from_nt_status (status); else { PDEBUG_MODULE_ARRAY mods = (PDEBUG_MODULE_ARRAY) buf->ModuleInformation; for (ULONG i = 0; i < mods->Count; ++i) if ((ret = (void *) GetProcAddress ((HMODULE) mods->Modules[i].Base, name))) break; if (!ret) set_errno (ENOENT); } RtlDestroyQueryDebugBuffer (buf); } else { ret = (void *) GetProcAddress ((HMODULE) handle, name); if (!ret) __seterrno (); } if (!ret) set_dl_error ("dlsym"); debug_printf ("ret %p", ret); return ret; } extern "C" int dlclose (void *handle) { int ret; if (handle == GetModuleHandle (NULL)) ret = 0; else if (FreeLibrary ((HMODULE) handle)) ret = 0; else ret = -1; if (ret) set_dl_error ("dlclose"); return ret; } extern "C" char * dlerror () { char *res; if (!_my_tls.locals.dl_error) res = NULL; else { _my_tls.locals.dl_error = 0; res = _my_tls.locals.dl_buffer; } return res; } extern "C" int dladdr (const void *addr, Dl_info *info) { HMODULE hModule; BOOL ret = GetModuleHandleEx (GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, (LPCSTR) addr, &hModule); if (!ret) return 0; /* Module handle happens to be equal to it's base load address. */ info->dli_fbase = hModule; /* Get the module filename. This pathname may be in short-, long- or //?/ format, depending on how it was specified when loaded, but we assume this is always an absolute pathname. */ WCHAR fname[MAX_PATH]; DWORD length = GetModuleFileNameW (hModule, fname, MAX_PATH); if ((length == 0) || (length == MAX_PATH)) return 0; /* Convert to a cygwin pathname */ ssize_t conv = cygwin_conv_path (CCP_WIN_W_TO_POSIX | CCP_ABSOLUTE, fname, info->dli_fname, MAX_PATH); if (conv) return 0; /* Always indicate no symbol matching addr could be found. */ info->dli_sname = NULL; info->dli_saddr = NULL; return 1; }