/* dso_win32.c -*- mode:C; c-file-style: "eay" -*- */ /* * Written by Geoff Thorpe (geoff@geoffthorpe.net) for the OpenSSL project * 2000. */ /* ==================================================================== * Copyright (c) 2000 The OpenSSL Project. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * 3. All advertising materials mentioning features or use of this * software must display the following acknowledgment: * "This product includes software developed by the OpenSSL Project * for use in the OpenSSL Toolkit. (http://www.OpenSSL.org/)" * * 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to * endorse or promote products derived from this software without * prior written permission. For written permission, please contact * licensing@OpenSSL.org. * * 5. Products derived from this software may not be called "OpenSSL" * nor may "OpenSSL" appear in their names without prior written * permission of the OpenSSL Project. * * 6. Redistributions of any form whatsoever must retain the following * acknowledgment: * "This product includes software developed by the OpenSSL Project * for use in the OpenSSL Toolkit (http://www.OpenSSL.org/)" * * THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE OpenSSL PROJECT OR * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. * ==================================================================== * * This product includes cryptographic software written by Eric Young * (eay@cryptsoft.com). This product includes software written by Tim * Hudson (tjh@cryptsoft.com). * */ #include #include #include "cryptlib.h" #include #if !defined(DSO_WIN32) DSO_METHOD *DSO_METHOD_win32(void) { return NULL; } #else # ifdef _WIN32_WCE # if _WIN32_WCE < 300 static FARPROC GetProcAddressA(HMODULE hModule, LPCSTR lpProcName) { WCHAR lpProcNameW[64]; int i; for (i = 0; lpProcName[i] && i < 64; i++) lpProcNameW[i] = (WCHAR)lpProcName[i]; if (i == 64) return NULL; lpProcNameW[i] = 0; return GetProcAddressW(hModule, lpProcNameW); } # endif # undef GetProcAddress # define GetProcAddress GetProcAddressA static HINSTANCE LoadLibraryA(LPCSTR lpLibFileName) { WCHAR *fnamw; size_t len_0 = strlen(lpLibFileName) + 1, i; # ifdef _MSC_VER fnamw = (WCHAR *)_alloca(len_0 * sizeof(WCHAR)); # else fnamw = (WCHAR *)alloca(len_0 * sizeof(WCHAR)); # endif if (fnamw == NULL) { SetLastError(ERROR_NOT_ENOUGH_MEMORY); return NULL; } # if defined(_WIN32_WCE) && _WIN32_WCE>=101 if (!MultiByteToWideChar(CP_ACP, 0, lpLibFileName, len_0, fnamw, len_0)) # endif for (i = 0; i < len_0; i++) fnamw[i] = (WCHAR)lpLibFileName[i]; return LoadLibraryW(fnamw); } # endif /* Part of the hack in "win32_load" ... */ # define DSO_MAX_TRANSLATED_SIZE 256 static int win32_load(DSO *dso); static int win32_unload(DSO *dso); static void *win32_bind_var(DSO *dso, const char *symname); static DSO_FUNC_TYPE win32_bind_func(DSO *dso, const char *symname); # if 0 static int win32_unbind_var(DSO *dso, char *symname, void *symptr); static int win32_unbind_func(DSO *dso, char *symname, DSO_FUNC_TYPE symptr); static int win32_init(DSO *dso); static int win32_finish(DSO *dso); static long win32_ctrl(DSO *dso, int cmd, long larg, void *parg); # endif static char *win32_name_converter(DSO *dso, const char *filename); static char *win32_merger(DSO *dso, const char *filespec1, const char *filespec2); static int win32_pathbyaddr(void *addr, char *path, int sz); static void *win32_globallookup(const char *name); static const char *openssl_strnchr(const char *string, int c, size_t len); static DSO_METHOD dso_meth_win32 = { "OpenSSL 'win32' shared library method", win32_load, win32_unload, win32_bind_var, win32_bind_func, /* For now, "unbind" doesn't exist */ # if 0 NULL, /* unbind_var */ NULL, /* unbind_func */ # endif NULL, /* ctrl */ win32_name_converter, win32_merger, NULL, /* init */ NULL, /* finish */ win32_pathbyaddr, win32_globallookup }; DSO_METHOD *DSO_METHOD_win32(void) { return (&dso_meth_win32); } /* * For this DSO_METHOD, our meth_data STACK will contain; (i) a pointer to * the handle (HINSTANCE) returned from LoadLibrary(), and copied. */ static int win32_load(DSO *dso) { HINSTANCE h = NULL, *p = NULL; /* See applicable comments from dso_dl.c */ char *filename = DSO_convert_filename(dso, NULL); if (filename == NULL) { DSOerr(DSO_F_WIN32_LOAD, DSO_R_NO_FILENAME); goto err; } h = LoadLibraryA(filename); if (h == NULL) { DSOerr(DSO_F_WIN32_LOAD, DSO_R_LOAD_FAILED); ERR_add_error_data(3, "filename(", filename, ")"); goto err; } p = (HINSTANCE *) OPENSSL_malloc(sizeof(HINSTANCE)); if (p == NULL) { DSOerr(DSO_F_WIN32_LOAD, ERR_R_MALLOC_FAILURE); goto err; } *p = h; if (!sk_void_push(dso->meth_data, p)) { DSOerr(DSO_F_WIN32_LOAD, DSO_R_STACK_ERROR); goto err; } /* Success */ dso->loaded_filename = filename; return (1); err: /* Cleanup ! */ if (filename != NULL) OPENSSL_free(filename); if (p != NULL) OPENSSL_free(p); if (h != NULL) FreeLibrary(h); return (0); } static int win32_unload(DSO *dso) { HINSTANCE *p; if (dso == NULL) { DSOerr(DSO_F_WIN32_UNLOAD, ERR_R_PASSED_NULL_PARAMETER); return (0); } if (sk_void_num(dso->meth_data) < 1) return (1); p = sk_void_pop(dso->meth_data); if (p == NULL) { DSOerr(DSO_F_WIN32_UNLOAD, DSO_R_NULL_HANDLE); return (0); } if (!FreeLibrary(*p)) { DSOerr(DSO_F_WIN32_UNLOAD, DSO_R_UNLOAD_FAILED); /* * We should push the value back onto the stack in case of a retry. */ sk_void_push(dso->meth_data, p); return (0); } /* Cleanup */ OPENSSL_free(p); return (1); } /* * Using GetProcAddress for variables? TODO: Check this out in the Win32 API * docs, there's probably a variant for variables. */ static void *win32_bind_var(DSO *dso, const char *symname) { HINSTANCE *ptr; void *sym; if ((dso == NULL) || (symname == NULL)) { DSOerr(DSO_F_WIN32_BIND_VAR, ERR_R_PASSED_NULL_PARAMETER); return (NULL); } if (sk_void_num(dso->meth_data) < 1) { DSOerr(DSO_F_WIN32_BIND_VAR, DSO_R_STACK_ERROR); return (NULL); } ptr = sk_void_value(dso->meth_data, sk_void_num(dso->meth_data) - 1); if (ptr == NULL) { DSOerr(DSO_F_WIN32_BIND_VAR, DSO_R_NULL_HANDLE); return (NULL); } sym = GetProcAddress(*ptr, symname); if (sym == NULL) { DSOerr(DSO_F_WIN32_BIND_VAR, DSO_R_SYM_FAILURE); ERR_add_error_data(3, "symname(", symname, ")"); return (NULL); } return (sym); } static DSO_FUNC_TYPE win32_bind_func(DSO *dso, const char *symname) { HINSTANCE *ptr; void *sym; if ((dso == NULL) || (symname == NULL)) { DSOerr(DSO_F_WIN32_BIND_FUNC, ERR_R_PASSED_NULL_PARAMETER); return (NULL); } if (sk_void_num(dso->meth_data) < 1) { DSOerr(DSO_F_WIN32_BIND_FUNC, DSO_R_STACK_ERROR); return (NULL); } ptr = sk_void_value(dso->meth_data, sk_void_num(dso->meth_data) - 1); if (ptr == NULL) { DSOerr(DSO_F_WIN32_BIND_FUNC, DSO_R_NULL_HANDLE); return (NULL); } sym = GetProcAddress(*ptr, symname); if (sym == NULL) { DSOerr(DSO_F_WIN32_BIND_FUNC, DSO_R_SYM_FAILURE); ERR_add_error_data(3, "symname(", symname, ")"); return (NULL); } return ((DSO_FUNC_TYPE)sym); } struct file_st { const char *node; int nodelen; const char *device; int devicelen; const char *predir; int predirlen; const char *dir; int dirlen; const char *file; int filelen; }; static struct file_st *win32_splitter(DSO *dso, const char *filename, int assume_last_is_dir) { struct file_st *result = NULL; enum { IN_NODE, IN_DEVICE, IN_FILE } position; const char *start = filename; char last; if (!filename) { DSOerr(DSO_F_WIN32_SPLITTER, DSO_R_NO_FILENAME); /* * goto err; */ return (NULL); } result = OPENSSL_malloc(sizeof(struct file_st)); if (result == NULL) { DSOerr(DSO_F_WIN32_SPLITTER, ERR_R_MALLOC_FAILURE); return (NULL); } memset(result, 0, sizeof(struct file_st)); position = IN_DEVICE; if ((filename[0] == '\\' && filename[1] == '\\') || (filename[0] == '/' && filename[1] == '/')) { position = IN_NODE; filename += 2; start = filename; result->node = start; } do { last = filename[0]; switch (last) { case ':': if (position != IN_DEVICE) { DSOerr(DSO_F_WIN32_SPLITTER, DSO_R_INCORRECT_FILE_SYNTAX); /* * goto err; */ OPENSSL_free(result); return (NULL); } result->device = start; result->devicelen = (int)(filename - start); position = IN_FILE; start = ++filename; result->dir = start; break; case '\\': case '/': if (position == IN_NODE) { result->nodelen = (int)(filename - start); position = IN_FILE; start = ++filename; result->dir = start; } else if (position == IN_DEVICE) { position = IN_FILE; filename++; result->dir = start; result->dirlen = (int)(filename - start); start = filename; } else { filename++; result->dirlen += (int)(filename - start); start = filename; } break; case '\0': if (position == IN_NODE) { result->nodelen = (int)(filename - start); } else { if (filename - start > 0) { if (assume_last_is_dir) { if (position == IN_DEVICE) { result->dir = start; result->dirlen = 0; } result->dirlen += (int)(filename - start); } else { result->file = start; result->filelen = (int)(filename - start); } } } break; default: filename++; break; } } while (last); if (!result->nodelen) result->node = NULL; if (!result->devicelen) result->device = NULL; if (!result->dirlen) result->dir = NULL; if (!result->filelen) result->file = NULL; return (result); } static char *win32_joiner(DSO *dso, const struct file_st *file_split) { int len = 0, offset = 0; char *result = NULL; const char *start; if (!file_split) { DSOerr(DSO_F_WIN32_JOINER, ERR_R_PASSED_NULL_PARAMETER); return (NULL); } if (file_split->node) { len += 2 + file_split->nodelen; /* 2 for starting \\ */ if (file_split->predir || file_split->dir || file_split->file) len++; /* 1 for ending \ */ } else if (file_split->device) { len += file_split->devicelen + 1; /* 1 for ending : */ } len += file_split->predirlen; if (file_split->predir && (file_split->dir || file_split->file)) { len++; /* 1 for ending \ */ } len += file_split->dirlen; if (file_split->dir && file_split->file) { len++; /* 1 for ending \ */ } len += file_split->filelen; if (!len) { DSOerr(DSO_F_WIN32_JOINER, DSO_R_EMPTY_FILE_STRUCTURE); return (NULL); } result = OPENSSL_malloc(len + 1); if (!result) { DSOerr(DSO_F_WIN32_JOINER, ERR_R_MALLOC_FAILURE); return (NULL); } if (file_split->node) { strcpy(&result[offset], "\\\\"); offset += 2; strncpy(&result[offset], file_split->node, file_split->nodelen); offset += file_split->nodelen; if (file_split->predir || file_split->dir || file_split->file) { result[offset] = '\\'; offset++; } } else if (file_split->device) { strncpy(&result[offset], file_split->device, file_split->devicelen); offset += file_split->devicelen; result[offset] = ':'; offset++; } start = file_split->predir; while (file_split->predirlen > (start - file_split->predir)) { const char *end = openssl_strnchr(start, '/', file_split->predirlen - (start - file_split->predir)); if (!end) end = start + file_split->predirlen - (start - file_split->predir); strncpy(&result[offset], start, end - start); offset += (int)(end - start); result[offset] = '\\'; offset++; start = end + 1; } # if 0 /* Not needed, since the directory converter * above already appeneded a backslash */ if (file_split->predir && (file_split->dir || file_split->file)) { result[offset] = '\\'; offset++; } # endif start = file_split->dir; while (file_split->dirlen > (start - file_split->dir)) { const char *end = openssl_strnchr(start, '/', file_split->dirlen - (start - file_split->dir)); if (!end) end = start + file_split->dirlen - (start - file_split->dir); strncpy(&result[offset], start, end - start); offset += (int)(end - start); result[offset] = '\\'; offset++; start = end + 1; } # if 0 /* Not needed, since the directory converter * above already appeneded a backslash */ if (file_split->dir && file_split->file) { result[offset] = '\\'; offset++; } # endif strncpy(&result[offset], file_split->file, file_split->filelen); offset += file_split->filelen; result[offset] = '\0'; return (result); } static char *win32_merger(DSO *dso, const char *filespec1, const char *filespec2) { char *merged = NULL; struct file_st *filespec1_split = NULL; struct file_st *filespec2_split = NULL; if (!filespec1 && !filespec2) { DSOerr(DSO_F_WIN32_MERGER, ERR_R_PASSED_NULL_PARAMETER); return (NULL); } if (!filespec2) { merged = OPENSSL_malloc(strlen(filespec1) + 1); if (!merged) { DSOerr(DSO_F_WIN32_MERGER, ERR_R_MALLOC_FAILURE); return (NULL); } strcpy(merged, filespec1); } else if (!filespec1) { merged = OPENSSL_malloc(strlen(filespec2) + 1); if (!merged) { DSOerr(DSO_F_WIN32_MERGER, ERR_R_MALLOC_FAILURE); return (NULL); } strcpy(merged, filespec2); } else { filespec1_split = win32_splitter(dso, filespec1, 0); if (!filespec1_split) { DSOerr(DSO_F_WIN32_MERGER, ERR_R_MALLOC_FAILURE); return (NULL); } filespec2_split = win32_splitter(dso, filespec2, 1); if (!filespec2_split) { DSOerr(DSO_F_WIN32_MERGER, ERR_R_MALLOC_FAILURE); OPENSSL_free(filespec1_split); return (NULL); } /* Fill in into filespec1_split */ if (!filespec1_split->node && !filespec1_split->device) { filespec1_split->node = filespec2_split->node; filespec1_split->nodelen = filespec2_split->nodelen; filespec1_split->device = filespec2_split->device; filespec1_split->devicelen = filespec2_split->devicelen; } if (!filespec1_split->dir) { filespec1_split->dir = filespec2_split->dir; filespec1_split->dirlen = filespec2_split->dirlen; } else if (filespec1_split->dir[0] != '\\' && filespec1_split->dir[0] != '/') { filespec1_split->predir = filespec2_split->dir; filespec1_split->predirlen = filespec2_split->dirlen; } if (!filespec1_split->file) { filespec1_split->file = filespec2_split->file; filespec1_split->filelen = filespec2_split->filelen; } merged = win32_joiner(dso, filespec1_split); } OPENSSL_free(filespec1_split); OPENSSL_free(filespec2_split); return (merged); } static char *win32_name_converter(DSO *dso, const char *filename) { char *translated; int len, transform; len = strlen(filename); transform = ((strstr(filename, "/") == NULL) && (strstr(filename, "\\") == NULL) && (strstr(filename, ":") == NULL)); if (transform) /* We will convert this to "%s.dll" */ translated = OPENSSL_malloc(len + 5); else /* We will simply duplicate filename */ translated = OPENSSL_malloc(len + 1); if (translated == NULL) { DSOerr(DSO_F_WIN32_NAME_CONVERTER, DSO_R_NAME_TRANSLATION_FAILED); return (NULL); } if (transform) sprintf(translated, "%s.dll", filename); else sprintf(translated, "%s", filename); return (translated); } static const char *openssl_strnchr(const char *string, int c, size_t len) { size_t i; const char *p; for (i = 0, p = string; i < len && *p; i++, p++) { if (*p == c) return p; } return NULL; } # include # ifdef _WIN32_WCE # define DLLNAME "TOOLHELP.DLL" # else # ifdef MODULEENTRY32 # undef MODULEENTRY32 /* unmask the ASCII version! */ # endif # define DLLNAME "KERNEL32.DLL" # endif typedef HANDLE(WINAPI *CREATETOOLHELP32SNAPSHOT) (DWORD, DWORD); typedef BOOL(WINAPI *CLOSETOOLHELP32SNAPSHOT) (HANDLE); typedef BOOL(WINAPI *MODULE32) (HANDLE, MODULEENTRY32 *); static int win32_pathbyaddr(void *addr, char *path, int sz) { HMODULE dll; HANDLE hModuleSnap = INVALID_HANDLE_VALUE; MODULEENTRY32 me32; CREATETOOLHELP32SNAPSHOT create_snap; CLOSETOOLHELP32SNAPSHOT close_snap; MODULE32 module_first, module_next; if (addr == NULL) { union { int (*f) (void *, char *, int); void *p; } t = { win32_pathbyaddr }; addr = t.p; } dll = LoadLibrary(TEXT(DLLNAME)); if (dll == NULL) { DSOerr(DSO_F_WIN32_PATHBYADDR, DSO_R_UNSUPPORTED); return -1; } create_snap = (CREATETOOLHELP32SNAPSHOT) GetProcAddress(dll, "CreateToolhelp32Snapshot"); if (create_snap == NULL) { FreeLibrary(dll); DSOerr(DSO_F_WIN32_PATHBYADDR, DSO_R_UNSUPPORTED); return -1; } /* We take the rest for granted... */ # ifdef _WIN32_WCE close_snap = (CLOSETOOLHELP32SNAPSHOT) GetProcAddress(dll, "CloseToolhelp32Snapshot"); # else close_snap = (CLOSETOOLHELP32SNAPSHOT) CloseHandle; # endif module_first = (MODULE32) GetProcAddress(dll, "Module32First"); module_next = (MODULE32) GetProcAddress(dll, "Module32Next"); hModuleSnap = (*create_snap) (TH32CS_SNAPMODULE, 0); if (hModuleSnap == INVALID_HANDLE_VALUE) { FreeLibrary(dll); DSOerr(DSO_F_WIN32_PATHBYADDR, DSO_R_UNSUPPORTED); return -1; } me32.dwSize = sizeof(me32); if (!(*module_first) (hModuleSnap, &me32)) { (*close_snap) (hModuleSnap); FreeLibrary(dll); DSOerr(DSO_F_WIN32_PATHBYADDR, DSO_R_FAILURE); return -1; } do { if ((BYTE *) addr >= me32.modBaseAddr && (BYTE *) addr < me32.modBaseAddr + me32.modBaseSize) { (*close_snap) (hModuleSnap); FreeLibrary(dll); # ifdef _WIN32_WCE # if _WIN32_WCE >= 101 return WideCharToMultiByte(CP_ACP, 0, me32.szExePath, -1, path, sz, NULL, NULL); # else { int i, len = (int)wcslen(me32.szExePath); if (sz <= 0) return len + 1; if (len >= sz) len = sz - 1; for (i = 0; i < len; i++) path[i] = (char)me32.szExePath[i]; path[len++] = 0; return len; } # endif # else { int len = (int)strlen(me32.szExePath); if (sz <= 0) return len + 1; if (len >= sz) len = sz - 1; memcpy(path, me32.szExePath, len); path[len++] = 0; return len; } # endif } } while ((*module_next) (hModuleSnap, &me32)); (*close_snap) (hModuleSnap); FreeLibrary(dll); return 0; } static void *win32_globallookup(const char *name) { HMODULE dll; HANDLE hModuleSnap = INVALID_HANDLE_VALUE; MODULEENTRY32 me32; CREATETOOLHELP32SNAPSHOT create_snap; CLOSETOOLHELP32SNAPSHOT close_snap; MODULE32 module_first, module_next; FARPROC ret = NULL; dll = LoadLibrary(TEXT(DLLNAME)); if (dll == NULL) { DSOerr(DSO_F_WIN32_GLOBALLOOKUP, DSO_R_UNSUPPORTED); return NULL; } create_snap = (CREATETOOLHELP32SNAPSHOT) GetProcAddress(dll, "CreateToolhelp32Snapshot"); if (create_snap == NULL) { FreeLibrary(dll); DSOerr(DSO_F_WIN32_GLOBALLOOKUP, DSO_R_UNSUPPORTED); return NULL; } /* We take the rest for granted... */ # ifdef _WIN32_WCE close_snap = (CLOSETOOLHELP32SNAPSHOT) GetProcAddress(dll, "CloseToolhelp32Snapshot"); # else close_snap = (CLOSETOOLHELP32SNAPSHOT) CloseHandle; # endif module_first = (MODULE32) GetProcAddress(dll, "Module32First"); module_next = (MODULE32) GetProcAddress(dll, "Module32Next"); hModuleSnap = (*create_snap) (TH32CS_SNAPMODULE, 0); if (hModuleSnap == INVALID_HANDLE_VALUE) { FreeLibrary(dll); DSOerr(DSO_F_WIN32_GLOBALLOOKUP, DSO_R_UNSUPPORTED); return NULL; } me32.dwSize = sizeof(me32); if (!(*module_first) (hModuleSnap, &me32)) { (*close_snap) (hModuleSnap); FreeLibrary(dll); return NULL; } do { if ((ret = GetProcAddress(me32.hModule, name))) { (*close_snap) (hModuleSnap); FreeLibrary(dll); return ret; } } while ((*module_next) (hModuleSnap, &me32)); (*close_snap) (hModuleSnap); FreeLibrary(dll); return NULL; } #endif /* DSO_WIN32 */