1999-12-20 22:18:49 +01:00
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/* Support for dynamic loading of extension modules */
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#include <windows.h>
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#include <direct.h>
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2000-10-05 12:54:45 +02:00
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#include <ctype.h>
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1999-12-20 22:18:49 +01:00
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#include "Python.h"
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#include "importdl.h"
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const struct filedescr _PyImport_DynLoadFiletab[] = {
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#ifdef _DEBUG
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{"_d.pyd", "rb", C_EXTENSION},
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{"_d.dll", "rb", C_EXTENSION},
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#else
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{".pyd", "rb", C_EXTENSION},
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{".dll", "rb", C_EXTENSION},
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#endif
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{0, 0}
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};
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2000-10-05 12:54:45 +02:00
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#ifdef MS_WIN32
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/* Case insensitive string compare, to avoid any dependencies on particular
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C RTL implementations */
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static int strcasecmp (char *string1, char *string2)
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{
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int first, second;
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do {
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first = tolower(*string1);
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second = tolower(*string2);
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string1++;
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string2++;
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} while (first && first == second);
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return (first - second);
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}
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/* Function to return the name of the "python" DLL that the supplied module
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directly imports. Looks through the list of imported modules and
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returns the first entry that starts with "python" (case sensitive) and
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is followed by nothing but numbers until the separator (period).
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Returns a pointer to the import name, or NULL if no matching name was
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located.
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This function parses through the PE header for the module as loaded in
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memory by the system loader. The PE header is accessed as documented by
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Microsoft in the MSDN PE and COFF specification (2/99), and handles
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both PE32 and PE32+. It only worries about the direct import table and
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not the delay load import table since it's unlikely an extension is
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going to be delay loading Python (after all, it's already loaded).
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If any magic values are not found (e.g., the PE header or optional
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header magic), then this function simply returns NULL. */
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#define DWORD_AT(mem) (*(DWORD *)(mem))
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#define WORD_AT(mem) (*(WORD *)(mem))
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static char *GetPythonImport (HINSTANCE hModule)
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{
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unsigned char *dllbase, *import_data, *import_name;
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DWORD pe_offset, opt_offset;
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WORD opt_magic;
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int num_dict_off, import_off;
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/* Safety check input */
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if (hModule == NULL) {
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return NULL;
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}
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/* Module instance is also the base load address. First portion of
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memory is the MS-DOS loader, which holds the offset to the PE
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header (from the load base) at 0x3C */
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dllbase = (unsigned char *)hModule;
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pe_offset = DWORD_AT(dllbase + 0x3C);
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/* The PE signature must be "PE\0\0" */
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if (memcmp(dllbase+pe_offset,"PE\0\0",4)) {
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return NULL;
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}
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/* Following the PE signature is the standard COFF header (20
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bytes) and then the optional header. The optional header starts
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with a magic value of 0x10B for PE32 or 0x20B for PE32+ (PE32+
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uses 64-bits for some fields). It might also be 0x107 for a ROM
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image, but we don't process that here.
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The optional header ends with a data dictionary that directly
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points to certain types of data, among them the import entries
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(in the second table entry). Based on the header type, we
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determine offsets for the data dictionary count and the entry
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within the dictionary pointing to the imports. */
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opt_offset = pe_offset + 4 + 20;
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opt_magic = WORD_AT(dllbase+opt_offset);
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if (opt_magic == 0x10B) {
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/* PE32 */
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num_dict_off = 92;
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import_off = 104;
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} else if (opt_magic == 0x20B) {
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/* PE32+ */
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num_dict_off = 108;
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import_off = 120;
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} else {
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/* Unsupported */
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return NULL;
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}
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/* Now if an import table exists, offset to it and walk the list of
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imports. The import table is an array (ending when an entry has
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empty values) of structures (20 bytes each), which contains (at
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offset 12) a relative address (to the module base) at which a
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string constant holding the import name is located. */
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if (DWORD_AT(dllbase + opt_offset + num_dict_off) >= 2) {
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import_data = dllbase + DWORD_AT(dllbase +
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opt_offset +
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import_off);
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while (DWORD_AT(import_data)) {
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import_name = dllbase + DWORD_AT(import_data+12);
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if (strlen(import_name) >= 6 &&
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!strncmp(import_name,"python",6)) {
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char *pch;
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/* Ensure python prefix is followed only
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by numbers to the end of the basename */
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pch = import_name + 6;
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while (*pch && *pch != '.') {
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if (*pch >= '0' && *pch <= '9') {
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pch++;
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} else {
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pch = NULL;
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break;
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}
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}
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if (pch) {
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/* Found it - return the name */
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return import_name;
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}
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}
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import_data += 20;
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}
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}
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return NULL;
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}
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#endif /* MS_WIN32 */
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1999-12-22 15:09:35 +01:00
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dl_funcptr _PyImport_GetDynLoadFunc(const char *fqname, const char *shortname,
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1999-12-20 22:18:49 +01:00
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const char *pathname, FILE *fp)
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{
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dl_funcptr p;
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2000-10-05 12:54:45 +02:00
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char funcname[258], *import_python;
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1999-12-22 15:09:35 +01:00
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2001-11-28 21:42:20 +01:00
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PyOS_snprintf(funcname, sizeof(funcname), "init%.200s", shortname);
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1999-12-20 22:18:49 +01:00
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#ifdef MS_WIN32
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{
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2001-05-09 02:50:59 +02:00
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HINSTANCE hDLL = NULL;
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1999-12-20 22:18:49 +01:00
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char pathbuf[260];
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2001-05-09 02:50:59 +02:00
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LPTSTR dummy;
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/* We use LoadLibraryEx so Windows looks for dependent DLLs
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in directory of pathname first. However, Windows95
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can sometimes not work correctly unless the absolute
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path is used. If GetFullPathName() fails, the LoadLibrary
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will certainly fail too, so use its error code */
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if (GetFullPathName(pathname,
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sizeof(pathbuf),
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pathbuf,
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&dummy))
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/* XXX This call doesn't exist in Windows CE */
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hDLL = LoadLibraryEx(pathname, NULL,
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LOAD_WITH_ALTERED_SEARCH_PATH);
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1999-12-20 22:18:49 +01:00
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if (hDLL==NULL){
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char errBuf[256];
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unsigned int errorCode;
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/* Get an error string from Win32 error code */
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char theInfo[256]; /* Pointer to error text
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from system */
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int theLength; /* Length of error text */
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errorCode = GetLastError();
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theLength = FormatMessage(
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FORMAT_MESSAGE_FROM_SYSTEM, /* flags */
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NULL, /* message source */
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errorCode, /* the message (error) ID */
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0, /* default language environment */
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(LPTSTR) theInfo, /* the buffer */
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sizeof(theInfo), /* the buffer size */
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NULL); /* no additional format args. */
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/* Problem: could not get the error message.
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This should not happen if called correctly. */
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if (theLength == 0) {
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2001-11-28 21:42:20 +01:00
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PyOS_snprintf(errBuf, sizeof(errBuf),
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"DLL load failed with error code %d",
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errorCode);
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1999-12-20 22:18:49 +01:00
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} else {
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2000-06-29 00:07:35 +02:00
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size_t len;
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1999-12-20 22:18:49 +01:00
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/* For some reason a \r\n
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is appended to the text */
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if (theLength >= 2 &&
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theInfo[theLength-2] == '\r' &&
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theInfo[theLength-1] == '\n') {
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theLength -= 2;
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theInfo[theLength] = '\0';
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}
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strcpy(errBuf, "DLL load failed: ");
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len = strlen(errBuf);
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strncpy(errBuf+len, theInfo,
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sizeof(errBuf)-len);
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errBuf[sizeof(errBuf)-1] = '\0';
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}
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PyErr_SetString(PyExc_ImportError, errBuf);
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return NULL;
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2000-10-05 12:54:45 +02:00
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} else {
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char buffer[256];
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2001-11-28 21:42:20 +01:00
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PyOS_snprintf(buffer, sizeof(buffer), "python%d%d.dll",
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2000-10-05 12:54:45 +02:00
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PY_MAJOR_VERSION,PY_MINOR_VERSION);
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import_python = GetPythonImport(hDLL);
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if (import_python &&
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strcasecmp(buffer,import_python)) {
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2001-11-28 21:42:20 +01:00
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PyOS_snprintf(buffer, sizeof(buffer),
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"Module use of %.150s conflicts "
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"with this version of Python.",
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import_python);
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2000-10-05 12:54:45 +02:00
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PyErr_SetString(PyExc_ImportError,buffer);
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FreeLibrary(hDLL);
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return NULL;
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}
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1999-12-20 22:18:49 +01:00
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}
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p = GetProcAddress(hDLL, funcname);
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}
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#endif /* MS_WIN32 */
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#ifdef MS_WIN16
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{
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HINSTANCE hDLL;
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char pathbuf[16];
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if (strchr(pathname, '\\') == NULL &&
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strchr(pathname, '/') == NULL)
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{
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/* Prefix bare filename with ".\" */
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2001-11-28 21:42:20 +01:00
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PyOS_snprintf(pathbuf, sizeof(pathbuf),
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".\\%-.13s", pathname);
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1999-12-20 22:18:49 +01:00
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pathname = pathbuf;
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}
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hDLL = LoadLibrary(pathname);
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if (hDLL < HINSTANCE_ERROR){
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char errBuf[256];
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2001-11-28 21:42:20 +01:00
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PyOS_snprintf(errBuf, sizeof(errBuf),
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"DLL load failed with error code %d",
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hDLL);
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1999-12-20 22:18:49 +01:00
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PyErr_SetString(PyExc_ImportError, errBuf);
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return NULL;
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}
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p = GetProcAddress(hDLL, funcname);
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}
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#endif /* MS_WIN16 */
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return p;
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}
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