/*******************************Module*Header*********************************\ * Module Name: mciparse.c * * Media Control Architecture Command Parser * * Created: 3/2/90 * Author: DLL (DavidLe) * * History: * * Copyright (c) 1990 Microsoft Corporation * \******************************************************************************/ #include #define MMNOMIDI #define MMNOWAVE #define MMNOSOUND #define MMNOTIMER #define MMNOJOY #define MMNOSEQ #include "mmsystem.h" #define NOMIDIDEV #define NOWAVEDEV #define NOTIMERDEV #define NOJOYDEV #define NOSEQDEV #define NOTASKDEV #include "mmddk.h" #include "mmsysi.h" #ifndef STATICFN #define STATICFN #endif #define WCODE UINT _based(_segname("_CODE")) extern char far szOpen[]; // in MCI.C #ifdef DEBUG_RETAIL extern int DebugmciSendCommand; #endif // Number of command tables registered, including "holes" static UINT number_of_command_tables; // Command table list command_table_type command_tables[MAX_COMMAND_TABLES]; static SZCODE szTypeTableExtension[] = ".mci"; static SZCODE szCoreTable[] = "core"; // Core table is loaded when the first MCI command table is requested static BOOL bCoreTableLoaded; // One element for each device type. Value is the table type to use // or 0 if there is no device type specific table. static WCODE table_types[] = { MCI_DEVTYPE_VCR, // vcr MCI_DEVTYPE_VIDEODISC, // videodisc MCI_DEVTYPE_OVERLAY, // overlay MCI_DEVTYPE_CD_AUDIO, // cdaudio MCI_DEVTYPE_DAT, // dat MCI_DEVTYPE_SCANNER, // scanner MCI_DEVTYPE_ANIMATION, // animation MCI_DEVTYPE_DIGITAL_VIDEO, // digitalvideo MCI_DEVTYPE_OTHER, // other MCI_DEVTYPE_WAVEFORM_AUDIO, // waveaudio MCI_DEVTYPE_SEQUENCER // sequencer }; /*!! void PASCAL NEAR mciToLower (LPSTR lpstrString) { while (*lpstrString != '\0') { if (*lpstrString >= 'A' && *lpstrString <= 'Z') *lpstrString += 0x20; ++lpstrString; } } */ /* * @doc INTERNAL MCI * @func UINT | mciEatCommandEntry | Read a command resource entry and * return its length and its value and identifier * * @parm LPCSTR | lpEntry | The start of the command resource entry * * @parm LPDWORD | lpValue | The value of the entry, returned to caller * May be NULL * * @parm UINT FAR* | lpID | The identifier of the entry, returned to caller * May be NULL * * @rdesc The total number of bytes in the entry * */ UINT PASCAL NEAR mciEatCommandEntry ( LPCSTR lpEntry, LPDWORD lpValue, UINT FAR* lpID) { LPCSTR lpScan = lpEntry; while (*lpScan++ != '\0') ; if (lpValue != NULL) *lpValue = *(LPDWORD)lpScan; lpScan += sizeof(DWORD); if (lpID != NULL) *lpID = *(LPWORD)lpScan; lpScan += sizeof(UINT); return lpScan - lpEntry; } // Return the size used by this token in the parameter list UINT PASCAL NEAR mciGetParamSize (DWORD dwValue, UINT wID) { switch (wID) { case MCI_CONSTANT: case MCI_INTEGER: case MCI_STRING: return sizeof(DWORD); case MCI_RECT: return sizeof(RECT); case MCI_RETURN: switch ((UINT)dwValue) { case MCI_INTEGER: return sizeof(DWORD); case MCI_STRING: case MCI_RECT: return sizeof(RECT); default: DOUT ("mciGetParamSize: Unknown return type\r\n"); return 0; } break; } return 0; } /* * @doc INTERNAL MCI * @func UINT | mciRegisterCommandTable | This function adds a new * table for the MCI parser. * * @parm HGLOBAL | hResource | Handle to the RCDATA resource * * @parm UINT FAR* | lpwIndex | Pointer to command table index * * @parm UINT | wType | Specifies the device type for this command table. * Driver tables and the core table are type 0. * * @parm HINSTANCE | hModule | Module instance registering table. * * @rdesc Returns the command table index number that was assigned or -1 * on error. * */ STATICFN UINT PASCAL NEAR mciRegisterCommandTable( HGLOBAL hResource, UINT FAR* lpwIndex, UINT wType, HINSTANCE hModule ) { UINT wID; /* First check for free slots */ for (wID = 0; wID < number_of_command_tables; ++wID) if (command_tables[wID].hResource == NULL) break; /* If no empty slots then allocate another one */ if (wID >= number_of_command_tables) { if (number_of_command_tables == MAX_COMMAND_TABLES) { DOUT ("mciRegisterCommandTable: No more tables\r\n"); return (UINT)-1; } else wID = number_of_command_tables++; } /* Fill in the slot */ command_tables[wID].wType = wType; command_tables[wID].hResource = hResource; command_tables[wID].lpwIndex = lpwIndex; command_tables[wID].hModule = hModule; #ifdef DEBUG command_tables[wID].wLockCount = 0; #endif #ifdef DEBUG if (DebugmciSendCommand > 2) { DPRINTF(("mciRegisterCommandTable INFO: assigned slot %u\r\n", wID)); DPRINTF(("mciRegisterCommandTable INFO: #tables is %u\r\n", number_of_command_tables)); } #endif return wID; } /* * @doc DDK MCI * @api UINT | mciLoadCommandResource | Registers the indicated * resource as an MCI command table and builds a command table * index. If a file with the resource name and the extension '.mci' is * found in the path then the resource is taken from that file. * * @parm HINSTANCE | hInstance | The instance of the module whose executable * file contains the resource. This parameter is ignored if an external file * is found. * * @parm LPCSTR | lpResName | The name of the resource * * @parm UINT | wType | The table type. Custom device specific tables MUST * give a table type of 0. * * @rdesc Returns the command table index number that was assigned or -1 * on error. * */ UINT WINAPI mciLoadCommandResource ( HINSTANCE hInstance, LPCSTR lpResName, UINT wType) { UINT FAR* lpwIndex, FAR* lpwScan; HINSTANCE hExternal; HRSRC hResInfo; HGLOBAL hResource; LPSTR lpResource, lpScan; int nCommands = 0; UINT wID; UINT wLen; // Name + '.' + Extension + '\0' char strFile[8 + 1 + 3 + 1]; LPSTR lpstrFile = strFile; LPCSTR lpstrType = lpResName; OFSTRUCT ofs; #ifdef DEBUG if (DebugmciSendCommand > 2) DPRINTF(("mciLoadCommandResource INFO: %s loading\r\n", (LPSTR)lpResName)); #endif // Initialize the device list if (!MCI_bDeviceListInitialized && !mciInitDeviceList()) return MCIERR_OUT_OF_MEMORY; // Load the core table if its not already there if (!bCoreTableLoaded) { bCoreTableLoaded = TRUE; // If its not the core table being loaded if (lstrcmpi (szCoreTable, lpResName) != 0) if (mciLoadCommandResource (ghInst, szCoreTable, 0) == -1) { DOUT ("mciLoadCommandResource: Cannot load core table\r\n"); } } // Check for a file with the extension ".mci" // Copy up to the first eight characters of device type while (lpstrType < lpResName + 8 && *lpstrType != '\0') *lpstrFile++ = *lpstrType++; // Tack extension onto end lstrcpy (lpstrFile, szTypeTableExtension); // If the file exists and can be loaded then set flag // otherwise load resource from MMSYSTEM.DLL if (OpenFile (strFile, &ofs, OF_EXIST) == HFILE_ERROR || (hExternal = LoadLibrary(strFile)) < HINSTANCE_ERROR) hExternal = NULL; // Load the given table from the file or from the module if not found if (hExternal != NULL && (hResInfo = FindResource (hExternal, lpResName, RT_RCDATA)) != NULL) hInstance = hExternal; else hResInfo = FindResource (hInstance, lpResName, RT_RCDATA); if (hResInfo == NULL) { DOUT ("mciLoadCommandResource: Cannot find command resource\r\n"); return (UINT)-1; } if ((hResource = LoadResource (hInstance, hResInfo)) == NULL) { DOUT ("mciLoadCommandResource: Cannot load command resource\r\n"); return (UINT)-1; } if ((lpResource = LockResource (hResource)) == NULL) { DOUT ("mciLoadCommandResource: Cannot lock resource\r\n"); FreeResource (hResource); return (UINT)-1; } /* Count the number of commands */ lpScan = lpResource; while (TRUE) { lpScan += mciEatCommandEntry(lpScan, NULL, &wID); // End of command? if (wID == MCI_COMMAND_HEAD) ++nCommands; // End of command list? else if (wID == MCI_END_COMMAND_LIST) break; } // There must be at least on command in the table if (nCommands == 0) { DOUT ("mciLoadCommandResource: No commands in the specified table\r\n"); UnlockResource (hResource); FreeResource (hResource); return (UINT)-1; } // Allocate storage for the command table index // Leave room for a -1 entry to terminate it if ((lpwIndex = (UINT FAR*) mciAlloc ((UINT)sizeof (UINT) * (nCommands + 1))) == NULL) { DOUT ("mciLoadCommandResource: cannot allocate command table index\r\n"); UnlockResource (hResource); FreeResource (hResource); return (UINT)-1; } /* Build Command Table */ lpwScan = lpwIndex; lpScan = lpResource; while (TRUE) { // Get next command entry wLen = mciEatCommandEntry (lpScan, NULL, &wID); if (wID == MCI_COMMAND_HEAD) // Add an index to this command *lpwScan++ = lpScan - lpResource; else if (wID == MCI_END_COMMAND_LIST) { // Mark the end of the table *lpwScan = (UINT)-1; break; } lpScan += wLen; } UnlockResource (hResource); return mciRegisterCommandTable (hResource, lpwIndex, wType, hExternal); } /* * @doc INTERNAL MCI * @func UINT | mciLoadTableType | If the table of the given type * has not been loaded, register it * * @parm UINT | wType | The table type to load * * @rdesc Returns the command table index number that was assigned or -1 * on error. */ UINT PASCAL NEAR mciLoadTableType ( UINT wType) { UINT wID; char buf[MCI_MAX_DEVICE_TYPE_LENGTH]; int nTypeLen; // Check to see if this table type is already loaded for (wID = 0; wID < number_of_command_tables; ++wID) if (command_tables[wID].wType == wType) return wID; // Must load table // First look up what device type specific table to load for this type if (wType < MCI_DEVTYPE_FIRST || wType > MCI_DEVTYPE_LAST) return (UINT)-1; // Load string that corresponds to table type LoadString (ghInst, table_types[wType - MCI_DEVTYPE_FIRST], buf, sizeof(buf)); //Must be at least one character in type name if ((nTypeLen = lstrlen (buf)) < 1) return (UINT)-1; // Register the table with MCI return mciLoadCommandResource (ghInst, buf, wType); } /* * @doc DDK MCI * * @api BOOL | mciFreeCommandResource | Frees the memory used * by the specified command table. * * @parm UINT | wTable | The table index returned from a previous call to * mciLoadCommandResource. * * @rdesc FALSE if the table index is not valid, TRUE otherwise. * */ BOOL WINAPI mciFreeCommandResource ( UINT wTable) { UINT wID; HGLOBAL hResource; UINT FAR* lpwIndex; #ifdef DEBUG if (DebugmciSendCommand > 2) { DPRINTF(("mciFreeCommandResource INFO: Free table %d\r\n", wTable)); DPRINTF(("mciFreeCommandResource INFO: Lockcount is %d\r\n", command_tables[wTable].wLockCount)); } #endif /* Validate input -- do not let the core table be free'd */ if (wTable <= 0 || wTable >= number_of_command_tables) { #ifdef DEBUG // wTable == -1 is OK if (wTable != -1) DOUT ("mciFreeCommandResource: Bad table number\r\n"); #endif return FALSE; } // If this table is being used elsewhere then keep it around for (wID = 1; wID < MCI_wNextDeviceID; ++wID) if (MCI_lpDeviceList[wID] != NULL) if (MCI_lpDeviceList[wID]->wCustomCommandTable == wTable || MCI_lpDeviceList[wID]->wCommandTable == wTable) { #ifdef DEBUG if (DebugmciSendCommand > 2) DOUT ("mciFreeCommandResource INFO: table in use\r\n"); #endif return FALSE; } #if 0 /* Search the list of tables */ for (wID = 0; wID < number_of_command_tables; ++wID) /* If this resource is still in use, keep it around */ if (command_tables[wID].hResource == hResource) { #ifdef DEBUG if (DebugmciSendCommand > 2) DOUT ("mciFreeCommandResource INFO: resource in use\r\n"); #endif return FALSE; } #endif hResource = command_tables[wTable].hResource; command_tables[wTable].hResource = NULL; lpwIndex = command_tables[wTable].lpwIndex; command_tables[wTable].lpwIndex = NULL; command_tables[wTable].wType = 0; FreeResource (hResource); mciFree (lpwIndex); if (command_tables[wTable].hModule != NULL) FreeLibrary (command_tables[wTable].hModule); // Make space at top of list if (wTable == number_of_command_tables - 1) --number_of_command_tables; #ifdef DEBUG if (DebugmciSendCommand > 2) DPRINTF(("mciFreeCommandResource INFO: number_of_command_tables: %u\r\n", number_of_command_tables)); #endif return TRUE; } #ifdef DEBUG void PASCAL NEAR mciCheckLocks (void) { UINT wTable; if (DebugmciSendCommand <= 2) return; for (wTable = 0; wTable < number_of_command_tables; ++wTable) { if (command_tables[wTable].hResource == NULL) continue; DPRINTF(("mciCheckLocks INFO: table %u ", wTable)); DPRINTF(("user: %x ", GlobalFlags (command_tables[wTable].hResource) & GMEM_LOCKCOUNT)); DPRINTF(("mci: %u ", command_tables[wTable].wLockCount)); if (GlobalFlags (command_tables[wTable].hResource) & GMEM_DISCARDABLE) DPRINTF(("discardable\r\n")); else DPRINTF(("NOT discardable\r\n")); } } #endif /* * @doc INTERNAL MCI * @func BOOL | mciUnlockCommandTable | Unlocks the command table given by * a table index * * @parm UINT | wCommandTable | Table to unlock * * @rdesc TRUE if success, FALSE otherwise * * @comm Used external to this module by mci.c * */ BOOL PASCAL NEAR mciUnlockCommandTable ( UINT wCommandTable) { UnlockResource(command_tables[wCommandTable].hResource); #ifdef DEBUG --command_tables[wCommandTable].wLockCount; if (DebugmciSendCommand > 2) { DPRINTF(("mciUnlockCommandTable INFO: table %d\r\n", wCommandTable)); DOUT ("mciUnlockCommandTable INFO: check locks...\r\n"); mciCheckLocks(); } #endif return TRUE; } /* * @doc INTERNAL MCI * @func LPSTR | FindCommandInTable | Look up the given * command string in the GIVEN parser command table * * @parm UINT | wTable | Command table to use * * @parm LPCSTR | lpstrCommand | The command to look up. It must * be in lower case with no leading or trailing blanks and with at * least one character. * * @parm UINT FAR * | lpwMessage | The message corresponding to the command * Returned to caller. * * @rdesc NULL if the command is unknown or on error, otherwise a pointer to * the command list for the input command string. * * @comm If the command is found, the command resource will be locked on exit. * */ LPSTR PASCAL NEAR FindCommandInTable ( UINT wTable, LPCSTR lpstrCommand, UINT FAR * lpwMessage) { UINT FAR* lpwIndex; LPSTR lpResource, lpstrThisCommand; UINT wMessage; /* Validate table */ if (wTable >= number_of_command_tables) { // Check the core table but its not yet loaded if (wTable == 0) { // Try to load it if (mciLoadCommandResource (ghInst, szCoreTable, 0) == -1) { DOUT ("FindCommandInTable: cannot load core table\r\n"); return NULL; } } else { DOUT ("MCI FindCommandInTable: invalid table ID\r\n"); return NULL; } } if ((lpResource = LockResource (command_tables[wTable].hResource)) == NULL) { DOUT ("MCI FindCommandInTable: Cannot lock table resource\r\n"); return NULL; } #ifdef DEBUG ++command_tables[wTable].wLockCount; #endif // Look at each command in the table lpwIndex = command_tables[wTable].lpwIndex; if (lpwIndex == NULL) { DOUT ("MCI FindCommandInTable: null command table index\r\n"); return NULL; } while (*lpwIndex != -1) { DWORD dwMessage; lpstrThisCommand = *lpwIndex++ + lpResource; // Get message number from the table mciEatCommandEntry (lpstrThisCommand, &dwMessage, NULL); wMessage = (UINT)dwMessage; // Does this command match the input? // String case if (HIWORD (lpstrCommand) != 0 && lstrcmpi (lpstrThisCommand, lpstrCommand) == 0 || // Message case HIWORD (lpstrCommand) == 0 && wMessage == LOWORD ((DWORD)lpstrCommand)) { // Retain the locked resource pointer command_tables[wTable].lpResource = lpResource; // Address the message ID which comes after the command name if (lpwMessage != NULL) *lpwMessage = wMessage; // Leave table locked on exit return lpstrThisCommand; } // Strings don't match, go to the next command in the table } UnlockResource (command_tables[wTable].hResource); #ifdef DEBUG --command_tables[wTable].wLockCount; #endif return NULL; } /* * @doc INTERNAL MCI * @func LPSTR | FindCommandItem | Look up the given * command string in the parser command tables * * @parm UINT | wDeviceID | The device ID used for this command. * If 0 then only the system core command table is searched. * * @parm LPCSTR | lpstrType | The type name of the device * * @parm LPCSTR | lpstrCommand | The command to look up. It must * be in lower case with no leading or trailing blanks and with at * least one character. If the HIWORD is 0 then the LOWORD contains * the command message ID instead of a command name and the function is * merely to find the command list pointer. * * If the high word is 0 then the low word is an command ID value instead * of a command name * * @parm UINT FAR* | lpwMessage | The message corresponding to the command * Returned to caller. * * @parm UINT FAR* | lpwTable | The table index in which the command was found * Returned to caller. * * @rdesc NULL if the command is unknown, otherwise a pointer to * the command list for the input command string. */ LPSTR PASCAL NEAR FindCommandItem ( UINT wDeviceID, LPCSTR lpstrType, LPCSTR lpstrCommand, UINT FAR* lpwMessage, UINT FAR* lpwTable) { LPSTR lpCommand; UINT wTable; LPMCI_DEVICE_NODE nodeWorking; // Only check hiword per comments above if (HIWORD (lpstrCommand) != NULL && *lpstrCommand == '\0') { DOUT ("MCI FindCommandItem: lpstrCommand is NULL or empty string\r\n"); return NULL; } // If a specific device ID was specified then look in any custom table // or type table if (wDeviceID != 0 && wDeviceID != MCI_ALL_DEVICE_ID) { // If the device ID is valid if (!MCI_VALID_DEVICE_ID(wDeviceID)) { DOUT ("MCI FindCommandItem: Invalid device ID\r\n"); return NULL; } nodeWorking = MCI_lpDeviceList[wDeviceID]; // If there is a custom command table then use it if ((wTable = nodeWorking->wCustomCommandTable) != -1) { lpCommand = FindCommandInTable (wTable, lpstrCommand, lpwMessage); if (lpCommand != NULL) goto exit; } // Get the device type table from the existing device // Relies on mciReparseCommand in mciLoadDevice to catch all device type // tables when device is not yet open. if ((wTable = nodeWorking->wCommandTable) != -1) { lpCommand = FindCommandInTable (wTable, lpstrCommand, lpwMessage); if (lpCommand != NULL) goto exit; } } // If no match was found in the device or type specific tables // Look in the core table wTable = 0; lpCommand = FindCommandInTable (wTable, lpstrCommand, lpwMessage); if (lpCommand == NULL) wTable = (UINT)-1; exit: if (lpwTable != NULL) *lpwTable = wTable; #ifdef DEBUG if (DebugmciSendCommand > 2) { DOUT ("FindCommandItem INFO: check locks...\r\n"); mciCheckLocks(); } #endif return lpCommand; } /* * @doc INTERNAL MCI * @func LPSTR | mciCheckToken | Check to see if the command item matches * the given string, allowing multiple blanks in the input parameter to * match a corresponding single blank in the command token and ignoring * case. * * @parm LPCSTR | lpstrToken | The command token to check * * @parm LPCSTR | lpstrParam | The input parameter * * @rdesc NULL if no match, otherwise points to the first character * after the parameter * */ STATICFN LPSTR PASCAL NEAR mciCheckToken( LPCSTR lpstrToken, LPCSTR lpstrParam ) { /* Check for legal input */ if (lpstrToken == NULL || lpstrParam == NULL) return NULL; while (*lpstrToken != '\0' && MCI_TOLOWER(*lpstrParam) == *lpstrToken) { // If the token contains a blank, allow more than one blank in the // parameter if (*lpstrToken == ' ') while (*lpstrParam == ' ') ++lpstrParam; else *lpstrParam++; *lpstrToken++; } if (*lpstrToken != '\0'|| (*lpstrParam != '\0' && *lpstrParam != ' ')) return NULL; else return (LPSTR)lpstrParam; } /* * @doc INTERNAL MCI * @api BOOL | mciParseInteger | Parse the given integer * * @parm LPSTR FAR * | lplpstrInput | The string containing the argument. * It is updated and returned to the caller pointing to the first character * after the argument or to the first character that is in error. * * @parm LPDWORD | lpdwArgument | The place to put the output * * @rdesc Returns TRUE if not error * * @comm If there are colons in the input (':') the result is "colonized". * This means that each time a colon is read, the current result is written * and any subsequent digits are shifted left one byte. No one "segment" * can be more than 0xFF. For example, "0:1:2:3" is parsed to 0x03020100. * */ #pragma warning(4:4146) STATICFN BOOL PASCAL NEAR mciParseInteger( LPSTR FAR * lplpstrInput, LPDWORD lpdwArgument ) { LPSTR lpstrInput = *lplpstrInput; BOOL fDigitFound; DWORD dwResult; LPSTR lpstrResult = (LPSTR)lpdwArgument; int nDigitPosition = 0; BOOL bSigned = FALSE; // Leading blanks have been removed by mciParseParams if (*lpstrInput == '-') { ++lpstrInput; bSigned = TRUE; } // Read digits *lpdwArgument = 0; /* Initialize */ dwResult = 0; fDigitFound = FALSE; /* Initialize */ while (*lpstrInput >= '0' && *lpstrInput <= '9' || *lpstrInput == ':') { // ':' indicates colonized data if (*lpstrInput == ':') { // Cannot mix colonized and signed forms if (bSigned) { DOUT ("Bad integer: mixing signed and colonized forms\r\n"); return FALSE; } // Check for overflow in accumulated colonized byte if (dwResult > 0xFF) return FALSE; // Copy and move to next byte converted in output *lpstrResult++ = (char)dwResult; ++lpstrInput; // Initialize next colonized byte dwResult = 0; ++nDigitPosition; // Only allow four colonized components if (nDigitPosition > 3) { DOUT ("Bad integer: Too many colonized components\r\n"); return FALSE; } } else { char cDigit = (char)(*lpstrInput++ - '0'); // Satisfies condition that at least one digit must be read fDigitFound = TRUE; if (dwResult > 0xFFFFFFFF / 10) // Overflow if multiply was to occur return FALSE; else // Multiply for next digit dwResult *= 10; // Add new digit dwResult += cDigit; } } if (nDigitPosition == 0) { // No colonized components if (bSigned) { // Check for overflow from negation if (dwResult > 0x7FFFFFFF) return FALSE; // Negate result because a '-' sign was parsed dwResult = -dwResult; } *lpdwArgument = dwResult; } else // Store last colonized component { // Check for overflow if (dwResult > 0xFF) return FALSE; // Store component *lpstrResult = (char)dwResult; } *lplpstrInput = lpstrInput; /* If there were no digits or if the digits were followed by a character other than a blank or a '\0', then return a syntax error. */ return fDigitFound && (!*lpstrInput || *lpstrInput == ' '); } /* * @doc INTERNAL MCI * @func BOOL | mciParseConstant | Parse the given integer * * @parm LPSTR FAR * | lplpstrInput | The string containing the argument. * It is updated and returned to the caller pointing to the first character * after the argument or to the first character that is in error. * * @parm LPDWORD | lpdwArgument | The place to put the output * * @parm LPSTR | lpItem | Pointer into command table. * * @rdesc Returns TRUE if not error * */ STATICFN BOOL PASCAL NEAR mciParseConstant( LPSTR FAR * lplpstrInput, LPDWORD lpdwArgument, LPSTR lpItem ) { LPSTR lpPrev; DWORD dwValue; UINT wID; // Skip past constant header lpItem += mciEatCommandEntry (lpItem, &dwValue, &wID); while (TRUE) { LPSTR lpstrAfter; lpPrev = lpItem; lpItem += mciEatCommandEntry (lpItem, &dwValue, &wID); if (wID == MCI_END_CONSTANT) break; if ((lpstrAfter = mciCheckToken (lpPrev, *lplpstrInput)) != NULL) { *lpdwArgument = dwValue; *lplpstrInput = lpstrAfter; return TRUE; } } return mciParseInteger (lplpstrInput, lpdwArgument); } /* * @doc INTERNAL MCI * @func UINT | mciParseArgument | Parse the given argument * * @parm DWORD | dwValue | The argument value * * @parm UINT | wID | The argument ID * * @parm LPSTR FAR * | lplpstrOutput | The string containing the argument. * It is updated and returned to the caller pointing to the first character * after the argument or to the first character that is in error. * * @parm LPDWORD | lpdwFlags | The output flags * * @parm LPDWORD | lpArgument | The place to put the output * * @rdesc Returns 0 if no error or * @flag MCIERR_BAD_INTEGER | An integer argument could not be parsed * @flag MCIERR_MISSING_STRING_ARGUMENT | An expected string argument * @flag MCIERR_PARM_OVERFLOW | The output buffer was a NULL pointer * was missing * */ STATICFN UINT PASCAL NEAR mciParseArgument( DWORD dwValue, UINT wID, LPSTR FAR * lplpstrOutput, LPDWORD lpdwFlags, LPSTR lpArgument, LPSTR lpCurrentCommandItem ) { LPSTR lpstrInput = *lplpstrOutput; UINT wRetval = 0; /* Switch on the argument type */ switch (wID) { // The parameter is a flag case MCI_FLAG: break; /* switch */ case MCI_CONSTANT: if (*lpstrInput == '\0') wRetval = MCIERR_NO_INTEGER; else if (!mciParseConstant (&lpstrInput, (LPDWORD)lpArgument, lpCurrentCommandItem)) wRetval = MCIERR_BAD_CONSTANT; break; /* The parameter has an integer argument, try to parse it */ case MCI_INTEGER: if (!mciParseInteger (&lpstrInput, (LPDWORD)lpArgument)) wRetval = MCIERR_BAD_INTEGER; break; /* switch */ case MCI_RECT: { // Read in four RECT components. Resulting structure is the // same as a Windows RECT long lTemp; int n; for (n = 0; n < 4; ++n) { if (!mciParseInteger (&lpstrInput, &lTemp)) { wRetval = MCIERR_BAD_INTEGER; break; } // Each component is a signed 16 bit number if (lTemp > 32768 || lTemp < -32767) { wRetval = MCIERR_BAD_INTEGER; break; } ((int FAR *)lpArgument)[n] = (int)lTemp; // Remove leading blanks before next digit while (*lpstrInput == ' ') ++lpstrInput; } break; } case MCI_STRING: { LPSTR lpstrOutput; /* The parameter has an string argument, read it */ // Leading blanks have been removed by mciParseParams /* Are there any non-blank characters left in the input? */ if (*lpstrInput == '\0') { /* Return an error */ wRetval = MCIERR_MISSING_STRING_ARGUMENT; break; /* switch */ } if ((wRetval = mciEatToken (&lpstrInput, ' ', &lpstrOutput, FALSE)) != 0) { DOUT ("mciParseArgument: error parsing string\r\n"); return wRetval; } *(LPDWORD)lpArgument = (DWORD)lpstrOutput; // NOTE: mciSendString frees the output string after command execution // by calling mciParserFree break; /* switch */ } /* case */ } /* switch */ /* Update the output flags if there was no error */ if (wRetval == 0) { if (*lpdwFlags & dwValue) { if (wID == MCI_CONSTANT) wRetval = MCIERR_FLAGS_NOT_COMPATIBLE; else wRetval = MCIERR_DUPLICATE_FLAGS; } else *lpdwFlags |= dwValue; } /* Return the input pointer pointing at the first character after the argument or to the first character that is in error */ *lplpstrOutput = lpstrInput; return wRetval; } /* * @doc MCI INTERNAL * @func UINT | mciParseParams | Parse the command parameters * * @parm LPCSTR | lpstrParams | The parameter string * * @parm LPCSTR | lpCommandList | The command table description * of the command tokens * * @parm LPDWORD | lpdwFlags | Return the parsed flags here * * @parm LPDWORD | lpdwOutputParams | Return the list of parameters here * * @parm UINT | wParamsSize | The size allocated for the parameter list * * @parm LPSTR FAR * FAR * | lpPointerList | A NULL terminated list of * pointers allocated by this function that should be free'd when * no longer needed. The list itself should be free'd also. In both * cases, use mciFree(). * * @parm UINT FAR* | lpwParsingError | If not NULL then if the command is * 'open', unrecognized keywords return an error here, and the * function return value is 0 (unless other errors occur). This * is used to allow reparsing of the command by mciLoadDevice * * @rdesc Returns zero if successful or one of the following error codes: * @flag MCIERR_PARM_OVERFLOW | Not enough space for parameters * @flag MCIERR_UNRECOGNIZED_KEYWORD | Unrecognized keyword * * @comm Any syntax error, including missing arguments, will result in * a non-zero error return and invalid output data. * */ UINT PASCAL NEAR mciParseParams( LPCSTR lpstrParams, LPCSTR lpCommandList, LPDWORD lpdwFlags, LPSTR lpOutputParams, UINT wParamsSize, LPSTR FAR * FAR *lpPointerList, UINT FAR* lpwOpenError ) { LPSTR lpFirstCommandItem, lpCurrentCommandItem; UINT wArgumentPosition, wErr, wLen, wID, wDefaultID; DWORD dwValue, dwDefaultValue; BOOL bOpenCommand; LPSTR FAR *lpstrPointerList; UINT wPointers = 0; UINT wHeaderSize = 0; LPSTR lpDefaultCommandItem = NULL; UINT wDefaultArgumentPosition; if (lpwOpenError != NULL) *lpwOpenError = 0; // If the parameter pointer is NULL, return if (lpstrParams == NULL) { DOUT ("Warning: lpstrParams is null in mciParseParams()\r\n"); return 0; } if ((lpstrPointerList = mciAlloc ((MCI_MAX_PARAM_SLOTS + 1) * sizeof (LPSTR))) == NULL) { *lpPointerList = NULL; return MCIERR_OUT_OF_MEMORY; } // If this is the "open" command then allow parameter errors bOpenCommand = lstrcmpi (lpCommandList, szOpen) == 0; /* Clear all the flags */ *lpdwFlags = 0; /* Initialize the entry for the callback message window handle */ wHeaderSize += sizeof (DWORD); if (wHeaderSize > wParamsSize) { wErr = MCIERR_PARAM_OVERFLOW; goto error_exit; } /* Skip past the header */ lpFirstCommandItem = (LPSTR)lpCommandList + mciEatCommandEntry (lpCommandList, NULL, NULL); wLen = mciEatCommandEntry (lpFirstCommandItem, &dwValue, &wID); /* Make room in lpdwOutputParams for the return arguments if any */ if (wID == MCI_RETURN) { lpFirstCommandItem += wLen; wHeaderSize += mciGetParamSize (dwValue, wID); if (wHeaderSize > wParamsSize) { wErr = MCIERR_PARAM_OVERFLOW; goto error_exit; } } lpOutputParams += wHeaderSize; // Scan the parameter string looking up each parameter in the given command // list while (TRUE) { LPCSTR lpstrArgument = NULL; /* Remove leading blanks */ while (*lpstrParams == ' ') ++lpstrParams; /* Break at end of parameter string */ if (*lpstrParams == '\0') break; /* Scan for this parameter in the command list */ lpCurrentCommandItem = lpFirstCommandItem; wLen = mciEatCommandEntry (lpCurrentCommandItem, &dwValue, &wID); wArgumentPosition = 0; /* While there are more tokens in the Command List */ while (wID != MCI_END_COMMAND) { /* Check for a default argument if not already read */ if (lpDefaultCommandItem == NULL && *lpCurrentCommandItem == '\0') { // Remember default argument lpDefaultCommandItem = lpCurrentCommandItem; dwDefaultValue = dwValue; wDefaultID = wID; wDefaultArgumentPosition = wArgumentPosition; // break; } /* Check to see if this token matches */ else if ((lpstrArgument = mciCheckToken (lpCurrentCommandItem, lpstrParams)) != NULL) break; /* This token did not match the input but advance the argument position */ wArgumentPosition += mciGetParamSize (dwValue, wID); /* Go to next token */ lpCurrentCommandItem += wLen; // Is this command parameter a constant? if (wID == MCI_CONSTANT) // Skip constant list do lpCurrentCommandItem += mciEatCommandEntry (lpCurrentCommandItem, &dwValue, &wID); while (wID != MCI_END_CONSTANT); wLen = mciEatCommandEntry (lpCurrentCommandItem, &dwValue, &wID); } /* while */ /* If there were no matches */ if (lpstrArgument == NULL) { // If a default argument exists then try it if (lpDefaultCommandItem != NULL) { lpstrArgument = lpstrParams; dwValue = dwDefaultValue; wID = wDefaultID; lpCurrentCommandItem = lpDefaultCommandItem; wArgumentPosition = wDefaultArgumentPosition; } else { // Allow missing paramters on OPEN command if indicated by a non-null // lpwOpenError address if (!bOpenCommand || lpwOpenError == NULL) { wErr = MCIERR_UNRECOGNIZED_KEYWORD; goto error_exit; } else { // Skip the parameter if OPEN command while (*lpstrParams != ' ' && *lpstrParams != '\0') ++lpstrParams; if (lpwOpenError != NULL) *lpwOpenError = MCIERR_UNRECOGNIZED_KEYWORD; continue; } } } /* Is there room in the output buffer for this argument? */ if (wArgumentPosition + wHeaderSize + mciGetParamSize (dwValue, wID) > wParamsSize) { DOUT ("mciParseParams: parameter space overflow\r\n"); wErr = MCIERR_PARAM_OVERFLOW; goto error_exit; } // Remove leading blanks while (*lpstrArgument == ' ') ++lpstrArgument; /* Process this parameter, filling in any flags or arguments */ if ((wErr = mciParseArgument (dwValue, wID, &lpstrArgument, lpdwFlags, &lpOutputParams[wArgumentPosition], lpCurrentCommandItem)) != 0) goto error_exit; lpstrParams = lpstrArgument; if (wID == MCI_STRING) { if (wPointers >= MCI_MAX_PARAM_SLOTS) { DOUT ("Warning: Out of pointer list slots in mciParseParams\r\n"); break; } (DWORD)lpstrPointerList[wPointers++] = *(LPDWORD)&lpOutputParams[wArgumentPosition]; } /* Continue reading the parameter string */ } /* while */ // Terminate list lpstrPointerList[wPointers] = NULL; // Copy reference for caller *lpPointerList = lpstrPointerList; // Return Success return 0; error_exit: *lpPointerList = NULL; // Terminate list lpstrPointerList[wPointers] = NULL; mciParserFree (lpstrPointerList); return wErr; } /* * @doc INTERNAL MCI * @func UINT | mciParseCommand | This function converts an MCI * control string to an MCI control message suitable for sending to * . The input string usually comes from * and always has the device name stripped off the front. * * @parm UINT | wDeviceID | Identifies the device. First searches the parsing * table belonging to the driver. * Then searches the command tables matching the type * of the given device. Then searches the core command table. * * @parm LPSTR | lpstrCommand | An MCI control command without * a device name prefix. There must be no leading or trailing * blanks. * * @parm LPCSTR | lpstrDeviceName | The device name (second token on the * command line). It is used to identify the device type. * * @parm LPSTR FAR * | lpCommandList | If not NULL then the address of * the command list for the parsed command (if successful) is copied here. * It is used later by mciSendString when parsing arguments * * @parm UINT FAR* | lpwTable | The table resource ID to be unlocked * after parsing. Returned to caller. * * @rdesc Returns the command ID or 0 if not found. * */ UINT PASCAL NEAR mciParseCommand( UINT wDeviceID, LPSTR lpstrCommand, LPCSTR lpstrDeviceName, LPSTR FAR * lpCommandList, UINT FAR* lpwTable) { LPSTR lpCommandItem; UINT wMessage; // Put the command in lower case //!! mciToLower (lpstrCommand); // Look up lpstrCommand in the parser's command tables. if ((lpCommandItem = FindCommandItem (wDeviceID, lpstrDeviceName, lpstrCommand, &wMessage, lpwTable)) == NULL) return 0; /* Return the command list to the caller */ if (lpCommandList != NULL) *lpCommandList = lpCommandItem; else DOUT ("Warning: NULL lpCommandList in mciParseCommanad\r\n"); return wMessage; } /* * @doc INTERNAL MCI * @func void | mciParserFree | Free any buffers allocated to * receive string arguments. * * @parm LPSTR FAR * | lpstrPointerList | A NULL terminated list of far * pointers to strings to be free'd * */ void PASCAL NEAR mciParserFree( LPSTR FAR *lpstrPointerList ) { LPSTR FAR *lpstrOriginal = lpstrPointerList; if (lpstrPointerList == NULL) return; while (*lpstrPointerList != NULL) mciFree (*lpstrPointerList++); mciFree (lpstrOriginal); }