/********************************************************************************/ /* */ /* Command Dispatcher */ /* Written by Ken Goldman */ /* IBM Thomas J. Watson Research Center */ /* $Id: CommandDispatcher.c 1658 2021-01-22 23:14:01Z kgoldman $ */ /* */ /* Licenses and Notices */ /* */ /* 1. Copyright Licenses: */ /* */ /* - Trusted Computing Group (TCG) grants to the user of the source code in */ /* this specification (the "Source Code") a worldwide, irrevocable, */ /* nonexclusive, royalty free, copyright license to reproduce, create */ /* derivative works, distribute, display and perform the Source Code and */ /* derivative works thereof, and to grant others the rights granted herein. */ /* */ /* - The TCG grants to the user of the other parts of the specification */ /* (other than the Source Code) the rights to reproduce, distribute, */ /* display, and perform the specification solely for the purpose of */ /* developing products based on such documents. */ /* */ /* 2. 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It includes the header, handles, response parameters, and authorization area. respParmSize is the response parameter size, and does not include the header, handles, or authorization area. */ /* NOTE 2 The reference implementation is permitted to do compare operations over a union as a byte array. Therefore, the command parameter in structure must be initialized (e.g., zeroed) before unmarshaling so that the compare operation is valid in cases where some bytes are unused. */ /* 6.3.1.1 Includes and Typedefs */ #include "Tpm.h" // #include "Marshal.h" kgold #if TABLE_DRIVEN_DISPATCH typedef TPM_RC(NoFlagFunction)(void *target, BYTE **buffer, INT32 *size); typedef TPM_RC(FlagFunction)(void *target, BYTE **buffer, INT32 *size, BOOL flag); typedef FlagFunction *UNMARSHAL_t; typedef INT16(MarshalFunction)(void *source, BYTE **buffer, INT32 *size); typedef MarshalFunction *MARSHAL_t; typedef TPM_RC(COMMAND_NO_ARGS)(void); typedef TPM_RC(COMMAND_IN_ARG)(void *in); typedef TPM_RC(COMMAND_OUT_ARG)(void *out); typedef TPM_RC(COMMAND_INOUT_ARG)(void *in, void *out); typedef union { COMMAND_NO_ARGS *noArgs; COMMAND_IN_ARG *inArg; COMMAND_OUT_ARG *outArg; COMMAND_INOUT_ARG *inOutArg; } COMMAND_t; typedef struct { COMMAND_t command; // Address of the command UINT16 inSize; // Maximum size of the input structure UINT16 outSize; // Maximum size of the output structure UINT16 typesOffset; // address of the types field UINT16 offsets[1]; } COMMAND_DESCRIPTOR_t; #if COMPRESSED_LISTS # define PAD_LIST 0 #else # define PAD_LIST 1 #endif #define _COMMAND_TABLE_DISPATCH_ #include "CommandDispatchData.h" #define TEST_COMMAND TPM_CC_Startup #define NEW_CC #else #include "Commands.h" #endif /* 6.3.1.2 Marshal/Unmarshal Functions */ /* 6.3.1.2.1 ParseHandleBuffer() */ /* This is the table-driven version of the handle buffer unmarshaling code */ TPM_RC ParseHandleBuffer( COMMAND *command ) { TPM_RC result; #if TABLE_DRIVEN_DISPATCH COMMAND_DESCRIPTOR_t *desc; BYTE *types; BYTE type; BYTE dType; // Make sure that nothing strange has happened pAssert(command->index < sizeof(s_CommandDataArray) / sizeof(COMMAND_DESCRIPTOR_t *)); // Get the address of the descriptor for this command desc = s_CommandDataArray[command->index]; pAssert(desc != NULL); // Get the associated list of unmarshaling data types. types = &((BYTE *)desc)[desc->typesOffset]; // if(s_ccAttr[commandIndex].commandIndex == TEST_COMMAND) // commandIndex = commandIndex; // No handles yet command->handleNum = 0; // Get the first type value for(type = *types++; // check each byte to make sure that we have not hit the start // of the parameters (dType = (type & 0x7F)) < PARAMETER_FIRST_TYPE; // get the next type type = *types++) { #if TABLE_DRIVEN_MARSHAL marshalIndex_t index; index = unmarshalArray[dType] | ((type & 0x80) ? NULL_FLAG : 0); result = Unmarshal(index, &(command->handles[command->handleNum]), &command->parameterBuffer, &command->parameterSize); #else // See if unmarshaling of this handle type requires a flag if(dType < HANDLE_FIRST_FLAG_TYPE) { // Look up the function to do the unmarshaling NoFlagFunction *f = (NoFlagFunction *)unmarshalArray[dType]; // call it result = f(&(command->handles[command->handleNum]), &command->parameterBuffer, &command->parameterSize); } else { // Look up the function FlagFunction *f = unmarshalArray[dType]; // Call it setting the flag to the appropriate value result = f(&(command->handles[command->handleNum]), &command->parameterBuffer, &command->parameterSize, (type & 0x80) != 0); } #endif // Got a handle // We do this first so that the match for the handle offset of the // response code works correctly. command->handleNum += 1; if(result != TPM_RC_SUCCESS) // if the unmarshaling failed, return the response code with the // handle indication set return result + TPM_RC_H + (command->handleNum * TPM_RC_1); } #else BYTE **handleBufferStart = &command->parameterBuffer; INT32 *bufferRemainingSize = &command->parameterSize; TPM_HANDLE *handles = &command->handles[0]; UINT32 *handleCount = &command->handleNum; *handleCount = 0; switch(command->code) { #include "HandleProcess.h" #undef handles default: FAIL(FATAL_ERROR_INTERNAL); break; } #endif return TPM_RC_SUCCESS; } /* 6.3.1.2.2 CommandDispatcher() */ /* Function to unmarshal the command parameters, call the selected action code, and marshal the response parameters. */ TPM_RC CommandDispatcher( COMMAND *command ) { #if !TABLE_DRIVEN_DISPATCH TPM_RC result; BYTE **paramBuffer = &command->parameterBuffer; INT32 *paramBufferSize = &command->parameterSize; BYTE **responseBuffer = &command->responseBuffer; INT32 *respParmSize = &command->parameterSize; INT32 rSize; TPM_HANDLE *handles = &command->handles[0]; command->handleNum = 0; /* The command-specific code knows how many handles there are. This is for cataloging the number of response handles */ MemoryIoBufferAllocationReset(); /* Initialize so that allocation will work properly */ switch(GetCommandCode(command->index)) { #include "CommandDispatcher.h" default: FAIL(FATAL_ERROR_INTERNAL); break; } Exit: MemoryIoBufferZero(); return result; #else COMMAND_DESCRIPTOR_t *desc; BYTE *types; BYTE type; UINT16 *offsets; UINT16 offset = 0; UINT32 maxInSize; BYTE *commandIn; INT32 maxOutSize; BYTE *commandOut; COMMAND_t cmd; TPM_HANDLE *handles; UINT32 hasInParameters = 0; BOOL hasOutParameters = FALSE; UINT32 pNum = 0; BYTE dType; // dispatch type TPM_RC result; // // Get the address of the descriptor for this command pAssert(command->index < sizeof(s_CommandDataArray) / sizeof(COMMAND_DESCRIPTOR_t *)); desc = s_CommandDataArray[command->index]; // Get the list of parameter types for this command pAssert(desc != NULL); types = &((BYTE *)desc)[desc->typesOffset]; // Get a pointer to the list of parameter offsets offsets = &desc->offsets[0]; // pointer to handles handles = command->handles; // Get the size required to hold all the unmarshaled parameters for this command maxInSize = desc->inSize; // and the size of the output parameter structure returned by this command maxOutSize = desc->outSize; MemoryIoBufferAllocationReset(); // Get a buffer for the input parameters commandIn = MemoryGetInBuffer(maxInSize); // And the output parameters commandOut = (BYTE *)MemoryGetOutBuffer((UINT32)maxOutSize); // Get the address of the action code dispatch cmd = desc->command; // Copy any handles into the input buffer for(type = *types++; (type & 0x7F) < PARAMETER_FIRST_TYPE; type = *types++) { // 'offset' was initialized to zero so the first unmarshaling will always // be to the start of the data structure *(TPM_HANDLE *)&(commandIn[offset]) = *handles++; // This check is used so that we don't have to add an additional offset // value to the offsets list to correspond to the stop value in the // command parameter list. if(*types != 0xFF) offset = *offsets++; // maxInSize -= sizeof(TPM_HANDLE); hasInParameters++; } // Exit loop with type containing the last value read from types // maxInSize has the amount of space remaining in the command action input // buffer. Make sure that we don't have more data to unmarshal than is going to // fit. // type contains the last value read from types so it is not necessary to // reload it, which is good because *types now points to the next value for(; (dType = (type & 0x7F)) <= PARAMETER_LAST_TYPE; type = *types++) { pNum++; #if TABLE_DRIVEN_MARSHAL { marshalIndex_t index = unmarshalArray[dType]; index |= (type & 0x80) ? NULL_FLAG : 0; result = Unmarshal(index, &commandIn[offset], &command->parameterBuffer, &command->parameterSize); } #else if(dType < PARAMETER_FIRST_FLAG_TYPE) { NoFlagFunction *f = (NoFlagFunction *)unmarshalArray[dType]; result = f(&commandIn[offset], &command->parameterBuffer, &command->parameterSize); } else { FlagFunction *f = unmarshalArray[dType]; result = f(&commandIn[offset], &command->parameterBuffer, &command->parameterSize, (type & 0x80) != 0); } #endif if(result != TPM_RC_SUCCESS) { result += TPM_RC_P + (TPM_RC_1 * pNum); goto Exit; } // This check is used so that we don't have to add an additional offset // value to the offsets list to correspond to the stop value in the // command parameter list. if(*types != 0xFF) offset = *offsets++; hasInParameters++; } // Should have used all the bytes in the input if(command->parameterSize != 0) { result = TPM_RC_SIZE; goto Exit; } // The command parameter unmarshaling stopped when it hit a value that was out // of range for unmarshaling values and left *types pointing to the first // marshaling type. If that type happens to be the STOP value, then there // are no response parameters. So, set the flag to indicate if there are // output parameters. hasOutParameters = *types != 0xFF; // There are four cases for calling, with and without input parameters and with // and without output parameters. if(hasInParameters > 0) { if(hasOutParameters) result = cmd.inOutArg(commandIn, commandOut); else result = cmd.inArg(commandIn); } else { if(hasOutParameters) result = cmd.outArg(commandOut); else result = cmd.noArgs(); } if(result != TPM_RC_SUCCESS) goto Exit; // Offset in the marshaled output structure offset = 0; // Process the return handles, if any command->handleNum = 0; // Could make this a loop to process output handles but there is only ever // one handle in the outputs (for now). type = *types++; if((dType = (type & 0x7F)) < RESPONSE_PARAMETER_FIRST_TYPE) { // The out->handle value was referenced as TPM_HANDLE in the // action code so it has to be properly aligned. command->handles[command->handleNum++] = *((TPM_HANDLE *)&(commandOut[offset])); maxOutSize -= sizeof(UINT32); type = *types++; offset = *offsets++; } // Use the size of the command action output buffer as the maximum for the // number of bytes that can get marshaled. Since the marshaling code has // no pointers to data, all of the data being returned has to be in the // command action output buffer. If we try to marshal more bytes than // could fit into the output buffer, we need to fail. for(;(dType = (type & 0x7F)) <= RESPONSE_PARAMETER_LAST_TYPE && !g_inFailureMode; type = *types++) { #if TABLE_DRIVEN_MARSHAL marshalIndex_t index = marshalArray[dType]; command->parameterSize += Marshal(index, &commandOut[offset], &command->responseBuffer, &maxOutSize); #else const MARSHAL_t f = marshalArray[dType]; command->parameterSize += f(&commandOut[offset], &command->responseBuffer, &maxOutSize); #endif offset = *offsets++; } result = (maxOutSize < 0) ? TPM_RC_FAILURE : TPM_RC_SUCCESS; Exit: MemoryIoBufferZero(); return result; #endif }