reactos/dll/win32/rpcrt4/ndr_stubless.c
Eric Kohl e54b32b434 [RPCRT4] Set binding handle for server functions
This enables us to impersonate server functions using RpcImpersonateClient.
2023-05-28 21:04:01 +02:00

2218 lines
78 KiB
C

/*
* NDR -Oi,-Oif,-Oicf Interpreter
*
* Copyright 2001 Ove Kåven, TransGaming Technologies
* Copyright 2003-5 Robert Shearman (for CodeWeavers)
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*
* TODO:
* - Pipes
* - Some types of binding handles
*/
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
#include "windef.h"
#include "winbase.h"
#include "winerror.h"
#include "objbase.h"
#include "rpc.h"
#include "rpcproxy.h"
#include "wine/exception.h"
#include "wine/asm.h"
#include "wine/debug.h"
#include "cpsf.h"
#include "ndr_misc.h"
#include "ndr_stubless.h"
WINE_DEFAULT_DEBUG_CHANNEL(rpc);
#define NDR_TABLE_MASK 127
static inline BOOL is_oicf_stubdesc(const PMIDL_STUB_DESC pStubDesc)
{
return pStubDesc->Version >= 0x20000;
}
static inline void call_buffer_sizer(PMIDL_STUB_MESSAGE pStubMsg, unsigned char *pMemory,
const NDR_PARAM_OIF *param)
{
PFORMAT_STRING pFormat;
NDR_BUFFERSIZE m;
if (param->attr.IsBasetype)
{
pFormat = &param->u.type_format_char;
if (param->attr.IsSimpleRef) pMemory = *(unsigned char **)pMemory;
}
else
{
pFormat = &pStubMsg->StubDesc->pFormatTypes[param->u.type_offset];
if (!param->attr.IsByValue) pMemory = *(unsigned char **)pMemory;
}
m = NdrBufferSizer[pFormat[0] & NDR_TABLE_MASK];
if (m) m(pStubMsg, pMemory, pFormat);
else
{
FIXME("format type 0x%x not implemented\n", pFormat[0]);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
}
static inline unsigned char *call_marshaller(PMIDL_STUB_MESSAGE pStubMsg, unsigned char *pMemory,
const NDR_PARAM_OIF *param)
{
PFORMAT_STRING pFormat;
NDR_MARSHALL m;
if (param->attr.IsBasetype)
{
pFormat = &param->u.type_format_char;
if (param->attr.IsSimpleRef) pMemory = *(unsigned char **)pMemory;
}
else
{
pFormat = &pStubMsg->StubDesc->pFormatTypes[param->u.type_offset];
if (!param->attr.IsByValue) pMemory = *(unsigned char **)pMemory;
}
m = NdrMarshaller[pFormat[0] & NDR_TABLE_MASK];
if (m) return m(pStubMsg, pMemory, pFormat);
else
{
FIXME("format type 0x%x not implemented\n", pFormat[0]);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
return NULL;
}
}
static inline unsigned char *call_unmarshaller(PMIDL_STUB_MESSAGE pStubMsg, unsigned char **ppMemory,
const NDR_PARAM_OIF *param, unsigned char fMustAlloc)
{
PFORMAT_STRING pFormat;
NDR_UNMARSHALL m;
if (param->attr.IsBasetype)
{
pFormat = &param->u.type_format_char;
if (param->attr.IsSimpleRef) ppMemory = (unsigned char **)*ppMemory;
}
else
{
pFormat = &pStubMsg->StubDesc->pFormatTypes[param->u.type_offset];
if (!param->attr.IsByValue) ppMemory = (unsigned char **)*ppMemory;
}
m = NdrUnmarshaller[pFormat[0] & NDR_TABLE_MASK];
if (m) return m(pStubMsg, ppMemory, pFormat, fMustAlloc);
else
{
FIXME("format type 0x%x not implemented\n", pFormat[0]);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
return NULL;
}
}
static inline void call_freer(PMIDL_STUB_MESSAGE pStubMsg, unsigned char *pMemory,
const NDR_PARAM_OIF *param)
{
PFORMAT_STRING pFormat;
NDR_FREE m;
if (param->attr.IsBasetype) return; /* nothing to do */
pFormat = &pStubMsg->StubDesc->pFormatTypes[param->u.type_offset];
if (!param->attr.IsByValue) pMemory = *(unsigned char **)pMemory;
m = NdrFreer[pFormat[0] & NDR_TABLE_MASK];
if (m) m(pStubMsg, pMemory, pFormat);
}
static DWORD calc_arg_size(MIDL_STUB_MESSAGE *pStubMsg, PFORMAT_STRING pFormat)
{
DWORD size;
switch(*pFormat)
{
case FC_RP:
if (pFormat[1] & FC_SIMPLE_POINTER)
{
size = 0;
break;
}
size = calc_arg_size(pStubMsg, &pFormat[2] + *(const SHORT*)&pFormat[2]);
break;
case FC_STRUCT:
case FC_PSTRUCT:
size = *(const WORD*)(pFormat + 2);
break;
case FC_BOGUS_STRUCT:
size = *(const WORD*)(pFormat + 2);
if(*(const WORD*)(pFormat + 4))
FIXME("Unhandled conformant description\n");
break;
case FC_CARRAY:
case FC_CVARRAY:
size = *(const WORD*)(pFormat + 2);
ComputeConformance(pStubMsg, NULL, pFormat + 4, 0);
size *= pStubMsg->MaxCount;
break;
case FC_SMFARRAY:
case FC_SMVARRAY:
size = *(const WORD*)(pFormat + 2);
break;
case FC_LGFARRAY:
case FC_LGVARRAY:
size = *(const DWORD*)(pFormat + 2);
break;
case FC_BOGUS_ARRAY:
pFormat = ComputeConformance(pStubMsg, NULL, pFormat + 4, *(const WORD*)&pFormat[2]);
TRACE("conformance = %ld\n", pStubMsg->MaxCount);
pFormat = ComputeVariance(pStubMsg, NULL, pFormat, pStubMsg->MaxCount);
size = ComplexStructSize(pStubMsg, pFormat);
size *= pStubMsg->MaxCount;
break;
case FC_USER_MARSHAL:
size = *(const WORD*)(pFormat + 4);
break;
case FC_CSTRING:
size = *(const WORD*)(pFormat + 2);
break;
case FC_WSTRING:
size = *(const WORD*)(pFormat + 2) * sizeof(WCHAR);
break;
case FC_C_CSTRING:
case FC_C_WSTRING:
if (*pFormat == FC_C_CSTRING)
size = sizeof(CHAR);
else
size = sizeof(WCHAR);
if (pFormat[1] == FC_STRING_SIZED)
ComputeConformance(pStubMsg, NULL, pFormat + 2, 0);
else
pStubMsg->MaxCount = 0;
size *= pStubMsg->MaxCount;
break;
default:
FIXME("Unhandled type %02x\n", *pFormat);
/* fallthrough */
case FC_UP:
case FC_OP:
case FC_FP:
case FC_IP:
size = sizeof(void *);
break;
}
return size;
}
void WINAPI NdrRpcSmSetClientToOsf(PMIDL_STUB_MESSAGE pMessage)
{
#if 0 /* these functions are not defined yet */
pMessage->pfnAllocate = NdrRpcSmClientAllocate;
pMessage->pfnFree = NdrRpcSmClientFree;
#endif
}
static const char *debugstr_PROC_PF(PARAM_ATTRIBUTES param_attributes)
{
char buffer[160];
buffer[0] = 0;
if (param_attributes.MustSize) strcat(buffer, " MustSize");
if (param_attributes.MustFree) strcat(buffer, " MustFree");
if (param_attributes.IsPipe) strcat(buffer, " IsPipe");
if (param_attributes.IsIn) strcat(buffer, " IsIn");
if (param_attributes.IsOut) strcat(buffer, " IsOut");
if (param_attributes.IsReturn) strcat(buffer, " IsReturn");
if (param_attributes.IsBasetype) strcat(buffer, " IsBasetype");
if (param_attributes.IsByValue) strcat(buffer, " IsByValue");
if (param_attributes.IsSimpleRef) strcat(buffer, " IsSimpleRef");
if (param_attributes.IsDontCallFreeInst) strcat(buffer, " IsDontCallFreeInst");
if (param_attributes.SaveForAsyncFinish) strcat(buffer, " SaveForAsyncFinish");
if (param_attributes.ServerAllocSize)
sprintf( buffer + strlen(buffer), " ServerAllocSize = %d", param_attributes.ServerAllocSize * 8);
return buffer[0] ? wine_dbg_sprintf( "%s", buffer + 1 ) : "";
}
static const char *debugstr_INTERPRETER_OPT_FLAGS(INTERPRETER_OPT_FLAGS Oi2Flags)
{
char buffer[160];
buffer[0] = 0;
if (Oi2Flags.ServerMustSize) strcat(buffer, " ServerMustSize");
if (Oi2Flags.ClientMustSize) strcat(buffer, " ClientMustSize");
if (Oi2Flags.HasReturn) strcat(buffer, " HasReturn");
if (Oi2Flags.HasPipes) strcat(buffer, " HasPipes");
if (Oi2Flags.Unused) strcat(buffer, " Unused");
if (Oi2Flags.HasAsyncUuid) strcat(buffer, " HasAsyncUuid");
if (Oi2Flags.HasExtensions) strcat(buffer, " HasExtensions");
if (Oi2Flags.HasAsyncHandle) strcat(buffer, " HasAsyncHandle");
return buffer[0] ? wine_dbg_sprintf( "%s", buffer + 1 ) : "";
}
#define ARG_FROM_OFFSET(args, offset) ((args) + (offset))
static size_t get_handle_desc_size(const NDR_PROC_HEADER *proc_header, PFORMAT_STRING format)
{
if (!proc_header->handle_type)
{
if (*format == FC_BIND_PRIMITIVE)
return sizeof(NDR_EHD_PRIMITIVE);
else if (*format == FC_BIND_GENERIC)
return sizeof(NDR_EHD_GENERIC);
else if (*format == FC_BIND_CONTEXT)
return sizeof(NDR_EHD_CONTEXT);
}
return 0;
}
static handle_t client_get_handle(const MIDL_STUB_MESSAGE *pStubMsg,
const NDR_PROC_HEADER *pProcHeader, const PFORMAT_STRING pFormat)
{
/* binding */
switch (pProcHeader->handle_type)
{
/* explicit binding: parse additional section */
case 0:
switch (*pFormat) /* handle_type */
{
case FC_BIND_PRIMITIVE: /* explicit primitive */
{
const NDR_EHD_PRIMITIVE *pDesc = (const NDR_EHD_PRIMITIVE *)pFormat;
TRACE("Explicit primitive handle @ %d\n", pDesc->offset);
if (pDesc->flag) /* pointer to binding */
return **(handle_t **)ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
else
return *(handle_t *)ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
}
case FC_BIND_GENERIC: /* explicit generic */
{
const NDR_EHD_GENERIC *pDesc = (const NDR_EHD_GENERIC *)pFormat;
void *pObject = NULL;
void *pArg;
const GENERIC_BINDING_ROUTINE_PAIR *pGenPair;
TRACE("Explicit generic binding handle #%d\n", pDesc->binding_routine_pair_index);
if (pDesc->flag_and_size & HANDLE_PARAM_IS_VIA_PTR)
pArg = *(void **)ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
else
pArg = ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
memcpy(&pObject, pArg, pDesc->flag_and_size & 0xf);
pGenPair = &pStubMsg->StubDesc->aGenericBindingRoutinePairs[pDesc->binding_routine_pair_index];
return pGenPair->pfnBind(pObject);
}
case FC_BIND_CONTEXT: /* explicit context */
{
const NDR_EHD_CONTEXT *pDesc = (const NDR_EHD_CONTEXT *)pFormat;
NDR_CCONTEXT context_handle;
TRACE("Explicit bind context\n");
if (pDesc->flags & HANDLE_PARAM_IS_VIA_PTR)
{
TRACE("\tHANDLE_PARAM_IS_VIA_PTR\n");
context_handle = **(NDR_CCONTEXT **)ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
}
else
context_handle = *(NDR_CCONTEXT *)ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
if (context_handle) return NDRCContextBinding(context_handle);
else if (pDesc->flags & NDR_CONTEXT_HANDLE_CANNOT_BE_NULL)
{
ERR("null context handle isn't allowed\n");
RpcRaiseException(RPC_X_SS_IN_NULL_CONTEXT);
return NULL;
}
/* FIXME: should we store this structure in stubMsg.pContext? */
}
default:
ERR("bad explicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
break;
case FC_BIND_GENERIC: /* implicit generic */
FIXME("FC_BIND_GENERIC\n");
RpcRaiseException(RPC_X_BAD_STUB_DATA); /* FIXME: remove when implemented */
break;
case FC_BIND_PRIMITIVE: /* implicit primitive */
TRACE("Implicit primitive handle\n");
return *pStubMsg->StubDesc->IMPLICIT_HANDLE_INFO.pPrimitiveHandle;
case FC_CALLBACK_HANDLE: /* implicit callback */
TRACE("FC_CALLBACK_HANDLE\n");
/* server calls callback procedures only in response to remote call, and most recent
binding handle is used. Calling back to a client can potentially result in another
callback with different current handle. */
return I_RpcGetCurrentCallHandle();
case FC_AUTO_HANDLE: /* implicit auto handle */
/* strictly speaking, it isn't necessary to set hBinding here
* since it isn't actually used (hence the automatic in its name),
* but then why does MIDL generate a valid entry in the
* MIDL_STUB_DESC for it? */
TRACE("Implicit auto handle\n");
return *pStubMsg->StubDesc->IMPLICIT_HANDLE_INFO.pAutoHandle;
default:
ERR("bad implicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
return NULL;
}
static void client_free_handle(
PMIDL_STUB_MESSAGE pStubMsg, const NDR_PROC_HEADER *pProcHeader,
PFORMAT_STRING pFormat, handle_t hBinding)
{
/* binding */
switch (pProcHeader->handle_type)
{
/* explicit binding: parse additional section */
case 0:
switch (*pFormat) /* handle_type */
{
case FC_BIND_GENERIC: /* explicit generic */
{
const NDR_EHD_GENERIC *pDesc = (const NDR_EHD_GENERIC *)pFormat;
void *pObject = NULL;
void *pArg;
const GENERIC_BINDING_ROUTINE_PAIR *pGenPair;
TRACE("Explicit generic binding handle #%d\n", pDesc->binding_routine_pair_index);
if (pDesc->flag_and_size & HANDLE_PARAM_IS_VIA_PTR)
pArg = *(void **)ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
else
pArg = ARG_FROM_OFFSET(pStubMsg->StackTop, pDesc->offset);
memcpy(&pObject, pArg, pDesc->flag_and_size & 0xf);
pGenPair = &pStubMsg->StubDesc->aGenericBindingRoutinePairs[pDesc->binding_routine_pair_index];
#ifdef __REACTOS__
if (hBinding) pGenPair->pfnUnbind(pObject, hBinding);
#else
pGenPair->pfnUnbind(pObject, hBinding);
#endif
break;
}
case FC_BIND_CONTEXT: /* explicit context */
case FC_BIND_PRIMITIVE: /* explicit primitive */
break;
default:
ERR("bad explicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
break;
case FC_BIND_GENERIC: /* implicit generic */
FIXME("FC_BIND_GENERIC\n");
RpcRaiseException(RPC_X_BAD_STUB_DATA); /* FIXME: remove when implemented */
break;
case FC_CALLBACK_HANDLE: /* implicit callback */
case FC_BIND_PRIMITIVE: /* implicit primitive */
case FC_AUTO_HANDLE: /* implicit auto handle */
break;
default:
ERR("bad implicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
}
static inline BOOL param_needs_alloc( PARAM_ATTRIBUTES attr )
{
return attr.IsOut && !attr.IsIn && !attr.IsBasetype && !attr.IsByValue;
}
static inline BOOL param_is_out_basetype( PARAM_ATTRIBUTES attr )
{
return attr.IsOut && !attr.IsIn && attr.IsBasetype && attr.IsSimpleRef;
}
static size_t basetype_arg_size( unsigned char fc )
{
switch (fc)
{
case FC_BYTE:
case FC_CHAR:
case FC_SMALL:
case FC_USMALL:
return sizeof(char);
case FC_WCHAR:
case FC_SHORT:
case FC_USHORT:
return sizeof(short);
case FC_LONG:
case FC_ULONG:
case FC_ENUM16:
case FC_ENUM32:
case FC_ERROR_STATUS_T:
return sizeof(int);
case FC_FLOAT:
return sizeof(float);
case FC_HYPER:
return sizeof(LONGLONG);
case FC_DOUBLE:
return sizeof(double);
case FC_INT3264:
case FC_UINT3264:
return sizeof(INT_PTR);
default:
FIXME("Unhandled basetype %#x.\n", fc);
return 0;
}
}
void client_do_args( PMIDL_STUB_MESSAGE pStubMsg, PFORMAT_STRING pFormat, enum stubless_phase phase,
void **fpu_args, unsigned short number_of_params, unsigned char *pRetVal )
{
const NDR_PARAM_OIF *params = (const NDR_PARAM_OIF *)pFormat;
unsigned int i;
for (i = 0; i < number_of_params; i++)
{
unsigned char *pArg = pStubMsg->StackTop + params[i].stack_offset;
PFORMAT_STRING pTypeFormat = (PFORMAT_STRING)&pStubMsg->StubDesc->pFormatTypes[params[i].u.type_offset];
#ifdef __x86_64__ /* floats are passed as doubles through varargs functions */
float f;
if (params[i].attr.IsBasetype &&
params[i].u.type_format_char == FC_FLOAT &&
!params[i].attr.IsSimpleRef &&
!fpu_args)
{
f = *(double *)pArg;
pArg = (unsigned char *)&f;
}
#endif
TRACE("param[%d]: %p type %02x %s\n", i, pArg,
params[i].attr.IsBasetype ? params[i].u.type_format_char : *pTypeFormat,
debugstr_PROC_PF( params[i].attr ));
switch (phase)
{
case STUBLESS_INITOUT:
if (*(unsigned char **)pArg)
{
if (param_needs_alloc(params[i].attr))
memset( *(unsigned char **)pArg, 0, calc_arg_size( pStubMsg, pTypeFormat ));
else if (param_is_out_basetype(params[i].attr))
memset( *(unsigned char **)pArg, 0, basetype_arg_size( params[i].u.type_format_char ));
}
break;
case STUBLESS_CALCSIZE:
if (params[i].attr.IsSimpleRef && !*(unsigned char **)pArg)
RpcRaiseException(RPC_X_NULL_REF_POINTER);
if (params[i].attr.IsIn) call_buffer_sizer(pStubMsg, pArg, &params[i]);
break;
case STUBLESS_MARSHAL:
if (params[i].attr.IsIn) call_marshaller(pStubMsg, pArg, &params[i]);
break;
case STUBLESS_UNMARSHAL:
if (params[i].attr.IsOut)
{
if (params[i].attr.IsReturn && pRetVal) pArg = pRetVal;
call_unmarshaller(pStubMsg, &pArg, &params[i], 0);
}
break;
case STUBLESS_FREE:
if (!params[i].attr.IsBasetype && params[i].attr.IsOut && !params[i].attr.IsByValue)
NdrClearOutParameters( pStubMsg, pTypeFormat, *(unsigned char **)pArg );
break;
default:
RpcRaiseException(RPC_S_INTERNAL_ERROR);
}
}
}
static unsigned int type_stack_size(unsigned char fc)
{
switch (fc)
{
case FC_BYTE:
case FC_CHAR:
case FC_SMALL:
case FC_USMALL:
case FC_WCHAR:
case FC_SHORT:
case FC_USHORT:
case FC_LONG:
case FC_ULONG:
case FC_INT3264:
case FC_UINT3264:
case FC_ENUM16:
case FC_ENUM32:
case FC_FLOAT:
case FC_ERROR_STATUS_T:
case FC_IGNORE:
return sizeof(void *);
case FC_DOUBLE:
return sizeof(double);
case FC_HYPER:
return sizeof(ULONGLONG);
default:
ERR("invalid base type 0x%x\n", fc);
RpcRaiseException(RPC_S_INTERNAL_ERROR);
}
}
static BOOL is_by_value( PFORMAT_STRING format )
{
switch (*format)
{
case FC_USER_MARSHAL:
case FC_STRUCT:
case FC_PSTRUCT:
case FC_CSTRUCT:
case FC_CPSTRUCT:
case FC_CVSTRUCT:
case FC_BOGUS_STRUCT:
return TRUE;
default:
return FALSE;
}
}
PFORMAT_STRING convert_old_args( PMIDL_STUB_MESSAGE pStubMsg, PFORMAT_STRING pFormat,
unsigned int stack_size, BOOL object_proc,
void *buffer, unsigned int size, unsigned int *count )
{
NDR_PARAM_OIF *args = buffer;
unsigned int i, stack_offset = object_proc ? sizeof(void *) : 0;
for (i = 0; stack_offset < stack_size; i++)
{
const NDR_PARAM_OI_BASETYPE *param = (const NDR_PARAM_OI_BASETYPE *)pFormat;
const NDR_PARAM_OI_OTHER *other = (const NDR_PARAM_OI_OTHER *)pFormat;
if (i + 1 > size / sizeof(*args))
{
FIXME( "%u args not supported\n", i );
RpcRaiseException( RPC_S_INTERNAL_ERROR );
}
args[i].stack_offset = stack_offset;
memset( &args[i].attr, 0, sizeof(args[i].attr) );
switch (param->param_direction)
{
case FC_IN_PARAM_BASETYPE:
args[i].attr.IsIn = 1;
args[i].attr.IsBasetype = 1;
break;
case FC_RETURN_PARAM_BASETYPE:
args[i].attr.IsOut = 1;
args[i].attr.IsReturn = 1;
args[i].attr.IsBasetype = 1;
break;
case FC_IN_PARAM:
args[i].attr.IsIn = 1;
args[i].attr.MustFree = 1;
break;
case FC_IN_PARAM_NO_FREE_INST:
args[i].attr.IsIn = 1;
args[i].attr.IsDontCallFreeInst = 1;
break;
case FC_IN_OUT_PARAM:
args[i].attr.IsIn = 1;
args[i].attr.IsOut = 1;
args[i].attr.MustFree = 1;
break;
case FC_OUT_PARAM:
args[i].attr.IsOut = 1;
break;
case FC_RETURN_PARAM:
args[i].attr.IsOut = 1;
args[i].attr.IsReturn = 1;
break;
}
if (args[i].attr.IsBasetype)
{
args[i].u.type_format_char = param->type_format_char;
stack_offset += type_stack_size( param->type_format_char );
pFormat += sizeof(NDR_PARAM_OI_BASETYPE);
}
else
{
args[i].u.type_offset = other->type_offset;
args[i].attr.IsByValue = is_by_value( &pStubMsg->StubDesc->pFormatTypes[other->type_offset] );
stack_offset += other->stack_size * sizeof(void *);
pFormat += sizeof(NDR_PARAM_OI_OTHER);
}
}
*count = i;
return (PFORMAT_STRING)args;
}
struct ndr_client_call_ctx
{
MIDL_STUB_MESSAGE *stub_msg;
INTERPRETER_OPT_FLAGS Oif_flags;
INTERPRETER_OPT_FLAGS2 ext_flags;
const NDR_PROC_HEADER *proc_header;
void *This;
PFORMAT_STRING handle_format;
handle_t hbinding;
};
static void CALLBACK ndr_client_call_finally(BOOL normal, void *arg)
{
struct ndr_client_call_ctx *ctx = arg;
if (ctx->ext_flags.HasNewCorrDesc)
{
/* free extra correlation package */
NdrCorrelationFree(ctx->stub_msg);
}
if (ctx->Oif_flags.HasPipes)
{
/* NdrPipesDone(...) */
}
/* free the full pointer translation tables */
if (ctx->proc_header->Oi_flags & Oi_FULL_PTR_USED)
NdrFullPointerXlatFree(ctx->stub_msg->FullPtrXlatTables);
/* free marshalling buffer */
if (ctx->proc_header->Oi_flags & Oi_OBJECT_PROC)
NdrProxyFreeBuffer(ctx->This, ctx->stub_msg);
else
{
NdrFreeBuffer(ctx->stub_msg);
client_free_handle(ctx->stub_msg, ctx->proc_header, ctx->handle_format, ctx->hbinding);
}
}
/* Helper for ndr_client_call, to factor out the part that may or may not be
* guarded by a try/except block. */
static LONG_PTR do_ndr_client_call( const MIDL_STUB_DESC *stub_desc, const PFORMAT_STRING format,
const PFORMAT_STRING handle_format, void **stack_top, void **fpu_stack, MIDL_STUB_MESSAGE *stub_msg,
unsigned short procedure_number, unsigned short stack_size, unsigned int number_of_params,
INTERPRETER_OPT_FLAGS Oif_flags, INTERPRETER_OPT_FLAGS2 ext_flags, const NDR_PROC_HEADER *proc_header )
{
struct ndr_client_call_ctx finally_ctx;
RPC_MESSAGE rpc_msg;
handle_t hbinding = NULL;
/* the value to return to the client from the remote procedure */
LONG_PTR retval = 0;
/* the pointer to the object when in OLE mode */
void *This = NULL;
/* correlation cache */
ULONG_PTR NdrCorrCache[256];
/* create the full pointer translation tables, if requested */
if (proc_header->Oi_flags & Oi_FULL_PTR_USED)
stub_msg->FullPtrXlatTables = NdrFullPointerXlatInit(0,XLAT_CLIENT);
if (proc_header->Oi_flags & Oi_OBJECT_PROC)
{
/* object is always the first argument */
This = stack_top[0];
NdrProxyInitialize(This, &rpc_msg, stub_msg, stub_desc, procedure_number);
}
finally_ctx.stub_msg = stub_msg;
finally_ctx.Oif_flags = Oif_flags;
finally_ctx.ext_flags = ext_flags;
finally_ctx.proc_header = proc_header;
finally_ctx.This = This;
finally_ctx.handle_format = handle_format;
finally_ctx.hbinding = hbinding;
__TRY
{
if (!(proc_header->Oi_flags & Oi_OBJECT_PROC))
NdrClientInitializeNew(&rpc_msg, stub_msg, stub_desc, procedure_number);
stub_msg->StackTop = (unsigned char *)stack_top;
/* we only need a handle if this isn't an object method */
if (!(proc_header->Oi_flags & Oi_OBJECT_PROC))
{
hbinding = client_get_handle(stub_msg, proc_header, handle_format);
if (!hbinding) return 0;
}
stub_msg->BufferLength = 0;
/* store the RPC flags away */
if (proc_header->Oi_flags & Oi_HAS_RPCFLAGS)
rpc_msg.RpcFlags = ((const NDR_PROC_HEADER_RPC *)proc_header)->rpc_flags;
/* use alternate memory allocation routines */
if (proc_header->Oi_flags & Oi_RPCSS_ALLOC_USED)
NdrRpcSmSetClientToOsf(stub_msg);
if (Oif_flags.HasPipes)
{
FIXME("pipes not supported yet\n");
RpcRaiseException(RPC_X_WRONG_STUB_VERSION); /* FIXME: remove when implemented */
/* init pipes package */
/* NdrPipesInitialize(...) */
}
if (ext_flags.HasNewCorrDesc)
{
/* initialize extra correlation package */
NdrCorrelationInitialize(stub_msg, NdrCorrCache, sizeof(NdrCorrCache), 0);
if (ext_flags.Unused & 0x2) /* has range on conformance */
stub_msg->CorrDespIncrement = 12;
}
/* order of phases:
* 1. INITOUT - zero [out] parameters (proxies only)
* 2. CALCSIZE - calculate the buffer size
* 3. GETBUFFER - allocate the buffer
* 4. MARSHAL - marshal [in] params into the buffer
* 5. SENDRECEIVE - send/receive buffer
* 6. UNMARSHAL - unmarshal [out] params from buffer
* 7. FREE - clear [out] parameters (for proxies, and only on error)
*/
/* 1. INITOUT */
if (proc_header->Oi_flags & Oi_OBJECT_PROC)
{
TRACE( "INITOUT\n" );
client_do_args(stub_msg, format, STUBLESS_INITOUT, fpu_stack,
number_of_params, (unsigned char *)&retval);
}
/* 2. CALCSIZE */
TRACE( "CALCSIZE\n" );
client_do_args(stub_msg, format, STUBLESS_CALCSIZE, fpu_stack,
number_of_params, (unsigned char *)&retval);
/* 3. GETBUFFER */
TRACE( "GETBUFFER\n" );
if (proc_header->Oi_flags & Oi_OBJECT_PROC)
NdrProxyGetBuffer(This, stub_msg);
else if (Oif_flags.HasPipes)
FIXME("pipes not supported yet\n");
else if (proc_header->handle_type == FC_AUTO_HANDLE)
#if 0
NdrNsGetBuffer(stub_msg, stub_msg->BufferLength, hBinding);
#else
FIXME("using auto handle - call NdrNsGetBuffer when it gets implemented\n");
#endif
else
NdrGetBuffer(stub_msg, stub_msg->BufferLength, hbinding);
/* 4. MARSHAL */
TRACE( "MARSHAL\n" );
client_do_args(stub_msg, format, STUBLESS_MARSHAL, fpu_stack,
number_of_params, (unsigned char *)&retval);
/* 5. SENDRECEIVE */
TRACE( "SENDRECEIVE\n" );
if (proc_header->Oi_flags & Oi_OBJECT_PROC)
NdrProxySendReceive(This, stub_msg);
else if (Oif_flags.HasPipes)
/* NdrPipesSendReceive(...) */
FIXME("pipes not supported yet\n");
else if (proc_header->handle_type == FC_AUTO_HANDLE)
#if 0
NdrNsSendReceive(stub_msg, stub_msg->Buffer, pStubDesc->IMPLICIT_HANDLE_INFO.pAutoHandle);
#else
FIXME("using auto handle - call NdrNsSendReceive when it gets implemented\n");
#endif
else
NdrSendReceive(stub_msg, stub_msg->Buffer);
/* convert strings, floating point values and endianness into our
* preferred format */
if ((rpc_msg.DataRepresentation & 0x0000FFFFUL) != NDR_LOCAL_DATA_REPRESENTATION)
NdrConvert(stub_msg, format);
/* 6. UNMARSHAL */
TRACE( "UNMARSHAL\n" );
client_do_args(stub_msg, format, STUBLESS_UNMARSHAL, fpu_stack,
number_of_params, (unsigned char *)&retval);
}
__FINALLY_CTX(ndr_client_call_finally, &finally_ctx)
return retval;
}
LONG_PTR CDECL DECLSPEC_HIDDEN ndr_client_call( PMIDL_STUB_DESC pStubDesc, PFORMAT_STRING pFormat,
void **stack_top, void **fpu_stack )
{
/* pointer to start of stack where arguments start */
MIDL_STUB_MESSAGE stubMsg;
/* procedure number */
unsigned short procedure_number;
/* size of stack */
unsigned short stack_size;
/* number of parameters. optional for client to give it to us */
unsigned int number_of_params;
/* cache of Oif_flags from v2 procedure header */
INTERPRETER_OPT_FLAGS Oif_flags = { 0 };
/* cache of extension flags from NDR_PROC_HEADER_EXTS */
INTERPRETER_OPT_FLAGS2 ext_flags = { 0 };
/* header for procedure string */
const NDR_PROC_HEADER * pProcHeader = (const NDR_PROC_HEADER *)&pFormat[0];
/* the value to return to the client from the remote procedure */
LONG_PTR RetVal = 0;
PFORMAT_STRING pHandleFormat;
NDR_PARAM_OIF old_args[256];
TRACE("pStubDesc %p, pFormat %p, ...\n", pStubDesc, pFormat);
TRACE("NDR Version: 0x%x\n", pStubDesc->Version);
if (pProcHeader->Oi_flags & Oi_HAS_RPCFLAGS)
{
const NDR_PROC_HEADER_RPC *header_rpc = (const NDR_PROC_HEADER_RPC *)&pFormat[0];
stack_size = header_rpc->stack_size;
procedure_number = header_rpc->proc_num;
pFormat += sizeof(NDR_PROC_HEADER_RPC);
}
else
{
stack_size = pProcHeader->stack_size;
procedure_number = pProcHeader->proc_num;
pFormat += sizeof(NDR_PROC_HEADER);
}
TRACE("stack size: 0x%x\n", stack_size);
TRACE("proc num: %d\n", procedure_number);
TRACE("Oi_flags = 0x%02x\n", pProcHeader->Oi_flags);
TRACE("MIDL stub version = 0x%x\n", pStubDesc->MIDLVersion);
pHandleFormat = pFormat;
/* we only need a handle if this isn't an object method */
if (!(pProcHeader->Oi_flags & Oi_OBJECT_PROC))
pFormat += get_handle_desc_size(pProcHeader, pFormat);
if (is_oicf_stubdesc(pStubDesc)) /* -Oicf format */
{
const NDR_PROC_PARTIAL_OIF_HEADER *pOIFHeader =
(const NDR_PROC_PARTIAL_OIF_HEADER *)pFormat;
Oif_flags = pOIFHeader->Oi2Flags;
number_of_params = pOIFHeader->number_of_params;
pFormat += sizeof(NDR_PROC_PARTIAL_OIF_HEADER);
TRACE("Oif_flags = %s\n", debugstr_INTERPRETER_OPT_FLAGS(Oif_flags) );
if (Oif_flags.HasExtensions)
{
const NDR_PROC_HEADER_EXTS *pExtensions = (const NDR_PROC_HEADER_EXTS *)pFormat;
ext_flags = pExtensions->Flags2;
pFormat += pExtensions->Size;
#ifdef __x86_64__
if (pExtensions->Size > sizeof(*pExtensions) && fpu_stack)
{
int i;
unsigned short fpu_mask = *(unsigned short *)(pExtensions + 1);
for (i = 0; i < 4; i++, fpu_mask >>= 2)
switch (fpu_mask & 3)
{
case 1: *(float *)&stack_top[i] = *(float *)&fpu_stack[i]; break;
case 2: *(double *)&stack_top[i] = *(double *)&fpu_stack[i]; break;
}
}
#endif
}
}
else
{
pFormat = convert_old_args( &stubMsg, pFormat, stack_size,
pProcHeader->Oi_flags & Oi_OBJECT_PROC,
old_args, sizeof(old_args), &number_of_params );
}
if (pProcHeader->Oi_flags & Oi_OBJECT_PROC)
{
__TRY
{
RetVal = do_ndr_client_call(pStubDesc, pFormat, pHandleFormat,
stack_top, fpu_stack, &stubMsg, procedure_number, stack_size,
number_of_params, Oif_flags, ext_flags, pProcHeader);
}
__EXCEPT_ALL
{
/* 7. FREE */
TRACE( "FREE\n" );
client_do_args(&stubMsg, pFormat, STUBLESS_FREE, fpu_stack,
number_of_params, (unsigned char *)&RetVal);
RetVal = NdrProxyErrorHandler(GetExceptionCode());
}
__ENDTRY
}
else if (pProcHeader->Oi_flags & Oi_HAS_COMM_OR_FAULT)
{
__TRY
{
RetVal = do_ndr_client_call(pStubDesc, pFormat, pHandleFormat,
stack_top, fpu_stack, &stubMsg, procedure_number, stack_size,
number_of_params, Oif_flags, ext_flags, pProcHeader);
}
__EXCEPT_ALL
{
const COMM_FAULT_OFFSETS *comm_fault_offsets = &pStubDesc->CommFaultOffsets[procedure_number];
ULONG *comm_status;
ULONG *fault_status;
TRACE("comm_fault_offsets = {0x%hx, 0x%hx}\n", comm_fault_offsets->CommOffset, comm_fault_offsets->FaultOffset);
if (comm_fault_offsets->CommOffset == -1)
comm_status = (ULONG *)&RetVal;
else if (comm_fault_offsets->CommOffset >= 0)
comm_status = *(ULONG **)ARG_FROM_OFFSET(stubMsg.StackTop, comm_fault_offsets->CommOffset);
else
comm_status = NULL;
if (comm_fault_offsets->FaultOffset == -1)
fault_status = (ULONG *)&RetVal;
else if (comm_fault_offsets->FaultOffset >= 0)
fault_status = *(ULONG **)ARG_FROM_OFFSET(stubMsg.StackTop, comm_fault_offsets->FaultOffset);
else
fault_status = NULL;
NdrMapCommAndFaultStatus(&stubMsg, comm_status, fault_status,
GetExceptionCode());
}
__ENDTRY
}
else
{
RetVal = do_ndr_client_call(pStubDesc, pFormat, pHandleFormat,
stack_top, fpu_stack, &stubMsg, procedure_number, stack_size,
number_of_params, Oif_flags, ext_flags, pProcHeader);
}
TRACE("RetVal = 0x%lx\n", RetVal);
return RetVal;
}
#ifdef __x86_64__
__ASM_GLOBAL_FUNC( NdrClientCall2,
"movq %r8,0x18(%rsp)\n\t"
"movq %r9,0x20(%rsp)\n\t"
"leaq 0x18(%rsp),%r8\n\t"
"xorq %r9,%r9\n\t"
"subq $0x28,%rsp\n\t"
__ASM_CFI(".cfi_adjust_cfa_offset 0x28\n\t")
"call " __ASM_NAME("ndr_client_call") "\n\t"
"addq $0x28,%rsp\n\t"
__ASM_CFI(".cfi_adjust_cfa_offset -0x28\n\t")
"ret" );
#else /* __x86_64__ */
/***********************************************************************
* NdrClientCall2 [RPCRT4.@]
*/
CLIENT_CALL_RETURN WINAPIV NdrClientCall2( PMIDL_STUB_DESC desc, PFORMAT_STRING format, ... )
{
__ms_va_list args;
LONG_PTR ret;
__ms_va_start( args, format );
ret = ndr_client_call( desc, format, va_arg( args, void ** ), NULL );
__ms_va_end( args );
return *(CLIENT_CALL_RETURN *)&ret;
}
#endif /* __x86_64__ */
/* Calls a function with the specified arguments, restoring the stack
* properly afterwards as we don't know the calling convention of the
* function */
#if defined __i386__ && defined _MSC_VER
__declspec(naked) LONG_PTR __cdecl call_server_func(SERVER_ROUTINE func, unsigned char * args, unsigned int stack_size)
{
__asm
{
push ebp
mov ebp, esp
push edi ; Save registers
push esi
mov eax, [ebp+16] ; Get stack size
sub esp, eax ; Make room in stack for arguments
and esp, 0xFFFFFFF0
mov edi, esp
mov ecx, eax
mov esi, [ebp+12]
shr ecx, 2
cld
rep movsd ; Copy dword blocks
call [ebp+8] ; Call function
lea esp, [ebp-8] ; Restore stack
pop esi ; Restore registers
pop edi
pop ebp
ret
}
}
#elif defined __i386__ && defined __GNUC__
LONG_PTR __cdecl call_server_func(SERVER_ROUTINE func, unsigned char * args, unsigned int stack_size);
__ASM_GLOBAL_FUNC(call_server_func,
"pushl %ebp\n\t"
__ASM_CFI(".cfi_adjust_cfa_offset 4\n\t")
__ASM_CFI(".cfi_rel_offset %ebp,0\n\t")
"movl %esp,%ebp\n\t"
__ASM_CFI(".cfi_def_cfa_register %ebp\n\t")
"pushl %edi\n\t" /* Save registers */
__ASM_CFI(".cfi_rel_offset %edi,-4\n\t")
"pushl %esi\n\t"
__ASM_CFI(".cfi_rel_offset %esi,-8\n\t")
"movl 16(%ebp), %eax\n\t" /* Get stack size */
"subl %eax, %esp\n\t" /* Make room in stack for arguments */
"andl $~15, %esp\n\t" /* Make sure stack has 16-byte alignment for Mac OS X */
"movl %esp, %edi\n\t"
"movl %eax, %ecx\n\t"
"movl 12(%ebp), %esi\n\t"
"shrl $2, %ecx\n\t" /* divide by 4 */
"cld\n\t"
"rep; movsl\n\t" /* Copy dword blocks */
"call *8(%ebp)\n\t" /* Call function */
"leal -8(%ebp), %esp\n\t" /* Restore stack */
"popl %esi\n\t" /* Restore registers */
__ASM_CFI(".cfi_same_value %esi\n\t")
"popl %edi\n\t"
__ASM_CFI(".cfi_same_value %edi\n\t")
"popl %ebp\n\t"
__ASM_CFI(".cfi_def_cfa %esp,4\n\t")
__ASM_CFI(".cfi_same_value %ebp\n\t")
"ret" )
#elif defined __x86_64__
LONG_PTR __cdecl call_server_func(SERVER_ROUTINE func, unsigned char * args, unsigned int stack_size);
__ASM_GLOBAL_FUNC( call_server_func,
"pushq %rbp\n\t"
__ASM_SEH(".seh_pushreg %rbp\n\t")
__ASM_CFI(".cfi_adjust_cfa_offset 8\n\t")
__ASM_CFI(".cfi_rel_offset %rbp,0\n\t")
"movq %rsp,%rbp\n\t"
__ASM_SEH(".seh_setframe %rbp,0\n\t")
__ASM_CFI(".cfi_def_cfa_register %rbp\n\t")
"pushq %rsi\n\t"
__ASM_SEH(".seh_pushreg %rsi\n\t")
__ASM_CFI(".cfi_rel_offset %rsi,-8\n\t")
"pushq %rdi\n\t"
__ASM_SEH(".seh_pushreg %rdi\n\t")
__ASM_SEH(".seh_endprologue\n\t")
__ASM_CFI(".cfi_rel_offset %rdi,-16\n\t")
"movq %rcx,%rax\n\t" /* function to call */
"movq $32,%rcx\n\t" /* allocate max(32,stack_size) bytes of stack space */
"cmpq %rcx,%r8\n\t"
"cmovgq %r8,%rcx\n\t"
"subq %rcx,%rsp\n\t"
"andq $~15,%rsp\n\t"
"movq %r8,%rcx\n\t"
"shrq $3,%rcx\n\t"
"movq %rsp,%rdi\n\t"
"movq %rdx,%rsi\n\t"
"rep; movsq\n\t" /* copy arguments */
"movq 0(%rsp),%rcx\n\t"
"movq 8(%rsp),%rdx\n\t"
"movq 16(%rsp),%r8\n\t"
"movq 24(%rsp),%r9\n\t"
"movq 0(%rsp),%xmm0\n\t"
"movq 8(%rsp),%xmm1\n\t"
"movq 16(%rsp),%xmm2\n\t"
"movq 24(%rsp),%xmm3\n\t"
"callq *%rax\n\t"
"leaq -16(%rbp),%rsp\n\t" /* restore stack */
"popq %rdi\n\t"
__ASM_CFI(".cfi_same_value %rdi\n\t")
"popq %rsi\n\t"
__ASM_CFI(".cfi_same_value %rsi\n\t")
__ASM_CFI(".cfi_def_cfa_register %rsp\n\t")
"popq %rbp\n\t"
__ASM_CFI(".cfi_adjust_cfa_offset -8\n\t")
__ASM_CFI(".cfi_same_value %rbp\n\t")
"ret")
#elif defined __arm__
LONG_PTR __cdecl call_server_func(SERVER_ROUTINE func, unsigned char *args, unsigned int stack_size);
__ASM_GLOBAL_FUNC( call_server_func,
".arm\n\t"
"push {r4, r5, LR}\n\t"
"mov r4, r0\n\t"
"mov r5, SP\n\t"
"lsr r3, r2, #2\n\t"
"cmp r3, #0\n\t"
"beq 5f\n\t"
"sub SP, SP, r2\n\t"
"tst r3, #1\n\t"
"subeq SP, SP, #4\n\t"
"1:\tsub r2, r2, #4\n\t"
"ldr r0, [r1, r2]\n\t"
"str r0, [SP, r2]\n\t"
"cmp r2, #0\n\t"
"bgt 1b\n\t"
"cmp r3, #1\n\t"
"bgt 2f\n\t"
"pop {r0}\n\t"
"b 5f\n\t"
"2:\tcmp r3, #2\n\t"
"bgt 3f\n\t"
"pop {r0-r1}\n\t"
"b 5f\n\t"
"3:\tcmp r3, #3\n\t"
"bgt 4f\n\t"
"pop {r0-r2}\n\t"
"b 5f\n\t"
"4:\tpop {r0-r3}\n\t"
"5:\tblx r4\n\t"
"mov SP, r5\n\t"
"pop {r4, r5, PC}" )
#elif defined __aarch64__
LONG_PTR __cdecl call_server_func(SERVER_ROUTINE func, unsigned char *args, unsigned int stack_size);
__ASM_GLOBAL_FUNC( call_server_func,
"stp x29, x30, [sp, #-16]!\n\t"
"mov x29, sp\n\t"
"add x3, x2, #15\n\t"
"lsr x3, x3, #4\n\t"
"sub sp, sp, x3, lsl #4\n\t"
"cbz x2, 2f\n"
"1:\tsub x2, x2, #8\n\t"
"ldr x4, [x1, x2]\n\t"
"str x4, [sp, x2]\n\t"
"cbnz x2, 1b\n"
"2:\tmov x8, x0\n\t"
"cbz x3, 3f\n\t"
"ldp x0, x1, [sp], #16\n\t"
"cmp x3, #1\n\t"
"b.le 3f\n\t"
"ldp x2, x3, [sp], #16\n\t"
"cmp x3, #2\n\t"
"b.le 3f\n\t"
"ldp x4, x5, [sp], #16\n\t"
"cmp x3, #3\n\t"
"b.le 3f\n\t"
"ldp x6, x7, [sp], #16\n"
"3:\tblr x8\n\t"
"mov sp, x29\n\t"
"ldp x29, x30, [sp], #16\n\t"
"ret" )
#else
#warning call_server_func not implemented for your architecture
LONG_PTR __cdecl call_server_func(SERVER_ROUTINE func, unsigned char * args, unsigned short stack_size)
{
FIXME("Not implemented for your architecture\n");
return 0;
}
#endif
static LONG_PTR *stub_do_args(MIDL_STUB_MESSAGE *pStubMsg,
PFORMAT_STRING pFormat, enum stubless_phase phase,
unsigned short number_of_params)
{
const NDR_PARAM_OIF *params = (const NDR_PARAM_OIF *)pFormat;
unsigned int i;
LONG_PTR *retval_ptr = NULL;
for (i = 0; i < number_of_params; i++)
{
unsigned char *pArg = pStubMsg->StackTop + params[i].stack_offset;
const unsigned char *pTypeFormat = &pStubMsg->StubDesc->pFormatTypes[params[i].u.type_offset];
TRACE("param[%d]: %p -> %p type %02x %s\n", i,
pArg, *(unsigned char **)pArg,
params[i].attr.IsBasetype ? params[i].u.type_format_char : *pTypeFormat,
debugstr_PROC_PF( params[i].attr ));
switch (phase)
{
case STUBLESS_MARSHAL:
if (params[i].attr.IsOut || params[i].attr.IsReturn)
call_marshaller(pStubMsg, pArg, &params[i]);
break;
case STUBLESS_MUSTFREE:
if (params[i].attr.MustFree)
{
call_freer(pStubMsg, pArg, &params[i]);
}
break;
case STUBLESS_FREE:
if (params[i].attr.ServerAllocSize)
{
HeapFree(GetProcessHeap(), 0, *(void **)pArg);
}
else if (param_needs_alloc(params[i].attr) &&
(!params[i].attr.MustFree || params[i].attr.IsSimpleRef))
{
if (*pTypeFormat != FC_BIND_CONTEXT) pStubMsg->pfnFree(*(void **)pArg);
}
break;
case STUBLESS_INITOUT:
if (param_needs_alloc(params[i].attr) && !params[i].attr.ServerAllocSize)
{
if (*pTypeFormat == FC_BIND_CONTEXT)
{
NDR_SCONTEXT ctxt = NdrContextHandleInitialize(pStubMsg, pTypeFormat);
*(void **)pArg = NDRSContextValue(ctxt);
if (params[i].attr.IsReturn) retval_ptr = (LONG_PTR *)NDRSContextValue(ctxt);
}
else
{
DWORD size = calc_arg_size(pStubMsg, pTypeFormat);
if (size)
{
*(void **)pArg = NdrAllocate(pStubMsg, size);
memset(*(void **)pArg, 0, size);
}
}
}
if (!retval_ptr && params[i].attr.IsReturn) retval_ptr = (LONG_PTR *)pArg;
break;
case STUBLESS_UNMARSHAL:
if (params[i].attr.ServerAllocSize)
*(void **)pArg = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY,
params[i].attr.ServerAllocSize * 8);
if (params[i].attr.IsIn)
call_unmarshaller(pStubMsg, &pArg, &params[i], 0);
break;
case STUBLESS_CALCSIZE:
if (params[i].attr.IsOut || params[i].attr.IsReturn)
call_buffer_sizer(pStubMsg, pArg, &params[i]);
break;
default:
RpcRaiseException(RPC_S_INTERNAL_ERROR);
}
TRACE("\tmemory addr (after): %p -> %p\n", pArg, *(unsigned char **)pArg);
}
return retval_ptr;
}
/***********************************************************************
* NdrStubCall2 [RPCRT4.@]
*
* Unmarshals [in] parameters, calls either a method in an object or a server
* function, marshals any [out] parameters and frees any allocated data.
*
* NOTES
* Used by stubless MIDL-generated code.
*/
LONG WINAPI NdrStubCall2(
struct IRpcStubBuffer * pThis,
struct IRpcChannelBuffer * pChannel,
PRPC_MESSAGE pRpcMsg,
DWORD * pdwStubPhase)
{
const MIDL_SERVER_INFO *pServerInfo;
const MIDL_STUB_DESC *pStubDesc;
PFORMAT_STRING pFormat;
MIDL_STUB_MESSAGE stubMsg;
/* pointer to start of stack to pass into stub implementation */
unsigned char * args;
/* size of stack */
unsigned short stack_size;
/* number of parameters. optional for client to give it to us */
unsigned int number_of_params;
/* cache of Oif_flags from v2 procedure header */
INTERPRETER_OPT_FLAGS Oif_flags = { 0 };
/* cache of extension flags from NDR_PROC_HEADER_EXTS */
INTERPRETER_OPT_FLAGS2 ext_flags = { 0 };
/* the type of pass we are currently doing */
enum stubless_phase phase;
/* header for procedure string */
const NDR_PROC_HEADER *pProcHeader;
/* location to put retval into */
LONG_PTR *retval_ptr = NULL;
/* correlation cache */
ULONG_PTR NdrCorrCache[256];
unsigned short BindingHandleOffset = (USHORT)-1;
TRACE("pThis %p, pChannel %p, pRpcMsg %p, pdwStubPhase %p\n", pThis, pChannel, pRpcMsg, pdwStubPhase);
if (pThis)
pServerInfo = CStdStubBuffer_GetServerInfo(pThis);
else
pServerInfo = ((RPC_SERVER_INTERFACE *)pRpcMsg->RpcInterfaceInformation)->InterpreterInfo;
pStubDesc = pServerInfo->pStubDesc;
pFormat = pServerInfo->ProcString + pServerInfo->FmtStringOffset[pRpcMsg->ProcNum];
pProcHeader = (const NDR_PROC_HEADER *)&pFormat[0];
TRACE("NDR Version: 0x%x\n", pStubDesc->Version);
if (pProcHeader->Oi_flags & Oi_HAS_RPCFLAGS)
{
const NDR_PROC_HEADER_RPC *header_rpc = (const NDR_PROC_HEADER_RPC *)&pFormat[0];
stack_size = header_rpc->stack_size;
pFormat += sizeof(NDR_PROC_HEADER_RPC);
}
else
{
stack_size = pProcHeader->stack_size;
pFormat += sizeof(NDR_PROC_HEADER);
}
TRACE("Oi_flags = 0x%02x\n", pProcHeader->Oi_flags);
/* binding */
switch (pProcHeader->handle_type)
{
/* explicit binding: parse additional section */
case 0:
switch (*pFormat) /* handle_type */
{
case FC_BIND_PRIMITIVE: /* explicit primitive */
BindingHandleOffset = ((NDR_EHD_PRIMITIVE*)pFormat)->offset;
pFormat += sizeof(NDR_EHD_PRIMITIVE);
break;
case FC_BIND_GENERIC: /* explicit generic */
BindingHandleOffset = ((NDR_EHD_GENERIC*)pFormat)->offset;
pFormat += sizeof(NDR_EHD_GENERIC);
break;
case FC_BIND_CONTEXT: /* explicit context */
BindingHandleOffset = ((NDR_EHD_CONTEXT*)pFormat)->offset;
pFormat += sizeof(NDR_EHD_CONTEXT);
break;
default:
ERR("bad explicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
break;
case FC_BIND_GENERIC: /* implicit generic */
case FC_BIND_PRIMITIVE: /* implicit primitive */
case FC_CALLBACK_HANDLE: /* implicit callback */
case FC_AUTO_HANDLE: /* implicit auto handle */
break;
default:
ERR("bad implicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
if (pProcHeader->Oi_flags & Oi_OBJECT_PROC)
NdrStubInitialize(pRpcMsg, &stubMsg, pStubDesc, pChannel);
else
NdrServerInitializeNew(pRpcMsg, &stubMsg, pStubDesc);
/* create the full pointer translation tables, if requested */
if (pProcHeader->Oi_flags & Oi_FULL_PTR_USED)
stubMsg.FullPtrXlatTables = NdrFullPointerXlatInit(0,XLAT_SERVER);
/* store the RPC flags away */
if (pProcHeader->Oi_flags & Oi_HAS_RPCFLAGS)
pRpcMsg->RpcFlags = ((const NDR_PROC_HEADER_RPC *)pProcHeader)->rpc_flags;
/* use alternate memory allocation routines */
if (pProcHeader->Oi_flags & Oi_RPCSS_ALLOC_USED)
#if 0
NdrRpcSsEnableAllocate(&stubMsg);
#else
FIXME("Set RPCSS memory allocation routines\n");
#endif
TRACE("allocating memory for stack of size %x\n", stack_size);
args = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, stack_size);
stubMsg.StackTop = args; /* used by conformance of top-level objects */
/* add the implicit This pointer as the first arg to the function if we
* are calling an object method */
if (pThis)
*(void **)args = ((CStdStubBuffer *)pThis)->pvServerObject;
/* add the binding handle to the stack if we are using explicit binding handles */
if (BindingHandleOffset != (USHORT)-1)
*(RPC_BINDING_HANDLE*)&(args[BindingHandleOffset]) = pRpcMsg->Handle;
if (is_oicf_stubdesc(pStubDesc))
{
const NDR_PROC_PARTIAL_OIF_HEADER *pOIFHeader = (const NDR_PROC_PARTIAL_OIF_HEADER *)pFormat;
Oif_flags = pOIFHeader->Oi2Flags;
number_of_params = pOIFHeader->number_of_params;
pFormat += sizeof(NDR_PROC_PARTIAL_OIF_HEADER);
TRACE("Oif_flags = %s\n", debugstr_INTERPRETER_OPT_FLAGS(Oif_flags) );
if (Oif_flags.HasExtensions)
{
const NDR_PROC_HEADER_EXTS *pExtensions = (const NDR_PROC_HEADER_EXTS *)pFormat;
ext_flags = pExtensions->Flags2;
pFormat += pExtensions->Size;
}
if (Oif_flags.HasPipes)
{
FIXME("pipes not supported yet\n");
RpcRaiseException(RPC_X_WRONG_STUB_VERSION); /* FIXME: remove when implemented */
/* init pipes package */
/* NdrPipesInitialize(...) */
}
if (ext_flags.HasNewCorrDesc)
{
/* initialize extra correlation package */
NdrCorrelationInitialize(&stubMsg, NdrCorrCache, sizeof(NdrCorrCache), 0);
if (ext_flags.Unused & 0x2) /* has range on conformance */
stubMsg.CorrDespIncrement = 12;
}
}
else
{
pFormat = convert_old_args( &stubMsg, pFormat, stack_size,
pProcHeader->Oi_flags & Oi_OBJECT_PROC,
/* reuse the correlation cache, it's not needed for v1 format */
NdrCorrCache, sizeof(NdrCorrCache), &number_of_params );
}
/* convert strings, floating point values and endianness into our
* preferred format */
if ((pRpcMsg->DataRepresentation & 0x0000FFFFUL) != NDR_LOCAL_DATA_REPRESENTATION)
NdrConvert(&stubMsg, pFormat);
for (phase = STUBLESS_UNMARSHAL; phase <= STUBLESS_FREE; phase++)
{
TRACE("phase = %d\n", phase);
switch (phase)
{
case STUBLESS_CALLSERVER:
/* call the server function */
if (pServerInfo->ThunkTable && pServerInfo->ThunkTable[pRpcMsg->ProcNum])
pServerInfo->ThunkTable[pRpcMsg->ProcNum](&stubMsg);
else
{
SERVER_ROUTINE func;
LONG_PTR retval;
if (pProcHeader->Oi_flags & Oi_OBJECT_PROC)
{
SERVER_ROUTINE *vtbl = *(SERVER_ROUTINE **)((CStdStubBuffer *)pThis)->pvServerObject;
func = vtbl[pRpcMsg->ProcNum];
}
else
func = pServerInfo->DispatchTable[pRpcMsg->ProcNum];
/* FIXME: what happens with return values that don't fit into a single register on x86? */
retval = call_server_func(func, args, stack_size);
if (retval_ptr)
{
TRACE("stub implementation returned 0x%lx\n", retval);
*retval_ptr = retval;
}
else
TRACE("void stub implementation\n");
}
stubMsg.Buffer = NULL;
stubMsg.BufferLength = 0;
break;
case STUBLESS_GETBUFFER:
if (pProcHeader->Oi_flags & Oi_OBJECT_PROC)
NdrStubGetBuffer(pThis, pChannel, &stubMsg);
else
{
RPC_STATUS Status;
pRpcMsg->BufferLength = stubMsg.BufferLength;
/* allocate buffer for [out] and [ret] params */
Status = I_RpcGetBuffer(pRpcMsg);
if (Status)
RpcRaiseException(Status);
stubMsg.Buffer = pRpcMsg->Buffer;
}
break;
case STUBLESS_UNMARSHAL:
case STUBLESS_INITOUT:
case STUBLESS_CALCSIZE:
case STUBLESS_MARSHAL:
case STUBLESS_MUSTFREE:
case STUBLESS_FREE:
retval_ptr = stub_do_args(&stubMsg, pFormat, phase, number_of_params);
break;
default:
ERR("shouldn't reach here. phase %d\n", phase);
break;
}
}
pRpcMsg->BufferLength = (unsigned int)(stubMsg.Buffer - (unsigned char *)pRpcMsg->Buffer);
if (ext_flags.HasNewCorrDesc)
{
/* free extra correlation package */
NdrCorrelationFree(&stubMsg);
}
if (Oif_flags.HasPipes)
{
/* NdrPipesDone(...) */
}
/* free the full pointer translation tables */
if (pProcHeader->Oi_flags & Oi_FULL_PTR_USED)
NdrFullPointerXlatFree(stubMsg.FullPtrXlatTables);
/* free server function stack */
HeapFree(GetProcessHeap(), 0, args);
return S_OK;
}
/***********************************************************************
* NdrServerCall2 [RPCRT4.@]
*/
void WINAPI NdrServerCall2(PRPC_MESSAGE pRpcMsg)
{
DWORD dwPhase;
NdrStubCall2(NULL, NULL, pRpcMsg, &dwPhase);
}
/***********************************************************************
* NdrStubCall [RPCRT4.@]
*/
LONG WINAPI NdrStubCall( struct IRpcStubBuffer *This, struct IRpcChannelBuffer *channel,
PRPC_MESSAGE msg, DWORD *phase )
{
return NdrStubCall2( This, channel, msg, phase );
}
/***********************************************************************
* NdrServerCall [RPCRT4.@]
*/
void WINAPI NdrServerCall( PRPC_MESSAGE msg )
{
DWORD phase;
NdrStubCall( NULL, NULL, msg, &phase );
}
/***********************************************************************
* NdrServerCallAll [RPCRT4.@]
*/
void WINAPI NdrServerCallAll( PRPC_MESSAGE msg )
{
FIXME("%p stub\n", msg);
}
/* Helper for ndr_async_client_call, to factor out the part that may or may not be
* guarded by a try/except block. */
static void do_ndr_async_client_call( const MIDL_STUB_DESC *pStubDesc, PFORMAT_STRING pFormat, void **stack_top )
{
/* pointer to start of stack where arguments start */
PRPC_MESSAGE pRpcMsg;
PMIDL_STUB_MESSAGE pStubMsg;
RPC_ASYNC_STATE *pAsync;
struct async_call_data *async_call_data;
/* procedure number */
unsigned short procedure_number;
/* cache of Oif_flags from v2 procedure header */
INTERPRETER_OPT_FLAGS Oif_flags = { 0 };
/* cache of extension flags from NDR_PROC_HEADER_EXTS */
INTERPRETER_OPT_FLAGS2 ext_flags = { 0 };
/* header for procedure string */
const NDR_PROC_HEADER * pProcHeader = (const NDR_PROC_HEADER *)&pFormat[0];
RPC_STATUS status;
/* Later NDR language versions probably won't be backwards compatible */
if (pStubDesc->Version > 0x50002)
{
FIXME("Incompatible stub description version: 0x%x\n", pStubDesc->Version);
RpcRaiseException(RPC_X_WRONG_STUB_VERSION);
}
async_call_data = I_RpcAllocate(sizeof(*async_call_data) + sizeof(MIDL_STUB_MESSAGE) + sizeof(RPC_MESSAGE));
if (!async_call_data) RpcRaiseException(RPC_X_NO_MEMORY);
async_call_data->pProcHeader = pProcHeader;
async_call_data->pStubMsg = pStubMsg = (PMIDL_STUB_MESSAGE)(async_call_data + 1);
pRpcMsg = (PRPC_MESSAGE)(pStubMsg + 1);
if (pProcHeader->Oi_flags & Oi_HAS_RPCFLAGS)
{
const NDR_PROC_HEADER_RPC *header_rpc = (const NDR_PROC_HEADER_RPC *)&pFormat[0];
async_call_data->stack_size = header_rpc->stack_size;
procedure_number = header_rpc->proc_num;
pFormat += sizeof(NDR_PROC_HEADER_RPC);
}
else
{
async_call_data->stack_size = pProcHeader->stack_size;
procedure_number = pProcHeader->proc_num;
pFormat += sizeof(NDR_PROC_HEADER);
}
TRACE("stack size: 0x%x\n", async_call_data->stack_size);
TRACE("proc num: %d\n", procedure_number);
/* create the full pointer translation tables, if requested */
if (pProcHeader->Oi_flags & Oi_FULL_PTR_USED)
pStubMsg->FullPtrXlatTables = NdrFullPointerXlatInit(0,XLAT_CLIENT);
if (pProcHeader->Oi_flags & Oi_OBJECT_PROC)
{
ERR("objects not supported\n");
I_RpcFree(async_call_data);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
NdrClientInitializeNew(pRpcMsg, pStubMsg, pStubDesc, procedure_number);
TRACE("Oi_flags = 0x%02x\n", pProcHeader->Oi_flags);
TRACE("MIDL stub version = 0x%x\n", pStubDesc->MIDLVersion);
/* needed for conformance of top-level objects */
pStubMsg->StackTop = I_RpcAllocate(async_call_data->stack_size);
memcpy(pStubMsg->StackTop, stack_top, async_call_data->stack_size);
pAsync = *(RPC_ASYNC_STATE **)pStubMsg->StackTop;
pAsync->StubInfo = async_call_data;
async_call_data->pHandleFormat = pFormat;
TRACE("pAsync %p, pAsync->StubInfo %p, NotificationType %d\n", pAsync, pAsync->StubInfo, pAsync->NotificationType);
pFormat += get_handle_desc_size(pProcHeader, pFormat);
async_call_data->hBinding = client_get_handle(pStubMsg, pProcHeader, async_call_data->pHandleFormat);
if (!async_call_data->hBinding) return;
if (is_oicf_stubdesc(pStubDesc))
{
const NDR_PROC_PARTIAL_OIF_HEADER *pOIFHeader =
(const NDR_PROC_PARTIAL_OIF_HEADER *)pFormat;
Oif_flags = pOIFHeader->Oi2Flags;
async_call_data->number_of_params = pOIFHeader->number_of_params;
pFormat += sizeof(NDR_PROC_PARTIAL_OIF_HEADER);
TRACE("Oif_flags = %s\n", debugstr_INTERPRETER_OPT_FLAGS(Oif_flags) );
if (Oif_flags.HasExtensions)
{
const NDR_PROC_HEADER_EXTS *pExtensions =
(const NDR_PROC_HEADER_EXTS *)pFormat;
ext_flags = pExtensions->Flags2;
pFormat += pExtensions->Size;
}
}
else
{
pFormat = convert_old_args( pStubMsg, pFormat, async_call_data->stack_size,
pProcHeader->Oi_flags & Oi_OBJECT_PROC,
async_call_data->NdrCorrCache, sizeof(async_call_data->NdrCorrCache),
&async_call_data->number_of_params );
}
async_call_data->pParamFormat = pFormat;
pStubMsg->BufferLength = 0;
/* store the RPC flags away */
if (pProcHeader->Oi_flags & Oi_HAS_RPCFLAGS)
pRpcMsg->RpcFlags = ((const NDR_PROC_HEADER_RPC *)pProcHeader)->rpc_flags;
/* use alternate memory allocation routines */
if (pProcHeader->Oi_flags & Oi_RPCSS_ALLOC_USED)
NdrRpcSmSetClientToOsf(pStubMsg);
if (Oif_flags.HasPipes)
{
FIXME("pipes not supported yet\n");
RpcRaiseException(RPC_X_WRONG_STUB_VERSION); /* FIXME: remove when implemented */
/* init pipes package */
/* NdrPipesInitialize(...) */
}
if (ext_flags.HasNewCorrDesc)
{
/* initialize extra correlation package */
NdrCorrelationInitialize(pStubMsg, async_call_data->NdrCorrCache, sizeof(async_call_data->NdrCorrCache), 0);
if (ext_flags.Unused & 0x2) /* has range on conformance */
pStubMsg->CorrDespIncrement = 12;
}
/* order of phases:
* 1. CALCSIZE - calculate the buffer size
* 2. GETBUFFER - allocate the buffer
* 3. MARSHAL - marshal [in] params into the buffer
* 4. SENDRECEIVE - send buffer
* Then in NdrpCompleteAsyncClientCall:
* 1. SENDRECEIVE - receive buffer
* 2. UNMARSHAL - unmarshal [out] params from buffer
*/
/* 1. CALCSIZE */
TRACE( "CALCSIZE\n" );
client_do_args(pStubMsg, pFormat, STUBLESS_CALCSIZE, NULL, async_call_data->number_of_params, NULL);
/* 2. GETBUFFER */
TRACE( "GETBUFFER\n" );
if (Oif_flags.HasPipes)
/* NdrGetPipeBuffer(...) */
FIXME("pipes not supported yet\n");
else
{
if (pProcHeader->handle_type == FC_AUTO_HANDLE)
#if 0
NdrNsGetBuffer(pStubMsg, pStubMsg->BufferLength, async_call_data->hBinding);
#else
FIXME("using auto handle - call NdrNsGetBuffer when it gets implemented\n");
#endif
else
NdrGetBuffer(pStubMsg, pStubMsg->BufferLength, async_call_data->hBinding);
}
pRpcMsg->RpcFlags |= RPC_BUFFER_ASYNC;
status = I_RpcAsyncSetHandle(pRpcMsg, pAsync);
if (status != RPC_S_OK)
RpcRaiseException(status);
/* 3. MARSHAL */
TRACE( "MARSHAL\n" );
client_do_args(pStubMsg, pFormat, STUBLESS_MARSHAL, NULL, async_call_data->number_of_params, NULL);
/* 4. SENDRECEIVE */
TRACE( "SEND\n" );
pRpcMsg->RpcFlags |= RPC_BUFFER_ASYNC;
/* send the [in] params only */
if (Oif_flags.HasPipes)
/* NdrPipesSend(...) */
FIXME("pipes not supported yet\n");
else
{
if (pProcHeader->handle_type == FC_AUTO_HANDLE)
#if 0
NdrNsSend(&stubMsg, stubMsg.Buffer, pStubDesc->IMPLICIT_HANDLE_INFO.pAutoHandle);
#else
FIXME("using auto handle - call NdrNsSend when it gets implemented\n");
#endif
else
{
pStubMsg->RpcMsg->BufferLength = pStubMsg->Buffer - (unsigned char *)pStubMsg->RpcMsg->Buffer;
status = I_RpcSend(pStubMsg->RpcMsg);
if (status != RPC_S_OK)
RpcRaiseException(status);
}
}
}
LONG_PTR CDECL DECLSPEC_HIDDEN ndr_async_client_call( PMIDL_STUB_DESC pStubDesc, PFORMAT_STRING pFormat,
void **stack_top )
{
LONG_PTR ret = 0;
const NDR_PROC_HEADER *pProcHeader = (const NDR_PROC_HEADER *)&pFormat[0];
TRACE("pStubDesc %p, pFormat %p, ...\n", pStubDesc, pFormat);
if (pProcHeader->Oi_flags & Oi_HAS_COMM_OR_FAULT)
{
__TRY
{
do_ndr_async_client_call( pStubDesc, pFormat, stack_top );
}
__EXCEPT_ALL
{
FIXME("exception %x during ndr_async_client_call()\n", GetExceptionCode());
ret = GetExceptionCode();
}
__ENDTRY
}
else
do_ndr_async_client_call( pStubDesc, pFormat, stack_top);
TRACE("returning %ld\n", ret);
return ret;
}
RPC_STATUS NdrpCompleteAsyncClientCall(RPC_ASYNC_STATE *pAsync, void *Reply)
{
/* pointer to start of stack where arguments start */
PMIDL_STUB_MESSAGE pStubMsg;
struct async_call_data *async_call_data;
/* header for procedure string */
const NDR_PROC_HEADER * pProcHeader;
RPC_STATUS status = RPC_S_OK;
if (!pAsync->StubInfo)
return RPC_S_INVALID_ASYNC_HANDLE;
async_call_data = pAsync->StubInfo;
pStubMsg = async_call_data->pStubMsg;
pProcHeader = async_call_data->pProcHeader;
/* order of phases:
* 1. CALCSIZE - calculate the buffer size
* 2. GETBUFFER - allocate the buffer
* 3. MARSHAL - marshal [in] params into the buffer
* 4. SENDRECEIVE - send buffer
* Then in NdrpCompleteAsyncClientCall:
* 1. SENDRECEIVE - receive buffer
* 2. UNMARSHAL - unmarshal [out] params from buffer
*/
/* 1. SENDRECEIVE */
TRACE( "RECEIVE\n" );
pStubMsg->RpcMsg->RpcFlags |= RPC_BUFFER_ASYNC;
/* receive the [out] params */
if (pProcHeader->handle_type == FC_AUTO_HANDLE)
#if 0
NdrNsReceive(&stubMsg, stubMsg.Buffer, pStubDesc->IMPLICIT_HANDLE_INFO.pAutoHandle);
#else
FIXME("using auto handle - call NdrNsReceive when it gets implemented\n");
#endif
else
{
status = I_RpcReceive(pStubMsg->RpcMsg);
if (status != RPC_S_OK)
goto cleanup;
pStubMsg->BufferLength = pStubMsg->RpcMsg->BufferLength;
pStubMsg->BufferStart = pStubMsg->RpcMsg->Buffer;
pStubMsg->BufferEnd = pStubMsg->BufferStart + pStubMsg->BufferLength;
pStubMsg->Buffer = pStubMsg->BufferStart;
}
/* convert strings, floating point values and endianness into our
* preferred format */
#if 0
if ((pStubMsg->RpcMsg.DataRepresentation & 0x0000FFFFUL) != NDR_LOCAL_DATA_REPRESENTATION)
NdrConvert(pStubMsg, pFormat);
#endif
/* 2. UNMARSHAL */
TRACE( "UNMARSHAL\n" );
client_do_args(pStubMsg, async_call_data->pParamFormat, STUBLESS_UNMARSHAL,
NULL, async_call_data->number_of_params, Reply);
cleanup:
if (pStubMsg->fHasNewCorrDesc)
{
/* free extra correlation package */
NdrCorrelationFree(pStubMsg);
}
/* free the full pointer translation tables */
if (pProcHeader->Oi_flags & Oi_FULL_PTR_USED)
NdrFullPointerXlatFree(pStubMsg->FullPtrXlatTables);
/* free marshalling buffer */
NdrFreeBuffer(pStubMsg);
client_free_handle(pStubMsg, pProcHeader, async_call_data->pHandleFormat, async_call_data->hBinding);
I_RpcFree(pStubMsg->StackTop);
I_RpcFree(async_call_data);
TRACE("-- 0x%x\n", status);
return status;
}
#ifdef __x86_64__
__ASM_GLOBAL_FUNC( NdrAsyncClientCall,
"subq $0x28,%rsp\n\t"
__ASM_SEH(".seh_stackalloc 0x28\n\t")
__ASM_SEH(".seh_endprologue\n\t")
__ASM_CFI(".cfi_adjust_cfa_offset 0x28\n\t")
"movq %r8,0x40(%rsp)\n\t"
"movq %r9,0x48(%rsp)\n\t"
"leaq 0x40(%rsp),%r8\n\t"
"call " __ASM_NAME("ndr_async_client_call") "\n\t"
"addq $0x28,%rsp\n\t"
__ASM_CFI(".cfi_adjust_cfa_offset -0x28\n\t")
"ret" );
#else /* __x86_64__ */
/***********************************************************************
* NdrAsyncClientCall [RPCRT4.@]
*/
CLIENT_CALL_RETURN WINAPIV NdrAsyncClientCall( PMIDL_STUB_DESC desc, PFORMAT_STRING format, ... )
{
__ms_va_list args;
LONG_PTR ret;
__ms_va_start( args, format );
ret = ndr_async_client_call( desc, format, va_arg( args, void ** ));
__ms_va_end( args );
return *(CLIENT_CALL_RETURN *)&ret;
}
#endif /* __x86_64__ */
RPCRTAPI LONG RPC_ENTRY NdrAsyncStubCall(struct IRpcStubBuffer* pThis,
struct IRpcChannelBuffer* pChannel, PRPC_MESSAGE pRpcMsg,
DWORD * pdwStubPhase)
{
FIXME("unimplemented, expect crash!\n");
return 0;
}
void RPC_ENTRY NdrAsyncServerCall(PRPC_MESSAGE pRpcMsg)
{
const MIDL_SERVER_INFO *pServerInfo;
const MIDL_STUB_DESC *pStubDesc;
PFORMAT_STRING pFormat;
/* pointer to start of stack to pass into stub implementation */
unsigned char *args;
/* header for procedure string */
const NDR_PROC_HEADER *pProcHeader;
struct async_call_data *async_call_data;
PRPC_ASYNC_STATE pAsync;
RPC_STATUS status;
TRACE("%p\n", pRpcMsg);
pServerInfo = ((RPC_SERVER_INTERFACE *)pRpcMsg->RpcInterfaceInformation)->InterpreterInfo;
pStubDesc = pServerInfo->pStubDesc;
pFormat = pServerInfo->ProcString + pServerInfo->FmtStringOffset[pRpcMsg->ProcNum];
pProcHeader = (const NDR_PROC_HEADER *)&pFormat[0];
TRACE("NDR Version: 0x%x\n", pStubDesc->Version);
async_call_data = I_RpcAllocate(sizeof(*async_call_data) + sizeof(MIDL_STUB_MESSAGE) + sizeof(RPC_MESSAGE));
if (!async_call_data) RpcRaiseException(RPC_X_NO_MEMORY);
async_call_data->pProcHeader = pProcHeader;
async_call_data->pStubMsg = (PMIDL_STUB_MESSAGE)(async_call_data + 1);
*(PRPC_MESSAGE)(async_call_data->pStubMsg + 1) = *pRpcMsg;
if (pProcHeader->Oi_flags & Oi_HAS_RPCFLAGS)
{
const NDR_PROC_HEADER_RPC *header_rpc = (const NDR_PROC_HEADER_RPC *)&pFormat[0];
async_call_data->stack_size = header_rpc->stack_size;
pFormat += sizeof(NDR_PROC_HEADER_RPC);
}
else
{
async_call_data->stack_size = pProcHeader->stack_size;
pFormat += sizeof(NDR_PROC_HEADER);
}
TRACE("Oi_flags = 0x%02x\n", pProcHeader->Oi_flags);
/* binding */
switch (pProcHeader->handle_type)
{
/* explicit binding: parse additional section */
case 0:
switch (*pFormat) /* handle_type */
{
case FC_BIND_PRIMITIVE: /* explicit primitive */
pFormat += sizeof(NDR_EHD_PRIMITIVE);
break;
case FC_BIND_GENERIC: /* explicit generic */
pFormat += sizeof(NDR_EHD_GENERIC);
break;
case FC_BIND_CONTEXT: /* explicit context */
pFormat += sizeof(NDR_EHD_CONTEXT);
break;
default:
ERR("bad explicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
break;
case FC_BIND_GENERIC: /* implicit generic */
case FC_BIND_PRIMITIVE: /* implicit primitive */
case FC_CALLBACK_HANDLE: /* implicit callback */
case FC_AUTO_HANDLE: /* implicit auto handle */
break;
default:
ERR("bad implicit binding handle type (0x%02x)\n", pProcHeader->handle_type);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
if (pProcHeader->Oi_flags & Oi_OBJECT_PROC)
{
ERR("objects not supported\n");
I_RpcFree(async_call_data);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
NdrServerInitializeNew(pRpcMsg, async_call_data->pStubMsg, pStubDesc);
/* create the full pointer translation tables, if requested */
if (pProcHeader->Oi_flags & Oi_FULL_PTR_USED)
async_call_data->pStubMsg->FullPtrXlatTables = NdrFullPointerXlatInit(0, XLAT_SERVER);
/* use alternate memory allocation routines */
if (pProcHeader->Oi_flags & Oi_RPCSS_ALLOC_USED)
#if 0
NdrRpcSsEnableAllocate(&stubMsg);
#else
FIXME("Set RPCSS memory allocation routines\n");
#endif
TRACE("allocating memory for stack of size %x\n", async_call_data->stack_size);
args = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, async_call_data->stack_size);
async_call_data->pStubMsg->StackTop = args; /* used by conformance of top-level objects */
pAsync = I_RpcAllocate(sizeof(*pAsync));
if (!pAsync) RpcRaiseException(RPC_X_NO_MEMORY);
status = RpcAsyncInitializeHandle(pAsync, sizeof(*pAsync));
if (status != RPC_S_OK)
RpcRaiseException(status);
pAsync->StubInfo = async_call_data;
TRACE("pAsync %p, pAsync->StubInfo %p, pFormat %p\n", pAsync, pAsync->StubInfo, async_call_data->pHandleFormat);
/* add the implicit pAsync pointer as the first arg to the function */
*(void **)args = pAsync;
if (is_oicf_stubdesc(pStubDesc))
{
const NDR_PROC_PARTIAL_OIF_HEADER *pOIFHeader = (const NDR_PROC_PARTIAL_OIF_HEADER *)pFormat;
/* cache of Oif_flags from v2 procedure header */
INTERPRETER_OPT_FLAGS Oif_flags;
/* cache of extension flags from NDR_PROC_HEADER_EXTS */
INTERPRETER_OPT_FLAGS2 ext_flags = { 0 };
Oif_flags = pOIFHeader->Oi2Flags;
async_call_data->number_of_params = pOIFHeader->number_of_params;
pFormat += sizeof(NDR_PROC_PARTIAL_OIF_HEADER);
TRACE("Oif_flags = %s\n", debugstr_INTERPRETER_OPT_FLAGS(Oif_flags) );
if (Oif_flags.HasExtensions)
{
const NDR_PROC_HEADER_EXTS *pExtensions = (const NDR_PROC_HEADER_EXTS *)pFormat;
ext_flags = pExtensions->Flags2;
pFormat += pExtensions->Size;
}
if (Oif_flags.HasPipes)
{
FIXME("pipes not supported yet\n");
RpcRaiseException(RPC_X_WRONG_STUB_VERSION); /* FIXME: remove when implemented */
/* init pipes package */
/* NdrPipesInitialize(...) */
}
if (ext_flags.HasNewCorrDesc)
{
/* initialize extra correlation package */
NdrCorrelationInitialize(async_call_data->pStubMsg, async_call_data->NdrCorrCache, sizeof(async_call_data->NdrCorrCache), 0);
if (ext_flags.Unused & 0x2) /* has range on conformance */
async_call_data->pStubMsg->CorrDespIncrement = 12;
}
}
else
{
pFormat = convert_old_args( async_call_data->pStubMsg, pFormat, async_call_data->stack_size,
pProcHeader->Oi_flags & Oi_OBJECT_PROC,
/* reuse the correlation cache, it's not needed for v1 format */
async_call_data->NdrCorrCache, sizeof(async_call_data->NdrCorrCache), &async_call_data->number_of_params );
}
/* convert strings, floating point values and endianness into our
* preferred format */
if ((pRpcMsg->DataRepresentation & 0x0000FFFFUL) != NDR_LOCAL_DATA_REPRESENTATION)
NdrConvert(async_call_data->pStubMsg, pFormat);
async_call_data->pHandleFormat = pFormat;
/* 1. UNMARSHAL */
TRACE("UNMARSHAL\n");
stub_do_args(async_call_data->pStubMsg, pFormat, STUBLESS_UNMARSHAL, async_call_data->number_of_params);
/* 2. INITOUT */
TRACE("INITOUT\n");
async_call_data->retval_ptr = stub_do_args(async_call_data->pStubMsg, pFormat, STUBLESS_INITOUT, async_call_data->number_of_params);
/* 3. CALLSERVER */
TRACE("CALLSERVER\n");
if (pServerInfo->ThunkTable && pServerInfo->ThunkTable[pRpcMsg->ProcNum])
pServerInfo->ThunkTable[pRpcMsg->ProcNum](async_call_data->pStubMsg);
else
call_server_func(pServerInfo->DispatchTable[pRpcMsg->ProcNum], args, async_call_data->stack_size);
}
RPC_STATUS NdrpCompleteAsyncServerCall(RPC_ASYNC_STATE *pAsync, void *Reply)
{
/* pointer to start of stack where arguments start */
PMIDL_STUB_MESSAGE pStubMsg;
struct async_call_data *async_call_data;
/* the type of pass we are currently doing */
enum stubless_phase phase;
RPC_STATUS status = RPC_S_OK;
if (!pAsync->StubInfo)
return RPC_S_INVALID_ASYNC_HANDLE;
async_call_data = pAsync->StubInfo;
pStubMsg = async_call_data->pStubMsg;
TRACE("pAsync %p, pAsync->StubInfo %p, pFormat %p\n", pAsync, pAsync->StubInfo, async_call_data->pHandleFormat);
if (async_call_data->retval_ptr)
{
TRACE("stub implementation returned 0x%lx\n", *(LONG_PTR *)Reply);
*async_call_data->retval_ptr = *(LONG_PTR *)Reply;
}
else
TRACE("void stub implementation\n");
for (phase = STUBLESS_CALCSIZE; phase <= STUBLESS_FREE; phase++)
{
TRACE("phase = %d\n", phase);
switch (phase)
{
case STUBLESS_GETBUFFER:
if (async_call_data->pProcHeader->Oi_flags & Oi_OBJECT_PROC)
{
ERR("objects not supported\n");
HeapFree(GetProcessHeap(), 0, async_call_data->pStubMsg->StackTop);
I_RpcFree(async_call_data);
I_RpcFree(pAsync);
RpcRaiseException(RPC_X_BAD_STUB_DATA);
}
else
{
pStubMsg->RpcMsg->BufferLength = pStubMsg->BufferLength;
/* allocate buffer for [out] and [ret] params */
status = I_RpcGetBuffer(pStubMsg->RpcMsg);
if (status)
RpcRaiseException(status);
pStubMsg->Buffer = pStubMsg->RpcMsg->Buffer;
}
break;
case STUBLESS_CALCSIZE:
case STUBLESS_MARSHAL:
case STUBLESS_MUSTFREE:
case STUBLESS_FREE:
stub_do_args(pStubMsg, async_call_data->pHandleFormat, phase, async_call_data->number_of_params);
break;
default:
ERR("shouldn't reach here. phase %d\n", phase);
break;
}
}
#if 0 /* FIXME */
if (ext_flags.HasNewCorrDesc)
{
/* free extra correlation package */
NdrCorrelationFree(pStubMsg);
}
if (Oif_flags.HasPipes)
{
/* NdrPipesDone(...) */
}
/* free the full pointer translation tables */
if (async_call_data->pProcHeader->Oi_flags & Oi_FULL_PTR_USED)
NdrFullPointerXlatFree(pStubMsg->FullPtrXlatTables);
#endif
/* free server function stack */
HeapFree(GetProcessHeap(), 0, async_call_data->pStubMsg->StackTop);
I_RpcFree(async_call_data);
I_RpcFree(pAsync);
return S_OK;
}