kolibrios-gitea/drivers/old/radeonhd/AtomBios/includes/CD_hw_services.h
Sergey Semyonov (Serge) 7c0a5de1e7 move old ddx driver
git-svn-id: svn://kolibrios.org@1407 a494cfbc-eb01-0410-851d-a64ba20cac60
2010-02-12 17:43:39 +00:00

319 lines
12 KiB
C

/*
* Copyright 2006-2007 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#ifndef _HW_SERVICES_INTERFACE_
#define _HW_SERVICES_INTERFACE_
#include "CD_Common_Types.h"
#include "CD_Structs.h"
// CD - from Command Decoder
typedef UINT16 CD_REG_INDEX;
typedef UINT8 CD_PCI_OFFSET;
typedef UINT16 CD_FB_OFFSET;
typedef UINT16 CD_SYS_IO_PORT;
typedef UINT8 CD_MEM_TYPE;
typedef UINT8 CD_MEM_SIZE;
typedef VOID * CD_VIRT_ADDR;
typedef UINT32 CD_PHYS_ADDR;
typedef UINT32 CD_IO_ADDR;
/***********************ATI Registers access routines**************************/
VOID ReadIndReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteIndReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT32 ReadReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT32 ReadPLL32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WritePLL32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT32 ReadMC32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteMC32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
/************************PCI Registers access routines*************************/
UINT8 ReadPCIReg8(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT16 ReadPCIReg16(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT32 ReadPCIReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WritePCIReg8(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WritePCIReg16(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WritePCIReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
/***************************Frame buffer access routines************************/
UINT32 ReadFrameBuffer32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteFrameBuffer32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
/******************System IO Registers access routines********************/
UINT8 ReadSysIOReg8(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT16 ReadSysIOReg16(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
UINT32 ReadSysIOReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteSysIOReg8(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteSysIOReg16(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID WriteSysIOReg32(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
/****************************Delay routines****************************************/
VOID DelayMicroseconds(PARSER_TEMP_DATA STACK_BASED * pParserTempData); // take WORKING_TABLE_DATA->SourceData32 as a delay value
VOID DelayMilliseconds(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID PostCharOutput(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
VOID CallerDebugFunc(PARSER_TEMP_DATA STACK_BASED * pParserTempData);
//************************Tracing/Debugging routines and macroses******************/
#define KEYPRESSED -1
#if (DEBUG_PARSER != 0)
#ifdef DRIVER_PARSER
VOID CD_print_string (DEVICE_DATA STACK_BASED *pDeviceData, UINT8 *str);
VOID CD_print_value (DEVICE_DATA STACK_BASED *pDeviceData, ULONG_PTR value, UINT16 value_type );
// Level 1 : can use WorkingTableData or pDeviceData
#define CD_TRACE_DL1(string) CD_print_string(pDeviceData, string);
#define CD_TRACETAB_DL1(string) CD_TRACE_DL1("\n");CD_TRACE_DL1(string)
#define CD_TRACEDEC_DL1(value) CD_print_value( pDeviceData, (ULONG_PTR)value, PARSER_DEC);
#define CD_TRACEHEX_DL1(value) CD_print_value( pDeviceData, (ULONG_PTR)value, PARSER_HEX);
// Level 2:can use pWorkingTableData
#define CD_TRACE_DL2(string) CD_print_string( pWorkingTableData->pParserTempData->pDeviceData, string);
#define CD_TRACETAB_DL2(string) CD_TRACE_DL2("\n");CD_TRACE_DL2(string)
#define CD_TRACEDEC_DL2(value) CD_print_value( pWorkingTableData->pParserTempData->pDeviceData, (ULONG_PTR)value, PARSER_DEC);
#define CD_TRACEHEX_DL2(value) CD_print_value( pWorkingTableData->pParserTempData->pDeviceData, (ULONG_PTR)value, PARSER_HEX);
// Level 3:can use pWorkingTableData
#define CD_TRACE_DL3(string) CD_print_string( pWorkingTableData->pParserTempData->pDeviceData, string);
#define CD_TRACETAB_DL3(string) CD_TRACE_DL3("\n");CD_TRACE_DL3(string)
#define CD_TRACEDEC_DL3(value) CD_print_value( pWorkingTableData->pParserTempData->pDeviceData, value, PARSER_DEC);
#define CD_TRACEHEX_DL3(value) CD_print_value( pWorkingTableData->pParserTempData->pDeviceData, value, PARSER_HEX);
#define CD_TRACE(string)
#define CD_WAIT(what)
#define CD_BREAKPOINT()
#else
VOID CD_assert (UINT8 *file, INTN lineno); //output file/line to debug console
VOID CD_postcode(UINT8 value); //output post code to debug console
VOID CD_print (UINT8 *str); //output text to debug console
VOID CD_print_dec(UINTN value); //output value in decimal format to debug console
VOID CD_print_hex(UINT32 value, UINT8 len); //output value in hexadecimal format to debug console
VOID CD_print_buf(UINT8 *p, UINTN len); //output dump of memory to debug console
VOID CD_wait(INT32 what); //wait for KEYPRESSED=-1 or Delay value expires
VOID CD_breakpoint(); //insert int3 opcode or 0xF1 (for American Arium)
#define CD_ASSERT(condition) if(!(condition)) CD_assert(__FILE__, __LINE__)
#define CD_POSTCODE(value) CD_postcode(value)
#define CD_TRACE(string) CD_print(string)
#define CD_TRACETAB(string) CD_print(string)
#define CD_TRACEDEC(value) CD_print_dec( (UINTN)(value))
#define CD_TRACEHEX(value) CD_print_hex( (UINT32)(value), sizeof(value) )
#define CD_TRACEBUF(pointer, len) CD_print_buf( (UINT8 *)(pointer), (UINTN) len)
#define CD_WAIT(what) CD_wait((INT32)what)
#define CD_BREAKPOINT() CD_breakpoint()
#if (DEBUG_PARSER == 4)
#define CD_ASSERT_DL4(condition) if(!(condition)) CD_assert(__FILE__, __LINE__)
#define CD_POSTCODE_DL4(value) CD_postcode(value)
#define CD_TRACE_DL4(string) CD_print(string)
#define CD_TRACETAB_DL4(string) CD_print("\n\t\t");CD_print(string)
#define CD_TRACEDEC_DL4(value) CD_print_dec( (UINTN)(value))
#define CD_TRACEHEX_DL4(value) CD_print_hex( (UINT32)(value), sizeof(value) )
#define CD_TRACEBUF_DL4(pointer, len) CD_print_buf( (UINT8 *)(pointer), (UINTN) len)
#define CD_WAIT_DL4(what) CD_wait((INT32)what)
#define CD_BREAKPOINT_DL4() CD_breakpoint()
#else
#define CD_ASSERT_DL4(condition)
#define CD_POSTCODE_DL4(value)
#define CD_TRACE_DL4(string)
#define CD_TRACETAB_DL4(string)
#define CD_TRACEDEC_DL4(value)
#define CD_TRACEHEX_DL4(value)
#define CD_TRACEBUF_DL4(pointer, len)
#define CD_WAIT_DL4(what)
#define CD_BREAKPOINT_DL4()
#endif
#if (DEBUG_PARSER >= 3)
#define CD_ASSERT_DL3(condition) if(!(condition)) CD_assert(__FILE__, __LINE__)
#define CD_POSTCODE_DL3(value) CD_postcode(value)
#define CD_TRACE_DL3(string) CD_print(string)
#define CD_TRACETAB_DL3(string) CD_print("\n\t\t");CD_print(string)
#define CD_TRACEDEC_DL3(value) CD_print_dec( (UINTN)(value))
#define CD_TRACEHEX_DL3(value) CD_print_hex( (UINT32)(value), sizeof(value) )
#define CD_TRACEBUF_DL3(pointer, len) CD_print_buf( (UINT8 *)(pointer), (UINTN) len)
#define CD_WAIT_DL3(what) CD_wait((INT32)what)
#define CD_BREAKPOINT_DL3() CD_breakpoint()
#else
#define CD_ASSERT_DL3(condition)
#define CD_POSTCODE_DL3(value)
#define CD_TRACE_DL3(string)
#define CD_TRACETAB_DL3(string)
#define CD_TRACEDEC_DL3(value)
#define CD_TRACEHEX_DL3(value)
#define CD_TRACEBUF_DL3(pointer, len)
#define CD_WAIT_DL3(what)
#define CD_BREAKPOINT_DL3()
#endif
#if (DEBUG_PARSER >= 2)
#define CD_ASSERT_DL2(condition) if(!(condition)) CD_assert(__FILE__, __LINE__)
#define CD_POSTCODE_DL2(value) CD_postcode(value)
#define CD_TRACE_DL2(string) CD_print(string)
#define CD_TRACETAB_DL2(string) CD_print("\n\t");CD_print(string)
#define CD_TRACEDEC_DL2(value) CD_print_dec( (UINTN)(value))
#define CD_TRACEHEX_DL2(value) CD_print_hex( (UINT32)(value), sizeof(value) )
#define CD_TRACEBUF_DL2(pointer, len) CD_print_buf( (UINT8 *)(pointer), (UINTN) len)
#define CD_WAIT_DL2(what) CD_wait((INT32)what)
#define CD_BREAKPOINT_DL2() CD_breakpoint()
#else
#define CD_ASSERT_DL2(condition)
#define CD_POSTCODE_DL2(value)
#define CD_TRACE_DL2(string)
#define CD_TRACETAB_DL2(string)
#define CD_TRACEDEC_DL2(value)
#define CD_TRACEHEX_DL2(value)
#define CD_TRACEBUF_DL2(pointer, len)
#define CD_WAIT_DL2(what)
#define CD_BREAKPOINT_DL2()
#endif
#if (DEBUG_PARSER >= 1)
#define CD_ASSERT_DL1(condition) if(!(condition)) CD_assert(__FILE__, __LINE__)
#define CD_POSTCODE_DL1(value) CD_postcode(value)
#define CD_TRACE_DL1(string) CD_print(string)
#define CD_TRACETAB_DL1(string) CD_print("\n");CD_print(string)
#define CD_TRACEDEC_DL1(value) CD_print_dec( (UINTN)(value))
#define CD_TRACEHEX_DL1(value) CD_print_hex( (UINT32)(value), sizeof(value) )
#define CD_TRACEBUF_DL1(pointer, len) CD_print_buf( (UINT8 *)(pointer), (UINTN) len)
#define CD_WAIT_DL1(what) CD_wait((INT32)what)
#define CD_BREAKPOINT_DL1() CD_breakpoint()
#else
#define CD_ASSERT_DL1(condition)
#define CD_POSTCODE_DL1(value)
#define CD_TRACE_DL1(string)
#define CD_TRACETAB_DL1(string)
#define CD_TRACEDEC_DL1(value)
#define CD_TRACEHEX_DL1(value)
#define CD_TRACEBUF_DL1(pointer, len)
#define CD_WAIT_DL1(what)
#define CD_BREAKPOINT_DL1()
#endif
#endif //#ifdef DRIVER_PARSER
#else
#define CD_ASSERT(condition)
#define CD_POSTCODE(value)
#define CD_TRACE(string)
#define CD_TRACEDEC(value)
#define CD_TRACEHEX(value)
#define CD_TRACEBUF(pointer, len)
#define CD_WAIT(what)
#define CD_BREAKPOINT()
#define CD_ASSERT_DL4(condition)
#define CD_POSTCODE_DL4(value)
#define CD_TRACE_DL4(string)
#define CD_TRACETAB_DL4(string)
#define CD_TRACEDEC_DL4(value)
#define CD_TRACEHEX_DL4(value)
#define CD_TRACEBUF_DL4(pointer, len)
#define CD_WAIT_DL4(what)
#define CD_BREAKPOINT_DL4()
#define CD_ASSERT_DL3(condition)
#define CD_POSTCODE_DL3(value)
#define CD_TRACE_DL3(string)
#define CD_TRACETAB_DL3(string)
#define CD_TRACEDEC_DL3(value)
#define CD_TRACEHEX_DL3(value)
#define CD_TRACEBUF_DL3(pointer, len)
#define CD_WAIT_DL3(what)
#define CD_BREAKPOINT_DL3()
#define CD_ASSERT_DL2(condition)
#define CD_POSTCODE_DL2(value)
#define CD_TRACE_DL2(string)
#define CD_TRACETAB_DL2(string)
#define CD_TRACEDEC_DL2(value)
#define CD_TRACEHEX_DL2(value)
#define CD_TRACEBUF_DL2(pointer, len)
#define CD_WAIT_DL2(what)
#define CD_BREAKPOINT_DL2()
#define CD_ASSERT_DL1(condition)
#define CD_POSTCODE_DL1(value)
#define CD_TRACE_DL1(string)
#define CD_TRACETAB_DL1(string)
#define CD_TRACEDEC_DL1(value)
#define CD_TRACEHEX_DL1(value)
#define CD_TRACEBUF_DL1(pointer, len)
#define CD_WAIT_DL1(what)
#define CD_BREAKPOINT_DL1()
#endif //#if (DEBUG_PARSER > 0)
#ifdef CHECKSTACK
VOID CD_fillstack(UINT16 size);
UINT16 CD_checkstack(UINT16 size);
#define CD_CHECKSTACK(stacksize) CD_checkstack(stacksize)
#define CD_FILLSTACK(stacksize) CD_fillstack(stacksize)
#else
#define CD_CHECKSTACK(stacksize) 0
#define CD_FILLSTACK(stacksize)
#endif
#endif