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1 /** @file
2   Header file for IDE mode of ATA host controller.
3 
4   Copyright (c) 2010 - 2011, Intel Corporation. All rights reserved.<BR>
5   This program and the accompanying materials
6   are licensed and made available under the terms and conditions of the BSD License
7   which accompanies this distribution.  The full text of the license may be found at
8   http://opensource.org/licenses/bsd-license.php
9 
10   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
11   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
12 
13 **/
14 #ifndef __ATA_HC_IDE_MODE_H__
15 #define __ATA_HC_IDE_MODE_H__
16 
17 typedef enum {
18   EfiIdePrimary    = 0,
19   EfiIdeSecondary  = 1,
20   EfiIdeMaxChannel = 2
21 } EFI_IDE_CHANNEL;
22 
23 typedef enum {
24   EfiIdeMaster    = 0,
25   EfiIdeSlave     = 1,
26   EfiIdeMaxDevice = 2
27 } EFI_IDE_DEVICE;
28 
29 ///
30 /// PIO mode definition
31 ///
32 typedef enum {
33   EfiAtaPioModeBelow2,
34   EfiAtaPioMode2,
35   EfiAtaPioMode3,
36   EfiAtaPioMode4
37 } EFI_ATA_PIO_MODE;
38 
39 //
40 // Multi word DMA definition
41 //
42 typedef enum {
43   EfiAtaMdmaMode0,
44   EfiAtaMdmaMode1,
45   EfiAtaMdmaMode2
46 } EFI_ATA_MDMA_MODE;
47 
48 //
49 // UDMA mode definition
50 //
51 typedef enum {
52   EfiAtaUdmaMode0,
53   EfiAtaUdmaMode1,
54   EfiAtaUdmaMode2,
55   EfiAtaUdmaMode3,
56   EfiAtaUdmaMode4,
57   EfiAtaUdmaMode5
58 } EFI_ATA_UDMA_MODE;
59 
60 //
61 // Bus Master Reg
62 //
63 #define BMIC_NREAD      BIT3
64 #define BMIC_START      BIT0
65 #define BMIS_INTERRUPT  BIT2
66 #define BMIS_ERROR      BIT1
67 
68 #define BMIC_OFFSET    0x00
69 #define BMIS_OFFSET    0x02
70 #define BMID_OFFSET    0x04
71 
72 //
73 // IDE transfer mode
74 //
75 #define EFI_ATA_MODE_DEFAULT_PIO 0x00
76 #define EFI_ATA_MODE_FLOW_PIO    0x01
77 #define EFI_ATA_MODE_MDMA        0x04
78 #define EFI_ATA_MODE_UDMA        0x08
79 
80 typedef struct {
81   UINT32  RegionBaseAddr;
82   UINT16  ByteCount;
83   UINT16  EndOfTable;
84 } EFI_ATA_DMA_PRD;
85 
86 typedef struct {
87   UINT8 ModeNumber   : 3;
88   UINT8 ModeCategory : 5;
89 } EFI_ATA_TRANSFER_MODE;
90 
91 typedef struct {
92   UINT8 Sector;
93   UINT8 Heads;
94   UINT8 MultipleSector;
95 } EFI_ATA_DRIVE_PARMS;
96 
97 //
98 // IDE registers set
99 //
100 typedef struct {
101   UINT16                          Data;
102   UINT16                          ErrOrFeature;
103   UINT16                          SectorCount;
104   UINT16                          SectorNumber;
105   UINT16                          CylinderLsb;
106   UINT16                          CylinderMsb;
107   UINT16                          Head;
108   UINT16                          CmdOrStatus;
109   UINT16                          AltOrDev;
110 
111   UINT16                          BusMasterBaseAddr;
112 } EFI_IDE_REGISTERS;
113 
114 //
115 // Bit definitions in Programming Interface byte of the Class Code field
116 // in PCI IDE controller's Configuration Space
117 //
118 #define IDE_PRIMARY_OPERATING_MODE            BIT0
119 #define IDE_PRIMARY_PROGRAMMABLE_INDICATOR    BIT1
120 #define IDE_SECONDARY_OPERATING_MODE          BIT2
121 #define IDE_SECONDARY_PROGRAMMABLE_INDICATOR  BIT3
122 
123 /**
124   Get IDE i/o port registers' base addresses by mode.
125 
126   In 'Compatibility' mode, use fixed addresses.
127   In Native-PCI mode, get base addresses from BARs in the PCI IDE controller's
128   Configuration Space.
129 
130   The steps to get IDE i/o port registers' base addresses for each channel
131   as follows:
132 
133   1. Examine the Programming Interface byte of the Class Code fields in PCI IDE
134   controller's Configuration Space to determine the operating mode.
135 
136   2. a) In 'Compatibility' mode, use fixed addresses shown in the Table 1 below.
137    ___________________________________________
138   |           | Command Block | Control Block |
139   |  Channel  |   Registers   |   Registers   |
140   |___________|_______________|_______________|
141   |  Primary  |  1F0h - 1F7h  |  3F6h - 3F7h  |
142   |___________|_______________|_______________|
143   | Secondary |  170h - 177h  |  376h - 377h  |
144   |___________|_______________|_______________|
145 
146   Table 1. Compatibility resource mappings
147 
148   b) In Native-PCI mode, IDE registers are mapped into IO space using the BARs
149   in IDE controller's PCI Configuration Space, shown in the Table 2 below.
150    ___________________________________________________
151   |           |   Command Block   |   Control Block   |
152   |  Channel  |     Registers     |     Registers     |
153   |___________|___________________|___________________|
154   |  Primary  | BAR at offset 0x10| BAR at offset 0x14|
155   |___________|___________________|___________________|
156   | Secondary | BAR at offset 0x18| BAR at offset 0x1C|
157   |___________|___________________|___________________|
158 
159   Table 2. BARs for Register Mapping
160 
161   @param[in]      PciIo          Pointer to the EFI_PCI_IO_PROTOCOL instance
162   @param[in, out] IdeRegisters   Pointer to EFI_IDE_REGISTERS which is used to
163                                  store the IDE i/o port registers' base addresses
164 
165   @retval EFI_UNSUPPORTED        Return this value when the BARs is not IO type
166   @retval EFI_SUCCESS            Get the Base address successfully
167   @retval Other                  Read the pci configureation data error
168 
169 **/
170 EFI_STATUS
171 EFIAPI
172 GetIdeRegisterIoAddr (
173   IN     EFI_PCI_IO_PROTOCOL         *PciIo,
174   IN OUT EFI_IDE_REGISTERS           *IdeRegisters
175   );
176 
177 /**
178   This function is used to send out ATAPI commands conforms to the Packet Command
179   with PIO Data In Protocol.
180 
181   @param[in] PciIo          Pointer to the EFI_PCI_IO_PROTOCOL instance
182   @param[in] IdeRegisters   Pointer to EFI_IDE_REGISTERS which is used to
183                             store the IDE i/o port registers' base addresses
184   @param[in] Channel        The channel number of device.
185   @param[in] Device         The device number of device.
186   @param[in] Packet         A pointer to EFI_EXT_SCSI_PASS_THRU_SCSI_REQUEST_PACKET data structure.
187 
188   @retval EFI_SUCCESS       send out the ATAPI packet command successfully
189                             and device sends data successfully.
190   @retval EFI_DEVICE_ERROR  the device failed to send data.
191 
192 **/
193 EFI_STATUS
194 EFIAPI
195 AtaPacketCommandExecute (
196   IN  EFI_PCI_IO_PROTOCOL                           *PciIo,
197   IN  EFI_IDE_REGISTERS                             *IdeRegisters,
198   IN  UINT8                                         Channel,
199   IN  UINT8                                         Device,
200   IN  EFI_EXT_SCSI_PASS_THRU_SCSI_REQUEST_PACKET    *Packet
201   );
202 
203 #endif
204 
205