2 * This file is part of the Palacios Virtual Machine Monitor developed
3 * by the V3VEE Project with funding from the United States National
4 * Science Foundation and the Department of Energy.
6 * The V3VEE Project is a joint project between Northwestern University
7 * and the University of New Mexico. You can find out more at
10 * Copyright (c) 2008, Jack Lange <jarusl@cs.northwestern.edu>
11 * Copyright (c) 2008, The V3VEE Project <http://www.v3vee.org>
12 * All rights reserved.
14 * Author: Jack Lange <jarusl@cs.northwestern.edu>
16 * This is free software. You are permitted to use,
17 * redistribute, and modify it as specified in the file "V3VEE_LICENSE".
21 static void ata_identify_device(struct ide_drive * drive) {
22 struct ide_drive_id * drive_id = (struct ide_drive_id *)(drive->data_buf);
23 const char* serial_number = " VT00001\0\0\0\0\0\0\0\0\0\0\0\0";
24 const char* firmware = "ALPHA1 ";
26 drive->transfer_length = 512;
27 drive->transfer_index = 0;
30 memset(drive_id->buf, 0, sizeof(drive_id->buf));
32 drive_id->fixed_drive = 1;
33 drive_id->removable_media = 0;
36 drive_id->disk_speed1 = 1;
37 drive_id->disk_speed3 = 1;
39 drive_id->cdrom_flag = 0;
41 // Make it the simplest drive possible (1 head, 1 cyl, 1 sect/track)
42 drive_id->num_cylinders = 1;
43 drive_id->num_heads = 1;
44 drive_id->bytes_per_track = IDE_SECTOR_SIZE;
45 drive_id->bytes_per_sector = IDE_SECTOR_SIZE;
46 drive_id->sectors_per_track = 1;
49 // These buffers do not contain a terminating "\0"
50 memcpy(drive_id->serial_num, serial_number, strlen(serial_number));
51 memcpy(drive_id->firmware_rev, firmware, strlen(firmware));
52 memcpy(drive_id->model_num, drive->model, 40);
55 drive_id->dword_io = 1;
58 drive_id->dma_enable = 1;
61 drive_id->lba_enable = 1;
63 // Drive Capacity (28 bit LBA)
64 drive_id->lba_capacity = drive->hd_ops->get_capacity(drive->private_data);
66 // Drive Capacity (48 bit LBA)
67 drive_id->lba_capacity_2 = drive->hd_ops->get_capacity(drive->private_data);
69 drive_id->rw_multiples = 0x80ff;
71 // words 64-70, 54-58 valid
72 drive_id->field_valid = 0x0007; // DMA + pkg cmd valid
74 // copied from CFA540A
75 drive_id->buf[63] = 0x0103; // variable (DMA stuff)
76 //drive_id->buf[63] = 0x0000; // variable (DMA stuff)
78 // drive_id->buf[64] = 0x0001; // PIO
79 drive_id->buf[65] = 0x00b4;
80 drive_id->buf[66] = 0x00b4;
81 drive_id->buf[67] = 0x012c;
82 drive_id->buf[68] = 0x00b4;
84 drive_id->buf[71] = 30; // faked
85 drive_id->buf[72] = 30; // faked
87 // drive_id->buf[80] = 0x1e; // supports up to ATA/ATAPI-4
88 drive_id->major_rev_num = 0x0040; // supports up to ATA/ATAPI-6
90 drive_id->buf[83] |= 0x0400; // supports 48 bit LBA
93 drive_id->dma_ultra = 0x2020; // Ultra_DMA_Mode_5_Selected | Ultra_DMA_Mode_5_Supported;
97 static int ata_read(struct vm_device * dev, struct ide_channel * channel) {
98 struct ide_drive * drive = get_selected_drive(channel);
100 if (drive->hd_state.accessed == 0) {
101 drive->current_lba = 0;
102 drive->hd_state.accessed = 1;
105 int ret = drive->hd_ops->read(drive->data_buf, 1, drive->current_lba, drive->private_data);
108 PrintError("IDE: Error reading HD block (LBA=%p)\n", (void *)(addr_t)(drive->current_lba));
118 static int ata_read_sectors(struct vm_device * dev, struct ide_channel * channel) {
119 struct ide_drive * drive = get_selected_drive(channel);
120 // The if the sector count == 0 then read 256 sectors (cast up to handle that value)
121 uint32_t sect_cnt = (drive->sector_count == 0) ? 256 : drive->sector_count;
126 } __attribute__((packed)) lba_addr;
129 0-8: sector number reg (drive->lba0)
130 8-16: low cylinder reg (drive->lba1)
131 16-24: high cylinder reg (drive->lba2)
132 24-28: low 4 bits of drive_head reg (channel->drive_head.head_num)
135 lba_addr.buf[0] = drive->lba0;
136 lba_addr.buf[1] = drive->lba1;
137 lba_addr.buf[2] = drive->lba2;
138 lba_addr.buf[3] = channel->drive_head.lba3;
140 PrintDebug("LBA Address %d\n", drive->lba0);
141 PrintDebug("sector_num %d\n", drive->sector_num);
144 if (lba_addr.addr + (sect_cnt * IDE_SECTOR_SIZE) >
145 drive->hd_ops->get_capacity(drive->private_data)) {
146 PrintError("IDE: request size exceeds disk capacity (lba=%d) (sect_cnt=%d) (ReadEnd=%d) (capacity=%p)\n",
147 lba_addr.addr, sect_cnt,
148 lba_addr.addr + (sect_cnt * IDE_SECTOR_SIZE),
149 (void *)(addr_t)(drive->hd_ops->get_capacity(drive->private_data)));
150 ide_abort_command(dev, channel);
154 drive->current_lba = lba_addr.addr;
156 if (ata_read(dev, channel) == -1) {
157 PrintError("Could not read disk sector\n");
161 drive->transfer_length = sect_cnt * IDE_SECTOR_SIZE;
162 drive->transfer_index = 0;
164 channel->status.busy = 0;
165 channel->status.ready = 0;
166 channel->status.write_fault = 0;
167 channel->status.data_req = 1;
168 channel->status.error = 0;
170 drive->irq_flags.io_dir = 1;
171 drive->irq_flags.c_d = 0;
172 drive->irq_flags.rel = 0;
175 ide_raise_irq(dev, channel);
177 PrintDebug("Returning from read sectors\n");
184 static int ata_read_sectors_ext(struct vm_device * dev, struct ide_channel * channel) {
185 //struct ide_drive * drive = get_selected_drive(channel);
186 // The if the sector count == 0 then read 256 sectors (cast up to handle that value)
187 //uint32_t sector_count = (drive->sector_count == 0) ? 256 : drive->sector_count;
189 PrintError("Extended Sector read not implemented\n");