X-Git-Url: http://v3vee.org/palacios/gitweb/gitweb.cgi?a=blobdiff_plain;f=palacios%2Fsrc%2Fdevices%2Framdisk.c;h=04602f7608cf87314dc69ab05f01411340048ad3;hb=ee177da9b30ebf340c63fb5b9d535c729f90134d;hp=9455798971a8273a896541b319be2bf50971869a;hpb=c07f7f11e5d781b90f4d8876d12f3fc4e47309ad;p=palacios.git diff --git a/palacios/src/devices/ramdisk.c b/palacios/src/devices/ramdisk.c index 9455798..04602f7 100644 --- a/palacios/src/devices/ramdisk.c +++ b/palacios/src/devices/ramdisk.c @@ -1,197 +1,313 @@ -/* - * Zheng Cui - * cuizheng@cs.unm.edu - * July 2008 +/* + * + * Copyright (C) 2002 MandrakeSoft S.A. + * + * MandrakeSoft S.A. + * 43, rue d'Aboukir + * 75002 Paris - France + * http://www.linux-mandrake.com/ + * http://www.mandrakesoft.com/ + * + * 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 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + * + * Major modifications made for the V3VEE project + * + * The V3VEE Project is a joint project between Northwestern University + * and the University of New Mexico. You can find out more at + * http://www.v3vee.org + * + * Copyright (c) 2008, Zheng Cui + * Copyright (c) 2008, Jack Lange + * Copyright (c) 2008, The V3VEE Project + * All rights reserved for original changes + * */ + #include #include -#include +#include +#include +#include -#ifdef DEBUG_RAMDISK -#define Ramdisk_Print(_f, _a...) PrintTrace("\nramdisk.c(%d) " _f, __LINE__, ## _a) -#else -#define Ramdisk_Print(_f, _a...) +#ifndef TRACE_RAMDISK +#undef PrintTrace +#define PrintTrace(fmt, args...) #endif -#define RD_PANIC(_f, _a...) \ - do { \ - PrintDebug("ramdisk.c(%d) " _f, __LINE__, ## _a); \ - while(1); \ - } \ - while(0) - -#define RD_ERROR(_f, _a...) PrintTrace("\nramdisk.c(%d) " _f, __LINE__, ## _a) + +#ifndef DEBUG_RAMDISK +#undef PrintDebug +#define PrintDebug(fmt, args...) +#endif + + + + /* - * Debug facilities + * Data type definitions + * */ +#define INDEX_PULSE_CYCLE 10 -#define ATA_DETECT 0xf0 //0X3E8 -#define ATA_RESET 0xf1 //0X3E9 -#define ATA_CMD_DATA_IN 0xf2 //0X3EA -#define ATA_CMD_DATA_OUT 0xf3 //0X3EB -#define ATA_CMD_PACKET 0xf4 //0X3EC -#define ATAPI_GET_SENSE 0xf5 //0X3ED -#define ATAPI_IS_READY 0xf6 //0X3EE -#define ATAPI_IS_CDROM 0xf7 //0X3EF -#define CDEMU_INIT 0xf8 //0X2E8 -#define CDEMU_ISACTIVE 0xf9 //0X2E9 -#define CDEMU_EMULATED_DRIVE 0xfa //0X2EA -#define CDROM_BOOT 0xfb //0X2EB -#define HARD_DRIVE_POST 0xfc //0X2EC +#define INTR_REASON_BIT_ERR 0x01 +#define UNABLE_FIND_TAT_CHANNEL_ERR 0x02 +#define DRQ_ERR 0x03 +#define READ_BUF_GT_512 0x04 -#define ATA_DEVICE_NO 0xfd //0X2ED -#define ATA_DEVICE_TYPE 0xfe //0X2ED -#define INT13_HARDDISK 0xff //0x2ef -#define INT13_CDROM 0xe0 //0x2f8 -#define INT13_CDEMU 0xe1 //0x2f9 -#define INT13_ELTORITO 0xe2 //0x2fa -#define INT13_DISKETTE_FUNCTION 0xe3 //0x2fb +#define PRI_DATA_PORT 0x1f0 +#define PRI_FEATURES_PORT 0x1f1 +#define PRI_SECT_CNT_PORT 0x1f2 +#define PRI_SECT_ADDR1_PORT 0x1f3 +#define PRI_SECT_ADDR2_PORT 0x1f4 +#define PRI_SECT_ADDR3_PORT 0x1f5 +#define PRI_DRV_SEL_PORT 0x1f6 +#define PRI_CMD_PORT 0x1f7 +#define PRI_CTRL_PORT 0x3f6 +#define PRI_ADDR_REG_PORT 0x3f7 -// some packet handling macros -#define EXTRACT_FIELD(arr,byte,start,num_bits) (((arr)[(byte)] >> (start)) & ((1 << (num_bits)) - 1)) -#define get_packet_field(c,b,s,n) (EXTRACT_FIELD((SELECTED_CONTROLLER((c)).buffer),(b),(s),(n))) -#define get_packet_byte(c,b) (SELECTED_CONTROLLER((c)).buffer[(b)]) -#define get_packet_word(c,b) (((uint16)SELECTED_CONTROLLER((c)).buffer[(b)] << 8) | SELECTED_CONTROLLER((c)).buffer[(b)+1]) +#define SEC_DATA_PORT 0x170 +#define SEC_FEATURES_PORT 0x171 +#define SEC_SECT_CNT_PORT 0x172 +#define SEC_SECT_ADDR1_PORT 0x173 +#define SEC_SECT_ADDR2_PORT 0x174 +#define SEC_SECT_ADDR3_PORT 0x175 +#define SEC_DRV_SEL_PORT 0x176 +#define SEC_CMD_PORT 0x177 +#define SEC_CTRL_PORT 0x376 +#define SEC_ADDR_REG_PORT 0x377 -#define CONTROLLER(c,a) (channels[(c)].drives[(a)]).controller -#define DRIVE(c,a) (channels[(c)].drives[(a)]) -#define SELECTED_CONTROLLER(c) (CONTROLLER((c), channels[(c)].drive_select)) -#define SELECTED_DRIVE(c) (DRIVE((c), channels[(c)].drive_select)) +#define PACKET_SIZE 12 -#define DRIVE_IS_PRESENT(c,a) (channels[(c)].drives[(a)].device_type != IDE_NONE) -#define DRIVE_IS_HD(c,a) (channels[(c)].drives[(a)].device_type == IDE_DISK) -#define DRIVE_IS_CD(c,a) (channels[(c)].drives[(a)].device_type == IDE_CDROM) -#define SELECTED_MODEL(c) (channels[(c)].drives[channels[(c)].drive_select].model_no) -#define MASTER_SELECTED(c) (!channels[(c)].drive_select) -#define SLAVE_SELECTED(c) (channels[(c)].drive_select) +static const char cdrom_str[] = "CD-ROM"; +static const char harddisk_str[] = "HARDDISK"; +static const char none_str[] = "NONE"; -#define SELECTED_IS_PRESENT(c) (DRIVE_IS_PRESENT((c),SLAVE_SELECTED((c)))) -#define SELECTED_IS_HD(c) (DRIVE_IS_HD((c),SLAVE_SELECTED((c)))) -#define SELECTED_IS_CD(c) (DRIVE_IS_CD((c),SLAVE_SELECTED((c)))) -#define ANY_IS_PRESENT(c) (DRIVE_IS_PRESENT((c),0) || DRIVE_IS_PRESENT((c),1)) -#define SELECTED_TYPE_STRING(channel) ((SELECTED_IS_CD(channel)) ? "CD-ROM" : "NONE") +static inline const char * device_type_to_str(device_type_t type) { + switch (type) { + case IDE_DISK: + return harddisk_str; + case IDE_CDROM: + return cdrom_str; + case IDE_NONE: + return none_str; + default: + return NULL; + } +} + + +static inline void write_features(struct channel_t * channel, uchar_t value) { + channel->drives[0].controller.features = value; + channel->drives[1].controller.features = value; +} -#define WRITE_FEATURES(c,a) do { uint8 _a = a; CONTROLLER((c),0).features = _a; CONTROLLER((c),1).features = _a; } while(0) -#define WRITE_SECTOR_COUNT(c,a) do { uint8 _a = a; CONTROLLER((c),0).sector_count = _a; CONTROLLER((c),1).sector_count = _a; } while(0) -#define WRITE_SECTOR_NUMBER(c,a) do { uint8 _a = a; CONTROLLER((c),0).sector_no = _a; CONTROLLER((c),1).sector_no = _a; } while(0) -#define WRITE_CYLINDER_LOW(c,a) do { uint8 _a = a; CONTROLLER((c),0).cylinder_no = (CONTROLLER((c),0).cylinder_no & 0xff00) | _a; CONTROLLER((c),1).cylinder_no = (CONTROLLER((c),1).cylinder_no & 0xff00) | _a; } while(0) -#define WRITE_CYLINDER_HIGH(c,a) do { uint16 _a = a; CONTROLLER((c),0).cylinder_no = (_a << 8) | (CONTROLLER((c),0).cylinder_no & 0xff); CONTROLLER((c),1).cylinder_no = (_a << 8) | (CONTROLLER((c),1).cylinder_no & 0xff); } while(0) -#define WRITE_HEAD_NO(c,a) do { uint8 _a = a; CONTROLLER((c),0).head_no = _a; CONTROLLER((c),1).head_no = _a; } while(0) -#define WRITE_LBA_MODE(c,a) do { uint8 _a = a; CONTROLLER((c),0).lba_mode = _a; CONTROLLER((c),1).lba_mode = _a; } while(0) +static inline void write_sector_count(struct channel_t * channel, uchar_t value) { + channel->drives[0].controller.sector_count = value; + channel->drives[1].controller.sector_count = value; +} +static inline void write_sector_number(struct channel_t * channel, uchar_t value) { + channel->drives[0].controller.sector_no = value; + channel->drives[1].controller.sector_no = value; +} -#define GOTO_RETURN_VALUE if(io_len==4){\ - goto return_value32;\ - }\ - else if(io_len==2){\ - value16=(Bit16u)value32;\ - goto return_value16;\ - }\ - else{\ - value8=(Bit8u)value32;\ - goto return_value8;\ - } -#define UNUSED(x) ((void)x) +static inline void write_cylinder_low(struct channel_t * channel, uchar_t value) { + channel->drives[0].controller.cylinder_no &= 0xff00; + channel->drives[0].controller.cylinder_no |= value; + channel->drives[1].controller.cylinder_no &= 0xff00; + channel->drives[1].controller.cylinder_no |= value; +} -#define PACKET_SIZE 12 +static inline void write_cylinder_high(struct channel_t * channel, uchar_t value) { + ushort_t val2 = value; + val2 = val2 << 8; + channel->drives[0].controller.cylinder_no &= 0x00ff; + channel->drives[0].controller.cylinder_no |= (val2 & 0xff00); -static struct ramdisk_t *ramdisk_state; + channel->drives[1].controller.cylinder_no &= 0x00ff; + channel->drives[1].controller.cylinder_no |= (val2 & 0xff00); +} +static inline void write_head_no(struct channel_t * channel, uchar_t value) { + channel->drives[0].controller.head_no = value; + channel->drives[1].controller.head_no = value; +} +static inline void write_lba_mode(struct channel_t * channel, uchar_t value) { + channel->drives[0].controller.lba_mode = value; + channel->drives[1].controller.lba_mode = value; +} +static inline uint_t get_channel_no(struct ramdisk_t * ramdisk, struct channel_t * channel) { + return (((uchar_t *)channel - (uchar_t *)(ramdisk->channels)) / sizeof(struct channel_t)); +} +static inline uint_t get_drive_no(struct channel_t * channel, struct drive_t * drive) { + return (((uchar_t *)drive - (uchar_t*)(channel->drives)) / sizeof(struct drive_t)); +} -//////////////////////////////////////////////////////////////////////////// +static inline struct drive_t * get_selected_drive(struct channel_t * channel) { + return &(channel->drives[channel->drive_select]); +} -/* - * Static routines - */ -static -uint_t ramdisk_read_port(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev); +static inline int is_primary_port(struct ramdisk_t * ramdisk, ushort_t port) { + switch(port) + { + case PRI_DATA_PORT: + case PRI_FEATURES_PORT: + case PRI_SECT_CNT_PORT: + case PRI_SECT_ADDR1_PORT: + case PRI_SECT_ADDR2_PORT: + case PRI_SECT_ADDR3_PORT: + case PRI_DRV_SEL_PORT: + case PRI_CMD_PORT: + case PRI_CTRL_PORT: + return 1; + default: + return 0; + } +} + + + +static inline int is_secondary_port(struct ramdisk_t * ramdisk, ushort_t port) { + switch(port) + { + case SEC_DATA_PORT: + case SEC_FEATURES_PORT: + case SEC_SECT_CNT_PORT: + case SEC_SECT_ADDR1_PORT: + case SEC_SECT_ADDR2_PORT: + case SEC_SECT_ADDR3_PORT: + case SEC_DRV_SEL_PORT: + case SEC_CMD_PORT: + case SEC_CTRL_PORT: + return 1; + default: + return 0; + } +} + +static inline int num_drives_on_channel(struct channel_t * channel) { + if ((channel->drives[0].device_type == IDE_NONE) && + (channel->drives[1].device_type == IDE_NONE)) { + return 0; + } else if ((channel->drives[0].device_type != IDE_NONE) && + (channel->drives[1].device_type != IDE_NONE)) { + return 2; + } else { + return 1; + } +} + -static -uint_t ramdisk_write_port(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev); -static -uint_t ramdisk_read_port_ignore(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev); +static inline uchar_t extract_bits(uchar_t * buf, uint_t buf_offset, uint_t bit_offset, uint_t num_bits) { + uchar_t val = buf[buf_offset]; + val = val >> bit_offset; + val &= ((1 << num_bits) -1); + return val; +} -static -uint_t ramdisk_write_port_ignore(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev); +static inline uchar_t get_packet_field(struct channel_t * channel, uint_t packet_offset, uint_t bit_offset, uint_t num_bits) { + struct drive_t * drive = get_selected_drive(channel); + return extract_bits(drive->controller.buffer, packet_offset, bit_offset, num_bits); +} -static -Bit32u rd_read_handler(struct channel_t *channels, Bit32u address, unsigned io_len); -static -void rd_write_handler(struct channel_t *channels, Bit32u address, - Bit32u value, unsigned io_len); +static inline uchar_t get_packet_byte(struct channel_t * channel, uint_t offset) { + struct drive_t * drive = get_selected_drive(channel); + return drive->controller.buffer[offset]; +} +static inline uint16_t get_packet_word(struct channel_t * channel, uint_t offset) { + struct drive_t * drive = get_selected_drive(channel); + uint16_t val = drive->controller.buffer[offset]; + val = val << 8; + val |= drive->controller.buffer[offset + 1]; + return val; +} + + +static inline uint16_t rd_read_16bit(const uint8_t* buf) { + return (buf[0] << 8) | buf[1]; +} + + + +static inline uint32_t rd_read_32bit(const uint8_t* buf) { + return (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; +} + +//////////////////////////////////////////////////////////////////////////// /* * ATAPI routines */ -static -void rd_identify_ATAPI_drive(struct channel_t *channels, Bit8u channel); +static void rd_init_mode_sense_single(struct vm_device * dev, struct channel_t * channel, const void * src, int size); -static -void rd_init_send_atapi_command(struct channel_t *channels, Bit8u channel, Bit8u command, int req_length, int alloc_length, bool lazy /*= false*/); +static void rd_command_aborted(struct vm_device * dev, struct channel_t * channel, unsigned value); -static -void rd_ready_to_send_atapi(struct channel_t *channels, Bit8u channel); -static -void rd_atapi_cmd_error(struct channel_t *channels, Bit8u channel, sense_t sense_key, asc_t asc); -static -void rd_init_mode_sense_single(struct channel_t *channels, Bit8u channel, const void* src, int size); +static int handle_atapi_packet_command(struct vm_device * dev, + struct channel_t * channel, + ushort_t val); -static -void rd_atapi_cmd_nop(struct channel_t *channels, Bit8u channel); +static int rd_init_send_atapi_command(struct vm_device * dev, + struct channel_t * channel, + Bit8u command, int req_length, + int alloc_length, bool lazy); + +static void rd_ready_to_send_atapi(struct vm_device * dev, + struct channel_t * channel); + +static void rd_atapi_cmd_error(struct vm_device * dev, + struct channel_t * channel, + sense_t sense_key, asc_t asc); + +static void rd_atapi_cmd_nop(struct vm_device * dev, struct channel_t * channel); +static void rd_identify_ATAPI_drive(struct vm_device * dev, struct channel_t * channel); -static -void rd_command_aborted(struct channel_t *channels, Bit8u channel, unsigned value); /* * Interrupt handling */ - -static -void rd_raise_interrupt(struct channel_t *channels, Bit8u channel); - -static -void rd_lower_irq(struct vm_device *dev, Bit32u irq); +static void rd_raise_interrupt(struct vm_device * dev, struct channel_t * channel); +static void rd_lower_irq(struct vm_device *dev, struct channel_t * channel); @@ -199,1830 +315,2257 @@ void rd_lower_irq(struct vm_device *dev, Bit32u irq); * Helper routines */ -uint16 rd_read_16bit(const uint8* buf) -{ - return (buf[0] << 8) | buf[1]; -} +#ifdef DEBUG_RAMDISK +static void rd_print_state(struct ramdisk_t *ramdisk); +#endif -uint32 rd_read_32bit(const uint8* buf) -{ - return (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; -} //////////////////////////////////////////////////////////////////// -void rd_print_state(struct ramdisk_t *ramdisk, - struct vm_device *dev) -//Bit32u rd_init_harddrive(struct channel_t *channels) -{ - uchar_t channel; - uchar_t device; - struct channel_t *channels = (struct channel_t *)(&(ramdisk->channels)); - for (channel = 0; channel < MAX_ATA_CHANNEL; channel++) - memset((char *)(channels + channel), 0, sizeof(struct channel_t)); - Ramdisk_Print("sizeof(*channels) = %d\n", sizeof((*channels))); - Ramdisk_Print("sizeof(channles->drives[0].controller) = %d\n", sizeof((channels->drives[0].controller))); - Ramdisk_Print("sizeof(channles->drives[0].cdrom) = %d\n", sizeof((channels->drives[0].cdrom))); - Ramdisk_Print("sizeof(channles->drives[0].sense) = %d\n", sizeof((channels->drives[0].sense))); - Ramdisk_Print("sizeof(channles->drives[0].atapi) = %d\n", sizeof((channels->drives[0].atapi))); +int v3_ramdisk_register_cdrom(struct vm_device * dev, uint_t busID, uint_t driveID, struct cdrom_ops* cd, void * private_data) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = &(ramdisk->channels[busID]); + struct drive_t * drive = &(channel->drives[driveID]); + struct controller_t * controller = &(drive->controller); - Ramdisk_Print("sizeof(channles->drives[0].controller.status) = %d\n", sizeof((channels->drives[0].controller.status))); - Ramdisk_Print("sizeof(channles->drives[0].controller.sector_count) = %d\n", sizeof((channels->drives[0].controller.sector_count))); - Ramdisk_Print("sizeof(channles->drives[0].controller.interrupt_reason) = %d\n", sizeof((channels->drives[0].controller.interrupt_reason))); - - Ramdisk_Print("sizeof(channles->drives[0].controller.cylinder_no) = %d\n", sizeof((channels->drives[0].controller.cylinder_no))); - Ramdisk_Print("sizeof(channles->drives[0].controller.byte_count) = %d\n", sizeof((channels->drives[0].controller.byte_count))); + + if (drive->device_type != IDE_NONE) { + PrintError("Device already registered at this location\n"); + return -1; + } - Ramdisk_Print("sizeof(channles->drives[0].controller.control) = %d\n", sizeof((channels->drives[0].controller.control))); + channel->irq = 15; + // Make model string + strncpy((char*)(drive->model_no), "V3VEE Ramdisk", 40); - for (channel = 0; channel < MAX_ATA_CHANNEL; channel++){ + while (strlen((char *)(drive->model_no)) < 40) { + strcat ((char*)(drive->model_no), " "); + } - for (device = 0; device < 2; device++){ - - // Initialize controller state, even if device is not present - Ramdisk_Print("channels[%d].drives[%d].controller.status.busy = %d\n",channel, device, channels[channel].drives[device].controller.status.busy); - Ramdisk_Print("channels[%d].drives[%d].controller.status.drive_ready = %d\n", channel, device, channels[channel].drives[device].controller.status.drive_ready); - Ramdisk_Print("channels[%d].drives[%d].controller.status.write_fault = %d\n", channel, device, channels[channel].drives[device].controller.status.write_fault); - Ramdisk_Print("channels[%d].drives[%d].controller.status.seek_complete = %d\n", channel, device, channels[channel].drives[device].controller.status.seek_complete); - Ramdisk_Print("channels[%d].drives[%d].controller.status.drq = %d\n", channel, device, channels[channel].drives[device].controller.status.drq); - Ramdisk_Print("channels[%d].drives[%d].controller.status.corrected_data = %d\n", channel, device, channels[channel].drives[device].controller.status.corrected_data); - Ramdisk_Print("channels[%d].drives[%d].controller.status.index_pulse = %d\n", channel, device, channels[channel].drives[device].controller.status.index_pulse); - Ramdisk_Print("channels[%d].drives[%d].controller.status.index_pulse_count = %d\n", channel, device, channels[channel].drives[device].controller.status.index_pulse_count); - Ramdisk_Print("channels[%d].drives[%d].controller.status.err = %d\n", channel, device, channels[channel].drives[device].controller.status.err); + PrintDebug("CDROM on target %d/%d\n", busID, driveID); + + drive->device_type = IDE_CDROM; + drive->cdrom.locked = 0; + drive->sense.sense_key = SENSE_NONE; + drive->sense.asc = 0; + drive->sense.ascq = 0; + + drive->private_data = private_data; + controller->sector_count = 0; - Ramdisk_Print("channels[%d].drives[%d].controller.error_register = %d\n", channel, device, channels[channel].drives[device].controller.error_register); - Ramdisk_Print("channels[%d].drives[%d].controller.head_no = %d\n", channel, device, channels[channel].drives[device].controller.head_no); - Ramdisk_Print("channels[%d].drives[%d].controller.sector_count = %d\n", channel, device, channels[channel].drives[device].controller.sector_count); - Ramdisk_Print("channels[%d].drives[%d].controller.sector_no = %d\n", channel, device, channels[channel].drives[device].controller.sector_no); - Ramdisk_Print("channels[%d].drives[%d].controller.cylinder_no = %d\n", channel, device, channels[channel].drives[device].controller.cylinder_no); - Ramdisk_Print("channels[%d].drives[%d].controller.current_command = %02x\n", channel, device, channels[channel].drives[device].controller.current_command); - Ramdisk_Print("channels[%d].drives[%d].controller.buffer_index = %d\n", channel, device, channels[channel].drives[device].controller.buffer_index); + drive->cdrom.cd = cd; + + PrintDebug("\t\tCD on ata%d-%d: '%s'\n", + busID, + driveID, ""); + + if(drive->cdrom.cd->insert_cdrom(drive->private_data)) { + PrintDebug("\t\tMedia present in CD-ROM drive\n"); + drive->cdrom.ready = 1; + drive->cdrom.capacity = drive->cdrom.cd->capacity(drive->private_data); + PrintDebug("\t\tCDROM capacity is %d\n", drive->cdrom.capacity); + } else { + PrintDebug("\t\tCould not locate CD-ROM, continuing with media not present\n"); + drive->cdrom.ready = 0; + } + + return 0; +} - Ramdisk_Print("channels[%d].drives[%d].controller.control.reset = %d\n", channel, device, channels[channel].drives[device].controller.control.reset); - Ramdisk_Print("channels[%d].drives[%d].controller.control.disable_irq = %d\n", channel, device, channels[channel].drives[device].controller.control.disable_irq); +static Bit32u rd_init_hardware(struct ramdisk_t *ramdisk) { + uint_t channel_num; + uint_t device; + struct channel_t *channels = (struct channel_t *)(&(ramdisk->channels)); + PrintDebug("[rd_init_harddrive]\n"); - Ramdisk_Print("channels[%d].drives[%d].controller.reset_in_progress = %d\n", channel, device, channels[channel].drives[device].controller.reset_in_progress); - Ramdisk_Print("channels[%d].drives[%d].controller.sectors_per_block = %02x\n", channel, device, channels[channel].drives[device].controller.sectors_per_block); - Ramdisk_Print("channels[%d].drives[%d].controller.lba_mode = %d\n", channel, device, channels[channel].drives[device].controller.lba_mode); - Ramdisk_Print("channels[%d].drives[%d].controller.features = %d\n", channel, device, channels[channel].drives[device].controller.features); + for (channel_num = 0; channel_num < MAX_ATA_CHANNEL; channel_num++) { + memset((char *)(channels + channel_num), 0, sizeof(struct channel_t)); + } + for (channel_num = 0; channel_num < MAX_ATA_CHANNEL; channel_num++){ + struct channel_t * channel = &(channels[channel_num]); + + channel->ioaddr1 = 0x0; + channel->ioaddr2 = 0x0; + channel->irq = 0; + + for (device = 0; device < 2; device++){ + struct drive_t * drive = &(channel->drives[device]); + struct controller_t * controller = &(drive->controller); + + controller->status.busy = 0; + controller->status.drive_ready = 1; + controller->status.write_fault = 0; + controller->status.seek_complete = 1; + controller->status.drq = 0; + controller->status.corrected_data = 0; + controller->status.index_pulse = 0; + controller->status.index_pulse_count = 0; + controller->status.err = 0; + + controller->error_register = 0x01; // diagnostic code: no error + controller->head_no = 0; + controller->sector_count = 1; + controller->sector_no = 1; + controller->cylinder_no = 0; + controller->current_command = 0x00; + controller->buffer_index = 0; + + controller->control.reset = 0; + controller->control.disable_irq = 0; + controller->reset_in_progress = 0; + + controller->sectors_per_block = 0x80; + controller->lba_mode = 0; + + + controller->features = 0; + + // If not present + drive->device_type = IDE_NONE; - Ramdisk_Print("channels[%d].drives[%d].model_no = %s\n", channel, device, channels[channel].drives[device].model_no); - Ramdisk_Print("channels[%d].drives[%d].device_type = %d\n", channel, device, channels[channel].drives[device].device_type); - Ramdisk_Print("channels[%d].drives[%d].cdrom.locked = %d\n", channel, device, channels[channel].drives[device].cdrom.locked); - Ramdisk_Print("channels[%d].drives[%d].sense.sense_key = %d\n", channel, device, channels[channel].drives[device].sense.sense_key); - Ramdisk_Print("channels[%d].drives[%d].sense.asc = %d\n", channel, device, channels[channel].drives[device].sense.asc); - Ramdisk_Print("channels[%d].drives[%d].sense.ascq = %d\n", channel, device, channels[channel].drives[device].sense.ascq); + // Make model string + strncpy((char*)(drive->model_no), "", 40); + while(strlen((char *)(drive->model_no)) < 40) { + strcat ((char*)(drive->model_no), " "); + } + } + } +#ifdef DEBUG_RAMDISK + rd_print_state(ramdisk); +#endif + return 0; +} - Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.c_d = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.c_d); - Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.i_o = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.i_o); +/* + static void rd_reset_harddrive(struct ramdisk_t *ramdisk, unsigned type) { + return; + } - Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.rel = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.rel); +*/ +static void rd_close_harddrive(struct ramdisk_t *ramdisk) { + return; +} - Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.tag = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.tag); - Ramdisk_Print("channels[%d].drives[%d].cdrom.ready = %d\n", channel, device, channels[channel].drives[device].cdrom.ready); - - }//for device - }//for channel - - return; -} +//////////////////////////////////////////////////////////////////// -Bit32u rd_init_harddrive(struct ramdisk_t *ramdisk, - struct vm_device *dev) -{ - - uchar_t channel; - uchar_t device; - struct channel_t *channels = (struct channel_t *)(&(ramdisk->channels)); +static int read_data_port(ushort_t port, void * dst, uint_t length, struct vm_device * dev) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = NULL; + struct drive_t * drive = NULL; + struct controller_t * controller = NULL; - Ramdisk_Print("[rd_init_harddrive]\n"); - for (channel = 0; channel < MAX_ATA_CHANNEL; channel++) - memset((char *)(channels + channel), 0, sizeof(struct channel_t)); - for (channel = 0; channel < MAX_ATA_CHANNEL; channel++){ + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); + } else { + PrintError("Invalid Port: %d\n", port); + return -1; + } - channels[channel].ioaddr1 = 0x0; - channels[channel].ioaddr2 = 0x0; - channels[channel].irq = 0; - - for (device = 0; device < 2; device++){ + drive = get_selected_drive(channel); + controller = &(drive->controller); + + + PrintTrace("[read_data_handler] IO Read at 0x%x, on drive %d/%d current cmd=0x%x\n", + port, + get_channel_no(ramdisk, channel), + get_drive_no(channel, drive), + controller->current_command); + + switch (controller->current_command) { + case 0xec: // IDENTIFY DEVICE + case 0xa1: + { + controller->status.busy = 0; + controller->status.drive_ready = 1; + controller->status.write_fault = 0; + controller->status.seek_complete = 1; + controller->status.corrected_data = 0; + controller->status.err = 0; + + /* + value32 = controller->buffer[index]; + index++; + + if (io_len >= 2) { + value32 |= (controller->buffer[index] << 8); + index++; + } + + if (io_len == 4) { + value32 |= (controller->buffer[index] << 16); + value32 |= (controller->buffer[index+1] << 24); + index += 2; + } + + controller->buffer_index = index; + */ + /* JRL */ + memcpy(dst, controller->buffer + controller->buffer_index, length); + controller->buffer_index += length; + if (controller->buffer_index >= 512) { + controller->status.drq = 0; + } + + return length; + } + case 0xa0: //send packet cmd + { + uint_t index = controller->buffer_index; - CONTROLLER(channel,device).status.busy = 0; - CONTROLLER(channel,device).status.drive_ready = 1; - CONTROLLER(channel,device).status.write_fault = 0; - CONTROLLER(channel,device).status.seek_complete = 1; - CONTROLLER(channel,device).status.drq = 0; - CONTROLLER(channel,device).status.corrected_data = 0; - CONTROLLER(channel,device).status.index_pulse = 0; - CONTROLLER(channel,device).status.index_pulse_count = 0; - CONTROLLER(channel,device).status.err = 0; - - CONTROLLER(channel,device).error_register = 0x01; // diagnostic code: no error - CONTROLLER(channel,device).head_no = 0; - CONTROLLER(channel,device).sector_count = 1; - CONTROLLER(channel,device).sector_no = 1; - CONTROLLER(channel,device).cylinder_no = 0; - CONTROLLER(channel,device).current_command = 0x00; - CONTROLLER(channel,device).buffer_index = 0; - - CONTROLLER(channel,device).control.reset = 0; - CONTROLLER(channel,device).control.disable_irq = 0; - CONTROLLER(channel,device).reset_in_progress = 0; - - CONTROLLER(channel,device).sectors_per_block = 0x80; - CONTROLLER(channel,device).lba_mode = 0; - CONTROLLER(channel,device).features = 0; + PrintTrace("\t\tatapi.command(%02x), index(%d), cdrom.remaining_blocks(%d)\n", + drive->atapi.command, + index, + drive->cdrom.remaining_blocks); + + // Load block if necessary + if (index >= 2048) { - // If not present - channels[channel].drives[device].device_type = IDE_NONE; - - // Make model string - strncpy((char*)channels[channel].drives[device].model_no, - "", 40); - while(strlen((char *)channels[channel].drives[device].model_no) < 40) { - strcat ((char*)channels[channel].drives[device].model_no, " "); - } - -// Ramdisk_Print("channels[%d].drives[%d].controller.current_command = %02x\n", channel, device, channels[channel].drives[device].controller.current_command); -// Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.c_d = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.c_d); - -// Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.i_o = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.i_o); - -// Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.rel = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.rel); + if (index > 2048) { + PrintError("\t\tindex > 2048 : 0x%x\n", index); + return -1; + } + + switch (drive->atapi.command) { + case 0x28: // read (10) + case 0xa8: // read (12) + { + + if (!(drive->cdrom.ready)) { + PrintError("\t\tRead with CDROM not ready\n"); + return -1; + } + + drive->cdrom.cd->read_block(drive->private_data, controller->buffer, + drive->cdrom.next_lba); + drive->cdrom.next_lba++; + drive->cdrom.remaining_blocks--; + + + if (!(drive->cdrom.remaining_blocks)) { + PrintDebug("\t\tLast READ block loaded {CDROM}\n"); + } else { + PrintDebug("\t\tREAD block loaded (%d remaining) {CDROM}\n", + drive->cdrom.remaining_blocks); + } + + // one block transfered, start at beginning + index = 0; + break; + } + default: // no need to load a new block + break; + } + } + -// Ramdisk_Print("channels[%d].drives[%d].controller.interrupt_reason.tag = %02x\n", channel, device, channels[channel].drives[device].controller.interrupt_reason.tag); - -// Ramdisk_Print("channels[%d].drives[%d].controller.control.disable_irq = %d\n", channel, device, channels[channel].drives[device].controller.control.disable_irq); - + /* + increment = 0; + value32 = controller->buffer[index + increment]; + increment++; + + if (io_len >= 2) { + value32 |= (controller->buffer[index + increment] << 8); + increment++; + } + + if (io_len == 4) { + value32 |= (controller->buffer[index + increment] << 16); + value32 |= (controller->buffer[index + increment + 1] << 24); + increment += 2; + } + + controller->buffer_index = index + increment; + controller->drq_index += increment; + + */ + /* JRL: CHECK THAT there is enough data in the buffer to copy.... */ + { + memcpy(dst, controller->buffer + index, length); + + controller->buffer_index = index + length; + controller->drq_index += length; + } + /* *** */ - if (channel == 1) { - - channels[channel].ioaddr1 = 0x170; - channels[channel].ioaddr2 = 0x370; - channels[channel].irq = 15; - channels[channel].drive_select = 0; - - if (device == 0) { - // Make model string - strncpy((char*)channels[channel].drives[device].model_no, - "Zheng's Ramdisk", 40); - while (strlen((char *)channels[channel].drives[device].model_no) < 40) { - strcat ((char*)channels[channel].drives[device].model_no, " "); - } - - Ramdisk_Print("CDROM on target %d/%d\n", channel, device); + if (controller->drq_index >= (unsigned)drive->atapi.drq_bytes) { + controller->status.drq = 0; + controller->drq_index = 0; + + drive->atapi.total_bytes_remaining -= drive->atapi.drq_bytes; + + if (drive->atapi.total_bytes_remaining > 0) { + // one or more blocks remaining (works only for single block commands) - channels[channel].drives[device].device_type = IDE_CDROM; - channels[channel].drives[device].cdrom.locked = 0; - channels[channel].drives[device].sense.sense_key = SENSE_NONE; - channels[channel].drives[device].sense.asc = 0; - channels[channel].drives[device].sense.ascq = 0; + PrintDebug("\t\tPACKET drq bytes read\n"); + controller->interrupt_reason.i_o = 1; + controller->status.busy = 0; + controller->status.drq = 1; + controller->interrupt_reason.c_d = 0; - - //Check bit fields - channels[channel].drives[device].controller.sector_count = 0; - channels[channel].drives[device].controller.interrupt_reason.c_d = 1; - if (channels[channel].drives[device].controller.sector_count != 0x01) { - Ramdisk_Print("interrupt reason bit field error\n"); - return INTR_REASON_BIT_ERR; - } - - channels[channel].drives[device].controller.sector_count = 0; - channels[channel].drives[device].controller.interrupt_reason.i_o = 1; - if (channels[channel].drives[device].controller.sector_count != 0x02) { - Ramdisk_Print("interrupt reason bit field error\n"); - return INTR_REASON_BIT_ERR; - } + // set new byte count if last block + if (drive->atapi.total_bytes_remaining < controller->byte_count) { + controller->byte_count = drive->atapi.total_bytes_remaining; + } + drive->atapi.drq_bytes = controller->byte_count; - channels[channel].drives[device].controller.sector_count = 0; - channels[channel].drives[device].controller.interrupt_reason.rel = 1; - if (channels[channel].drives[device].controller.sector_count != 0x04) { - Ramdisk_Print("interrupt reason bit field error\n"); - return INTR_REASON_BIT_ERR; - } - - channels[channel].drives[device].controller.sector_count = 0; - channels[channel].drives[device].controller.interrupt_reason.tag = 3; - if (channels[channel].drives[device].controller.sector_count != 0x18) { - Ramdisk_Print("interrupt reason bit field error\n"); - return INTR_REASON_BIT_ERR; - } + rd_raise_interrupt(dev, channel); + } else { + // all bytes read + PrintDebug("\t\tPACKET all bytes read\n"); + controller->interrupt_reason.i_o = 1; + controller->interrupt_reason.c_d = 1; + controller->status.drive_ready = 1; + controller->interrupt_reason.rel = 0; + controller->status.busy = 0; + controller->status.drq = 0; + controller->status.err = 0; - channels[channel].drives[device].controller.sector_count = 0; + rd_raise_interrupt(dev, channel); + } + } + return length; + break; + } - // allocate low level driver - channels[channel].drives[device].cdrom.cd = (struct cdrom_interface*)V3_Malloc(sizeof(struct cdrom_interface)); - Ramdisk_Print("cd = %x\n", channels[channel].drives[device].cdrom.cd); - V3_ASSERT(channels[channel].drives[device].cdrom.cd != NULL); - - struct cdrom_interface *cdif = channels[channel].drives[device].cdrom.cd; - memset(cdif, 0, sizeof(struct cdrom_interface)); - init_cdrom(cdif); - cdif->ops.init(cdif); + default: + PrintError("\t\tunsupported command: %02x\n", controller->current_command); + break; + } - Ramdisk_Print("\t\tCD on ata%d-%d: '%s'\n",channel, device, ""); - - if((channels[channel].drives[device].cdrom.cd->ops).insert_cdrom(cdif, NULL)) { - Ramdisk_Print("\t\tMedia present in CD-ROM drive\n"); - channels[channel].drives[device].cdrom.ready = 1; - channels[channel].drives[device].cdrom.capacity = channels[channel].drives[device].cdrom.cd->ops.capacity(cdif); - } else { - Ramdisk_Print("\t\tCould not locate CD-ROM, continuing with media not present\n"); - channels[channel].drives[device].cdrom.ready = 0; - } - - }//if device = 0 - }//if channel = 0 - }//for device - }//for channel - - ramdisk->private_data = dev; - ramdisk_state = ramdisk; - Ramdisk_Print("ramdisk_state = %x\n", ramdisk_state); - Ramdisk_Print("ramdisk = %x\n", ramdisk); - // rd_print_state(ramdisk, dev); - return 0; + return -1; } -void rd_reset_harddrive(struct ramdisk_t *ramdisk, unsigned type) -{ - return; -} -void rd_close_harddrive(struct ramdisk_t *ramdisk) -{ - return; +static int write_data_port(ushort_t port, void * src, uint_t length, struct vm_device * dev) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = NULL; + struct drive_t * drive = NULL; + struct controller_t * controller = NULL; + + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); + } else { + PrintError("Invalid Port: %d\n", port); + return -1; + } + + drive = get_selected_drive(channel); + controller = &(drive->controller); + + + PrintDebug("[write_data_handler] IO write at 0x%x, current_cmd = 0x%02x\n", + port, controller->current_command); + + + + //PrintDebug("[write_data_handler]\n"); + switch (controller->current_command) { + case 0x30: // WRITE SECTORS + PrintError("\t\tneed to implement 0x30(write sector) to port 0x%x\n", port); + return -1; + + case 0xa0: // PACKET + + if (handle_atapi_packet_command(dev, channel, *(ushort_t *)src) == -1) { + PrintError("Error sending atapi packet command in PACKET write to data port\n"); + return -1; + } + + return length; + + default: + PrintError("\t\tIO write(0x%x): current command is %02xh\n", + port, controller->current_command); + + return -1; + } + + + return -1; } -//////////////////////////////////////////////////////////////////// -static -Bit32u rd_read_handler(struct channel_t *channels, Bit32u address, unsigned io_len) -{ - Bit8u value8; - Bit16u value16; - Bit32u value32; - unsigned drive_select; - unsigned index; - unsigned increment = 0; - Bit8u channel = MAX_ATA_CHANNEL; - Bit32u port = 0xff; // undefined - Ramdisk_Print("[rd_read_handler]\n"); +static int read_status_port(ushort_t port, void * dst, uint_t length, struct vm_device * dev) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = NULL; + struct drive_t * drive = NULL; + struct controller_t * controller = NULL; + - for (channel=0; channel 0x03f7)) { - RD_PANIC("Error: read: unable to find ATA channel, ioport=0x%04x\n", address); - return 0; + + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); } else { - channel = 0; - port = address - 0x03e0; + PrintError("Invalid Port: %d\n", port); + return -1; } - } - - drive_select = channels[channel].drive_select; - if (port != 0x00){ - Ramdisk_Print("[R_handler] IO read addr at %x, on drive %d/%d, curcmd = %02x\n", address, channel, drive_select, SELECTED_CONTROLLER(channel).current_command); - }else{ - - } + + drive = get_selected_drive(channel); + controller = &(drive->controller); + + PrintDebug("[read_status_handler] IO read at 0x%x, on drive %d/%d\n", + port, get_channel_no(ramdisk, channel), + channel->drive_select); - struct cdrom_interface *cdif = channels[channel].drives[drive_select].cdrom.cd; - switch (port) { - case 0x00: // hard disk data (16bit) 0x1f0 + if (num_drives_on_channel(channel) == 0) { + PrintDebug("Setting value to zero because 0 devices on channel\n"); + // (mch) Just return zero for these registers + memset(dst, 0, length); - switch (SELECTED_CONTROLLER(channel).current_command) { - case 0xec: // IDENTIFY DEVICE - case 0xa1: + } else { + uchar_t val = ( + (controller->status.busy << 7) | + (controller->status.drive_ready << 6) | + (controller->status.write_fault << 5) | + (controller->status.seek_complete << 4) | + (controller->status.drq << 3) | + (controller->status.corrected_data << 2) | + (controller->status.index_pulse << 1) | + (controller->status.err) ); - index = 0; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drive_ready = 1; - SELECTED_CONTROLLER(channel).status.write_fault = 0; - SELECTED_CONTROLLER(channel).status.seek_complete = 1; - SELECTED_CONTROLLER(channel).status.corrected_data = 0; - SELECTED_CONTROLLER(channel).status.err = 0; - - index = SELECTED_CONTROLLER(channel).buffer_index; - value32 = SELECTED_CONTROLLER(channel).buffer[index]; - index++; - if (io_len >= 2) { - value32 |= (SELECTED_CONTROLLER(channel).buffer[index] << 8); - index++; - } - if (io_len == 4) { - value32 |= (SELECTED_CONTROLLER(channel).buffer[index] << 16); - value32 |= (SELECTED_CONTROLLER(channel).buffer[index+1] << 24); - index += 2; - } - SELECTED_CONTROLLER(channel).buffer_index = index; - - if (SELECTED_CONTROLLER(channel).buffer_index >= 512) { - - SELECTED_CONTROLLER(channel).status.drq = 0; - } - GOTO_RETURN_VALUE; - - case 0xa0: //send packet cmd - - index = SELECTED_CONTROLLER(channel).buffer_index; - increment = 0; - Ramdisk_Print("\t\tatapi.command(%02x), index(%d), cdrom.remaining_blocks(%d)\n", SELECTED_DRIVE(channel).atapi.command, index, SELECTED_DRIVE(channel).cdrom.remaining_blocks); - // Load block if necessary - if (index >= 2048) { - if (index > 2048) - RD_PANIC("\t\tindex > 2048 : 0x%x\n",index); - switch (SELECTED_DRIVE(channel).atapi.command) { - case 0x28: // read (10) - case 0xa8: // read (12) - - if (!SELECTED_DRIVE(channel).cdrom.ready) { - RD_PANIC("\t\tRead with CDROM not ready\n"); - } - SELECTED_DRIVE(channel).cdrom.cd->ops.read_block(cdif, SELECTED_CONTROLLER(channel).buffer, - SELECTED_DRIVE(channel).cdrom.next_lba); - SELECTED_DRIVE(channel).cdrom.next_lba++; - SELECTED_DRIVE(channel).cdrom.remaining_blocks--; - - - if (!SELECTED_DRIVE(channel).cdrom.remaining_blocks) - Ramdisk_Print("\t\tLast READ block loaded {CDROM}\n"); - else - Ramdisk_Print("\t\tREAD block loaded (%d remaining) {CDROM}\n", - SELECTED_DRIVE(channel).cdrom.remaining_blocks); - - // one block transfered, start at beginning - index = 0; - break; - - default: // no need to load a new block - break; - } - } + memcpy(dst, &val, length); - value32 = SELECTED_CONTROLLER(channel).buffer[index+increment]; - increment++; - if (io_len >= 2) { - value32 |= (SELECTED_CONTROLLER(channel).buffer[index+increment] << 8); - increment++; - } - if (io_len == 4) { - value32 |= (SELECTED_CONTROLLER(channel).buffer[index+increment] << 16); - value32 |= (SELECTED_CONTROLLER(channel).buffer[index+increment+1] << 24); - increment += 2; - } - SELECTED_CONTROLLER(channel).buffer_index = index + increment; - SELECTED_CONTROLLER(channel).drq_index += increment; - - if (SELECTED_CONTROLLER(channel).drq_index >= (unsigned)SELECTED_DRIVE(channel).atapi.drq_bytes) { - SELECTED_CONTROLLER(channel).status.drq = 0; - SELECTED_CONTROLLER(channel).drq_index = 0; - - SELECTED_DRIVE(channel).atapi.total_bytes_remaining -= SELECTED_DRIVE(channel).atapi.drq_bytes; - - if (SELECTED_DRIVE(channel).atapi.total_bytes_remaining > 0) { - // one or more blocks remaining (works only for single block commands) - - Ramdisk_Print("\t\tPACKET drq bytes read\n"); - SELECTED_CONTROLLER(channel).interrupt_reason.i_o = 1; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drq = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.c_d = 0; - - // set new byte count if last block - if (SELECTED_DRIVE(channel).atapi.total_bytes_remaining < SELECTED_CONTROLLER(channel).byte_count) { - SELECTED_CONTROLLER(channel).byte_count = SELECTED_DRIVE(channel).atapi.total_bytes_remaining; - } - SELECTED_DRIVE(channel).atapi.drq_bytes = SELECTED_CONTROLLER(channel).byte_count; - - rd_raise_interrupt(channels, channel); - } else { - // all bytes read - Ramdisk_Print("\t\tPACKET all bytes read\n"); - SELECTED_CONTROLLER(channel).interrupt_reason.i_o = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.c_d = 1; - SELECTED_CONTROLLER(channel).status.drive_ready = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.rel = 0; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drq = 0; - SELECTED_CONTROLLER(channel).status.err = 0; - - rd_raise_interrupt(channels, channel); - } - } - GOTO_RETURN_VALUE; - break; - - default: - Ramdisk_Print("\t\tread need support more command: %02x\n", SELECTED_CONTROLLER(channel).current_command); - break; - } - /////////////////////////////////////////// - - case 0x01: // hard disk error register 0x1f1 - - SELECTED_CONTROLLER(channel).status.err = 0; - value8 = (!SELECTED_IS_PRESENT(channel)) ? 0 : SELECTED_CONTROLLER(channel).error_register; - goto return_value8; - break; - case 0x02: // hard disk sector count / interrupt reason 0x1f2 - value8 = (!SELECTED_IS_PRESENT(channel)) ? 0 : SELECTED_CONTROLLER(channel).sector_count; - goto return_value8; - break; - case 0x03: // sector number 0x1f3 - value8 = (!SELECTED_IS_PRESENT(channel)) ? 0 : SELECTED_CONTROLLER(channel).sector_no; - goto return_value8; - case 0x04: // cylinder low 0x1f4 - // -- WARNING : On real hardware the controller registers are shared between drives. - // So we must respond even if the select device is not present. Some OS uses this fact - // to detect the disks.... minix2 for example - value8 = (!ANY_IS_PRESENT(channel)) ? 0 : (SELECTED_CONTROLLER(channel).cylinder_no & 0x00ff); - goto return_value8; - case 0x05: // cylinder high 0x1f5 - // -- WARNING : On real hardware the controller registers are shared between drives. - // So we must respond even if the select device is not present. Some OS uses this fact - // to detect the disks.... minix2 for example - value8 = (!ANY_IS_PRESENT(channel)) ? 0 : SELECTED_CONTROLLER(channel).cylinder_no >> 8; - goto return_value8; + controller->status.index_pulse_count++; + controller->status.index_pulse = 0; - case 0x06: // hard disk drive and head register 0x1f6 - // b7 Extended data field for ECC - // b6/b5: Used to be sector size. 00=256,01=512,10=1024,11=128 - // Since 512 was always used, bit 6 was taken to mean LBA mode: - // b6 1=LBA mode, 0=CHS mode - // b5 1 - // b4: DRV - // b3..0 HD3..HD0 - value8 = (1 << 7) | - ((SELECTED_CONTROLLER(channel).lba_mode>0) << 6) | - (1 << 5) | // 01b = 512 sector size - (channels[channel].drive_select << 4) | - (SELECTED_CONTROLLER(channel).head_no << 0); - goto return_value8; - break; - //CONTROLLER(channel,0).lba_mode - - case 0x07: // Hard Disk Status 0x1f7 - case 0x16: // Hard Disk Alternate Status 0x3f6 - if (!ANY_IS_PRESENT(channel)) { - // (mch) Just return zero for these registers - value8 = 0; - } else { - value8 = ( - (SELECTED_CONTROLLER(channel).status.busy << 7) | - (SELECTED_CONTROLLER(channel).status.drive_ready << 6) | - (SELECTED_CONTROLLER(channel).status.write_fault << 5) | - (SELECTED_CONTROLLER(channel).status.seek_complete << 4) | - (SELECTED_CONTROLLER(channel).status.drq << 3) | - (SELECTED_CONTROLLER(channel).status.corrected_data << 2) | - (SELECTED_CONTROLLER(channel).status.index_pulse << 1) | - (SELECTED_CONTROLLER(channel).status.err) ); - SELECTED_CONTROLLER(channel).status.index_pulse_count++; - SELECTED_CONTROLLER(channel).status.index_pulse = 0; - if (SELECTED_CONTROLLER(channel).status.index_pulse_count >= INDEX_PULSE_CYCLE) { - SELECTED_CONTROLLER(channel).status.index_pulse = 1; - SELECTED_CONTROLLER(channel).status.index_pulse_count = 0; - } - } - if (port == 0x07) { - rd_lower_irq((struct vm_device *)(ramdisk_state->private_data), channels[channel].irq); + if (controller->status.index_pulse_count >= INDEX_PULSE_CYCLE) { + controller->status.index_pulse = 1; + controller->status.index_pulse_count = 0; + } } - goto return_value8; - break; - - case 0x17: // Hard Disk Address Register 0x3f7 - // Obsolete and unsupported register. Not driven by hard - // disk controller. Report all 1's. If floppy controller - // is handling this address, it will call this function - // set/clear D7 (the only bit it handles), then return - // the combined value - value8 = 0xff; - goto return_value8; - break; - - default: - RD_PANIC("hard drive: io read to address %x unsupported\n", - (unsigned) address); - - - //////////////////////////////////////////// - } - - Ramdisk_Print("\t\tError: hard drive: shouldnt get here!\n"); - return 0; -return_value32: - Ramdisk_Print("\t\t32-bit read from %04x = %08x {%s}\n", - (unsigned) address, value32, SELECTED_TYPE_STRING(channel)); - return value32; + if ((port == SEC_CMD_PORT) || (port == PRI_CMD_PORT)) { + rd_lower_irq(dev, channel); + } - return_value16: - Ramdisk_Print("\t\t16-bit read from %04x = %04x {%s}\n", - (unsigned) address, value16, SELECTED_TYPE_STRING(channel)); - return value16; + PrintDebug("\t\tRead STATUS = 0x%x\n", *(uchar_t *)dst); + + return length; - return_value8: - Ramdisk_Print("\t\t8-bit read from %x = %02x {%s}\n", - (unsigned) address, value8, SELECTED_TYPE_STRING(channel)); - return value8; } -static -void rd_write_handler(struct channel_t *channels, Bit32u address, - Bit32u value, unsigned io_len) -{ +static int write_cmd_port(ushort_t port, void * src, uint_t length, struct vm_device * dev) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = NULL; + struct drive_t * drive = NULL; + struct controller_t * controller = NULL; + uchar_t value = *(uchar_t *)src; - // off_t logical_sector; - // off_t ret; - rd_bool prev_control_reset; + if (length != 1) { + PrintError("Invalid Command port write length: %d (port=%d)\n", length, port); + return -1; + } - Bit32u id; - int toc_length; + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); + } else { + PrintError("Invalid Port: %d\n", port); + return -1; + } + + drive = get_selected_drive(channel); + controller = &(drive->controller); + + + PrintDebug("[write_command_handler] IO write at 0x%x, on drive %d/%d (val = 0x%x)\n", + port, get_channel_no(ramdisk, channel), + get_drive_no(channel, drive), + value); + + switch (value) { +#if 0 + case 0xec: // IDENTIFY DEVICE + { + + if (drive->device_type == IDE_NONE) { + PrintError("\t\tError: disk ata%d-%d not present, aborting\n", + get_channel_no(ramdisk, channel), + get_drive_no(channel, drive)); + rd_command_aborted(dev, channel, value); + break; + } else if (drive->device_type == IDE_CDROM) { + PrintDebug("Identifying CDROM...Going to abort????\n"); + controller->head_no = 0; + controller->sector_count = 1; + controller->sector_no = 1; + controller->cylinder_no = 0xeb14; + rd_command_aborted(dev, channel, 0xec); + } else { + PrintError("\t\tError: Want to identify HDD!!\n"); + /* + SELECTED_CONTROLLER(channel).current_command = value; + SELECTED_CONTROLLER(channel).error_register = 0; + + // See ATA/ATAPI-4, 8.12 + SELECTED_CONTROLLER(channel).status.busy = 0; + SELECTED_CONTROLLER(channel).status.drive_ready = 1; + SELECTED_CONTROLLER(channel).status.write_fault = 0; + SELECTED_CONTROLLER(channel).status.drq = 1; + SELECTED_CONTROLLER(channel).status.err = 0; + + SELECTED_CONTROLLER(channel).status.seek_complete = 1; + SELECTED_CONTROLLER(channel).status.corrected_data = 0; + + SELECTED_CONTROLLER(channel).buffer_index = 0; + raise_interrupt(channel); + identify_drive(channel); + */ + } - Bit8u channel = MAX_ATA_CHANNEL; - Bit32u port = 0xff; // undefined + break; + } +#endif + // ATAPI commands + case 0xa1: // IDENTIFY PACKET DEVICE + { + if (drive->device_type == IDE_CDROM) { + controller->current_command = value; + controller->error_register = 0; + + controller->status.busy = 0; + controller->status.drive_ready = 1; + controller->status.write_fault = 0; + controller->status.drq = 1; + controller->status.err = 0; + + controller->status.seek_complete = 1; + controller->status.corrected_data = 0; + + controller->buffer_index = 0; + rd_raise_interrupt(dev, channel); + rd_identify_ATAPI_drive(dev, channel); + } else { + PrintError("Identifying non cdrom device not supported - ata %d/%d\n", + get_channel_no(ramdisk, channel), + get_drive_no(channel, drive)); + rd_command_aborted(dev, channel, 0xa1); + } + break; + } + case 0xa0: // SEND PACKET (atapi) + { + if (drive->device_type == IDE_CDROM) { + // PACKET + + if (controller->features & (1 << 0)) { + PrintError("\t\tPACKET-DMA not supported"); + return -1; + } + + if (controller->features & (1 << 1)) { + PrintError("\t\tPACKET-overlapped not supported"); + return -1; + } + + // We're already ready! + controller->sector_count = 1; + controller->status.busy = 0; + controller->status.write_fault = 0; - Ramdisk_Print("[rd_write_handler]\n"); - // Bit8u atapi_command; - //int alloc_length; + // serv bit?? + controller->status.drq = 1; + controller->status.err = 0; + + // NOTE: no interrupt here + controller->current_command = value; + controller->buffer_index = 0; + } else { + PrintError("Sending packet to non cdrom device not supported\n"); + rd_command_aborted (dev, channel, 0xa0); + } + break; + } + default: + PrintError("\t\tneed translate command %2x - ata %d\%d\n", value, + get_channel_no(ramdisk, channel), + get_drive_no(channel, drive)); + //return -1; + /* JRL THIS NEEDS TO CHANGE */ + return length; - for (channel=0; channelprivate_data); + struct channel_t * channel = NULL; + struct drive_t * master_drive = NULL; + struct drive_t * slave_drive = NULL; + struct controller_t * controller = NULL; + uchar_t value = *(uchar_t *)src; + rd_bool prev_control_reset; + + if (length != 1) { + PrintError("Invalid Status port read length: %d (port=%d)\n", length, port); + return -1; } - if (channel == MAX_ATA_CHANNEL) { - if (address != 0x03f6) { - RD_PANIC("Panic: write: unable to find ATA channel, ioport=0x%04x\n", address); + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); } else { - channel = 0; - port = address - 0x03e0; + PrintError("Invalid Port: %d\n", port); + return -1; } - } - Ramdisk_Print("[W_handler] IO write to %x = %02x, channel = %d\n", (unsigned) address, (unsigned) value, channel); + master_drive = &(channel->drives[0]); + slave_drive = &(channel->drives[1]); - struct cdrom_interface *cdif = SELECTED_DRIVE(channel).cdrom.cd; + controller = &(get_selected_drive(channel)->controller); - switch (port) { - case 0x00: // 0x1f0 - Ramdisk_Print("\t\twrite port 170\n"); + PrintDebug("[write_control_handler] IO write at 0x%x, on drive %d/%d (val = 0x%x)\n", + port, get_channel_no(ramdisk, channel), + channel->drive_select, + value); - ////////////////////////////////////////////////////////// - switch (SELECTED_CONTROLLER(channel).current_command) { - case 0x30: // WRITE SECTORS - RD_PANIC("\t\tneed to implement 0x30(write sector) to port 0x170\n"); - break; - - case 0xa0: // PACKET - if (SELECTED_CONTROLLER(channel).buffer_index >= PACKET_SIZE) - RD_PANIC("IO write(0x%04x): buffer_index >= PACKET_SIZE", address); - SELECTED_CONTROLLER(channel).buffer[SELECTED_CONTROLLER(channel).buffer_index] = value; - SELECTED_CONTROLLER(channel).buffer[SELECTED_CONTROLLER(channel).buffer_index+1] = (value >> 8); - SELECTED_CONTROLLER(channel).buffer_index += 2; - - /* if packet completely writtten */ - if (SELECTED_CONTROLLER(channel).buffer_index >= PACKET_SIZE) { - // complete command received - Bit8u atapi_command = SELECTED_CONTROLLER(channel).buffer[0]; - - Ramdisk_Print("\t\tcdrom: ATAPI command 0x%x started\n", atapi_command); + // (mch) Even if device 1 was selected, a write to this register + // goes to device 0 (if device 1 is absent) + + prev_control_reset = controller->control.reset; - switch (atapi_command) { - case 0x00: // test unit ready - if (SELECTED_DRIVE(channel).cdrom.ready) { - rd_atapi_cmd_nop(channels, channel); - } else { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - } - rd_raise_interrupt(channels, channel); - break; - - case 0x03: { // request sense - int alloc_length = SELECTED_CONTROLLER(channel).buffer[4]; - rd_init_send_atapi_command(channels, channel, atapi_command, 18, alloc_length, false); - - // sense data - SELECTED_CONTROLLER(channel).buffer[0] = 0x70 | (1 << 7); - SELECTED_CONTROLLER(channel).buffer[1] = 0; - SELECTED_CONTROLLER(channel).buffer[2] = SELECTED_DRIVE(channel).sense.sense_key; - SELECTED_CONTROLLER(channel).buffer[3] = SELECTED_DRIVE(channel).sense.information.arr[0]; - SELECTED_CONTROLLER(channel).buffer[4] = SELECTED_DRIVE(channel).sense.information.arr[1]; - SELECTED_CONTROLLER(channel).buffer[5] = SELECTED_DRIVE(channel).sense.information.arr[2]; - SELECTED_CONTROLLER(channel).buffer[6] = SELECTED_DRIVE(channel).sense.information.arr[3]; - SELECTED_CONTROLLER(channel).buffer[7] = 17-7; - SELECTED_CONTROLLER(channel).buffer[8] = SELECTED_DRIVE(channel).sense.specific_inf.arr[0]; - SELECTED_CONTROLLER(channel).buffer[9] = SELECTED_DRIVE(channel).sense.specific_inf.arr[1]; - SELECTED_CONTROLLER(channel).buffer[10] = SELECTED_DRIVE(channel).sense.specific_inf.arr[2]; - SELECTED_CONTROLLER(channel).buffer[11] = SELECTED_DRIVE(channel).sense.specific_inf.arr[3]; - SELECTED_CONTROLLER(channel).buffer[12] = SELECTED_DRIVE(channel).sense.asc; - SELECTED_CONTROLLER(channel).buffer[13] = SELECTED_DRIVE(channel).sense.ascq; - SELECTED_CONTROLLER(channel).buffer[14] = SELECTED_DRIVE(channel).sense.fruc; - SELECTED_CONTROLLER(channel).buffer[15] = SELECTED_DRIVE(channel).sense.key_spec.arr[0]; - SELECTED_CONTROLLER(channel).buffer[16] = SELECTED_DRIVE(channel).sense.key_spec.arr[1]; - SELECTED_CONTROLLER(channel).buffer[17] = SELECTED_DRIVE(channel).sense.key_spec.arr[2]; - - rd_ready_to_send_atapi(channels, channel); - } - break; - - case 0x1b: { // start stop unit - //bx_bool Immed = (SELECTED_CONTROLLER(channel).buffer[1] >> 0) & 1; - rd_bool LoEj = (SELECTED_CONTROLLER(channel).buffer[4] >> 1) & 1; - rd_bool Start = (SELECTED_CONTROLLER(channel).buffer[4] >> 0) & 1; - - if (!LoEj && !Start) { // stop the disc - RD_ERROR("FIXME: Stop disc not implemented\n"); - rd_atapi_cmd_nop(channels, channel); - rd_raise_interrupt(channels, channel); - } else if (!LoEj && Start) { // start (spin up) the disc - - SELECTED_DRIVE(channel).cdrom.cd->ops.start_cdrom(cdif); - - RD_ERROR("FIXME: ATAPI start disc not reading TOC\n"); - rd_atapi_cmd_nop(channels, channel); - rd_raise_interrupt(channels, channel); - } else if (LoEj && !Start) { // Eject the disc - rd_atapi_cmd_nop(channels, channel); - - if (SELECTED_DRIVE(channel).cdrom.ready) { - SELECTED_DRIVE(channel).cdrom.cd->ops.eject_cdrom(cdif); + if (value & 0x04) { + PrintDebug("RESET Signaled\n"); + } + + master_drive->controller.control.reset = value & 0x04; + slave_drive->controller.control.reset = value & 0x04; + + // CGS: was: SELECTED_CONTROLLER(channel).control.disable_irq = value & 0x02; + master_drive->controller.control.disable_irq = value & 0x02; + slave_drive->controller.control.disable_irq = value & 0x02; + + PrintDebug("\t\tadpater control reg: reset controller = %d\n", + (unsigned) (controller->control.reset) ? 1 : 0); + PrintDebug("\t\tadpater control reg: disable_irq(X) = %d\n", + (unsigned) (controller->control.disable_irq) ? 1 : 0); + + if ((!prev_control_reset) && (controller->control.reset)) { + uint_t id = 0; - SELECTED_DRIVE(channel).cdrom.ready = 0; - //bx_options.atadevice[channel][SLAVE_SELECTED(channel)].Ostatus->set(EJECTED); - //bx_gui->update_drive_status_buttons(); + // transition from 0 to 1 causes all drives to reset + PrintDebug("\t\thard drive: RESET\n"); + + // (mch) Set BSY, drive not ready + for (id = 0; id < 2; id++) { + struct controller_t * ctrl = NULL; + + if (id == 0) { + ctrl = &(master_drive->controller); + } else if (id == 1) { + ctrl = &(slave_drive->controller); } - rd_raise_interrupt(channels, channel); - } else { // Load the disc - // My guess is that this command only closes the tray, that's a no-op for us - rd_atapi_cmd_nop(channels, channel); - rd_raise_interrupt(channels, channel); - } - } - break; - - case 0xbd: { // mechanism status - uint16 alloc_length = rd_read_16bit(SELECTED_CONTROLLER(channel).buffer + 8); - - if (alloc_length == 0) - RD_PANIC("Zero allocation length to MECHANISM STATUS not impl.\n"); - - rd_init_send_atapi_command(channels, channel, atapi_command, 8, alloc_length, false); - - SELECTED_CONTROLLER(channel).buffer[0] = 0; // reserved for non changers - SELECTED_CONTROLLER(channel).buffer[1] = 0; // reserved for non changers - - SELECTED_CONTROLLER(channel).buffer[2] = 0; // Current LBA (TODO!) - SELECTED_CONTROLLER(channel).buffer[3] = 0; // Current LBA (TODO!) - SELECTED_CONTROLLER(channel).buffer[4] = 0; // Current LBA (TODO!) - - SELECTED_CONTROLLER(channel).buffer[5] = 1; // one slot - - SELECTED_CONTROLLER(channel).buffer[6] = 0; // slot table length - SELECTED_CONTROLLER(channel).buffer[7] = 0; // slot table length - - rd_ready_to_send_atapi(channels, channel); - } - break; - - case 0x5a: { // mode sense - uint16 alloc_length = rd_read_16bit(SELECTED_CONTROLLER(channel).buffer + 7); - - Bit8u PC = SELECTED_CONTROLLER(channel).buffer[2] >> 6; - Bit8u PageCode = SELECTED_CONTROLLER(channel).buffer[2] & 0x3f; - - switch (PC) { - case 0x0: // current values - switch (PageCode) { - case 0x01: // error recovery - rd_init_send_atapi_command(channels, channel, atapi_command, sizeof(struct error_recovery_t) + 8, alloc_length, false); - - rd_init_mode_sense_single(channels, channel, &SELECTED_DRIVE(channel).cdrom.current.error_recovery, - sizeof(struct error_recovery_t)); - rd_ready_to_send_atapi(channels, channel); - break; - - case 0x2a: // CD-ROM capabilities & mech. status - rd_init_send_atapi_command(channels, channel, atapi_command, 28, alloc_length, false); - rd_init_mode_sense_single(channels, channel, &SELECTED_CONTROLLER(channel).buffer[8], 28); - SELECTED_CONTROLLER(channel).buffer[8] = 0x2a; - SELECTED_CONTROLLER(channel).buffer[9] = 0x12; - SELECTED_CONTROLLER(channel).buffer[10] = 0x00; - SELECTED_CONTROLLER(channel).buffer[11] = 0x00; - // Multisession, Mode 2 Form 2, Mode 2 Form 1 - SELECTED_CONTROLLER(channel).buffer[12] = 0x70; - SELECTED_CONTROLLER(channel).buffer[13] = (3 << 5); - SELECTED_CONTROLLER(channel).buffer[14] = (unsigned char) - (1 | - (SELECTED_DRIVE(channel).cdrom.locked ? (1 << 1) : 0) | - (1 << 3) | - (1 << 5)); - SELECTED_CONTROLLER(channel).buffer[15] = 0x00; - SELECTED_CONTROLLER(channel).buffer[16] = (706 >> 8) & 0xff; - SELECTED_CONTROLLER(channel).buffer[17] = 706 & 0xff; - SELECTED_CONTROLLER(channel).buffer[18] = 0; - SELECTED_CONTROLLER(channel).buffer[19] = 2; - SELECTED_CONTROLLER(channel).buffer[20] = (512 >> 8) & 0xff; - SELECTED_CONTROLLER(channel).buffer[21] = 512 & 0xff; - SELECTED_CONTROLLER(channel).buffer[22] = (706 >> 8) & 0xff; - SELECTED_CONTROLLER(channel).buffer[23] = 706 & 0xff; - SELECTED_CONTROLLER(channel).buffer[24] = 0; - SELECTED_CONTROLLER(channel).buffer[25] = 0; - SELECTED_CONTROLLER(channel).buffer[26] = 0; - SELECTED_CONTROLLER(channel).buffer[27] = 0; - rd_ready_to_send_atapi(channels, channel); - break; - - case 0x0d: // CD-ROM - case 0x0e: // CD-ROM audio control - case 0x3f: // all - RD_ERROR("cdrom: MODE SENSE (curr), code=%x not implemented yet\n", - PageCode); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; - - default: - // not implemeted by this device - Ramdisk_Print("\t\tcdrom: MODE SENSE PC=%x, PageCode=%x, not implemented by device\n", - PC, PageCode); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; - } - break; - - case 0x1: // changeable values - switch (PageCode) { - case 0x01: // error recovery - case 0x0d: // CD-ROM - case 0x0e: // CD-ROM audio control - case 0x2a: // CD-ROM capabilities & mech. status - case 0x3f: // all - RD_ERROR("cdrom: MODE SENSE (chg), code=%x not implemented yet\n", - PageCode); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; - - default: - // not implemeted by this device - Ramdisk_Print("\t\tcdrom: MODE SENSE PC=%x, PageCode=%x, not implemented by device\n", - PC, PageCode); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; - } - break; - - case 0x2: // default values - switch (PageCode) { - case 0x01: // error recovery - case 0x0d: // CD-ROM - case 0x0e: // CD-ROM audio control - case 0x2a: // CD-ROM capabilities & mech. status - case 0x3f: // all - RD_PANIC("cdrom: MODE SENSE (dflt), code=%x\n", - PageCode); - break; - - default: - // not implemeted by this device - Ramdisk_Print("\t\tcdrom: MODE SENSE PC=%x, PageCode=%x, not implemented by device\n", - PC, PageCode); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; - } - break; - - case 0x3: // saved values not implemented - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_SAVING_PARAMETERS_NOT_SUPPORTED); - rd_raise_interrupt(channels, channel); - break; - - default: - RD_PANIC("Should not get here!\n"); - break; - } - } - break; - - case 0x12: { // inquiry - uint8 alloc_length = SELECTED_CONTROLLER(channel).buffer[4]; + + ctrl->status.busy = 1; + ctrl->status.drive_ready = 0; + ctrl->reset_in_progress = 1; - rd_init_send_atapi_command(channels, channel, atapi_command, 36, alloc_length, false); + ctrl->status.write_fault = 0; + ctrl->status.seek_complete = 1; + ctrl->status.drq = 0; + ctrl->status.corrected_data = 0; + ctrl->status.err = 0; - SELECTED_CONTROLLER(channel).buffer[0] = 0x05; // CD-ROM - SELECTED_CONTROLLER(channel).buffer[1] = 0x80; // Removable - SELECTED_CONTROLLER(channel).buffer[2] = 0x00; // ISO, ECMA, ANSI version - SELECTED_CONTROLLER(channel).buffer[3] = 0x21; // ATAPI-2, as specified - SELECTED_CONTROLLER(channel).buffer[4] = 31; // additional length (total 36) - SELECTED_CONTROLLER(channel).buffer[5] = 0x00; // reserved - SELECTED_CONTROLLER(channel).buffer[6] = 0x00; // reserved - SELECTED_CONTROLLER(channel).buffer[7] = 0x00; // reserved + ctrl->error_register = 0x01; // diagnostic code: no error - // Vendor ID - const char* vendor_id = "VTAB "; - int i; - for (i = 0; i < 8; i++) - SELECTED_CONTROLLER(channel).buffer[8+i] = vendor_id[i]; + ctrl->current_command = 0x00; + ctrl->buffer_index = 0; - // Product ID - const char* product_id = "Turbo CD-ROM "; - for (i = 0; i < 16; i++) - SELECTED_CONTROLLER(channel).buffer[16+i] = product_id[i]; + ctrl->sectors_per_block = 0x80; + ctrl->lba_mode = 0; - // Product Revision level - const char* rev_level = "1.0 "; - for (i = 0; i < 4; i++) - SELECTED_CONTROLLER(channel).buffer[32+i] = rev_level[i]; + ctrl->control.disable_irq = 0; + } + + rd_lower_irq(dev, channel); + + } else if ((controller->reset_in_progress) && + (!controller->control.reset)) { + uint_t id; + // Clear BSY and DRDY + PrintDebug("\t\tReset complete {%s}\n", device_type_to_str(get_selected_drive(channel)->device_type)); + + for (id = 0; id < 2; id++) { + struct controller_t * ctrl = NULL; + struct drive_t * drv = NULL; + + if (id == 0) { + ctrl = &(master_drive->controller); + drv = master_drive; + } else if (id == 1) { + ctrl = &(slave_drive->controller); + drv = slave_drive; + } + + ctrl->status.busy = 0; + ctrl->status.drive_ready = 1; + ctrl->reset_in_progress = 0; - rd_ready_to_send_atapi(channels, channel); + // Device signature + if (drv->device_type == IDE_DISK) { + PrintDebug("\t\tdrive %d/%d is harddrive\n", get_channel_no(ramdisk, channel), id); + ctrl->head_no = 0; + ctrl->sector_count = 1; + ctrl->sector_no = 1; + ctrl->cylinder_no = 0; + } else { + ctrl->head_no = 0; + ctrl->sector_count = 1; + ctrl->sector_no = 1; + ctrl->cylinder_no = 0xeb14; + } + } } - break; - - case 0x25: { // read cd-rom capacity - // no allocation length??? - rd_init_send_atapi_command(channels, channel, atapi_command, 8, 8, false); + + PrintDebug("\t\ts[0].controller.control.disable_irq = %02x\n", + master_drive->controller.control.disable_irq); + PrintDebug("\t\ts[1].controller.control.disable_irq = %02x\n", + slave_drive->controller.control.disable_irq); + return length; +} + + +static int read_general_port(ushort_t port, void * dst, uint_t length, struct vm_device * dev) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = NULL; + struct drive_t * drive = NULL; + struct controller_t * controller = NULL; + + + if (length != 1) { + PrintError("Invalid Status port read length: %d (port=%d)\n", length, port); + return -1; + } + + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); + } else { + PrintError("Invalid Port: %d\n", port); + return -1; + } + + drive = get_selected_drive(channel); + controller = &(drive->controller); + + + PrintDebug("[read_general_handler] IO read addr at %x, on drive %d/%d, curcmd = %02x\n", + port, get_channel_no(ramdisk, channel), + channel->drive_select, + controller->current_command); + + + switch (port) { + case PRI_FEATURES_PORT: + case SEC_FEATURES_PORT: // hard disk error register 0x1f1 + { + uchar_t val = (drive->device_type == IDE_NONE) ? 0 : controller->error_register; - if (SELECTED_DRIVE(channel).cdrom.ready) { - uint32 capacity = SELECTED_DRIVE(channel).cdrom.capacity; - Ramdisk_Print("\t\tCapacity is %d sectors (%d bytes)\n", capacity, capacity * 2048); - SELECTED_CONTROLLER(channel).buffer[0] = (capacity >> 24) & 0xff; - SELECTED_CONTROLLER(channel).buffer[1] = (capacity >> 16) & 0xff; - SELECTED_CONTROLLER(channel).buffer[2] = (capacity >> 8) & 0xff; - SELECTED_CONTROLLER(channel).buffer[3] = (capacity >> 0) & 0xff; - SELECTED_CONTROLLER(channel).buffer[4] = (2048 >> 24) & 0xff; - SELECTED_CONTROLLER(channel).buffer[5] = (2048 >> 16) & 0xff; - SELECTED_CONTROLLER(channel).buffer[6] = (2048 >> 8) & 0xff; - SELECTED_CONTROLLER(channel).buffer[7] = (2048 >> 0) & 0xff; - rd_ready_to_send_atapi(channels, channel); - } else { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - rd_raise_interrupt(channels, channel); - } - } - break; + controller->status.err = 0; - case 0xbe: { // read cd - if (SELECTED_DRIVE(channel).cdrom.ready) { - RD_ERROR("Read CD with CD present not implemented\n"); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - } else { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - rd_raise_interrupt(channels, channel); - } - } - break; + PrintDebug("\t\tRead FEATURES = 0x%x\n", val); + + *(uchar_t *)dst = val; + return length; - case 0x43: { // read toc - if (SELECTED_DRIVE(channel).cdrom.ready) { - - bool msf = (SELECTED_CONTROLLER(channel).buffer[1] >> 1) & 1; - uint8 starting_track = SELECTED_CONTROLLER(channel).buffer[6]; - - uint16 alloc_length = rd_read_16bit(SELECTED_CONTROLLER(channel).buffer + 7); - - uint8 format = (SELECTED_CONTROLLER(channel).buffer[9] >> 6); - int i; - switch (format) { - case 0: - - if (!(SELECTED_DRIVE(channel).cdrom.cd->ops.read_toc(cdif, SELECTED_CONTROLLER(channel).buffer, - &toc_length, msf, starting_track))) { - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - } else { - rd_init_send_atapi_command(channels, channel, atapi_command, toc_length, alloc_length, false); - rd_ready_to_send_atapi(channels, channel); - } - break; - - case 1: - // multi session stuff. we ignore this and emulate a single session only - rd_init_send_atapi_command(channels, channel, atapi_command, 12, alloc_length, false); - - SELECTED_CONTROLLER(channel).buffer[0] = 0; - SELECTED_CONTROLLER(channel).buffer[1] = 0x0a; - SELECTED_CONTROLLER(channel).buffer[2] = 1; - SELECTED_CONTROLLER(channel).buffer[3] = 1; - for (i = 0; i < 8; i++) - SELECTED_CONTROLLER(channel).buffer[4+i] = 0; - - rd_ready_to_send_atapi(channels, channel); - break; - - case 2: - default: - RD_PANIC("(READ TOC) Format %d not supported\n", format); - break; + break; } - } else { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - rd_raise_interrupt(channels, channel); - } - } - break; - - case 0x28: // read (10) - case 0xa8: // read (12) - { - - uint32 transfer_length; - if (atapi_command == 0x28) - transfer_length = rd_read_16bit(SELECTED_CONTROLLER(channel).buffer + 7); - else - transfer_length = rd_read_32bit(SELECTED_CONTROLLER(channel).buffer + 6); - - uint32 lba = rd_read_32bit(SELECTED_CONTROLLER(channel).buffer + 2); - - if (!SELECTED_DRIVE(channel).cdrom.ready) { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - rd_raise_interrupt(channels, channel); - break; + + case PRI_SECT_CNT_PORT: + case SEC_SECT_CNT_PORT: // hard disk sector count / interrupt reason 0x1f2 + { + uchar_t val = (drive->device_type == IDE_NONE) ? 0 : controller->sector_count; + PrintDebug("\t\tRead SECTOR COUNT = 0x%x\n", val); + *(uchar_t *)dst = val; + return length; + + break; } - - if (transfer_length == 0) { - rd_atapi_cmd_nop(channels, channel); - rd_raise_interrupt(channels, channel); - Ramdisk_Print("\t\tREAD(%d) with transfer length 0, ok\n", atapi_command==0x28?10:12); - break; + case PRI_SECT_ADDR1_PORT: + case SEC_SECT_ADDR1_PORT: // sector number 0x1f3 + { + uchar_t val = (drive->device_type == IDE_NONE) ? 0 : controller->sector_no; + + PrintDebug("\t\tRead SECTOR ADDR1 = 0x%x\n", val); + + *(uchar_t *)dst = val; + return length; + + break; } - - if (lba + transfer_length > SELECTED_DRIVE(channel).cdrom.capacity) { - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_LOGICAL_BLOCK_OOR); - rd_raise_interrupt(channels, channel); - break; + + case PRI_SECT_ADDR2_PORT: + case SEC_SECT_ADDR2_PORT: // cylinder low 0x1f4 + { + // -- WARNING : On real hardware the controller registers are shared between drives. + // So we must respond even if the select device is not present. Some OS uses this fact + // to detect the disks.... minix2 for example + uchar_t val = (num_drives_on_channel(channel) == 0) ? 0 : (controller->cylinder_no & 0x00ff); + + PrintDebug("\t\tRead SECTOR ADDR2 = 0x%x\n", val); + + *(uchar_t *)dst = val; + return length; + + break; } - - Ramdisk_Print("\t\tcdrom: READ (%d) LBA=%d LEN=%d\n", atapi_command==0x28?10:12, lba, transfer_length); - - // handle command - rd_init_send_atapi_command(channels, channel, atapi_command, transfer_length * 2048, - transfer_length * 2048, true); - SELECTED_DRIVE(channel).cdrom.remaining_blocks = transfer_length; - SELECTED_DRIVE(channel).cdrom.next_lba = lba; - rd_ready_to_send_atapi(channels, channel); - } - break; - - case 0x2b: { // seek - uint32 lba = rd_read_32bit(SELECTED_CONTROLLER(channel).buffer + 2); - if (!SELECTED_DRIVE(channel).cdrom.ready) { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - rd_raise_interrupt(channels, channel); - break; - } - - if (lba > SELECTED_DRIVE(channel).cdrom.capacity) { - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_LOGICAL_BLOCK_OOR); - rd_raise_interrupt(channels, channel); - break; - } - Ramdisk_Print("\t\tcdrom: SEEK (ignored)\n"); - rd_atapi_cmd_nop(channels, channel); - rd_raise_interrupt(channels, channel); - } - break; - - case 0x1e: { // prevent/allow medium removal - if (SELECTED_DRIVE(channel).cdrom.ready) { - SELECTED_DRIVE(channel).cdrom.locked = SELECTED_CONTROLLER(channel).buffer[4] & 1; - rd_atapi_cmd_nop(channels, channel); - } else { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - } - rd_raise_interrupt(channels, channel); - } - break; - - case 0x42: { // read sub-channel - bool msf = get_packet_field(channel,1, 1, 1); - bool sub_q = get_packet_field(channel,2, 6, 1); - uint8 data_format = get_packet_byte(channel,3); - uint8 track_number = get_packet_byte(channel,6); - uint16 alloc_length = get_packet_word(channel,7); - UNUSED(msf); - UNUSED(data_format); - UNUSED(track_number); - - if (!SELECTED_DRIVE(channel).cdrom.ready) { - rd_atapi_cmd_error(channels, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); - rd_raise_interrupt(channels, channel); - } else { - SELECTED_CONTROLLER(channel).buffer[0] = 0; - SELECTED_CONTROLLER(channel).buffer[1] = 0; // audio not supported - SELECTED_CONTROLLER(channel).buffer[2] = 0; - SELECTED_CONTROLLER(channel).buffer[3] = 0; - - int ret_len = 4; // header size - - if (sub_q) { // !sub_q == header only - RD_ERROR("Read sub-channel with SubQ not implemented\n"); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, - ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); + + case PRI_SECT_ADDR3_PORT: + case SEC_SECT_ADDR3_PORT: // cylinder high 0x1f5 + { + // -- WARNING : On real hardware the controller registers are shared between drives. + // So we must respond even if the select device is not present. Some OS uses this fact + // to detect the disks.... minix2 for example + uchar_t val = (num_drives_on_channel(channel) == 0) ? 0 : (controller->cylinder_no >> 8); + + PrintDebug("\t\tRead SECTOR ADDR3 = 0x%x\n", val); + + *(uchar_t *)dst = val; + return length; + + break; } - - rd_init_send_atapi_command(channels, channel, atapi_command, ret_len, alloc_length, false); - rd_ready_to_send_atapi(channels, channel); - } - } - break; + case PRI_DRV_SEL_PORT: + case SEC_DRV_SEL_PORT: // hard disk drive and head register 0x1f6 + { + // b7 Extended data field for ECC + // b6/b5: Used to be sector size. 00=256,01=512,10=1024,11=128 + // Since 512 was always used, bit 6 was taken to mean LBA mode: + // b6 1=LBA mode, 0=CHS mode + // b5 1 + // b4: DRV + // b3..0 HD3..HD0 + uchar_t val = ((1 << 7) | + ((controller->lba_mode > 0) << 6) | + (1 << 5) | // 01b = 512 sector size + (channel->drive_select << 4) | + (controller->head_no << 0)); - case 0x51: { // read disc info - // no-op to keep the Linux CD-ROM driver happy - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - } - break; - - case 0x55: // mode select - case 0xa6: // load/unload cd - case 0x4b: // pause/resume - case 0x45: // play audio - case 0x47: // play audio msf - case 0xbc: // play cd - case 0xb9: // read cd msf - case 0x44: // read header - case 0xba: // scan - case 0xbb: // set cd speed - case 0x4e: // stop play/scan - case 0x46: // ??? - case 0x4a: // ??? - RD_ERROR("ATAPI command 0x%x not implemented yet\n", - atapi_command); - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; + PrintDebug("\t\tRead DRIVE SELECT = 0x%x\n", val); + *(uchar_t *)dst = val; + return length; + + break; + } + case PRI_ADDR_REG_PORT: + case SEC_ADDR_REG_PORT: // Hard Disk Address Register 0x3f7 + { + // Obsolete and unsupported register. Not driven by hard + // disk controller. Report all 1's. If floppy controller + // is handling this address, it will call this function + // set/clear D7 (the only bit it handles), then return + // the combined value + *(uchar_t *)dst = 0xff; + return length; + } + default: - RD_PANIC("Unknown ATAPI command 0x%x (%d)\n", - atapi_command, atapi_command); - // We'd better signal the error if the user chose to continue - rd_atapi_cmd_error(channels, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); - rd_raise_interrupt(channels, channel); - break; - } - } + PrintError("Invalid Port: %d\n", port); + return -1; + } +} + + + + +static int write_general_port(ushort_t port, void * src, uint_t length, struct vm_device * dev) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct channel_t * channel = NULL; + struct drive_t * drive = NULL; + struct controller_t * controller = NULL; + uchar_t value = *(uchar_t *)src; + + if (length != 1) { + PrintError("Invalid Status port read length: %d (port=%d)\n", length, port); + return -1; + } + + if (is_primary_port(ramdisk, port)) { + channel = &(ramdisk->channels[0]); + } else if (is_secondary_port(ramdisk, port)) { + channel = &(ramdisk->channels[1]); + } else { + PrintError("Invalid Port: %d\n", port); + return -1; + } + + drive = get_selected_drive(channel); + controller = &(drive->controller); + + + PrintDebug("[write_general_handler] IO write to port %x (val=0x%02x), channel = %d\n", + port, value, get_channel_no(ramdisk, channel)); + + switch (port) { + + case PRI_FEATURES_PORT: + case SEC_FEATURES_PORT: // hard disk write precompensation 0x1f1 + { + write_features(channel, value); + break; + } + case PRI_SECT_CNT_PORT: + case SEC_SECT_CNT_PORT: // hard disk sector count 0x1f2 + { + write_sector_count(channel, value); + break; + } + case PRI_SECT_ADDR1_PORT: + case SEC_SECT_ADDR1_PORT: // hard disk sector number 0x1f3 + { + write_sector_number(channel, value); + break; + } + case PRI_SECT_ADDR2_PORT: + case SEC_SECT_ADDR2_PORT: // hard disk cylinder low 0x1f4 + { + write_cylinder_low(channel, value); + break; + } + case PRI_SECT_ADDR3_PORT: + case SEC_SECT_ADDR3_PORT: // hard disk cylinder high 0x1f5 + { + write_cylinder_high(channel, value); + break; + } + case PRI_DRV_SEL_PORT: + case SEC_DRV_SEL_PORT: // hard disk drive and head register 0x1f6 + { + // b7 Extended data field for ECC + // b6/b5: Used to be sector size. 00=256,01=512,10=1024,11=128 + // Since 512 was always used, bit 6 was taken to mean LBA mode: + // b6 1=LBA mode, 0=CHS mode + // b5 1 + // b4: DRV + // b3..0 HD3..HD0 + + // 1x1xxxxx + + PrintDebug("\tDrive Select value=%x\n", value); + + if ((value & 0xa0) != 0xa0) { + PrintDebug("\t\tIO write 0x%x (%02x): not 1x1xxxxxb\n", port, (unsigned) value); + } - break; + write_head_no(channel, value & 0xf); + if ((controller->lba_mode == 0) && (((value >> 6) & 1) == 1)) { + PrintDebug("\t\tenabling LBA mode\n"); + } + + write_lba_mode(channel, (value >> 6) & 1); + + + + if (drive->cdrom.cd) { + PrintDebug("\t\tSetting LBA on CDROM: %d\n", (value >> 6) & 1); + drive->cdrom.cd->set_LBA(drive->private_data, (value >> 6) & 1); + } + + channel->drive_select = (value >> 4) & 0x01; + drive = get_selected_drive(channel); + + if (drive->device_type == IDE_NONE) { + PrintError("\t\tError: device set to %d which does not exist! channel = 0x%x\n", + channel->drive_select, get_channel_no(ramdisk, channel)); + + controller->error_register = 0x04; // aborted + controller->status.err = 1; + } - default: - RD_PANIC("\t\tIO write(0x%x): current command is %02xh\n", address, - (unsigned) SELECTED_CONTROLLER(channel).current_command); + break; + } + default: + PrintError("\t\thard drive: io write to unhandled port 0x%x (value = %c)\n", port, value); + //return -1; } -///////////////////////////////////////////////////////// - break; - case 0x01: // hard disk write precompensation 0x1f1 - WRITE_FEATURES(channel,value); - break; + return length; +} + - case 0x02: // hard disk sector count 0x1f2 - WRITE_SECTOR_COUNT(channel,value); - break; - - case 0x03: // hard disk sector number 0x1f3 - WRITE_SECTOR_NUMBER(channel,value); - break; - - case 0x04: // hard disk cylinder low 0x1f4 - WRITE_CYLINDER_LOW(channel,value); - break; - - case 0x05: // hard disk cylinder high 0x1f5 - WRITE_CYLINDER_HIGH(channel,value); - break; - - case 0x06: // hard disk drive and head register 0x1f6 - // b7 Extended data field for ECC - // b6/b5: Used to be sector size. 00=256,01=512,10=1024,11=128 - // Since 512 was always used, bit 6 was taken to mean LBA mode: - // b6 1=LBA mode, 0=CHS mode - // b5 1 - // b4: DRV - // b3..0 HD3..HD0 - - if ( (value & 0xa0) != 0xa0 ) // 1x1xxxxx - Ramdisk_Print("\t\tIO write 0x%x (%02x): not 1x1xxxxxb\n", address, (unsigned) value); - - Bit32u drvsel = channels[channel].drive_select = (value >> 4) & 0x01; - WRITE_HEAD_NO(channel,value & 0xf); - if (SELECTED_CONTROLLER(channel).lba_mode == 0 && ((value >> 6) & 1) == 1){ - Ramdisk_Print("\t\tenabling LBA mode\n"); - } - WRITE_LBA_MODE(channel,(value >> 6) & 1); - SELECTED_DRIVE(channel).cdrom.cd->lba = (value >> 6) & 1; - - - if (!SELECTED_IS_PRESENT(channel)) { - Ramdisk_Print ("\t\tError: device set to %d which does not exist! channel = %d\n",drvsel, channel); - SELECTED_CONTROLLER(channel).error_register = 0x04; // aborted - SELECTED_CONTROLLER(channel).status.err = 1; + + + +static void rd_raise_interrupt(struct vm_device * dev, struct channel_t * channel) { + // struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct drive_t * drive = get_selected_drive(channel); + struct controller_t * controller = &(drive->controller); + + PrintDebug("[raise_interrupt] disable_irq = 0x%02x\n", controller->control.disable_irq); + + if (!(controller->control.disable_irq)) { + + PrintDebug("\t\tRaising interrupt %d {%s}\n\n", channel->irq, device_type_to_str(drive->device_type)); + + v3_raise_irq(dev->vm, channel->irq); + } else { + PrintDebug("\t\tRaising irq but irq is disabled\n"); } - - break; - - - case 0x07: // hard disk command 0x1f7 - - switch (value) { - // ATAPI commands - case 0xa1: // IDENTIFY PACKET DEVICE - if (SELECTED_IS_CD(channel)) { - SELECTED_CONTROLLER(channel).current_command = value; - SELECTED_CONTROLLER(channel).error_register = 0; - - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drive_ready = 1; - SELECTED_CONTROLLER(channel).status.write_fault = 0; - SELECTED_CONTROLLER(channel).status.drq = 1; - SELECTED_CONTROLLER(channel).status.err = 0; - - SELECTED_CONTROLLER(channel).status.seek_complete = 1; - SELECTED_CONTROLLER(channel).status.corrected_data = 0; - - SELECTED_CONTROLLER(channel).buffer_index = 0; - rd_raise_interrupt(channels, channel); - rd_identify_ATAPI_drive(channels, channel); - } else { - rd_command_aborted(channels, channel, 0xa1); - } - break; - - case 0xa0: // SEND PACKET (atapi) - if (SELECTED_IS_CD(channel)) { - // PACKET - if (SELECTED_CONTROLLER(channel).features & (1 << 0)) - RD_PANIC("\t\tPACKET-DMA not supported"); - if (SELECTED_CONTROLLER(channel).features & (1 << 1)) - RD_PANIC("\t\tPACKET-overlapped not supported"); + + return; +} - // We're already ready! - SELECTED_CONTROLLER(channel).sector_count = 1; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.write_fault = 0; - // serv bit?? - SELECTED_CONTROLLER(channel).status.drq = 1; - SELECTED_CONTROLLER(channel).status.err = 0; +static void rd_lower_irq(struct vm_device *dev, struct channel_t * channel) { + PrintDebug("[lower_irq] irq = %d\n", channel->irq); + v3_lower_irq(dev->vm, channel->irq); +} - // NOTE: no interrupt here - SELECTED_CONTROLLER(channel).current_command = value; - SELECTED_CONTROLLER(channel).buffer_index = 0; - } else { - rd_command_aborted (channels, channel, 0xa0); - } - break; - - default: - Ramdisk_Print("\t\tneed translate command %2x\n", value); - break; - }//switch(value) - - case 0x16: // hard disk adapter control 0x3f6 - // (mch) Even if device 1 was selected, a write to this register - // goes to device 0 (if device 1 is absent) - prev_control_reset = SELECTED_CONTROLLER(channel).control.reset; - channels[channel].drives[0].controller.control.reset = value & 0x04; - channels[channel].drives[1].controller.control.reset = value & 0x04; - // CGS: was: SELECTED_CONTROLLER(channel).control.disable_irq = value & 0x02; - channels[channel].drives[0].controller.control.disable_irq = value & 0x02; - channels[channel].drives[1].controller.control.disable_irq = value & 0x02; + + + + +////////////////////////////////////////////////////////////////////////// + +/* + * ATAPI subroutines + */ + + + +int handle_atapi_packet_command(struct vm_device * dev, struct channel_t * channel, ushort_t value) { + struct ramdisk_t * ramdisk = (struct ramdisk_t *)(dev->private_data); + struct drive_t * drive = get_selected_drive(channel); + struct controller_t * controller = &(drive->controller); + + if (controller->buffer_index >= PACKET_SIZE) { + PrintError("ATAPI packet exceeded maximum length: buffer_index (%d) >= PACKET_SIZE\n", + controller->buffer_index); + return -1; + } + + controller->buffer[controller->buffer_index] = value; + controller->buffer[controller->buffer_index + 1] = (value >> 8); + controller->buffer_index += 2; + + + /* if packet completely writtten */ + if (controller->buffer_index >= PACKET_SIZE) { + // complete command received + Bit8u atapi_command = controller->buffer[0]; - Ramdisk_Print("\t\tadpater control reg: reset controller = %d\n", - (unsigned) (SELECTED_CONTROLLER(channel).control.reset) ? 1 : 0); - Ramdisk_Print("\t\tadpater control reg: disable_irq(X) = %d\n", - (unsigned) (SELECTED_CONTROLLER(channel).control.disable_irq) ? 1 : 0); + PrintDebug("\t\tcdrom: ATAPI command 0x%x started\n", atapi_command); - if (!prev_control_reset && SELECTED_CONTROLLER(channel).control.reset) { - // transition from 0 to 1 causes all drives to reset - Ramdisk_Print("\t\thard drive: RESET\n"); + switch (atapi_command) { + case 0x00: // test unit ready + { + PrintDebug("Testing unit ready\n"); + if (drive->cdrom.ready) { + rd_atapi_cmd_nop(dev, channel); + } else { + PrintError("CDROM not ready in test unit ready\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + } + + rd_raise_interrupt(dev, channel); + + break; + } + case 0x03: // request sense + { + int alloc_length = controller->buffer[4]; + + if (rd_init_send_atapi_command(dev, channel, atapi_command, 18, alloc_length, false) == -1) { + PrintError("Error sending atapi command in Request Sense\n"); + return -1; + } + + // sense data + controller->buffer[0] = 0x70 | (1 << 7); + controller->buffer[1] = 0; + controller->buffer[2] = drive->sense.sense_key; + controller->buffer[3] = drive->sense.information.arr[0]; + controller->buffer[4] = drive->sense.information.arr[1]; + controller->buffer[5] = drive->sense.information.arr[2]; + controller->buffer[6] = drive->sense.information.arr[3]; + controller->buffer[7] = 17 - 7; + controller->buffer[8] = drive->sense.specific_inf.arr[0]; + controller->buffer[9] = drive->sense.specific_inf.arr[1]; + controller->buffer[10] = drive->sense.specific_inf.arr[2]; + controller->buffer[11] = drive->sense.specific_inf.arr[3]; + controller->buffer[12] = drive->sense.asc; + controller->buffer[13] = drive->sense.ascq; + controller->buffer[14] = drive->sense.fruc; + controller->buffer[15] = drive->sense.key_spec.arr[0]; + controller->buffer[16] = drive->sense.key_spec.arr[1]; + controller->buffer[17] = drive->sense.key_spec.arr[2]; + + rd_ready_to_send_atapi(dev, channel); + break; + } + case 0x1b: // start stop unit + { + //bx_bool Immed = (controller->buffer[1] >> 0) & 1; + rd_bool LoEj = (controller->buffer[4] >> 1) & 1; + rd_bool Start = (controller->buffer[4] >> 0) & 1; + + // stop the disc + if ((!LoEj) && (!Start)) { + PrintError("FIXME: Stop disc not implemented\n"); + + rd_atapi_cmd_nop(dev, channel); + rd_raise_interrupt(dev, channel); + + } else if (!LoEj && Start) { // start (spin up) the disc + + drive->cdrom.cd->start_cdrom(drive->private_data); + + PrintError("FIXME: ATAPI start disc not reading TOC\n"); + rd_atapi_cmd_nop(dev, channel); + rd_raise_interrupt(dev, channel); + + } else if (LoEj && !Start) { // Eject the disc + rd_atapi_cmd_nop(dev, channel); + PrintDebug("Ejecting Disk\n"); + if (drive->cdrom.ready) { + + drive->cdrom.cd->eject_cdrom(drive->private_data); + + drive->cdrom.ready = 0; + //bx_options.atadevice[channel][SLAVE_SELECTED(channel)].Ostatus->set(EJECTED); + //bx_gui->update_drive_status_buttons(); + } + rd_raise_interrupt(dev, channel); + + } else { // Load the disc + // My guess is that this command only closes the tray, that's a no-op for us + rd_atapi_cmd_nop(dev, channel); + rd_raise_interrupt(dev, channel); + } + break; + } + case 0xbd: // mechanism status + { + uint16_t alloc_length = rd_read_16bit(controller->buffer + 8); + + if (alloc_length == 0) { + PrintError("Zero allocation length to MECHANISM STATUS not impl.\n"); + return -1; + } + + if (rd_init_send_atapi_command(dev, channel, atapi_command, 8, alloc_length, false) == -1) { + PrintError("Error sending atapi command in mechanism status\n"); + return -1; + } + + controller->buffer[0] = 0; // reserved for non changers + controller->buffer[1] = 0; // reserved for non changers + + controller->buffer[2] = 0; // Current LBA (TODO!) + controller->buffer[3] = 0; // Current LBA (TODO!) + controller->buffer[4] = 0; // Current LBA (TODO!) + + controller->buffer[5] = 1; // one slot + + controller->buffer[6] = 0; // slot table length + controller->buffer[7] = 0; // slot table length + + rd_ready_to_send_atapi(dev, channel); + break; + } + case 0x5a: // mode sense + { + uint16_t alloc_length = rd_read_16bit(controller->buffer + 7); + + Bit8u PC = controller->buffer[2] >> 6; + Bit8u PageCode = controller->buffer[2] & 0x3f; + + switch (PC) { + case 0x0: // current values + { + switch (PageCode) { + case 0x01: // error recovery + { + + if (rd_init_send_atapi_command(dev, channel, atapi_command, sizeof(struct error_recovery_t) + 8, alloc_length, false) == -1) { + PrintError("Error sending atapi command in mode sense error recovery\n"); + return -1; + } + + rd_init_mode_sense_single(dev, channel, &(drive->cdrom.current.error_recovery), + sizeof(struct error_recovery_t)); + rd_ready_to_send_atapi(dev, channel); + break; + } + case 0x2a: // CD-ROM capabilities & mech. status + { + + if (rd_init_send_atapi_command(dev, channel, atapi_command, 28, alloc_length, false) == -1) { + PrintError("Error sending atapi command in CDROM caps/mech mode-sense\n"); + return -1; + } + + rd_init_mode_sense_single(dev, channel, &(controller->buffer[8]), 28); + + controller->buffer[8] = 0x2a; + controller->buffer[9] = 0x12; + controller->buffer[10] = 0x00; + controller->buffer[11] = 0x00; + // Multisession, Mode 2 Form 2, Mode 2 Form 1 + controller->buffer[12] = 0x70; + controller->buffer[13] = (3 << 5); + controller->buffer[14] = (unsigned char) (1 | + (drive->cdrom.locked ? (1 << 1) : 0) | + (1 << 3) | + (1 << 5)); + controller->buffer[15] = 0x00; + controller->buffer[16] = (706 >> 8) & 0xff; + controller->buffer[17] = 706 & 0xff; + controller->buffer[18] = 0; + controller->buffer[19] = 2; + controller->buffer[20] = (512 >> 8) & 0xff; + controller->buffer[21] = 512 & 0xff; + controller->buffer[22] = (706 >> 8) & 0xff; + controller->buffer[23] = 706 & 0xff; + controller->buffer[24] = 0; + controller->buffer[25] = 0; + controller->buffer[26] = 0; + controller->buffer[27] = 0; + rd_ready_to_send_atapi(dev, channel); + break; + } + case 0x0d: // CD-ROM + case 0x0e: // CD-ROM audio control + case 0x3f: // all + { + PrintError("Ramdisk: cdrom: MODE SENSE (curr), code=%x not implemented yet\n", + PageCode); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + default: + { + // not implemeted by this device + PrintError("\t\tcdrom: MODE SENSE PC=%x, PageCode=%x, not implemented by device\n", + PC, PageCode); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + } + break; + } + case 0x1: // changeable values + { + switch (PageCode) { + case 0x01: // error recovery + case 0x0d: // CD-ROM + case 0x0e: // CD-ROM audio control + case 0x2a: // CD-ROM capabilities & mech. status + case 0x3f: // all + { + PrintError("cdrom: MODE SENSE (chg), code=%x not implemented yet\n", + PageCode); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + default: + { + // not implemeted by this device + PrintError("Changeable values of mode sense not supported by cdrom\n"); + PrintDebug("\t\tcdrom: MODE SENSE PC=%x, PageCode=%x, not implemented by device\n", + PC, PageCode); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + } + break; + } + case 0x2: // default values + { + switch (PageCode) { + case 0x01: // error recovery + case 0x0d: // CD-ROM + case 0x0e: // CD-ROM audio control + case 0x2a: // CD-ROM capabilities & mech. status + case 0x3f: // all + PrintError("Default values of mode sense not supported by cdrom\n"); + PrintDebug("cdrom: MODE SENSE (dflt), code=%x\n", + PageCode); + return -1; + + default: + { + PrintError("Default values of mode sense not implemented in cdrom\n"); + // not implemeted by this device + PrintDebug("cdrom: MODE SENSE PC=%x, PageCode=%x, not implemented by device\n", + PC, PageCode); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + } + break; + } + case 0x3: // saved values not implemented + { + PrintError("\t\tSaved values not implemented in mode sense\n"); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_SAVING_PARAMETERS_NOT_SUPPORTED); + rd_raise_interrupt(dev, channel); + break; + } + default: + { + PrintError("Unsupported Mode sense value\n"); + return -1; + break; + } + } + break; + } + case 0x12: // inquiry + { + uint8_t alloc_length = controller->buffer[4]; + + if (rd_init_send_atapi_command(dev, channel, atapi_command, 36, alloc_length, false) == -1) { + PrintError("Error sending atapi command in inquiry\n"); + return -1; + } + + controller->buffer[0] = 0x05; // CD-ROM + controller->buffer[1] = 0x80; // Removable + controller->buffer[2] = 0x00; // ISO, ECMA, ANSI version + controller->buffer[3] = 0x21; // ATAPI-2, as specified + controller->buffer[4] = 31; // additional length (total 36) + controller->buffer[5] = 0x00; // reserved + controller->buffer[6] = 0x00; // reserved + controller->buffer[7] = 0x00; // reserved + + // Vendor ID + const char* vendor_id = "VTAB "; + int i; + for (i = 0; i < 8; i++) { + controller->buffer[8+i] = vendor_id[i]; + } + + // Product ID + const char* product_id = "Turbo CD-ROM "; + for (i = 0; i < 16; i++) { + controller->buffer[16+i] = product_id[i]; + } + + // Product Revision level + const char* rev_level = "1.0 "; + for (i = 0; i < 4; i++) { + controller->buffer[32 + i] = rev_level[i]; + } + + rd_ready_to_send_atapi(dev, channel); + break; + } + case 0x25: // read cd-rom capacity + { + // no allocation length??? + if (rd_init_send_atapi_command(dev, channel, atapi_command, 8, 8, false) == -1) { + PrintError("Error sending atapi command in read cdrom capacity\n"); + return -1; + } + + if (drive->cdrom.ready) { + uint32_t capacity = drive->cdrom.capacity; + + PrintDebug("\t\tCapacity is %d sectors (%d bytes)\n", capacity, capacity * 2048); + + controller->buffer[0] = (capacity >> 24) & 0xff; + controller->buffer[1] = (capacity >> 16) & 0xff; + controller->buffer[2] = (capacity >> 8) & 0xff; + controller->buffer[3] = (capacity >> 0) & 0xff; + controller->buffer[4] = (2048 >> 24) & 0xff; + controller->buffer[5] = (2048 >> 16) & 0xff; + controller->buffer[6] = (2048 >> 8) & 0xff; + controller->buffer[7] = (2048 >> 0) & 0xff; + + rd_ready_to_send_atapi(dev, channel); + } else { + PrintError("CDROM not ready in read cdrom capacity\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + rd_raise_interrupt(dev, channel); + } + break; + } + - // (mch) Set BSY, drive not ready - for (id = 0; id < 2; id++) { - CONTROLLER(channel,id).status.busy = 1; - CONTROLLER(channel,id).status.drive_ready = 0; - CONTROLLER(channel,id).reset_in_progress = 1; + case 0xbe: // read cd + { + if (drive->cdrom.ready) { + PrintError("Read CD with CD present not implemented\n"); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + } else { + PrintError("Drive not ready in read cd with CD present\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + rd_raise_interrupt(dev, channel); + } + break; + } + case 0x43: // read toc + { + if (drive->cdrom.ready) { + int toc_length = 0; + bool msf = (controller->buffer[1] >> 1) & 1; + uint8_t starting_track = controller->buffer[6]; + + uint16_t alloc_length = rd_read_16bit(controller->buffer + 7); + + uint8_t format = (controller->buffer[9] >> 6); + int i; + + PrintDebug("Reading CDROM TOC: Format=%d (byte count=%d) (toc length:%d)\n", + format, controller->byte_count, toc_length); + + switch (format) { + case 0: + if (!(drive->cdrom.cd->read_toc(drive->private_data, controller->buffer, + &toc_length, msf, starting_track))) { + PrintError("CDROM: Reading Table of Contents Failed\n"); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + + + if (rd_init_send_atapi_command(dev, channel, atapi_command, toc_length, alloc_length, false) == -1) { + PrintError("Failed to init send atapi command in read toc (fmt=%d)\n", format); + return -1; + } + + rd_ready_to_send_atapi(dev, channel); + + break; + + case 1: + // multi session stuff. we ignore this and emulate a single session only + + if (rd_init_send_atapi_command(dev, channel, atapi_command, 12, alloc_length, false) == -1) { + PrintError("Failed to init send atapi command in read toc (fmt=%d)\n", format); + return -1; + } + + controller->buffer[0] = 0; + controller->buffer[1] = 0x0a; + controller->buffer[2] = 1; + controller->buffer[3] = 1; + + for (i = 0; i < 8; i++) { + controller->buffer[4 + i] = 0; + } + + rd_ready_to_send_atapi(dev, channel); + break; + + case 2: + default: + PrintError("(READ TOC) Format %d not supported\n", format); + return -1; + } + } else { + PrintError("CDROM not ready in read toc\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + rd_raise_interrupt(dev, channel); + } + break; + } + case 0x28: // read (10) + case 0xa8: // read (12) + { - CONTROLLER(channel,id).status.write_fault = 0; - CONTROLLER(channel,id).status.seek_complete = 1; - CONTROLLER(channel,id).status.drq = 0; - CONTROLLER(channel,id).status.corrected_data = 0; - CONTROLLER(channel,id).status.err = 0; + uint32_t transfer_length; + if (atapi_command == 0x28) { + transfer_length = rd_read_16bit(controller->buffer + 7); + } else { + transfer_length = rd_read_32bit(controller->buffer + 6); + } + + uint32_t lba = rd_read_32bit(controller->buffer + 2); - CONTROLLER(channel,id).error_register = 0x01; // diagnostic code: no error + if (!(drive->cdrom.ready)) { + PrintError("CDROM Error: Not Ready (ATA%d/%d)\n", + get_channel_no(ramdisk, channel), get_drive_no(channel, drive)); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + rd_raise_interrupt(dev, channel); + break; + } - CONTROLLER(channel,id).current_command = 0x00; - CONTROLLER(channel,id).buffer_index = 0; + if (transfer_length == 0) { + PrintError("READ(%d) with transfer length 0, ok\n", + (atapi_command == 0x28) ? 10 : 12); + rd_atapi_cmd_nop(dev, channel); + rd_raise_interrupt(dev, channel); + break; + } - CONTROLLER(channel,id).sectors_per_block = 0x80; - CONTROLLER(channel,id).lba_mode = 0; + if (lba + transfer_length > drive->cdrom.capacity) { + PrintError("CDROM Error: Capacity exceeded [capacity=%d] (ATA%d/%d)\n", + drive->cdrom.capacity, + get_channel_no(ramdisk, channel), get_drive_no(channel, drive)); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_LOGICAL_BLOCK_OOR); + rd_raise_interrupt(dev, channel); + break; + } - CONTROLLER(channel,id).control.disable_irq = 0; - rd_lower_irq((struct vm_device *)(ramdisk_state->private_data), channels[channel].irq); - } - } else if (SELECTED_CONTROLLER(channel).reset_in_progress && - !SELECTED_CONTROLLER(channel).control.reset) { - // Clear BSY and DRDY - Ramdisk_Print("\t\tReset complete {%s}\n", SELECTED_TYPE_STRING(channel)); - for (id = 0; id < 2; id++) { - CONTROLLER(channel,id).status.busy = 0; - CONTROLLER(channel,id).status.drive_ready = 1; - CONTROLLER(channel,id).reset_in_progress = 0; + PrintDebug("\t\tcdrom: READ (%d) LBA=%d LEN=%d\n", + (atapi_command == 0x28) ? 10 : 12, + lba, transfer_length); + + // handle command + if (rd_init_send_atapi_command(dev, channel, atapi_command, transfer_length * 2048, + transfer_length * 2048, true) == -1) { + PrintError("CDROM Error: Atapi command send error\n"); + return -1; + } + + drive->cdrom.remaining_blocks = transfer_length; + drive->cdrom.next_lba = lba; + rd_ready_to_send_atapi(dev, channel); + break; + } + case 0x2b: // seek + { + uint32_t lba = rd_read_32bit(controller->buffer + 2); + + if (!(drive->cdrom.ready)) { + PrintError("CDROM not ready in seek\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + rd_raise_interrupt(dev, channel); + break; + } + + if (lba > drive->cdrom.capacity) { + PrintError("LBA is greater than CDROM capacity in seek\n"); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_LOGICAL_BLOCK_OOR); + rd_raise_interrupt(dev, channel); + break; + } + + PrintError("\t\tcdrom: SEEK (ignored)\n"); + + rd_atapi_cmd_nop(dev, channel); + rd_raise_interrupt(dev, channel); + + break; + } + case 0x1e: // prevent/allow medium removal + { + + if (drive->cdrom.ready) { + drive->cdrom.locked = controller->buffer[4] & 1; + rd_atapi_cmd_nop(dev, channel); + } else { + PrintError("CD not ready in prevent/allow medium removal\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + } + + rd_raise_interrupt(dev, channel); + + break; + } + case 0x42: // read sub-channel + { + //bool msf = get_packet_field(channel, 1, 1, 1); + bool sub_q = get_packet_field(channel, 2, 6, 1); + //uint8_t data_format = get_packet_byte(channel, 3); + //uint8_t track_number = get_packet_byte(channel, 6); + uint16_t alloc_length = get_packet_word(channel, 7); - // Device signature - if (DRIVE_IS_HD(channel,id)) { - Ramdisk_Print("\t\tdrive %d/%d is harddrive\n", channel, id); - CONTROLLER(channel,id).head_no = 0; - CONTROLLER(channel,id).sector_count = 1; - CONTROLLER(channel,id).sector_no = 1; - CONTROLLER(channel,id).cylinder_no = 0; - } else { - CONTROLLER(channel,id).head_no = 0; - CONTROLLER(channel,id).sector_count = 1; - CONTROLLER(channel,id).sector_no = 1; - CONTROLLER(channel,id).cylinder_no = 0xeb14; + + /* + UNUSED(msf); + UNUSED(data_format); + UNUSED(track_number); + */ + if (!(drive->cdrom.ready)) { + PrintError("CDROM not ready in read sub-channel\n"); + rd_atapi_cmd_error(dev, channel, SENSE_NOT_READY, ASC_MEDIUM_NOT_PRESENT); + rd_raise_interrupt(dev, channel); + } else { + controller->buffer[0] = 0; + controller->buffer[1] = 0; // audio not supported + controller->buffer[2] = 0; + controller->buffer[3] = 0; + + int ret_len = 4; // header size + + if (sub_q) { // !sub_q == header only + PrintError("Read sub-channel with SubQ not implemented\n"); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, + ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + } + + if (rd_init_send_atapi_command(dev, channel, atapi_command, ret_len, alloc_length, false) == -1) { + PrintError("Error sending atapi command in read sub-channel\n"); + return -1; + } + rd_ready_to_send_atapi(dev, channel); + } + break; + } + case 0x51: // read disc info + { + // no-op to keep the Linux CD-ROM driver happy + PrintError("Error: Read disk info no-op to keep the Linux CD-ROM driver happy\n"); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + } + case 0x55: // mode select + case 0xa6: // load/unload cd + case 0x4b: // pause/resume + case 0x45: // play audio + case 0x47: // play audio msf + case 0xbc: // play cd + case 0xb9: // read cd msf + case 0x44: // read header + case 0xba: // scan + case 0xbb: // set cd speed + case 0x4e: // stop play/scan + case 0x46: // ??? + case 0x4a: // ??? + PrintError("ATAPI command 0x%x not implemented yet\n", + atapi_command); + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; + default: + PrintError("Unknown ATAPI command 0x%x (%d)\n", + atapi_command, atapi_command); + // We'd better signal the error if the user chose to continue + rd_atapi_cmd_error(dev, channel, SENSE_ILLEGAL_REQUEST, ASC_INV_FIELD_IN_CMD_PACKET); + rd_raise_interrupt(dev, channel); + break; } - } } - Ramdisk_Print("\t\ts[0].controller.control.disable_irq = %02x\n", (channels[channel].drives[0]).controller.control.disable_irq); - Ramdisk_Print("\t\ts[1].controller.control.disable_irq = %02x\n", (channels[channel].drives[1]).controller.control.disable_irq); - break; - - default: - RD_PANIC("\t\thard drive: io write to address %x = %02x\n", - (unsigned) address, (unsigned) value); - } - - return; + + + return 0; } -static -void rd_identify_ATAPI_drive(struct channel_t *channels, Bit8u channel) + + +int rd_init_send_atapi_command(struct vm_device * dev, struct channel_t * channel, Bit8u command, int req_length, int alloc_length, bool lazy) { - unsigned i; - const char* serial_number = " VT00001\0\0\0\0\0\0\0\0\0\0\0\0"; - const char* firmware = "ALPHA1 "; + struct drive_t * drive = &(channel->drives[channel->drive_select]); + struct controller_t * controller = &(drive->controller); + + // controller->byte_count is a union of controller->cylinder_no; + // lazy is used to force a data read in the buffer at the next read. + + PrintDebug("[rd_init_send_atapi_cmd]\n"); - SELECTED_DRIVE(channel).id_drive[0] = (2 << 14) | (5 << 8) | (1 << 7) | (2 << 5) | (0 << 0); // Removable CDROM, 50us response, 12 byte packets + if (controller->byte_count == 0xffff) { + controller->byte_count = 0xfffe; + } - for (i = 1; i <= 9; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; + if ((controller->byte_count & 1) && + !(alloc_length <= controller->byte_count)) { + + PrintDebug("\t\tOdd byte count (0x%04x) to ATAPI command 0x%02x, using 0x%x\n", + controller->byte_count, + command, + controller->byte_count - 1); + + controller->byte_count -= 1; + } + + if (controller->byte_count == 0) { + PrintError("\t\tATAPI command with zero byte count\n"); + return -1; + } + if (alloc_length < 0) { + PrintError("\t\tAllocation length < 0\n"); + return -1; + } - for (i = 0; i < 10; i++) { - SELECTED_DRIVE(channel).id_drive[10+i] = (serial_number[i*2] << 8) | - serial_number[i*2 + 1]; - } + if (alloc_length == 0) { + alloc_length = controller->byte_count; + } + + controller->interrupt_reason.i_o = 1; + controller->interrupt_reason.c_d = 0; + controller->status.busy = 0; + controller->status.drq = 1; + controller->status.err = 0; + + // no bytes transfered yet + if (lazy) { + controller->buffer_index = 2048; + } else { + controller->buffer_index = 0; + } - for (i = 20; i <= 22; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; + controller->drq_index = 0; + + if (controller->byte_count > req_length) { + controller->byte_count = req_length; + } + if (controller->byte_count > alloc_length) { + controller->byte_count = alloc_length; + } - for (i = 0; i < strlen(firmware)/2; i++) { - SELECTED_DRIVE(channel).id_drive[23+i] = (firmware[i*2] << 8) | - firmware[i*2 + 1]; - } - V3_ASSERT((23+i) == 27); + drive->atapi.command = command; + drive->atapi.drq_bytes = controller->byte_count; + drive->atapi.total_bytes_remaining = (req_length < alloc_length) ? req_length : alloc_length; - for (i = 0; i < strlen((char *) SELECTED_MODEL(channel))/2; i++) { - SELECTED_DRIVE(channel).id_drive[27+i] = (SELECTED_MODEL(channel)[i*2] << 8) | - SELECTED_MODEL(channel)[i*2 + 1]; - } - V3_ASSERT((27+i) == 47); - - SELECTED_DRIVE(channel).id_drive[47] = 0; - SELECTED_DRIVE(channel).id_drive[48] = 1; // 32 bits access - - SELECTED_DRIVE(channel).id_drive[49] = (1 << 9); // LBA supported - - SELECTED_DRIVE(channel).id_drive[50] = 0; - SELECTED_DRIVE(channel).id_drive[51] = 0; - SELECTED_DRIVE(channel).id_drive[52] = 0; - - SELECTED_DRIVE(channel).id_drive[53] = 3; // words 64-70, 54-58 valid - - for (i = 54; i <= 62; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; - - // copied from CFA540A - SELECTED_DRIVE(channel).id_drive[63] = 0x0103; // variable (DMA stuff) - SELECTED_DRIVE(channel).id_drive[64] = 0x0001; // PIO - SELECTED_DRIVE(channel).id_drive[65] = 0x00b4; - SELECTED_DRIVE(channel).id_drive[66] = 0x00b4; - SELECTED_DRIVE(channel).id_drive[67] = 0x012c; - SELECTED_DRIVE(channel).id_drive[68] = 0x00b4; - - SELECTED_DRIVE(channel).id_drive[69] = 0; - SELECTED_DRIVE(channel).id_drive[70] = 0; - SELECTED_DRIVE(channel).id_drive[71] = 30; // faked - SELECTED_DRIVE(channel).id_drive[72] = 30; // faked - SELECTED_DRIVE(channel).id_drive[73] = 0; - SELECTED_DRIVE(channel).id_drive[74] = 0; - - SELECTED_DRIVE(channel).id_drive[75] = 0; - - for (i = 76; i <= 79; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; - - SELECTED_DRIVE(channel).id_drive[80] = 0x1e; // supports up to ATA/ATAPI-4 - SELECTED_DRIVE(channel).id_drive[81] = 0; - SELECTED_DRIVE(channel).id_drive[82] = 0; - SELECTED_DRIVE(channel).id_drive[83] = 0; - SELECTED_DRIVE(channel).id_drive[84] = 0; - SELECTED_DRIVE(channel).id_drive[85] = 0; - SELECTED_DRIVE(channel).id_drive[86] = 0; - SELECTED_DRIVE(channel).id_drive[87] = 0; - SELECTED_DRIVE(channel).id_drive[88] = 0; - - for (i = 89; i <= 126; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; - - SELECTED_DRIVE(channel).id_drive[127] = 0; - SELECTED_DRIVE(channel).id_drive[128] = 0; - - for (i = 129; i <= 159; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; - - for (i = 160; i <= 255; i++) - SELECTED_DRIVE(channel).id_drive[i] = 0; - - // now convert the id_drive array (native 256 word format) to - // the controller buffer (512 bytes) - Bit16u temp16; - for (i = 0; i <= 255; i++) { - temp16 = SELECTED_DRIVE(channel).id_drive[i]; - SELECTED_CONTROLLER(channel).buffer[i*2] = temp16 & 0x00ff; - SELECTED_CONTROLLER(channel).buffer[i*2+1] = temp16 >> 8; - } + // if (lazy) { + // // bias drq_bytes and total_bytes_remaining + // SELECTED_DRIVE(channel).atapi.drq_bytes += 2048; + // SELECTED_DRIVE(channel).atapi.total_bytes_remaining += 2048; + // } - return; + return 0; } -static -void rd_raise_interrupt(struct channel_t *channels, Bit8u channel) +void rd_ready_to_send_atapi(struct vm_device * dev, struct channel_t * channel) { + PrintDebug("[rd_ready_to_send_atapi]\n"); + + rd_raise_interrupt(dev, channel); +} + + + + + +void rd_atapi_cmd_error(struct vm_device * dev, struct channel_t * channel, sense_t sense_key, asc_t asc) { - Bit32u irq; - struct vm_device *dev; + struct drive_t * drive = &(channel->drives[channel->drive_select]); + struct controller_t * controller = &(drive->controller); - Ramdisk_Print("[raise_interrupt] disable_irq = %02x\n", SELECTED_CONTROLLER(channel).control.disable_irq); - if (!SELECTED_CONTROLLER(channel).control.disable_irq) { - Ramdisk_Print("\t\traising interrupt\n"); - } else { - Ramdisk_Print("\t\tNot raising interrupt\n"); - } - if (!SELECTED_CONTROLLER(channel).control.disable_irq) { - irq = channels[channel].irq; - Ramdisk_Print("\t\tRaising interrupt %d {%s}\n\n", irq, SELECTED_TYPE_STRING(channel)); - // DEV_pic_raise_irq(irq); - dev = (struct vm_device*) ramdisk_state->private_data; - Ramdisk_Print("\t\tdev = %x\n", dev); - dev->vm->vm_ops.raise_irq(dev->vm, irq); - } else { - Ramdisk_Print("\t\tirq is disabled\n"); - } + struct ramdisk_t *ramdisk = (struct ramdisk_t *)(dev->private_data); + PrintError("[rd_atapi_cmd_error]\n"); + PrintError("Error: atapi_cmd_error channel=%02x key=%02x asc=%02x\n", + get_channel_no(ramdisk, channel), sense_key, asc); - return; + + controller->error_register = sense_key << 4; + controller->interrupt_reason.i_o = 1; + controller->interrupt_reason.c_d = 1; + controller->interrupt_reason.rel = 0; + controller->status.busy = 0; + controller->status.drive_ready = 1; + controller->status.write_fault = 0; + controller->status.drq = 0; + controller->status.err = 1; + + drive->sense.sense_key = sense_key; + drive->sense.asc = asc; + drive->sense.ascq = 0; } -static -void rd_lower_irq(struct vm_device *dev, Bit32u irq)// __attribute__(regparm(1)) + + +void rd_atapi_cmd_nop(struct vm_device * dev, struct channel_t * channel) { - Ramdisk_Print("[lower_irq] irq = %d\n", irq); - dev->vm->vm_ops.lower_irq(dev->vm, irq); + struct drive_t * drive = &(channel->drives[channel->drive_select]); + struct controller_t * controller = &(drive->controller); + + PrintDebug("[rd_atapi_cmd_nop]\n"); + controller->interrupt_reason.i_o = 1; + controller->interrupt_reason.c_d = 1; + controller->interrupt_reason.rel = 0; + controller->status.busy = 0; + controller->status.drive_ready = 1; + controller->status.drq = 0; + controller->status.err = 0; } -/* - * Public Routines - */ -static -uint_t ramdisk_read_port(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev) + + +void rd_identify_ATAPI_drive(struct vm_device * dev, struct channel_t * channel) { - uint_t i; - Ramdisk_Print("[ramdisk_read_port] port = %x, length = %d\n", port, length); - switch (length) { - case 1: - ((uchar_t*)src)[0] = rd_read_handler(ramdisk_state->channels, port, length); - break; - case 2: - ((ushort_t*)src)[0] = rd_read_handler(ramdisk_state->channels, port, length); - break; - case 4: - ((uint_t*)src)[0] = rd_read_handler(ramdisk_state->channels, port, length); - break; - default: - for (i = 0; i < length; i++) { - ((uchar_t*)src)[i] = rd_read_handler(ramdisk_state->channels, port, 1); - } - }//switch length + struct drive_t * drive = &(channel->drives[channel->drive_select]); + struct controller_t * controller = &(drive->controller); - return length; -} + uint_t i; + const char* serial_number = " VT00001\0\0\0\0\0\0\0\0\0\0\0\0"; + const char* firmware = "ALPHA1 "; -static -uint_t ramdisk_write_port(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev) -{ - Ramdisk_Print("[ramdisk_write_port] port = %x, length = %d\n", port, length); - /* - uint_t i; - - for (i = 0; i < length; i++) - Ramdisk_Print("\t\tsrc[%d] = 0x%02x\n", i, ((uchar_t*)src)[i]); - */ - - switch(length) { - case 1: - rd_write_handler(ramdisk_state->channels, port, *((uchar_t *)src), length); - break; - case 2: - rd_write_handler(ramdisk_state->channels, port, *((ushort_t *)src), length); - break; - case 4: - rd_write_handler(ramdisk_state->channels, port, *((uint_t *)src), length); - break; - default: - rd_write_handler(ramdisk_state->channels, port, *((uchar_t *)src), length); - break; - } + drive->id_drive[0] = (2 << 14) | (5 << 8) | (1 << 7) | (2 << 5) | (0 << 0); // Removable CDROM, 50us response, 12 byte packets - return 1; -} + for (i = 1; i <= 9; i++) { + drive->id_drive[i] = 0; + } + for (i = 0; i < 10; i++) { + drive->id_drive[10 + i] = ((serial_number[i * 2] << 8) | + (serial_number[(i * 2) + 1])); + } -static void trace_info(ushort_t port, void *src, uint_t length) -{ - switch(port){ - - case 0x3e8: - if (length == 1 && *((uchar_t*) src) == ATA_DETECT) - Ramdisk_Print("ata_dectect()\n"); - break; - - case 0x3e9: - if (length == 1 && *((uchar_t*) src) == ATA_RESET) - Ramdisk_Print("ata_reset()\n"); - break; - - case 0x3ea: - if (length == 1 && *((uchar_t*) src) == ATA_CMD_DATA_IN) - Ramdisk_Print("ata_cmd_data_in()\n"); - break; - - case 0x3eb: - if (length == 1 && *((uchar_t*) src) == ATA_CMD_DATA_OUT) - Ramdisk_Print("ata_cmd_data_out()\n"); - break; - - case 0x3ec: - if (length == 1 && *((uchar_t*) src) == ATA_CMD_PACKET) - Ramdisk_Print("ata_cmd_packet()\n"); - break; - - case 0x3ed: - if (length == 1 && *((uchar_t*) src) == ATAPI_GET_SENSE) - Ramdisk_Print("atapi_get_sense()\n"); - break; - - case 0x3ee: - if (length == 1 && *((uchar_t*) src) == ATAPI_IS_READY) - Ramdisk_Print("atapi_is_ready()\n"); - break; - - case 0x3ef: - if (length == 1 && *((uchar_t*) src) == ATAPI_IS_CDROM) - Ramdisk_Print("atapi_is_cdrom()\n"); - break; - - - case 0x2e8: - if (length == 1 && *((uchar_t*) src) == CDEMU_INIT) - Ramdisk_Print("cdemu_init()\n"); - break; - - case 0x2e9: - if (length == 1 && *((uchar_t*) src) == CDEMU_ISACTIVE) - Ramdisk_Print("cdemu_isactive()\n"); - break; - - case 0x2ea: - if (length == 1 && *((uchar_t*) src) == CDEMU_EMULATED_DRIVE) - Ramdisk_Print("cdemu_emulated_drive()\n"); - break; - - case 0x2eb: - if (length == 1 && *((uchar_t*) src) == CDROM_BOOT) - Ramdisk_Print("cdrom_boot()\n"); - break; - - case 0x2ec: - if (length == 1 && *((uchar_t*) src) == HARD_DRIVE_POST) - Ramdisk_Print("ata_hard_drive_post()\n"); - break; - - case 0x2ed: - if (length == 1) - Ramdisk_Print("ata_device_no(%d)\n", *((uchar_t*) src)); - break; - - case 0x2ee: - if (length == 1) - Ramdisk_Print("ata_device_type(%d)\n", *((uchar_t*) src)); - break; - - case 0x2ef: - if (length == 1 && *((uchar_t*) src) == INT13_HARDDISK) - Ramdisk_Print("int13_harddrive()\n"); - break; - - case 0x2f8: - if (length == 1 && *((uchar_t*) src) == INT13_CDROM) - Ramdisk_Print("int13_cdrom()\n"); - break; - - case 0x2f9: - if (length == 1 && *((uchar_t*) src) == INT13_CDEMU) - Ramdisk_Print("int13_cdemu()\n"); - break; - - case 0x2fa: - if (length == 1 && *((uchar_t*) src) == INT13_ELTORITO) - Ramdisk_Print("int13_eltorito()\n"); - break; - - case 0x2fb: - if (length == 1 && *((uchar_t*) src) == INT13_DISKETTE_FUNCTION) - Ramdisk_Print("int13_diskette_function()\n"); - break; - - - default: - break; - } -} + for (i = 20; i <= 22; i++) { + drive->id_drive[i] = 0; + } + for (i = 0; i < strlen(firmware) / 2; i++) { + drive->id_drive[23 + i] = ((firmware[i * 2] << 8) | + (firmware[(i * 2) + 1])); + } + V3_ASSERT((23 + i) == 27); + + for (i = 0; i < strlen((char *)(drive->model_no)) / 2; i++) { + drive->id_drive[27 + i] = ((drive->model_no[i * 2] << 8) | + (drive->model_no[(i * 2) + 1])); + } -uint_t ramdisk_read_port_ignore(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev) -{ - // Ramdisk_Print("[ramdisk_read_port_ignore] port = %x, length = %d\n", port, length); - return 1; -} + V3_ASSERT((27 + i) == 47); -uint_t ramdisk_write_port_ignore(ushort_t port, - void *src, - uint_t length, - struct vm_device *dev) -{ + drive->id_drive[47] = 0; + drive->id_drive[48] = 1; // 32 bits access - // Ramdisk_Print("[ramdisk_write_port_ignore] port = %x, length = %d\n", port, length); + drive->id_drive[49] = (1 << 9); // LBA supported - trace_info(port, src, length); - return 1; -} + drive->id_drive[50] = 0; + drive->id_drive[51] = 0; + drive->id_drive[52] = 0; -////////////////////////////////////////////////////////////////////////// + drive->id_drive[53] = 3; // words 64-70, 54-58 valid -/* - * ATAPI subroutines - */ + for (i = 54; i <= 62; i++) { + drive->id_drive[i] = 0; + } -static -void rd_init_send_atapi_command(struct channel_t *channels, Bit8u channel, Bit8u command, int req_length, int alloc_length, bool lazy) -{ - // SELECTED_CONTROLLER(channel).byte_count is a union of SELECTED_CONTROLLER(channel).cylinder_no; - // lazy is used to force a data read in the buffer at the next read. - - Ramdisk_Print("[rd_init_send_atapi_cmd]\n"); - if (SELECTED_CONTROLLER(channel).byte_count == 0xffff) - SELECTED_CONTROLLER(channel).byte_count = 0xfffe; - - if ((SELECTED_CONTROLLER(channel).byte_count & 1) - && !(alloc_length <= SELECTED_CONTROLLER(channel).byte_count)) { - Ramdisk_Print("\t\tOdd byte count (0x%04x) to ATAPI command 0x%02x, using 0x%x\n", - SELECTED_CONTROLLER(channel).byte_count, command, SELECTED_CONTROLLER(channel).byte_count - 1); - SELECTED_CONTROLLER(channel).byte_count -= 1; - } - - if (SELECTED_CONTROLLER(channel).byte_count == 0) - RD_PANIC("\t\tATAPI command with zero byte count\n"); - - if (alloc_length < 0) - RD_PANIC("\t\tAllocation length < 0\n"); - if (alloc_length == 0) - alloc_length = SELECTED_CONTROLLER(channel).byte_count; - - SELECTED_CONTROLLER(channel).interrupt_reason.i_o = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.c_d = 0; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drq = 1; - SELECTED_CONTROLLER(channel).status.err = 0; - - // no bytes transfered yet - if (lazy) - SELECTED_CONTROLLER(channel).buffer_index = 2048; - else - SELECTED_CONTROLLER(channel).buffer_index = 0; - SELECTED_CONTROLLER(channel).drq_index = 0; - - if (SELECTED_CONTROLLER(channel).byte_count > req_length) - SELECTED_CONTROLLER(channel).byte_count = req_length; - - if (SELECTED_CONTROLLER(channel).byte_count > alloc_length) - SELECTED_CONTROLLER(channel).byte_count = alloc_length; - - SELECTED_DRIVE(channel).atapi.command = command; - SELECTED_DRIVE(channel).atapi.drq_bytes = SELECTED_CONTROLLER(channel).byte_count; - SELECTED_DRIVE(channel).atapi.total_bytes_remaining = (req_length < alloc_length) ? req_length : alloc_length; - - // if (lazy) { - // // bias drq_bytes and total_bytes_remaining - // SELECTED_DRIVE(channel).atapi.drq_bytes += 2048; - // SELECTED_DRIVE(channel).atapi.total_bytes_remaining += 2048; - // } + // copied from CFA540A + drive->id_drive[63] = 0x0103; // variable (DMA stuff) + drive->id_drive[64] = 0x0001; // PIO + drive->id_drive[65] = 0x00b4; + drive->id_drive[66] = 0x00b4; + drive->id_drive[67] = 0x012c; + drive->id_drive[68] = 0x00b4; + + drive->id_drive[69] = 0; + drive->id_drive[70] = 0; + drive->id_drive[71] = 30; // faked + drive->id_drive[72] = 30; // faked + drive->id_drive[73] = 0; + drive->id_drive[74] = 0; + + drive->id_drive[75] = 0; + + for (i = 76; i <= 79; i++) { + drive->id_drive[i] = 0; + } + + drive->id_drive[80] = 0x1e; // supports up to ATA/ATAPI-4 + drive->id_drive[81] = 0; + drive->id_drive[82] = 0; + drive->id_drive[83] = 0; + drive->id_drive[84] = 0; + drive->id_drive[85] = 0; + drive->id_drive[86] = 0; + drive->id_drive[87] = 0; + drive->id_drive[88] = 0; + + for (i = 89; i <= 126; i++) { + drive->id_drive[i] = 0; + } + + drive->id_drive[127] = 0; + drive->id_drive[128] = 0; + + for (i = 129; i <= 159; i++) { + drive->id_drive[i] = 0; + } + + for (i = 160; i <= 255; i++) { + drive->id_drive[i] = 0; + } + + + return; } + + + + + static -void rd_atapi_cmd_error(struct channel_t *channels, Bit8u channel, sense_t sense_key, asc_t asc) +void rd_init_mode_sense_single(struct vm_device * dev, + struct channel_t * channel, const void* src, int size) { - Ramdisk_Print("[rd_atapi_cmd_error]\n"); - Ramdisk_Print("Error: atapi_cmd_error channel=%02x key=%02x asc=%02x\n", channel, sense_key, asc); - - SELECTED_CONTROLLER(channel).error_register = sense_key << 4; - SELECTED_CONTROLLER(channel).interrupt_reason.i_o = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.c_d = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.rel = 0; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drive_ready = 1; - SELECTED_CONTROLLER(channel).status.write_fault = 0; - SELECTED_CONTROLLER(channel).status.drq = 0; - SELECTED_CONTROLLER(channel).status.err = 1; + struct drive_t * drive = &(channel->drives[channel->drive_select]); + struct controller_t * controller = &(drive->controller); + + PrintDebug("[rd_init_mode_sense_single]\n"); + + // Header + controller->buffer[0] = (size + 6) >> 8; + controller->buffer[1] = (size + 6) & 0xff; + controller->buffer[2] = 0x70; // no media present + controller->buffer[3] = 0; // reserved + controller->buffer[4] = 0; // reserved + controller->buffer[5] = 0; // reserved + controller->buffer[6] = 0; // reserved + controller->buffer[7] = 0; // reserved - SELECTED_DRIVE(channel).sense.sense_key = sense_key; - SELECTED_DRIVE(channel).sense.asc = asc; - SELECTED_DRIVE(channel).sense.ascq = 0; + // Data + memcpy(controller->buffer + 8, src, size); } -static -void rd_atapi_cmd_nop(struct channel_t *channels, Bit8u channel) -{ - Ramdisk_Print("[rd_atapi_cmd_nop]\n"); - SELECTED_CONTROLLER(channel).interrupt_reason.i_o = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.c_d = 1; - SELECTED_CONTROLLER(channel).interrupt_reason.rel = 0; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drive_ready = 1; - SELECTED_CONTROLLER(channel).status.drq = 0; - SELECTED_CONTROLLER(channel).status.err = 0; + +static void rd_command_aborted(struct vm_device * dev, + struct channel_t * channel, unsigned value) { + struct drive_t * drive = &(channel->drives[channel->drive_select]); + struct controller_t * controller = &(drive->controller); + + PrintError("[rd_command_aborted]\n"); + PrintError("\t\taborting on command 0x%02x {%s}\n", value, device_type_to_str(drive->device_type)); + + controller->current_command = 0; + controller->status.busy = 0; + controller->status.drive_ready = 1; + controller->status.err = 1; + controller->error_register = 0x04; // command ABORTED + controller->status.drq = 0; + controller->status.seek_complete = 0; + controller->status.corrected_data = 0; + controller->buffer_index = 0; + + rd_raise_interrupt(dev, channel); } -static -void rd_init_mode_sense_single(struct channel_t *channels, - Bit8u channel, const void* src, int size) -{ - Ramdisk_Print("[rd_init_mode_sense_single]\n"); - // Header - SELECTED_CONTROLLER(channel).buffer[0] = (size+6) >> 8; - SELECTED_CONTROLLER(channel).buffer[1] = (size+6) & 0xff; - SELECTED_CONTROLLER(channel).buffer[2] = 0x70; // no media present - SELECTED_CONTROLLER(channel).buffer[3] = 0; // reserved - SELECTED_CONTROLLER(channel).buffer[4] = 0; // reserved - SELECTED_CONTROLLER(channel).buffer[5] = 0; // reserved - SELECTED_CONTROLLER(channel).buffer[6] = 0; // reserved - SELECTED_CONTROLLER(channel).buffer[7] = 0; // reserved +/* +static void init_pci(struct ramdisk_t * ramdisk) { +struct v3_pci_bar bars[6]; + struct pci_device * pci_dev; + int i; + + for (i = 0; i < 6; i++) { + bars[i].type = PCI_BAR_NONE; + bars[i].mem_hook = 0; + bars[i].num_pages = 0; + bars[i].bar_update = NULL; + } + + bars[4].type = PCI_BAR_MEM32; + bars[4].mem_hook = 0; + bars[4].num_pages = 1; + bars[4].bar_update = NULL; + + pci_dev = v3_pci_register_device(ramdisk->pci, PCI_STD_DEVICE, 0, "IDE", -1, bars, NULL, NULL, NULL, NULL); + + + pci_dev->config_header.vendor_id = 0x8086; + pci_dev->config_header.device_id = 0x2421; + + +} + */ +static int ramdisk_init_device(struct vm_device *dev) { + struct ramdisk_t *ramdisk= (struct ramdisk_t *)dev->private_data; + + PrintDebug("Initializing Ramdisk\n"); + + + rd_init_hardware(ramdisk); + + + v3_dev_hook_io(dev, PRI_CTRL_PORT, + &read_status_port, &write_ctrl_port); + + v3_dev_hook_io(dev, PRI_DATA_PORT, + &read_data_port, &write_data_port); + v3_dev_hook_io(dev, PRI_FEATURES_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, PRI_SECT_CNT_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, PRI_SECT_ADDR1_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, PRI_SECT_ADDR2_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, PRI_SECT_ADDR3_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, PRI_DRV_SEL_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, PRI_CMD_PORT, + &read_status_port, &write_cmd_port); + + + v3_dev_hook_io(dev, SEC_CTRL_PORT, + &read_status_port, &write_ctrl_port); + + v3_dev_hook_io(dev, SEC_DATA_PORT, + &read_data_port, &write_data_port); + v3_dev_hook_io(dev, SEC_FEATURES_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, SEC_SECT_CNT_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, SEC_SECT_ADDR1_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, SEC_SECT_ADDR2_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, SEC_SECT_ADDR3_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, SEC_DRV_SEL_PORT, + &read_general_port, &write_general_port); + v3_dev_hook_io(dev, SEC_CMD_PORT, + &read_status_port, &write_cmd_port); + - // Data - memcpy(SELECTED_CONTROLLER(channel).buffer + 8, src, size); + + v3_dev_hook_io(dev, SEC_ADDR_REG_PORT, + &read_general_port, &write_general_port); + + v3_dev_hook_io(dev, PRI_ADDR_REG_PORT, + &read_general_port, &write_general_port); + + + + + + return 0; + } -static -void rd_ready_to_send_atapi(struct channel_t *channels, Bit8u channel) -{ - Ramdisk_Print("[rd_ready_to_send_atapi]\n"); - rd_raise_interrupt(ramdisk_state->channels, channel); +static int ramdisk_deinit_device(struct vm_device *dev) { + struct ramdisk_t *ramdisk = (struct ramdisk_t *)(dev->private_data); + rd_close_harddrive(ramdisk); + return 0; } +static struct vm_device_ops dev_ops = { + .init = ramdisk_init_device, + .deinit = ramdisk_deinit_device, + .reset = NULL, + .start = NULL, + .stop = NULL, +}; -static -void rd_command_aborted(struct channel_t *channels, - Bit8u channel, unsigned value) + + + +struct vm_device * v3_create_ramdisk(struct vm_device * pci) { - Ramdisk_Print("[rd_command_aborted]\n"); - Ramdisk_Print("\t\taborting on command 0x%02x {%s}\n", value, SELECTED_TYPE_STRING(channel)); - SELECTED_CONTROLLER(channel).current_command = 0; - SELECTED_CONTROLLER(channel).status.busy = 0; - SELECTED_CONTROLLER(channel).status.drive_ready = 1; - SELECTED_CONTROLLER(channel).status.err = 1; - SELECTED_CONTROLLER(channel).error_register = 0x04; // command ABORTED - SELECTED_CONTROLLER(channel).status.drq = 0; - SELECTED_CONTROLLER(channel).status.seek_complete = 0; - SELECTED_CONTROLLER(channel).status.corrected_data = 0; - SELECTED_CONTROLLER(channel).buffer_index = 0; - rd_raise_interrupt(ramdisk_state->channels, channel); + + struct ramdisk_t *ramdisk; + ramdisk = (struct ramdisk_t *)V3_Malloc(sizeof(struct ramdisk_t)); + V3_ASSERT(ramdisk != NULL); + + // ramdisk->pci = pci; + + PrintDebug("[create_ramdisk]\n"); + + struct vm_device * device = v3_create_device("RAMDISK", &dev_ops, ramdisk); + + + + return device; } -/* - * Success: return 0; - * Failure: return integer greater than 0 - */ -struct ramdisk_t * create_ramdisk() -{ - struct ramdisk_t *ramdisk; - ramdisk = (struct ramdisk_t *)V3_Malloc(sizeof(struct ramdisk_t)); - V3_ASSERT(ramdisk != NULL); +#ifdef DEBUG_RAMDISK + +static void rd_print_state(struct ramdisk_t * ramdisk) { + uchar_t channel; + uchar_t device; + struct channel_t * channels = (struct channel_t *)(&(ramdisk->channels)); + + /* + for (channel = 0; channel < MAX_ATA_CHANNEL; channel++) { + memset((char *)(channels + channel), 0, sizeof(struct channel_t)); + } + */ + + + + for (channel = 0; channel < MAX_ATA_CHANNEL; channel++){ - ramdisk->cops.init = &rd_init_harddrive; - ramdisk->cops.close = &rd_close_harddrive; - ramdisk->cops.reset = &rd_reset_harddrive; - - ramdisk->eops.read_port = &ramdisk_read_port; - ramdisk->eops.write_port = &ramdisk_write_port; - ramdisk->eops.read_port_ignore = &ramdisk_read_port_ignore; - ramdisk->eops.write_port_ignore = &ramdisk_write_port_ignore; - - return ramdisk; + for (device = 0; device < 2; device++){ + + // Initialize controller state, even if device is not present + PrintDebug("channels[%d].drives[%d].controller.status.busy = %d\n", + channel, device, + channels[channel].drives[device].controller.status.busy); + PrintDebug("channels[%d].drives[%d].controller.status.drive_ready = %d\n", + channel, device, + channels[channel].drives[device].controller.status.drive_ready); + PrintDebug("channels[%d].drives[%d].controller.status.write_fault = %d\n", + channel, device, + channels[channel].drives[device].controller.status.write_fault); + PrintDebug("channels[%d].drives[%d].controller.status.seek_complete = %d\n", + channel, device, + channels[channel].drives[device].controller.status.seek_complete); + PrintDebug("channels[%d].drives[%d].controller.status.drq = %d\n", + channel, device, + channels[channel].drives[device].controller.status.drq); + PrintDebug("channels[%d].drives[%d].controller.status.corrected_data = %d\n", + channel, device, + channels[channel].drives[device].controller.status.corrected_data); + PrintDebug("channels[%d].drives[%d].controller.status.index_pulse = %d\n", + channel, device, + channels[channel].drives[device].controller.status.index_pulse); + PrintDebug("channels[%d].drives[%d].controller.status.index_pulse_count = %d\n", + channel, device, + channels[channel].drives[device].controller.status.index_pulse_count); + PrintDebug("channels[%d].drives[%d].controller.status.err = %d\n", + channel, device, + channels[channel].drives[device].controller.status.err); + + + PrintDebug("channels[%d].drives[%d].controller.error_register = %d\n", + channel, device, + channels[channel].drives[device].controller.error_register); + PrintDebug("channels[%d].drives[%d].controller.head_no = %d\n", + channel, device, + channels[channel].drives[device].controller.head_no); + PrintDebug("channels[%d].drives[%d].controller.sector_count = %d\n", + channel, device, + channels[channel].drives[device].controller.sector_count); + PrintDebug("channels[%d].drives[%d].controller.sector_no = %d\n", + channel, device, + channels[channel].drives[device].controller.sector_no); + PrintDebug("channels[%d].drives[%d].controller.cylinder_no = %d\n", + channel, device, + channels[channel].drives[device].controller.cylinder_no); + PrintDebug("channels[%d].drives[%d].controller.current_command = %02x\n", + channel, device, + channels[channel].drives[device].controller.current_command); + PrintDebug("channels[%d].drives[%d].controller.buffer_index = %d\n", + channel, device, + channels[channel].drives[device].controller.buffer_index); + + + PrintDebug("channels[%d].drives[%d].controller.control.reset = %d\n", + channel, device, + channels[channel].drives[device].controller.control.reset); + PrintDebug("channels[%d].drives[%d].controller.control.disable_irq = %d\n", + channel, device, + channels[channel].drives[device].controller.control.disable_irq); + + + PrintDebug("channels[%d].drives[%d].controller.reset_in_progress = %d\n", + channel, device, + channels[channel].drives[device].controller.reset_in_progress); + PrintDebug("channels[%d].drives[%d].controller.sectors_per_block = %02x\n", + channel, device, + channels[channel].drives[device].controller.sectors_per_block); + PrintDebug("channels[%d].drives[%d].controller.lba_mode = %d\n", + channel, device, + channels[channel].drives[device].controller.lba_mode); + PrintDebug("channels[%d].drives[%d].controller.features = %d\n", + channel, device, + channels[channel].drives[device].controller.features); + + + PrintDebug("channels[%d].drives[%d].model_no = %s\n", + channel, device, + channels[channel].drives[device].model_no); + PrintDebug("channels[%d].drives[%d].device_type = %d\n", + channel, device, + channels[channel].drives[device].device_type); + PrintDebug("channels[%d].drives[%d].cdrom.locked = %d\n", + channel, device, + channels[channel].drives[device].cdrom.locked); + PrintDebug("channels[%d].drives[%d].sense.sense_key = %d\n", + channel, device, + channels[channel].drives[device].sense.sense_key); + PrintDebug("channels[%d].drives[%d].sense.asc = %d\n", + channel, device, + channels[channel].drives[device].sense.asc); + PrintDebug("channels[%d].drives[%d].sense.ascq = %d\n", + channel, device, + channels[channel].drives[device].sense.ascq); + + + + PrintDebug("channels[%d].drives[%d].controller.interrupt_reason.c_d = %02x\n", + channel, device, + channels[channel].drives[device].controller.interrupt_reason.c_d); + + PrintDebug("channels[%d].drives[%d].controller.interrupt_reason.i_o = %02x\n", + channel, device, + channels[channel].drives[device].controller.interrupt_reason.i_o); + + PrintDebug("channels[%d].drives[%d].controller.interrupt_reason.rel = %02x\n", + channel, device, + channels[channel].drives[device].controller.interrupt_reason.rel); + + PrintDebug("channels[%d].drives[%d].controller.interrupt_reason.tag = %02x\n", + channel, device, + channels[channel].drives[device].controller.interrupt_reason.tag); + + PrintDebug("channels[%d].drives[%d].cdrom.ready = %d\n", + channel, device, + channels[channel].drives[device].cdrom.ready); + + } //for device + } //for channel + + return; } + + +#endif