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CLK/Storage/MassStorage/Encodings/ApplePartitionMap.hpp

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//
// ApplePartitionMap.hpp
// Clock Signal
//
// Created by Thomas Harte on 23/08/2022.
// Copyright © 2022 Thomas Harte. All rights reserved.
//
#pragma once
#include <cstddef>
#include <cstdint>
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#include <cstring>
#include <sys/types.h>
#include <vector>
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namespace Storage::MassStorage::Encodings::Apple {
enum class DriveType {
SCSI
};
/*!
Implements a device to volume mapping with an Apple Partition Map.
The @c VolumeProvider provides both the volume to be embedded into a device,
and device driver information if applicable.
*/
template <typename VolumeProvider> class PartitionMap {
public:
/*!
Sets the drive type to map to and the number of blocks in the underlying partition.
*/
void set_drive_type(DriveType drive_type, size_t number_of_blocks) {
drive_type_ = drive_type;
number_of_blocks_ = number_of_blocks;
}
/*!
@returns The total number of blocks on the entire volume.
*/
size_t get_number_of_blocks() const {
return
number_of_blocks_ + // Size of the volume.
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size_t(non_volume_blocks()); // Size of everything else.
}
/*!
Maps from a mass-storage device address to an address
in the underlying volume.
*/
ssize_t to_source_address(size_t address) const {
// The embedded volume is always the last thing on the device.
return ssize_t(address) - ssize_t(non_volume_blocks());
}
/*!
Converts from a source data block to one properly encoded for the drive type.
Expected usage:
const size_t source_address = mapper.to_source_address(unit_address);
if(is_in_range_for_partition(source_address)) {
return mapper.convert_source_block(source_address, get_block_contents(source_address));
} else {
return mapper.convert_source_block(source_address);
}
*/
std::vector<uint8_t> convert_source_block(ssize_t source_address, std::vector<uint8_t> source_data = {}) {
// Addresses greater than or equal to zero map to the actual disk image.
if(source_address >= 0) return source_data;
// Switch to mapping relative to 0, for personal sanity.
source_address += non_volume_blocks();
// Block 0 is the device descriptor, which lists the total number of blocks,
// and provides an offset to the driver, if any.
if(!source_address) {
const uint32_t total_device_blocks = uint32_t(get_number_of_blocks());
const auto driver_size = uint16_t(driver_block_size());
const auto driver_offset = uint16_t(predriver_blocks());
const uint8_t driver_count = driver_size > 0 ? 1 : 0;
/* The driver descriptor. */
std::vector<uint8_t> driver_description = {
0x45, 0x52, /* device signature */
0x02, 0x00, /* block size, in bytes */
uint8_t(total_device_blocks >> 24),
uint8_t(total_device_blocks >> 16),
uint8_t(total_device_blocks >> 8),
uint8_t(total_device_blocks),
/* number of blocks on device */
0x00, 0x01, /* reserved (formerly: device type) */
0x00, 0x01, /* reserved (formerly: device ID) */
0x00, 0x00,
0x00, 0x00, /* reserved ('sbData', no further explanation given) */
0x00, driver_count, /* number of device descriptor entries */
0x00, 0x00,
/* first device descriptor's starting block */
uint8_t(driver_offset >> 8), uint8_t(driver_offset),
/* size of device driver */
uint8_t(driver_size >> 8), uint8_t(driver_size),
0x00, 0x01, /*
More modern documentation: operating system (MacOS = 1)
Inside Macintosh IV: system type (Mac Plus = 1)
*/
};
driver_description.resize(512);
return driver_description;
}
// Blocks 1 and 2 contain entries of the partition map; there's also possibly an entry
// for the driver.
if(source_address < 3 + volume_provider_.HasDriver) {
struct Partition {
const char *name, *type;
uint32_t start_block, size;
uint8_t status;
} partitions[3] = {
{
volume_provider_.name(),
volume_provider_.type(),
uint32_t(non_volume_blocks()),
uint32_t(number_of_blocks_),
0xb7
},
{
"Apple",
"Apple_partition_map",
0x01,
uint32_t(predriver_blocks()) - 1,
0x37
},
{
"Macintosh",
"Apple_Driver",
uint32_t(predriver_blocks()),
uint32_t(driver_block_size()),
0x7f
},
};
std::vector<uint8_t> partition(512);
// Fill in the fixed fields.
partition[0] = 'P'; partition[1] = 'M'; /* Signature. */
partition[7] = 3; /* Number of partitions. */
const Partition &details = partitions[source_address-1];
partition[8] = uint8_t(details.start_block >> 24);
partition[9] = uint8_t(details.start_block >> 16);
partition[10] = uint8_t(details.start_block >> 8);
partition[11] = uint8_t(details.start_block);
partition[84] = partition[12] = uint8_t(details.size >> 24);
partition[85] = partition[13] = uint8_t(details.size >> 16);
partition[86] = partition[14] = uint8_t(details.size >> 8);
partition[87] = partition[15] = uint8_t(details.size);
// 32 bytes are allocated for each of the following strings.
memcpy(&partition[16], details.name, strlen(details.name));
memcpy(&partition[48], details.type, strlen(details.type));
partition[91] = details.status;
// The third entry in this constructed partition map is the driver;
// add some additional details.
if constexpr (VolumeProvider::HasDriver) {
if(source_address == 3) {
const auto driver_size = uint16_t(volume_provider_.driver_size());
const auto driver_checksum = uint16_t(volume_provider_.driver_checksum());
/* Driver size in bytes. */
partition[98] = uint8_t(driver_size >> 8);
partition[99] = uint8_t(driver_size);
/* Driver checksum. */
partition[118] = uint8_t(driver_checksum >> 8);
partition[119] = uint8_t(driver_checksum);
/* Driver target processor. */
const char *driver_target = volume_provider_.driver_target();
memcpy(&partition[120], driver_target, strlen(driver_target));
// Various non-zero values that Apple HD SC Tool wrote are below; they are
// documented as reserved officially, so I don't know their meaning.
partition[137] = 0x01;
partition[138] = 0x06;
partition[143] = 0x01;
partition[147] = 0x02;
partition[149] = 0x07;
}
}
return partition;
}
if constexpr (VolumeProvider::HasDriver) {
// The remainder of the non-volume area is the driver.
if(source_address >= predriver_blocks() && source_address < non_volume_blocks()) {
const uint8_t *driver = volume_provider_.driver();
const auto offset = (source_address - predriver_blocks()) * 512;
return std::vector<uint8_t>(&driver[offset], &driver[offset + 512]);
}
}
// Default: return an empty block.
return std::vector<uint8_t>(512);
}
private:
DriveType drive_type_;
size_t number_of_blocks_;
VolumeProvider volume_provider_;
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ssize_t predriver_blocks() const {
return
0x40; // Holding:
// (i) the driver descriptor;
// (ii) the partition table; and
// (iii) the partition entries.
}
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ssize_t non_volume_blocks() const {
return
predriver_blocks() +
driver_block_size(); // Size of device driver (if any).
}
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ssize_t driver_block_size() const {
if constexpr (VolumeProvider::HasDriver) {
return (volume_provider_.driver_size() + 511) >> 9;
} else {
return 0;
}
}
};
}