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Not OpenFirmware. Also fixed a spelling mistake and removed some extra spaces.
276 lines
14 KiB
Markdown
276 lines
14 KiB
Markdown
# Heathrow ASIC
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The Heathrow ASIC is an intergrated I/O controller designed for use in Power
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Macintosh G3 computers.
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Its predecessors are Grand Central and O'Hare ASICs used in other Power Macintosh
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computers. As those names suggest, Apple engineers liked to name their I/O controllers
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after airports and train stations.
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Heathrow and its siblings are collectively referred to as __mac-io__ devices in the
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Open Firmware device tree.
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## Mac I/O family
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The purpose of a Mac I/O (MIO) controller is to bring support for Apple legacy
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I/O hardware to the PCI-based Power Macintosh. That legacy hardware has
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existed long before Power Macintosh was introduced. It includes:
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- versatile interface adapter (VIA)
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- Sander-Woz integrated machine (SWIM) that is a floppy disk controller
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- CUDA MCU that controls ADB, parameter RAM, realtime clock and power management
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- serial communication controller (SCC)
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- Macintosh Enhanced SCSI Hardware (MESH)
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In the 68k Macintosh era, all this hardware was implemented in separate ICs.
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In a PCI-compatible Power Macintosh, the above devices are part
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of the MIO chip itself. MIO's functional blocks implementing the above devices
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are called __cells__, i.e. "VIA cell", "SWIM cell" etc.
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MIO itself is PCI compliant while the legacy hardware it emulates isn't.
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MIO occupies 512Kb of the PCI memory space divided into registers space and
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DMA space. Access to emulated legacy devices is accomplished by reading from/
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writing to MIO's PCI address space at predefined offsets.
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MIO includes a DMA controller that offers 15 DMA channels implementing
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Apple's own DMA protocol called descriptor-based DMA (DBDMA).
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Official documentation (that is somewhat incomplete and erroneous) can be
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found in the second chapter of the book "Macintosh Technology in the Common
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Hardware Reference Platform" by Apple Computer, Inc.
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## Heathrow I/O modules
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Being a Mac I/O compatible device, the Heathrow ASIC contains the following modules/cells:
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* VIA cell for establishing communication with the Cuda MCU (separate IC)
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* ATA/IDE cell for controlling ATA-3 compatible drives
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* enhanced serial communication controller (ESCC cell)
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* Ethernet controller cell funnily called __bmac__
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* floppy disk controller (SWIM3 cell)
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* SCSI controller (MESH cell)
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* integrated DBDMA controller
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* interrupt controller
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* logic for controlling built-in audio HW
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* logic for accessing NVRAM (separate IC)
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* logic for controlling a media bay on portables
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## PCI configuration space registers
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| Register name | Default value |
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|:-------------:|:--------------:|
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| VendorID | 0x106B (Apple) |
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| DeviceID | 0x0010 |
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| RevisionID | 0x01 |
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| Class code | 0xFF0000 |
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It looks like Heathrow supports only one Base Address Register - __BAR0__.
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It contains base address of the memory-mapped registers programmed by system software
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during system initialization.
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## Memory-mapped registers
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Software communicates with the Heathrow ASIC via memory-mapped registers that
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occupy 512 Kb starting from the base address located in the BAR0 register
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in the PCI configuration space.
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Macintosh firmware configures the Heathrow ASIC to live at address `0xF3000000`.
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### General chip control registers
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| Offset | Register name | Description |
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|:------:|:-----------------:|:----------------------------------------------:|
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| 0x10 | InterruptEvents2 | each "1" bit indicates a pending int |
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| 0x14 | InterruptMask2 | enabling (1) / disabling(0) of specific ints |
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| 0x18 | InterruptClear2 | bit value "1" clears the corresponding int |
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| 0x1C | InterruptLevels2 | interrupt status for devices 32...63 |
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| 0x20 | InterruptEvents1 | each "1" bit indicates a pending int |
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| 0x24 | InterruptMask1 | enabling (1) / disabling(0) of specific ints |
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| 0x28 | InterruptClear1 | bit value "1" clears the corresponding int |
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| 0x2C | InterruptLevels1 | interrupt status for devices 0...31 |
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| 0x30 | UnknownReg30 | Not much is known about this register |
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| 0x34 | HeathrowIDs | bits for identifying media bay features? |
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| 0x38 | FeatureControl | bits for controlling Heathrow operation |
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| 0x3C | AuxControl | auxilary control bits |
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### Device DMA spaces
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| Offset | Size in bytes | Space name |
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|:------:|:-------------:|:-----------------------------:|
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| 0x8000 | 256 | MESH SCSI DMA |
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| 0x8100 | 256 | Floppy controller DMA |
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| 0x8200 | 256 | Ethernet transmit DMA |
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| 0x8300 | 256 | Ethernet receive DMA |
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| 0x8400 | 256 | Serial channel A transmit DMA |
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| 0x8500 | 256 | Serial channel A receive DMA |
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| 0x8600 | 256 | Serial channel B transmit DMA |
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| 0x8700 | 256 | Serial channel B receive DMA |
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| 0x8800 | 256 | Audio output DMA |
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| 0x8900 | 256 | Audio input DMA |
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| 0x8A00 | 256 | unassigned DMA ? |
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| 0x8B00 | 256 | internal ATA (IDE0) DMA |
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| 0x8C00 | 256 | media bay (?) ATA (IDE1) DMA |
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| 0x8D00 | 256 | unassigned DMA ? |
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| 0x8E00 | 256 | unassigned DMA ? |
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| 0x8F00 | 256 | unassigned DMA ? |
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### Device register spaces
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| Offset | Size | Space name |
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|:-------:|:-------------:|:----------------------------------------:|
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| 0x10000 | 4 KB | MESH SCSI controller registers |
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| 0x11000 | 4 KB | Ethernet (bmac) controller registers |
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| 0x12000 | 4 KB | Legacy serial (SCC) controller registers |
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| 0x13000 | 4 KB | Serial (ESCC) controller registers |
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| 0x14000 | 4 KB | Audio codec registers |
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| 0x15000 | 4 KB | Floppy (SWIM3) controller registers |
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| 0x16000 | 8 KB | VIA registers |
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| 0x20000 | 4 KB | IDE0 registers |
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| 0x21000 | 4 KB | IDE1 registers |
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| 0x60000 | 128 KB | NVRAM access |
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## Registers description
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### General chip control
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#### Feature control register
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Bit names in the table below were pulled from Open Firmware v2.4.
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The field "Description" represents my personal attempt to describe the function
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of those bits based on publicly available Apple and Linux sources.
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| Bit # | Active | Name | Description |
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|:-----:|:------:|:-------------:|:---------------------------------------:|
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| 0 | high | in_use_led | "1" enables monitor sense on G3 desktop |
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| 1 | low | -mb_pwr | media bay power on/off |
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| 2 | high | pci_mb_en | enable media bay PCI (?) |
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| 3 | high | ide_mb_en | enable media bay ATA (IDE1) |
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| 4 | high | floppy_en | enable floppy disk controller cell |
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| 5 | high | ide_int_en | enable internal ATA (IDE0) |
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| 6 | low | -ide0_reset | reset internal ATA |
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| 7 | low | -mb_reset | reset media bay |
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| 8 | high | iobus_enable | *not available* |
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| 9 | high | scc_enable | enable SCC controller cell |
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| 10 | high | scsi_cell_en | enable MESH SCSI controller cell |
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| 11 | high | swim_cell_en | enable SWIM3 floppy controller cell |
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| 12 | high | snd_pwr | *not available* |
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| 13 | high | snd_clk_en | enable sound chip clock (?) |
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| 14 | high | scc_a_enable | enable SCC channel A |
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| 15 | high | scc_b_enable | enable SCC channel B |
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| 16 | low | -port_via | switch VIA cell to portable mode (?) |
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| 16 | high | desktop_via | switch VIA cell to desktop mode (?) |
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| 17 | low | -pwm | *not available* |
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| 17 | high | mon_id | *not available* |
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| 18 | low | -hookpb | *not available* |
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| 18 | high | mb_cnt | *not available* |
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| 19 | low | -swimiii | floppy controller in SWIM3 mode (?) |
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| 19 | high | clonefloppy | floppy controller in PC-compat mode (?) |
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| 20 | high | aud22run | *not available* |
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| 21 | high | scsi_linkmode | *not available* |
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| 22 | high | arb_bypass | disable internal PCI arbiter (?) |
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| 23 | low | -ide1_reset | reset media bay ATA |
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| 24 | high | slow_scc_pclk | *not available* |
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| 25 | high | reset_scc | reset serial (SCC) controller cell |
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| 26 | high | mfdc_cell_en | enable PC-compat floppy controller (?) |
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| 27 | high | use_mfdc | use PC floppy ctrl instead of SWIM3 ? |
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| 29 | high | enet_ctrl_en | enable Ethernet controller cell (?) |
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| 30 | high | enet_xcvr_en | enable Ethernet Transceiver (?) |
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| 31 | high | enet_reset | reset Ethernet cell |
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### Cell-specific registers
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#### ATA cell registers
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##### Internal ATA (IDE0)
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| Offset from I/O base | Width in bits | Function on read | Function on write |
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|:--------------------:|:-------------:|:-----------------:|:-----------------:|
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| 0x20000 | 16 | Data | Data |
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| 0x20010 | 8 | Error | Features |
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| 0x20020 | 8 | Sector Count | Sector Count |
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| 0x20030 | 8 | Sector Number | Sector Number |
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| 0x20040 | 8 | Cylinder Low | Cylinder Low |
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| 0x20050 | 8 | Cylinder High | Cylinder High |
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| 0x20060 | 8 | Drive/Head | Drive/Head |
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| 0x20070 | 8 | Status | Command |
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| 0x20160 | 8 | Alternate Status | Device Control |
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| 0x20200 | 32 | Timing Config | Timing Config |
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##### Media Bay ATA (IDE1)
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| Offset from I/O base | Width in bits | Function on read | Function on write |
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|:--------------------:|:-------------:|:-----------------:|:-----------------:|
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| 0x21000 | 16 | Data | Data |
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| 0x21010 | 8 | Error | Features |
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| 0x21020 | 8 | Sector Count | Sector Count |
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| 0x21030 | 8 | Sector Number | Sector Number |
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| 0x21040 | 8 | Cylinder Low | Cylinder Low |
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| 0x21050 | 8 | Cylinder High | Cylinder High |
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| 0x21060 | 8 | Drive/Head | Drive/Head |
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| 0x21070 | 8 | Status | Command |
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| 0x21160 | 8 | Alternate Status | Device Control |
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| 0x21200 | 32 | Timing Config | Timing Config |
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##### Timing Config Register
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The timing config register is specific to Apple's ATA implementation. According
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with
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[this source](https://android.googlesource.com/kernel/msm/+/android-wear-5.0.2_r0.1/drivers/ata/pata_macio.c),
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this register is used to control timings for Multiword DMA (MDMA) and Programmed I/O (PIO) modes.
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This register has the following format:
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| 31 ... 22 | 21 | 20 ... 16 | 15 ... 11 | 10 | 9 ... 5 | 4 ... 0 |
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|------------|----|---------------|-------------|----|--------------|------------|
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| Unused (?) | HT | MDMA Recovery | MDMA Access | E | PIO Recovery | PIO Access |
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I don't know what Recovery and Access values mean. It seems that all values are
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in 30 ns units. It corresponds to one PCI cycle when running at a 33 MHz clock speed.
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Both PIO and MDMA recovery values are specified in `x / 30` units after subtracting
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a constant offset. This offset is 120 ns for PIO transfers and 30 ns for MDMA transfers.
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- The "HT" stands for _HalfTick_. When set, 15 ns will be added to both MDMA access
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and recovery times. Otherwise, 30 ns are added to the MDMA recovery time.
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- The "E" bit, when set, adds 30 ns to the final PIO timing.
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The [official Apple source](https://opensource.apple.com/source/HeathrowATA/HeathrowATA-108.3.1/HeathrowATA.cpp.auto.html)
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specifies the following default values for each PIO mode:
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| Mode # | Cycle time | Transfer rate | Recovery | Access |
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|:------:|:----------:|:-------------:|:--------:|:------:|
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| 0 | 600 ns | 3,33 MB/s | 420 ns | 180 ns |
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| 1 | 390 ns | 5,13 MB/s | 240 ns | 150 ns |
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| 2 | 360 ns | 5,56 MB/s | 180 ns | 180 ns |
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| 3 | 330 ns | 6,1 MB/s | 180 ns | 150 ns |
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| 4 | 300 ns | 6,67 MB/s | 150 ns | 150 ns |
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Timing values for the PIO modes 2...4 deviate from the corresponding values given
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in the ATA-3 specification.
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PIO cycle time can be calculated using the following equation:
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```
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PIO_Cycle_ns = PIO_Recovery * 30 + 120 + PIO_Access * 30 + E * 30
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```
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Multiword DMA modes are specified as follows:
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| Mode # | Cycle time | Transfer rate | Recovery | Access |
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|:------:|:----------:|:-------------:|:--------:|:------:|
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| 0 | 480 ns | 4,17 MB/s | 240 ns | 240 ns |
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| 1 | 360 ns | 5,56 MB/s | 180 ns | 180 ns |
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| 2 | 270 ns | 7,4 MB/s | 135 ns | 135 ns |
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| 3 | 240 ns | 8,33 MB/s | 120 ns | 120 ns |
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| 4 | 210 ns | 9,52 MB/s | 105 ns | 105 ns |
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| 5 | 180 ns | 11,11 MB/s | 90 ns | 90 ns |
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| 6 | 150 ns | 13,33 MB/s | 75 ns | 75 ns |
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| 7 | 120 ns | 16,67 MB/s | 45 ns | 75 ns |
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Modes 0, 6 and 7 from the table above correspond to the MDMA modes 0...2 specified
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in the ATA-2 standard.
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MDMA cycle time can be calculated using the following equation:
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```
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MDMA_Cycle_ns = MDMA_Recovery * 30 + MDMA_Access * 30 + 30
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```
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