Add two missing eventhandler.h headers

[FreeBSD/FreeBSD.git] / sys / dev / ichiic / ig4_reg.h

/*
 * Copyright (c) 2014 The DragonFly Project.  All rights reserved.
 *
 * This code is derived from software contributed to The DragonFly Project
 * by Matthew Dillon <dillon@backplane.com> and was subsequently ported
 * to FreeBSD by Michael Gmelin <freebsd@grem.de>
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in
 *    the documentation and/or other materials provided with the
 *    distribution.
 * 3. Neither the name of The DragonFly Project nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific, prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE
 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING,
 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 * $FreeBSD$
 */
/*
 * Intel fourth generation mobile cpus integrated I2C device.
 *
 * Datasheet reference:  Section 22.
 *
 * http://www.intel.com/content/www/us/en/processors/core/4th-gen-core-family-mobile-i-o-datasheet.html?wapkw=datasheets+4th+generation
 *
 * This is a from-scratch driver under the BSD license using the Intel data
 * sheet and the linux driver for reference.  All code is freshly written
 * without referencing the linux driver code.  However, during testing
 * I am also using the linux driver code as a reference to help resolve any
 * issues that come.  These will be specifically documented in the code.
 *
 * This controller is an I2C master only and cannot act as a slave.  The IO
 * voltage should be set by the BIOS.  Standard (100Kb/s) and Fast (400Kb/s)
 * and fast mode plus (1MB/s) is supported.  High speed mode (3.4 MB/s) is NOT
 * supported.
 */

#ifndef _ICHIIC_IG4_REG_H_
#define _ICHIIC_IG4_REG_H_

/*
 * 22.2 MMIO registers can be accessed through BAR0 in PCI mode or through
 *      BAR1 when in ACPI mode.
 *
 *      Register width is 32-bits
 *
 * 22.2 Default Values on device reset are 0 except as specified here:
 *      TAR_ADD         0x00000055
 *      SS_SCL_HCNT     0x00000264
 *      SS_SCL_LCNT     0x000002C2
 *      FS_SCL_HCNT     0x0000006E
 *      FS_SCL_LCNT     0x000000CF
 *      INTR_MASK       0x000008FF
 *      I2C_STA         0x00000006
 *      SDA_HOLD        0x00000001
 *      SDA_SETUP       0x00000064
 *      COMP_PARAM1     0x00FFFF6E
 */

#define IG4_REG_CTL             0x0000  /* RW   Control Register */
#define IG4_REG_TAR_ADD         0x0004  /* RW   Target Address */
#define IG4_REG_HS_MADDR        0x000C  /* RW   High Speed Master Mode Code Address*/
#define IG4_REG_DATA_CMD        0x0010  /* RW   Data Buffer and Command */
#define IG4_REG_SS_SCL_HCNT     0x0014  /* RW   Std Speed clock High Count */
#define IG4_REG_SS_SCL_LCNT     0x0018  /* RW   Std Speed clock Low Count */
#define IG4_REG_FS_SCL_HCNT     0x001C  /* RW   Fast Speed clock High Count */
#define IG4_REG_FS_SCL_LCNT     0x0020  /* RW   Fast Speed clock Low Count */
#define IG4_REG_INTR_STAT       0x002C  /* RO   Interrupt Status */
#define IG4_REG_INTR_MASK       0x0030  /* RW   Interrupt Mask */
#define IG4_REG_RAW_INTR_STAT   0x0034  /* RO   Raw Interrupt Status */
#define IG4_REG_RX_TL           0x0038  /* RW   Receive FIFO Threshold */
#define IG4_REG_TX_TL           0x003C  /* RW   Transmit FIFO Threshold */
#define IG4_REG_CLR_INTR        0x0040  /* RO   Clear Interrupt */
#define IG4_REG_CLR_RX_UNDER    0x0044  /* RO   Clear RX_Under Interrupt */
#define IG4_REG_CLR_RX_OVER     0x0048  /* RO   Clear RX_Over Interrupt */
#define IG4_REG_CLR_TX_OVER     0x004C  /* RO   Clear TX_Over Interrupt */
#define IG4_REG_CLR_RD_REQ      0x0050  /* RO   Clear RD_Req Interrupt */
#define IG4_REG_CLR_TX_ABORT    0x0054  /* RO   Clear TX_Abort Interrupt */
#define IG4_REG_CLR_RX_DONE     0x0058  /* RO   Clear RX_Done Interrupt */
#define IG4_REG_CLR_ACTIVITY    0x005C  /* RO   Clear Activity Interrupt */
#define IG4_REG_CLR_STOP_DET    0x0060  /* RO   Clear STOP Detection Int */
#define IG4_REG_CLR_START_DET   0x0064  /* RO   Clear START Detection Int */
#define IG4_REG_CLR_GEN_CALL    0x0068  /* RO   Clear General Call Interrupt */
#define IG4_REG_I2C_EN          0x006C  /* RW   I2C Enable */
#define IG4_REG_I2C_STA         0x0070  /* RO   I2C Status */
#define IG4_REG_TXFLR           0x0074  /* RO   Transmit FIFO Level */
#define IG4_REG_RXFLR           0x0078  /* RO   Receive FIFO Level */
#define IG4_REG_SDA_HOLD        0x007C  /* RW   SDA Hold Time Length */
#define IG4_REG_TX_ABRT_SOURCE  0x0080  /* RO   Transmit Abort Source */
#define IG4_REG_SLV_DATA_NACK   0x0084  /* RW   General Slave Data NACK */
#define IG4_REG_DMA_CTRL        0x0088  /* RW   DMA Control */
#define IG4_REG_DMA_TDLR        0x008C  /* RW   DMA Transmit Data Level */
#define IG4_REG_DMA_RDLR        0x0090  /* RW   DMA Receive Data Level */
#define IG4_REG_SDA_SETUP       0x0094  /* RW   SDA Setup */
#define IG4_REG_ACK_GENERAL_CALL 0x0098 /* RW   I2C ACK General Call */
#define IG4_REG_ENABLE_STATUS   0x009C  /* RO   Enable Status */
/* Available at least on Atom SoCs and Haswell mobile. */
#define IG4_REG_COMP_PARAM1     0x00F4  /* RO   Component Parameter */
#define IG4_REG_COMP_VER        0x00F8  /* RO   Component Version */
/* Available at least on Atom SoCs */
#define IG4_REG_COMP_TYPE       0x00FC  /* RO   Probe width/endian? (linux) */
/* Available on Skylake-U/Y and Kaby Lake-U/Y */
#define IG4_REG_RESETS_SKL      0x0204  /* RW   Reset Register */
#define IG4_REG_ACTIVE_LTR_VALUE 0x0210 /* RW   Active LTR Value */
#define IG4_REG_IDLE_LTR_VALUE  0x0214  /* RW   Idle LTR Value */
#define IG4_REG_TX_ACK_COUNT    0x0218  /* RO   TX ACK Count */
#define IG4_REG_RX_BYTE_COUNT   0x021C  /* RO   RX ACK Count */
#define IG4_REG_DEVIDLE_CTRL    0x024C  /* RW   Device Control */
/* Available at least on Atom SoCs */
#define IG4_REG_CLK_PARMS       0x0800  /* RW   Clock Parameters */
/* Available at least on Atom SoCs and Haswell mobile */
#define IG4_REG_RESETS_HSW      0x0804  /* RW   Reset Register */
#define IG4_REG_GENERAL         0x0808  /* RW   General Register */
/* These LTR config registers are at least available on Haswell mobile. */
#define IG4_REG_SW_LTR_VALUE    0x0810  /* RW   SW LTR Value */
#define IG4_REG_AUTO_LTR_VALUE  0x0814  /* RW   Auto LTR Value */

/*
 * CTL - Control Register               22.2.1
 *       Default Value: 0x0000007F.
 *
 *      RESTARTEN       - RW Restart Enable
 *      10BIT           - RW Controller operates in 10-bit mode, else 7-bit
 *
 * NOTE: When restart is disabled the controller is incapable of
 *       performing the following functions:
 *
 *               Sending a START Byte
 *               Performing any high-speed mode op
 *               Performing direction changes in combined format mode
 *               Performing a read operation with a 10-bit address
 *
 *       Attempting to perform the above operations will result in the
 *       TX_ABORT bit being set in RAW_INTR_STAT.
 */
#define IG4_CTL_SLAVE_DISABLE   0x0040  /* snarfed from linux */
#define IG4_CTL_RESTARTEN       0x0020  /* Allow Restart when master */
#define IG4_CTL_10BIT           0x0010  /* ctlr accepts 10-bit addresses */
#define IG4_CTL_SPEED_FAST      0x0004  /* snarfed from linux */
#define IG4_CTL_SPEED_STD       0x0002  /* snarfed from linux */
#define IG4_CTL_MASTER          0x0001  /* snarfed from linux */

/*
 * TAR_ADD - Target Address Register    22.2.2
 *           Default Value: 0x00000055F
 *
 *      10BIT           - RW controller starts its transfers in 10-bit
 *                        address mode, else 7-bit.
 *
 *      SPECIAL         - RW Indicates whether software performs a General Call
 *                        or START BYTE command.
 *
 *              0         Ignore GC_OR_START and use TAR address.
 *
 *              1         Perform special I2C Command based on GC_OR_START.
 *
 *      GC_OR_START     - RW (only if SPECIAL is set)
 *
 *              0         General Call Address.  After issuing a General Call,
 *                        only writes may be performed.  Attempting to issue
 *                        a read command results in IX_ABRT in RAW_INTR_STAT.
 *                        The controller remains in General Call mode until
 *                        bit 11 (SPECIAL) is cleared.
 *
 *              1         START BYTE.
 *
 *
 *      IC_TAR          - RW when transmitting a general call, these bits are
 *                        ignored.  To generate a START BYTE, the address
 *                        needs to be written into these bits once.
 *
 * This register should only be updated when the IIC is disabled (I2C_ENABLE=0)
 */
#define IG4_TAR_10BIT           0x1000  /* start xfer in 10-bit mode */
#define IG4_TAR_SPECIAL         0x0800  /* Perform special command */
#define IG4_TAR_GC_OR_START     0x0400  /* General Call or Start */
#define IG4_TAR_ADDR_MASK       0x03FF  /* Target address */

/*
 * TAR_DATA_CMD - Data Buffer and Command Register      22.2.3
 *
 *      RESTART         - RW This bit controls whether a forced RESTART is
 *                        issued before the byte is sent or received.
 *
 *              0         If not set a RESTART is only issued if the transfer
 *                        direction is changing from the previous command.
 *
 *              1         A RESTART is issued before the byte is sent or
 *                        received, regardless of whether or not the transfer
 *                        direction is changing from the previous command.
 *
 *      STOP            - RW This bit controls whether a STOP is issued after
 *                        the byte is sent or received.
 *
 *              0         STOP is not issued after this byte, regardless
 *                        of whether or not the Tx FIFO is empty.
 *
 *              1         STOP is issued after this byte, regardless of
 *                        whether or not the Tx FIFO is empty.  If the
 *                        Tx FIFO is not empty the master immediately tries
 *                        to start a new transfer by issuing a START and
 *                        arbitrating for the bus.
 *
 *                        i.e. the STOP is issued along with this byte,
 *                        within the write stream.
 *
 *      COMMAND         - RW Control whether a read or write is performed.
 *
 *              0         WRITE
 *
 *              1         READ
 *
 *      DATA (7:0)      - RW Contains the data to be transmitted or received
 *                        on the I2C bus.
 *
 *      NOTE: Writing to this register causes a START + slave + RW to be
 *            issued if the direction has changed or the last data byte was
 *            sent with a STOP.
 *
 *      NOTE: We control termination?  so this register must be written
 *            for each byte we wish to receive.  We can then drain the
 *            receive FIFO.
 */

#define IG4_DATA_RESTART        0x0400  /* Force RESTART */
#define IG4_DATA_STOP           0x0200  /* Force STOP[+START] */
#define IG4_DATA_COMMAND_RD     0x0100  /* bus direction 0=write 1=read */
#define IG4_DATA_MASK           0x00FF

/*
 * SS_SCL_HCNT - Standard Speed Clock High Count Register       22.2.4
 * SS_SCL_LCNT - Standard Speed Clock Low Count Register        22.2.5
 * FS_SCL_HCNT - Fast Speed Clock High Count Register           22.2.6
 * FS_SCL_LCNT - Fast Speed Clock Low Count Register            22.2.7
 *
 *      COUNT (15:0)    - Set the period count to a value between 6 and
 *                        65525.
 */
#define IG4_SCL_CLOCK_MASK      0xFFFFU /* count bits in register */

/*
 * INTR_STAT    - (RO) Interrupt Status Register                22.2.8
 * INTR_MASK    - (RW) Interrupt Mask Register                  22.2.9
 * RAW_INTR_STAT- (RO) Raw Interrupt Status Register            22.2.10
 *
 *      GEN_CALL        Set only when a general call (broadcast) address
 *                      is received and acknowleged, stays set until
 *                      cleared by reading CLR_GEN_CALL.
 *
 *      START_DET       Set when a START or RESTART condition has occurred
 *                      on the interface.
 *
 *      STOP_DET        Set when a STOP condition has occurred on the
 *                      interface.
 *
 *      ACTIVITY        Set by any activity on the interface.  Cleared
 *                      by reading CLR_ACTIVITY or CLR_INTR.
 *
 *      TX_ABRT         Indicates the controller as a transmitter is
 *                      unable to complete the intended action.  When set,
 *                      the controller will hold the TX FIFO in a reset
 *                      state (flushed) until CLR_TX_ABORT is read to
 *                      clear the condition.  Once cleared, the TX FIFO
 *                      will be available again.
 *
 *      TX_EMPTY        Indicates that the transmitter is at or below
 *                      the specified TX_TL threshold.  Automatically
 *                      cleared by HW when the buffer level goes above
 *                      the threshold.
 *
 *      TX_OVER         Indicates that the processor attempted to write
 *                      to the TX FIFO while the TX FIFO was full.  Cleared
 *                      by reading CLR_TX_OVER.
 *
 *      RX_FULL         Indicates that the receive FIFO has reached or
 *                      exceeded the specified RX_TL threshold.  Cleared
 *                      by HW when the cpu drains the FIFO to below the
 *                      threshold.
 *
 *      RX_OVER         Indicates that the receive FIFO was unable to
 *                      accept new data and data was lost.  Cleared by
 *                      reading CLR_RX_OVER.
 *
 *      RX_UNDER        Indicates that the cpu attempted to read data
 *                      from the receive buffer while the RX FIFO was
 *                      empty.  Cleared by reading CLR_RX_UNDER.
 *
 * NOTES ON RAW_INTR_STAT:
 *
 *      This register can be used to monitor the GEN_CALL, START_DET,
 *      STOP_DET, ACTIVITY, TX_ABRT, TX_EMPTY, TX_OVER, RX_FULL, RX_OVER,
 *      and RX_UNDER bits.  The documentation is a bit unclear but presumably
 *      this is the unlatched version.
 *
 *      Code should test FIFO conditions using the I2C_STA (status) register,
 *      not the interrupt status registers.
 */

#define IG4_INTR_GEN_CALL       0x0800
#define IG4_INTR_START_DET      0x0400
#define IG4_INTR_STOP_DET       0x0200
#define IG4_INTR_ACTIVITY       0x0100
#define IG4_INTR_TX_ABRT        0x0040
#define IG4_INTR_TX_EMPTY       0x0010
#define IG4_INTR_TX_OVER        0x0008
#define IG4_INTR_RX_FULL        0x0004
#define IG4_INTR_RX_OVER        0x0002
#define IG4_INTR_RX_UNDER       0x0001

/*
 * RX_TL        - (RW) Receive FIFO Threshold Register          22.2.11
 * TX_TL        - (RW) Transmit FIFO Threshold Register         22.2.12
 *
 *      Specify the receive and transmit FIFO threshold register.  The
 *      FIFOs have 16 elements.  The valid range is 0-15.  Setting a
 *      value greater than 15 causes the actual value to be the maximum
 *      depth of the FIFO.
 *
 *      Generally speaking since everything is messaged, we can use a
 *      mid-level setting for both parameters and (e.g.) fully drain the
 *      receive FIFO on the STOP_DET condition to handle loose ends.
 */
#define IG4_FIFO_MASK           0x00FF
#define IG4_FIFO_LIMIT          16

/*
 * CLR_INTR     - (RO) Clear Interrupt Register                 22.2.13
 * CLR_RX_UNDER - (RO) Clear Interrupt Register (specific)      22.2.14
 * CLR_RX_OVER  - (RO) Clear Interrupt Register (specific)      22.2.15
 * CLR_TX_OVER  - (RO) Clear Interrupt Register (specific)      22.2.16
 * CLR_TX_ABORT - (RO) Clear Interrupt Register (specific)      22.2.17
 * CLR_ACTIVITY - (RO) Clear Interrupt Register (specific)      22.2.18
 * CLR_STOP_DET - (RO) Clear Interrupt Register (specific)      22.2.19
 * CLR_START_DET- (RO) Clear Interrupt Register (specific)      22.2.20
 * CLR_GEN_CALL - (RO) Clear Interrupt Register (specific)      22.2.21
 *
 *      CLR_* specific operations clear the appropriate bit in the
 *      RAW_INTR_STAT register.  Intel does not really document whether
 *      these operations clear the normal interrupt status register.
 *
 *      CLR_INTR clears bits in the normal interrupt status register and
 *      presumably also the raw(?) register?  Intel is again unclear.
 *
 * NOTE: CLR_INTR only clears software-clearable interrupts.  Hardware
 *       clearable interrupts are controlled entirely by the hardware.
 *       CLR_INTR also clears the TX_ABRT_SOURCE register.
 *
 * NOTE: CLR_TX_ABORT also clears the TX_ABRT_SOURCE register and releases
 *       the TX FIFO from its flushed/reset state, allowing more writes
 *       to the TX FIFO.
 *
 * NOTE: CLR_ACTIVITY has no effect if the I2C bus is still active.
 *       Intel documents that the bit is automatically cleared when
 *       there is no further activity on the bus.
 */
#define IG4_CLR_BIT             0x0001          /* Reflects source */

/*
 * I2C_EN       - (RW) I2C Enable Register                      22.2.22
 *
 *      ABORT           Software can abort an I2C transfer by setting this
 *                      bit.  Hardware will clear the bit once the STOP has
 *                      been detected.  This bit can only be set while the
 *                      I2C interface is enabled.
 *
 *      I2C_ENABLE      Enable the controller, else disable it.
 *                      (Use I2C_ENABLE_STATUS to poll enable status
 *                      & wait for changes)
 */
#define IG4_I2C_ABORT           0x0002
#define IG4_I2C_ENABLE          0x0001

/*
 * I2C_STA      - (RO) I2C Status Register                      22.2.23
 */
#define IG4_STATUS_ACTIVITY     0x0020  /* Controller is active */
#define IG4_STATUS_RX_FULL      0x0010  /* RX FIFO completely full */
#define IG4_STATUS_RX_NOTEMPTY  0x0008  /* RX FIFO not empty */
#define IG4_STATUS_TX_EMPTY     0x0004  /* TX FIFO completely empty */
#define IG4_STATUS_TX_NOTFULL   0x0002  /* TX FIFO not full */
#define IG4_STATUS_I2C_ACTIVE   0x0001  /* I2C bus is active */

/*
 * TXFLR        - (RO) Transmit FIFO Level Register             22.2.24
 * RXFLR        - (RO) Receive FIFO Level Register              22.2.25
 *
 *      Read the number of entries currently in the Transmit or Receive
 *      FIFOs.  Note that for some reason the mask is 9 bits instead of
 *      the 8 bits the fill level controls.
 */
#define IG4_FIFOLVL_MASK        0x001F

/*
 * SDA_HOLD     - (RW) SDA Hold Time Length Register            22.2.26
 *
 *      Set the SDA hold time length register in I2C clocks.
 */
#define IG4_SDA_HOLD_MASK       0x00FF

/*
 * TX_ABRT_SOURCE- (RO) Transmit Abort Source Register          22.2.27
 *
 *      Indicates the cause of a transmit abort.  This can indicate a
 *      software programming error or a device expected address width
 *      mismatch or other issues.  The NORESTART conditions and GENCALL_NOACK
 *      can only occur if a programming error was made in the driver software.
 *
 *      In particular, it should be possible to detect whether any devices
 *      are on the bus by observing the GENCALL_READ status, and it might
 *      be possible to detect ADDR7 vs ADDR10 mismatches.
 */
#define IG4_ABRTSRC_TRANSFER            0x00010000 /* Abort initiated by user */
#define IG4_ABRTSRC_ARBLOST             0x00001000 /* Arbitration lost */
#define IG4_ABRTSRC_NORESTART_10        0x00000400 /* RESTART disabled */
#define IG4_ABRTSRC_NORESTART_START     0x00000200 /* RESTART disabled */
#define IG4_ABRTSRC_ACKED_START         0x00000080 /* Improper acked START */
#define IG4_ABRTSRC_GENCALL_NOACK       0x00000020 /* Improper GENCALL */
#define IG4_ABRTSRC_GENCALL_READ        0x00000010 /* Nobody acked GENCALL */
#define IG4_ABRTSRC_TXNOACK_DATA        0x00000008 /* data phase no ACK */
#define IG4_ABRTSRC_TXNOACK_ADDR10_2    0x00000004 /* addr10/1 phase no ACK */
#define IG4_ABRTSRC_TXNOACK_ADDR10_1    0x00000002 /* addr10/2 phase no ACK */
#define IG4_ABRTSRC_TXNOACK_ADDR7       0x00000001 /* addr7 phase no ACK */

/*
 * SLV_DATA_NACK - (RW) Generate Slave DATA NACK Register       22.2.28
 *
 *      When the controller is a receiver a NACK can be generated on
 *      receipt of data.
 *
 *      NACK_GENERATE           Set to 0 for normal NACK/ACK generation.
 *                              Set to 1 to generate a NACK after next data
 *                              byte received.
 *
 */
#define IG4_NACK_GENERATE       0x0001

/*
 * DMA_CTRL     - (RW) DMA Control Register                     22.2.29
 *
 *      Enables DMA on the transmit and/or receive DMA channel.
 */
#define IG4_TX_DMA_ENABLE       0x0002
#define IG4_RX_DMA_ENABLE       0x0001

/*
 * DMA_TDLR     - (RW) DMA Transmit Data Level Register         22.2.30
 * DMA_RDLR     - (RW) DMA Receive Data Level Register          22.2.31
 *
 *      Similar to RX_TL and TX_TL but controls when a DMA burst occurs
 *      to empty or fill the FIFOs.  Use the same IG4_FIFO_MASK and
 *      IG4_FIFO_LIMIT defines for RX_RL and TX_TL.
 */
/* empty */

/*
 * SDA_SETUP    - (RW) SDA Setup Time Length Register           22.2.32
 *
 *      Set the SDA setup time length register in I2C clocks.
 *      The register must be programmed with a value >=2.
 *      (Defaults to 0x64).
 */
#define IG4_SDA_SETUP_MASK      0x00FF

/*
 * ACK_GEN_CALL - (RW) ACK General Call Register                22.2.33
 *
 *      Control whether the controller responds with a ACK or NACK when
 *      it receives an I2C General Call address.
 *
 *      If set to 0 a NACK is generated and a General Call interrupt is
 *      NOT generated.  Otherwise an ACK + interrupt is generated.
 */
#define IG4_ACKGC_ACK           0x0001

/*
 * ENABLE_STATUS - (RO) Enable Status Registger                 22.2.34
 *
 *      DATA_LOST       - Indicates that a slave receiver operation has
 *                        been aborted with at least one data byte received
 *                        from a transfer due to the I2C controller being
 *                        disabled (IG4_I2C_ENABLE -> 0)
 *
 *      ENABLED         - Intel documentation is lacking but I assume this
 *                        is a reflection of the IG4_I2C_ENABLE bit in the
 *                        I2C_EN register.
 *
 */
#define IG4_ENASTAT_DATA_LOST   0x0004
#define IG4_ENASTAT_ENABLED     0x0001

/*
 * COMP_PARAM1 - (RO) Component Parameter Register              22.2.35
 *                    Default Value 0x00FFFF6E
 *
 *      VALID           - Intel documentation is unclear but I believe this
 *                        must be read as a 1 to indicate that the rest of
 *                        the bits in the register are valid.
 *
 *      HASDMA          - Indicates that the chip is DMA-capable.  Presumably
 *                        in certain virtualization cases the chip might be
 *                        set to not be DMA-capable.
 *
 *      INTR_IO         - Indicates that all interrupts are combined to
 *                        generate one interrupt.  If not set, interrupts
 *                        are individual (more virtualization stuff?)
 *
 *      HCCNT_RO        - Indicates that the clock timing registers are
 *                        RW.  If not set, the registers are RO.
 *                        (more virtualization stuff).
 *
 *      MAXSPEED        - Indicates the maximum speed supported.
 *
 *      DATAW           - Indicates the internal bus width in bits.
 */
#define IG4_PARAM1_TXFIFO_DEPTH(v)      (((v) >> 16) & 0xFF)
#define IG4_PARAM1_RXFIFO_DEPTH(v)      (((v) >> 8) & 0xFF)
#define IG4_PARAM1_CONFIG_VALID         0x00000080
#define IG4_PARAM1_CONFIG_HASDMA        0x00000040
#define IG4_PARAM1_CONFIG_INTR_IO       0x00000020
#define IG4_PARAM1_CONFIG_HCCNT_RO      0x00000010
#define IG4_PARAM1_CONFIG_MAXSPEED_MASK 0x0000000C
#define IG4_PARAM1_CONFIG_DATAW_MASK    0x00000003

#define IG4_CONFIG_MAXSPEED_RESERVED00  0x00000000
#define IG4_CONFIG_MAXSPEED_STANDARD    0x00000004
#define IG4_CONFIG_MAXSPEED_FAST        0x00000008
#define IG4_CONFIG_MAXSPEED_HIGH        0x0000000C

#define IG4_CONFIG_DATAW_8              0x00000000
#define IG4_CONFIG_DATAW_16             0x00000001
#define IG4_CONFIG_DATAW_32             0x00000002
#define IG4_CONFIG_DATAW_RESERVED11     0x00000003

/*
 * COMP_VER - (RO) Component Version Register                   22.2.36
 *
 *      Contains the chip version number.  All 32 bits.
 */
#define IG4_COMP_MIN_VER                0x3131352A

/*
 * COMP_TYPE - (RO) (linux) Endian and bus width probe
 *
 *      Read32 from this register and test against IG4_COMP_TYPE
 *      to determine the bus width.  e.g. 01404457 = endian-reversed,
 *      and 00000140 or 00004457 means internal 16-bit bus (?).
 *
 *      This register is not in the intel documentation, I pulled it
 *      from the linux driver i2c-designware-core.c.
 */
#define IG4_COMP_TYPE           0x44570140

/*
 * RESETS - (RW) Resets Register                                22.2.37
 *
 *      Used to reset the I2C host controller by SW.  There is no timing
 *      requirement, software can assert and de-assert in back-to-back
 *      transactions.
 *
 *      00      I2C host controller is NOT in reset.
 *      01      (reserved)
 *      10      (reserved)
 *      11      I2C host controller is in reset.
 */
#define IG4_RESETS_ASSERT_HSW   0x0003
#define IG4_RESETS_DEASSERT_HSW 0x0000

/* Skylake-U/Y and Kaby Lake-U/Y have the reset bits inverted */
#define IG4_RESETS_DEASSERT_SKL 0x0003
#define IG4_RESETS_ASSERT_SKL   0x0000

/* Newer versions of the I2C controller allow to check whether
 * the above ASSERT/DEASSERT is necessary by querying the DEVIDLE_CONTROL
 * register.
 * 
 * the RESTORE_REQUIRED bit can be cleared by writing 1
 * the DEVICE_IDLE status can be set to put the controller in an idle state
 *
 */
#define IG4_RESTORE_REQUIRED    0x0008
#define IG4_DEVICE_IDLE         0x0004

/*
 * GENERAL - (RW) General Reigster                              22.2.38
 *
 *      IOVOLT  0=1.8V 1=3.3V
 *
 *      LTR     0=Auto 1=SW
 *
 *          In Auto mode the BIOS will write to the host controller's
 *          AUTO LTR Value register (offset 0x0814) with the active
 *          state LTR value, and will write to the SW LTR Value register
 *          (offset 0x0810) with the idle state LTR value.
 *
 *          In SW mode the SW will write to the host controller SW LTR
 *          value (offset 0x0810).  It is the SW responsibility to update
 *          the LTR with the appropriate value.
 */
#define IG4_GENERAL_IOVOLT3_3   0x0008
#define IG4_GENERAL_SWMODE      0x0004

/*
 * SW_LTR_VALUE - (RW) SW LTR Value Register                    22.2.39
 * AUTO_LTR_VALUE - (RW) SW LTR Value Register                  22.2.40
 *
 *      Default value is 0x00000800 which means the best possible
 *      service/response time.
 *
 *      It isn't quite clear how the snooping works.  There are two scale
 *      bits for both sets but two of the four codes are reserved.  The
 *      *SNOOP_VALUE() is specified as a 10-bit latency value.  If 0, it
 *      indicates that the device cannot tolerate any delay and needs the
 *      best possible service/response time.
 *
 *      I think this is for snooping (testing) the I2C bus.  The lowest
 *      delay (0) probably runs the controller polling at a high, power hungry
 *      rate.  But I dunno.
 */
#define IG4_SWLTR_NSNOOP_REQ            0x80000000      /* (ro) */
#define IG4_SWLTR_NSNOOP_SCALE_MASK     0x1C000000      /* (ro) */
#define IG4_SWLTR_NSNOOP_SCALE_1US      0x08000000      /* (ro) */
#define IG4_SWLTR_NSNOOP_SCALE_32US     0x0C000000      /* (ro) */
#define IG4_SWLTR_NSNOOP_VALUE_DECODE(v) (((v) >> 16) & 0x3F)
#define IG4_SWLTR_NSNOOP_VALUE_ENCODE(v) (((v) & 0x3F) << 16)

#define IG4_SWLTR_SNOOP_REQ             0x00008000      /* (rw) */
#define IG4_SWLTR_SNOOP_SCALE_MASK      0x00001C00      /* (rw) */
#define IG4_SWLTR_SNOOP_SCALE_1US       0x00000800      /* (rw) */
#define IG4_SWLTR_SNOOP_SCALE_32US      0x00000C00      /* (rw) */
#define IG4_SWLTR_SNOOP_VALUE_DECODE(v)  ((v) & 0x3F)
#define IG4_SWLTR_SNOOP_VALUE_ENCODE(v)  ((v) & 0x3F)

#endif /* _ICHIIC_IG4_REG_H_ */