pci/qat/qatreg.h

1.3  andvar /*	$NetBSD: qatreg.h,v 1.3 2022/04/08 10:27:04 andvar Exp $	*/
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * Copyright (c) 2019 Internet Initiative Japan, Inc.
1.1  hikaru  * All rights reserved.
1.1  hikaru  *
1.1  hikaru  * Redistribution and use in source and binary forms, with or without
1.1  hikaru  * modification, are permitted provided that the following conditions
1.1  hikaru  * are met:
1.1  hikaru  * 1. Redistributions of source code must retain the above copyright
1.1  hikaru  *    notice, this list of conditions and the following disclaimer.
1.1  hikaru  * 2. Redistributions in binary form must reproduce the above copyright
1.1  hikaru  *    notice, this list of conditions and the following disclaimer in the
1.1  hikaru  *    documentation and/or other materials provided with the distribution.
1.1  hikaru  *
1.1  hikaru  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  hikaru  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  hikaru  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  hikaru  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  hikaru  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  hikaru  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  hikaru  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  hikaru  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  hikaru  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  hikaru  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  hikaru  * POSSIBILITY OF SUCH DAMAGE.
1.1  hikaru  */
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  *   Copyright(c) 2007-2019 Intel Corporation. All rights reserved.
1.1  hikaru  *
1.1  hikaru  *   Redistribution and use in source and binary forms, with or without
1.1  hikaru  *   modification, are permitted provided that the following conditions
1.1  hikaru  *   are met:
1.1  hikaru  *
1.1  hikaru  *     * Redistributions of source code must retain the above copyright
1.1  hikaru  *       notice, this list of conditions and the following disclaimer.
1.1  hikaru  *     * Redistributions in binary form must reproduce the above copyright
1.1  hikaru  *       notice, this list of conditions and the following disclaimer in
1.1  hikaru  *       the documentation and/or other materials provided with the
1.1  hikaru  *       distribution.
1.1  hikaru  *     * Neither the name of Intel Corporation nor the names of its
1.1  hikaru  *       contributors may be used to endorse or promote products derived
1.1  hikaru  *       from this software without specific prior written permission.
1.1  hikaru  *
1.1  hikaru  *   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
1.1  hikaru  *   "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
1.1  hikaru  *   LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
1.1  hikaru  *   A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
1.1  hikaru  *   OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
1.1  hikaru  *   SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
1.1  hikaru  *   LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1  hikaru  *   DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1  hikaru  *   THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1  hikaru  *   (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
1.1  hikaru  *   OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  hikaru  */
1.1  hikaru
1.1  hikaru #ifndef _DEV_PCI_QATREG_H_
1.1  hikaru #define _DEV_PCI_QATREG_H_
1.1  hikaru
1.1  hikaru /* Limits */
1.1  hikaru #define MAX_NUM_AE		0x10
1.1  hikaru #define MAX_NUM_ACCEL		6	/* XXX DH89XXCL? */
1.1  hikaru #define MAX_AE			0x18
1.1  hikaru #define MAX_AE_CTX		8
1.1  hikaru #define MAX_ARB			4
1.1  hikaru
1.1  hikaru #define MAX_USTORE_PER_SEG	0x8000	/* 16k * 2 */
1.1  hikaru #define MAX_USTORE		MAX_USTORE_PER_SEG
1.1  hikaru
1.1  hikaru #define MAX_AE_PER_ACCEL	4	/* XXX */
1.1  hikaru #define MAX_BANK_PER_ACCEL	16	/* XXX */
1.1  hikaru #define MAX_RING_PER_BANK	16
1.1  hikaru
1.1  hikaru #define MAX_XFER_REG		128
1.1  hikaru #define MAX_GPR_REG		128
1.1  hikaru #define MAX_NN_REG		128
1.1  hikaru #define MAX_LMEM_REG		1024
1.1  hikaru #define MAX_INP_STATE		16
1.1  hikaru #define MAX_CAM_REG		16
1.1  hikaru #define MAX_FIFO_QWADDR		160
1.1  hikaru
1.1  hikaru #define MAX_EXEC_INST		100
1.1  hikaru #define UWORD_CPYBUF_SIZE	1024	/* micro-store copy buffer (bytes) */
1.1  hikaru #define INVLD_UWORD		0xffffffffffull	/* invalid micro-instruction */
1.1  hikaru #define AEV2_PACKED_UWORD_BYTES	6	/* version 2 packed uword size */
1.1  hikaru #define UWORD_MASK		0xbffffffffffull  /* micro-word mask without parity */
1.1  hikaru
1.1  hikaru #define AE_ALL_CTX		0xff
1.1  hikaru
1.2  andvar /* PCIe configuration space parameter */
1.1  hikaru #define NO_PCI_REG			(-1)
1.1  hikaru #define NO_REG_OFFSET			0
1.1  hikaru
1.1  hikaru #define MAX_BARS			3
1.1  hikaru
1.1  hikaru /* Fuse Control */
1.1  hikaru #define FUSECTL_REG			0x40
1.1  hikaru #define FUSECTL_MASK			__BIT(31)
1.1  hikaru
1.1  hikaru #define LEGFUSE_REG			0x4c
1.1  hikaru #define LEGFUSE_ACCEL_MASK_CIPHER_SLICE		__BIT(0)
1.1  hikaru #define LEGFUSE_ACCEL_MASK_AUTH_SLICE		__BIT(1)
1.1  hikaru #define LEGFUSE_ACCEL_MASK_PKE_SLICE		__BIT(2)
1.1  hikaru #define LEGFUSE_ACCEL_MASK_COMPRESS_SLICE	__BIT(3)
1.1  hikaru #define LEGFUSE_ACCEL_MASK_LZS_SLICE		__BIT(4)
1.1  hikaru #define LEGFUSE_ACCEL_MASK_EIA3_SLICE		__BIT(5)
1.1  hikaru #define LEGFUSE_ACCEL_MASK_SHA3_SLICE		__BIT(6)
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru /* PETRINGCSR region */
1.1  hikaru
1.1  hikaru /* ETR parameters */
1.1  hikaru #define ETR_MAX_RINGS_PER_BANK	16
1.1  hikaru
1.1  hikaru /* ETR registers */
1.1  hikaru #define ETR_RING_CONFIG		0x0000
1.1  hikaru #define ETR_RING_LBASE		0x0040
1.1  hikaru #define ETR_RING_UBASE		0x0080
1.1  hikaru #define ETR_RING_HEAD_OFFSET	0x00C0
1.1  hikaru #define ETR_RING_TAIL_OFFSET	0x0100
1.1  hikaru #define ETR_RING_STAT		0x0140
1.1  hikaru #define ETR_UO_STAT		0x0148
1.1  hikaru #define ETR_E_STAT		0x014C
1.1  hikaru #define ETR_NE_STAT		0x0150
1.1  hikaru #define ETR_NF_STAT		0x0154
1.1  hikaru #define ETR_F_STAT		0x0158
1.1  hikaru #define ETR_C_STAT		0x015C
1.1  hikaru #define ETR_INT_EN		0x016C
1.1  hikaru #define ETR_INT_REG		0x0170
1.1  hikaru #define ETR_INT_SRCSEL		0x0174
1.1  hikaru #define ETR_INT_SRCSEL_2	0x0178
1.1  hikaru #define ETR_INT_COL_EN		0x017C
1.1  hikaru #define ETR_INT_COL_CTL		0x0180
1.1  hikaru #define ETR_AP_NF_MASK		0x2000
1.1  hikaru #define ETR_AP_NF_DEST		0x2020
1.1  hikaru #define ETR_AP_NE_MASK		0x2040
1.1  hikaru #define ETR_AP_NE_DEST		0x2060
1.1  hikaru #define ETR_AP_DELAY		0x2080
1.1  hikaru
1.1  hikaru /* ARB registers */
1.1  hikaru #define ARB_OFFSET			0x30000
1.1  hikaru #define ARB_REG_SIZE			0x4
1.1  hikaru #define ARB_WTR_SIZE			0x20
1.1  hikaru #define ARB_REG_SLOT			0x1000
1.1  hikaru #define ARB_WTR_OFFSET			0x010
1.1  hikaru #define ARB_RO_EN_OFFSET		0x090
1.1  hikaru #define ARB_WRK_2_SER_MAP_OFFSET	0x180
1.1  hikaru #define ARB_RINGSRVARBEN_OFFSET		0x19c
1.1  hikaru
1.1  hikaru /* Ring Config */
1.1  hikaru #define ETR_RING_CONFIG_LATE_HEAD_POINTER_MODE		__BIT(31)
1.1  hikaru #define ETR_RING_CONFIG_NEAR_FULL_WM			__BITS(14, 10)
1.1  hikaru #define ETR_RING_CONFIG_NEAR_EMPTY_WM			__BITS(9, 5)
1.1  hikaru #define ETR_RING_CONFIG_RING_SIZE			__BITS(4, 0)
1.1  hikaru
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_0		0x00
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_4		0x01
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_8		0x02
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_16		0x03
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_32		0x04
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_64		0x05
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_128		0x06
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_256		0x07
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_512		0x08
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_1K		0x09
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_2K		0x0A
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_4K		0x0B
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_8K		0x0C
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_16K		0x0D
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_32K		0x0E
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_64K		0x0F
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_128K		0x10
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_256K		0x11
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_512K		0x12
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_1M		0x13
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_2M		0x14
1.1  hikaru #define ETR_RING_CONFIG_NEAR_WM_4M		0x15
1.1  hikaru
1.1  hikaru #define ETR_RING_CONFIG_SIZE_64			0x00
1.1  hikaru #define ETR_RING_CONFIG_SIZE_128		0x01
1.1  hikaru #define ETR_RING_CONFIG_SIZE_256		0x02
1.1  hikaru #define ETR_RING_CONFIG_SIZE_512		0x03
1.1  hikaru #define ETR_RING_CONFIG_SIZE_1K			0x04
1.1  hikaru #define ETR_RING_CONFIG_SIZE_2K			0x05
1.1  hikaru #define ETR_RING_CONFIG_SIZE_4K			0x06
1.1  hikaru #define ETR_RING_CONFIG_SIZE_8K			0x07
1.1  hikaru #define ETR_RING_CONFIG_SIZE_16K		0x08
1.1  hikaru #define ETR_RING_CONFIG_SIZE_32K		0x09
1.1  hikaru #define ETR_RING_CONFIG_SIZE_64K		0x0A
1.1  hikaru #define ETR_RING_CONFIG_SIZE_128K		0x0B
1.1  hikaru #define ETR_RING_CONFIG_SIZE_256K		0x0C
1.1  hikaru #define ETR_RING_CONFIG_SIZE_512K		0x0D
1.1  hikaru #define ETR_RING_CONFIG_SIZE_1M			0x0E
1.1  hikaru #define ETR_RING_CONFIG_SIZE_2M			0x0F
1.1  hikaru #define ETR_RING_CONFIG_SIZE_4M			0x10
1.1  hikaru
1.1  hikaru /* Default Ring Config is Nearly Full = Full and Nearly Empty = Empty */
1.1  hikaru #define ETR_RING_CONFIG_BUILD(size)					\
1.1  hikaru 		(__SHIFTIN(ETR_RING_CONFIG_NEAR_WM_0,			\
1.1  hikaru 		    ETR_RING_CONFIG_NEAR_FULL_WM) |			\
1.1  hikaru 		__SHIFTIN(ETR_RING_CONFIG_NEAR_WM_0,			\
1.1  hikaru 		    ETR_RING_CONFIG_NEAR_EMPTY_WM) |			\
1.1  hikaru 		__SHIFTIN((size), ETR_RING_CONFIG_RING_SIZE))
1.1  hikaru
1.1  hikaru /* Response Ring Configuration */
1.1  hikaru #define ETR_RING_CONFIG_BUILD_RESP(size, wm_nf, wm_ne)			\
1.1  hikaru 		(__SHIFTIN((wm_nf), ETR_RING_CONFIG_NEAR_FULL_WM) |	\
1.1  hikaru 		__SHIFTIN((wm_ne), ETR_RING_CONFIG_NEAR_EMPTY_WM) |	\
1.1  hikaru 		__SHIFTIN((size), ETR_RING_CONFIG_RING_SIZE))
1.1  hikaru
1.1  hikaru /* Ring Base */
1.1  hikaru #define ETR_RING_BASE_BUILD(addr, size)					\
1.1  hikaru 		(((addr) >> 6) & (0xFFFFFFFFFFFFFFFFULL << (size)))
1.1  hikaru
1.1  hikaru #define ETR_INT_REG_CLEAR_MASK	0xffff
1.1  hikaru
1.1  hikaru /* Initial bank Interrupt Source mask */
1.1  hikaru #define ETR_INT_SRCSEL_MASK	0x44444444UL
1.1  hikaru
1.1  hikaru #define ETR_INT_SRCSEL_NEXT_OFFSET	4
1.1  hikaru
1.1  hikaru #define ETR_RINGS_PER_INT_SRCSEL	8
1.1  hikaru
1.1  hikaru #define ETR_INT_COL_CTL_ENABLE	__BIT(31)
1.1  hikaru
1.1  hikaru #define ETR_AP_NF_MASK_INIT	0xAAAAAAAA
1.1  hikaru #define ETR_AP_NE_MASK_INIT	0x55555555
1.1  hikaru
1.1  hikaru /* Autopush destination AE bit */
1.1  hikaru #define ETR_AP_DEST_ENABLE	__BIT(7)
1.1  hikaru #define ETR_AP_DEST_AE		__BITS(6, 2)
1.1  hikaru #define ETR_AP_DEST_MAILBOX	__BITS(1, 0)
1.1  hikaru
1.1  hikaru /* Autopush destination enable bit */
1.1  hikaru
1.1  hikaru /* Autopush CSR Offset */
1.1  hikaru #define ETR_AP_BANK_OFFSET		4
1.1  hikaru
1.1  hikaru /* Autopush maximum rings per bank */
1.1  hikaru #define ETR_MAX_RINGS_PER_AP_BANK		32
1.1  hikaru
1.1  hikaru /* Maximum mailbox per acclerator */
1.1  hikaru #define ETR_MAX_MAILBOX_PER_ACCELERATOR		4
1.1  hikaru
1.1  hikaru /* Maximum AEs per mailbox */
1.1  hikaru #define ETR_MAX_AE_PER_MAILBOX			4
1.1  hikaru
1.1  hikaru /* Macro to get the ring's autopush bank number */
1.1  hikaru #define ETR_RING_AP_BANK_NUMBER(ring)	((ring) >> 5)
1.1  hikaru
1.1  hikaru /* Macro to get the ring's autopush mailbox number */
1.1  hikaru #define ETR_RING_AP_MAILBOX_NUMBER(ring)		\
1.1  hikaru     (ETR_RING_AP_BANK_NUMBER(ring) % ETR_MAX_MAILBOX_PER_ACCELERATOR)
1.1  hikaru
1.1  hikaru /* Macro to get the ring number in the autopush bank */
1.1  hikaru #define ETR_RING_NUMBER_IN_AP_BANK(ring)	\
1.1  hikaru 	((ring) % ETR_MAX_RINGS_PER_AP_BANK)
1.1  hikaru
1.1  hikaru #define ETR_RING_EMPTY_ENTRY_SIG	(0x7F7F7F7F)
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru /* CAP_GLOBAL_CTL region */
1.1  hikaru
1.1  hikaru #define FCU_CTRL			0x8c0
1.1  hikaru #define FCU_CTRL_CMD_NOOP		0
1.1  hikaru #define FCU_CTRL_CMD_AUTH		1
1.1  hikaru #define FCU_CTRL_CMD_LOAD		2
1.1  hikaru #define FCU_CTRL_CMD_START		3
1.1  hikaru #define FCU_CTRL_AE			__BITS(8, 31)
1.1  hikaru
1.1  hikaru #define FCU_STATUS			0x8c4
1.1  hikaru #define FCU_STATUS_STS			__BITS(0, 2)
1.1  hikaru #define FCU_STATUS_STS_NO		0
1.1  hikaru #define FCU_STATUS_STS_VERI_DONE	1
1.1  hikaru #define FCU_STATUS_STS_LOAD_DONE	2
1.1  hikaru #define FCU_STATUS_STS_VERI_FAIL	3
1.1  hikaru #define FCU_STATUS_STS_LOAD_FAIL	4
1.1  hikaru #define FCU_STATUS_STS_BUSY		5
1.1  hikaru #define FCU_STATUS_AUTHFWLD		__BIT(8)
1.1  hikaru #define FCU_STATUS_DONE			__BIT(9)
1.1  hikaru #define FCU_STATUS_LOADED_AE		__BITS(22, 31)
1.1  hikaru
1.1  hikaru #define FCU_STATUS1			0x8c8
1.1  hikaru
1.1  hikaru #define FCU_DRAM_ADDR_LO	0x8cc
1.1  hikaru #define FCU_DRAM_ADDR_HI	0x8d0
1.1  hikaru #define FCU_RAMBASE_ADDR_HI	0x8d4
1.1  hikaru #define FCU_RAMBASE_ADDR_LO	0x8d8
1.1  hikaru
1.1  hikaru #define FW_AUTH_WAIT_PERIOD 10
1.1  hikaru #define FW_AUTH_MAX_RETRY   300
1.1  hikaru
1.1  hikaru #define CAP_GLOBAL_CTL_BASE			0xa00
1.1  hikaru #define CAP_GLOBAL_CTL_MISC			CAP_GLOBAL_CTL_BASE + 0x04
1.1  hikaru #define CAP_GLOBAL_CTL_MISC_TIMESTAMP_EN	__BIT(7)
1.1  hikaru #define CAP_GLOBAL_CTL_RESET			CAP_GLOBAL_CTL_BASE + 0x0c
1.1  hikaru #define CAP_GLOBAL_CTL_RESET_MASK		__BITS(31, 26)
1.1  hikaru #define CAP_GLOBAL_CTL_RESET_ACCEL_MASK		__BITS(25, 20)
1.1  hikaru #define CAP_GLOBAL_CTL_RESET_AE_MASK		__BITS(19, 0)
1.1  hikaru #define CAP_GLOBAL_CTL_CLK_EN			CAP_GLOBAL_CTL_BASE + 0x50
1.1  hikaru #define CAP_GLOBAL_CTL_CLK_EN_ACCEL_MASK	__BITS(25, 20)
1.1  hikaru #define CAP_GLOBAL_CTL_CLK_EN_AE_MASK		__BITS(19, 0)
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru /* AE region */
1.1  hikaru #define UPC_MASK		0x1ffff
1.1  hikaru #define USTORE_SIZE		QAT_16K
1.1  hikaru
1.1  hikaru #define AE_LOCAL_AE_MASK			__BITS(31, 12)
1.1  hikaru #define AE_LOCAL_CSR_MASK			__BITS(9, 0)
1.1  hikaru
1.1  hikaru /* AE_LOCAL registers */
1.1  hikaru /* Control Store Address Register */
1.1  hikaru #define USTORE_ADDRESS				0x000
1.1  hikaru #define USTORE_ADDRESS_ECS			__BIT(31)
1.1  hikaru
1.1  hikaru #define USTORE_ECC_BIT_0	44
1.1  hikaru #define USTORE_ECC_BIT_1	45
1.1  hikaru #define USTORE_ECC_BIT_2	46
1.1  hikaru #define USTORE_ECC_BIT_3	47
1.1  hikaru #define USTORE_ECC_BIT_4	48
1.1  hikaru #define USTORE_ECC_BIT_5	49
1.1  hikaru #define USTORE_ECC_BIT_6	50
1.1  hikaru
1.1  hikaru /* Control Store Data Lower Register */
1.1  hikaru #define USTORE_DATA_LOWER			0x004
1.1  hikaru /* Control Store Data Upper Register */
1.1  hikaru #define USTORE_DATA_UPPER			0x008
1.1  hikaru /* Control Store Error Status Register */
1.1  hikaru #define USTORE_ERROR_STATUS			0x00c
1.1  hikaru /* Arithmetic Logic Unit Output Register */
1.1  hikaru #define ALU_OUT					0x010
1.1  hikaru /* Context Arbiter Control Register */
1.1  hikaru #define CTX_ARB_CNTL				0x014
1.1  hikaru #define CTX_ARB_CNTL_INIT			0x00000000
1.1  hikaru /* Context Enables Register */
1.1  hikaru #define CTX_ENABLES				0x018
1.1  hikaru #define CTX_ENABLES_INIT			0
1.1  hikaru #define CTX_ENABLES_INUSE_CONTEXTS		__BIT(31)
1.1  hikaru #define CTX_ENABLES_CNTL_STORE_PARITY_ERROR	__BIT(29)
1.1  hikaru #define CTX_ENABLES_CNTL_STORE_PARITY_ENABLE	__BIT(28)
1.1  hikaru #define CTX_ENABLES_BREAKPOINT			__BIT(27)
1.1  hikaru #define CTX_ENABLES_PAR_ERR			__BIT(25)
1.1  hikaru #define CTX_ENABLES_NN_MODE			__BIT(20)
1.1  hikaru #define CTX_ENABLES_NN_RING_EMPTY		__BIT(18)
1.1  hikaru #define CTX_ENABLES_LMADDR_1_GLOBAL		__BIT(17)
1.1  hikaru #define CTX_ENABLES_LMADDR_0_GLOBAL		__BIT(16)
1.1  hikaru #define CTX_ENABLES_ENABLE			__BITS(15,8)
1.1  hikaru
1.1  hikaru #define CTX_ENABLES_IGNORE_W1C_MASK		\
1.1  hikaru 		(~(CTX_ENABLES_PAR_ERR |	\
1.1  hikaru 		CTX_ENABLES_BREAKPOINT |	\
1.1  hikaru 		CTX_ENABLES_CNTL_STORE_PARITY_ERROR))
1.1  hikaru
1.1  hikaru /* cycles from CTX_ENABLE high to CTX entering executing state */
1.1  hikaru #define CYCLES_FROM_READY2EXE	8
1.1  hikaru
1.1  hikaru /* Condition Code Enable Register */
1.1  hikaru #define CC_ENABLE				0x01c
1.1  hikaru #define CC_ENABLE_INIT				0x2000
1.1  hikaru
1.1  hikaru /* CSR Context Pointer Register */
1.1  hikaru #define CSR_CTX_POINTER				0x020
1.1  hikaru #define CSR_CTX_POINTER_CONTEXT			__BITS(2,0)
1.1  hikaru /* Register Error Status Register */
1.1  hikaru #define REG_ERROR_STATUS			0x030
1.1  hikaru /* Indirect Context Status Register */
1.1  hikaru #define CTX_STS_INDIRECT			0x040
1.1  hikaru #define CTX_STS_INDIRECT_UPC_INIT		0x00000000
1.1  hikaru
1.1  hikaru /* Active Context Status Register */
1.1  hikaru #define ACTIVE_CTX_STATUS			0x044
1.1  hikaru #define ACTIVE_CTX_STATUS_ABO			__BIT(31)
1.1  hikaru #define ACTIVE_CTX_STATUS_ACNO			__BITS(0, 2)
1.1  hikaru /* Indirect Context Signal Events Register */
1.1  hikaru #define CTX_SIG_EVENTS_INDIRECT			0x048
1.1  hikaru #define CTX_SIG_EVENTS_INDIRECT_INIT		0x00000001
1.1  hikaru /* Active Context Signal Events Register */
1.1  hikaru #define CTX_SIG_EVENTS_ACTIVE			0x04c
1.1  hikaru /* Indirect Context Wakeup Events Register */
1.1  hikaru #define CTX_WAKEUP_EVENTS_INDIRECT		0x050
1.1  hikaru #define CTX_WAKEUP_EVENTS_INDIRECT_VOLUNTARY	0x00000001
1.1  hikaru #define CTX_WAKEUP_EVENTS_INDIRECT_SLEEP	0x00010000
1.1  hikaru
1.1  hikaru #define CTX_WAKEUP_EVENTS_INDIRECT_INIT		0x00000001
1.1  hikaru
1.1  hikaru /* Active Context Wakeup Events Register */
1.1  hikaru #define CTX_WAKEUP_EVENTS_ACTIVE		0x054
1.1  hikaru /* Indirect Context Future Count Register */
1.1  hikaru #define CTX_FUTURE_COUNT_INDIRECT		0x058
1.1  hikaru /* Active Context Future Count Register */
1.1  hikaru #define CTX_FUTURE_COUNT_ACTIVE		0x05c
1.1  hikaru /* Indirect Local Memory Address 0 Register */
1.1  hikaru #define LM_ADDR_0_INDIRECT			0x060
1.1  hikaru /* Active Local Memory Address 0 Register */
1.1  hikaru #define LM_ADDR_0_ACTIVE			0x064
1.1  hikaru /* Indirect Local Memory Address 1 Register */
1.1  hikaru #define LM_ADDR_1_INDIRECT			0x068
1.1  hikaru /* Active Local Memory Address 1 Register */
1.1  hikaru #define LM_ADDR_1_ACTIVE			0x06c
1.1  hikaru /* Byte Index Register */
1.1  hikaru #define BYTE_INDEX				0x070
1.1  hikaru /* Indirect Local Memory Address 0 Byte Index Register */
1.1  hikaru #define INDIRECT_LM_ADDR_0_BYTE_INDEX		0x0e0
1.1  hikaru /* Active Local Memory Address 0 Byte Index Register */
1.1  hikaru #define ACTIVE_LM_ADDR_0_BYTE_INDEX		0x0e4
1.1  hikaru /* Indirect Local Memory Address 1 Byte Index Register */
1.1  hikaru #define INDIRECT_LM_ADDR_1_BYTE_INDEX		0x0e8
1.1  hikaru /* Active Local Memory Address 1 Byte Index Register */
1.1  hikaru #define ACTIVE_LM_ADDR_1_BYTE_INDEX		0x0ec
1.1  hikaru /* Transfer Index Concatenated with Byte Index Register */
1.1  hikaru #define T_INDEX_BYTE_INDEX			0x0f4
1.1  hikaru /* Transfer Index Register */
1.1  hikaru #define T_INDEX				0x074
1.1  hikaru /* Indirect Future Count Signal Signal Register */
1.1  hikaru #define FUTURE_COUNT_SIGNAL_INDIRECT		0x078
1.1  hikaru /* Active Context Future Count Register */
1.1  hikaru #define FUTURE_COUNT_SIGNAL_ACTIVE		0x07c
1.1  hikaru /* Next Neighbor Put Register */
1.1  hikaru #define NN_PUT					0x080
1.1  hikaru /* Next Neighbor Get Register */
1.1  hikaru #define NN_GET					0x084
1.1  hikaru /* Timestamp Low Register */
1.1  hikaru #define TIMESTAMP_LOW				0x0c0
1.1  hikaru /* Timestamp High Register */
1.1  hikaru #define TIMESTAMP_HIGH				0x0c4
1.1  hikaru /* Next Neighbor Signal Register */
1.1  hikaru #define NEXT_NEIGHBOR_SIGNAL			0x100
1.1  hikaru /* Previous Neighbor Signal Register */
1.1  hikaru #define PREV_NEIGHBOR_SIGNAL			0x104
1.1  hikaru /* Same AccelEngine Signal Register */
1.1  hikaru #define SAME_AE_SIGNAL				0x108
1.1  hikaru /* Cyclic Redundancy Check Remainder Register */
1.1  hikaru #define CRC_REMAINDER				0x140
1.1  hikaru /* Profile Count Register */
1.1  hikaru #define PROFILE_COUNT				0x144
1.1  hikaru /* Pseudorandom Number Register */
1.1  hikaru #define PSEUDO_RANDOM_NUMBER			0x148
1.1  hikaru /* Signature Enable Register */
1.1  hikaru #define SIGNATURE_ENABLE			0x150
1.1  hikaru /* Miscellaneous Control Register */
1.1  hikaru #define AE_MISC_CONTROL			0x160
1.1  hikaru #define AE_MISC_CONTROL_PARITY_ENABLE		__BIT(24)
1.1  hikaru #define AE_MISC_CONTROL_FORCE_BAD_PARITY	__BIT(23)
1.1  hikaru #define AE_MISC_CONTROL_ONE_CTX_RELOAD		__BIT(22)
1.1  hikaru #define AE_MISC_CONTROL_CS_RELOAD		__BITS(21, 20)
1.1  hikaru #define AE_MISC_CONTROL_SHARE_CS		__BIT(2)
1.1  hikaru /* Control Store Address 1 Register */
1.1  hikaru #define USTORE_ADDRESS1			0x158
1.1  hikaru /* Local CSR Status Register */
1.1  hikaru #define LOCAL_CSR_STATUS					0x180
1.1  hikaru #define LOCAL_CSR_STATUS_STATUS				0x1
1.1  hikaru /* NULL Register */
1.1  hikaru #define NULL_CSR				0x3fc
1.1  hikaru
1.1  hikaru /* AE_XFER macros */
1.1  hikaru #define AE_XFER_AE_MASK					__BITS(31, 12)
1.1  hikaru #define AE_XFER_CSR_MASK				__BITS(9, 2)
1.1  hikaru
1.1  hikaru #define AEREG_BAD_REGADDR	0xffff		/* bad register address */
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru
1.1  hikaru #define SSMWDT(i)				((i) * 0x4000 + 0x54)
1.1  hikaru #define SSMWDTPKE(i)				((i) * 0x4000 + 0x58)
1.1  hikaru #define INTSTATSSM(i)				((i) * 0x4000 + 0x04)
1.1  hikaru #define INTSTATSSM_SHANGERR			__BIT(13)
1.1  hikaru #define PPERR(i)				((i) * 0x4000 + 0x08)
1.1  hikaru #define PPERRID(i)				((i) * 0x4000 + 0x0C)
1.1  hikaru #define CERRSSMSH(i)				((i) * 0x4000 + 0x10)
1.1  hikaru #define UERRSSMSH(i)				((i) * 0x4000 + 0x18)
1.1  hikaru #define UERRSSMSHAD(i)				((i) * 0x4000 + 0x1C)
1.1  hikaru #define SLICEHANGSTATUS(i)			((i) * 0x4000 + 0x4C)
1.1  hikaru #define SLICE_HANG_AUTH0_MASK			__BIT(0)
1.1  hikaru #define SLICE_HANG_AUTH1_MASK			__BIT(1)
1.1  hikaru #define SLICE_HANG_CPHR0_MASK			__BIT(4)
1.1  hikaru #define SLICE_HANG_CPHR1_MASK			__BIT(5)
1.1  hikaru #define SLICE_HANG_CMP0_MASK			__BIT(8)
1.1  hikaru #define SLICE_HANG_CMP1_MASK			__BIT(9)
1.1  hikaru #define SLICE_HANG_XLT0_MASK			__BIT(12)
1.1  hikaru #define SLICE_HANG_XLT1_MASK			__BIT(13)
1.1  hikaru #define SLICE_HANG_MMP0_MASK			__BIT(16)
1.1  hikaru #define SLICE_HANG_MMP1_MASK			__BIT(17)
1.1  hikaru #define SLICE_HANG_MMP2_MASK			__BIT(18)
1.1  hikaru #define SLICE_HANG_MMP3_MASK			__BIT(19)
1.1  hikaru #define SLICE_HANG_MMP4_MASK			__BIT(20)
1.1  hikaru
1.1  hikaru #define SHINTMASKSSM(i)				((i) * 0x4000 + 0x1018)
1.1  hikaru #define ENABLE_SLICE_HANG			0x000000
1.1  hikaru #define MAX_MMP (5)
1.1  hikaru #define MMP_BASE(i)				((i) * 0x1000 % 0x3800)
1.1  hikaru #define CERRSSMMMP(i, n)			((i) * 0x4000 + MMP_BASE(n) + 0x380)
1.1  hikaru #define UERRSSMMMP(i, n)			((i) * 0x4000 + MMP_BASE(n) + 0x388)
1.1  hikaru #define UERRSSMMMPAD(i, n)			((i) * 0x4000 + MMP_BASE(n) + 0x38C)
1.1  hikaru
1.1  hikaru #define CPP_CFC_ERR_STATUS			(0x30000 + 0xC04)
1.1  hikaru #define CPP_CFC_ERR_PPID			(0x30000 + 0xC08)
1.1  hikaru
1.1  hikaru #define ERRSOU0					(0x3A000 + 0x00)
1.1  hikaru #define ERRSOU1					(0x3A000 + 0x04)
1.1  hikaru #define ERRSOU2					(0x3A000 + 0x08)
1.1  hikaru #define ERRSOU3					(0x3A000 + 0x0C)
1.1  hikaru #define ERRSOU4					(0x3A000 + 0xD0)
1.1  hikaru #define ERRSOU5					(0x3A000 + 0xD8)
1.1  hikaru #define ERRMSK0					(0x3A000 + 0x10)
1.1  hikaru #define ERRMSK1					(0x3A000 + 0x14)
1.1  hikaru #define ERRMSK2					(0x3A000 + 0x18)
1.1  hikaru #define ERRMSK3					(0x3A000 + 0x1C)
1.1  hikaru #define ERRMSK4					(0x3A000 + 0xD4)
1.1  hikaru #define ERRMSK5					(0x3A000 + 0xDC)
1.1  hikaru #define EMSK3_CPM0_MASK				__BIT(2)
1.1  hikaru #define EMSK3_CPM1_MASK				__BIT(3)
1.1  hikaru #define EMSK5_CPM2_MASK				__BIT(16)
1.1  hikaru #define EMSK5_CPM3_MASK				__BIT(17)
1.1  hikaru #define EMSK5_CPM4_MASK				__BIT(18)
1.1  hikaru #define RICPPINTSTS				(0x3A000 + 0x114)
1.1  hikaru #define RIERRPUSHID				(0x3A000 + 0x118)
1.1  hikaru #define RIERRPULLID				(0x3A000 + 0x11C)
1.1  hikaru
1.1  hikaru #define TICPPINTSTS				(0x3A400 + 0x13C)
1.1  hikaru #define TIERRPUSHID				(0x3A400 + 0x140)
1.1  hikaru #define TIERRPULLID				(0x3A400 + 0x144)
1.1  hikaru #define SECRAMUERR				(0x3AC00 + 0x04)
1.1  hikaru #define SECRAMUERRAD				(0x3AC00 + 0x0C)
1.1  hikaru #define CPPMEMTGTERR				(0x3AC00 + 0x10)
1.1  hikaru #define ERRPPID					(0x3AC00 + 0x14)
1.1  hikaru
1.1  hikaru #define ADMINMSGUR				0x3a574
1.1  hikaru #define ADMINMSGLR				0x3a578
1.1  hikaru #define MAILBOX_BASE				0x20970
1.1  hikaru #define MAILBOX_STRIDE				0x1000
1.1  hikaru #define ADMINMSG_LEN				32
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru static const uint8_t mailbox_const_tab[1024] __aligned(1024) = {
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x11, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x11, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x21, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x03, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x01,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x13, 0x02, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x13, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x13,
1.1  hikaru 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x23, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x33, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x06, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef, 0xfe, 0xdc, 0xba, 0x98, 0x76,
1.1  hikaru 0x54, 0x32, 0x10, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x67, 0x45, 0x23, 0x01, 0xef, 0xcd, 0xab,
1.1  hikaru 0x89, 0x98, 0xba, 0xdc, 0xfe, 0x10, 0x32, 0x54, 0x76, 0xc3, 0xd2, 0xe1, 0xf0,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x11, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x40, 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xc1, 0x05, 0x9e,
1.1  hikaru 0xd8, 0x36, 0x7c, 0xd5, 0x07, 0x30, 0x70, 0xdd, 0x17, 0xf7, 0x0e, 0x59, 0x39,
1.1  hikaru 0xff, 0xc0, 0x0b, 0x31, 0x68, 0x58, 0x15, 0x11, 0x64, 0xf9, 0x8f, 0xa7, 0xbe,
1.1  hikaru 0xfa, 0x4f, 0xa4, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x6a, 0x09, 0xe6, 0x67, 0xbb, 0x67, 0xae,
1.1  hikaru 0x85, 0x3c, 0x6e, 0xf3, 0x72, 0xa5, 0x4f, 0xf5, 0x3a, 0x51, 0x0e, 0x52, 0x7f,
1.1  hikaru 0x9b, 0x05, 0x68, 0x8c, 0x1f, 0x83, 0xd9, 0xab, 0x5b, 0xe0, 0xcd, 0x19, 0x05,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0xcb, 0xbb, 0x9d, 0x5d, 0xc1, 0x05, 0x9e, 0xd8, 0x62, 0x9a, 0x29,
1.1  hikaru 0x2a, 0x36, 0x7c, 0xd5, 0x07, 0x91, 0x59, 0x01, 0x5a, 0x30, 0x70, 0xdd, 0x17,
1.1  hikaru 0x15, 0x2f, 0xec, 0xd8, 0xf7, 0x0e, 0x59, 0x39, 0x67, 0x33, 0x26, 0x67, 0xff,
1.1  hikaru 0xc0, 0x0b, 0x31, 0x8e, 0xb4, 0x4a, 0x87, 0x68, 0x58, 0x15, 0x11, 0xdb, 0x0c,
1.1  hikaru 0x2e, 0x0d, 0x64, 0xf9, 0x8f, 0xa7, 0x47, 0xb5, 0x48, 0x1d, 0xbe, 0xfa, 0x4f,
1.1  hikaru 0xa4, 0x06, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x6a, 0x09, 0xe6, 0x67, 0xf3, 0xbc, 0xc9, 0x08, 0xbb,
1.1  hikaru 0x67, 0xae, 0x85, 0x84, 0xca, 0xa7, 0x3b, 0x3c, 0x6e, 0xf3, 0x72, 0xfe, 0x94,
1.1  hikaru 0xf8, 0x2b, 0xa5, 0x4f, 0xf5, 0x3a, 0x5f, 0x1d, 0x36, 0xf1, 0x51, 0x0e, 0x52,
1.1  hikaru 0x7f, 0xad, 0xe6, 0x82, 0xd1, 0x9b, 0x05, 0x68, 0x8c, 0x2b, 0x3e, 0x6c, 0x1f,
1.1  hikaru 0x1f, 0x83, 0xd9, 0xab, 0xfb, 0x41, 0xbd, 0x6b, 0x5b, 0xe0, 0xcd, 0x19, 0x13,
1.1  hikaru 0x7e, 0x21, 0x79, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
1.1  hikaru 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru /* Microcode */
1.1  hikaru
1.1  hikaru /* Clear GPR of AE */
1.1  hikaru static const uint64_t ae_clear_gprs_inst[] = {
1.1  hikaru 	0x0F0000C0000ull,  /* .0 l0000!val = 0 ; immed[l0000!val, 0x0] */
1.1  hikaru 	0x0F000000380ull,  /* .1 l0000!count = 128 ; immed[l0000!count, 0x80] */
1.1  hikaru 	0x0D805000011ull,  /* .2 br!=ctx[0, ctx_init#] */
1.1  hikaru 	0x0FC082C0300ull,  /* .3 local_csr_wr[nn_put, 0] */
1.1  hikaru 	0x0F0000C0300ull,  /* .4 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .5 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .6 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .7 nop */
1.1  hikaru 	0x0A0643C0000ull,  /* .8 init_nn#:alu[*n$index++, --, b, l0000!val] */
1.1  hikaru 	0x0BAC0000301ull,  /* .9 alu[l0000!count, l0000!count, -, 1] */
1.1  hikaru 	0x0D802000101ull,  /* .10 bne[init_nn#] */
1.1  hikaru 	0x0F0000C0001ull,  /* .11 l0000!indx = 0 ; immed[l0000!indx, 0x0] */
1.1  hikaru 	0x0FC066C0001ull,  /* .12 local_csr_wr[active_lm_addr_0, l0000!indx];
1.1  hikaru 			    * put indx to lm_addr */
1.1  hikaru 	0x0F0000C0300ull,  /* .13 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .14 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .15 nop */
1.1  hikaru 	0x0F000400300ull,  /* .16 l0000!count = 1024 ; immed[l0000!count, 0x400] */
1.1  hikaru 	0x0A0610C0000ull,  /* .17 init_lm#:alu[*l$index0++, --, b, l0000!val] */
1.1  hikaru 	0x0BAC0000301ull,  /* .18 alu[l0000!count, l0000!count, -, 1] */
1.1  hikaru 	0x0D804400101ull,  /* .19 bne[init_lm#] */
1.1  hikaru 	0x0A0580C0000ull,  /* .20 ctx_init#:alu[$l0000!xfers[0], --, b, l0000!val] */
1.1  hikaru 	0x0A0581C0000ull,  /* .21 alu[$l0000!xfers[1], --, b, l0000!val] */
1.1  hikaru 	0x0A0582C0000ull,  /* .22 alu[$l0000!xfers[2], --, b, l0000!val] */
1.1  hikaru 	0x0A0583C0000ull,  /* .23 alu[$l0000!xfers[3], --, b, l0000!val] */
1.1  hikaru 	0x0A0584C0000ull,  /* .24 alu[$l0000!xfers[4], --, b, l0000!val] */
1.1  hikaru 	0x0A0585C0000ull,  /* .25 alu[$l0000!xfers[5], --, b, l0000!val] */
1.1  hikaru 	0x0A0586C0000ull,  /* .26 alu[$l0000!xfers[6], --, b, l0000!val] */
1.1  hikaru 	0x0A0587C0000ull,  /* .27 alu[$l0000!xfers[7], --, b, l0000!val] */
1.1  hikaru 	0x0A0588C0000ull,  /* .28 alu[$l0000!xfers[8], --, b, l0000!val] */
1.1  hikaru 	0x0A0589C0000ull,  /* .29 alu[$l0000!xfers[9], --, b, l0000!val] */
1.1  hikaru 	0x0A058AC0000ull,  /* .30 alu[$l0000!xfers[10], --, b, l0000!val] */
1.1  hikaru 	0x0A058BC0000ull,  /* .31 alu[$l0000!xfers[11], --, b, l0000!val] */
1.1  hikaru 	0x0A058CC0000ull,  /* .32 alu[$l0000!xfers[12], --, b, l0000!val] */
1.1  hikaru 	0x0A058DC0000ull,  /* .33 alu[$l0000!xfers[13], --, b, l0000!val] */
1.1  hikaru 	0x0A058EC0000ull,  /* .34 alu[$l0000!xfers[14], --, b, l0000!val] */
1.1  hikaru 	0x0A058FC0000ull,  /* .35 alu[$l0000!xfers[15], --, b, l0000!val] */
1.1  hikaru 	0x0A05C0C0000ull,  /* .36 alu[$l0000!xfers[16], --, b, l0000!val] */
1.1  hikaru 	0x0A05C1C0000ull,  /* .37 alu[$l0000!xfers[17], --, b, l0000!val] */
1.1  hikaru 	0x0A05C2C0000ull,  /* .38 alu[$l0000!xfers[18], --, b, l0000!val] */
1.1  hikaru 	0x0A05C3C0000ull,  /* .39 alu[$l0000!xfers[19], --, b, l0000!val] */
1.1  hikaru 	0x0A05C4C0000ull,  /* .40 alu[$l0000!xfers[20], --, b, l0000!val] */
1.1  hikaru 	0x0A05C5C0000ull,  /* .41 alu[$l0000!xfers[21], --, b, l0000!val] */
1.1  hikaru 	0x0A05C6C0000ull,  /* .42 alu[$l0000!xfers[22], --, b, l0000!val] */
1.1  hikaru 	0x0A05C7C0000ull,  /* .43 alu[$l0000!xfers[23], --, b, l0000!val] */
1.1  hikaru 	0x0A05C8C0000ull,  /* .44 alu[$l0000!xfers[24], --, b, l0000!val] */
1.1  hikaru 	0x0A05C9C0000ull,  /* .45 alu[$l0000!xfers[25], --, b, l0000!val] */
1.1  hikaru 	0x0A05CAC0000ull,  /* .46 alu[$l0000!xfers[26], --, b, l0000!val] */
1.1  hikaru 	0x0A05CBC0000ull,  /* .47 alu[$l0000!xfers[27], --, b, l0000!val] */
1.1  hikaru 	0x0A05CCC0000ull,  /* .48 alu[$l0000!xfers[28], --, b, l0000!val] */
1.1  hikaru 	0x0A05CDC0000ull,  /* .49 alu[$l0000!xfers[29], --, b, l0000!val] */
1.1  hikaru 	0x0A05CEC0000ull,  /* .50 alu[$l0000!xfers[30], --, b, l0000!val] */
1.1  hikaru 	0x0A05CFC0000ull,  /* .51 alu[$l0000!xfers[31], --, b, l0000!val] */
1.1  hikaru 	0x0A0400C0000ull,  /* .52 alu[l0000!gprega[0], --, b, l0000!val] */
1.1  hikaru 	0x0B0400C0000ull,  /* .53 alu[l0000!gpregb[0], --, b, l0000!val] */
1.1  hikaru 	0x0A0401C0000ull,  /* .54 alu[l0000!gprega[1], --, b, l0000!val] */
1.1  hikaru 	0x0B0401C0000ull,  /* .55 alu[l0000!gpregb[1], --, b, l0000!val] */
1.1  hikaru 	0x0A0402C0000ull,  /* .56 alu[l0000!gprega[2], --, b, l0000!val] */
1.1  hikaru 	0x0B0402C0000ull,  /* .57 alu[l0000!gpregb[2], --, b, l0000!val] */
1.1  hikaru 	0x0A0403C0000ull,  /* .58 alu[l0000!gprega[3], --, b, l0000!val] */
1.1  hikaru 	0x0B0403C0000ull,  /* .59 alu[l0000!gpregb[3], --, b, l0000!val] */
1.1  hikaru 	0x0A0404C0000ull,  /* .60 alu[l0000!gprega[4], --, b, l0000!val] */
1.1  hikaru 	0x0B0404C0000ull,  /* .61 alu[l0000!gpregb[4], --, b, l0000!val] */
1.1  hikaru 	0x0A0405C0000ull,  /* .62 alu[l0000!gprega[5], --, b, l0000!val] */
1.1  hikaru 	0x0B0405C0000ull,  /* .63 alu[l0000!gpregb[5], --, b, l0000!val] */
1.1  hikaru 	0x0A0406C0000ull,  /* .64 alu[l0000!gprega[6], --, b, l0000!val] */
1.1  hikaru 	0x0B0406C0000ull,  /* .65 alu[l0000!gpregb[6], --, b, l0000!val] */
1.1  hikaru 	0x0A0407C0000ull,  /* .66 alu[l0000!gprega[7], --, b, l0000!val] */
1.1  hikaru 	0x0B0407C0000ull,  /* .67 alu[l0000!gpregb[7], --, b, l0000!val] */
1.1  hikaru 	0x0A0408C0000ull,  /* .68 alu[l0000!gprega[8], --, b, l0000!val] */
1.1  hikaru 	0x0B0408C0000ull,  /* .69 alu[l0000!gpregb[8], --, b, l0000!val] */
1.1  hikaru 	0x0A0409C0000ull,  /* .70 alu[l0000!gprega[9], --, b, l0000!val] */
1.1  hikaru 	0x0B0409C0000ull,  /* .71 alu[l0000!gpregb[9], --, b, l0000!val] */
1.1  hikaru 	0x0A040AC0000ull,  /* .72 alu[l0000!gprega[10], --, b, l0000!val] */
1.1  hikaru 	0x0B040AC0000ull,  /* .73 alu[l0000!gpregb[10], --, b, l0000!val] */
1.1  hikaru 	0x0A040BC0000ull,  /* .74 alu[l0000!gprega[11], --, b, l0000!val] */
1.1  hikaru 	0x0B040BC0000ull,  /* .75 alu[l0000!gpregb[11], --, b, l0000!val] */
1.1  hikaru 	0x0A040CC0000ull,  /* .76 alu[l0000!gprega[12], --, b, l0000!val] */
1.1  hikaru 	0x0B040CC0000ull,  /* .77 alu[l0000!gpregb[12], --, b, l0000!val] */
1.1  hikaru 	0x0A040DC0000ull,  /* .78 alu[l0000!gprega[13], --, b, l0000!val] */
1.1  hikaru 	0x0B040DC0000ull,  /* .79 alu[l0000!gpregb[13], --, b, l0000!val] */
1.1  hikaru 	0x0A040EC0000ull,  /* .80 alu[l0000!gprega[14], --, b, l0000!val] */
1.1  hikaru 	0x0B040EC0000ull,  /* .81 alu[l0000!gpregb[14], --, b, l0000!val] */
1.1  hikaru 	0x0A040FC0000ull,  /* .82 alu[l0000!gprega[15], --, b, l0000!val] */
1.1  hikaru 	0x0B040FC0000ull,  /* .83 alu[l0000!gpregb[15], --, b, l0000!val] */
1.1  hikaru 	0x0D81581C010ull,  /* .84 br=ctx[7, exit#] */
1.1  hikaru 	0x0E000010000ull,  /* .85 ctx_arb[kill], any */
1.1  hikaru 	0x0E000010000ull,  /* .86 exit#:ctx_arb[kill], any */
1.1  hikaru };
1.1  hikaru
1.1  hikaru static const uint64_t ae_inst_4b[] = {
1.1  hikaru 	0x0F0400C0000ull,  /* .0 immed_w0[l0000!indx, 0] */
1.1  hikaru 	0x0F4400C0000ull,  /* .1 immed_w1[l0000!indx, 0] */
1.1  hikaru 	0x0F040000300ull,  /* .2 immed_w0[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0F440000300ull,  /* .3 immed_w1[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0FC066C0000ull,  /* .4 local_csr_wr[active_lm_addr_0,
1.1  hikaru 	                                l0000!indx]; put indx to lm_addr */
1.1  hikaru 	0x0F0000C0300ull,  /* .5 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .6 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .7 nop */
1.1  hikaru 	0x0A021000000ull,  /* .8 alu[*l$index0++, --, b, l0000!myvalue] */
1.1  hikaru };
1.1  hikaru
1.1  hikaru static const uint64_t ae_inst_1b[] = {
1.1  hikaru 	0x0F0400C0000ull,  /* .0 immed_w0[l0000!indx, 0] */
1.1  hikaru 	0x0F4400C0000ull,  /* .1 immed_w1[l0000!indx, 0] */
1.1  hikaru 	0x0F040000300ull,  /* .2 immed_w0[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0F440000300ull,  /* .3 immed_w1[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0FC066C0000ull,  /* .4 local_csr_wr[active_lm_addr_0,
1.1  hikaru 	                               l0000!indx]; put indx to lm_addr */
1.1  hikaru 	0x0F0000C0300ull,  /* .5 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .6 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .7 nop */
1.1  hikaru 	0x0A000180000ull,  /* .8 alu[l0000!val, --, b, *l$index0] */
1.1  hikaru 	0x09080000200ull,  /* .9 alu_shf[l0000!myvalue, --, b,
1.1  hikaru 	                                  l0000!myvalue,  <<24 ] */
1.1  hikaru 	0x08180280201ull,  /* .10 alu_shf[l0000!val1, --, b, l0000!val,  <<8 ] */
1.1  hikaru 	0x08080280102ull,  /* .11 alu_shf[l0000!val1, --, b, l0000!val1 , >>8 ] */
1.1  hikaru 	0x0BA00100002ull,  /* .12 alu[l0000!val2, l0000!val1, or, l0000!myvalue] */
1.1  hikaru
1.1  hikaru };
1.1  hikaru
1.1  hikaru static const uint64_t ae_inst_2b[] = {
1.1  hikaru 	0x0F0400C0000ull,  /* .0 immed_w0[l0000!indx, 0] */
1.1  hikaru 	0x0F4400C0000ull,  /* .1 immed_w1[l0000!indx, 0] */
1.1  hikaru 	0x0F040000300ull,  /* .2 immed_w0[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0F440000300ull,  /* .3 immed_w1[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0FC066C0000ull,  /* .4 local_csr_wr[active_lm_addr_0,
1.1  hikaru 	                               l0000!indx]; put indx to lm_addr */
1.1  hikaru 	0x0F0000C0300ull,  /* .5 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .6 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .7 nop */
1.1  hikaru 	0x0A000180000ull,  /* .8 alu[l0000!val, --, b, *l$index0] */
1.1  hikaru 	0x09100000200ull,  /* .9 alu_shf[l0000!myvalue, --, b,
1.1  hikaru 	                                      l0000!myvalue,  <<16 ] */
1.1  hikaru 	0x08100280201ull,  /* .10 alu_shf[l0000!val1, --, b, l0000!val,  <<16 ] */
1.1  hikaru 	0x08100280102ull,  /* .11 alu_shf[l0000!val1, --, b, l0000!val1 , >>16 ] */
1.1  hikaru 	0x0BA00100002ull,  /* .12 alu[l0000!val2, l0000!val1, or, l0000!myvalue] */
1.1  hikaru };
1.1  hikaru
1.1  hikaru static const uint64_t ae_inst_3b[] = {
1.1  hikaru 	0x0F0400C0000ull,  /* .0 immed_w0[l0000!indx, 0] */
1.1  hikaru 	0x0F4400C0000ull,  /* .1 immed_w1[l0000!indx, 0] */
1.1  hikaru 	0x0F040000300ull,  /* .2 immed_w0[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0F440000300ull,  /* .3 immed_w1[l0000!myvalue, 0x0] */
1.1  hikaru 	0x0FC066C0000ull,  /* .4 local_csr_wr[active_lm_addr_0,
1.1  hikaru 	                               l0000!indx]; put indx to lm_addr */
1.1  hikaru 	0x0F0000C0300ull,  /* .5 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .6 nop */
1.1  hikaru 	0x0F0000C0300ull,  /* .7 nop */
1.1  hikaru 	0x0A000180000ull,  /* .8 alu[l0000!val, --, b, *l$index0] */
1.1  hikaru 	0x09180000200ull,  /* .9 alu_shf[l0000!myvalue, --,
1.1  hikaru 	                                b, l0000!myvalue,  <<8 ] */
1.1  hikaru 	0x08080280201ull,  /* .10 alu_shf[l0000!val1, --, b, l0000!val,  <<24 ] */
1.1  hikaru 	0x08180280102ull,  /* .11 alu_shf[l0000!val1, --, b, l0000!val1 , >>24 ] */
1.1  hikaru 	0x0BA00100002ull,  /* .12 alu[l0000!val2, l0000!val1, or, l0000!myvalue] */
1.1  hikaru };
1.1  hikaru
1.1  hikaru /* micro-instr fixup */
1.1  hikaru #define INSERT_IMMED_GPRA_CONST(inst, const_val)		\
1.1  hikaru 		inst = (inst & 0xFFFF00C03FFull) |		\
1.1  hikaru 		((((const_val) << 12) & 0x0FF00000ull) |	\
1.1  hikaru 		(((const_val) << 10) & 0x0003FC00ull))
1.1  hikaru #define INSERT_IMMED_GPRB_CONST(inst, const_val)		\
1.1  hikaru 		inst = (inst & 0xFFFF00FFF00ull) |		\
1.1  hikaru 		((((const_val) << 12) & 0x0FF00000ull) |	\
1.1  hikaru 		(((const_val) << 0) & 0x000000FFull))
1.1  hikaru
1.1  hikaru enum aereg_type {
1.1  hikaru 	AEREG_NO_DEST,		/* no destination */
1.1  hikaru 	AEREG_GPA_REL,		/* general-purpose A register under relative mode */
1.1  hikaru 	AEREG_GPA_ABS,		/* general-purpose A register under absolute mode */
1.1  hikaru 	AEREG_GPB_REL,		/* general-purpose B register under relative mode */
1.1  hikaru 	AEREG_GPB_ABS,		/* general-purpose B register under absolute mode */
1.1  hikaru 	AEREG_SR_REL,		/* sram register under relative mode */
1.1  hikaru 	AEREG_SR_RD_REL,	/* sram read register under relative mode */
1.1  hikaru 	AEREG_SR_WR_REL,	/* sram write register under relative mode */
1.1  hikaru 	AEREG_SR_ABS,		/* sram register under absolute mode */
1.1  hikaru 	AEREG_SR_RD_ABS,	/* sram read register under absolute mode */
1.1  hikaru 	AEREG_SR_WR_ABS,	/* sram write register under absolute mode */
1.1  hikaru 	AEREG_SR0_SPILL,	/* sram0 spill register */
1.1  hikaru 	AEREG_SR1_SPILL,	/* sram1 spill register */
1.1  hikaru 	AEREG_SR2_SPILL,	/* sram2 spill register */
1.1  hikaru 	AEREG_SR3_SPILL,	/* sram3 spill register */
1.1  hikaru 	AEREG_SR0_MEM_ADDR,	/* sram0 memory address register */
1.1  hikaru 	AEREG_SR1_MEM_ADDR,	/* sram1 memory address register */
1.1  hikaru 	AEREG_SR2_MEM_ADDR,	/* sram2 memory address register */
1.1  hikaru 	AEREG_SR3_MEM_ADDR,	/* sram3 memory address register */
1.1  hikaru 	AEREG_DR_REL,		/* dram register under relative mode */
1.1  hikaru 	AEREG_DR_RD_REL,	/* dram read register under relative mode */
1.1  hikaru 	AEREG_DR_WR_REL,	/* dram write register under relative mode */
1.1  hikaru 	AEREG_DR_ABS,		/* dram register under absolute mode */
1.1  hikaru 	AEREG_DR_RD_ABS,	/* dram read register under absolute mode */
1.1  hikaru 	AEREG_DR_WR_ABS,	/* dram write register under absolute mode */
1.1  hikaru 	AEREG_DR_MEM_ADDR,	/* dram memory address register */
1.1  hikaru 	AEREG_LMEM,		/* local memory */
1.1  hikaru 	AEREG_LMEM0,		/* local memory bank0 */
1.1  hikaru 	AEREG_LMEM1,		/* local memory bank1 */
1.1  hikaru 	AEREG_LMEM_SPILL,	/* local memory spill */
1.1  hikaru 	AEREG_LMEM_ADDR,	/* local memory address */
1.1  hikaru 	AEREG_NEIGH_REL,	/* next neighbour register under relative mode */
1.1  hikaru 	AEREG_NEIGH_INDX,	/* next neighbour register under index mode */
1.1  hikaru 	AEREG_SIG_REL,		/* signal register under relative mode */
1.1  hikaru 	AEREG_SIG_INDX,		/* signal register under index mode */
1.1  hikaru 	AEREG_SIG_DOUBLE,	/* signal register */
1.1  hikaru 	AEREG_SIG_SINGLE,	/* signal register */
1.1  hikaru 	AEREG_SCRATCH_MEM_ADDR,	/* scratch memory address */
1.1  hikaru 	AEREG_UMEM0,		/* ustore memory bank0 */
1.1  hikaru 	AEREG_UMEM1,		/* ustore memory bank1 */
1.1  hikaru 	AEREG_UMEM_SPILL,	/* ustore memory spill */
1.1  hikaru 	AEREG_UMEM_ADDR,	/* ustore memory address */
1.1  hikaru 	AEREG_DR1_MEM_ADDR,	/* dram segment1 address */
1.1  hikaru 	AEREG_SR0_IMPORTED,	/* sram segment0 imported data */
1.1  hikaru 	AEREG_SR1_IMPORTED,	/* sram segment1 imported data */
1.1  hikaru 	AEREG_SR2_IMPORTED,	/* sram segment2 imported data */
1.1  hikaru 	AEREG_SR3_IMPORTED,	/* sram segment3 imported data */
1.1  hikaru 	AEREG_DR_IMPORTED,	/* dram segment0 imported data */
1.1  hikaru 	AEREG_DR1_IMPORTED,	/* dram segment1 imported data */
1.1  hikaru 	AEREG_SCRATCH_IMPORTED,	/* scratch imported data */
1.1  hikaru 	AEREG_XFER_RD_ABS,	/* transfer read register under absolute mode */
1.1  hikaru 	AEREG_XFER_WR_ABS,	/* transfer write register under absolute mode */
1.1  hikaru 	AEREG_CONST_VALUE,	/* const alue */
1.1  hikaru 	AEREG_ADDR_TAKEN,	/* address taken */
1.1  hikaru 	AEREG_OPTIMIZED_AWAY,	/* optimized away */
1.1  hikaru 	AEREG_SHRAM_ADDR,	/* shared ram0 address */
1.1  hikaru 	AEREG_SHRAM1_ADDR,	/* shared ram1 address */
1.1  hikaru 	AEREG_SHRAM2_ADDR,	/* shared ram2 address */
1.1  hikaru 	AEREG_SHRAM3_ADDR,	/* shared ram3 address */
1.1  hikaru 	AEREG_SHRAM4_ADDR,	/* shared ram4 address */
1.1  hikaru 	AEREG_SHRAM5_ADDR,	/* shared ram5 address */
1.1  hikaru 	AEREG_ANY = 0xffff	/* any register */
1.1  hikaru };
1.1  hikaru #define AEREG_SR_INDX	AEREG_SR_ABS
1.1  hikaru 				/* sram transfer register under index mode */
1.1  hikaru #define AEREG_DR_INDX	AEREG_DR_ABS
1.1  hikaru 				/* dram transfer register under index mode */
1.1  hikaru #define AEREG_NEIGH_ABS	AEREG_NEIGH_INDX
1.1  hikaru 				/* next neighbor register under absolute mode */
1.1  hikaru
1.1  hikaru
1.1  hikaru #define QAT_2K			0x0800
1.1  hikaru #define QAT_4K			0x1000
1.1  hikaru #define QAT_6K			0x1800
1.1  hikaru #define QAT_8K			0x2000
1.1  hikaru #define QAT_16K			0x4000
1.1  hikaru
1.1  hikaru #define MOF_OBJ_ID_LEN		8
1.1  hikaru #define MOF_FID			0x00666f6d
1.1  hikaru #define MOF_MIN_VER		0x1
1.1  hikaru #define MOF_MAJ_VER		0x0
1.1  hikaru #define SYM_OBJS		"SYM_OBJS"	/* symbol object string */
1.1  hikaru #define UOF_OBJS		"UOF_OBJS"	/* uof object string */
1.1  hikaru #define SUOF_OBJS		"SUF_OBJS"	/* suof object string */
1.1  hikaru #define SUOF_IMAG		"SUF_IMAG"	/* suof chunk ID string */
1.1  hikaru
1.1  hikaru #define UOF_STRT		"UOF_STRT"	/* string table section ID */
1.1  hikaru #define UOF_GTID		"UOF_GTID"	/* GTID section ID */
1.1  hikaru #define UOF_IMAG		"UOF_IMAG"	/* image section ID */
1.1  hikaru #define UOF_IMEM		"UOF_IMEM"	/* import section ID */
1.1  hikaru #define UOF_MSEG		"UOF_MSEG"	/* memory section ID */
1.1  hikaru
1.1  hikaru #define CRC_POLY		0x1021
1.1  hikaru #define CRC_WIDTH		16
1.1  hikaru #define CRC_BITMASK(x)		(1L << (x))
1.1  hikaru #define CRC_WIDTHMASK(width)	((((1L<<(width-1))-1L)<<1)|1L)
1.1  hikaru
1.1  hikaru struct mof_file_hdr {
1.1  hikaru 	u_int mfh_fid;
1.1  hikaru 	u_int mfh_csum;
1.1  hikaru 	char mfh_min_ver;
1.1  hikaru 	char mfh_maj_ver;
1.1  hikaru 	u_short mfh_reserved;
1.1  hikaru 	u_short mfh_max_chunks;
1.1  hikaru 	u_short mfh_num_chunks;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct mof_file_chunk_hdr {
1.1  hikaru 	char mfch_id[MOF_OBJ_ID_LEN];
1.1  hikaru 	uint64_t mfch_offset;
1.1  hikaru 	uint64_t mfch_size;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct mof_uof_hdr {
1.1  hikaru 	u_short muh_max_chunks;
1.1  hikaru 	u_short muh_num_chunks;
1.1  hikaru 	u_int muh_reserved;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct mof_uof_chunk_hdr {
1.1  hikaru 	char much_id[MOF_OBJ_ID_LEN];	/* should be UOF_IMAG */
1.1  hikaru 	uint64_t much_offset;		/* uof image */
1.1  hikaru 	uint64_t much_size;		/* uof image size */
1.1  hikaru 	u_int much_name;		/* uof name string-table offset */
1.1  hikaru 	u_int much_reserved;
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define UOF_MAX_NUM_OF_AE	16	/* maximum number of AE */
1.1  hikaru
1.1  hikaru #define UOF_OBJ_ID_LEN		8	/* length of object ID */
1.3  andvar #define UOF_FIELD_POS_SIZE	12	/* field position size */
1.1  hikaru #define MIN_UOF_SIZE		24	/* minimum .uof file size */
1.1  hikaru #define UOF_FID			0xc6c2	/* uof magic number */
1.1  hikaru #define UOF_MIN_VER		0x11
1.1  hikaru #define UOF_MAJ_VER		0x4
1.1  hikaru
1.1  hikaru struct uof_file_hdr {
1.1  hikaru 	u_short ufh_id;			/* file id and endian indicator */
1.1  hikaru 	u_short ufh_reserved1;		/* reserved for future use */
1.1  hikaru 	char ufh_min_ver;		/* file format minor version */
1.1  hikaru 	char ufh_maj_ver;		/* file format major version */
1.1  hikaru 	u_short ufh_reserved2;		/* reserved for future use */
1.1  hikaru 	u_short ufh_max_chunks;		/* max chunks in file */
1.1  hikaru 	u_short ufh_num_chunks;		/* num of actual chunks */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_file_chunk_hdr {
1.1  hikaru 	char ufch_id[UOF_OBJ_ID_LEN];	/* chunk identifier */
1.1  hikaru 	u_int ufch_csum;		/* chunk checksum */
1.1  hikaru 	u_int ufch_offset;		/* offset of the chunk in the file */
1.1  hikaru 	u_int ufch_size;		/* size of the chunk */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_obj_hdr {
1.1  hikaru 	u_int uoh_cpu_type;		/* CPU type */
1.1  hikaru 	u_short uoh_min_cpu_ver;	/* starting CPU version */
1.1  hikaru 	u_short uoh_max_cpu_ver;	/* ending CPU version */
1.1  hikaru 	short uoh_max_chunks;		/* max chunks in chunk obj */
1.1  hikaru 	short uoh_num_chunks;		/* num of actual chunks */
1.1  hikaru 	u_int uoh_reserved1;
1.1  hikaru 	u_int uoh_reserved2;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_chunk_hdr {
1.1  hikaru 	char uch_id[UOF_OBJ_ID_LEN];
1.1  hikaru 	u_int uch_offset;
1.1  hikaru 	u_int uch_size;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_str_tab {
1.1  hikaru 	u_int ust_table_len;		/* length of table */
1.1  hikaru 	u_int ust_reserved;		/* reserved for future use */
1.1  hikaru 	uint64_t ust_strings;		/* pointer to string table.
1.1  hikaru 					 * NULL terminated strings */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define AE_MODE_RELOAD_CTX_SHARED	__BIT(12)
1.1  hikaru #define AE_MODE_SHARED_USTORE		__BIT(11)
1.1  hikaru #define AE_MODE_LMEM1			__BIT(9)
1.1  hikaru #define AE_MODE_LMEM0			__BIT(8)
1.1  hikaru #define AE_MODE_NN_MODE			__BITS(7, 4)
1.1  hikaru #define AE_MODE_CTX_MODE		__BITS(3, 0)
1.1  hikaru
1.1  hikaru #define AE_MODE_NN_MODE_NEIGH		0
1.1  hikaru #define AE_MODE_NN_MODE_SELF		1
1.1  hikaru #define AE_MODE_NN_MODE_DONTCARE	0xff
1.1  hikaru
1.1  hikaru struct uof_image {
1.1  hikaru 	u_int ui_name;			/* image name */
1.1  hikaru 	u_int ui_ae_assigned;		/* AccelEngines assigned */
1.1  hikaru 	u_int ui_ctx_assigned;		/* AccelEngine contexts assigned */
1.1  hikaru 	u_int ui_cpu_type;		/* cpu type */
1.1  hikaru 	u_int ui_entry_address;		/* entry uaddress */
1.1  hikaru 	u_int ui_fill_pattern[2];	/* uword fill value */
1.1  hikaru 	u_int ui_reloadable_size;	/* size of reloadable ustore section */
1.1  hikaru
1.1  hikaru 	u_char ui_sensitivity;		/*
1.1  hikaru 					 * case sensitivity: 0 = insensitive,
1.1  hikaru 					 * 1 = sensitive
1.1  hikaru 					 */
1.1  hikaru 	u_char ui_reserved;		/* reserved for future use */
1.1  hikaru 	u_short ui_ae_mode;		/*
1.1  hikaru 					 * unused<15:14>, legacyMode<13>,
1.1  hikaru 					 * reloadCtxShared<12>, sharedUstore<11>,
1.1  hikaru 					 * ecc<10>, locMem1<9>, locMem0<8>,
1.1  hikaru 					 * nnMode<7:4>, ctx<3:0>
1.1  hikaru 					 */
1.1  hikaru
1.1  hikaru 	u_short ui_max_ver;		/* max cpu ver on which the image can run */
1.1  hikaru 	u_short ui_min_ver;		/* min cpu ver on which the image can run */
1.1  hikaru
1.1  hikaru 	u_short ui_image_attrib;	/* image attributes */
1.1  hikaru 	u_short ui_reserved2;		/* reserved for future use */
1.1  hikaru
1.1  hikaru 	u_short ui_num_page_regions;	/* number of page regions */
1.1  hikaru 	u_short ui_num_pages;		/* number of pages */
1.1  hikaru
1.1  hikaru 	u_int ui_reg_tab;		/* offset to register table */
1.1  hikaru 	u_int ui_init_reg_sym_tab;	/* reg/sym init table */
1.1  hikaru 	u_int ui_sbreak_tab;		/* offset to sbreak table */
1.1  hikaru
1.1  hikaru 	u_int ui_app_metadata;		/* application meta-data */
1.1  hikaru 	/* ui_npages of code page follows this header */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_obj_table {
1.1  hikaru 	u_int uot_nentries;		/* number of table entries */
1.1  hikaru 	/* uot_nentries of object follows */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_ae_reg {
1.1  hikaru 	u_int uar_name;			/* reg name string-table offset */
1.1  hikaru 	u_int uar_vis_name;		/* reg visible name string-table offset */
1.1  hikaru 	u_short uar_type;		/* reg type */
1.1  hikaru 	u_short uar_addr;		/* reg address */
1.1  hikaru 	u_short uar_access_mode;	/* uof_RegAccessMode_T: read/write/both/undef */
1.1  hikaru 	u_char uar_visible;		/* register visibility */
1.1  hikaru 	u_char uar_reserved1;		/* reserved for future use */
1.1  hikaru 	u_short uar_ref_count;		/* number of contiguous registers allocated */
1.1  hikaru 	u_short uar_reserved2;		/* reserved for future use */
1.1  hikaru 	u_int uar_xoid;			/* xfer order ID */
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum uof_value_kind {
1.1  hikaru 	UNDEF_VAL,	/* undefined value */
1.1  hikaru 	CHAR_VAL,	/* character value */
1.1  hikaru 	SHORT_VAL,	/* short value */
1.1  hikaru 	INT_VAL,	/* integer value */
1.1  hikaru 	STR_VAL,	/* string value */
1.1  hikaru 	STRTAB_VAL,	/* string table value */
1.1  hikaru 	NUM_VAL,	/* number value */
1.1  hikaru 	EXPR_VAL	/* expression value */
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum uof_init_type {
1.1  hikaru 	INIT_EXPR,
1.1  hikaru 	INIT_REG,
1.1  hikaru 	INIT_REG_CTX,
1.1  hikaru 	INIT_EXPR_ENDIAN_SWAP
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_init_reg_sym {
1.1  hikaru 	u_int uirs_name;		/* symbol name */
1.1  hikaru 	char uirs_init_type;		/* 0=expr, 1=register, 2=ctxReg,
1.1  hikaru 					 * 3=expr_endian_swap */
1.1  hikaru 	char uirs_value_type;		/* EXPR_VAL, STRTAB_VAL */
1.1  hikaru 	char uirs_reg_type;		/* register type: ae_reg_type */
1.1  hikaru 	u_char uirs_ctx;		/* AE context when initType=2 */
1.1  hikaru 	u_int uirs_addr_offset;		/* reg address, or sym-value offset */
1.1  hikaru 	u_int uirs_value;		/* integer value, or expression */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_sbreak {
1.1  hikaru 	u_int us_page_num;		/* page number */
1.1  hikaru 	u_int us_virt_uaddr;		/* virt uaddress */
1.1  hikaru 	u_char us_sbreak_type;		/* sbreak type */
1.1  hikaru 	u_char us_reg_type;		/* register type: ae_reg_type */
1.1  hikaru 	u_short us_reserved1;		/* reserved for future use */
1.1  hikaru 	u_int us_addr_offset;		/* branch target address or offset
1.1  hikaru 					 * to be used with the reg value to
1.1  hikaru 					 * calculate the target address */
1.1  hikaru 	u_int us_reg_rddr;		/* register address */
1.1  hikaru };
1.1  hikaru struct uof_code_page {
1.1  hikaru 	u_int ucp_page_region;		/* page associated region */
1.1  hikaru 	u_int ucp_page_num;		/* code-page number */
1.1  hikaru 	u_char ucp_def_page;		/* default page indicator */
1.1  hikaru 	u_char ucp_reserved2;		/* reserved for future use */
1.1  hikaru 	u_short ucp_reserved1;		/* reserved for future use */
1.1  hikaru 	u_int ucp_beg_vaddr;		/* starting virtual uaddr */
1.1  hikaru 	u_int ucp_beg_paddr;		/* starting physical uaddr */
1.1  hikaru 	u_int ucp_neigh_reg_tab;	/* offset to neighbour-reg table */
1.1  hikaru 	u_int ucp_uc_var_tab;		/* offset to uC var table */
1.1  hikaru 	u_int ucp_imp_var_tab;		/* offset to import var table */
1.1  hikaru 	u_int ucp_imp_expr_tab;		/* offset to import expression table */
1.1  hikaru 	u_int ucp_code_area;		/* offset to code area */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_code_area {
1.1  hikaru 	u_int uca_num_micro_words;	/* number of micro words */
1.1  hikaru 	u_int uca_uword_block_tab;	/* offset to ublock table */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_uword_block {
1.1  hikaru 	u_int uub_start_addr;		/* start address */
1.1  hikaru 	u_int uub_num_words;		/* number of microwords */
1.1  hikaru 	u_int uub_uword_offset;		/* offset to the uwords */
1.1  hikaru 	u_int uub_reserved;		/* reserved for future use */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_uword_fixup {
1.1  hikaru 	u_int uuf_name;			/* offset to string table */
1.1  hikaru 	u_int uuf_uword_address;	/* micro word address */
1.1  hikaru 	u_int uuf_expr_value;		/* string table offset of expr string, or value */
1.1  hikaru 	u_char uuf_val_type;		/* VALUE_UNDEF, VALUE_NUM, VALUE_EXPR */
1.1  hikaru 	u_char uuf_value_attrs;		/* bit<0> (Scope: 0=global, 1=local),
1.1  hikaru 					 * bit<1> (init: 0=no, 1=yes) */
1.1  hikaru 	u_short uuf_reserved1;		/* reserved for future use */
1.1  hikaru 	char uuf_field_attrs[UOF_FIELD_POS_SIZE];
1.1  hikaru 					/* field pos, size, and right shift value */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_import_var {
1.1  hikaru 	u_int uiv_name;			/* import var name string-table offset */
1.1  hikaru 	u_char uiv_value_attrs;		/* bit<0> (Scope: 0=global),
1.1  hikaru 					 * bit<1> (init: 0=no, 1=yes) */
1.1  hikaru 	u_char uiv_reserved1;		/* reserved for future use */
1.1  hikaru 	u_short uiv_reserved2;		/* reserved for future use */
1.1  hikaru 	uint64_t uiv_value;		/* 64-bit imported value */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_mem_val_attr {
1.1  hikaru 	u_int umva_byte_offset;		/* byte-offset from the allocated memory */
1.1  hikaru 	u_int umva_value;		/* memory value */
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum uof_mem_region {
1.1  hikaru 	SRAM_REGION,	/* SRAM region */
1.1  hikaru 	DRAM_REGION,	/* DRAM0 region */
1.1  hikaru 	DRAM1_REGION,	/* DRAM1 region */
1.1  hikaru 	LMEM_REGION,	/* local memory region */
1.1  hikaru 	SCRATCH_REGION,	/* SCRATCH region */
1.1  hikaru 	UMEM_REGION,	/* micro-store region */
1.1  hikaru 	RAM_REGION,	/* RAM region */
1.1  hikaru 	SHRAM_REGION,	/* shared memory-0 region */
1.1  hikaru 	SHRAM1_REGION,	/* shared memory-1 region */
1.1  hikaru 	SHRAM2_REGION,	/* shared memory-2 region */
1.1  hikaru 	SHRAM3_REGION,	/* shared memory-3 region */
1.1  hikaru 	SHRAM4_REGION,	/* shared memory-4 region */
1.1  hikaru 	SHRAM5_REGION	/* shared memory-5 region */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define UOF_SCOPE_GLOBAL	0
1.1  hikaru #define UOF_SCOPE_LOCAL		1
1.1  hikaru
1.1  hikaru struct uof_init_mem {
1.1  hikaru 	u_int uim_sym_name;		/* symbol name */
1.1  hikaru 	char uim_region;		/* memory region -- uof_mem_region */
1.1  hikaru 	char uim_scope;			/* visibility scope */
1.1  hikaru 	u_short uim_reserved1;		/* reserved for future use */
1.1  hikaru 	u_int uim_addr;			/* memory address */
1.1  hikaru 	u_int uim_num_bytes;		/* number of bytes */
1.1  hikaru 	u_int uim_num_val_attr;		/* number of values attributes */
1.1  hikaru
1.1  hikaru 	/* uim_num_val_attr of uof_mem_val_attr follows this header */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct uof_var_mem_seg {
1.1  hikaru 	u_int uvms_sram_base;		/* SRAM memory segment base addr */
1.1  hikaru 	u_int uvms_sram_size;		/* SRAM segment size bytes */
1.1  hikaru 	u_int uvms_sram_alignment;	/* SRAM segment alignment bytes */
1.1  hikaru 	u_int uvms_sdram_base;		/* DRAM0 memory segment base addr */
1.1  hikaru 	u_int uvms_sdram_size;		/* DRAM0 segment size bytes */
1.1  hikaru 	u_int uvms_sdram_alignment;	/* DRAM0 segment alignment bytes */
1.1  hikaru 	u_int uvms_sdram1_base;		/* DRAM1 memory segment base addr */
1.1  hikaru 	u_int uvms_sdram1_size;		/* DRAM1 segment size bytes */
1.1  hikaru 	u_int uvms_sdram1_alignment;	/* DRAM1 segment alignment bytes */
1.1  hikaru 	u_int uvms_scratch_base;	/* SCRATCH memory segment base addr */
1.1  hikaru 	u_int uvms_scratch_size;	/* SCRATCH segment size bytes */
1.1  hikaru 	u_int uvms_scratch_alignment;	/* SCRATCH segment alignment bytes */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define SUOF_OBJ_ID_LEN		8
1.1  hikaru #define SUOF_FID		0x53554f46
1.1  hikaru #define SUOF_MAJ_VER		0x0
1.1  hikaru #define SUOF_MIN_VER		0x1
1.1  hikaru #define SIMG_AE_INIT_SEQ_LEN	(50 * sizeof(unsigned long long))
1.1  hikaru #define SIMG_AE_INSTS_LEN	(0x4000 * sizeof(unsigned long long))
1.1  hikaru #define CSS_FWSK_MODULUS_LEN	256
1.1  hikaru #define CSS_FWSK_EXPONENT_LEN	4
1.1  hikaru #define CSS_FWSK_PAD_LEN	252
1.1  hikaru #define CSS_FWSK_PUB_LEN	(CSS_FWSK_MODULUS_LEN + \
1.1  hikaru 				    CSS_FWSK_EXPONENT_LEN + \
1.1  hikaru 				    CSS_FWSK_PAD_LEN)
1.1  hikaru #define CSS_SIGNATURE_LEN	256
1.1  hikaru #define CSS_AE_IMG_LEN		(sizeof(struct simg_ae_mode) + \
1.1  hikaru 				    SIMG_AE_INIT_SEQ_LEN +         \
1.1  hikaru 				    SIMG_AE_INSTS_LEN)
1.1  hikaru #define CSS_AE_SIMG_LEN		(sizeof(struct css_hdr) + \
1.1  hikaru 				    CSS_FWSK_PUB_LEN + \
1.1  hikaru 				    CSS_SIGNATURE_LEN + \
1.1  hikaru 				    CSS_AE_IMG_LEN)
1.1  hikaru #define AE_IMG_OFFSET		(sizeof(struct css_hdr) + \
1.1  hikaru 				    CSS_FWSK_MODULUS_LEN + \
1.1  hikaru 				    CSS_FWSK_EXPONENT_LEN + \
1.1  hikaru 				    CSS_SIGNATURE_LEN)
1.1  hikaru #define CSS_MAX_IMAGE_LEN	0x40000
1.1  hikaru
1.1  hikaru struct fw_auth_desc {
1.1  hikaru 	u_int fad_img_len;
1.1  hikaru 	u_int fad_reserved;
1.1  hikaru 	u_int fad_css_hdr_high;
1.1  hikaru 	u_int fad_css_hdr_low;
1.1  hikaru 	u_int fad_img_high;
1.1  hikaru 	u_int fad_img_low;
1.1  hikaru 	u_int fad_signature_high;
1.1  hikaru 	u_int fad_signature_low;
1.1  hikaru 	u_int fad_fwsk_pub_high;
1.1  hikaru 	u_int fad_fwsk_pub_low;
1.1  hikaru 	u_int fad_img_ae_mode_data_high;
1.1  hikaru 	u_int fad_img_ae_mode_data_low;
1.1  hikaru 	u_int fad_img_ae_init_data_high;
1.1  hikaru 	u_int fad_img_ae_init_data_low;
1.1  hikaru 	u_int fad_img_ae_insts_high;
1.1  hikaru 	u_int fad_img_ae_insts_low;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct auth_chunk {
1.1  hikaru 	struct fw_auth_desc ac_fw_auth_desc;
1.1  hikaru 	uint64_t ac_chunk_size;
1.1  hikaru 	uint64_t ac_chunk_bus_addr;
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum css_fwtype {
1.1  hikaru 	CSS_AE_FIRMWARE = 0,
1.1  hikaru 	CSS_MMP_FIRMWARE = 1
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct css_hdr {
1.1  hikaru 	u_int css_module_type;
1.1  hikaru 	u_int css_header_len;
1.1  hikaru 	u_int css_header_ver;
1.1  hikaru 	u_int css_module_id;
1.1  hikaru 	u_int css_module_vendor;
1.1  hikaru 	u_int css_date;
1.1  hikaru 	u_int css_size;
1.1  hikaru 	u_int css_key_size;
1.1  hikaru 	u_int css_module_size;
1.1  hikaru 	u_int css_exponent_size;
1.1  hikaru 	u_int css_fw_type;
1.1  hikaru 	u_int css_reserved[21];
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct simg_ae_mode {
1.1  hikaru 	u_int sam_file_id;
1.1  hikaru 	u_short sam_maj_ver;
1.1  hikaru 	u_short sam_min_ver;
1.1  hikaru 	u_int sam_dev_type;
1.1  hikaru 	u_short sam_devmax_ver;
1.1  hikaru 	u_short sam_devmin_ver;
1.1  hikaru 	u_int sam_ae_mask;
1.1  hikaru 	u_int sam_ctx_enables;
1.1  hikaru 	char sam_fw_type;
1.1  hikaru 	char sam_ctx_mode;
1.1  hikaru 	char sam_nn_mode;
1.1  hikaru 	char sam_lm0_mode;
1.1  hikaru 	char sam_lm1_mode;
1.1  hikaru 	char sam_scs_mode;
1.1  hikaru 	char sam_lm2_mode;
1.1  hikaru 	char sam_lm3_mode;
1.1  hikaru 	char sam_tindex_mode;
1.1  hikaru 	u_char sam_reserved[7];
1.1  hikaru 	char sam_simg_name[256];
1.1  hikaru 	char sam_appmeta_data[256];
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct suof_file_hdr {
1.1  hikaru 	u_int sfh_file_id;
1.1  hikaru 	u_int sfh_check_sum;
1.1  hikaru 	char sfh_min_ver;
1.1  hikaru 	char sfh_maj_ver;
1.1  hikaru 	char sfh_fw_type;
1.1  hikaru 	char sfh_reserved;
1.1  hikaru 	u_short sfh_max_chunks;
1.1  hikaru 	u_short sfh_num_chunks;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct suof_chunk_hdr {
1.1  hikaru 	char sch_chunk_id[SUOF_OBJ_ID_LEN];
1.1  hikaru 	uint64_t sch_offset;
1.1  hikaru 	uint64_t sch_size;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct suof_str_tab {
1.1  hikaru 	u_int sst_tab_length;
1.1  hikaru 	u_int sst_strings;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct suof_obj_hdr {
1.1  hikaru 	u_int soh_img_length;
1.1  hikaru 	u_int soh_reserved;
1.1  hikaru };
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru /* accel */
1.1  hikaru
1.1  hikaru enum fw_slice {
1.1  hikaru 	FW_SLICE_NULL = 0,	/* NULL slice type */
1.1  hikaru 	FW_SLICE_CIPHER = 1,	/* CIPHER slice type */
1.1  hikaru 	FW_SLICE_AUTH = 2,	/* AUTH slice type */
1.1  hikaru 	FW_SLICE_DRAM_RD = 3,	/* DRAM_RD Logical slice type */
1.1  hikaru 	FW_SLICE_DRAM_WR = 4,	/* DRAM_WR Logical slice type */
1.1  hikaru 	FW_SLICE_COMP = 5,	/* Compression slice type */
1.1  hikaru 	FW_SLICE_XLAT = 6,	/* Translator slice type */
1.1  hikaru 	FW_SLICE_DELIMITER	/* End delimiter */
1.1  hikaru };
1.1  hikaru #define MAX_FW_SLICE	FW_SLICE_DELIMITER
1.1  hikaru
1.1  hikaru #define QAT_OPTIMAL_ALIGN_SHIFT			6
1.1  hikaru #define QAT_OPTIMAL_ALIGN			(1 << QAT_OPTIMAL_ALIGN_SHIFT)
1.1  hikaru
1.1  hikaru enum hw_auth_algo {
1.1  hikaru 	HW_AUTH_ALGO_NULL = 0,		/* Null hashing */
1.1  hikaru 	HW_AUTH_ALGO_SHA1 = 1,		/* SHA1 hashing */
1.1  hikaru 	HW_AUTH_ALGO_MD5 = 2,		/* MD5 hashing */
1.1  hikaru 	HW_AUTH_ALGO_SHA224 = 3,	/* SHA-224 hashing */
1.1  hikaru 	HW_AUTH_ALGO_SHA256 = 4,	/* SHA-256 hashing */
1.1  hikaru 	HW_AUTH_ALGO_SHA384 = 5,	/* SHA-384 hashing */
1.1  hikaru 	HW_AUTH_ALGO_SHA512 = 6,	/* SHA-512 hashing */
1.1  hikaru 	HW_AUTH_ALGO_AES_XCBC_MAC = 7,	/* AES-XCBC-MAC hashing */
1.1  hikaru 	HW_AUTH_ALGO_AES_CBC_MAC = 8,	/* AES-CBC-MAC hashing */
1.1  hikaru 	HW_AUTH_ALGO_AES_F9 = 9,	/* AES F9 hashing */
1.1  hikaru 	HW_AUTH_ALGO_GALOIS_128 = 10,	/* Galois 128 bit hashing */
1.1  hikaru 	HW_AUTH_ALGO_GALOIS_64 = 11,	/* Galois 64 hashing */
1.1  hikaru 	HW_AUTH_ALGO_KASUMI_F9 = 12,	/* Kasumi F9 hashing */
1.1  hikaru 	HW_AUTH_ALGO_SNOW_3G_UIA2 = 13,	/* UIA2/SNOW_3H F9 hashing */
1.1  hikaru 	HW_AUTH_ALGO_ZUC_3G_128_EIA3 = 14,
1.1  hikaru 	HW_AUTH_RESERVED_1 = 15,
1.1  hikaru 	HW_AUTH_RESERVED_2 = 16,
1.1  hikaru 	HW_AUTH_ALGO_SHA3_256 = 17,
1.1  hikaru 	HW_AUTH_RESERVED_3 = 18,
1.1  hikaru 	HW_AUTH_ALGO_SHA3_512 = 19,
1.1  hikaru 	HW_AUTH_ALGO_DELIMITER = 20
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum hw_auth_mode {
1.1  hikaru 	HW_AUTH_MODE0,
1.1  hikaru 	HW_AUTH_MODE1,
1.1  hikaru 	HW_AUTH_MODE2,
1.1  hikaru 	HW_AUTH_MODE_DELIMITER
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct hw_auth_config {
1.1  hikaru 	uint32_t config;
1.1  hikaru 	/* Configuration used for setting up the slice */
1.1  hikaru 	uint32_t reserved;
1.1  hikaru 	/* Reserved */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define HW_AUTH_CONFIG_SHA3_ALGO	__BITS(22, 23)
1.1  hikaru #define HW_AUTH_CONFIG_SHA3_PADDING	__BIT(16)
1.1  hikaru #define HW_AUTH_CONFIG_CMPLEN		__BITS(14, 8)
1.1  hikaru 	/* The length of the digest if the QAT is to the check*/
1.1  hikaru #define HW_AUTH_CONFIG_MODE		__BITS(7, 4)
1.1  hikaru #define HW_AUTH_CONFIG_ALGO		__BITS(3, 0)
1.1  hikaru
1.1  hikaru #define HW_AUTH_CONFIG_BUILD(mode, algo, cmp_len)	\
1.1  hikaru 	    __SHIFTIN(mode, HW_AUTH_CONFIG_MODE) |	\
1.1  hikaru 	    __SHIFTIN(algo, HW_AUTH_CONFIG_ALGO) |	\
1.1  hikaru 	    __SHIFTIN(cmp_len, HW_AUTH_CONFIG_CMPLEN)
1.1  hikaru
1.1  hikaru struct hw_auth_counter {
1.1  hikaru 	uint32_t counter;		/* Counter value */
1.1  hikaru 	uint32_t reserved;		/* Reserved */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct hw_auth_setup {
1.1  hikaru 	struct hw_auth_config auth_config;
1.1  hikaru 	/* Configuration word for the auth slice */
1.1  hikaru 	struct hw_auth_counter auth_counter;
1.1  hikaru 	/* Auth counter value for this request */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define HW_NULL_STATE1_SZ		32
1.1  hikaru #define HW_MD5_STATE1_SZ		16
1.1  hikaru #define HW_SHA1_STATE1_SZ		20
1.1  hikaru #define HW_SHA224_STATE1_SZ		32
1.1  hikaru #define HW_SHA256_STATE1_SZ		32
1.1  hikaru #define HW_SHA3_256_STATE1_SZ		32
1.1  hikaru #define HW_SHA384_STATE1_SZ		64
1.1  hikaru #define HW_SHA512_STATE1_SZ		64
1.1  hikaru #define HW_SHA3_512_STATE1_SZ		64
1.1  hikaru #define HW_SHA3_224_STATE1_SZ		28
1.1  hikaru #define HW_SHA3_384_STATE1_SZ		48
1.1  hikaru #define HW_AES_XCBC_MAC_STATE1_SZ	16
1.1  hikaru #define HW_AES_CBC_MAC_STATE1_SZ	16
1.1  hikaru #define HW_AES_F9_STATE1_SZ		32
1.1  hikaru #define HW_KASUMI_F9_STATE1_SZ		16
1.1  hikaru #define HW_GALOIS_128_STATE1_SZ		16
1.1  hikaru #define HW_SNOW_3G_UIA2_STATE1_SZ	8
1.1  hikaru #define HW_ZUC_3G_EIA3_STATE1_SZ	8
1.1  hikaru #define HW_NULL_STATE2_SZ		32
1.1  hikaru #define HW_MD5_STATE2_SZ		16
1.1  hikaru #define HW_SHA1_STATE2_SZ		20
1.1  hikaru #define HW_SHA224_STATE2_SZ		32
1.1  hikaru #define HW_SHA256_STATE2_SZ		32
1.1  hikaru #define HW_SHA3_256_STATE2_SZ		0
1.1  hikaru #define HW_SHA384_STATE2_SZ		64
1.1  hikaru #define HW_SHA512_STATE2_SZ		64
1.1  hikaru #define HW_SHA3_512_STATE2_SZ		0
1.1  hikaru #define HW_SHA3_224_STATE2_SZ		0
1.1  hikaru #define HW_SHA3_384_STATE2_SZ		0
1.1  hikaru #define HW_AES_XCBC_MAC_KEY_SZ		16
1.1  hikaru #define HW_AES_CBC_MAC_KEY_SZ		16
1.1  hikaru #define HW_AES_CCM_CBC_E_CTR0_SZ	16
1.1  hikaru #define HW_F9_IK_SZ			16
1.1  hikaru #define HW_F9_FK_SZ			16
1.1  hikaru #define HW_KASUMI_F9_STATE2_SZ		(HW_F9_IK_SZ + HW_F9_FK_SZ)
1.1  hikaru #define HW_AES_F9_STATE2_SZ		HW_KASUMI_F9_STATE2_SZ
1.1  hikaru #define HW_SNOW_3G_UIA2_STATE2_SZ	24
1.1  hikaru #define HW_ZUC_3G_EIA3_STATE2_SZ	32
1.1  hikaru #define HW_GALOIS_H_SZ			16
1.1  hikaru #define HW_GALOIS_LEN_A_SZ		8
1.1  hikaru #define HW_GALOIS_E_CTR0_SZ		16
1.1  hikaru
1.1  hikaru struct hw_auth_sha512 {
1.1  hikaru 	struct hw_auth_setup inner_setup;
1.1  hikaru 	/* Inner loop configuration word for the slice */
1.1  hikaru 	uint8_t state1[HW_SHA512_STATE1_SZ];
1.1  hikaru 	/* Slice state1 variable */
1.1  hikaru 	struct hw_auth_setup outer_setup;
1.1  hikaru 	/* Outer configuration word for the slice */
1.1  hikaru 	uint8_t state2[HW_SHA512_STATE2_SZ];
1.1  hikaru 	/* Slice state2 variable */
1.1  hikaru };
1.1  hikaru
1.1  hikaru union hw_auth_algo_blk {
1.1  hikaru 	struct hw_auth_sha512 max;
1.1  hikaru 	/* This is the largest possible auth setup block size */
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum hw_cipher_algo {
1.1  hikaru 	HW_CIPHER_ALGO_NULL = 0,		/* Null ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_DES = 1,			/* DES ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_3DES = 2,		/* 3DES ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_AES128 = 3,		/* AES-128 ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_AES192 = 4,		/* AES-192 ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_AES256 = 5,		/* AES-256 ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_ARC4 = 6,		/* ARC4 ciphering */
1.1  hikaru 	HW_CIPHER_ALGO_KASUMI = 7,		/* Kasumi */
1.1  hikaru 	HW_CIPHER_ALGO_SNOW_3G_UEA2 = 8,	/* Snow_3G */
1.1  hikaru 	HW_CIPHER_ALGO_ZUC_3G_128_EEA3 = 9,
1.1  hikaru 	HW_CIPHER_DELIMITER = 10		/* Delimiter type */
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum hw_cipher_mode {
1.1  hikaru 	HW_CIPHER_ECB_MODE = 0,		/* ECB mode */
1.1  hikaru 	HW_CIPHER_CBC_MODE = 1,		/* CBC more */
1.1  hikaru 	HW_CIPHER_CTR_MODE = 2,		/* CTR mode */
1.1  hikaru 	HW_CIPHER_F8_MODE = 3,		/* F8 mode */
1.1  hikaru 	HW_CIPHER_XTS_MODE = 6,
1.1  hikaru 	HW_CIPHER_MODE_DELIMITER = 7	/* Delimiter type */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct hw_cipher_config {
1.1  hikaru 	uint32_t val;			/* Cipher slice configuration */
1.1  hikaru 	uint32_t reserved;		/* Reserved */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define CIPHER_CONFIG_CONVERT		__BIT(9)
1.1  hikaru #define CIPHER_CONFIG_DIR		__BIT(8)
1.1  hikaru #define CIPHER_CONFIG_MODE		__BITS(7, 4)
1.1  hikaru #define CIPHER_CONFIG_ALGO		__BITS(3, 0)
1.1  hikaru #define HW_CIPHER_CONFIG_BUILD(mode, algo, convert, dir)	\
1.1  hikaru 	    __SHIFTIN(mode, CIPHER_CONFIG_MODE) |		\
1.1  hikaru 	    __SHIFTIN(algo, CIPHER_CONFIG_ALGO) |		\
1.1  hikaru 	    __SHIFTIN(convert, CIPHER_CONFIG_CONVERT) |		\
1.1  hikaru 	    __SHIFTIN(dir, CIPHER_CONFIG_DIR)
1.1  hikaru
1.1  hikaru enum hw_cipher_dir {
1.1  hikaru 	HW_CIPHER_ENCRYPT = 0,		/* encryption is required */
1.1  hikaru 	HW_CIPHER_DECRYPT = 1,		/* decryption is required */
1.1  hikaru };
1.1  hikaru
1.1  hikaru enum hw_cipher_convert {
1.1  hikaru 	HW_CIPHER_NO_CONVERT = 0,	/* no key convert is required*/
1.1  hikaru 	HW_CIPHER_KEY_CONVERT = 1,	/* key conversion is required*/
1.1  hikaru };
1.1  hikaru
1.1  hikaru #define CIPHER_MODE_F8_KEY_SZ_MULT	2
1.1  hikaru #define CIPHER_MODE_XTS_KEY_SZ_MULT	2
1.1  hikaru
1.1  hikaru #define HW_DES_BLK_SZ			8
1.1  hikaru #define HW_3DES_BLK_SZ			8
1.1  hikaru #define HW_NULL_BLK_SZ			8
1.1  hikaru #define HW_AES_BLK_SZ			16
1.1  hikaru #define HW_KASUMI_BLK_SZ		8
1.1  hikaru #define HW_SNOW_3G_BLK_SZ		8
1.1  hikaru #define HW_ZUC_3G_BLK_SZ		8
1.1  hikaru #define HW_NULL_KEY_SZ			256
1.1  hikaru #define HW_DES_KEY_SZ			8
1.1  hikaru #define HW_3DES_KEY_SZ			24
1.1  hikaru #define HW_AES_128_KEY_SZ		16
1.1  hikaru #define HW_AES_192_KEY_SZ		24
1.1  hikaru #define HW_AES_256_KEY_SZ		32
1.1  hikaru #define HW_AES_128_F8_KEY_SZ		(HW_AES_128_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_F8_KEY_SZ_MULT)
1.1  hikaru #define HW_AES_192_F8_KEY_SZ		(HW_AES_192_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_F8_KEY_SZ_MULT)
1.1  hikaru #define HW_AES_256_F8_KEY_SZ		(HW_AES_256_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_F8_KEY_SZ_MULT)
1.1  hikaru #define HW_AES_128_XTS_KEY_SZ		(HW_AES_128_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_XTS_KEY_SZ_MULT)
1.1  hikaru #define HW_AES_256_XTS_KEY_SZ		(HW_AES_256_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_XTS_KEY_SZ_MULT)
1.1  hikaru #define HW_KASUMI_KEY_SZ		16
1.1  hikaru #define HW_KASUMI_F8_KEY_SZ		(HW_KASUMI_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_F8_KEY_SZ_MULT)
1.1  hikaru #define HW_AES_128_XTS_KEY_SZ		(HW_AES_128_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_XTS_KEY_SZ_MULT)
1.1  hikaru #define HW_AES_256_XTS_KEY_SZ		(HW_AES_256_KEY_SZ *	\
1.1  hikaru 					    CIPHER_MODE_XTS_KEY_SZ_MULT)
1.1  hikaru #define HW_ARC4_KEY_SZ			256
1.1  hikaru #define HW_SNOW_3G_UEA2_KEY_SZ		16
1.1  hikaru #define HW_SNOW_3G_UEA2_IV_SZ		16
1.1  hikaru #define HW_ZUC_3G_EEA3_KEY_SZ		16
1.1  hikaru #define HW_ZUC_3G_EEA3_IV_SZ		16
1.1  hikaru #define HW_MODE_F8_NUM_REG_TO_CLEAR	2
1.1  hikaru
1.1  hikaru struct hw_cipher_aes256_f8 {
1.1  hikaru 	struct hw_cipher_config cipher_config;
1.1  hikaru 	/* Cipher configuration word for the slice set to
1.1  hikaru 	 * AES-256 and the F8 mode */
1.1  hikaru 	uint8_t key[HW_AES_256_F8_KEY_SZ];
1.1  hikaru 	/* Cipher key */
1.1  hikaru };
1.1  hikaru
1.1  hikaru union hw_cipher_algo_blk {
1.1  hikaru 	struct hw_cipher_aes256_f8 max;		/* AES-256 F8 Cipher */
1.1  hikaru 	/* This is the largest possible cipher setup block size */
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct flat_buffer_desc {
1.1  hikaru 	uint32_t data_len_in_bytes;
1.1  hikaru 	uint32_t reserved;
1.1  hikaru 	uint64_t phy_buffer;
1.1  hikaru };
1.1  hikaru
1.1  hikaru struct buffer_list_desc {
1.1  hikaru 	uint64_t resrvd;
1.1  hikaru 	uint32_t num_buffers;
1.1  hikaru 	uint32_t reserved;
1.1  hikaru 	struct flat_buffer_desc phy_buffers[];
1.1  hikaru };
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru /* look aside */
1.1  hikaru
1.1  hikaru enum fw_la_cmd_id {
1.1  hikaru 	FW_LA_CMD_CIPHER,			/* Cipher Request */
1.1  hikaru 	FW_LA_CMD_AUTH,			/* Auth Request */
1.1  hikaru 	FW_LA_CMD_CIPHER_HASH,		/* Cipher-Hash Request */
1.1  hikaru 	FW_LA_CMD_HASH_CIPHER,		/* Hash-Cipher Request */
1.1  hikaru 	FW_LA_CMD_TRNG_GET_RANDOM,		/* TRNG Get Random Request */
1.1  hikaru 	FW_LA_CMD_TRNG_TEST,		/* TRNG Test Request */
1.1  hikaru 	FW_LA_CMD_SSL3_KEY_DERIVE,		/* SSL3 Key Derivation Request */
1.1  hikaru 	FW_LA_CMD_TLS_V1_1_KEY_DERIVE,	/* TLS Key Derivation Request */
1.1  hikaru 	FW_LA_CMD_TLS_V1_2_KEY_DERIVE,	/* TLS Key Derivation Request */
1.1  hikaru 	FW_LA_CMD_MGF1,			/* MGF1 Request */
1.1  hikaru 	FW_LA_CMD_AUTH_PRE_COMP,		/* Auth Pre-Compute Request */
1.1  hikaru #if 0 /* incompatible between qat 1.5 and 1.7 */
1.1  hikaru 	FW_LA_CMD_CIPHER_CIPHER,		/* Cipher-Cipher Request */
1.1  hikaru 	FW_LA_CMD_HASH_HASH,		/* Hash-Hash Request */
1.1  hikaru 	FW_LA_CMD_CIPHER_PRE_COMP,		/* Auth Pre-Compute Request */
1.1  hikaru #endif
1.1  hikaru 	FW_LA_CMD_DELIMITER,		/* Delimiter type */
1.1  hikaru };
1.1  hikaru
1.1  hikaru #endif