/* SPDX-License-Identifier: BSD-2-Clause-NetBSD AND BSD-3-Clause */ /* $NetBSD: qatreg.h,v 1.1 2019/11/20 09:37:46 hikaru Exp $ */ /* * Copyright (c) 2019 Internet Initiative Japan, Inc. * All rights reserved. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ /* * Copyright(c) 2007-2019 Intel Corporation. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Intel Corporation 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 * OWNER 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. */ /* $FreeBSD$ */ #ifndef _DEV_PCI_QATREG_H_ #define _DEV_PCI_QATREG_H_ #define __BIT(__n) \ (((uintmax_t)(__n) >= NBBY * sizeof(uintmax_t)) ? 0 : \ ((uintmax_t)1 << (uintmax_t)((__n) & (NBBY * sizeof(uintmax_t) - 1)))) #define __BITS(__m, __n) \ ((__BIT(MAX((__m), (__n)) + 1) - 1) ^ (__BIT(MIN((__m), (__n))) - 1)) #define __LOWEST_SET_BIT(__mask) ((((__mask) - 1) & (__mask)) ^ (__mask)) #define __SHIFTOUT(__x, __mask) (((__x) & (__mask)) / __LOWEST_SET_BIT(__mask)) #define __SHIFTIN(__x, __mask) ((__x) * __LOWEST_SET_BIT(__mask)) /* Limits */ #define MAX_NUM_AE 0x10 #define MAX_NUM_ACCEL 6 #define MAX_AE 0x18 #define MAX_AE_CTX 8 #define MAX_ARB 4 #define MAX_USTORE_PER_SEG 0x8000 /* 16k * 2 */ #define MAX_USTORE MAX_USTORE_PER_SEG #define MAX_AE_PER_ACCEL 4 /* XXX */ #define MAX_BANK_PER_ACCEL 16 /* XXX */ #define MAX_RING_PER_BANK 16 #define MAX_XFER_REG 128 #define MAX_GPR_REG 128 #define MAX_NN_REG 128 #define MAX_LMEM_REG 1024 #define MAX_INP_STATE 16 #define MAX_CAM_REG 16 #define MAX_FIFO_QWADDR 160 #define MAX_EXEC_INST 100 #define UWORD_CPYBUF_SIZE 1024 /* micro-store copy buffer (bytes) */ #define INVLD_UWORD 0xffffffffffull /* invalid micro-instruction */ #define AEV2_PACKED_UWORD_BYTES 6 /* version 2 packed uword size */ #define UWORD_MASK 0xbffffffffffull /* micro-word mask without parity */ #define AE_ALL_CTX 0xff /* PCIe configuration space parameter */ #define NO_PCI_REG (-1) #define NO_REG_OFFSET 0 #define MAX_BARS 3 /* Fuse Control */ #define FUSECTL_REG 0x40 #define FUSECTL_MASK __BIT(31) #define LEGFUSE_REG 0x4c #define LEGFUSE_ACCEL_MASK_CIPHER_SLICE __BIT(0) #define LEGFUSE_ACCEL_MASK_AUTH_SLICE __BIT(1) #define LEGFUSE_ACCEL_MASK_PKE_SLICE __BIT(2) #define LEGFUSE_ACCEL_MASK_COMPRESS_SLICE __BIT(3) #define LEGFUSE_ACCEL_MASK_LZS_SLICE __BIT(4) #define LEGFUSE_ACCEL_MASK_EIA3_SLICE __BIT(5) #define LEGFUSE_ACCEL_MASK_SHA3_SLICE __BIT(6) /* -------------------------------------------------------------------------- */ /* PETRINGCSR region */ /* ETR parameters */ #define ETR_MAX_RINGS_PER_BANK 16 /* ETR registers */ #define ETR_RING_CONFIG 0x0000 #define ETR_RING_LBASE 0x0040 #define ETR_RING_UBASE 0x0080 #define ETR_RING_HEAD_OFFSET 0x00C0 #define ETR_RING_TAIL_OFFSET 0x0100 #define ETR_RING_STAT 0x0140 #define ETR_UO_STAT 0x0148 #define ETR_E_STAT 0x014C #define ETR_NE_STAT 0x0150 #define ETR_NF_STAT 0x0154 #define ETR_F_STAT 0x0158 #define ETR_C_STAT 0x015C #define ETR_INT_EN 0x016C #define ETR_INT_REG 0x0170 #define ETR_INT_SRCSEL 0x0174 #define ETR_INT_SRCSEL_2 0x0178 #define ETR_INT_COL_EN 0x017C #define ETR_INT_COL_CTL 0x0180 #define ETR_AP_NF_MASK 0x2000 #define ETR_AP_NF_DEST 0x2020 #define ETR_AP_NE_MASK 0x2040 #define ETR_AP_NE_DEST 0x2060 #define ETR_AP_DELAY 0x2080 /* ARB registers */ #define ARB_OFFSET 0x30000 #define ARB_REG_SIZE 0x4 #define ARB_WTR_SIZE 0x20 #define ARB_REG_SLOT 0x1000 #define ARB_WTR_OFFSET 0x010 #define ARB_RO_EN_OFFSET 0x090 #define ARB_WRK_2_SER_MAP_OFFSET 0x180 #define ARB_RINGSRVARBEN_OFFSET 0x19c /* Ring Config */ #define ETR_RING_CONFIG_LATE_HEAD_POINTER_MODE __BIT(31) #define ETR_RING_CONFIG_NEAR_FULL_WM __BITS(14, 10) #define ETR_RING_CONFIG_NEAR_EMPTY_WM __BITS(9, 5) #define ETR_RING_CONFIG_RING_SIZE __BITS(4, 0) #define ETR_RING_CONFIG_NEAR_WM_0 0x00 #define ETR_RING_CONFIG_NEAR_WM_4 0x01 #define ETR_RING_CONFIG_NEAR_WM_8 0x02 #define ETR_RING_CONFIG_NEAR_WM_16 0x03 #define ETR_RING_CONFIG_NEAR_WM_32 0x04 #define ETR_RING_CONFIG_NEAR_WM_64 0x05 #define ETR_RING_CONFIG_NEAR_WM_128 0x06 #define ETR_RING_CONFIG_NEAR_WM_256 0x07 #define ETR_RING_CONFIG_NEAR_WM_512 0x08 #define ETR_RING_CONFIG_NEAR_WM_1K 0x09 #define ETR_RING_CONFIG_NEAR_WM_2K 0x0A #define ETR_RING_CONFIG_NEAR_WM_4K 0x0B #define ETR_RING_CONFIG_NEAR_WM_8K 0x0C #define ETR_RING_CONFIG_NEAR_WM_16K 0x0D #define ETR_RING_CONFIG_NEAR_WM_32K 0x0E #define ETR_RING_CONFIG_NEAR_WM_64K 0x0F #define ETR_RING_CONFIG_NEAR_WM_128K 0x10 #define ETR_RING_CONFIG_NEAR_WM_256K 0x11 #define ETR_RING_CONFIG_NEAR_WM_512K 0x12 #define ETR_RING_CONFIG_NEAR_WM_1M 0x13 #define ETR_RING_CONFIG_NEAR_WM_2M 0x14 #define ETR_RING_CONFIG_NEAR_WM_4M 0x15 #define ETR_RING_CONFIG_SIZE_64 0x00 #define ETR_RING_CONFIG_SIZE_128 0x01 #define ETR_RING_CONFIG_SIZE_256 0x02 #define ETR_RING_CONFIG_SIZE_512 0x03 #define ETR_RING_CONFIG_SIZE_1K 0x04 #define ETR_RING_CONFIG_SIZE_2K 0x05 #define ETR_RING_CONFIG_SIZE_4K 0x06 #define ETR_RING_CONFIG_SIZE_8K 0x07 #define ETR_RING_CONFIG_SIZE_16K 0x08 #define ETR_RING_CONFIG_SIZE_32K 0x09 #define ETR_RING_CONFIG_SIZE_64K 0x0A #define ETR_RING_CONFIG_SIZE_128K 0x0B #define ETR_RING_CONFIG_SIZE_256K 0x0C #define ETR_RING_CONFIG_SIZE_512K 0x0D #define ETR_RING_CONFIG_SIZE_1M 0x0E #define ETR_RING_CONFIG_SIZE_2M 0x0F #define ETR_RING_CONFIG_SIZE_4M 0x10 /* Default Ring Config is Nearly Full = Full and Nearly Empty = Empty */ #define ETR_RING_CONFIG_BUILD(size) \ (__SHIFTIN(ETR_RING_CONFIG_NEAR_WM_0, \ ETR_RING_CONFIG_NEAR_FULL_WM) | \ __SHIFTIN(ETR_RING_CONFIG_NEAR_WM_0, \ ETR_RING_CONFIG_NEAR_EMPTY_WM) | \ __SHIFTIN((size), ETR_RING_CONFIG_RING_SIZE)) /* Response Ring Configuration */ #define ETR_RING_CONFIG_BUILD_RESP(size, wm_nf, wm_ne) \ (__SHIFTIN((wm_nf), ETR_RING_CONFIG_NEAR_FULL_WM) | \ __SHIFTIN((wm_ne), ETR_RING_CONFIG_NEAR_EMPTY_WM) | \ __SHIFTIN((size), ETR_RING_CONFIG_RING_SIZE)) /* Ring Base */ #define ETR_RING_BASE_BUILD(addr, size) \ (((addr) >> 6) & (0xFFFFFFFFFFFFFFFFULL << (size))) #define ETR_INT_REG_CLEAR_MASK 0xffff /* Initial bank Interrupt Source mask */ #define ETR_INT_SRCSEL_MASK 0x44444444UL #define ETR_INT_SRCSEL_NEXT_OFFSET 4 #define ETR_RINGS_PER_INT_SRCSEL 8 #define ETR_INT_COL_CTL_ENABLE __BIT(31) #define ETR_AP_NF_MASK_INIT 0xAAAAAAAA #define ETR_AP_NE_MASK_INIT 0x55555555 /* Autopush destination AE bit */ #define ETR_AP_DEST_ENABLE __BIT(7) #define ETR_AP_DEST_AE __BITS(6, 2) #define ETR_AP_DEST_MAILBOX __BITS(1, 0) /* Autopush destination enable bit */ /* Autopush CSR Offset */ #define ETR_AP_BANK_OFFSET 4 /* Autopush maximum rings per bank */ #define ETR_MAX_RINGS_PER_AP_BANK 32 /* Maximum mailbox per acclerator */ #define ETR_MAX_MAILBOX_PER_ACCELERATOR 4 /* Maximum AEs per mailbox */ #define ETR_MAX_AE_PER_MAILBOX 4 /* Macro to get the ring's autopush bank number */ #define ETR_RING_AP_BANK_NUMBER(ring) ((ring) >> 5) /* Macro to get the ring's autopush mailbox number */ #define ETR_RING_AP_MAILBOX_NUMBER(ring) \ (ETR_RING_AP_BANK_NUMBER(ring) % ETR_MAX_MAILBOX_PER_ACCELERATOR) /* Macro to get the ring number in the autopush bank */ #define ETR_RING_NUMBER_IN_AP_BANK(ring) \ ((ring) % ETR_MAX_RINGS_PER_AP_BANK) #define ETR_RING_EMPTY_ENTRY_SIG (0x7F7F7F7F) /* -------------------------------------------------------------------------- */ /* CAP_GLOBAL_CTL region */ #define FCU_CTRL 0x8c0 #define FCU_CTRL_CMD_NOOP 0 #define FCU_CTRL_CMD_AUTH 1 #define FCU_CTRL_CMD_LOAD 2 #define FCU_CTRL_CMD_START 3 #define FCU_CTRL_AE __BITS(8, 31) #define FCU_STATUS 0x8c4 #define FCU_STATUS_STS __BITS(0, 2) #define FCU_STATUS_STS_NO 0 #define FCU_STATUS_STS_VERI_DONE 1 #define FCU_STATUS_STS_LOAD_DONE 2 #define FCU_STATUS_STS_VERI_FAIL 3 #define FCU_STATUS_STS_LOAD_FAIL 4 #define FCU_STATUS_STS_BUSY 5 #define FCU_STATUS_AUTHFWLD __BIT(8) #define FCU_STATUS_DONE __BIT(9) #define FCU_STATUS_LOADED_AE __BITS(22, 31) #define FCU_STATUS1 0x8c8 #define FCU_DRAM_ADDR_LO 0x8cc #define FCU_DRAM_ADDR_HI 0x8d0 #define FCU_RAMBASE_ADDR_HI 0x8d4 #define FCU_RAMBASE_ADDR_LO 0x8d8 #define FW_AUTH_WAIT_PERIOD 10 #define FW_AUTH_MAX_RETRY 300 #define CAP_GLOBAL_CTL_BASE 0xa00 #define CAP_GLOBAL_CTL_MISC CAP_GLOBAL_CTL_BASE + 0x04 #define CAP_GLOBAL_CTL_MISC_TIMESTAMP_EN __BIT(7) #define CAP_GLOBAL_CTL_RESET CAP_GLOBAL_CTL_BASE + 0x0c #define CAP_GLOBAL_CTL_RESET_MASK __BITS(31, 26) #define CAP_GLOBAL_CTL_RESET_ACCEL_MASK __BITS(25, 20) #define CAP_GLOBAL_CTL_RESET_AE_MASK __BITS(19, 0) #define CAP_GLOBAL_CTL_CLK_EN CAP_GLOBAL_CTL_BASE + 0x50 #define CAP_GLOBAL_CTL_CLK_EN_ACCEL_MASK __BITS(25, 20) #define CAP_GLOBAL_CTL_CLK_EN_AE_MASK __BITS(19, 0) /* -------------------------------------------------------------------------- */ /* AE region */ #define UPC_MASK 0x1ffff #define USTORE_SIZE QAT_16K #define AE_LOCAL_AE_MASK __BITS(31, 12) #define AE_LOCAL_CSR_MASK __BITS(9, 0) /* AE_LOCAL registers */ /* Control Store Address Register */ #define USTORE_ADDRESS 0x000 #define USTORE_ADDRESS_ECS __BIT(31) #define USTORE_ECC_BIT_0 44 #define USTORE_ECC_BIT_1 45 #define USTORE_ECC_BIT_2 46 #define USTORE_ECC_BIT_3 47 #define USTORE_ECC_BIT_4 48 #define USTORE_ECC_BIT_5 49 #define USTORE_ECC_BIT_6 50 /* Control Store Data Lower Register */ #define USTORE_DATA_LOWER 0x004 /* Control Store Data Upper Register */ #define USTORE_DATA_UPPER 0x008 /* Control Store Error Status Register */ #define USTORE_ERROR_STATUS 0x00c /* Arithmetic Logic Unit Output Register */ #define ALU_OUT 0x010 /* Context Arbiter Control Register */ #define CTX_ARB_CNTL 0x014 #define CTX_ARB_CNTL_INIT 0x00000000 /* Context Enables Register */ #define CTX_ENABLES 0x018 #define CTX_ENABLES_INIT 0 #define CTX_ENABLES_INUSE_CONTEXTS __BIT(31) #define CTX_ENABLES_CNTL_STORE_PARITY_ERROR __BIT(29) #define CTX_ENABLES_CNTL_STORE_PARITY_ENABLE __BIT(28) #define CTX_ENABLES_BREAKPOINT __BIT(27) #define CTX_ENABLES_PAR_ERR __BIT(25) #define CTX_ENABLES_NN_MODE __BIT(20) #define CTX_ENABLES_NN_RING_EMPTY __BIT(18) #define CTX_ENABLES_LMADDR_1_GLOBAL __BIT(17) #define CTX_ENABLES_LMADDR_0_GLOBAL __BIT(16) #define CTX_ENABLES_ENABLE __BITS(15,8) #define CTX_ENABLES_IGNORE_W1C_MASK \ (~(CTX_ENABLES_PAR_ERR | \ CTX_ENABLES_BREAKPOINT | \ CTX_ENABLES_CNTL_STORE_PARITY_ERROR)) /* cycles from CTX_ENABLE high to CTX entering executing state */ #define CYCLES_FROM_READY2EXE 8 /* Condition Code Enable Register */ #define CC_ENABLE 0x01c #define CC_ENABLE_INIT 0x2000 /* CSR Context Pointer Register */ #define CSR_CTX_POINTER 0x020 #define CSR_CTX_POINTER_CONTEXT __BITS(2,0) /* Register Error Status Register */ #define REG_ERROR_STATUS 0x030 /* Indirect Context Status Register */ #define CTX_STS_INDIRECT 0x040 #define CTX_STS_INDIRECT_UPC_INIT 0x00000000 /* Active Context Status Register */ #define ACTIVE_CTX_STATUS 0x044 #define ACTIVE_CTX_STATUS_ABO __BIT(31) #define ACTIVE_CTX_STATUS_ACNO __BITS(0, 2) /* Indirect Context Signal Events Register */ #define CTX_SIG_EVENTS_INDIRECT 0x048 #define CTX_SIG_EVENTS_INDIRECT_INIT 0x00000001 /* Active Context Signal Events Register */ #define CTX_SIG_EVENTS_ACTIVE 0x04c /* Indirect Context Wakeup Events Register */ #define CTX_WAKEUP_EVENTS_INDIRECT 0x050 #define CTX_WAKEUP_EVENTS_INDIRECT_VOLUNTARY 0x00000001 #define CTX_WAKEUP_EVENTS_INDIRECT_SLEEP 0x00010000 #define CTX_WAKEUP_EVENTS_INDIRECT_INIT 0x00000001 /* Active Context Wakeup Events Register */ #define CTX_WAKEUP_EVENTS_ACTIVE 0x054 /* Indirect Context Future Count Register */ #define CTX_FUTURE_COUNT_INDIRECT 0x058 /* Active Context Future Count Register */ #define CTX_FUTURE_COUNT_ACTIVE 0x05c /* Indirect Local Memory Address 0 Register */ #define LM_ADDR_0_INDIRECT 0x060 /* Active Local Memory Address 0 Register */ #define LM_ADDR_0_ACTIVE 0x064 /* Indirect Local Memory Address 1 Register */ #define LM_ADDR_1_INDIRECT 0x068 /* Active Local Memory Address 1 Register */ #define LM_ADDR_1_ACTIVE 0x06c /* Byte Index Register */ #define BYTE_INDEX 0x070 /* Indirect Local Memory Address 0 Byte Index Register */ #define INDIRECT_LM_ADDR_0_BYTE_INDEX 0x0e0 /* Active Local Memory Address 0 Byte Index Register */ #define ACTIVE_LM_ADDR_0_BYTE_INDEX 0x0e4 /* Indirect Local Memory Address 1 Byte Index Register */ #define INDIRECT_LM_ADDR_1_BYTE_INDEX 0x0e8 /* Active Local Memory Address 1 Byte Index Register */ #define ACTIVE_LM_ADDR_1_BYTE_INDEX 0x0ec /* Transfer Index Concatenated with Byte Index Register */ #define T_INDEX_BYTE_INDEX 0x0f4 /* Transfer Index Register */ #define T_INDEX 0x074 /* Indirect Future Count Signal Signal Register */ #define FUTURE_COUNT_SIGNAL_INDIRECT 0x078 /* Active Context Future Count Register */ #define FUTURE_COUNT_SIGNAL_ACTIVE 0x07c /* Next Neighbor Put Register */ #define NN_PUT 0x080 /* Next Neighbor Get Register */ #define NN_GET 0x084 /* Timestamp Low Register */ #define TIMESTAMP_LOW 0x0c0 /* Timestamp High Register */ #define TIMESTAMP_HIGH 0x0c4 /* Next Neighbor Signal Register */ #define NEXT_NEIGHBOR_SIGNAL 0x100 /* Previous Neighbor Signal Register */ #define PREV_NEIGHBOR_SIGNAL 0x104 /* Same AccelEngine Signal Register */ #define SAME_AE_SIGNAL 0x108 /* Cyclic Redundancy Check Remainder Register */ #define CRC_REMAINDER 0x140 /* Profile Count Register */ #define PROFILE_COUNT 0x144 /* Pseudorandom Number Register */ #define PSEUDO_RANDOM_NUMBER 0x148 /* Signature Enable Register */ #define SIGNATURE_ENABLE 0x150 /* Miscellaneous Control Register */ #define AE_MISC_CONTROL 0x160 #define AE_MISC_CONTROL_PARITY_ENABLE __BIT(24) #define AE_MISC_CONTROL_FORCE_BAD_PARITY __BIT(23) #define AE_MISC_CONTROL_ONE_CTX_RELOAD __BIT(22) #define AE_MISC_CONTROL_CS_RELOAD __BITS(21, 20) #define AE_MISC_CONTROL_SHARE_CS __BIT(2) /* Control Store Address 1 Register */ #define USTORE_ADDRESS1 0x158 /* Local CSR Status Register */ #define LOCAL_CSR_STATUS 0x180 #define LOCAL_CSR_STATUS_STATUS 0x1 /* NULL Register */ #define NULL_CSR 0x3fc /* AE_XFER macros */ #define AE_XFER_AE_MASK __BITS(31, 12) #define AE_XFER_CSR_MASK __BITS(9, 2) #define AEREG_BAD_REGADDR 0xffff /* bad register address */ /* -------------------------------------------------------------------------- */ #define SSMWDT(i) ((i) * 0x4000 + 0x54) #define SSMWDTPKE(i) ((i) * 0x4000 + 0x58) #define INTSTATSSM(i) ((i) * 0x4000 + 0x04) #define INTSTATSSM_SHANGERR __BIT(13) #define PPERR(i) ((i) * 0x4000 + 0x08) #define PPERRID(i) ((i) * 0x4000 + 0x0C) #define CERRSSMSH(i) ((i) * 0x4000 + 0x10) #define UERRSSMSH(i) ((i) * 0x4000 + 0x18) #define UERRSSMSHAD(i) ((i) * 0x4000 + 0x1C) #define SLICEHANGSTATUS(i) ((i) * 0x4000 + 0x4C) #define SLICE_HANG_AUTH0_MASK __BIT(0) #define SLICE_HANG_AUTH1_MASK __BIT(1) #define SLICE_HANG_CPHR0_MASK __BIT(4) #define SLICE_HANG_CPHR1_MASK __BIT(5) #define SLICE_HANG_CMP0_MASK __BIT(8) #define SLICE_HANG_CMP1_MASK __BIT(9) #define SLICE_HANG_XLT0_MASK __BIT(12) #define SLICE_HANG_XLT1_MASK __BIT(13) #define SLICE_HANG_MMP0_MASK __BIT(16) #define SLICE_HANG_MMP1_MASK __BIT(17) #define SLICE_HANG_MMP2_MASK __BIT(18) #define SLICE_HANG_MMP3_MASK __BIT(19) #define SLICE_HANG_MMP4_MASK __BIT(20) #define SHINTMASKSSM(i) ((i) * 0x4000 + 0x1018) #define ENABLE_SLICE_HANG 0x000000 #define MAX_MMP (5) #define MMP_BASE(i) ((i) * 0x1000 % 0x3800) #define CERRSSMMMP(i, n) ((i) * 0x4000 + MMP_BASE(n) + 0x380) #define UERRSSMMMP(i, n) ((i) * 0x4000 + MMP_BASE(n) + 0x388) #define UERRSSMMMPAD(i, n) ((i) * 0x4000 + MMP_BASE(n) + 0x38C) #define CPP_CFC_ERR_STATUS (0x30000 + 0xC04) #define CPP_CFC_ERR_PPID (0x30000 + 0xC08) #define ERRSOU0 (0x3A000 + 0x00) #define ERRSOU1 (0x3A000 + 0x04) #define ERRSOU2 (0x3A000 + 0x08) #define ERRSOU3 (0x3A000 + 0x0C) #define ERRSOU4 (0x3A000 + 0xD0) #define ERRSOU5 (0x3A000 + 0xD8) #define ERRMSK0 (0x3A000 + 0x10) #define ERRMSK1 (0x3A000 + 0x14) #define ERRMSK2 (0x3A000 + 0x18) #define ERRMSK3 (0x3A000 + 0x1C) #define ERRMSK4 (0x3A000 + 0xD4) #define ERRMSK5 (0x3A000 + 0xDC) #define EMSK3_CPM0_MASK __BIT(2) #define EMSK3_CPM1_MASK __BIT(3) #define EMSK5_CPM2_MASK __BIT(16) #define EMSK5_CPM3_MASK __BIT(17) #define EMSK5_CPM4_MASK __BIT(18) #define RICPPINTSTS (0x3A000 + 0x114) #define RIERRPUSHID (0x3A000 + 0x118) #define RIERRPULLID (0x3A000 + 0x11C) #define TICPPINTSTS (0x3A400 + 0x13C) #define TIERRPUSHID (0x3A400 + 0x140) #define TIERRPULLID (0x3A400 + 0x144) #define SECRAMUERR (0x3AC00 + 0x04) #define SECRAMUERRAD (0x3AC00 + 0x0C) #define CPPMEMTGTERR (0x3AC00 + 0x10) #define ERRPPID (0x3AC00 + 0x14) #define ADMINMSGUR 0x3a574 #define ADMINMSGLR 0x3a578 #define MAILBOX_BASE 0x20970 #define MAILBOX_STRIDE 0x1000 #define ADMINMSG_LEN 32 /* -------------------------------------------------------------------------- */ static const uint8_t mailbox_const_tab[1024] __aligned(1024) = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x11, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x11, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x21, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x13, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x13, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x13, 0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x23, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x33, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x06, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x06, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 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0x0c, 0x2e, 0x0d, 0x64, 0xf9, 0x8f, 0xa7, 0x47, 0xb5, 0x48, 0x1d, 0xbe, 0xfa, 0x4f, 0xa4, 0x06, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x6a, 0x09, 0xe6, 0x67, 0xf3, 0xbc, 0xc9, 0x08, 0xbb, 0x67, 0xae, 0x85, 0x84, 0xca, 0xa7, 0x3b, 0x3c, 0x6e, 0xf3, 0x72, 0xfe, 0x94, 0xf8, 0x2b, 0xa5, 0x4f, 0xf5, 0x3a, 0x5f, 0x1d, 0x36, 0xf1, 0x51, 0x0e, 0x52, 0x7f, 0xad, 0xe6, 0x82, 0xd1, 0x9b, 0x05, 0x68, 0x8c, 0x2b, 0x3e, 0x6c, 0x1f, 0x1f, 0x83, 0xd9, 0xab, 0xfb, 0x41, 0xbd, 0x6b, 0x5b, 0xe0, 0xcd, 0x19, 0x13, 0x7e, 0x21, 0x79, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 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*/ static const uint64_t ae_clear_gprs_inst[] = { 0x0F0000C0000ull, /* .0 l0000!val = 0 ; immed[l0000!val, 0x0] */ 0x0F000000380ull, /* .1 l0000!count = 128 ; immed[l0000!count, 0x80] */ 0x0D805000011ull, /* .2 br!=ctx[0, ctx_init#] */ 0x0FC082C0300ull, /* .3 local_csr_wr[nn_put, 0] */ 0x0F0000C0300ull, /* .4 nop */ 0x0F0000C0300ull, /* .5 nop */ 0x0F0000C0300ull, /* .6 nop */ 0x0F0000C0300ull, /* .7 nop */ 0x0A0643C0000ull, /* .8 init_nn#:alu[*n$index++, --, b, l0000!val] */ 0x0BAC0000301ull, /* .9 alu[l0000!count, l0000!count, -, 1] */ 0x0D802000101ull, /* .10 bne[init_nn#] */ 0x0F0000C0001ull, /* .11 l0000!indx = 0 ; immed[l0000!indx, 0x0] */ 0x0FC066C0001ull, /* .12 local_csr_wr[active_lm_addr_0, l0000!indx]; * put indx to lm_addr */ 0x0F0000C0300ull, /* .13 nop */ 0x0F0000C0300ull, /* .14 nop */ 0x0F0000C0300ull, /* .15 nop */ 0x0F000400300ull, /* .16 l0000!count = 1024 ; immed[l0000!count, 0x400] */ 0x0A0610C0000ull, /* .17 init_lm#:alu[*l$index0++, --, b, l0000!val] */ 0x0BAC0000301ull, /* .18 alu[l0000!count, l0000!count, -, 1] */ 0x0D804400101ull, /* .19 bne[init_lm#] */ 0x0A0580C0000ull, /* .20 ctx_init#:alu[$l0000!xfers[0], --, b, l0000!val] */ 0x0A0581C0000ull, /* .21 alu[$l0000!xfers[1], --, b, l0000!val] */ 0x0A0582C0000ull, /* .22 alu[$l0000!xfers[2], --, b, l0000!val] */ 0x0A0583C0000ull, /* .23 alu[$l0000!xfers[3], --, b, l0000!val] */ 0x0A0584C0000ull, /* .24 alu[$l0000!xfers[4], --, b, l0000!val] */ 0x0A0585C0000ull, /* .25 alu[$l0000!xfers[5], --, b, l0000!val] */ 0x0A0586C0000ull, /* .26 alu[$l0000!xfers[6], --, b, l0000!val] */ 0x0A0587C0000ull, /* .27 alu[$l0000!xfers[7], --, b, l0000!val] */ 0x0A0588C0000ull, /* .28 alu[$l0000!xfers[8], --, b, l0000!val] */ 0x0A0589C0000ull, /* .29 alu[$l0000!xfers[9], --, b, l0000!val] */ 0x0A058AC0000ull, /* .30 alu[$l0000!xfers[10], --, b, l0000!val] */ 0x0A058BC0000ull, /* .31 alu[$l0000!xfers[11], --, b, l0000!val] */ 0x0A058CC0000ull, /* .32 alu[$l0000!xfers[12], --, b, l0000!val] */ 0x0A058DC0000ull, /* .33 alu[$l0000!xfers[13], --, b, l0000!val] */ 0x0A058EC0000ull, /* .34 alu[$l0000!xfers[14], --, b, l0000!val] */ 0x0A058FC0000ull, /* .35 alu[$l0000!xfers[15], --, b, l0000!val] */ 0x0A05C0C0000ull, /* .36 alu[$l0000!xfers[16], --, b, l0000!val] */ 0x0A05C1C0000ull, /* .37 alu[$l0000!xfers[17], --, b, l0000!val] */ 0x0A05C2C0000ull, /* .38 alu[$l0000!xfers[18], --, b, l0000!val] */ 0x0A05C3C0000ull, /* .39 alu[$l0000!xfers[19], --, b, l0000!val] */ 0x0A05C4C0000ull, /* .40 alu[$l0000!xfers[20], --, b, l0000!val] */ 0x0A05C5C0000ull, /* .41 alu[$l0000!xfers[21], --, b, l0000!val] */ 0x0A05C6C0000ull, /* .42 alu[$l0000!xfers[22], --, b, l0000!val] */ 0x0A05C7C0000ull, /* .43 alu[$l0000!xfers[23], --, b, l0000!val] */ 0x0A05C8C0000ull, /* .44 alu[$l0000!xfers[24], --, b, l0000!val] */ 0x0A05C9C0000ull, /* .45 alu[$l0000!xfers[25], --, b, l0000!val] */ 0x0A05CAC0000ull, /* .46 alu[$l0000!xfers[26], --, b, l0000!val] */ 0x0A05CBC0000ull, /* .47 alu[$l0000!xfers[27], --, b, l0000!val] */ 0x0A05CCC0000ull, /* .48 alu[$l0000!xfers[28], --, b, l0000!val] */ 0x0A05CDC0000ull, /* .49 alu[$l0000!xfers[29], --, b, l0000!val] */ 0x0A05CEC0000ull, /* .50 alu[$l0000!xfers[30], --, b, l0000!val] */ 0x0A05CFC0000ull, /* .51 alu[$l0000!xfers[31], --, b, l0000!val] */ 0x0A0400C0000ull, /* .52 alu[l0000!gprega[0], --, b, l0000!val] */ 0x0B0400C0000ull, /* .53 alu[l0000!gpregb[0], --, b, l0000!val] */ 0x0A0401C0000ull, /* .54 alu[l0000!gprega[1], --, b, l0000!val] */ 0x0B0401C0000ull, /* .55 alu[l0000!gpregb[1], --, b, l0000!val] */ 0x0A0402C0000ull, /* .56 alu[l0000!gprega[2], --, b, l0000!val] */ 0x0B0402C0000ull, /* .57 alu[l0000!gpregb[2], --, b, l0000!val] */ 0x0A0403C0000ull, /* .58 alu[l0000!gprega[3], --, b, l0000!val] */ 0x0B0403C0000ull, /* .59 alu[l0000!gpregb[3], --, b, l0000!val] */ 0x0A0404C0000ull, /* .60 alu[l0000!gprega[4], --, b, l0000!val] */ 0x0B0404C0000ull, /* .61 alu[l0000!gpregb[4], --, b, l0000!val] */ 0x0A0405C0000ull, /* .62 alu[l0000!gprega[5], --, b, l0000!val] */ 0x0B0405C0000ull, /* .63 alu[l0000!gpregb[5], --, b, l0000!val] */ 0x0A0406C0000ull, /* .64 alu[l0000!gprega[6], --, b, l0000!val] */ 0x0B0406C0000ull, /* .65 alu[l0000!gpregb[6], --, b, l0000!val] */ 0x0A0407C0000ull, /* .66 alu[l0000!gprega[7], --, b, l0000!val] */ 0x0B0407C0000ull, /* .67 alu[l0000!gpregb[7], --, b, l0000!val] */ 0x0A0408C0000ull, /* .68 alu[l0000!gprega[8], --, b, l0000!val] */ 0x0B0408C0000ull, /* .69 alu[l0000!gpregb[8], --, b, l0000!val] */ 0x0A0409C0000ull, /* .70 alu[l0000!gprega[9], --, b, l0000!val] */ 0x0B0409C0000ull, /* .71 alu[l0000!gpregb[9], --, b, l0000!val] */ 0x0A040AC0000ull, /* .72 alu[l0000!gprega[10], --, b, l0000!val] */ 0x0B040AC0000ull, /* .73 alu[l0000!gpregb[10], --, b, l0000!val] */ 0x0A040BC0000ull, /* .74 alu[l0000!gprega[11], --, b, l0000!val] */ 0x0B040BC0000ull, /* .75 alu[l0000!gpregb[11], --, b, l0000!val] */ 0x0A040CC0000ull, /* .76 alu[l0000!gprega[12], --, b, l0000!val] */ 0x0B040CC0000ull, /* .77 alu[l0000!gpregb[12], --, b, l0000!val] */ 0x0A040DC0000ull, /* .78 alu[l0000!gprega[13], --, b, l0000!val] */ 0x0B040DC0000ull, /* .79 alu[l0000!gpregb[13], --, b, l0000!val] */ 0x0A040EC0000ull, /* .80 alu[l0000!gprega[14], --, b, l0000!val] */ 0x0B040EC0000ull, /* .81 alu[l0000!gpregb[14], --, b, l0000!val] */ 0x0A040FC0000ull, /* .82 alu[l0000!gprega[15], --, b, l0000!val] */ 0x0B040FC0000ull, /* .83 alu[l0000!gpregb[15], --, b, l0000!val] */ 0x0D81581C010ull, /* .84 br=ctx[7, exit#] */ 0x0E000010000ull, /* .85 ctx_arb[kill], any */ 0x0E000010000ull, /* .86 exit#:ctx_arb[kill], any */ }; static const uint64_t ae_inst_4b[] = { 0x0F0400C0000ull, /* .0 immed_w0[l0000!indx, 0] */ 0x0F4400C0000ull, /* .1 immed_w1[l0000!indx, 0] */ 0x0F040000300ull, /* .2 immed_w0[l0000!myvalue, 0x0] */ 0x0F440000300ull, /* .3 immed_w1[l0000!myvalue, 0x0] */ 0x0FC066C0000ull, /* .4 local_csr_wr[active_lm_addr_0, l0000!indx]; put indx to lm_addr */ 0x0F0000C0300ull, /* .5 nop */ 0x0F0000C0300ull, /* .6 nop */ 0x0F0000C0300ull, /* .7 nop */ 0x0A021000000ull, /* .8 alu[*l$index0++, --, b, l0000!myvalue] */ }; static const uint64_t ae_inst_1b[] = { 0x0F0400C0000ull, /* .0 immed_w0[l0000!indx, 0] */ 0x0F4400C0000ull, /* .1 immed_w1[l0000!indx, 0] */ 0x0F040000300ull, /* .2 immed_w0[l0000!myvalue, 0x0] */ 0x0F440000300ull, /* .3 immed_w1[l0000!myvalue, 0x0] */ 0x0FC066C0000ull, /* .4 local_csr_wr[active_lm_addr_0, l0000!indx]; put indx to lm_addr */ 0x0F0000C0300ull, /* .5 nop */ 0x0F0000C0300ull, /* .6 nop */ 0x0F0000C0300ull, /* .7 nop */ 0x0A000180000ull, /* .8 alu[l0000!val, --, b, *l$index0] */ 0x09080000200ull, /* .9 alu_shf[l0000!myvalue, --, b, l0000!myvalue, <<24 ] */ 0x08180280201ull, /* .10 alu_shf[l0000!val1, --, b, l0000!val, <<8 ] */ 0x08080280102ull, /* .11 alu_shf[l0000!val1, --, b, l0000!val1 , >>8 ] */ 0x0BA00100002ull, /* .12 alu[l0000!val2, l0000!val1, or, l0000!myvalue] */ }; static const uint64_t ae_inst_2b[] = { 0x0F0400C0000ull, /* .0 immed_w0[l0000!indx, 0] */ 0x0F4400C0000ull, /* .1 immed_w1[l0000!indx, 0] */ 0x0F040000300ull, /* .2 immed_w0[l0000!myvalue, 0x0] */ 0x0F440000300ull, /* .3 immed_w1[l0000!myvalue, 0x0] */ 0x0FC066C0000ull, /* .4 local_csr_wr[active_lm_addr_0, l0000!indx]; put indx to lm_addr */ 0x0F0000C0300ull, /* .5 nop */ 0x0F0000C0300ull, /* .6 nop */ 0x0F0000C0300ull, /* .7 nop */ 0x0A000180000ull, /* .8 alu[l0000!val, --, b, *l$index0] */ 0x09100000200ull, /* .9 alu_shf[l0000!myvalue, --, b, l0000!myvalue, <<16 ] */ 0x08100280201ull, /* .10 alu_shf[l0000!val1, --, b, l0000!val, <<16 ] */ 0x08100280102ull, /* .11 alu_shf[l0000!val1, --, b, l0000!val1 , >>16 ] */ 0x0BA00100002ull, /* .12 alu[l0000!val2, l0000!val1, or, l0000!myvalue] */ }; static const uint64_t ae_inst_3b[] = { 0x0F0400C0000ull, /* .0 immed_w0[l0000!indx, 0] */ 0x0F4400C0000ull, /* .1 immed_w1[l0000!indx, 0] */ 0x0F040000300ull, /* .2 immed_w0[l0000!myvalue, 0x0] */ 0x0F440000300ull, /* .3 immed_w1[l0000!myvalue, 0x0] */ 0x0FC066C0000ull, /* .4 local_csr_wr[active_lm_addr_0, l0000!indx]; put indx to lm_addr */ 0x0F0000C0300ull, /* .5 nop */ 0x0F0000C0300ull, /* .6 nop */ 0x0F0000C0300ull, /* .7 nop */ 0x0A000180000ull, /* .8 alu[l0000!val, --, b, *l$index0] */ 0x09180000200ull, /* .9 alu_shf[l0000!myvalue, --, b, l0000!myvalue, <<8 ] */ 0x08080280201ull, /* .10 alu_shf[l0000!val1, --, b, l0000!val, <<24 ] */ 0x08180280102ull, /* .11 alu_shf[l0000!val1, --, b, l0000!val1 , >>24 ] */ 0x0BA00100002ull, /* .12 alu[l0000!val2, l0000!val1, or, l0000!myvalue] */ }; /* micro-instr fixup */ #define INSERT_IMMED_GPRA_CONST(inst, const_val) \ inst = (inst & 0xFFFF00C03FFull) | \ ((((const_val) << 12) & 0x0FF00000ull) | \ (((const_val) << 10) & 0x0003FC00ull)) #define INSERT_IMMED_GPRB_CONST(inst, const_val) \ inst = (inst & 0xFFFF00FFF00ull) | \ ((((const_val) << 12) & 0x0FF00000ull) | \ (((const_val) << 0) & 0x000000FFull)) enum aereg_type { AEREG_NO_DEST, /* no destination */ AEREG_GPA_REL, /* general-purpose A register under relative mode */ AEREG_GPA_ABS, /* general-purpose A register under absolute mode */ AEREG_GPB_REL, /* general-purpose B register under relative mode */ AEREG_GPB_ABS, /* general-purpose B register under absolute mode */ AEREG_SR_REL, /* sram register under relative mode */ AEREG_SR_RD_REL, /* sram read register under relative mode */ AEREG_SR_WR_REL, /* sram write register under relative mode */ AEREG_SR_ABS, /* sram register under absolute mode */ AEREG_SR_RD_ABS, /* sram read register under absolute mode */ AEREG_SR_WR_ABS, /* sram write register under absolute mode */ AEREG_SR0_SPILL, /* sram0 spill register */ AEREG_SR1_SPILL, /* sram1 spill register */ AEREG_SR2_SPILL, /* sram2 spill register */ AEREG_SR3_SPILL, /* sram3 spill register */ AEREG_SR0_MEM_ADDR, /* sram0 memory address register */ AEREG_SR1_MEM_ADDR, /* sram1 memory address register */ AEREG_SR2_MEM_ADDR, /* sram2 memory address register */ AEREG_SR3_MEM_ADDR, /* sram3 memory address register */ AEREG_DR_REL, /* dram register under relative mode */ AEREG_DR_RD_REL, /* dram read register under relative mode */ AEREG_DR_WR_REL, /* dram write register under relative mode */ AEREG_DR_ABS, /* dram register under absolute mode */ AEREG_DR_RD_ABS, /* dram read register under absolute mode */ AEREG_DR_WR_ABS, /* dram write register under absolute mode */ AEREG_DR_MEM_ADDR, /* dram memory address register */ AEREG_LMEM, /* local memory */ AEREG_LMEM0, /* local memory bank0 */ AEREG_LMEM1, /* local memory bank1 */ AEREG_LMEM_SPILL, /* local memory spill */ AEREG_LMEM_ADDR, /* local memory address */ AEREG_NEIGH_REL, /* next neighbour register under relative mode */ AEREG_NEIGH_INDX, /* next neighbour register under index mode */ AEREG_SIG_REL, /* signal register under relative mode */ AEREG_SIG_INDX, /* signal register under index mode */ AEREG_SIG_DOUBLE, /* signal register */ AEREG_SIG_SINGLE, /* signal register */ AEREG_SCRATCH_MEM_ADDR, /* scratch memory address */ AEREG_UMEM0, /* ustore memory bank0 */ AEREG_UMEM1, /* ustore memory bank1 */ AEREG_UMEM_SPILL, /* ustore memory spill */ AEREG_UMEM_ADDR, /* ustore memory address */ AEREG_DR1_MEM_ADDR, /* dram segment1 address */ AEREG_SR0_IMPORTED, /* sram segment0 imported data */ AEREG_SR1_IMPORTED, /* sram segment1 imported data */ AEREG_SR2_IMPORTED, /* sram segment2 imported data */ AEREG_SR3_IMPORTED, /* sram segment3 imported data */ AEREG_DR_IMPORTED, /* dram segment0 imported data */ AEREG_DR1_IMPORTED, /* dram segment1 imported data */ AEREG_SCRATCH_IMPORTED, /* scratch imported data */ AEREG_XFER_RD_ABS, /* transfer read register under absolute mode */ AEREG_XFER_WR_ABS, /* transfer write register under absolute mode */ AEREG_CONST_VALUE, /* const alue */ AEREG_ADDR_TAKEN, /* address taken */ AEREG_OPTIMIZED_AWAY, /* optimized away */ AEREG_SHRAM_ADDR, /* shared ram0 address */ AEREG_SHRAM1_ADDR, /* shared ram1 address */ AEREG_SHRAM2_ADDR, /* shared ram2 address */ AEREG_SHRAM3_ADDR, /* shared ram3 address */ AEREG_SHRAM4_ADDR, /* shared ram4 address */ AEREG_SHRAM5_ADDR, /* shared ram5 address */ AEREG_ANY = 0xffff /* any register */ }; #define AEREG_SR_INDX AEREG_SR_ABS /* sram transfer register under index mode */ #define AEREG_DR_INDX AEREG_DR_ABS /* dram transfer register under index mode */ #define AEREG_NEIGH_ABS AEREG_NEIGH_INDX /* next neighbor register under absolute mode */ #define QAT_2K 0x0800 #define QAT_4K 0x1000 #define QAT_6K 0x1800 #define QAT_8K 0x2000 #define QAT_16K 0x4000 #define MOF_OBJ_ID_LEN 8 #define MOF_FID 0x00666f6d #define MOF_MIN_VER 0x1 #define MOF_MAJ_VER 0x0 #define SYM_OBJS "SYM_OBJS" /* symbol object string */ #define UOF_OBJS "UOF_OBJS" /* uof object string */ #define SUOF_OBJS "SUF_OBJS" /* suof object string */ #define SUOF_IMAG "SUF_IMAG" /* suof chunk ID string */ #define UOF_STRT "UOF_STRT" /* string table section ID */ #define UOF_GTID "UOF_GTID" /* GTID section ID */ #define UOF_IMAG "UOF_IMAG" /* image section ID */ #define UOF_IMEM "UOF_IMEM" /* import section ID */ #define UOF_MSEG "UOF_MSEG" /* memory section ID */ #define CRC_POLY 0x1021 #define CRC_WIDTH 16 #define CRC_BITMASK(x) (1L << (x)) #define CRC_WIDTHMASK(width) ((((1L<<(width-1))-1L)<<1)|1L) struct mof_file_hdr { u_int mfh_fid; u_int mfh_csum; char mfh_min_ver; char mfh_maj_ver; u_short mfh_reserved; u_short mfh_max_chunks; u_short mfh_num_chunks; }; struct mof_file_chunk_hdr { char mfch_id[MOF_OBJ_ID_LEN]; uint64_t mfch_offset; uint64_t mfch_size; }; struct mof_uof_hdr { u_short muh_max_chunks; u_short muh_num_chunks; u_int muh_reserved; }; struct mof_uof_chunk_hdr { char much_id[MOF_OBJ_ID_LEN]; /* should be UOF_IMAG */ uint64_t much_offset; /* uof image */ uint64_t much_size; /* uof image size */ u_int much_name; /* uof name string-table offset */ u_int much_reserved; }; #define UOF_MAX_NUM_OF_AE 16 /* maximum number of AE */ #define UOF_OBJ_ID_LEN 8 /* length of object ID */ #define UOF_FIELD_POS_SIZE 12 /* field postion size */ #define MIN_UOF_SIZE 24 /* minimum .uof file size */ #define UOF_FID 0xc6c2 /* uof magic number */ #define UOF_MIN_VER 0x11 #define UOF_MAJ_VER 0x4 struct uof_file_hdr { u_short ufh_id; /* file id and endian indicator */ u_short ufh_reserved1; /* reserved for future use */ char ufh_min_ver; /* file format minor version */ char ufh_maj_ver; /* file format major version */ u_short ufh_reserved2; /* reserved for future use */ u_short ufh_max_chunks; /* max chunks in file */ u_short ufh_num_chunks; /* num of actual chunks */ }; struct uof_file_chunk_hdr { char ufch_id[UOF_OBJ_ID_LEN]; /* chunk identifier */ u_int ufch_csum; /* chunk checksum */ u_int ufch_offset; /* offset of the chunk in the file */ u_int ufch_size; /* size of the chunk */ }; struct uof_obj_hdr { u_int uoh_cpu_type; /* CPU type */ u_short uoh_min_cpu_ver; /* starting CPU version */ u_short uoh_max_cpu_ver; /* ending CPU version */ short uoh_max_chunks; /* max chunks in chunk obj */ short uoh_num_chunks; /* num of actual chunks */ u_int uoh_reserved1; u_int uoh_reserved2; }; struct uof_chunk_hdr { char uch_id[UOF_OBJ_ID_LEN]; u_int uch_offset; u_int uch_size; }; struct uof_str_tab { u_int ust_table_len; /* length of table */ u_int ust_reserved; /* reserved for future use */ uint64_t ust_strings; /* pointer to string table. * NULL terminated strings */ }; #define AE_MODE_RELOAD_CTX_SHARED __BIT(12) #define AE_MODE_SHARED_USTORE __BIT(11) #define AE_MODE_LMEM1 __BIT(9) #define AE_MODE_LMEM0 __BIT(8) #define AE_MODE_NN_MODE __BITS(7, 4) #define AE_MODE_CTX_MODE __BITS(3, 0) #define AE_MODE_NN_MODE_NEIGH 0 #define AE_MODE_NN_MODE_SELF 1 #define AE_MODE_NN_MODE_DONTCARE 0xff struct uof_image { u_int ui_name; /* image name */ u_int ui_ae_assigned; /* AccelEngines assigned */ u_int ui_ctx_assigned; /* AccelEngine contexts assigned */ u_int ui_cpu_type; /* cpu type */ u_int ui_entry_address; /* entry uaddress */ u_int ui_fill_pattern[2]; /* uword fill value */ u_int ui_reloadable_size; /* size of reloadable ustore section */ u_char ui_sensitivity; /* * case sensitivity: 0 = insensitive, * 1 = sensitive */ u_char ui_reserved; /* reserved for future use */ u_short ui_ae_mode; /* * unused<15:14>, legacyMode<13>, * reloadCtxShared<12>, sharedUstore<11>, * ecc<10>, locMem1<9>, locMem0<8>, * nnMode<7:4>, ctx<3:0> */ u_short ui_max_ver; /* max cpu ver on which the image can run */ u_short ui_min_ver; /* min cpu ver on which the image can run */ u_short ui_image_attrib; /* image attributes */ u_short ui_reserved2; /* reserved for future use */ u_short ui_num_page_regions; /* number of page regions */ u_short ui_num_pages; /* number of pages */ u_int ui_reg_tab; /* offset to register table */ u_int ui_init_reg_sym_tab; /* reg/sym init table */ u_int ui_sbreak_tab; /* offset to sbreak table */ u_int ui_app_metadata; /* application meta-data */ /* ui_npages of code page follows this header */ }; struct uof_obj_table { u_int uot_nentries; /* number of table entries */ /* uot_nentries of object follows */ }; struct uof_ae_reg { u_int uar_name; /* reg name string-table offset */ u_int uar_vis_name; /* reg visible name string-table offset */ u_short uar_type; /* reg type */ u_short uar_addr; /* reg address */ u_short uar_access_mode; /* uof_RegAccessMode_T: read/write/both/undef */ u_char uar_visible; /* register visibility */ u_char uar_reserved1; /* reserved for future use */ u_short uar_ref_count; /* number of contiguous registers allocated */ u_short uar_reserved2; /* reserved for future use */ u_int uar_xoid; /* xfer order ID */ }; enum uof_value_kind { UNDEF_VAL, /* undefined value */ CHAR_VAL, /* character value */ SHORT_VAL, /* short value */ INT_VAL, /* integer value */ STR_VAL, /* string value */ STRTAB_VAL, /* string table value */ NUM_VAL, /* number value */ EXPR_VAL /* expression value */ }; enum uof_init_type { INIT_EXPR, INIT_REG, INIT_REG_CTX, INIT_EXPR_ENDIAN_SWAP }; struct uof_init_reg_sym { u_int uirs_name; /* symbol name */ char uirs_init_type; /* 0=expr, 1=register, 2=ctxReg, * 3=expr_endian_swap */ char uirs_value_type; /* EXPR_VAL, STRTAB_VAL */ char uirs_reg_type; /* register type: ae_reg_type */ u_char uirs_ctx; /* AE context when initType=2 */ u_int uirs_addr_offset; /* reg address, or sym-value offset */ u_int uirs_value; /* integer value, or expression */ }; struct uof_sbreak { u_int us_page_num; /* page number */ u_int us_virt_uaddr; /* virt uaddress */ u_char us_sbreak_type; /* sbreak type */ u_char us_reg_type; /* register type: ae_reg_type */ u_short us_reserved1; /* reserved for future use */ u_int us_addr_offset; /* branch target address or offset * to be used with the reg value to * calculate the target address */ u_int us_reg_rddr; /* register address */ }; struct uof_code_page { u_int ucp_page_region; /* page associated region */ u_int ucp_page_num; /* code-page number */ u_char ucp_def_page; /* default page indicator */ u_char ucp_reserved2; /* reserved for future use */ u_short ucp_reserved1; /* reserved for future use */ u_int ucp_beg_vaddr; /* starting virtual uaddr */ u_int ucp_beg_paddr; /* starting physical uaddr */ u_int ucp_neigh_reg_tab; /* offset to neighbour-reg table */ u_int ucp_uc_var_tab; /* offset to uC var table */ u_int ucp_imp_var_tab; /* offset to import var table */ u_int ucp_imp_expr_tab; /* offset to import expression table */ u_int ucp_code_area; /* offset to code area */ }; struct uof_code_area { u_int uca_num_micro_words; /* number of micro words */ u_int uca_uword_block_tab; /* offset to ublock table */ }; struct uof_uword_block { u_int uub_start_addr; /* start address */ u_int uub_num_words; /* number of microwords */ u_int uub_uword_offset; /* offset to the uwords */ u_int uub_reserved; /* reserved for future use */ }; struct uof_uword_fixup { u_int uuf_name; /* offset to string table */ u_int uuf_uword_address; /* micro word address */ u_int uuf_expr_value; /* string table offset of expr string, or value */ u_char uuf_val_type; /* VALUE_UNDEF, VALUE_NUM, VALUE_EXPR */ u_char uuf_value_attrs; /* bit<0> (Scope: 0=global, 1=local), * bit<1> (init: 0=no, 1=yes) */ u_short uuf_reserved1; /* reserved for future use */ char uuf_field_attrs[UOF_FIELD_POS_SIZE]; /* field pos, size, and right shift value */ }; struct uof_import_var { u_int uiv_name; /* import var name string-table offset */ u_char uiv_value_attrs; /* bit<0> (Scope: 0=global), * bit<1> (init: 0=no, 1=yes) */ u_char uiv_reserved1; /* reserved for future use */ u_short uiv_reserved2; /* reserved for future use */ uint64_t uiv_value; /* 64-bit imported value */ }; struct uof_mem_val_attr { u_int umva_byte_offset; /* byte-offset from the allocated memory */ u_int umva_value; /* memory value */ }; enum uof_mem_region { SRAM_REGION, /* SRAM region */ DRAM_REGION, /* DRAM0 region */ DRAM1_REGION, /* DRAM1 region */ LMEM_REGION, /* local memory region */ SCRATCH_REGION, /* SCRATCH region */ UMEM_REGION, /* micro-store region */ RAM_REGION, /* RAM region */ SHRAM_REGION, /* shared memory-0 region */ SHRAM1_REGION, /* shared memory-1 region */ SHRAM2_REGION, /* shared memory-2 region */ SHRAM3_REGION, /* shared memory-3 region */ SHRAM4_REGION, /* shared memory-4 region */ SHRAM5_REGION /* shared memory-5 region */ }; #define UOF_SCOPE_GLOBAL 0 #define UOF_SCOPE_LOCAL 1 struct uof_init_mem { u_int uim_sym_name; /* symbol name */ char uim_region; /* memory region -- uof_mem_region */ char uim_scope; /* visibility scope */ u_short uim_reserved1; /* reserved for future use */ u_int uim_addr; /* memory address */ u_int uim_num_bytes; /* number of bytes */ u_int uim_num_val_attr; /* number of values attributes */ /* uim_num_val_attr of uof_mem_val_attr follows this header */ }; struct uof_var_mem_seg { u_int uvms_sram_base; /* SRAM memory segment base addr */ u_int uvms_sram_size; /* SRAM segment size bytes */ u_int uvms_sram_alignment; /* SRAM segment alignment bytes */ u_int uvms_sdram_base; /* DRAM0 memory segment base addr */ u_int uvms_sdram_size; /* DRAM0 segment size bytes */ u_int uvms_sdram_alignment; /* DRAM0 segment alignment bytes */ u_int uvms_sdram1_base; /* DRAM1 memory segment base addr */ u_int uvms_sdram1_size; /* DRAM1 segment size bytes */ u_int uvms_sdram1_alignment; /* DRAM1 segment alignment bytes */ u_int uvms_scratch_base; /* SCRATCH memory segment base addr */ u_int uvms_scratch_size; /* SCRATCH segment size bytes */ u_int uvms_scratch_alignment; /* SCRATCH segment alignment bytes */ }; #define SUOF_OBJ_ID_LEN 8 #define SUOF_FID 0x53554f46 #define SUOF_MAJ_VER 0x0 #define SUOF_MIN_VER 0x1 #define SIMG_AE_INIT_SEQ_LEN (50 * sizeof(unsigned long long)) #define SIMG_AE_INSTS_LEN (0x4000 * sizeof(unsigned long long)) #define CSS_FWSK_MODULUS_LEN 256 #define CSS_FWSK_EXPONENT_LEN 4 #define CSS_FWSK_PAD_LEN 252 #define CSS_FWSK_PUB_LEN (CSS_FWSK_MODULUS_LEN + \ CSS_FWSK_EXPONENT_LEN + \ CSS_FWSK_PAD_LEN) #define CSS_SIGNATURE_LEN 256 #define CSS_AE_IMG_LEN (sizeof(struct simg_ae_mode) + \ SIMG_AE_INIT_SEQ_LEN + \ SIMG_AE_INSTS_LEN) #define CSS_AE_SIMG_LEN (sizeof(struct css_hdr) + \ CSS_FWSK_PUB_LEN + \ CSS_SIGNATURE_LEN + \ CSS_AE_IMG_LEN) #define AE_IMG_OFFSET (sizeof(struct css_hdr) + \ CSS_FWSK_MODULUS_LEN + \ CSS_FWSK_EXPONENT_LEN + \ CSS_SIGNATURE_LEN) #define CSS_MAX_IMAGE_LEN 0x40000 struct fw_auth_desc { u_int fad_img_len; u_int fad_reserved; u_int fad_css_hdr_high; u_int fad_css_hdr_low; u_int fad_img_high; u_int fad_img_low; u_int fad_signature_high; u_int fad_signature_low; u_int fad_fwsk_pub_high; u_int fad_fwsk_pub_low; u_int fad_img_ae_mode_data_high; u_int fad_img_ae_mode_data_low; u_int fad_img_ae_init_data_high; u_int fad_img_ae_init_data_low; u_int fad_img_ae_insts_high; u_int fad_img_ae_insts_low; }; struct auth_chunk { struct fw_auth_desc ac_fw_auth_desc; uint64_t ac_chunk_size; uint64_t ac_chunk_bus_addr; }; enum css_fwtype { CSS_AE_FIRMWARE = 0, CSS_MMP_FIRMWARE = 1 }; struct css_hdr { u_int css_module_type; u_int css_header_len; u_int css_header_ver; u_int css_module_id; u_int css_module_vendor; u_int css_date; u_int css_size; u_int css_key_size; u_int css_module_size; u_int css_exponent_size; u_int css_fw_type; u_int css_reserved[21]; }; struct simg_ae_mode { u_int sam_file_id; u_short sam_maj_ver; u_short sam_min_ver; u_int sam_dev_type; u_short sam_devmax_ver; u_short sam_devmin_ver; u_int sam_ae_mask; u_int sam_ctx_enables; char sam_fw_type; char sam_ctx_mode; char sam_nn_mode; char sam_lm0_mode; char sam_lm1_mode; char sam_scs_mode; char sam_lm2_mode; char sam_lm3_mode; char sam_tindex_mode; u_char sam_reserved[7]; char sam_simg_name[256]; char sam_appmeta_data[256]; }; struct suof_file_hdr { u_int sfh_file_id; u_int sfh_check_sum; char sfh_min_ver; char sfh_maj_ver; char sfh_fw_type; char sfh_reserved; u_short sfh_max_chunks; u_short sfh_num_chunks; }; struct suof_chunk_hdr { char sch_chunk_id[SUOF_OBJ_ID_LEN]; uint64_t sch_offset; uint64_t sch_size; }; struct suof_str_tab { u_int sst_tab_length; u_int sst_strings; }; struct suof_obj_hdr { u_int soh_img_length; u_int soh_reserved; }; /* -------------------------------------------------------------------------- */ /* accel */ enum fw_slice { FW_SLICE_NULL = 0, /* NULL slice type */ FW_SLICE_CIPHER = 1, /* CIPHER slice type */ FW_SLICE_AUTH = 2, /* AUTH slice type */ FW_SLICE_DRAM_RD = 3, /* DRAM_RD Logical slice type */ FW_SLICE_DRAM_WR = 4, /* DRAM_WR Logical slice type */ FW_SLICE_COMP = 5, /* Compression slice type */ FW_SLICE_XLAT = 6, /* Translator slice type */ FW_SLICE_DELIMITER /* End delimiter */ }; #define MAX_FW_SLICE FW_SLICE_DELIMITER #define QAT_OPTIMAL_ALIGN_SHIFT 6 #define QAT_OPTIMAL_ALIGN (1 << QAT_OPTIMAL_ALIGN_SHIFT) enum hw_auth_algo { HW_AUTH_ALGO_NULL = 0, /* Null hashing */ HW_AUTH_ALGO_SHA1 = 1, /* SHA1 hashing */ HW_AUTH_ALGO_MD5 = 2, /* MD5 hashing */ HW_AUTH_ALGO_SHA224 = 3, /* SHA-224 hashing */ HW_AUTH_ALGO_SHA256 = 4, /* SHA-256 hashing */ HW_AUTH_ALGO_SHA384 = 5, /* SHA-384 hashing */ HW_AUTH_ALGO_SHA512 = 6, /* SHA-512 hashing */ HW_AUTH_ALGO_AES_XCBC_MAC = 7, /* AES-XCBC-MAC hashing */ HW_AUTH_ALGO_AES_CBC_MAC = 8, /* AES-CBC-MAC hashing */ HW_AUTH_ALGO_AES_F9 = 9, /* AES F9 hashing */ HW_AUTH_ALGO_GALOIS_128 = 10, /* Galois 128 bit hashing */ HW_AUTH_ALGO_GALOIS_64 = 11, /* Galois 64 hashing */ HW_AUTH_ALGO_KASUMI_F9 = 12, /* Kasumi F9 hashing */ HW_AUTH_ALGO_SNOW_3G_UIA2 = 13, /* UIA2/SNOW_3H F9 hashing */ HW_AUTH_ALGO_ZUC_3G_128_EIA3 = 14, HW_AUTH_RESERVED_1 = 15, HW_AUTH_RESERVED_2 = 16, HW_AUTH_ALGO_SHA3_256 = 17, HW_AUTH_RESERVED_3 = 18, HW_AUTH_ALGO_SHA3_512 = 19, HW_AUTH_ALGO_DELIMITER = 20 }; enum hw_auth_mode { HW_AUTH_MODE0, HW_AUTH_MODE1, HW_AUTH_MODE2, HW_AUTH_MODE_DELIMITER }; struct hw_auth_config { uint32_t config; /* Configuration used for setting up the slice */ uint32_t reserved; /* Reserved */ }; #define HW_AUTH_CONFIG_SHA3_ALGO __BITS(22, 23) #define HW_AUTH_CONFIG_SHA3_PADDING __BIT(16) #define HW_AUTH_CONFIG_CMPLEN __BITS(14, 8) /* The length of the digest if the QAT is to the check*/ #define HW_AUTH_CONFIG_MODE __BITS(7, 4) #define HW_AUTH_CONFIG_ALGO __BITS(3, 0) #define HW_AUTH_CONFIG_BUILD(mode, algo, cmp_len) \ __SHIFTIN(mode, HW_AUTH_CONFIG_MODE) | \ __SHIFTIN(algo, HW_AUTH_CONFIG_ALGO) | \ __SHIFTIN(cmp_len, HW_AUTH_CONFIG_CMPLEN) struct hw_auth_counter { uint32_t counter; /* Counter value */ uint32_t reserved; /* Reserved */ }; struct hw_auth_setup { struct hw_auth_config auth_config; /* Configuration word for the auth slice */ struct hw_auth_counter auth_counter; /* Auth counter value for this request */ }; #define HW_NULL_STATE1_SZ 32 #define HW_MD5_STATE1_SZ 16 #define HW_SHA1_STATE1_SZ 20 #define HW_SHA224_STATE1_SZ 32 #define HW_SHA256_STATE1_SZ 32 #define HW_SHA3_256_STATE1_SZ 32 #define HW_SHA384_STATE1_SZ 64 #define HW_SHA512_STATE1_SZ 64 #define HW_SHA3_512_STATE1_SZ 64 #define HW_SHA3_224_STATE1_SZ 28 #define HW_SHA3_384_STATE1_SZ 48 #define HW_AES_XCBC_MAC_STATE1_SZ 16 #define HW_AES_CBC_MAC_STATE1_SZ 16 #define HW_AES_F9_STATE1_SZ 32 #define HW_KASUMI_F9_STATE1_SZ 16 #define HW_GALOIS_128_STATE1_SZ 16 #define HW_SNOW_3G_UIA2_STATE1_SZ 8 #define HW_ZUC_3G_EIA3_STATE1_SZ 8 #define HW_NULL_STATE2_SZ 32 #define HW_MD5_STATE2_SZ 16 #define HW_SHA1_STATE2_SZ 20 #define HW_SHA224_STATE2_SZ 32 #define HW_SHA256_STATE2_SZ 32 #define HW_SHA3_256_STATE2_SZ 0 #define HW_SHA384_STATE2_SZ 64 #define HW_SHA512_STATE2_SZ 64 #define HW_SHA3_512_STATE2_SZ 0 #define HW_SHA3_224_STATE2_SZ 0 #define HW_SHA3_384_STATE2_SZ 0 #define HW_AES_XCBC_MAC_KEY_SZ 16 #define HW_AES_CBC_MAC_KEY_SZ 16 #define HW_AES_CCM_CBC_E_CTR0_SZ 16 #define HW_F9_IK_SZ 16 #define HW_F9_FK_SZ 16 #define HW_KASUMI_F9_STATE2_SZ (HW_F9_IK_SZ + HW_F9_FK_SZ) #define HW_AES_F9_STATE2_SZ HW_KASUMI_F9_STATE2_SZ #define HW_SNOW_3G_UIA2_STATE2_SZ 24 #define HW_ZUC_3G_EIA3_STATE2_SZ 32 #define HW_GALOIS_H_SZ 16 #define HW_GALOIS_LEN_A_SZ 8 #define HW_GALOIS_E_CTR0_SZ 16 struct hw_auth_sha512 { struct hw_auth_setup inner_setup; /* Inner loop configuration word for the slice */ uint8_t state1[HW_SHA512_STATE1_SZ]; /* Slice state1 variable */ struct hw_auth_setup outer_setup; /* Outer configuration word for the slice */ uint8_t state2[HW_SHA512_STATE2_SZ]; /* Slice state2 variable */ }; union hw_auth_algo_blk { struct hw_auth_sha512 max; /* This is the largest possible auth setup block size */ }; enum hw_cipher_algo { HW_CIPHER_ALGO_NULL = 0, /* Null ciphering */ HW_CIPHER_ALGO_DES = 1, /* DES ciphering */ HW_CIPHER_ALGO_3DES = 2, /* 3DES ciphering */ HW_CIPHER_ALGO_AES128 = 3, /* AES-128 ciphering */ HW_CIPHER_ALGO_AES192 = 4, /* AES-192 ciphering */ HW_CIPHER_ALGO_AES256 = 5, /* AES-256 ciphering */ HW_CIPHER_ALGO_ARC4 = 6, /* ARC4 ciphering */ HW_CIPHER_ALGO_KASUMI = 7, /* Kasumi */ HW_CIPHER_ALGO_SNOW_3G_UEA2 = 8, /* Snow_3G */ HW_CIPHER_ALGO_ZUC_3G_128_EEA3 = 9, HW_CIPHER_DELIMITER = 10 /* Delimiter type */ }; enum hw_cipher_mode { HW_CIPHER_ECB_MODE = 0, /* ECB mode */ HW_CIPHER_CBC_MODE = 1, /* CBC mode */ HW_CIPHER_CTR_MODE = 2, /* CTR mode */ HW_CIPHER_F8_MODE = 3, /* F8 mode */ HW_CIPHER_XTS_MODE = 6, HW_CIPHER_MODE_DELIMITER = 7 /* Delimiter type */ }; struct hw_cipher_config { uint32_t val; /* Cipher slice configuration */ uint32_t reserved; /* Reserved */ }; #define CIPHER_CONFIG_CONVERT __BIT(9) #define CIPHER_CONFIG_DIR __BIT(8) #define CIPHER_CONFIG_MODE __BITS(7, 4) #define CIPHER_CONFIG_ALGO __BITS(3, 0) #define HW_CIPHER_CONFIG_BUILD(mode, algo, convert, dir) \ __SHIFTIN(mode, CIPHER_CONFIG_MODE) | \ __SHIFTIN(algo, CIPHER_CONFIG_ALGO) | \ __SHIFTIN(convert, CIPHER_CONFIG_CONVERT) | \ __SHIFTIN(dir, CIPHER_CONFIG_DIR) enum hw_cipher_dir { HW_CIPHER_ENCRYPT = 0, /* encryption is required */ HW_CIPHER_DECRYPT = 1, /* decryption is required */ }; enum hw_cipher_convert { HW_CIPHER_NO_CONVERT = 0, /* no key convert is required*/ HW_CIPHER_KEY_CONVERT = 1, /* key conversion is required*/ }; #define CIPHER_MODE_F8_KEY_SZ_MULT 2 #define CIPHER_MODE_XTS_KEY_SZ_MULT 2 #define HW_DES_BLK_SZ 8 #define HW_3DES_BLK_SZ 8 #define HW_NULL_BLK_SZ 8 #define HW_AES_BLK_SZ 16 #define HW_KASUMI_BLK_SZ 8 #define HW_SNOW_3G_BLK_SZ 8 #define HW_ZUC_3G_BLK_SZ 8 #define HW_NULL_KEY_SZ 256 #define HW_DES_KEY_SZ 8 #define HW_3DES_KEY_SZ 24 #define HW_AES_128_KEY_SZ 16 #define HW_AES_192_KEY_SZ 24 #define HW_AES_256_KEY_SZ 32 #define HW_AES_128_F8_KEY_SZ (HW_AES_128_KEY_SZ * \ CIPHER_MODE_F8_KEY_SZ_MULT) #define HW_AES_192_F8_KEY_SZ (HW_AES_192_KEY_SZ * \ CIPHER_MODE_F8_KEY_SZ_MULT) #define HW_AES_256_F8_KEY_SZ (HW_AES_256_KEY_SZ * \ CIPHER_MODE_F8_KEY_SZ_MULT) #define HW_AES_128_XTS_KEY_SZ (HW_AES_128_KEY_SZ * \ CIPHER_MODE_XTS_KEY_SZ_MULT) #define HW_AES_256_XTS_KEY_SZ (HW_AES_256_KEY_SZ * \ CIPHER_MODE_XTS_KEY_SZ_MULT) #define HW_KASUMI_KEY_SZ 16 #define HW_KASUMI_F8_KEY_SZ (HW_KASUMI_KEY_SZ * \ CIPHER_MODE_F8_KEY_SZ_MULT) #define HW_AES_128_XTS_KEY_SZ (HW_AES_128_KEY_SZ * \ CIPHER_MODE_XTS_KEY_SZ_MULT) #define HW_AES_256_XTS_KEY_SZ (HW_AES_256_KEY_SZ * \ CIPHER_MODE_XTS_KEY_SZ_MULT) #define HW_ARC4_KEY_SZ 256 #define HW_SNOW_3G_UEA2_KEY_SZ 16 #define HW_SNOW_3G_UEA2_IV_SZ 16 #define HW_ZUC_3G_EEA3_KEY_SZ 16 #define HW_ZUC_3G_EEA3_IV_SZ 16 #define HW_MODE_F8_NUM_REG_TO_CLEAR 2 struct hw_cipher_aes256_f8 { struct hw_cipher_config cipher_config; /* Cipher configuration word for the slice set to * AES-256 and the F8 mode */ uint8_t key[HW_AES_256_F8_KEY_SZ]; /* Cipher key */ }; union hw_cipher_algo_blk { struct hw_cipher_aes256_f8 max; /* AES-256 F8 Cipher */ /* This is the largest possible cipher setup block size */ }; struct flat_buffer_desc { uint32_t data_len_in_bytes; uint32_t reserved; uint64_t phy_buffer; }; #define HW_MAXSEG 32 struct buffer_list_desc { uint64_t resrvd; uint32_t num_buffers; uint32_t reserved; struct flat_buffer_desc flat_bufs[HW_MAXSEG]; }; /* -------------------------------------------------------------------------- */ /* look aside */ enum fw_la_cmd_id { FW_LA_CMD_CIPHER, /* Cipher Request */ FW_LA_CMD_AUTH, /* Auth Request */ FW_LA_CMD_CIPHER_HASH, /* Cipher-Hash Request */ FW_LA_CMD_HASH_CIPHER, /* Hash-Cipher Request */ FW_LA_CMD_TRNG_GET_RANDOM, /* TRNG Get Random Request */ FW_LA_CMD_TRNG_TEST, /* TRNG Test Request */ FW_LA_CMD_SSL3_KEY_DERIVE, /* SSL3 Key Derivation Request */ FW_LA_CMD_TLS_V1_1_KEY_DERIVE, /* TLS Key Derivation Request */ FW_LA_CMD_TLS_V1_2_KEY_DERIVE, /* TLS Key Derivation Request */ FW_LA_CMD_MGF1, /* MGF1 Request */ FW_LA_CMD_AUTH_PRE_COMP, /* Auth Pre-Compute Request */ #if 0 /* incompatible between qat 1.5 and 1.7 */ FW_LA_CMD_CIPHER_CIPHER, /* Cipher-Cipher Request */ FW_LA_CMD_HASH_HASH, /* Hash-Hash Request */ FW_LA_CMD_CIPHER_PRE_COMP, /* Auth Pre-Compute Request */ #endif FW_LA_CMD_DELIMITER, /* Delimiter type */ }; #endif