575c1bd549
This change is required for post SEC-5.0 devices which have RNG4. Setting RDB in security configuration register allows CAAM to use the "Random Data Buffer" to be filled by a single request. The Random Data Buffer is large enough for ten packets to get their IVs from a single request. If the Random Data Buffer is not enabled, then each IV causes a separate request, and RNG4 hardware cannot keep up resulting in lower IPSEC throughput if random IVs are used. Signed-off-by: Vakul Garg <vakul@freescale.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
698 lines
22 KiB
C
698 lines
22 KiB
C
/*
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* CAAM hardware register-level view
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*
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* Copyright 2008-2011 Freescale Semiconductor, Inc.
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*/
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#ifndef REGS_H
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#define REGS_H
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#include <linux/types.h>
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#include <linux/io.h>
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/*
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* Architecture-specific register access methods
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*
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* CAAM's bus-addressable registers are 64 bits internally.
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* They have been wired to be safely accessible on 32-bit
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* architectures, however. Registers were organized such
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* that (a) they can be contained in 32 bits, (b) if not, then they
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* can be treated as two 32-bit entities, or finally (c) if they
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* must be treated as a single 64-bit value, then this can safely
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* be done with two 32-bit cycles.
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*
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* For 32-bit operations on 64-bit values, CAAM follows the same
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* 64-bit register access conventions as it's predecessors, in that
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* writes are "triggered" by a write to the register at the numerically
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* higher address, thus, a full 64-bit write cycle requires a write
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* to the lower address, followed by a write to the higher address,
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* which will latch/execute the write cycle.
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*
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* For example, let's assume a SW reset of CAAM through the master
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* configuration register.
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* - SWRST is in bit 31 of MCFG.
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* - MCFG begins at base+0x0000.
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* - Bits 63-32 are a 32-bit word at base+0x0000 (numerically-lower)
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* - Bits 31-0 are a 32-bit word at base+0x0004 (numerically-higher)
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*
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* (and on Power, the convention is 0-31, 32-63, I know...)
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*
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* Assuming a 64-bit write to this MCFG to perform a software reset
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* would then require a write of 0 to base+0x0000, followed by a
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* write of 0x80000000 to base+0x0004, which would "execute" the
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* reset.
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*
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* Of course, since MCFG 63-32 is all zero, we could cheat and simply
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* write 0x8000000 to base+0x0004, and the reset would work fine.
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* However, since CAAM does contain some write-and-read-intended
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* 64-bit registers, this code defines 64-bit access methods for
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* the sake of internal consistency and simplicity, and so that a
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* clean transition to 64-bit is possible when it becomes necessary.
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*
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* There are limitations to this that the developer must recognize.
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* 32-bit architectures cannot enforce an atomic-64 operation,
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* Therefore:
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*
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* - On writes, since the HW is assumed to latch the cycle on the
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* write of the higher-numeric-address word, then ordered
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* writes work OK.
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*
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* - For reads, where a register contains a relevant value of more
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* that 32 bits, the hardware employs logic to latch the other
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* "half" of the data until read, ensuring an accurate value.
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* This is of particular relevance when dealing with CAAM's
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* performance counters.
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*
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*/
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#ifdef __BIG_ENDIAN
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#define wr_reg32(reg, data) out_be32(reg, data)
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#define rd_reg32(reg) in_be32(reg)
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#ifdef CONFIG_64BIT
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#define wr_reg64(reg, data) out_be64(reg, data)
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#define rd_reg64(reg) in_be64(reg)
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#endif
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#else
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#ifdef __LITTLE_ENDIAN
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#define wr_reg32(reg, data) __raw_writel(reg, data)
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#define rd_reg32(reg) __raw_readl(reg)
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#ifdef CONFIG_64BIT
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#define wr_reg64(reg, data) __raw_writeq(reg, data)
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#define rd_reg64(reg) __raw_readq(reg)
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#endif
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#endif
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#endif
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#ifndef CONFIG_64BIT
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static inline void wr_reg64(u64 __iomem *reg, u64 data)
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{
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wr_reg32((u32 __iomem *)reg, (data & 0xffffffff00000000ull) >> 32);
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wr_reg32((u32 __iomem *)reg + 1, data & 0x00000000ffffffffull);
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}
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static inline u64 rd_reg64(u64 __iomem *reg)
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{
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return (((u64)rd_reg32((u32 __iomem *)reg)) << 32) |
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((u64)rd_reg32((u32 __iomem *)reg + 1));
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}
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#endif
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/*
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* jr_outentry
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* Represents each entry in a JobR output ring
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*/
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struct jr_outentry {
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dma_addr_t desc;/* Pointer to completed descriptor */
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u32 jrstatus; /* Status for completed descriptor */
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} __packed;
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/*
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* caam_perfmon - Performance Monitor/Secure Memory Status/
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* CAAM Global Status/Component Version IDs
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*
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* Spans f00-fff wherever instantiated
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*/
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/* Number of DECOs */
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#define CHA_NUM_DECONUM_SHIFT 56
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#define CHA_NUM_DECONUM_MASK (0xfull << CHA_NUM_DECONUM_SHIFT)
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struct sec_vid {
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u16 ip_id;
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u8 maj_rev;
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u8 min_rev;
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};
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struct caam_perfmon {
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/* Performance Monitor Registers f00-f9f */
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u64 req_dequeued; /* PC_REQ_DEQ - Dequeued Requests */
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u64 ob_enc_req; /* PC_OB_ENC_REQ - Outbound Encrypt Requests */
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u64 ib_dec_req; /* PC_IB_DEC_REQ - Inbound Decrypt Requests */
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u64 ob_enc_bytes; /* PC_OB_ENCRYPT - Outbound Bytes Encrypted */
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u64 ob_prot_bytes; /* PC_OB_PROTECT - Outbound Bytes Protected */
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u64 ib_dec_bytes; /* PC_IB_DECRYPT - Inbound Bytes Decrypted */
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u64 ib_valid_bytes; /* PC_IB_VALIDATED Inbound Bytes Validated */
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u64 rsvd[13];
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/* CAAM Hardware Instantiation Parameters fa0-fbf */
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u64 cha_rev; /* CRNR - CHA Revision Number */
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#define CTPR_QI_SHIFT 57
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#define CTPR_QI_MASK (0x1ull << CTPR_QI_SHIFT)
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u64 comp_parms; /* CTPR - Compile Parameters Register */
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u64 rsvd1[2];
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/* CAAM Global Status fc0-fdf */
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u64 faultaddr; /* FAR - Fault Address */
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u32 faultliodn; /* FALR - Fault Address LIODN */
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u32 faultdetail; /* FADR - Fault Addr Detail */
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u32 rsvd2;
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u32 status; /* CSTA - CAAM Status */
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u64 rsvd3;
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/* Component Instantiation Parameters fe0-fff */
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u32 rtic_id; /* RVID - RTIC Version ID */
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u32 ccb_id; /* CCBVID - CCB Version ID */
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u64 cha_id; /* CHAVID - CHA Version ID */
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u64 cha_num; /* CHANUM - CHA Number */
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u64 caam_id; /* CAAMVID - CAAM Version ID */
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};
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/* LIODN programming for DMA configuration */
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#define MSTRID_LOCK_LIODN 0x80000000
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#define MSTRID_LOCK_MAKETRUSTED 0x00010000 /* only for JR masterid */
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#define MSTRID_LIODN_MASK 0x0fff
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struct masterid {
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u32 liodn_ms; /* lock and make-trusted control bits */
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u32 liodn_ls; /* LIODN for non-sequence and seq access */
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};
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/* Partition ID for DMA configuration */
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struct partid {
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u32 rsvd1;
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u32 pidr; /* partition ID, DECO */
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};
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/* RNGB test mode (replicated twice in some configurations) */
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/* Padded out to 0x100 */
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struct rngtst {
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u32 mode; /* RTSTMODEx - Test mode */
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u32 rsvd1[3];
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u32 reset; /* RTSTRESETx - Test reset control */
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u32 rsvd2[3];
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u32 status; /* RTSTSSTATUSx - Test status */
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u32 rsvd3;
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u32 errstat; /* RTSTERRSTATx - Test error status */
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u32 rsvd4;
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u32 errctl; /* RTSTERRCTLx - Test error control */
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u32 rsvd5;
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u32 entropy; /* RTSTENTROPYx - Test entropy */
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u32 rsvd6[15];
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u32 verifctl; /* RTSTVERIFCTLx - Test verification control */
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u32 rsvd7;
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u32 verifstat; /* RTSTVERIFSTATx - Test verification status */
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u32 rsvd8;
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u32 verifdata; /* RTSTVERIFDx - Test verification data */
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u32 rsvd9;
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u32 xkey; /* RTSTXKEYx - Test XKEY */
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u32 rsvd10;
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u32 oscctctl; /* RTSTOSCCTCTLx - Test osc. counter control */
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u32 rsvd11;
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u32 oscct; /* RTSTOSCCTx - Test oscillator counter */
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u32 rsvd12;
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u32 oscctstat; /* RTSTODCCTSTATx - Test osc counter status */
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u32 rsvd13[2];
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u32 ofifo[4]; /* RTSTOFIFOx - Test output FIFO */
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u32 rsvd14[15];
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};
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/* RNG4 TRNG test registers */
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struct rng4tst {
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#define RTMCTL_PRGM 0x00010000 /* 1 -> program mode, 0 -> run mode */
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u32 rtmctl; /* misc. control register */
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u32 rtscmisc; /* statistical check misc. register */
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u32 rtpkrrng; /* poker range register */
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union {
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u32 rtpkrmax; /* PRGM=1: poker max. limit register */
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u32 rtpkrsq; /* PRGM=0: poker square calc. result register */
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};
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#define RTSDCTL_ENT_DLY_SHIFT 16
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#define RTSDCTL_ENT_DLY_MASK (0xffff << RTSDCTL_ENT_DLY_SHIFT)
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u32 rtsdctl; /* seed control register */
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union {
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u32 rtsblim; /* PRGM=1: sparse bit limit register */
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u32 rttotsam; /* PRGM=0: total samples register */
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};
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u32 rtfrqmin; /* frequency count min. limit register */
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union {
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u32 rtfrqmax; /* PRGM=1: freq. count max. limit register */
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u32 rtfrqcnt; /* PRGM=0: freq. count register */
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};
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u32 rsvd1[56];
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};
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/*
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* caam_ctrl - basic core configuration
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* starts base + 0x0000 padded out to 0x1000
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*/
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#define KEK_KEY_SIZE 8
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#define TKEK_KEY_SIZE 8
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#define TDSK_KEY_SIZE 8
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#define DECO_RESET 1 /* Use with DECO reset/availability regs */
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#define DECO_RESET_0 (DECO_RESET << 0)
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#define DECO_RESET_1 (DECO_RESET << 1)
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#define DECO_RESET_2 (DECO_RESET << 2)
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#define DECO_RESET_3 (DECO_RESET << 3)
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#define DECO_RESET_4 (DECO_RESET << 4)
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struct caam_ctrl {
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/* Basic Configuration Section 000-01f */
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/* Read/Writable */
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u32 rsvd1;
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u32 mcr; /* MCFG Master Config Register */
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u32 rsvd2;
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u32 scfgr; /* SCFGR, Security Config Register */
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/* Bus Access Configuration Section 010-11f */
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/* Read/Writable */
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struct masterid jr_mid[4]; /* JRxLIODNR - JobR LIODN setup */
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u32 rsvd3[12];
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struct masterid rtic_mid[4]; /* RTICxLIODNR - RTIC LIODN setup */
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u32 rsvd4[7];
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u32 deco_rq; /* DECORR - DECO Request */
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struct partid deco_mid[5]; /* DECOxLIODNR - 1 per DECO */
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u32 rsvd5[22];
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/* DECO Availability/Reset Section 120-3ff */
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u32 deco_avail; /* DAR - DECO availability */
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u32 deco_reset; /* DRR - DECO reset */
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u32 rsvd6[182];
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/* Key Encryption/Decryption Configuration 400-5ff */
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/* Read/Writable only while in Non-secure mode */
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u32 kek[KEK_KEY_SIZE]; /* JDKEKR - Key Encryption Key */
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u32 tkek[TKEK_KEY_SIZE]; /* TDKEKR - Trusted Desc KEK */
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u32 tdsk[TDSK_KEY_SIZE]; /* TDSKR - Trusted Desc Signing Key */
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u32 rsvd7[32];
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u64 sknonce; /* SKNR - Secure Key Nonce */
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u32 rsvd8[70];
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/* RNG Test/Verification/Debug Access 600-7ff */
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/* (Useful in Test/Debug modes only...) */
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union {
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struct rngtst rtst[2];
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struct rng4tst r4tst[2];
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};
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u32 rsvd9[448];
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/* Performance Monitor f00-fff */
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struct caam_perfmon perfmon;
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};
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/*
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* Controller master config register defs
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*/
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#define MCFGR_SWRESET 0x80000000 /* software reset */
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#define MCFGR_WDENABLE 0x40000000 /* DECO watchdog enable */
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#define MCFGR_WDFAIL 0x20000000 /* DECO watchdog force-fail */
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#define MCFGR_DMA_RESET 0x10000000
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#define MCFGR_LONG_PTR 0x00010000 /* Use >32-bit desc addressing */
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#define SCFGR_RDBENABLE 0x00000400
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/* AXI read cache control */
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#define MCFGR_ARCACHE_SHIFT 12
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#define MCFGR_ARCACHE_MASK (0xf << MCFGR_ARCACHE_SHIFT)
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/* AXI write cache control */
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#define MCFGR_AWCACHE_SHIFT 8
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#define MCFGR_AWCACHE_MASK (0xf << MCFGR_AWCACHE_SHIFT)
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/* AXI pipeline depth */
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#define MCFGR_AXIPIPE_SHIFT 4
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#define MCFGR_AXIPIPE_MASK (0xf << MCFGR_AXIPIPE_SHIFT)
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#define MCFGR_AXIPRI 0x00000008 /* Assert AXI priority sideband */
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#define MCFGR_BURST_64 0x00000001 /* Max burst size */
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/*
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* caam_job_ring - direct job ring setup
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* 1-4 possible per instantiation, base + 1000/2000/3000/4000
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* Padded out to 0x1000
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*/
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struct caam_job_ring {
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/* Input ring */
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u64 inpring_base; /* IRBAx - Input desc ring baseaddr */
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u32 rsvd1;
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u32 inpring_size; /* IRSx - Input ring size */
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u32 rsvd2;
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u32 inpring_avail; /* IRSAx - Input ring room remaining */
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u32 rsvd3;
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u32 inpring_jobadd; /* IRJAx - Input ring jobs added */
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/* Output Ring */
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u64 outring_base; /* ORBAx - Output status ring base addr */
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u32 rsvd4;
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u32 outring_size; /* ORSx - Output ring size */
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u32 rsvd5;
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u32 outring_rmvd; /* ORJRx - Output ring jobs removed */
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u32 rsvd6;
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u32 outring_used; /* ORSFx - Output ring slots full */
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/* Status/Configuration */
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u32 rsvd7;
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u32 jroutstatus; /* JRSTAx - JobR output status */
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u32 rsvd8;
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u32 jrintstatus; /* JRINTx - JobR interrupt status */
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u32 rconfig_hi; /* JRxCFG - Ring configuration */
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u32 rconfig_lo;
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/* Indices. CAAM maintains as "heads" of each queue */
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u32 rsvd9;
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u32 inp_rdidx; /* IRRIx - Input ring read index */
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u32 rsvd10;
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u32 out_wtidx; /* ORWIx - Output ring write index */
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/* Command/control */
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u32 rsvd11;
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u32 jrcommand; /* JRCRx - JobR command */
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u32 rsvd12[932];
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/* Performance Monitor f00-fff */
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struct caam_perfmon perfmon;
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};
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#define JR_RINGSIZE_MASK 0x03ff
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/*
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* jrstatus - Job Ring Output Status
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* All values in lo word
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* Also note, same values written out as status through QI
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* in the command/status field of a frame descriptor
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*/
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#define JRSTA_SSRC_SHIFT 28
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#define JRSTA_SSRC_MASK 0xf0000000
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#define JRSTA_SSRC_NONE 0x00000000
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#define JRSTA_SSRC_CCB_ERROR 0x20000000
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#define JRSTA_SSRC_JUMP_HALT_USER 0x30000000
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#define JRSTA_SSRC_DECO 0x40000000
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#define JRSTA_SSRC_JRERROR 0x60000000
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#define JRSTA_SSRC_JUMP_HALT_CC 0x70000000
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#define JRSTA_DECOERR_JUMP 0x08000000
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#define JRSTA_DECOERR_INDEX_SHIFT 8
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#define JRSTA_DECOERR_INDEX_MASK 0xff00
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#define JRSTA_DECOERR_ERROR_MASK 0x00ff
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#define JRSTA_DECOERR_NONE 0x00
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#define JRSTA_DECOERR_LINKLEN 0x01
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#define JRSTA_DECOERR_LINKPTR 0x02
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#define JRSTA_DECOERR_JRCTRL 0x03
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#define JRSTA_DECOERR_DESCCMD 0x04
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#define JRSTA_DECOERR_ORDER 0x05
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#define JRSTA_DECOERR_KEYCMD 0x06
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#define JRSTA_DECOERR_LOADCMD 0x07
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#define JRSTA_DECOERR_STORECMD 0x08
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#define JRSTA_DECOERR_OPCMD 0x09
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#define JRSTA_DECOERR_FIFOLDCMD 0x0a
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#define JRSTA_DECOERR_FIFOSTCMD 0x0b
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#define JRSTA_DECOERR_MOVECMD 0x0c
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#define JRSTA_DECOERR_JUMPCMD 0x0d
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#define JRSTA_DECOERR_MATHCMD 0x0e
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#define JRSTA_DECOERR_SHASHCMD 0x0f
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#define JRSTA_DECOERR_SEQCMD 0x10
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#define JRSTA_DECOERR_DECOINTERNAL 0x11
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#define JRSTA_DECOERR_SHDESCHDR 0x12
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#define JRSTA_DECOERR_HDRLEN 0x13
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#define JRSTA_DECOERR_BURSTER 0x14
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#define JRSTA_DECOERR_DESCSIGNATURE 0x15
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#define JRSTA_DECOERR_DMA 0x16
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#define JRSTA_DECOERR_BURSTFIFO 0x17
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#define JRSTA_DECOERR_JRRESET 0x1a
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#define JRSTA_DECOERR_JOBFAIL 0x1b
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#define JRSTA_DECOERR_DNRERR 0x80
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#define JRSTA_DECOERR_UNDEFPCL 0x81
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#define JRSTA_DECOERR_PDBERR 0x82
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#define JRSTA_DECOERR_ANRPLY_LATE 0x83
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#define JRSTA_DECOERR_ANRPLY_REPLAY 0x84
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#define JRSTA_DECOERR_SEQOVF 0x85
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#define JRSTA_DECOERR_INVSIGN 0x86
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#define JRSTA_DECOERR_DSASIGN 0x87
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#define JRSTA_CCBERR_JUMP 0x08000000
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#define JRSTA_CCBERR_INDEX_MASK 0xff00
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#define JRSTA_CCBERR_INDEX_SHIFT 8
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#define JRSTA_CCBERR_CHAID_MASK 0x00f0
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#define JRSTA_CCBERR_CHAID_SHIFT 4
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#define JRSTA_CCBERR_ERRID_MASK 0x000f
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#define JRSTA_CCBERR_CHAID_AES (0x01 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_DES (0x02 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_ARC4 (0x03 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_MD (0x04 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_RNG (0x05 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_SNOW (0x06 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_KASUMI (0x07 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_PK (0x08 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_CHAID_CRC (0x09 << JRSTA_CCBERR_CHAID_SHIFT)
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#define JRSTA_CCBERR_ERRID_NONE 0x00
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#define JRSTA_CCBERR_ERRID_MODE 0x01
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#define JRSTA_CCBERR_ERRID_DATASIZ 0x02
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#define JRSTA_CCBERR_ERRID_KEYSIZ 0x03
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#define JRSTA_CCBERR_ERRID_PKAMEMSZ 0x04
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#define JRSTA_CCBERR_ERRID_PKBMEMSZ 0x05
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#define JRSTA_CCBERR_ERRID_SEQUENCE 0x06
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#define JRSTA_CCBERR_ERRID_PKDIVZRO 0x07
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#define JRSTA_CCBERR_ERRID_PKMODEVN 0x08
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#define JRSTA_CCBERR_ERRID_KEYPARIT 0x09
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#define JRSTA_CCBERR_ERRID_ICVCHK 0x0a
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#define JRSTA_CCBERR_ERRID_HARDWARE 0x0b
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#define JRSTA_CCBERR_ERRID_CCMAAD 0x0c
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#define JRSTA_CCBERR_ERRID_INVCHA 0x0f
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#define JRINT_ERR_INDEX_MASK 0x3fff0000
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#define JRINT_ERR_INDEX_SHIFT 16
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#define JRINT_ERR_TYPE_MASK 0xf00
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#define JRINT_ERR_TYPE_SHIFT 8
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#define JRINT_ERR_HALT_MASK 0xc
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#define JRINT_ERR_HALT_SHIFT 2
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#define JRINT_ERR_HALT_INPROGRESS 0x4
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#define JRINT_ERR_HALT_COMPLETE 0x8
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#define JRINT_JR_ERROR 0x02
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#define JRINT_JR_INT 0x01
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#define JRINT_ERR_TYPE_WRITE 1
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#define JRINT_ERR_TYPE_BAD_INPADDR 3
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#define JRINT_ERR_TYPE_BAD_OUTADDR 4
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#define JRINT_ERR_TYPE_INV_INPWRT 5
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#define JRINT_ERR_TYPE_INV_OUTWRT 6
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#define JRINT_ERR_TYPE_RESET 7
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#define JRINT_ERR_TYPE_REMOVE_OFL 8
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#define JRINT_ERR_TYPE_ADD_OFL 9
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#define JRCFG_SOE 0x04
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#define JRCFG_ICEN 0x02
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#define JRCFG_IMSK 0x01
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#define JRCFG_ICDCT_SHIFT 8
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#define JRCFG_ICTT_SHIFT 16
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#define JRCR_RESET 0x01
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/*
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* caam_assurance - Assurance Controller View
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* base + 0x6000 padded out to 0x1000
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*/
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struct rtic_element {
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u64 address;
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u32 rsvd;
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u32 length;
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};
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struct rtic_block {
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struct rtic_element element[2];
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};
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struct rtic_memhash {
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u32 memhash_be[32];
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u32 memhash_le[32];
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};
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struct caam_assurance {
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/* Status/Command/Watchdog */
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u32 rsvd1;
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u32 status; /* RSTA - Status */
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u32 rsvd2;
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u32 cmd; /* RCMD - Command */
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u32 rsvd3;
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u32 ctrl; /* RCTL - Control */
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u32 rsvd4;
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u32 throttle; /* RTHR - Throttle */
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u32 rsvd5[2];
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u64 watchdog; /* RWDOG - Watchdog Timer */
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u32 rsvd6;
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u32 rend; /* REND - Endian corrections */
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u32 rsvd7[50];
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/* Block access/configuration @ 100/110/120/130 */
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struct rtic_block memblk[4]; /* Memory Blocks A-D */
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u32 rsvd8[32];
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/* Block hashes @ 200/300/400/500 */
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struct rtic_memhash hash[4]; /* Block hash values A-D */
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u32 rsvd_3[640];
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};
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/*
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* caam_queue_if - QI configuration and control
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* starts base + 0x7000, padded out to 0x1000 long
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*/
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struct caam_queue_if {
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u32 qi_control_hi; /* QICTL - QI Control */
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u32 qi_control_lo;
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u32 rsvd1;
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u32 qi_status; /* QISTA - QI Status */
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u32 qi_deq_cfg_hi; /* QIDQC - QI Dequeue Configuration */
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u32 qi_deq_cfg_lo;
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u32 qi_enq_cfg_hi; /* QISEQC - QI Enqueue Command */
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u32 qi_enq_cfg_lo;
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u32 rsvd2[1016];
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};
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/* QI control bits - low word */
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#define QICTL_DQEN 0x01 /* Enable frame pop */
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#define QICTL_STOP 0x02 /* Stop dequeue/enqueue */
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#define QICTL_SOE 0x04 /* Stop on error */
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/* QI control bits - high word */
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#define QICTL_MBSI 0x01
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#define QICTL_MHWSI 0x02
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#define QICTL_MWSI 0x04
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#define QICTL_MDWSI 0x08
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#define QICTL_CBSI 0x10 /* CtrlDataByteSwapInput */
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#define QICTL_CHWSI 0x20 /* CtrlDataHalfSwapInput */
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#define QICTL_CWSI 0x40 /* CtrlDataWordSwapInput */
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#define QICTL_CDWSI 0x80 /* CtrlDataDWordSwapInput */
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#define QICTL_MBSO 0x0100
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#define QICTL_MHWSO 0x0200
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#define QICTL_MWSO 0x0400
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#define QICTL_MDWSO 0x0800
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#define QICTL_CBSO 0x1000 /* CtrlDataByteSwapOutput */
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#define QICTL_CHWSO 0x2000 /* CtrlDataHalfSwapOutput */
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#define QICTL_CWSO 0x4000 /* CtrlDataWordSwapOutput */
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#define QICTL_CDWSO 0x8000 /* CtrlDataDWordSwapOutput */
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#define QICTL_DMBS 0x010000
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#define QICTL_EPO 0x020000
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/* QI status bits */
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#define QISTA_PHRDERR 0x01 /* PreHeader Read Error */
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#define QISTA_CFRDERR 0x02 /* Compound Frame Read Error */
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#define QISTA_OFWRERR 0x04 /* Output Frame Read Error */
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#define QISTA_BPDERR 0x08 /* Buffer Pool Depleted */
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#define QISTA_BTSERR 0x10 /* Buffer Undersize */
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#define QISTA_CFWRERR 0x20 /* Compound Frame Write Err */
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#define QISTA_STOPD 0x80000000 /* QI Stopped (see QICTL) */
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/* deco_sg_table - DECO view of scatter/gather table */
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struct deco_sg_table {
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u64 addr; /* Segment Address */
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u32 elen; /* E, F bits + 30-bit length */
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u32 bpid_offset; /* Buffer Pool ID + 16-bit length */
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};
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/*
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* caam_deco - descriptor controller - CHA cluster block
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*
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* Only accessible when direct DECO access is turned on
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* (done in DECORR, via MID programmed in DECOxMID
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*
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* 5 typical, base + 0x8000/9000/a000/b000
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* Padded out to 0x1000 long
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*/
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struct caam_deco {
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u32 rsvd1;
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u32 cls1_mode; /* CxC1MR - Class 1 Mode */
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u32 rsvd2;
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u32 cls1_keysize; /* CxC1KSR - Class 1 Key Size */
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u32 cls1_datasize_hi; /* CxC1DSR - Class 1 Data Size */
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u32 cls1_datasize_lo;
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u32 rsvd3;
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u32 cls1_icvsize; /* CxC1ICVSR - Class 1 ICV size */
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u32 rsvd4[5];
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u32 cha_ctrl; /* CCTLR - CHA control */
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u32 rsvd5;
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u32 irq_crtl; /* CxCIRQ - CCB interrupt done/error/clear */
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u32 rsvd6;
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u32 clr_written; /* CxCWR - Clear-Written */
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u32 ccb_status_hi; /* CxCSTA - CCB Status/Error */
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u32 ccb_status_lo;
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u32 rsvd7[3];
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u32 aad_size; /* CxAADSZR - Current AAD Size */
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u32 rsvd8;
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u32 cls1_iv_size; /* CxC1IVSZR - Current Class 1 IV Size */
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u32 rsvd9[7];
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u32 pkha_a_size; /* PKASZRx - Size of PKHA A */
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u32 rsvd10;
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u32 pkha_b_size; /* PKBSZRx - Size of PKHA B */
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u32 rsvd11;
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u32 pkha_n_size; /* PKNSZRx - Size of PKHA N */
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u32 rsvd12;
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u32 pkha_e_size; /* PKESZRx - Size of PKHA E */
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u32 rsvd13[24];
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u32 cls1_ctx[16]; /* CxC1CTXR - Class 1 Context @100 */
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u32 rsvd14[48];
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u32 cls1_key[8]; /* CxC1KEYR - Class 1 Key @200 */
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u32 rsvd15[121];
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u32 cls2_mode; /* CxC2MR - Class 2 Mode */
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u32 rsvd16;
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u32 cls2_keysize; /* CxX2KSR - Class 2 Key Size */
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u32 cls2_datasize_hi; /* CxC2DSR - Class 2 Data Size */
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u32 cls2_datasize_lo;
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u32 rsvd17;
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u32 cls2_icvsize; /* CxC2ICVSZR - Class 2 ICV Size */
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u32 rsvd18[56];
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u32 cls2_ctx[18]; /* CxC2CTXR - Class 2 Context @500 */
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u32 rsvd19[46];
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u32 cls2_key[32]; /* CxC2KEYR - Class2 Key @600 */
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u32 rsvd20[84];
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u32 inp_infofifo_hi; /* CxIFIFO - Input Info FIFO @7d0 */
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u32 inp_infofifo_lo;
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u32 rsvd21[2];
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u64 inp_datafifo; /* CxDFIFO - Input Data FIFO */
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u32 rsvd22[2];
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u64 out_datafifo; /* CxOFIFO - Output Data FIFO */
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u32 rsvd23[2];
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u32 jr_ctl_hi; /* CxJRR - JobR Control Register @800 */
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u32 jr_ctl_lo;
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u64 jr_descaddr; /* CxDADR - JobR Descriptor Address */
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u32 op_status_hi; /* DxOPSTA - DECO Operation Status */
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u32 op_status_lo;
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|
u32 rsvd24[2];
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|
u32 liodn; /* DxLSR - DECO LIODN Status - non-seq */
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|
u32 td_liodn; /* DxLSR - DECO LIODN Status - trustdesc */
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u32 rsvd26[6];
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|
u64 math[4]; /* DxMTH - Math register */
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|
u32 rsvd27[8];
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|
struct deco_sg_table gthr_tbl[4]; /* DxGTR - Gather Tables */
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|
u32 rsvd28[16];
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|
struct deco_sg_table sctr_tbl[4]; /* DxSTR - Scatter Tables */
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|
u32 rsvd29[48];
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|
u32 descbuf[64]; /* DxDESB - Descriptor buffer */
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|
u32 rsvd30[320];
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|
};
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|
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/*
|
|
* Current top-level view of memory map is:
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|
*
|
|
* 0x0000 - 0x0fff - CAAM Top-Level Control
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|
* 0x1000 - 0x1fff - Job Ring 0
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|
* 0x2000 - 0x2fff - Job Ring 1
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|
* 0x3000 - 0x3fff - Job Ring 2
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|
* 0x4000 - 0x4fff - Job Ring 3
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* 0x5000 - 0x5fff - (unused)
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* 0x6000 - 0x6fff - Assurance Controller
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|
* 0x7000 - 0x7fff - Queue Interface
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|
* 0x8000 - 0x8fff - DECO-CCB 0
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|
* 0x9000 - 0x9fff - DECO-CCB 1
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|
* 0xa000 - 0xafff - DECO-CCB 2
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|
* 0xb000 - 0xbfff - DECO-CCB 3
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|
* 0xc000 - 0xcfff - DECO-CCB 4
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|
*
|
|
* caam_full describes the full register view of CAAM if useful,
|
|
* although many configurations may choose to implement parts of
|
|
* the register map separately, in differing privilege regions
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|
*/
|
|
struct caam_full {
|
|
struct caam_ctrl __iomem ctrl;
|
|
struct caam_job_ring jr[4];
|
|
u64 rsvd[512];
|
|
struct caam_assurance assure;
|
|
struct caam_queue_if qi;
|
|
};
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#endif /* REGS_H */
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