/*- * This file is provided under a dual BSD/GPLv2 license. When using or * redistributing this file, you may do so under either license. * * BSD LICENSE * * Copyright 2008-2016 Freescale Semiconductor Inc. * Copyright 2016 NXP. * * 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 the above-listed copyright holders nor the * names of any contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * GPL LICENSE SUMMARY * * ALTERNATIVELY, this software may be distributed under the terms of the * GNU General Public License ("GPL") as published by the Free Software * Foundation, either version 2 of that License or (at your option) any * later version. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef __RTA_RTA_H__ #define __RTA_RTA_H__ #include "rta/sec_run_time_asm.h" #include "rta/fifo_load_store_cmd.h" #include "rta/header_cmd.h" #include "rta/jump_cmd.h" #include "rta/key_cmd.h" #include "rta/load_cmd.h" #include "rta/math_cmd.h" #include "rta/move_cmd.h" #include "rta/nfifo_cmd.h" #include "rta/operation_cmd.h" #include "rta/protocol_cmd.h" #include "rta/seq_in_out_ptr_cmd.h" #include "rta/signature_cmd.h" #include "rta/store_cmd.h" /** * DOC: About * * RTA (Runtime Assembler) Library is an easy and flexible runtime method for * writing SEC descriptors. It implements a thin abstraction layer above * SEC commands set; the resulting code is compact and similar to a * descriptor sequence. * * RTA library improves comprehension of the SEC code, adds flexibility for * writing complex descriptors and keeps the code lightweight. Should be used * by whom needs to encode descriptors at runtime, with comprehensible flow * control in descriptor. */ /** * DOC: Usage * * RTA is used in kernel space by the SEC / CAAM (Cryptographic Acceleration and * Assurance Module) kernel module (drivers/crypto/caam) and SEC / CAAM QI * kernel module (Freescale QorIQ SDK). * * RTA is used in user space by USDPAA - User Space DataPath Acceleration * Architecture (Freescale QorIQ SDK). */ /** * DOC: Descriptor Buffer Management Routines * * Contains details of RTA descriptor buffer management and SEC Era * management routines. */ /** * PROGRAM_CNTXT_INIT - must be called before any descriptor run-time assembly * call type field carry info i.e. whether descriptor is * shared or job descriptor. * @program: pointer to struct program * @buffer: input buffer where the descriptor will be placed (uint32_t *) * @offset: offset in input buffer from where the data will be written * (unsigned int) */ #define PROGRAM_CNTXT_INIT(program, buffer, offset) \ rta_program_cntxt_init(program, buffer, offset) /** * PROGRAM_FINALIZE - must be called to mark completion of RTA call. * @program: pointer to struct program * * Return: total size of the descriptor in words or negative number on error. */ #define PROGRAM_FINALIZE(program) rta_program_finalize(program) /** * PROGRAM_SET_36BIT_ADDR - must be called to set pointer size to 36 bits * @program: pointer to struct program * * Return: current size of the descriptor in words (unsigned int). */ #define PROGRAM_SET_36BIT_ADDR(program) rta_program_set_36bit_addr(program) /** * PROGRAM_SET_BSWAP - must be called to enable byte swapping * @program: pointer to struct program * * Byte swapping on a 4-byte boundary will be performed at the end - when * calling PROGRAM_FINALIZE(). * * Return: current size of the descriptor in words (unsigned int). */ #define PROGRAM_SET_BSWAP(program) rta_program_set_bswap(program) /** * WORD - must be called to insert in descriptor buffer a 32bit value * @program: pointer to struct program * @val: input value to be written in descriptor buffer (uint32_t) * * Return: the descriptor buffer offset where this command is inserted * (unsigned int). */ #define WORD(program, val) rta_word(program, val) /** * DWORD - must be called to insert in descriptor buffer a 64bit value * @program: pointer to struct program * @val: input value to be written in descriptor buffer (uint64_t) * * Return: the descriptor buffer offset where this command is inserted * (unsigned int). */ #define DWORD(program, val) rta_dword(program, val) /** * COPY_DATA - must be called to insert in descriptor buffer data larger than * 64bits. * @program: pointer to struct program * @data: input data to be written in descriptor buffer (uint8_t *) * @len: length of input data (unsigned int) * * Return: the descriptor buffer offset where this command is inserted * (unsigned int). */ #define COPY_DATA(program, data, len) rta_copy_data(program, (data), (len)) /** * DESC_LEN - determines job / shared descriptor buffer length (in words) * @buffer: descriptor buffer (uint32_t *) * * Return: descriptor buffer length in words (unsigned int). */ #define DESC_LEN(buffer) rta_desc_len(buffer) /** * DESC_BYTES - determines job / shared descriptor buffer length (in bytes) * @buffer: descriptor buffer (uint32_t *) * * Return: descriptor buffer length in bytes (unsigned int). */ #define DESC_BYTES(buffer) rta_desc_bytes(buffer) /* * SEC HW block revision. * * This *must not be confused with SEC version*: * - SEC HW block revision format is "v" * - SEC revision format is "x.y" */ extern enum rta_sec_era rta_sec_era; /** * rta_set_sec_era - Set SEC Era HW block revision for which the RTA library * will generate the descriptors. * @era: SEC Era (enum rta_sec_era) * * Return: 0 if the ERA was set successfully, -1 otherwise (int) * * Warning 1: Must be called *only once*, *before* using any other RTA API * routine. * * Warning 2: *Not thread safe*. */ static inline int rta_set_sec_era(enum rta_sec_era era) { if (era > MAX_SEC_ERA) { rta_sec_era = DEFAULT_SEC_ERA; pr_err("Unsupported SEC ERA. Defaulting to ERA %d\n", DEFAULT_SEC_ERA + 1); return -1; } rta_sec_era = era; return 0; } /** * rta_get_sec_era - Get SEC Era HW block revision for which the RTA library * will generate the descriptors. * * Return: SEC Era (unsigned int). */ static inline unsigned int rta_get_sec_era(void) { return rta_sec_era; } /** * DOC: SEC Commands Routines * * Contains details of RTA wrapper routines over SEC engine commands. */ /** * SHR_HDR - Configures Shared Descriptor HEADER command * @program: pointer to struct program * @share: descriptor share state (enum rta_share_type) * @start_idx: index in descriptor buffer where the execution of the shared * descriptor should start (@c unsigned int). * @flags: operational flags: RIF, DNR, CIF, SC, PD * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SHR_HDR(program, share, start_idx, flags) \ rta_shr_header(program, share, start_idx, flags) /** * JOB_HDR - Configures JOB Descriptor HEADER command * @program: pointer to struct program * @share: descriptor share state (enum rta_share_type) * @start_idx: index in descriptor buffer where the execution of the job * descriptor should start (unsigned int). In case SHR bit is present * in flags, this will be the shared descriptor length. * @share_desc: pointer to shared descriptor, in case SHR bit is set (uint64_t) * @flags: operational flags: RSMS, DNR, TD, MTD, REO, SHR * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define JOB_HDR(program, share, start_idx, share_desc, flags) \ rta_job_header(program, share, start_idx, share_desc, flags, 0) /** * JOB_HDR_EXT - Configures JOB Descriptor HEADER command * @program: pointer to struct program * @share: descriptor share state (enum rta_share_type) * @start_idx: index in descriptor buffer where the execution of the job * descriptor should start (unsigned int). In case SHR bit is present * in flags, this will be the shared descriptor length. * @share_desc: pointer to shared descriptor, in case SHR bit is set (uint64_t) * @flags: operational flags: RSMS, DNR, TD, MTD, REO, SHR * @ext_flags: extended header flags: DSV (DECO Select Valid), DECO Id (limited * by DSEL_MASK). * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define JOB_HDR_EXT(program, share, start_idx, share_desc, flags, ext_flags) \ rta_job_header(program, share, start_idx, share_desc, flags | EXT, \ ext_flags) /** * MOVE - Configures MOVE and MOVE_LEN commands * @program: pointer to struct program * @src: internal source of data that will be moved: CONTEXT1, CONTEXT2, OFIFO, * DESCBUF, MATH0-MATH3, IFIFOABD, IFIFOAB1, IFIFOAB2, AB1, AB2, ABD. * @src_offset: offset in source data (uint16_t) * @dst: internal destination of data that will be moved: CONTEXT1, CONTEXT2, * OFIFO, DESCBUF, MATH0-MATH3, IFIFOAB1, IFIFOAB2, IFIFO, PKA, KEY1, * KEY2, ALTSOURCE. * @dst_offset: offset in destination data (uint16_t) * @length: size of data to be moved: for MOVE must be specified as immediate * value and IMMED flag must be set; for MOVE_LEN must be specified * using MATH0-MATH3. * @opt: operational flags: WAITCOMP, FLUSH1, FLUSH2, LAST1, LAST2, SIZE_WORD, * SIZE_BYTE, SIZE_DWORD, IMMED (not valid for MOVE_LEN). * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define MOVE(program, src, src_offset, dst, dst_offset, length, opt) \ rta_move(program, __MOVE, src, src_offset, dst, dst_offset, length, opt) /** * MOVEB - Configures MOVEB command * @program: pointer to struct program * @src: internal source of data that will be moved: CONTEXT1, CONTEXT2, OFIFO, * DESCBUF, MATH0-MATH3, IFIFOABD, IFIFOAB1, IFIFOAB2, AB1, AB2, ABD. * @src_offset: offset in source data (uint16_t) * @dst: internal destination of data that will be moved: CONTEXT1, CONTEXT2, * OFIFO, DESCBUF, MATH0-MATH3, IFIFOAB1, IFIFOAB2, IFIFO, PKA, KEY1, * KEY2, ALTSOURCE. * @dst_offset: offset in destination data (uint16_t) * @length: size of data to be moved: for MOVE must be specified as immediate * value and IMMED flag must be set; for MOVE_LEN must be specified * using MATH0-MATH3. * @opt: operational flags: WAITCOMP, FLUSH1, FLUSH2, LAST1, LAST2, SIZE_WORD, * SIZE_BYTE, SIZE_DWORD, IMMED (not valid for MOVE_LEN). * * Identical with MOVE command if byte swapping not enabled; else - when src/dst * is descriptor buffer or MATH registers, data type is byte array when MOVE * data type is 4-byte array and vice versa. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define MOVEB(program, src, src_offset, dst, dst_offset, length, opt) \ rta_move(program, __MOVEB, src, src_offset, dst, dst_offset, length, \ opt) /** * MOVEDW - Configures MOVEDW command * @program: pointer to struct program * @src: internal source of data that will be moved: CONTEXT1, CONTEXT2, OFIFO, * DESCBUF, MATH0-MATH3, IFIFOABD, IFIFOAB1, IFIFOAB2, AB1, AB2, ABD. * @src_offset: offset in source data (uint16_t) * @dst: internal destination of data that will be moved: CONTEXT1, CONTEXT2, * OFIFO, DESCBUF, MATH0-MATH3, IFIFOAB1, IFIFOAB2, IFIFO, PKA, KEY1, * KEY2, ALTSOURCE. * @dst_offset: offset in destination data (uint16_t) * @length: size of data to be moved: for MOVE must be specified as immediate * value and IMMED flag must be set; for MOVE_LEN must be specified * using MATH0-MATH3. * @opt: operational flags: WAITCOMP, FLUSH1, FLUSH2, LAST1, LAST2, SIZE_WORD, * SIZE_BYTE, SIZE_DWORD, IMMED (not valid for MOVE_LEN). * * Identical with MOVE command, with the following differences: data type is * 8-byte array; word swapping is performed when SEC is programmed in little * endian mode. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define MOVEDW(program, src, src_offset, dst, dst_offset, length, opt) \ rta_move(program, __MOVEDW, src, src_offset, dst, dst_offset, length, \ opt) /** * FIFOLOAD - Configures FIFOLOAD command to load message data, PKHA data, IV, * ICV, AAD and bit length message data into Input Data FIFO. * @program: pointer to struct program * @data: input data type to store: PKHA registers, IFIFO, MSG1, MSG2, * MSGOUTSNOOP, MSGINSNOOP, IV1, IV2, AAD1, ICV1, ICV2, BIT_DATA, SKIP. * @src: pointer or actual data in case of immediate load; IMMED, COPY and DCOPY * flags indicate action taken (inline imm data, inline ptr, inline from * ptr). * @length: number of bytes to load (uint32_t) * @flags: operational flags: SGF, IMMED, EXT, CLASS1, CLASS2, BOTH, FLUSH1, * LAST1, LAST2, COPY, DCOPY. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define FIFOLOAD(program, data, src, length, flags) \ rta_fifo_load(program, data, src, length, flags) /** * SEQFIFOLOAD - Configures SEQ FIFOLOAD command to load message data, PKHA * data, IV, ICV, AAD and bit length message data into Input Data * FIFO. * @program: pointer to struct program * @data: input data type to store: PKHA registers, IFIFO, MSG1, MSG2, * MSGOUTSNOOP, MSGINSNOOP, IV1, IV2, AAD1, ICV1, ICV2, BIT_DATA, SKIP. * @length: number of bytes to load; can be set to 0 for SEQ command w/ VLF set * (uint32_t). * @flags: operational flags: VLF, CLASS1, CLASS2, BOTH, FLUSH1, LAST1, LAST2, * AIDF. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SEQFIFOLOAD(program, data, length, flags) \ rta_fifo_load(program, data, NONE, length, flags|SEQ) /** * FIFOSTORE - Configures FIFOSTORE command, to move data from Output Data FIFO * to external memory via DMA. * @program: pointer to struct program * @data: output data type to store: PKHA registers, IFIFO, OFIFO, RNG, * RNGOFIFO, AFHA_SBOX, MDHA_SPLIT_KEY, MSG, KEY1, KEY2, SKIP. * @encrypt_flags: store data encryption mode: EKT, TK * @dst: pointer to store location (uint64_t) * @length: number of bytes to load (uint32_t) * @flags: operational flags: SGF, CONT, EXT, CLASS1, CLASS2, BOTH * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define FIFOSTORE(program, data, encrypt_flags, dst, length, flags) \ rta_fifo_store(program, data, encrypt_flags, dst, length, flags) /** * SEQFIFOSTORE - Configures SEQ FIFOSTORE command, to move data from Output * Data FIFO to external memory via DMA. * @program: pointer to struct program * @data: output data type to store: PKHA registers, IFIFO, OFIFO, RNG, * RNGOFIFO, AFHA_SBOX, MDHA_SPLIT_KEY, MSG, KEY1, KEY2, METADATA, SKIP. * @encrypt_flags: store data encryption mode: EKT, TK * @length: number of bytes to load; can be set to 0 for SEQ command w/ VLF set * (uint32_t). * @flags: operational flags: VLF, CONT, EXT, CLASS1, CLASS2, BOTH * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SEQFIFOSTORE(program, data, encrypt_flags, length, flags) \ rta_fifo_store(program, data, encrypt_flags, 0, length, flags|SEQ) /** * KEY - Configures KEY and SEQ KEY commands * @program: pointer to struct program * @key_dst: key store location: KEY1, KEY2, PKE, AFHA_SBOX, MDHA_SPLIT_KEY * @encrypt_flags: key encryption mode: ENC, EKT, TK, NWB, PTS * @src: pointer or actual data in case of immediate load (uint64_t); IMMED, * COPY and DCOPY flags indicate action taken (inline imm data, * inline ptr, inline from ptr). * @length: number of bytes to load; can be set to 0 for SEQ command w/ VLF set * (uint32_t). * @flags: operational flags: for KEY: SGF, IMMED, COPY, DCOPY; for SEQKEY: SEQ, * VLF, AIDF. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define KEY(program, key_dst, encrypt_flags, src, length, flags) \ rta_key(program, key_dst, encrypt_flags, src, length, flags) /** * SEQINPTR - Configures SEQ IN PTR command * @program: pointer to struct program * @src: starting address for Input Sequence (uint64_t) * @length: number of bytes in (or to be added to) Input Sequence (uint32_t) * @flags: operational flags: RBS, INL, SGF, PRE, EXT, RTO, RJD, SOP (when PRE, * RTO or SOP are set, @src parameter must be 0). * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SEQINPTR(program, src, length, flags) \ rta_seq_in_ptr(program, src, length, flags) /** * SEQOUTPTR - Configures SEQ OUT PTR command * @program: pointer to struct program * @dst: starting address for Output Sequence (uint64_t) * @length: number of bytes in (or to be added to) Output Sequence (uint32_t) * @flags: operational flags: SGF, PRE, EXT, RTO, RST, EWS (when PRE or RTO are * set, @dst parameter must be 0). * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SEQOUTPTR(program, dst, length, flags) \ rta_seq_out_ptr(program, dst, length, flags) /** * ALG_OPERATION - Configures ALGORITHM OPERATION command * @program: pointer to struct program * @cipher_alg: algorithm to be used * @aai: Additional Algorithm Information; contains mode information that is * associated with the algorithm (check desc.h for specific values). * @algo_state: algorithm state; defines the state of the algorithm that is * being executed (check desc.h file for specific values). * @icv_check: ICV checking; selects whether the algorithm should check * calculated ICV with known ICV: ICV_CHECK_ENABLE, * ICV_CHECK_DISABLE. * @enc: selects between encryption and decryption: DIR_ENC, DIR_DEC * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define ALG_OPERATION(program, cipher_alg, aai, algo_state, icv_check, enc) \ rta_operation(program, cipher_alg, aai, algo_state, icv_check, enc) /** * PROTOCOL - Configures PROTOCOL OPERATION command * @program: pointer to struct program * @optype: operation type: OP_TYPE_UNI_PROTOCOL / OP_TYPE_DECAP_PROTOCOL / * OP_TYPE_ENCAP_PROTOCOL. * @protid: protocol identifier value (check desc.h file for specific values) * @protoinfo: protocol dependent value (check desc.h file for specific values) * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define PROTOCOL(program, optype, protid, protoinfo) \ rta_proto_operation(program, optype, protid, protoinfo) /** * DKP_PROTOCOL - Configures DKP (Derived Key Protocol) PROTOCOL command * @program: pointer to struct program * @protid: protocol identifier value - one of the following: * OP_PCLID_DKP_{MD5 | SHA1 | SHA224 | SHA256 | SHA384 | SHA512} * @key_src: How the initial ("negotiated") key is provided to the DKP protocol. * Valid values - one of OP_PCL_DKP_SRC_{IMM, SEQ, PTR, SGF}. Not all * (key_src,key_dst) combinations are allowed. * @key_dst: How the derived ("split") key is returned by the DKP protocol. * Valid values - one of OP_PCL_DKP_DST_{IMM, SEQ, PTR, SGF}. Not all * (key_src,key_dst) combinations are allowed. * @keylen: length of the initial key, in bytes (uint16_t) * @key: address where algorithm key resides; virtual address if key_type is * RTA_DATA_IMM, physical (bus) address if key_type is RTA_DATA_PTR or * RTA_DATA_IMM_DMA. * @key_type: enum rta_data_type * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define DKP_PROTOCOL(program, protid, key_src, key_dst, keylen, key, key_type) \ rta_dkp_proto(program, protid, key_src, key_dst, keylen, key, key_type) /** * PKHA_OPERATION - Configures PKHA OPERATION command * @program: pointer to struct program * @op_pkha: PKHA operation; indicates the modular arithmetic function to * execute (check desc.h file for specific values). * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define PKHA_OPERATION(program, op_pkha) rta_pkha_operation(program, op_pkha) /** * JUMP - Configures JUMP command * @program: pointer to struct program * @addr: local offset for local jumps or address pointer for non-local jumps; * IMM or PTR macros must be used to indicate type. * @jump_type: type of action taken by jump (enum rta_jump_type) * @test_type: defines how jump conditions are evaluated (enum rta_jump_cond) * @cond: jump conditions: operational flags - DONE1, DONE2, BOTH; various * sharing and wait conditions (JSL = 1) - NIFP, NIP, NOP, NCP, CALM, * SELF, SHARED, JQP; Math and PKHA status conditions (JSL = 0) - Z, N, * NV, C, PK0, PK1, PKP. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define JUMP(program, addr, jump_type, test_type, cond) \ rta_jump(program, addr, jump_type, test_type, cond, NONE) /** * JUMP_INC - Configures JUMP_INC command * @program: pointer to struct program * @addr: local offset; IMM or PTR macros must be used to indicate type * @test_type: defines how jump conditions are evaluated (enum rta_jump_cond) * @cond: jump conditions: Math status conditions (JSL = 0): Z, N, NV, C * @src_dst: register to increment / decrement: MATH0-MATH3, DPOVRD, SEQINSZ, * SEQOUTSZ, VSEQINSZ, VSEQOUTSZ. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define JUMP_INC(program, addr, test_type, cond, src_dst) \ rta_jump(program, addr, LOCAL_JUMP_INC, test_type, cond, src_dst) /** * JUMP_DEC - Configures JUMP_DEC command * @program: pointer to struct program * @addr: local offset; IMM or PTR macros must be used to indicate type * @test_type: defines how jump conditions are evaluated (enum rta_jump_cond) * @cond: jump conditions: Math status conditions (JSL = 0): Z, N, NV, C * @src_dst: register to increment / decrement: MATH0-MATH3, DPOVRD, SEQINSZ, * SEQOUTSZ, VSEQINSZ, VSEQOUTSZ. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define JUMP_DEC(program, addr, test_type, cond, src_dst) \ rta_jump(program, addr, LOCAL_JUMP_DEC, test_type, cond, src_dst) /** * LOAD - Configures LOAD command to load data registers from descriptor or from * a memory location. * @program: pointer to struct program * @addr: immediate value or pointer to the data to be loaded; IMMED, COPY and * DCOPY flags indicate action taken (inline imm data, inline ptr, inline * from ptr). * @dst: destination register (uint64_t) * @offset: start point to write data in destination register (uint32_t) * @length: number of bytes to load (uint32_t) * @flags: operational flags: VLF, IMMED, COPY, DCOPY * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define LOAD(program, addr, dst, offset, length, flags) \ rta_load(program, addr, dst, offset, length, flags) /** * SEQLOAD - Configures SEQ LOAD command to load data registers from descriptor * or from a memory location. * @program: pointer to struct program * @dst: destination register (uint64_t) * @offset: start point to write data in destination register (uint32_t) * @length: number of bytes to load (uint32_t) * @flags: operational flags: SGF * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SEQLOAD(program, dst, offset, length, flags) \ rta_load(program, NONE, dst, offset, length, flags|SEQ) /** * STORE - Configures STORE command to read data from registers and write them * to a memory location. * @program: pointer to struct program * @src: immediate value or source register for data to be stored: KEY1SZ, * KEY2SZ, DJQDA, MODE1, MODE2, DJQCTRL, DATA1SZ, DATA2SZ, DSTAT, ICV1SZ, * ICV2SZ, DPID, CCTRL, ICTRL, CLRW, CSTAT, MATH0-MATH3, PKHA registers, * CONTEXT1, CONTEXT2, DESCBUF, JOBDESCBUF, SHAREDESCBUF. In case of * immediate value, IMMED, COPY and DCOPY flags indicate action taken * (inline imm data, inline ptr, inline from ptr). * @offset: start point for reading from source register (uint16_t) * @dst: pointer to store location (uint64_t) * @length: number of bytes to store (uint32_t) * @flags: operational flags: VLF, IMMED, COPY, DCOPY * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define STORE(program, src, offset, dst, length, flags) \ rta_store(program, src, offset, dst, length, flags) /** * SEQSTORE - Configures SEQ STORE command to read data from registers and write * them to a memory location. * @program: pointer to struct program * @src: immediate value or source register for data to be stored: KEY1SZ, * KEY2SZ, DJQDA, MODE1, MODE2, DJQCTRL, DATA1SZ, DATA2SZ, DSTAT, ICV1SZ, * ICV2SZ, DPID, CCTRL, ICTRL, CLRW, CSTAT, MATH0-MATH3, PKHA registers, * CONTEXT1, CONTEXT2, DESCBUF, JOBDESCBUF, SHAREDESCBUF. In case of * immediate value, IMMED, COPY and DCOPY flags indicate action taken * (inline imm data, inline ptr, inline from ptr). * @offset: start point for reading from source register (uint16_t) * @length: number of bytes to store (uint32_t) * @flags: operational flags: SGF, IMMED, COPY, DCOPY * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SEQSTORE(program, src, offset, length, flags) \ rta_store(program, src, offset, NONE, length, flags|SEQ) /** * MATHB - Configures MATHB command to perform binary operations * @program: pointer to struct program * @operand1: first operand: MATH0-MATH3, DPOVRD, SEQINSZ, SEQOUTSZ, VSEQINSZ, * VSEQOUTSZ, ZERO, ONE, NONE, Immediate value. IMMED must be used to * indicate immediate value. * @operator: function to be performed: ADD, ADDC, SUB, SUBB, OR, AND, XOR, * LSHIFT, RSHIFT, SHLD. * @operand2: second operand: MATH0-MATH3, DPOVRD, VSEQINSZ, VSEQOUTSZ, ABD, * OFIFO, JOBSRC, ZERO, ONE, Immediate value. IMMED2 must be used to * indicate immediate value. * @result: destination for the result: MATH0-MATH3, DPOVRD, SEQINSZ, SEQOUTSZ, * NONE, VSEQINSZ, VSEQOUTSZ. * @length: length in bytes of the operation and the immediate value, if there * is one (int). * @opt: operational flags: IFB, NFU, STL, SWP, IMMED, IMMED2 * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define MATHB(program, operand1, operator, operand2, result, length, opt) \ rta_math(program, operand1, MATH_FUN_##operator, operand2, result, \ length, opt) /** * MATHI - Configures MATHI command to perform binary operations * @program: pointer to struct program * @operand: if !SSEL: MATH0-MATH3, DPOVRD, SEQINSZ, SEQOUTSZ, VSEQINSZ, * VSEQOUTSZ, ZERO, ONE. * if SSEL: MATH0-MATH3, DPOVRD, VSEQINSZ, VSEQOUTSZ, ABD, OFIFO, * JOBSRC, ZERO, ONE. * @operator: function to be performed: ADD, ADDC, SUB, SUBB, OR, AND, XOR, * LSHIFT, RSHIFT, FBYT (for !SSEL only). * @imm: Immediate value (uint8_t). IMMED must be used to indicate immediate * value. * @result: destination for the result: MATH0-MATH3, DPOVRD, SEQINSZ, SEQOUTSZ, * NONE, VSEQINSZ, VSEQOUTSZ. * @length: length in bytes of the operation and the immediate value, if there * is one (int). @imm is left-extended with zeros if needed. * @opt: operational flags: NFU, SSEL, SWP, IMMED * * If !SSEL, @operand <@operator> @imm -> @result * If SSEL, @imm <@operator> @operand -> @result * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define MATHI(program, operand, operator, imm, result, length, opt) \ rta_mathi(program, operand, MATH_FUN_##operator, imm, result, length, \ opt) /** * MATHU - Configures MATHU command to perform unary operations * @program: pointer to struct program * @operand1: operand: MATH0-MATH3, DPOVRD, SEQINSZ, SEQOUTSZ, VSEQINSZ, * VSEQOUTSZ, ZERO, ONE, NONE, Immediate value. IMMED must be used to * indicate immediate value. * @operator: function to be performed: ZBYT, BSWAP * @result: destination for the result: MATH0-MATH3, DPOVRD, SEQINSZ, SEQOUTSZ, * NONE, VSEQINSZ, VSEQOUTSZ. * @length: length in bytes of the operation and the immediate value, if there * is one (int). * @opt: operational flags: NFU, STL, SWP, IMMED * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define MATHU(program, operand1, operator, result, length, opt) \ rta_math(program, operand1, MATH_FUN_##operator, NONE, result, length, \ opt) /** * SIGNATURE - Configures SIGNATURE command * @program: pointer to struct program * @sign_type: signature type: SIGN_TYPE_FINAL, SIGN_TYPE_FINAL_RESTORE, * SIGN_TYPE_FINAL_NONZERO, SIGN_TYPE_IMM_2, SIGN_TYPE_IMM_3, * SIGN_TYPE_IMM_4. * * After SIGNATURE command, DWORD or WORD must be used to insert signature in * descriptor buffer. * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define SIGNATURE(program, sign_type) rta_signature(program, sign_type) /** * NFIFOADD - Configures NFIFO command, a shortcut of RTA Load command to write * to iNfo FIFO. * @program: pointer to struct program * @src: source for the input data in Alignment Block:IFIFO, OFIFO, PAD, * MSGOUTSNOOP, ALTSOURCE, OFIFO_SYNC, MSGOUTSNOOP_ALT. * @data: type of data that is going through the Input Data FIFO: MSG, MSG1, * MSG2, IV1, IV2, ICV1, ICV2, SAD1, AAD1, AAD2, AFHA_SBOX, SKIP, * PKHA registers, AB1, AB2, ABD. * @length: length of the data copied in FIFO registers (uint32_t) * @flags: select options between: * -operational flags: LAST1, LAST2, FLUSH1, FLUSH2, OC, BP * -when PAD is selected as source: BM, PR, PS * -padding type: PAD_ZERO, PAD_NONZERO, PAD_INCREMENT, PAD_RANDOM, * PAD_ZERO_N1, PAD_NONZERO_0, PAD_N1, PAD_NONZERO_N * * Return: On success, descriptor buffer offset where this command is inserted. * On error, a negative error code; first error program counter will * point to offset in descriptor buffer where the instruction should * have been written. */ #define NFIFOADD(program, src, data, length, flags) \ rta_nfifo_load(program, src, data, length, flags) /** * DOC: Self Referential Code Management Routines * * Contains details of RTA self referential code routines. */ /** * REFERENCE - initialize a variable used for storing an index inside a * descriptor buffer. * @ref: reference to a descriptor buffer's index where an update is required * with a value that will be known latter in the program flow. */ #define REFERENCE(ref) int ref = -1 /** * LABEL - initialize a variable used for storing an index inside a descriptor * buffer. * @label: label stores the value with what should be updated the REFERENCE line * in the descriptor buffer. */ #define LABEL(label) unsigned int label = 0 /** * SET_LABEL - set a LABEL value * @program: pointer to struct program * @label: value that will be inserted in a line previously written in the * descriptor buffer. */ #define SET_LABEL(program, label) (label = rta_set_label(program)) /** * PATCH_JUMP - Auxiliary command to resolve self referential code * @program: buffer to be updated (struct program *) * @line: position in descriptor buffer where the update will be done; this * value is previously retained in program flow using a reference near * the sequence to be modified. * @new_ref: updated value that will be inserted in descriptor buffer at the * specified line; this value is previously obtained using SET_LABEL * macro near the line that will be used as reference (unsigned int). * For JUMP command, the value represents the offset field (in words). * * Return: 0 in case of success, a negative error code if it fails */ #define PATCH_JUMP(program, line, new_ref) rta_patch_jmp(program, line, new_ref) /** * PATCH_MOVE - Auxiliary command to resolve self referential code * @program: buffer to be updated (struct program *) * @line: position in descriptor buffer where the update will be done; this * value is previously retained in program flow using a reference near * the sequence to be modified. * @new_ref: updated value that will be inserted in descriptor buffer at the * specified line; this value is previously obtained using SET_LABEL * macro near the line that will be used as reference (unsigned int). * For MOVE command, the value represents the offset field (in words). * * Return: 0 in case of success, a negative error code if it fails */ #define PATCH_MOVE(program, line, new_ref) \ rta_patch_move(program, line, new_ref) /** * PATCH_LOAD - Auxiliary command to resolve self referential code * @program: buffer to be updated (struct program *) * @line: position in descriptor buffer where the update will be done; this * value is previously retained in program flow using a reference near * the sequence to be modified. * @new_ref: updated value that will be inserted in descriptor buffer at the * specified line; this value is previously obtained using SET_LABEL * macro near the line that will be used as reference (unsigned int). * For LOAD command, the value represents the offset field (in words). * * Return: 0 in case of success, a negative error code if it fails */ #define PATCH_LOAD(program, line, new_ref) \ rta_patch_load(program, line, new_ref) /** * PATCH_STORE - Auxiliary command to resolve self referential code * @program: buffer to be updated (struct program *) * @line: position in descriptor buffer where the update will be done; this * value is previously retained in program flow using a reference near * the sequence to be modified. * @new_ref: updated value that will be inserted in descriptor buffer at the * specified line; this value is previously obtained using SET_LABEL * macro near the line that will be used as reference (unsigned int). * For STORE command, the value represents the offset field (in words). * * Return: 0 in case of success, a negative error code if it fails */ #define PATCH_STORE(program, line, new_ref) \ rta_patch_store(program, line, new_ref) /** * PATCH_HDR - Auxiliary command to resolve self referential code * @program: buffer to be updated (struct program *) * @line: position in descriptor buffer where the update will be done; this * value is previously retained in program flow using a reference near * the sequence to be modified. * @new_ref: updated value that will be inserted in descriptor buffer at the * specified line; this value is previously obtained using SET_LABEL * macro near the line that will be used as reference (unsigned int). * For HEADER command, the value represents the start index field. * * Return: 0 in case of success, a negative error code if it fails */ #define PATCH_HDR(program, line, new_ref) \ rta_patch_header(program, line, new_ref) /** * PATCH_RAW - Auxiliary command to resolve self referential code * @program: buffer to be updated (struct program *) * @line: position in descriptor buffer where the update will be done; this * value is previously retained in program flow using a reference near * the sequence to be modified. * @mask: mask to be used for applying the new value (unsigned int). The mask * selects which bits from the provided @new_val are taken into * consideration when overwriting the existing value. * @new_val: updated value that will be masked using the provided mask value * and inserted in descriptor buffer at the specified line. * * Return: 0 in case of success, a negative error code if it fails */ #define PATCH_RAW(program, line, mask, new_val) \ rta_patch_raw(program, line, mask, new_val) #endif /* __RTA_RTA_H__ */