blob: 0cc8628a63ad5116361bc6cbaba0f06887616c76 [file] [log] [blame]
/*
* Copyright (c) 2021-2024, Arm Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef RMMD_SVC_H
#define RMMD_SVC_H
#include <common/sha_common_macros.h>
#include <lib/smccc.h>
#include <lib/utils_def.h>
/* STD calls FNUM Min/Max ranges */
#define RMI_FNUM_MIN_VALUE U(0x150)
#define RMI_FNUM_MAX_VALUE U(0x18F)
/* Construct RMI fastcall std FID from offset */
#define SMC64_RMI_FID(_offset) \
((SMC_TYPE_FAST << FUNCID_TYPE_SHIFT) | \
(SMC_64 << FUNCID_CC_SHIFT) | \
(OEN_STD_START << FUNCID_OEN_SHIFT) | \
(((RMI_FNUM_MIN_VALUE + (_offset)) & FUNCID_NUM_MASK) \
<< FUNCID_NUM_SHIFT))
#define is_rmi_fid(fid) __extension__ ({ \
__typeof__(fid) _fid = (fid); \
((GET_SMC_NUM(_fid) >= RMI_FNUM_MIN_VALUE) && \
(GET_SMC_NUM(_fid) <= RMI_FNUM_MAX_VALUE) && \
(GET_SMC_TYPE(_fid) == SMC_TYPE_FAST) && \
(GET_SMC_CC(_fid) == SMC_64) && \
(GET_SMC_OEN(_fid) == OEN_STD_START) && \
((_fid & 0x00FE0000) == 0U)); })
/*
* RMI_FNUM_REQ_COMPLETE is the only function in the RMI range that originates
* from the Realm world and is handled by the RMMD. The RMI functions are
* always invoked by the Normal world, forwarded by RMMD and handled by the
* RMM.
*/
/* 0x18F */
#define RMM_RMI_REQ_COMPLETE SMC64_RMI_FID(U(0x3F))
/* RMM_BOOT_COMPLETE arg0 error codes */
#define E_RMM_BOOT_SUCCESS (0)
#define E_RMM_BOOT_UNKNOWN (-1)
#define E_RMM_BOOT_VERSION_MISMATCH (-2)
#define E_RMM_BOOT_CPUS_OUT_OF_RANGE (-3)
#define E_RMM_BOOT_CPU_ID_OUT_OF_RANGE (-4)
#define E_RMM_BOOT_INVALID_SHARED_BUFFER (-5)
#define E_RMM_BOOT_MANIFEST_VERSION_NOT_SUPPORTED (-6)
#define E_RMM_BOOT_MANIFEST_DATA_ERROR (-7)
/* The SMC in the range 0x8400 0191 - 0x8400 01AF are reserved for RSIs.*/
/*
* EL3 - RMM SMCs used for requesting RMMD services. These SMCs originate in Realm
* world and return to Realm world.
*
* These are allocated from 0x8400 01B0 - 0x8400 01CF in the RMM Service range.
*/
#define RMMD_EL3_FNUM_MIN_VALUE U(0x1B0)
#define RMMD_EL3_FNUM_MAX_VALUE U(0x1CF)
/* Construct RMM_EL3 fastcall std FID from offset */
#define SMC64_RMMD_EL3_FID(_offset) \
((SMC_TYPE_FAST << FUNCID_TYPE_SHIFT) | \
(SMC_64 << FUNCID_CC_SHIFT) | \
(OEN_STD_START << FUNCID_OEN_SHIFT) | \
(((RMMD_EL3_FNUM_MIN_VALUE + (_offset)) & FUNCID_NUM_MASK) \
<< FUNCID_NUM_SHIFT))
/* The macros below are used to identify GTSI calls from the SMC function ID */
#define is_rmmd_el3_fid(fid) __extension__ ({ \
__typeof__(fid) _fid = (fid); \
((GET_SMC_NUM(_fid) >= RMMD_EL3_FNUM_MIN_VALUE) &&\
(GET_SMC_NUM(_fid) <= RMMD_EL3_FNUM_MAX_VALUE) &&\
(GET_SMC_TYPE(_fid) == SMC_TYPE_FAST) && \
(GET_SMC_CC(_fid) == SMC_64) && \
(GET_SMC_OEN(_fid) == OEN_STD_START) && \
((_fid & 0x00FE0000) == 0U)); })
/* 0x1B0 - 0x1B1 */
#define RMM_GTSI_DELEGATE SMC64_RMMD_EL3_FID(U(0))
#define RMM_GTSI_UNDELEGATE SMC64_RMMD_EL3_FID(U(1))
/* Return error codes from RMM-EL3 SMCs */
#define E_RMM_OK 0
#define E_RMM_UNK -1
#define E_RMM_BAD_ADDR -2
#define E_RMM_BAD_PAS -3
#define E_RMM_NOMEM -4
#define E_RMM_INVAL -5
#define E_RMM_AGAIN -6
/* Return error codes from RMI SMCs */
#define RMI_SUCCESS 0
#define RMI_ERROR_INPUT 1
/*
* Retrieve Realm attestation key from EL3. Only P-384 ECC curve key is
* supported. The arguments to this SMC are :
* arg0 - Function ID.
* arg1 - Realm attestation key buffer Physical address.
* arg2 - Realm attestation key buffer size (in bytes).
* arg3 - The type of the elliptic curve to which the requested
* attestation key belongs to. The value should be one of the
* defined curve types.
* The return arguments are :
* ret0 - Status / error.
* ret1 - Size of the realm attestation key if successful.
*/
/* 0x1B2 */
#define RMM_ATTEST_GET_REALM_KEY SMC64_RMMD_EL3_FID(U(2))
/*
* Retrieve Platform token from EL3.
* The arguments to this SMC are :
* arg0 - Function ID.
* arg1 - Platform attestation token buffer Physical address. (The challenge
* object is passed in this buffer.)
* arg2 - Platform attestation token buffer size (in bytes).
* arg3 - Challenge object size (in bytes). It has to be one of the defined
* SHA hash sizes.
* The return arguments are :
* ret0 - Status / error.
* ret1 - Size of the platform token if successful.
*/
/* 0x1B3 */
#define RMM_ATTEST_GET_PLAT_TOKEN SMC64_RMMD_EL3_FID(U(3))
/* Starting RMM-EL3 interface version 0.4 */
#define RMM_EL3_FEATURES SMC64_RMMD_EL3_FID(U(4))
#define RMM_EL3_FEAT_REG_0_IDX U(0)
/* Bit 0 of FEAT_REG_0 */
/* 1 - the feature is present in EL3 , 0 - the feature is absent */
#define RMM_EL3_FEAT_REG_0_EL3_TOKEN_SIGN_MASK U(0x1)
/*
* Function codes to support attestation where EL3 is used to sign
* realm attestation tokens. In this model, the private key is not
* exposed to the RMM.
* The arguments to this SMC are:
* arg0 - Function ID.
* arg1 - Opcode, one of:
* RMM_EL3_TOKEN_SIGN_PUSH_REQ_OP,
* RMM_EL3_TOKEN_SIGN_PULL_RESP_OP,
* RMM_EL3_TOKEN_SIGN_GET_RAK_PUB_OP
* arg2 - Pointer to buffer with request/response structures,
* which is in the RMM<->EL3 shared buffer.
* arg3 - Buffer size of memory pointed by arg2.
* arg4 - ECC Curve, when opcode is RMM_EL3_TOKEN_SIGN_GET_RAK_PUB_OP
* The return arguments are:
* ret0 - Status/Error
* ret1 - Size of public key if opcode is RMM_EL3_TOKEN_SIGN_GET_RAK_PUB_OP
*/
#define RMM_EL3_TOKEN_SIGN SMC64_RMMD_EL3_FID(U(5))
/* Opcodes for RMM_EL3_TOKEN_SIGN */
#define RMM_EL3_TOKEN_SIGN_PUSH_REQ_OP U(1)
#define RMM_EL3_TOKEN_SIGN_PULL_RESP_OP U(2)
#define RMM_EL3_TOKEN_SIGN_GET_RAK_PUB_OP U(3)
/* ECC Curve types for attest key generation */
#define ATTEST_KEY_CURVE_ECC_SECP384R1 U(0)
/* Identifier for the hash algorithm used for attestation signing */
#define EL3_TOKEN_SIGN_HASH_ALG_SHA384 U(1)
/*
* RMM_BOOT_COMPLETE originates on RMM when the boot finishes (either cold
* or warm boot). This is handled by the RMM-EL3 interface SMC handler.
*
* RMM_BOOT_COMPLETE FID is located at the end of the available range.
*/
/* 0x1CF */
#define RMM_BOOT_COMPLETE SMC64_RMMD_EL3_FID(U(0x1F))
/*
* The major version number of the RMM Boot Interface implementation.
* Increase this whenever the semantics of the boot arguments change making it
* backwards incompatible.
*/
#define RMM_EL3_IFC_VERSION_MAJOR (U(0))
/*
* The minor version number of the RMM Boot Interface implementation.
* Increase this when a bug is fixed, or a feature is added without
* breaking compatibility.
*/
#define RMM_EL3_IFC_VERSION_MINOR (U(4))
#define RMM_EL3_INTERFACE_VERSION \
(((RMM_EL3_IFC_VERSION_MAJOR << 16) & 0x7FFFF) | \
RMM_EL3_IFC_VERSION_MINOR)
#define RMM_EL3_IFC_VERSION_GET_MAJOR(_version) (((_version) >> 16) \
& 0x7FFF)
#define RMM_EL3_IFC_VERSION_GET_MAJOR_MINOR(_version) ((_version) & 0xFFFF)
#ifndef __ASSEMBLER__
#include <stdint.h>
int rmmd_setup(void);
uint64_t rmmd_rmi_handler(uint32_t smc_fid,
uint64_t x1,
uint64_t x2,
uint64_t x3,
uint64_t x4,
void *cookie,
void *handle,
uint64_t flags);
uint64_t rmmd_rmm_el3_handler(uint32_t smc_fid,
uint64_t x1,
uint64_t x2,
uint64_t x3,
uint64_t x4,
void *cookie,
void *handle,
uint64_t flags);
#endif /* __ASSEMBLER__ */
#endif /* RMMD_SVC_H */