/** * Copyright (c) 2011 Trusted Logic S.A. * All Rights Reserved. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #ifndef __TF_COMM_H__ #define __TF_COMM_H__ #include "tf_defs.h" #include "tf_protocol.h" /*---------------------------------------------------------------------------- * Misc *----------------------------------------------------------------------------*/ void tf_set_current_time(struct tf_comm *comm); /* * Atomic accesses to 32-bit variables in the L1 Shared buffer */ static inline u32 tf_read_reg32(const u32 *comm_buffer) { u32 result; __asm__ __volatile__("@ tf_read_reg32\n" "ldrex %0, [%1]\n" : "=&r" (result) : "r" (comm_buffer) ); return result; } static inline void tf_write_reg32(void *comm_buffer, u32 value) { u32 tmp; __asm__ __volatile__("@ tf_write_reg32\n" "1: ldrex %0, [%2]\n" " strex %0, %1, [%2]\n" " teq %0, #0\n" " bne 1b" : "=&r" (tmp) : "r" (value), "r" (comm_buffer) : "cc" ); } /* * Atomic accesses to 64-bit variables in the L1 Shared buffer */ static inline u64 tf_read_reg64(void *comm_buffer) { u64 result; __asm__ __volatile__("@ tf_read_reg64\n" "ldrexd %0, [%1]\n" : "=&r" (result) : "r" (comm_buffer) ); return result; } static inline void tf_write_reg64(void *comm_buffer, u64 value) { u64 tmp; __asm__ __volatile__("@ tf_write_reg64\n" "1: ldrexd %0, [%2]\n" " strexd %0, %1, [%2]\n" " teq %0, #0\n" " bne 1b" : "=&r" (tmp) : "r" (value), "r" (comm_buffer) : "cc" ); } /*---------------------------------------------------------------------------- * SMC operations *----------------------------------------------------------------------------*/ /* RPC return values */ #define RPC_NO 0x00 /* No RPC to execute */ #define RPC_YIELD 0x01 /* Yield RPC */ #define RPC_NON_YIELD 0x02 /* non-Yield RPC */ int tf_rpc_execute(struct tf_comm *comm); /*---------------------------------------------------------------------------- * Shared memory related operations *----------------------------------------------------------------------------*/ #define L1_DESCRIPTOR_FAULT (0x00000000) #define L2_DESCRIPTOR_FAULT (0x00000000) #define L2_DESCRIPTOR_ADDR_MASK (0xFFFFF000) #define DESCRIPTOR_V13_12_MASK (0x3 << PAGE_SHIFT) #define DESCRIPTOR_V13_12_GET(a) ((a & DESCRIPTOR_V13_12_MASK) >> PAGE_SHIFT) struct tf_coarse_page_table *tf_alloc_coarse_page_table( struct tf_coarse_page_table_allocation_context *alloc_context, u32 type); void tf_free_coarse_page_table( struct tf_coarse_page_table_allocation_context *alloc_context, struct tf_coarse_page_table *coarse_pg_table, int force); void tf_init_coarse_page_table_allocator( struct tf_coarse_page_table_allocation_context *alloc_context); void tf_release_coarse_page_table_allocator( struct tf_coarse_page_table_allocation_context *alloc_context); struct page *tf_l2_page_descriptor_to_page(u32 l2_page_descriptor); u32 tf_get_l2_descriptor_common(u32 vaddr, struct mm_struct *mm); void tf_cleanup_shared_memory( struct tf_coarse_page_table_allocation_context *alloc_context, struct tf_shmem_desc *shmem_desc, u32 full_cleanup); int tf_fill_descriptor_table( struct tf_coarse_page_table_allocation_context *alloc_context, struct tf_shmem_desc *shmem_desc, u32 buffer, struct vm_area_struct **vmas, u32 descriptors[TF_MAX_COARSE_PAGES], u32 buffer_size, u32 *buffer_start_offset, bool in_user_space, u32 flags, u32 *descriptor_count); /*---------------------------------------------------------------------------- * Standard communication operations *----------------------------------------------------------------------------*/ int tf_schedule_secure_world(struct tf_comm *comm); int tf_send_receive( struct tf_comm *comm, union tf_command *command, union tf_answer *answer, struct tf_connection *connection, bool bKillable); /** * get a pointer to the secure world description. * This points directly into the L1 shared buffer * and is valid only once the communication has * been initialized **/ u8 *tf_get_description(struct tf_comm *comm); /*---------------------------------------------------------------------------- * Power management *----------------------------------------------------------------------------*/ enum TF_POWER_OPERATION { TF_POWER_OPERATION_HIBERNATE = 1, TF_POWER_OPERATION_SHUTDOWN = 2, TF_POWER_OPERATION_RESUME = 3, }; int tf_pm_hibernate(struct tf_comm *comm); int tf_pm_resume(struct tf_comm *comm); int tf_pm_shutdown(struct tf_comm *comm); int tf_power_management(struct tf_comm *comm, enum TF_POWER_OPERATION operation); /*---------------------------------------------------------------------------- * Communication initialization and termination *----------------------------------------------------------------------------*/ int tf_init(struct tf_comm *comm); void tf_terminate(struct tf_comm *comm); #endif /* __TF_COMM_H__ */