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- /*
- * Copyright (C) 2011-2016 Intel Corporation. All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted provided that the following conditions
- * are met:
- *
- * * Redistributions of source code must retain the above copyright
- * notice, this list of conditions and the following disclaimer.
- * * Redistributions in binary form must reproduce the above copyright
- * notice, this list of conditions and the following disclaimer in
- * the documentation and/or other materials provided with the
- * distribution.
- * * Neither the name of Intel Corporation nor the names of its
- * contributors may be used to endorse or promote products derived
- * from this software without specific prior written permission.
- *
- * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
- * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
- * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
- * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
- * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
- * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
- * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
- * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
- * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
- * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
- * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- *
- */
- /**
- * File: trts_veh.cpp
- * Description:
- * This file implements the support of custom exception handling.
- */
- #include "sgx_trts_exception.h"
- #include <stdlib.h>
- #include "sgx_trts.h"
- #include "xsave.h"
- #include "arch.h"
- #include "sgx_spinlock.h"
- #include "thread_data.h"
- #include "global_data.h"
- #include "trts_internal.h"
- typedef struct _handler_node_t
- {
- uintptr_t callback;
- struct _handler_node_t *next;
- } handler_node_t;
- static handler_node_t *g_first_node = NULL;
- static sgx_spinlock_t g_handler_lock = SGX_SPINLOCK_INITIALIZER;
- static uintptr_t g_veh_cookie = 0;
- #define ENC_VEH_POINTER(x) (uintptr_t)(x) ^ g_veh_cookie
- #define DEC_VEH_POINTER(x) (sgx_exception_handler_t)((x) ^ g_veh_cookie)
- static bool is_stack_addr(void *address, size_t size)
- {
- thread_data_t *thread_data = get_thread_data();
- size_t stack_base = thread_data->stack_base_addr;
- size_t stack_limit = thread_data->stack_limit_addr;
- size_t addr = (size_t) address;
- return (addr <= (addr + size)) && (stack_base >= (addr + size)) && (stack_limit <= addr);
- }
- static bool is_valid_sp(uintptr_t sp)
- {
- return ( !(sp & (sizeof(uintptr_t) - 1)) // sp is expected to be 4/8 bytes aligned
- && is_stack_addr((void*)sp, 0) ); // sp points to the top/bottom of stack are accepted
- }
- // sgx_register_exception_handler()
- // register a custom exception handler
- // Parameter
- // is_first_handler - the order in which the handler should be called.
- // if the parameter is nonzero, the handler is the first handler to be called.
- // if the parameter is zero, the handler is the last handler to be called.
- // exception_handler - a pointer to the handler to be called.
- // Return Value
- // handler - success
- // NULL - fail
- void *sgx_register_exception_handler(int is_first_handler, sgx_exception_handler_t exception_handler)
- {
- // initialize g_veh_cookie for the first time sgx_register_exception_handler is called.
- if(unlikely(g_veh_cookie == 0))
- {
- uintptr_t rand = 0;
- do
- {
- if(SGX_SUCCESS != sgx_read_rand((unsigned char *)&rand, sizeof(rand)))
- {
- return NULL;
- }
- } while(rand == 0);
- sgx_spin_lock(&g_handler_lock);
- if(g_veh_cookie == 0)
- {
- g_veh_cookie = rand;
- }
- sgx_spin_unlock(&g_handler_lock);
- }
- if(!sgx_is_within_enclave((const void*)exception_handler, 0))
- {
- return NULL;
- }
- handler_node_t *node = (handler_node_t *)malloc(sizeof(handler_node_t));
- if(!node)
- {
- return NULL;
- }
- node->callback = ENC_VEH_POINTER(exception_handler);
- // write lock
- sgx_spin_lock(&g_handler_lock);
- if((g_first_node == NULL) || is_first_handler)
- {
- node->next = g_first_node;
- g_first_node = node;
- }
- else
- {
- handler_node_t *tmp = g_first_node;
- while(tmp->next != NULL)
- {
- tmp = tmp->next;
- }
- node->next = NULL;
- tmp->next = node;
- }
- // write unlock
- sgx_spin_unlock(&g_handler_lock);
- return node;
- }
- // sgx_unregister_exception_handler()
- // unregister a custom exception handler.
- // Parameter
- // handler - a handler to the custom exception handler previously
- // registered using the sgx_register_exception_handler function.
- // Return Value
- // none zero - success
- // 0 - fail
- int sgx_unregister_exception_handler(void *handler)
- {
- if(!handler)
- {
- return 0;
- }
- int status = 0;
- // write lock
- sgx_spin_lock(&g_handler_lock);
- if(g_first_node)
- {
- handler_node_t *node = g_first_node;
- if(node == handler)
- {
- g_first_node = node->next;
- status = 1;
- }
- else
- {
- while(node->next != NULL)
- {
- if(node->next == handler)
- {
- node->next = node->next->next;
- status = 1;
- break;
- }
- node = node->next;
- }
- }
- }
- // write unlock
- sgx_spin_unlock(&g_handler_lock);
- if(status) free(handler);
- return status;
- }
- // continue_execution(sgx_exception_info_t *info):
- // try to restore the thread context saved in info to current execution context.
- extern "C" __attribute__((regparm(1))) void continue_execution(sgx_exception_info_t *info);
- // internal_handle_exception(sgx_exception_info_t *info):
- // the 2nd phrase exception handing, which traverse registered exception handlers.
- // if the exception can be handled, then continue execution
- // otherwise, throw abortion, go back to 1st phrase, and call the default handler.
- extern "C" __attribute__((regparm(1))) void internal_handle_exception(sgx_exception_info_t *info)
- {
- int status = EXCEPTION_CONTINUE_SEARCH;
- handler_node_t *node = NULL;
- thread_data_t *thread_data = get_thread_data();
- size_t size = 0;
- uintptr_t *nhead = NULL;
- uintptr_t *ntmp = NULL;
- uintptr_t xsp = 0;
- if (thread_data->exception_flag < 0)
- goto failed_end;
- thread_data->exception_flag++;
- // read lock
- sgx_spin_lock(&g_handler_lock);
- node = g_first_node;
- while(node != NULL)
- {
- size += sizeof(uintptr_t);
- node = node->next;
- }
- // There's no exception handler registered
- if (size == 0)
- {
- sgx_spin_unlock(&g_handler_lock);
- //exception cannot be handled
- thread_data->exception_flag = -1;
- //instruction triggering the exception will be executed again.
- continue_execution(info);
- }
- if ((nhead = (uintptr_t *)malloc(size)) == NULL)
- {
- sgx_spin_unlock(&g_handler_lock);
- goto failed_end;
- }
- ntmp = nhead;
- node = g_first_node;
- while(node != NULL)
- {
- *ntmp = node->callback;
- ntmp++;
- node = node->next;
- }
- // read unlock
- sgx_spin_unlock(&g_handler_lock);
- // call exception handler until EXCEPTION_CONTINUE_EXECUTION is returned
- ntmp = nhead;
- while(size > 0)
- {
- sgx_exception_handler_t handler = DEC_VEH_POINTER(*ntmp);
- status = handler(info);
- if(EXCEPTION_CONTINUE_EXECUTION == status)
- {
- break;
- }
- ntmp++;
- size -= sizeof(sgx_exception_handler_t);
- }
- free(nhead);
- // call default handler
- // ignore invalid return value, treat to EXCEPTION_CONTINUE_SEARCH
- // check SP to be written on SSA is pointing to the trusted stack
- xsp = info->cpu_context.REG(sp);
- if (!is_valid_sp(xsp))
- {
- goto failed_end;
- }
- if(EXCEPTION_CONTINUE_EXECUTION == status)
- {
- //exception is handled, decrease the nested exception count
- thread_data->exception_flag--;
- }
- else
- {
- //exception cannot be handled
- thread_data->exception_flag = -1;
- }
- //instruction triggering the exception will be executed again.
- continue_execution(info);
- failed_end:
- thread_data->exception_flag = -1; // mark the current exception cannot be handled
- abort(); // throw abortion
- }
- // trts_handle_exception(void *tcs)
- // the entry point for the exceptoin handling
- // Parameter
- // the pointer of TCS
- // Return Value
- // none zero - success
- // 0 - fail
- #include "trts_internal.h"
- extern "C" sgx_status_t trts_handle_exception(void *tcs)
- {
- thread_data_t *thread_data = get_thread_data();
- ssa_gpr_t *ssa_gpr = NULL;
- sgx_exception_info_t *info = NULL;
- uintptr_t sp, *new_sp = NULL;
- size_t size = 0;
- if (tcs == NULL) goto default_handler;
-
- if(get_enclave_state() != ENCLAVE_INIT_DONE)
- {
- goto default_handler;
- }
-
- // check if the exception is raised from 2nd phrase
- if(thread_data->exception_flag == -1) {
- goto default_handler;
- }
-
- if ((TD2TCS(thread_data) != tcs)
- || (((thread_data->first_ssa_gpr)&(~0xfff)) - SE_PAGE_SIZE) != (uintptr_t)tcs) {
- goto default_handler;
- }
- // no need to check the result of ssa_gpr because thread_data is always trusted
- ssa_gpr = reinterpret_cast<ssa_gpr_t *>(thread_data->first_ssa_gpr);
-
- sp = ssa_gpr->REG(sp);
- if(!is_stack_addr((void*)sp, 0)) // check stack overrun only, alignment will be checked after exception handled
- {
- g_enclave_state = ENCLAVE_CRASHED;
- return SGX_ERROR_STACK_OVERRUN;
- }
- size = 0;
- #ifdef SE_GNU64
- size += 128; // x86_64 requires a 128-bytes red zone, which begins directly
- // after the return addr and includes func's arguments
- #endif
- // decrease the stack to give space for info
- size += sizeof(sgx_exception_info_t);
- sp -= size;
- sp = sp & ~0xF;
- // check the decreased sp to make sure it is in the trusted stack range
- if(!is_stack_addr((void *)sp, size))
- {
- g_enclave_state = ENCLAVE_CRASHED;
- return SGX_ERROR_STACK_OVERRUN;
- }
- if(ssa_gpr->exit_info.valid != 1)
- { // exception handlers are not allowed to call in a non-exception state
- goto default_handler;
- }
-
- info = (sgx_exception_info_t *)sp;
-
- // No need to check the stack as it have already been checked by assembly code
- // initialize the info with SSA[0]
- info->exception_vector = (sgx_exception_vector_t)ssa_gpr->exit_info.vector;
- info->exception_type = (sgx_exception_type_t)ssa_gpr->exit_info.exit_type;
- info->cpu_context.REG(ax) = ssa_gpr->REG(ax);
- info->cpu_context.REG(cx) = ssa_gpr->REG(cx);
- info->cpu_context.REG(dx) = ssa_gpr->REG(dx);
- info->cpu_context.REG(bx) = ssa_gpr->REG(bx);
- info->cpu_context.REG(sp) = ssa_gpr->REG(sp);
- info->cpu_context.REG(bp) = ssa_gpr->REG(bp);
- info->cpu_context.REG(si) = ssa_gpr->REG(si);
- info->cpu_context.REG(di) = ssa_gpr->REG(di);
- info->cpu_context.REG(flags) = ssa_gpr->REG(flags);
- info->cpu_context.REG(ip) = ssa_gpr->REG(ip);
- #ifdef SE_64
- info->cpu_context.r8 = ssa_gpr->r8;
- info->cpu_context.r9 = ssa_gpr->r9;
- info->cpu_context.r10 = ssa_gpr->r10;
- info->cpu_context.r11 = ssa_gpr->r11;
- info->cpu_context.r12 = ssa_gpr->r12;
- info->cpu_context.r13 = ssa_gpr->r13;
- info->cpu_context.r14 = ssa_gpr->r14;
- info->cpu_context.r15 = ssa_gpr->r15;
- #endif
- // decrease the stack to save the SSA[0]->ip
- size = sizeof(uintptr_t);
- new_sp = (uintptr_t *)(sp - size);
- if(!is_stack_addr(new_sp, size))
- {
- g_enclave_state = ENCLAVE_CRASHED;
- return SGX_ERROR_STACK_OVERRUN;
- }
- ssa_gpr->REG(ip) = (size_t)internal_handle_exception; // prepare the ip for 2nd phrase handling
- ssa_gpr->REG(sp) = (size_t)new_sp; // new stack for internal_handle_exception
- ssa_gpr->REG(ax) = (size_t)info; // 1st parameter (info) for LINUX32
- ssa_gpr->REG(di) = (size_t)info; // 1st parameter (info) for LINUX64, LINUX32 also uses it while restoring the context
- *new_sp = info->cpu_context.REG(ip); // for debugger to get call trace
-
- //mark valid to 0 to prevent eenter again
- ssa_gpr->exit_info.valid = 0;
- return SGX_SUCCESS;
-
- default_handler:
- g_enclave_state = ENCLAVE_CRASHED;
- return SGX_ERROR_ENCLAVE_CRASHED;
- }
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