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- /*
- * Copyright (C) 2011-2017 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.
- *
- */
- /*
- * Description:
- * The file provides `enclave_entry' function to switch code between
- * trusted and untrusted envronment.
- */
- .file "trts_pic.S"
- #include "trts_pic.h"
- .text
- DECLARE_LOCAL_FUNC get_enclave_base
- lea_pic __ImageBase, %xax
- ret
- DECLARE_LOCAL_FUNC get_enclave_state
- lea_pic g_enclave_state, %xcx
- xor %xax, %xax
- movl (%xcx), %eax
- ret
- DECLARE_LOCAL_FUNC set_enclave_state
- lea_pic g_enclave_state, %xax
- #ifdef LINUX32
- mov SE_WORDSIZE(%esp), %edi
- #endif
- movl %edi, (%xax)
- ret
- DECLARE_LOCAL_FUNC lock_enclave
- lea_pic g_enclave_state, %xdx
- xor %xax, %xax
- mov $ENCLAVE_INIT_NOT_STARTED, %eax
- xor %xcx, %xcx
- mov $ENCLAVE_INIT_IN_PROGRESS, %ecx /* if (g_global_data.enclave_state == ENCLAVE_INIT_NOT_STARTED) */
- lock cmpxchgl %ecx, (%xdx) /* g_global_data.enclave_state == ENCLAVE_INIT_IN_PROGRESS */
- ret /* xax: the initial value of enclave state */
- /*
- * ---------------------------------------------------------------------
- * Function: thread_data_t* get_thread_data(void);
- *
- * Get the address of thread_data
- * ---------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC get_thread_data
- READ_TD_DATA self_addr
- ret
- /*
- * ---------------------------------------------------------------------
- * Function: sys_word_t get_stack_guard(void);
- *
- * Get the value of stack_guard
- * ---------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC get_stack_guard
- READ_TD_DATA stack_guard
- ret
-
- /*
- * ---------------------------------------------------------------------
- * Function: enclave_entry
- * The entry point of the enclave.
- *
- * Registers:
- * XAX - TCS.CSSA
- * XBX - the address of a TCS
- * XCX - the address of the instruction following the EENTER
- * XDI - the reason of entering the enclave
- * XSI - the pointer to the marshalling structure
- */
- DECLARE_GLOBAL_FUNC enclave_entry
- /*
- * ----------------------------------------------------------------------
- * Dispatch code according to CSSA and the reason of EENTER
- * eax > 0 - exception handler
- * edi >= 0 - ecall
- * edi == -1 - do_init_enclave
- * edi == -2 - oret
- * Registers
- * No need to use any register during the dipatch
- * ----------------------------------------------------------------------
- */
- .cfi_startproc
- cmp $0, %xax
- jne .Ldo_handler /* handle exception state */
- xor %xdx, %xdx
- READ_TD_DATA last_sp
- cmp $0, %xax
- jne .Lswitch_stack
- GET_STACK_BASE %xbx /* if last_sp == 0, set sp to stack base */
- sub $STATIC_STACK_SIZE, %xax /* give space for static stack */
- .Lswitch_stack:
- xchg %xsp, %xax
- push %xcx
- push %xbp
- .cfi_def_cfa_offset 2 * SE_WORDSIZE
- .cfi_offset xbp, -2 * SE_WORDSIZE
- mov %xsp, %xbp
- .cfi_def_cfa_register xbp
- /* Save the registers */
- sub $(6*SE_WORDSIZE), %xsp
- mov %xax, -1*SE_WORDSIZE(%xbp) /* xsp_u */
- mov %xdx, -3*SE_WORDSIZE(%xbp) /* cssa */
- mov %xbx, -4*SE_WORDSIZE(%xbp) /* TCS */
- mov %xsi, -5*SE_WORDSIZE(%xbp) /* XSI */
- mov %xdi, -6*SE_WORDSIZE(%xbp) /* XDI */
- #ifdef LINUX64
- mov %rdx, %rcx
- mov %rbx, %rdx
- #endif
- call enter_enclave
- .Lexit_enclave:
- mov -1*SE_WORDSIZE(%xbp), %xdx /* xdx: xsp_u */
- mov %xbp, %xsp
- pop %xbp /* xbp_u */
- pop %xbx /* ret_u */
- mov %xdx, %xsp /* xsp_u */
- mov $OCMD_ERET, %xdi
- mov %xax, %xsi
- .Lclear_and_exit_enclave:
- /* Clear all GPRs, except xax, xbx, xdi and xsi */
- xor %xcx, %xcx
- xor %xdx, %xdx
- #if defined(LINUX64)
- xor %r8, %r8
- xor %r9, %r9
- xor %r10, %r10
- xor %r11, %r11
- xor %r12, %r12
- xor %r13, %r13
- xor %r14, %r14
- xor %r15, %r15
- #endif
- /* Set status flags to pre-defined values */
- add %xdx, %xdx /* OF = SF = AF = CF = 0; ZF = PF = 1 */
- /* EEXIT */
- mov $SE_EEXIT, %xax /* EEXIT leaf */
- ENCLU
- /* Should not come here */
- ud2
- .Ldo_handler:
- mov %xax, %xdx /* XDX: cssa */
- GET_STACK_BASE %xbx /* XAX: static stack, set sp to stack base */
- jmp .Lswitch_stack
-
- /* Should not come here */
- ud2
-
- .cfi_endproc
- DECLARE_GLOBAL_FUNC force_exit_enclave
- READ_TD_DATA last_sp
- sub $(2*SE_WORDSIZE), %xax
- mov %xax, %xbp
- mov $SGX_ERROR_ENCLAVE_CRASHED, %xbx
- jmp .Lexit_enclave
- /*
- * -------------------------------------------------------------------------
- * sgx_status_t do_ocall(unsigned int index, void *ms);
- *
- * Function: do_ocall
- * The entry point of the enclave
- * Parameters:
- * func_addr - target function address
- * ms - marshalling structure
- *
- * Stack: (same as do_oret)
- * bottom of stack ->
- * -----------------
- * | ECALL/OCALL |
- * previous TD.last_sp -> | frames |
- * -----------------
- * | ECALL frame |
- * | do_ocall param 2| 21
- * | do_ocall param 1| 20
- * |do_ocall ret_addr| 19
- * | ocall_depth | 18
- * | reserved | 17
- * | reserved | 16
- * | reserved | 15
- * | rbx | 14
- * | rsi | 13
- * | rdi | 12
- * | rbp | 11
- * | r12 | 10
- * | r13 | 9
- * | r14 | 8
- * | r15 | 7
- * | prev TD.last_sp | 6
- * | ocall_index | 5
- * | OCALL FLAG | 4
- * | shadow | 3
- * | shadow | 2
- * | shadow | 1
- * TD.last_sp -> | shadow | 0
- * -----------------
- * -------------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC do_ocall
- /*
- * 8 for GPR, 1 for TD.last_sp, 1 for ocall_index
- * 1 for OCALL_FLAG, 4 for shadow space.
- * Stack Pointer is 16-byte aligned under x86_64.
- */
- sub $(19*SE_WORDSIZE), %xsp
- /* save non-volatile registers, except xsp */
- mov %xbx, SE_WORDSIZE*14(%xsp)
- mov %xsi, SE_WORDSIZE*13(%xsp)
- mov %xdi, SE_WORDSIZE*12(%xsp)
- mov %xbp, SE_WORDSIZE*11(%xsp)
- #ifdef LINUX64
- mov %r12, SE_WORDSIZE*10(%rsp)
- mov %r13, SE_WORDSIZE* 9(%rsp)
- mov %r14, SE_WORDSIZE* 8(%rsp)
- mov %r15, SE_WORDSIZE* 7(%rsp)
- #endif
- /* set xdi and xsi using the input parameters */
- #ifdef LINUX64
- mov %edi, %edi /* it should clear the high 32bit word of RDI */
- /*
- * rdi - param 1 (index), rsi - param 2 (ms)
- * only use lower 32bit of rdi, rsi remains unchanged.
- */
- #endif
- #ifdef LINUX32
- mov SE_WORDSIZE*20(%esp), %edi
- mov SE_WORDSIZE*21(%esp), %esi
- #endif
- /* save ocall index to the stack */
- mov $OCALL_FLAG, %xax
- mov %xax, SE_WORDSIZE*4(%xsp) /* save OCALL_FLAG */
- mov %xdi, SE_WORDSIZE*5(%xsp) /* save ocall_index */
- /*
- * save the inside stack context
- * push TD.last_sp
- * set TD.last_sp = xsp
- */
- READ_TD_DATA self_addr
- mov %xax, %xbx
- /* call update_ocall_lastsp */
- #ifdef LINUX32
- mov %xsp, (%xsp)
- #else
- mov %xsp, %xdi
- #endif
-
- call update_ocall_lastsp /* xax: td.last_sp */
- #ifdef LINUX64
- mov SE_WORDSIZE*12(%xsp), %xdi /* restore xdi */
- mov SE_WORDSIZE*13(%xsp), %xsi /* restore xdi */
- #endif
- /* restore outside stack context */
- mov first_ssa_gpr(%xbx), %xdx
- mov ssa_bp_u(%xdx), %xbp
- mov ssa_sp_u(%xdx), %xsp
- /*
- * set EEXIT registers
- * return address can be read from the ECALL frame:
- * TD.last_sp ->
- * -------------
- * | ret_addr |
- * | xbp_u |
- * | xsp_u |
- * | ... |
- */
- mov -1*SE_WORDSIZE(%xax), %xbx /* return address */
- mov $SE_EEXIT, %xax /* EEXIT leaf */
- /* Clear all GPRs, except xax, xbx, xdi, and xsi*/
- xor %xcx, %xcx
- xor %xdx, %xdx
- #ifdef LINUX64
- xor %r8, %r8
- xor %r9, %r9
- xor %r10, %r10
- xor %r11, %r11
- xor %r12, %r12
- xor %r13, %r13
- xor %r14, %r14
- xor %r15, %r15
- #endif
- /* Set status flags to pre-defined values */
- add %xdx, %xdx /* OF = SF = AF = CF = 0; ZF = PF = 1 */
- ENCLU
- /*
- * ------------------------------------------------------------------
- * this function is the wrapper of do_ocall, which is used to
- * stick ocall bridge and proxy frame together
- * ------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC __morestack
- .cfi_startproc
- push %xbp
- .cfi_def_cfa_offset 2*SE_WORDSIZE
- .cfi_offset xbp,-2*SE_WORDSIZE
- mov %xsp, %xbp
- .cfi_def_cfa_register xbp
- sub $(4*SE_WORDSIZE), %xsp
- #ifdef LINUX32
- /* save the 2 parameters */
- mov (2*SE_WORDSIZE)(%xbp), %xax
- mov %xax, (0*SE_WORDSIZE)(%xsp)
- mov (3*SE_WORDSIZE)(%xbp), %xax
- mov %xax, (1*SE_WORDSIZE)(%xsp)
- #endif
- call do_ocall
- leave
- ret
- .cfi_endproc
- DECLARE_GLOBAL_FUNC asm_oret
- #ifdef LINUX32
- mov SE_WORDSIZE(%xsp), %xdi
- mov 2*SE_WORDSIZE(%xsp), %xsi
- #endif
- mov %xdi, %xsp /* restore thread_data.last_sp */
- mov %xsi, %xax /* ocall return value */
- #ifdef LINUX64
- mov 7*SE_WORDSIZE(%xsp), %r15
- mov 8*SE_WORDSIZE(%xsp), %r14
- mov 9*SE_WORDSIZE(%xsp), %r13
- mov 10*SE_WORDSIZE(%xsp), %r12
- #endif
- mov 11*SE_WORDSIZE(%xsp), %xbp
- mov 12*SE_WORDSIZE(%xsp), %xdi
- mov 13*SE_WORDSIZE(%xsp), %xsi
- mov 14*SE_WORDSIZE(%xsp), %xbx
- add $(19*SE_WORDSIZE), %xsp
- ret
- /* should not come here */
- ud2
- /*
- * ------------------------------------------------------------------------
- * extern "C" int do_egetkey(key_request_t *key_request, key_128bit_t *key)
- * return value:
- * 0 - success
- * none-zeor - EGETKEY error code
- * EGETKEY: rbx - the address of KEYREQUEST structure
- * rcx - the address where the key is outputted
- * ------------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC do_egetkey
- SE_PROLOG
- mov $SE_EGETKEY, %xax /* EGETKEY leaf */
- ENCLU
- #ifdef SE_SIM
- cmp $SGX_SUCCESS, %xax /* In simulation mode, ZF flag will not be set */
- jnz .Legetkey_done /* because the stack clean operation will always clean ZF flag */
- #else
- jz .Legetkey_done /* if EGETKEY error, ZF flag is set and error code is set to xax */
- #endif
- xor %xax, %xax
- .Legetkey_done:
- SE_EPILOG
- ret
- /*
- * -------------------------------------------------------------------------
- * extern "C" void do_ereport(sgx_target_info_t *target_info, sgx_report_data_t *report_data, sgx_report_t *report);
- * EREPORT: rbx - the address of TARGETINFO;
- * rcx - the address of REPORTDATA;
- * rdx - the address where REPORT is outputted
- * -------------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC do_ereport
- SE_PROLOG
- mov $SE_EREPORT, %xax /* EREPORT leaf */
- ENCLU
- SE_EPILOG
- ret
-
- #define _RDRAND_RETRY_TIMES 10
- /*
- * -------------------------------------
- * extern "C" uint32_t do_rdrand(uint32_t *rand);
- * return value:
- * non-zero: rdrand succeeded
- * zero: rdrand failed
- * -------------------------------------
- */
- DECLARE_LOCAL_FUNC do_rdrand
- mov $_RDRAND_RETRY_TIMES, %ecx
- .Lrdrand_retry:
- .byte 0x0F, 0xC7, 0xF0 /* rdrand %eax */
- jc .Lrdrand_return
- dec %ecx
- jnz .Lrdrand_retry
- xor %xax, %xax
- ret
- .Lrdrand_return:
- #ifdef LINUX32
- mov SE_WORDSIZE(%esp), %ecx
- #else
- mov %rdi, %rcx
- #endif
- movl %eax, (%xcx)
- mov $1, %xax
- ret
- /*
- * -------------------------------------------------------------------------
- * extern "C" void abort(void) __attribute__(__noreturn__);
- * -------------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC abort
- lea_pic g_enclave_state, %xax
- movl $ENCLAVE_CRASHED, (%xax)
- ud2
- /*
- * -------------------------------------------------------------------------
- * extern "C" __attribute__((regparm(1))) void continue_execution(sgx_exception_info_t *info);
- * -------------------------------------------------------------------------
- */
- DECLARE_LOCAL_FUNC continue_execution
- #ifdef LINUX32
- mov %xax, %xcx
- #else
- mov %xdi, %xcx
- #endif
- mov SE_WORDSIZE*0(%xcx), %xax
- push %xax # push xax
- mov SE_WORDSIZE*1(%xcx), %xax
- push %xax # push xcx
- mov SE_WORDSIZE*4(%xcx), %xax
- sub $(SE_WORDSIZE), %xax # xax: xsp
- # restore registers except xax, xcx, xsp
- mov SE_WORDSIZE*2(%xcx), %xdx
- mov SE_WORDSIZE*3(%xcx), %xbx
- mov SE_WORDSIZE*5(%xcx), %xbp
- mov SE_WORDSIZE*6(%xcx), %xsi
- mov SE_WORDSIZE*7(%xcx), %xdi
- #ifdef LINUX64
- mov SE_WORDSIZE*8(%xcx), %r8
- mov SE_WORDSIZE*9(%xcx), %r9
- mov SE_WORDSIZE*10(%xcx), %r10
- mov SE_WORDSIZE*11(%xcx), %r11
- mov SE_WORDSIZE*12(%xcx), %r12
- mov SE_WORDSIZE*13(%xcx), %r13
- mov SE_WORDSIZE*14(%xcx), %r14
- mov SE_WORDSIZE*15(%xcx), %r15
- push SE_WORDSIZE*16(%xcx)
- popf # make sure the following instructions do not affect flags
- #else
- push SE_WORDSIZE*8(%xcx)
- popf
- #endif
- #ifdef LINUX64
- mov SE_WORDSIZE*17(%xcx), %xcx
- #else
- mov SE_WORDSIZE*9(%xcx), %xcx # xcx: xip
- #endif
- # do not setup the new stack until info is not needed any more
- # otherwise, info will be overwritten
- mov %xcx, (%xax) # save xip to the new stack
- pop %xcx # restore xcx
- pop %xsp # xsp: xax
- xchg %xax, %xsp
- ret
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