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arm64eb: arm64 big endian also using little endian instructions. (#816)
* arm64eb: arm64 big endian also using little endian instructions. * arm64: using another example that depends on endians. example: 1. store a word: 0x12345678 2. load a byte: * little endian : 0x78 * big endian : 0x12
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@ -8,7 +8,7 @@ from unicorn.arm64_const import *
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# code to be emulated
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# code to be emulated
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ARM64_CODE = b"\xab\x01\x0f\x8b" #add x11, x13, x15
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ARM64_CODE = b"\xab\x05\x00\xb8\xaf\x05\x40\x38" # str x11, [x13]; ldrb x15, [x13]
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# memory address where emulation starts
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# memory address where emulation starts
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ADDRESS = 0x10000
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ADDRESS = 0x10000
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@ -38,26 +38,27 @@ def test_arm64():
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mu.mem_write(ADDRESS, ARM64_CODE)
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mu.mem_write(ADDRESS, ARM64_CODE)
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# initialize machine registers
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# initialize machine registers
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mu.reg_write(UC_ARM64_REG_X11, 0x1234)
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mu.reg_write(UC_ARM64_REG_X11, 0x12345678)
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mu.reg_write(UC_ARM64_REG_X13, 0x6789)
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mu.reg_write(UC_ARM64_REG_X13, 0x10008)
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mu.reg_write(UC_ARM64_REG_X15, 0x3333)
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mu.reg_write(UC_ARM64_REG_X15, 0x33)
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# tracing all basic blocks with customized callback
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# tracing all basic blocks with customized callback
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mu.hook_add(UC_HOOK_BLOCK, hook_block)
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mu.hook_add(UC_HOOK_BLOCK, hook_block)
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# tracing all instructions with customized callback
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# tracing all instructions with customized callback
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mu.hook_add(UC_HOOK_CODE, hook_code)
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mu.hook_add(UC_HOOK_CODE, hook_code, begin=ADDRESS, end=ADDRESS)
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# emulate machine code in infinite time
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# emulate machine code in infinite time
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mu.emu_start(ADDRESS, ADDRESS + len(ARM64_CODE))
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mu.emu_start(ADDRESS, ADDRESS + len(ARM64_CODE))
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# now print out some registers
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# now print out some registers
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print(">>> Emulation done. Below is the CPU context")
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print(">>> Emulation done. Below is the CPU context")
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print(">>> As little endian, X15 should be 0x78:");
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x11 = mu.reg_read(UC_ARM64_REG_X11)
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x11 = mu.reg_read(UC_ARM64_REG_X11)
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x13 = mu.reg_read(UC_ARM64_REG_X13)
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x13 = mu.reg_read(UC_ARM64_REG_X13)
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x15 = mu.reg_read(UC_ARM64_REG_X15)
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x15 = mu.reg_read(UC_ARM64_REG_X15)
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print(">>> X11 = 0x%x" %x11)
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print(">>> X15 = 0x%x" %x15)
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except UcError as e:
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except UcError as e:
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print("ERROR: %s" % e)
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print("ERROR: %s" % e)
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@ -9,7 +9,7 @@ from unicorn.arm64_const import *
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# code to be emulated
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# code to be emulated
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ARM64_CODE = b"\x8b\x0f\x01\xab" #add x11, x13, x15
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ARM64_CODE = b"\xab\x05\x00\xb8\xaf\x05\x40\x38" # str x11, [x13]; ldrb x15, [x13]
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# memory address where emulation starts
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# memory address where emulation starts
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ADDRESS = 0x10000
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ADDRESS = 0x10000
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@ -39,26 +39,27 @@ def test_arm64():
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mu.mem_write(ADDRESS, ARM64_CODE)
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mu.mem_write(ADDRESS, ARM64_CODE)
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# initialize machine registers
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# initialize machine registers
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mu.reg_write(UC_ARM64_REG_X11, 0x1234)
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mu.reg_write(UC_ARM64_REG_X11, 0x12345678)
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mu.reg_write(UC_ARM64_REG_X13, 0x6789)
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mu.reg_write(UC_ARM64_REG_X13, 0x10008)
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mu.reg_write(UC_ARM64_REG_X15, 0x3333)
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mu.reg_write(UC_ARM64_REG_X15, 0x33)
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# tracing all basic blocks with customized callback
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# tracing all basic blocks with customized callback
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mu.hook_add(UC_HOOK_BLOCK, hook_block)
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mu.hook_add(UC_HOOK_BLOCK, hook_block)
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# tracing all instructions with customized callback
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# tracing all instructions with customized callback
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mu.hook_add(UC_HOOK_CODE, hook_code)
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mu.hook_add(UC_HOOK_CODE, hook_code, begin=ADDRESS, end=ADDRESS)
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# emulate machine code in infinite time
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# emulate machine code in infinite time
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mu.emu_start(ADDRESS, ADDRESS + len(ARM64_CODE))
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mu.emu_start(ADDRESS, ADDRESS + len(ARM64_CODE))
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# now print out some registers
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# now print out some registers
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print(">>> Emulation done. Below is the CPU context")
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print(">>> Emulation done. Below is the CPU context")
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print(">>> As big endian, X15 should be 0x12:");
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x11 = mu.reg_read(UC_ARM64_REG_X11)
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x11 = mu.reg_read(UC_ARM64_REG_X11)
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x13 = mu.reg_read(UC_ARM64_REG_X13)
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x13 = mu.reg_read(UC_ARM64_REG_X13)
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x15 = mu.reg_read(UC_ARM64_REG_X15)
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x15 = mu.reg_read(UC_ARM64_REG_X15)
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print(">>> X11 = 0x%x" %x11)
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print(">>> X15 = 0x%x" %x15)
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except UcError as e:
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except UcError as e:
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print("ERROR: %s" % e)
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print("ERROR: %s" % e)
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@ -11059,7 +11059,11 @@ void gen_intermediate_code_internal_a64(ARMCPU *cpu,
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dc->aarch64 = 1;
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dc->aarch64 = 1;
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dc->thumb = 0;
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dc->thumb = 0;
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#if defined(TARGET_WORDS_BIGENDIAN)
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dc->bswap_code = 1;
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#else
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dc->bswap_code = 0;
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dc->bswap_code = 0;
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#endif
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dc->condexec_mask = 0;
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dc->condexec_mask = 0;
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dc->condexec_cond = 0;
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dc->condexec_cond = 0;
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#if !defined(CONFIG_USER_ONLY)
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#if !defined(CONFIG_USER_ONLY)
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@ -8,7 +8,7 @@
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// code to be emulated
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// code to be emulated
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#define ARM_CODE "\xab\x01\x0f\x8b" // add x11, x13, x15
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#define ARM_CODE "\xab\x05\x00\xb8\xaf\x05\x40\x38" // str x11, [x13]; ldrb x15, [x13]
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// memory address where emulation starts
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// memory address where emulation starts
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#define ADDRESS 0x10000
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#define ADDRESS 0x10000
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@ -29,9 +29,9 @@ static void test_arm64(void)
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uc_err err;
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uc_err err;
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uc_hook trace1, trace2;
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uc_hook trace1, trace2;
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int64_t x11 = 0x1234; // X11 register
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int64_t x11 = 0x12345678; // X11 register
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int64_t x13 = 0x6789; // X13 register
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int64_t x13 = 0x10000 + 0x8; // X13 register
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int64_t x15 = 0x3333; // X15 register
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int64_t x15 = 0x33; // X15 register
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printf("Emulate ARM64 code\n");
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printf("Emulate ARM64 code\n");
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@ -69,9 +69,10 @@ static void test_arm64(void)
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// now print out some registers
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// now print out some registers
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printf(">>> Emulation done. Below is the CPU context\n");
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printf(">>> Emulation done. Below is the CPU context\n");
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printf(">>> As little endian, X15 should be 0x78:\n");
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uc_reg_read(uc, UC_ARM64_REG_X11, &x11);
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uc_reg_read(uc, UC_ARM64_REG_X15, &x15);
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printf(">>> X11 = 0x%" PRIx64 "\n", x11);
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printf(">>> X15 = 0x%" PRIx64 "\n", x15);
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uc_close(uc);
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uc_close(uc);
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}
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}
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@ -7,9 +7,8 @@
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#include <unicorn/unicorn.h>
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#include <unicorn/unicorn.h>
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#include <string.h>
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#include <string.h>
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// code to be emulated
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// code to be emulated
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#define ARM_CODE "\x8b\x0f\x01\xab" // add x11, x13, x15
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#define ARM_CODE "\xab\x05\x00\xb8\xaf\x05\x40\x38" // str x11, [x13]; ldrb x15, [x13]
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// memory address where emulation starts
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// memory address where emulation starts
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#define ADDRESS 0x10000
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#define ADDRESS 0x10000
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@ -30,9 +29,9 @@ static void test_arm64(void)
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uc_err err;
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uc_err err;
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uc_hook trace1, trace2;
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uc_hook trace1, trace2;
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int64_t x11 = 0x1234; // X11 register
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int64_t x11 = 0x12345678; // X11 register
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int64_t x13 = 0x6789; // X13 register
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int64_t x13 = 0x10000 + 0x8; // X13 register
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int64_t x15 = 0x3333; // X15 register
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int64_t x15 = 0x33; // X15 register
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printf("Emulate ARM64 Big-Endian code\n");
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printf("Emulate ARM64 Big-Endian code\n");
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@ -70,9 +69,10 @@ static void test_arm64(void)
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// now print out some registers
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// now print out some registers
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printf(">>> Emulation done. Below is the CPU context\n");
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printf(">>> Emulation done. Below is the CPU context\n");
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printf(">>> As big endian, X15 should be 0x12:\n");
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uc_reg_read(uc, UC_ARM64_REG_X11, &x11);
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uc_reg_read(uc, UC_ARM64_REG_X15, &x15);
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printf(">>> X11 = 0x%" PRIx64 "\n", x11);
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printf(">>> X15 = 0x%" PRIx64 "\n", x15);
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uc_close(uc);
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uc_close(uc);
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}
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}
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