160 lines
7.1 KiB
Plaintext
160 lines
7.1 KiB
Plaintext
//
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// stm32l05x-nvm-prog-erase.o: file format elf32-littlearm
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//
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//
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// Disassembly of section .text:
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//
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// 00000000 <stm32l05x_nvm_prog_erase>:
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// ".word 0\n\t"
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// ".word 0\n\t"
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// ".word 0\n\t"
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// ".word 0\n\t"
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// ".word 0\n\t"
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// "0:");
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[0x0/2] = 0xe00a, // 0: e00a b.n 18 <stm32l05x_nvm_prog_erase+0x18>
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[0x2/2] = 0x46c0, // 2: 46c0 nop ; (mov r8, r8)
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// ...
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//
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// auto& nvm = Nvm (Info.nvm);
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[0x18/2] = 0x491a, // 18: 491a ldr r1, [pc, #104] ; (84 <stm32l05x_nvm_prog_erase+0x84>)
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//
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// // Align to the start of the first page so that we make sure to erase
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// // all of the target pages.
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// auto remainder = reinterpret_cast<uint32_t> (Info.destination)
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// & (Info.page_size - 1);
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[0x1a/2] = 0x8a08, // 1a: 8a08 ldrh r0, [r1, #16]
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[0x1c/2] = 0x680c, // 1c: 680c ldr r4, [r1, #0]
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// Info.size += remainder;
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[0x1e/2] = 0x684d, // 1e: 684d ldr r5, [r1, #4]
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// auto& nvm = Nvm (Info.nvm);
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//
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// // Align to the start of the first page so that we make sure to erase
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// // all of the target pages.
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// auto remainder = reinterpret_cast<uint32_t> (Info.destination)
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// & (Info.page_size - 1);
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[0x20/2] = 0x1e42, // 20: 1e42 subs r2, r0, #1
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[0x22/2] = 0x4022, // 22: 4022 ands r2, r4
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// Info.size += remainder;
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[0x24/2] = 0x1955, // 24: 1955 adds r5, r2, r5
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// Info.destination -= remainder/sizeof (*Info.destination);
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[0x26/2] = 0x0892, // 26: 0892 lsrs r2, r2, #2
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[0x28/2] = 0x0092, // 28: 0092 lsls r2, r2, #2
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[0x2a/2] = 0x1aa2, // 2a: 1aa2 subs r2, r4, r2
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[0x2c/2] = 0x600a, // 2c: 600a str r2, [r1, #0]
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// #define Nvm(nvm) (*reinterpret_cast<STM32::NVM*>(nvm))
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// #define Info (*reinterpret_cast<stm32lx_nvm_stub_info*>(STM32Lx_STUB_INFO_PHYS))
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//
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// namespace {
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// inline __attribute((always_inline)) bool unlock (STM32::NVM& nvm) {
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// nvm.pecr = STM32Lx_NVM_PECR_PELOCK; // Lock to guarantee unlock
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[0x2e/2] = 0x2201, // 2e: 2201 movs r2, #1
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// ".word 0\n\t"
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// ".word 0\n\t"
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// ".word 0\n\t"
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// "0:");
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//
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// auto& nvm = Nvm (Info.nvm);
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[0x30/2] = 0x68cb, // 30: 68cb ldr r3, [r1, #12]
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//
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// // Align to the start of the first page so that we make sure to erase
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// // all of the target pages.
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// auto remainder = reinterpret_cast<uint32_t> (Info.destination)
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// & (Info.page_size - 1);
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// Info.size += remainder;
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[0x32/2] = 0x604d, // 32: 604d str r5, [r1, #4]
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[0x34/2] = 0x605a, // 34: 605a str r2, [r3, #4]
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// nvm.pkeyr = STM32::NVM::PKEY1;
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[0x36/2] = 0x4a14, // 36: 4a14 ldr r2, [pc, #80] ; (88 <stm32l05x_nvm_prog_erase+0x88>)
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[0x38/2] = 0x60da, // 38: 60da str r2, [r3, #12]
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// nvm.pkeyr = STM32::NVM::PKEY2;
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[0x3a/2] = 0x4a14, // 3a: 4a14 ldr r2, [pc, #80] ; (8c <stm32l05x_nvm_prog_erase+0x8c>)
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[0x3c/2] = 0x60da, // 3c: 60da str r2, [r3, #12]
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// nvm.prgkeyr = STM32::NVM::PRGKEY1;
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[0x3e/2] = 0x4a14, // 3e: 4a14 ldr r2, [pc, #80] ; (90 <stm32l05x_nvm_prog_erase+0x90>)
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[0x40/2] = 0x611a, // 40: 611a str r2, [r3, #16]
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// nvm.prgkeyr = STM32::NVM::PRGKEY2;
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[0x42/2] = 0x4a14, // 42: 4a14 ldr r2, [pc, #80] ; (94 <stm32l05x_nvm_prog_erase+0x94>)
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[0x44/2] = 0x611a, // 44: 611a str r2, [r3, #16]
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// return !(nvm.pecr & STM32Lx_NVM_PECR_PRGLOCK);
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[0x46/2] = 0x685a, // 46: 685a ldr r2, [r3, #4]
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// Info.destination -= remainder/sizeof (*Info.destination);
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//
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// if (!unlock (nvm))
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[0x48/2] = 0x0792, // 48: 0792 lsls r2, r2, #30
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[0x4a/2] = 0xd502, // 4a: d502 bpl.n 52 <stm32l05x_nvm_prog_erase+0x52>
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// }
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// inline __attribute((always_inline)) void lock (STM32::NVM& nvm) {
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// nvm.pecr = STM32Lx_NVM_PECR_PELOCK; }
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[0x4c/2] = 0x2201, // 4c: 2201 movs r2, #1
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[0x4e/2] = 0x605a, // 4e: 605a str r2, [r3, #4]
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// Info.size -= Info.page_size;
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// }
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//
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// quit:
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// lock (nvm);
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// __asm volatile ("bkpt");
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[0x50/2] = 0xbe00, // 50: be00 bkpt 0x0000
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// Info.destination -= remainder/sizeof (*Info.destination);
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//
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// if (!unlock (nvm))
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// goto quit;
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//
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// nvm.sr = STM32Lx_NVM_SR_ERR_M; // Clear errors
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[0x52/2] = 0x4a11, // 52: 4a11 ldr r2, [pc, #68] ; (98 <stm32l05x_nvm_prog_erase+0x98>)
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[0x54/2] = 0x619a, // 54: 619a str r2, [r3, #24]
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//
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// // Enable erasing
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// nvm.pecr = STM32Lx_NVM_PECR_PROG | STM32Lx_NVM_PECR_ERASE;
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[0x56/2] = 0x2282, // 56: 2282 movs r2, #130 ; 0x82
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[0x58/2] = 0x0092, // 58: 0092 lsls r2, r2, #2
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[0x5a/2] = 0x605a, // 5a: 605a str r2, [r3, #4]
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// if ((nvm.pecr & (STM32Lx_NVM_PECR_PROG | STM32Lx_NVM_PECR_ERASE))
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[0x5c/2] = 0x685c, // 5c: 685c ldr r4, [r3, #4]
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[0x5e/2] = 0x4014, // 5e: 4014 ands r4, r2
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[0x60/2] = 0x4294, // 60: 4294 cmp r4, r2
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[0x62/2] = 0xd1f3, // 62: d1f3 bne.n 4c <stm32l05x_nvm_prog_erase+0x4c>
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// goto quit;
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//
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// while (Info.size > 0) {
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// *Info.destination = 0; // Initiate erase
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//
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// Info.destination += Info.page_size/sizeof (*Info.destination);
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[0x64/2] = 0x0884, // 64: 0884 lsrs r4, r0, #2
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[0x66/2] = 0x00a4, // 66: 00a4 lsls r4, r4, #2
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// nvm.pecr = STM32Lx_NVM_PECR_PROG | STM32Lx_NVM_PECR_ERASE;
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// if ((nvm.pecr & (STM32Lx_NVM_PECR_PROG | STM32Lx_NVM_PECR_ERASE))
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// != (STM32Lx_NVM_PECR_PROG | STM32Lx_NVM_PECR_ERASE))
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// goto quit;
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//
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// while (Info.size > 0) {
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[0x68/2] = 0x684d, // 68: 684d ldr r5, [r1, #4]
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[0x6a/2] = 0x4a06, // 6a: 4a06 ldr r2, [pc, #24] ; (84 <stm32l05x_nvm_prog_erase+0x84>)
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[0x6c/2] = 0x2d00, // 6c: 2d00 cmp r5, #0
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[0x6e/2] = 0xdded, // 6e: dded ble.n 4c <stm32l05x_nvm_prog_erase+0x4c>
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// *Info.destination = 0; // Initiate erase
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[0x70/2] = 0x2600, // 70: 2600 movs r6, #0
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[0x72/2] = 0x6815, // 72: 6815 ldr r5, [r2, #0]
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[0x74/2] = 0x602e, // 74: 602e str r6, [r5, #0]
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//
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// Info.destination += Info.page_size/sizeof (*Info.destination);
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[0x76/2] = 0x6815, // 76: 6815 ldr r5, [r2, #0]
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[0x78/2] = 0x192d, // 78: 192d adds r5, r5, r4
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[0x7a/2] = 0x6015, // 7a: 6015 str r5, [r2, #0]
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// Info.size -= Info.page_size;
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[0x7c/2] = 0x6855, // 7c: 6855 ldr r5, [r2, #4]
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[0x7e/2] = 0x1a2d, // 7e: 1a2d subs r5, r5, r0
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[0x80/2] = 0x6055, // 80: 6055 str r5, [r2, #4]
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[0x82/2] = 0xe7f1, // 82: e7f1 b.n 68 <stm32l05x_nvm_prog_erase+0x68>
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[0x84/2] = 0x0004, // 84: 20000004 .word 0x20000004
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[0x84/2 + 1] = 0x2000,
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[0x88/2] = 0xcdef, // 88: 89abcdef .word 0x89abcdef
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[0x88/2 + 1] = 0x89ab,
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[0x8c/2] = 0x0405, // 8c: 02030405 .word 0x02030405
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[0x8c/2 + 1] = 0x0203,
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[0x90/2] = 0xaebf, // 90: 8c9daebf .word 0x8c9daebf
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[0x90/2 + 1] = 0x8c9d,
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[0x94/2] = 0x1516, // 94: 13141516 .word 0x13141516
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[0x94/2 + 1] = 0x1314,
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[0x98/2] = 0x0700, // 98: 00010700 .word 0x00010700
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[0x98/2 + 1] = 0x0001,
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