// Copyright 2016 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "go_asm.h" #include "textflag.h" TEXT _rt0_ppc64le_linux(SB),NOSPLIT,$0 XOR R0, R0 // Make sure R0 is zero before _main BR _main<>(SB) TEXT _rt0_ppc64le_linux_lib(SB),NOSPLIT,$-8 // Start with standard C stack frame layout and linkage. MOVD LR, R0 MOVD R0, 16(R1) // Save LR in caller's frame. MOVW CR, R0 // Save CR in caller's frame MOVD R0, 8(R1) MOVDU R1, -320(R1) // Allocate frame. // Preserve callee-save registers. MOVD R14, 24(R1) MOVD R15, 32(R1) MOVD R16, 40(R1) MOVD R17, 48(R1) MOVD R18, 56(R1) MOVD R19, 64(R1) MOVD R20, 72(R1) MOVD R21, 80(R1) MOVD R22, 88(R1) MOVD R23, 96(R1) MOVD R24, 104(R1) MOVD R25, 112(R1) MOVD R26, 120(R1) MOVD R27, 128(R1) MOVD R28, 136(R1) MOVD R29, 144(R1) MOVD g, 152(R1) // R30 MOVD R31, 160(R1) FMOVD F14, 168(R1) FMOVD F15, 176(R1) FMOVD F16, 184(R1) FMOVD F17, 192(R1) FMOVD F18, 200(R1) FMOVD F19, 208(R1) FMOVD F20, 216(R1) FMOVD F21, 224(R1) FMOVD F22, 232(R1) FMOVD F23, 240(R1) FMOVD F24, 248(R1) FMOVD F25, 256(R1) FMOVD F26, 264(R1) FMOVD F27, 272(R1) FMOVD F28, 280(R1) FMOVD F29, 288(R1) FMOVD F30, 296(R1) FMOVD F31, 304(R1) MOVD R3, _rt0_ppc64le_linux_lib_argc<>(SB) MOVD R4, _rt0_ppc64le_linux_lib_argv<>(SB) // Synchronous initialization. MOVD $runtime·reginit(SB), R12 MOVD R12, CTR BL (CTR) MOVD $runtime·libpreinit(SB), R12 MOVD R12, CTR BL (CTR) // Create a new thread to do the runtime initialization and return. MOVD _cgo_sys_thread_create(SB), R12 CMP $0, R12 BEQ nocgo MOVD $_rt0_ppc64le_linux_lib_go(SB), R3 MOVD $0, R4 MOVD R12, CTR BL (CTR) BR done nocgo: MOVD $0x800000, R12 // stacksize = 8192KB MOVD R12, 8(R1) MOVD $_rt0_ppc64le_linux_lib_go(SB), R12 MOVD R12, 16(R1) MOVD $runtime·newosproc0(SB),R12 MOVD R12, CTR BL (CTR) done: // Restore saved registers. MOVD 24(R1), R14 MOVD 32(R1), R15 MOVD 40(R1), R16 MOVD 48(R1), R17 MOVD 56(R1), R18 MOVD 64(R1), R19 MOVD 72(R1), R20 MOVD 80(R1), R21 MOVD 88(R1), R22 MOVD 96(R1), R23 MOVD 104(R1), R24 MOVD 112(R1), R25 MOVD 120(R1), R26 MOVD 128(R1), R27 MOVD 136(R1), R28 MOVD 144(R1), R29 MOVD 152(R1), g // R30 MOVD 160(R1), R31 FMOVD 168(R1), F14 FMOVD 176(R1), F15 FMOVD 184(R1), F16 FMOVD 192(R1), F17 FMOVD 200(R1), F18 FMOVD 208(R1), F19 FMOVD 216(R1), F20 FMOVD 224(R1), F21 FMOVD 232(R1), F22 FMOVD 240(R1), F23 FMOVD 248(R1), F24 FMOVD 256(R1), F25 FMOVD 264(R1), F26 FMOVD 272(R1), F27 FMOVD 280(R1), F28 FMOVD 288(R1), F29 FMOVD 296(R1), F30 FMOVD 304(R1), F31 ADD $320, R1 MOVD 8(R1), R0 MOVFL R0, $0xff MOVD 16(R1), R0 MOVD R0, LR RET TEXT _rt0_ppc64le_linux_lib_go(SB),NOSPLIT,$0 MOVD _rt0_ppc64le_linux_lib_argc<>(SB), R3 MOVD _rt0_ppc64le_linux_lib_argv<>(SB), R4 MOVD $runtime·rt0_go(SB), R12 MOVD R12, CTR BR (CTR) DATA _rt0_ppc64le_linux_lib_argc<>(SB)/8, $0 GLOBL _rt0_ppc64le_linux_lib_argc<>(SB),NOPTR, $8 DATA _rt0_ppc64le_linux_lib_argv<>(SB)/8, $0 GLOBL _rt0_ppc64le_linux_lib_argv<>(SB),NOPTR, $8 TEXT _main<>(SB),NOSPLIT,$-8 // In a statically linked binary, the stack contains argc, // argv as argc string pointers followed by a NULL, envv as a // sequence of string pointers followed by a NULL, and auxv. // There is no TLS base pointer. // // In a dynamically linked binary, r3 contains argc, r4 // contains argv, r5 contains envp, r6 contains auxv, and r13 // contains the TLS pointer. // // Figure out which case this is by looking at r4: if it's 0, // we're statically linked; otherwise we're dynamically // linked. CMP R0, R4 BNE dlink // Statically linked MOVD 0(R1), R3 // argc ADD $8, R1, R4 // argv MOVD $runtime·m0+m_tls(SB), R13 // TLS ADD $0x7000, R13 dlink: BR main(SB) TEXT main(SB),NOSPLIT,$-8 MOVD $runtime·rt0_go(SB), R12 MOVD R12, CTR BR (CTR)