// SPDX-License-Identifier: Apache-2.0 // SPDX-FileCopyrightText: 2022 The Ebitengine Authors //go:build darwin || freebsd || (!cgo && linux) #include "textflag.h" #include "abi_amd64.h" #include "go_asm.h" #include "funcdata.h" // syscall9X calls a function in libc on behalf of the syscall package. // syscall9X takes a pointer to a struct like: // struct { // fn uintptr // a1 uintptr // a2 uintptr // a3 uintptr // a4 uintptr // a5 uintptr // a6 uintptr // a7 uintptr // a8 uintptr // a9 uintptr // r1 uintptr // r2 uintptr // err uintptr // } // syscall9X must be called on the g0 stack with the // C calling convention (use libcCall). GLOBL ·syscall9XABI0(SB), NOPTR|RODATA, $8 DATA ·syscall9XABI0(SB)/8, $syscall9X(SB) TEXT syscall9X(SB), NOSPLIT|NOFRAME, $0 PUSHQ BP MOVQ SP, BP SUBQ $32, SP MOVQ DI, 24(BP) // save the pointer MOVQ syscall9Args_f1(DI), X0 // f1 MOVQ syscall9Args_f2(DI), X1 // f2 MOVQ syscall9Args_f3(DI), X2 // f3 MOVQ syscall9Args_f4(DI), X3 // f4 MOVQ syscall9Args_f5(DI), X4 // f5 MOVQ syscall9Args_f6(DI), X5 // f6 MOVQ syscall9Args_f7(DI), X6 // f7 MOVQ syscall9Args_f8(DI), X7 // f8 MOVQ syscall9Args_fn(DI), R10 // fn MOVQ syscall9Args_a2(DI), SI // a2 MOVQ syscall9Args_a3(DI), DX // a3 MOVQ syscall9Args_a4(DI), CX // a4 MOVQ syscall9Args_a5(DI), R8 // a5 MOVQ syscall9Args_a6(DI), R9 // a6 MOVQ syscall9Args_a7(DI), R11 // a7 MOVQ syscall9Args_a8(DI), R12 // a8 MOVQ syscall9Args_a9(DI), R13 // a9 MOVQ syscall9Args_a1(DI), DI // a1 // push the remaining paramters onto the stack MOVQ R11, 0(SP) // push a7 MOVQ R12, 8(SP) // push a8 MOVQ R13, 16(SP) // push a9 XORL AX, AX // vararg: say "no float args" CALL R10 MOVQ 24(BP), DI // get the pointer back MOVQ AX, syscall9Args_r1(DI) // r1 MOVQ X0, syscall9Args_r2(DI) // r2 XORL AX, AX // no error (it's ignored anyway) ADDQ $32, SP MOVQ BP, SP POPQ BP RET TEXT callbackasm1(SB), NOSPLIT|NOFRAME, $0 // remove return address from stack, we are not returning to callbackasm, but to its caller. MOVQ 0(SP), AX ADDQ $8, SP MOVQ 0(SP), R10 // get the return SP so that we can align register args with stack args // make space for first six int and 8 float arguments below the frame ADJSP $14*8, SP MOVSD X0, (1*8)(SP) MOVSD X1, (2*8)(SP) MOVSD X2, (3*8)(SP) MOVSD X3, (4*8)(SP) MOVSD X4, (5*8)(SP) MOVSD X5, (6*8)(SP) MOVSD X6, (7*8)(SP) MOVSD X7, (8*8)(SP) MOVQ DI, (9*8)(SP) MOVQ SI, (10*8)(SP) MOVQ DX, (11*8)(SP) MOVQ CX, (12*8)(SP) MOVQ R8, (13*8)(SP) MOVQ R9, (14*8)(SP) LEAQ 8(SP), R8 // R8 = address of args vector MOVQ R10, 0(SP) // push the stack pointer below registers // determine index into runtime·cbs table MOVQ $callbackasm(SB), DX SUBQ DX, AX MOVQ $0, DX MOVQ $5, CX // divide by 5 because each call instruction in ·callbacks is 5 bytes long DIVL CX SUBQ $1, AX // subtract 1 because return PC is to the next slot // Switch from the host ABI to the Go ABI. PUSH_REGS_HOST_TO_ABI0() // Create a struct callbackArgs on our stack to be passed as // the "frame" to cgocallback and on to callbackWrap. // $24 to make enough room for the arguments to runtime.cgocallback SUBQ $(24+callbackArgs__size), SP MOVQ AX, (24+callbackArgs_index)(SP) // callback index MOVQ R8, (24+callbackArgs_args)(SP) // address of args vector MOVQ $0, (24+callbackArgs_result)(SP) // result LEAQ 24(SP), AX // take the address of callbackArgs // Call cgocallback, which will call callbackWrap(frame). MOVQ ·callbackWrap_call(SB), DI // Get the ABIInternal function pointer MOVQ (DI), DI // without by using a closure. MOVQ AX, SI // frame (address of callbackArgs) MOVQ $0, CX // context CALL crosscall2(SB) // runtime.cgocallback(fn, frame, ctxt uintptr) // Get callback result. MOVQ (24+callbackArgs_result)(SP), AX ADDQ $(24+callbackArgs__size), SP // remove callbackArgs struct POP_REGS_HOST_TO_ABI0() MOVQ 0(SP), R10 // get the SP back ADJSP $-14*8, SP // remove arguments MOVQ R10, 0(SP) RET