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// Copyright 2009 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.
//
// System calls and other sys.stuff for 386, FreeBSD
// /usr/src/sys/kern/syscalls.master for syscall numbers.
//
#include "zasm_GOOS_GOARCH.h"
#include "../../cmd/ld/textflag.h"
TEXT runtime·sys_umtx_sleep(SB),NOSPLIT,$-4
MOVL $469, AX // umtx_sleep
INT $0x80
JAE 2(PC)
NEGL AX
RET
TEXT runtime·sys_umtx_wakeup(SB),NOSPLIT,$-4
MOVL $470, AX // umtx_wakeup
INT $0x80
JAE 2(PC)
NEGL AX
RET
TEXT runtime·lwp_create(SB),NOSPLIT,$-4
MOVL $495, AX // lwp_create
INT $0x80
RET
TEXT runtime·lwp_start(SB),NOSPLIT,$0
// Set GS to point at m->tls.
MOVL mm+0(FP), BX
MOVL m_g0(BX), DX
LEAL m_tls(BX), BP
PUSHAL
PUSHL BP
CALL runtime·settls(SB)
POPL AX
POPAL
// Now segment is established. Initialize m, g.
get_tls(CX)
MOVL BX, m(CX)
MOVL DX, g(CX)
CALL runtime·stackcheck(SB) // smashes AX, CX
MOVL 0(DX), DX // paranoia; check they are not nil
MOVL 0(BX), BX
// More paranoia; check that stack splitting code works.
PUSHAL
CALL runtime·emptyfunc(SB)
POPAL
CALL runtime·mstart(SB)
CALL runtime·exit1(SB)
MOVL $0x1234, 0x1005
RET
// Exit the entire program (like C exit)
TEXT runtime·exit(SB),NOSPLIT,$-4
MOVL $1, AX
INT $0x80
MOVL $0xf1, 0xf1 // crash
RET
TEXT runtime·exit1(SB),NOSPLIT,$16
MOVL $0, 0(SP) // syscall gap
MOVL $0x10000, 4(SP) // arg 1 - how (EXTEXIT_LWP)
MOVL $0, 8(SP) // arg 2 - status
MOVL $0, 12(SP) // arg 3 - addr
MOVL $494, AX
INT $0x80
JAE 2(PC)
MOVL $0xf1, 0xf1 // crash
RET
TEXT runtime·open(SB),NOSPLIT,$-4
MOVL $5, AX
INT $0x80
RET
TEXT runtime·close(SB),NOSPLIT,$-4
MOVL $6, AX
INT $0x80
RET
TEXT runtime·read(SB),NOSPLIT,$-4
MOVL $3, AX
INT $0x80
RET
TEXT runtime·write(SB),NOSPLIT,$-4
MOVL $4, AX
INT $0x80
RET
TEXT runtime·getrlimit(SB),NOSPLIT,$-4
MOVL $194, AX
INT $0x80
RET
TEXT runtime·raise(SB),NOSPLIT,$16
MOVL $496, AX // lwp_gettid
INT $0x80
MOVL $0, 0(SP)
MOVL $-1, 4(SP) // arg 1 - pid
MOVL AX, 8(SP) // arg 2 - tid
MOVL sig+0(FP), AX
MOVL AX, 8(SP) // arg 3 - signum
MOVL $497, AX // lwp_kill
INT $0x80
RET
TEXT runtime·mmap(SB),NOSPLIT,$36
LEAL arg0+0(FP), SI
LEAL 4(SP), DI
CLD
MOVSL // arg 1 - addr
MOVSL // arg 2 - len
MOVSL // arg 3 - prot
MOVSL // arg 4 - flags
MOVSL // arg 5 - fd
MOVL $0, AX
STOSL // arg 6 - pad
MOVSL // arg 7 - offset
MOVL $0, AX // top 32 bits of file offset
STOSL
MOVL $197, AX // sys_mmap
INT $0x80
RET
TEXT runtime·munmap(SB),NOSPLIT,$-4
MOVL $73, AX
INT $0x80
JAE 2(PC)
MOVL $0xf1, 0xf1 // crash
RET
TEXT runtime·madvise(SB),NOSPLIT,$-4
MOVL $75, AX // madvise
INT $0x80
// ignore failure - maybe pages are locked
RET
TEXT runtime·setitimer(SB), NOSPLIT, $-4
MOVL $83, AX
INT $0x80
RET
// func now() (sec int64, nsec int32)
TEXT time·now(SB), NOSPLIT, $32
MOVL $232, AX
LEAL 12(SP), BX
MOVL $0, 4(SP) // CLOCK_REALTIME
MOVL BX, 8(SP)
INT $0x80
MOVL 12(SP), AX // sec
MOVL 16(SP), BX // nsec
// sec is in AX, nsec in BX
MOVL AX, sec+0(FP)
MOVL $0, sec+4(FP)
MOVL BX, nsec+8(FP)
RET
// int64 nanotime(void) so really
// void nanotime(int64 *nsec)
TEXT runtime·nanotime(SB), NOSPLIT, $32
MOVL $232, AX
LEAL 12(SP), BX
MOVL $4, 4(SP) // CLOCK_MONOTONIC
MOVL BX, 8(SP)
INT $0x80
MOVL 12(SP), AX // sec
MOVL 16(SP), BX // nsec
// sec is in AX, nsec in BX
// convert to DX:AX nsec
MOVL $1000000000, CX
MULL CX
ADDL BX, AX
ADCL $0, DX
MOVL ret+0(FP), DI
MOVL AX, 0(DI)
MOVL DX, 4(DI)
RET
TEXT runtime·sigaction(SB),NOSPLIT,$-4
MOVL $342, AX
INT $0x80
JAE 2(PC)
MOVL $0xf1, 0xf1 // crash
RET
TEXT runtime·sigtramp(SB),NOSPLIT,$44
get_tls(CX)
// check that m exists
MOVL m(CX), BX
CMPL BX, $0
JNE 6(PC)
MOVL signo+0(FP), BX
MOVL BX, 0(SP)
MOVL $runtime·badsignal(SB), AX
CALL AX
JMP sigtramp_ret
// save g
MOVL g(CX), DI
MOVL DI, 20(SP)
// g = m->gsignal
MOVL m_gsignal(BX), BX
MOVL BX, g(CX)
// copy arguments for call to sighandler
MOVL signo+0(FP), BX
MOVL BX, 0(SP)
MOVL info+4(FP), BX
MOVL BX, 4(SP)
MOVL context+8(FP), BX
MOVL BX, 8(SP)
MOVL DI, 12(SP)
CALL runtime·sighandler(SB)
// restore g
get_tls(CX)
MOVL 20(SP), BX
MOVL BX, g(CX)
sigtramp_ret:
// call sigreturn
MOVL context+8(FP), AX
MOVL $0, 0(SP) // syscall gap
MOVL AX, 4(SP)
MOVL $344, AX // sigreturn(ucontext)
INT $0x80
MOVL $0xf1, 0xf1 // crash
RET
TEXT runtime·sigaltstack(SB),NOSPLIT,$0
MOVL $53, AX
INT $0x80
JAE 2(PC)
MOVL $0xf1, 0xf1 // crash
RET
TEXT runtime·usleep(SB),NOSPLIT,$20
MOVL $0, DX
MOVL usec+0(FP), AX
MOVL $1000000, CX
DIVL CX
MOVL AX, 12(SP) // tv_sec
MOVL $1000, AX
MULL DX
MOVL AX, 16(SP) // tv_nsec
MOVL $0, 0(SP)
LEAL 12(SP), AX
MOVL AX, 4(SP) // arg 1 - rqtp
MOVL $0, 8(SP) // arg 2 - rmtp
MOVL $240, AX // sys_nanosleep
INT $0x80
RET
TEXT runtime·setldt(SB),NOSPLIT,$4
// Under DragonFly we set the GS base instead of messing with the LDT.
MOVL tls0+4(FP), AX
MOVL AX, 0(SP)
CALL runtime·settls(SB)
RET
TEXT runtime·settls(SB),NOSPLIT,$24
// adjust for ELF: wants to use -8(GS) and -4(GS) for g and m
MOVL tlsbase+0(FP), CX
ADDL $8, CX
// Set up a struct tls_info - a size of -1 maps the whole address
// space and is required for direct-tls access of variable data
// via negative offsets.
LEAL 16(SP), BX
MOVL CX, 16(SP) // base
MOVL $-1, 20(SP) // size
// set_tls_area returns the descriptor that needs to be loaded into GS.
MOVL $0, 0(SP) // syscall gap
MOVL $0, 4(SP) // arg 1 - which
MOVL BX, 8(SP) // arg 2 - tls_info
MOVL $8, 12(SP) // arg 3 - infosize
MOVL $472, AX // set_tls_area
INT $0x80
JCC 2(PC)
MOVL $0xf1, 0xf1 // crash
MOVW AX, GS
RET
TEXT runtime·sysctl(SB),NOSPLIT,$28
LEAL arg0+0(FP), SI
LEAL 4(SP), DI
CLD
MOVSL // arg 1 - name
MOVSL // arg 2 - namelen
MOVSL // arg 3 - oldp
MOVSL // arg 4 - oldlenp
MOVSL // arg 5 - newp
MOVSL // arg 6 - newlen
MOVL $202, AX // sys___sysctl
INT $0x80
JCC 3(PC)
NEGL AX
RET
MOVL $0, AX
RET
TEXT runtime·osyield(SB),NOSPLIT,$-4
MOVL $331, AX // sys_sched_yield
INT $0x80
RET
TEXT runtime·sigprocmask(SB),NOSPLIT,$16
MOVL $0, 0(SP) // syscall gap
MOVL $3, 4(SP) // arg 1 - how (SIG_SETMASK)
MOVL args+0(FP), AX
MOVL AX, 8(SP) // arg 2 - set
MOVL args+4(FP), AX
MOVL AX, 12(SP) // arg 3 - oset
MOVL $340, AX // sys_sigprocmask
INT $0x80
JAE 2(PC)
MOVL $0xf1, 0xf1 // crash
RET
// int32 runtime·kqueue(void);
TEXT runtime·kqueue(SB),NOSPLIT,$0
MOVL $362, AX
INT $0x80
JAE 2(PC)
NEGL AX
RET
// int32 runtime·kevent(int kq, Kevent *changelist, int nchanges, Kevent *eventlist, int nevents, Timespec *timeout);
TEXT runtime·kevent(SB),NOSPLIT,$0
MOVL $363, AX
INT $0x80
JAE 2(PC)
NEGL AX
RET
// int32 runtime·closeonexec(int32 fd);
TEXT runtime·closeonexec(SB),NOSPLIT,$32
MOVL $92, AX // fcntl
// 0(SP) is where the caller PC would be; kernel skips it
MOVL fd+0(FP), BX
MOVL BX, 4(SP) // fd
MOVL $2, 8(SP) // F_SETFD
MOVL $1, 12(SP) // FD_CLOEXEC
INT $0x80
JAE 2(PC)
NEGL AX
RET
GLOBL runtime·tlsoffset(SB),$4