bare: add mm_alloc, mm_free
also split errno from return value in existing Linux syscall wrappers update applicable syscall wrapper checkspull/2922/head
parent
52d25336db
commit
729f9c3391
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@ -1,7 +1,7 @@
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module main
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__global fd [2]int
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__global buffer [16]byte
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__global buffer [128]byte
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const (
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sample_text_file1 = ""
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@ -36,20 +36,22 @@ fn check_read_write_pipe() {
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a := sys_pipe(intptr(fd))
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assert a != -1
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assert a == .enoerror
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assert fd[0] != -1
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assert fd[1] != -1
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test_data := "test_data"
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b := test_data.len + 1
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mut c := sys_write (fd[1], test_data.str, u64(b))
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c1, e1 := sys_write (fd[1], test_data.str, u64(b))
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assert c == b
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assert e1 == .enoerror
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assert c1 == b
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c = sys_read(fd[0], byteptr(buffer), u64(b))
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c2, e2 := sys_read(fd[0], byteptr(buffer), u64(b))
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assert c == b
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assert e2 == .enoerror
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assert c2 == b
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assert buffer[b-1] == 0
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@ -57,10 +59,10 @@ fn check_read_write_pipe() {
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assert test_data[i] == buffer[i]
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}
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assert 0 == sys_close(fd[0])
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assert 0 == sys_close(fd[1])
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assert sys_close(fd[0]) == .enoerror
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assert sys_close(fd[1]) == .enoerror
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assert 0 != sys_close(-1)
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assert sys_close(-1) == .ebadf
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println ("pipe read/write passed")
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}
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@ -80,12 +82,13 @@ fn check_read_file() {
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assert fd > 0
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assert ec == .enoerror
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n := sample_text.len
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c := sys_read(fd, buffer, u64(n*2))
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c, e := sys_read(fd, buffer, u64(n*2))
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assert e == .enoerror
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assert c == n
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for i in 0..n {
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assert sample_text[i] == buffer[i]
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}
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assert 0 == sys_close(fd)
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assert sys_close(fd) == .enoerror
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println("read file passed")
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}
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@ -112,11 +115,100 @@ fn check_print() {
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}
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*/
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fn check_munmap_fail() {
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println ("checking 'munmap fail'")
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ec := sys_munmap(-16384,8192)
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assert ec == .einval
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//es := i64_tos(buffer2,80,int(ec),16)
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//println(es)
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println ("'munmap fail' check passed")
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}
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fn check_mmap_one_page() {
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println ("checking check_mmap_one_page")
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mp := int(mm_prot.prot_read) | int(mm_prot.prot_write)
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mf := int(map_flags.map_private) | int(map_flags.map_anonymous)
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mut a, e := sys_mmap(0, u64(linux_mem.page_size), mm_prot(mp), map_flags(mf), -1, 0)
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assert e == .enoerror
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assert a != byteptr(-1)
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for i in 0..int(linux_mem.page_size) {
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b := i & 0xFF
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a[i] = b
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assert a[i] == b
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}
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ec := sys_munmap(a, u64(linux_mem.page_size))
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assert ec == .enoerror
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println ("check_mmap_one_page passed")
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}
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fn check_mm_pages() {
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println ("checking check_mm_pages")
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for i in 0 .. int(linux_mem.page_size)-4 {
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assert u32(1) == mm_pages(u64(i))
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}
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for i in int(linux_mem.page_size)-3 .. (int(linux_mem.page_size)*2)-4 {
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assert u32(2) == mm_pages(u64(i))
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}
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for i in (int(linux_mem.page_size)*2)-3 .. (int(linux_mem.page_size)*3)-4 {
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assert u32(3) == mm_pages(u64(i))
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}
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println ("check_mm_pages passed")
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}
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//pub fn mm_alloc(size u64) (voidptr, errno)
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fn check_mm_alloc() {
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println ("checking check_mm_alloc")
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for i in 1 .. 2000 {
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size := u64(i*1000)
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pages := mm_pages(size)
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mut a, e := mm_alloc(size)
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//ads := i64_tos(buffer,80,i64(a),16)
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//println(ads)
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//es := i64_tos(buffer,80,i64(e),16)
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//println(es)
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assert e == .enoerror
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ap := intptr(a-4)
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assert *ap == int(pages)
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assert e == .enoerror
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assert !isnil(a)
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if (i%111) == 0 {
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for j in 0 .. int(size) {
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b := j & 0xFF
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a[j] = b
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assert b == int(a[j])
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}
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}
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mfa := mm_free(a)
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//mfas := i64_tos(buffer,80,i64(mfa),16)
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//println(mfas)
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assert mfa == .enoerror
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}
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println ("mm_alloc passed")
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}
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fn main() {
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check_read_write_pipe()
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check_read_file()
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// check_print()
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check_open_file_fail()
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check_munmap_fail()
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check_mmap_one_page()
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check_mm_pages()
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check_mm_alloc()
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sys_exit(0)
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}
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@ -1,5 +1,9 @@
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module builtin
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pub enum linux_mem {
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page_size = 4096
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}
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pub enum wp_sys {
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wnohang = 0x00000001
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wuntraced = 0x00000002
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@ -117,6 +121,28 @@ pub enum errno {
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exdev = 0x00000012
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}
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pub enum mm_prot {
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prot_read = 0x1
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prot_write = 0x2
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prot_exec = 0x4
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prot_none = 0x0
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prot_growsdown = 0x01000000
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prot_growsup = 0x02000000
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}
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pub enum map_flags {
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map_shared = 0x01
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map_private = 0x02
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map_shared_validate = 0x03
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map_type = 0x0f
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map_fixed = 0x10
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map_file = 0x00
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map_anonymous = 0x20
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map_anon = 0x20
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map_huge_shift = 26
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map_huge_mask = 0x3f
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}
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fn do_not_call_me_asm_keeper0() {
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unsafe {
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asm {
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@ -197,61 +223,60 @@ fn sys_call4(scn, arg1, arg2, arg3, arg4 u64) u64
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fn sys_call5(scn, arg1, arg2, arg3, arg4, arg5 u64) u64
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fn sys_call6(scn, arg1, arg2, arg3, arg4, arg5, arg6 u64) u64
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/*
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these wrappers don't act exactly like the libc ones in regard to return value, so they have the raw syscall behavior.
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there is no errno
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if zero is the expected value, a value > 0 is the error code
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if a >=0 is a good value, then for errors, a negative error_code is returned
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*/
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// 0 sys_read unsigned int fd char *buf size_t count
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pub fn sys_read (fd int, buf byteptr, count u64) i64 {
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return i64(sys_call3(0, u64(fd), u64(buf), count))
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}
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// 1 sys_write unsigned int fd, const char *buf, size_t count
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pub fn sys_write(fd int, buf byteptr, count u64) i64 {
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return i64(sys_call3(1, u64(fd), u64(buf), count))
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}
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pub fn sys_open(filename byteptr, flags fcntl, mode int) (int, errno) {
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//2 sys_open const char *filename int flags int mode
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rc := int(sys_call3(2, u64(filename), u64(flags), u64(mode)))
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fn split_int_errno(rc_in u64) (i64, errno) {
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rc := i64(rc_in)
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if rc < 0 {
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return -1, errno(-rc)
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return i64(-1), errno(-rc)
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}
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return rc, errno.enoerror
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}
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pub fn sys_close(fd int) int {
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// 0 sys_read unsigned int fd char *buf size_t count
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pub fn sys_read (fd i64, buf byteptr, count u64) (i64, errno) {
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return split_int_errno(sys_call3(0, u64(fd), u64(buf), count))
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}
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// 1 sys_write unsigned int fd, const char *buf, size_t count
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pub fn sys_write(fd i64, buf byteptr, count u64) (i64, errno) {
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return split_int_errno(sys_call3(1, u64(fd), u64(buf), count))
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}
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pub fn sys_open(filename byteptr, flags fcntl, mode int) (i64, errno) {
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//2 sys_open const char *filename int flags int mode
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return split_int_errno(sys_call3(2, u64(filename), u64(flags), u64(mode)))
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}
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pub fn sys_close(fd i64) errno {
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// 3 sys_close unsigned int fd
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return int(sys_call1(3, u64(fd)))
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return errno(-i64(sys_call1(3, u64(fd))))
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}
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// 9 sys_mmap unsigned long addr unsigned long len unsigned long prot unsigned long flags unsigned long fd unsigned long off
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pub fn sys_mmap(addr byteptr, len u64, prot u64, flags u64, fildes u64, off u64) voidptr {
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return voidptr(sys_call6(9, u64(addr), len, prot, flags, fildes, off))
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pub fn sys_mmap(addr byteptr, len u64, prot mm_prot, flags map_flags, fildes u64, off u64) (byteptr, errno) {
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rc := sys_call6(9, u64(addr), len, u64(prot), u64(flags), fildes, off)
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a, e := split_int_errno(rc)
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return byteptr(a), e
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}
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pub fn sys_munmap(addr voidptr, len u64) int {
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pub fn sys_munmap(addr voidptr, len u64) errno {
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// 11 sys_munmap unsigned long addr size_t len
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return int(sys_call2(11, u64(addr), len))
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return errno(-sys_call2(11, u64(addr), len))
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}
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// 22 sys_pipe int *filedes
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pub fn sys_pipe(filedes intptr) int {
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return int(sys_call1(22, u64(filedes)))
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pub fn sys_pipe(filedes intptr) errno {
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return errno(sys_call1(22, u64(filedes)))
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}
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// 24 sys_sched_yield
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pub fn sys_sched_yield() int {
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return int(sys_call0(24))
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pub fn sys_sched_yield() errno {
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return errno(sys_call0(24))
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}
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pub fn sys_madvise(addr voidptr, len u64, advice int) int {
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pub fn sys_madvise(addr voidptr, len u64, advice int) errno {
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// 28 sys_madvise unsigned long start size_t len_in int behavior
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return int(sys_call3(28, u64(addr), len, u64(advice)))
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return errno(sys_call3(28, u64(addr), len, u64(advice)))
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}
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// 39 sys_getpid
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@ -270,8 +295,8 @@ pub fn sys_vfork() int {
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}
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// 33 sys_dup2 unsigned int oldfd unsigned int newfd
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pub fn sys_dup2 (oldfd, newfd int) int {
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return int(sys_call2(33, u64(oldfd),u64(newfd)))
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pub fn sys_dup2 (oldfd, newfd int) (i64, errno) {
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return split_int_errno(sys_call2(33, u64(oldfd),u64(newfd)))
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}
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@ -286,6 +311,10 @@ pub fn sys_exit (ec int) {
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sys_call1(60, u64(ec))
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}
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// 247 sys_waitid int which pid_t upid struct siginfo *infop int options struct rusage *ru
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//pub fn sys_waitid (idtype wi_sys, pid i64, infop voidptr, options
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/*
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A few years old, but still relevant
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https://blog.rchapman.org/posts/Linux_System_Call_Table_for_x86_64/
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@ -537,7 +566,7 @@ https://blog.rchapman.org/posts/Linux_System_Call_Table_for_x86_64/
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244 sys_mq_notify mqd_t mqdes const struct sigevent *u_notification
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245 sys_mq_getsetattr mqd_t mqdes const struct mq_attr *u_mqstat struct mq_attr *u_omqstat
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246 sys_kexec_load unsigned long entry unsigned long nr_segments struct kexec_segment *segments unsigned long flags
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247 sys_waitid int which pid_t upid struct siginfo *infop int options struct rusage *ru
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>247 sys_waitid int which pid_t upid struct siginfo *infop int options struct rusage *ru
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248 sys_add_key const char *_type const char *_description const void *_payload size_t plen
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249 sys_request_key const char *_type const char *_description const char *_callout_info key_serial_t destringid
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250 sys_keyctl int option unsigned long arg2 unsigned long arg3 unsigned long arg4 unsigned long arg5
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@ -0,0 +1,56 @@
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module builtin
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//__global buffer [128]byte
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pub fn mm_pages(size u64) u32 {
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pages := (u64(size+u64(4))+u64(linux_mem.page_size))/u64(linux_mem.page_size)
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return u32(pages)
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}
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pub fn mm_alloc(size u64) (byteptr, errno) {
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pages := mm_pages(size)
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n_bytes := u64(pages*u32(linux_mem.page_size))
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mem_prot := mm_prot(int(mm_prot.prot_read) | int(mm_prot.prot_write))
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mem_flags := map_flags(int(map_flags.map_private) | int(map_flags.map_anonymous))
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//mps := i64_tos(buffer,80,i64(mem_prot),16)
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//println(mps)
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//mfs := i64_tos(buffer,80,i64(mem_flags),16)
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//println(mfs)
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//print("pages in: ")
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//ps := i64_tos(buffer,80,i64(pages),16)
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//println(ps)
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a, e := sys_mmap(0, n_bytes, mem_prot, mem_flags, -1, 0)
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if e == .enoerror {
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mut ap := intptr(a)
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*ap = pages
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return byteptr(a+4), e
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}
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return byteptr(0), e
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}
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pub fn mm_free(addr byteptr) errno {
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ap := intptr(addr-4)
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size := u64(*ap) * u64(linux_mem.page_size)
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//aps := i64_tos(buffer,80,i64(addr),16)
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//println(aps)
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//ss := i64_tos(buffer,80,i64(size),16)
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//print("size out: ")
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//println(ss)
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//pas := i64_tos(buffer,80,i64(ap),16)
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//println(pas)
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e := sys_munmap(ap, size)
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//es := i64_tos(buffer,80,i64(e),16)
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//println(es)
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return e
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}
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@ -0,0 +1,20 @@
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import os
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fn test_syscallwrappers() {
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if true {return}
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vexe := os.getenv("VEXE")
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vn := vexe.len - 1
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if vn > 1 {
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dot_checks := vexe.substr(0,vn) + "vlib/builtin/bare/.checks"
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assert os.dir_exists(dot_checks)
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os.chdir(dot_checks)
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checks_v := "checks.v"
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assert os.file_exists(checks_v)
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rc := os.exec("v run $checks_v") or { panic(err) }
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assert !rc.output.contains("V panic: An assertion failed.")
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assert !rc.output.contains("failed")
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assert rc.exit_code == 0
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} else {
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panic("Can't find v")
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}
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}
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