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|
package generate
import (
"strings"
"testing"
)
func generateFromPair(t *testing.T, enter, exit string) string {
t.Helper()
input := enter + "\n" + exit
formats := mustParseAll(t, input)
return GenerateTracepointsC(formats)
}
func TestGenerateFdHandler(t *testing.T) {
output := generateFromPair(t, FormatRead, FormatExitRead)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_read")`)
requireContains(t, output, "struct trace_event_raw_sys_enter *ctx")
requireContains(t, output, "struct fd_event *ev = bpf_ringbuf_reserve(&event_map, sizeof(struct fd_event), 0);")
requireContains(t, output, "ev->event_type = ENTER_FD_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_READ;")
requireContains(t, output, "ev->fd = (__s32)ctx->args[0];")
requireContains(t, output, "#define SYS_ENTER_READ 844")
}
func TestGeneratePidfdGetfdHandlerUsesPidfdArgument(t *testing.T) {
output := generateFromPair(t, FormatPidfdGetfd, FormatExitPidfdGetfd)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_pidfd_getfd")`)
requireContains(t, output, "ev->event_type = ENTER_FD_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_PIDFD_GETFD;")
requireContains(t, output, "ev->fd = (__s32)ctx->args[0];")
}
func TestGenerateOpenHandler(t *testing.T) {
output := generateFromPair(t, FormatOpenat, FormatExitOpenat)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_openat")`)
requireContains(t, output, "struct open_event *ev")
requireContains(t, output, "ev->event_type = ENTER_OPEN_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_OPENAT;")
requireContains(t, output, "__builtin_memset(&(ev->filename), 0, sizeof(ev->filename) + sizeof(ev->comm));")
requireContains(t, output, "bpf_probe_read_user_str(ev->filename, sizeof(ev->filename), (void *)ctx->args[1]);")
requireContains(t, output, "bpf_get_current_comm(&ev->comm, sizeof(ev->comm));")
requireContains(t, output, "ev->flags = ctx->args[2];")
}
func TestGenerateOpenHandlerDirect(t *testing.T) {
output := generateFromPair(t, FormatOpen, FormatExitOpen)
requireContains(t, output, "bpf_probe_read_user_str(ev->filename, sizeof(ev->filename), (void *)ctx->args[0]);")
requireContains(t, output, "ev->flags = ctx->args[1];")
}
func TestGenerateOpenat2Handler(t *testing.T) {
f := mustParseOne(t, FormatOpenat2)
r := ClassifyFormat(&f)
if r.Kind != KindOpen {
t.Fatalf("openat2 classified as %d, want KindOpen", r.Kind)
}
// openat2 has filename at args[1] but flags field name = "how" (not "flags"),
// so FieldNumber("flags") returns -1
if n := f.FieldNumber("flags"); n != -1 {
t.Errorf("openat2 FieldNumber(flags) = %d, want -1", n)
}
}
func TestGenerateRetHandlerRead(t *testing.T) {
output := generateFromPair(t, FormatRead, FormatExitRead)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_exit_read")`)
requireContains(t, output, "struct trace_event_raw_sys_exit *ctx")
requireContains(t, output, "struct ret_event *ev")
requireContains(t, output, "ev->event_type = EXIT_RET_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_EXIT_READ;")
requireContains(t, output, "ev->ret = ctx->ret;")
requireContains(t, output, "ev->ret_type = READ_CLASSIFIED;")
}
func TestGenerateRetHandlerWrite(t *testing.T) {
output := generateFromPair(t, FormatWrite, FormatExitWrite)
requireContains(t, output, "ev->ret_type = WRITE_CLASSIFIED;")
requireContains(t, output, "ev->trace_id = SYS_EXIT_WRITE;")
}
func TestGenerateRetHandlerOpenat(t *testing.T) {
output := generateFromPair(t, FormatOpenat, FormatExitOpenat)
requireContains(t, output, "ev->ret_type = UNCLASSIFIED;")
requireContains(t, output, "ev->trace_id = SYS_EXIT_OPENAT;")
}
func TestGenerateNameHandler(t *testing.T) {
output := generateFromPair(t, FormatRename, FormatExitRename)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_rename")`)
requireContains(t, output, "struct name_event *ev")
requireContains(t, output, "ev->event_type = ENTER_NAME_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_RENAME;")
requireContains(t, output, "__builtin_memset(&(ev->oldname), 0, sizeof(ev->oldname) + sizeof(ev->newname));")
requireContains(t, output, "bpf_probe_read_user_str(ev->oldname, sizeof(ev->oldname), (void*)ctx->args[0]);")
requireContains(t, output, "bpf_probe_read_user_str(ev->newname, sizeof(ev->newname), (void*)ctx->args[1]);")
}
func TestGeneratePathnameHandler(t *testing.T) {
// Use exit_unlink (same structure as exit_read) paired with enter_unlink
exitUnlink := strings.Replace(FormatExitRead, "sys_exit_read", "sys_exit_unlink", 1)
exitUnlink = strings.Replace(exitUnlink, "ID: 843", "ID: 883", 1)
output := generateFromPair(t, FormatUnlink, exitUnlink)
requireContains(t, output, "struct path_event *ev")
requireContains(t, output, "ev->event_type = ENTER_PATH_EVENT;")
requireContains(t, output, "__builtin_memset(&(ev->pathname), 0, sizeof(ev->pathname));")
requireContains(t, output, "bpf_probe_read_user_str(ev->pathname, sizeof(ev->pathname), (void*)ctx->args[0]);")
}
func TestGenerateFcntlHandler(t *testing.T) {
output := generateFromPair(t, FormatFcntl, FormatExitFcntl)
requireContains(t, output, "struct fcntl_event *ev")
requireContains(t, output, "ev->event_type = ENTER_FCNTL_EVENT;")
requireContains(t, output, "ev->fd = ctx->args[0];")
requireContains(t, output, "ev->cmd = ctx->args[1];")
requireContains(t, output, "ev->arg = ctx->args[2];")
}
func TestGenerateNullHandler(t *testing.T) {
output := generateFromPair(t, FormatSync, FormatExitSync)
requireContains(t, output, "struct null_event *ev")
requireContains(t, output, "ev->event_type = ENTER_NULL_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_SYNC;")
// Null handler should NOT have ev->fd, ev->filename, etc.
if strings.Contains(output, "ev->fd") {
t.Error("null handler should not have ev->fd")
}
}
func TestGenerateIoUringEnterHandler(t *testing.T) {
output := generateFromPair(t, FormatIoUringEnter, FormatExitIoUringEnter)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_io_uring_enter")`)
requireContains(t, output, "struct fd_event *ev")
requireContains(t, output, "ev->event_type = ENTER_FD_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_IO_URING_ENTER;")
requireContains(t, output, "ev->fd = (__s32)ctx->args[0];")
}
func TestGenerateIoUringRegisterHandler(t *testing.T) {
output := generateFromPair(t, FormatIoUringRegister, FormatExitIoUringRegister)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_io_uring_register")`)
requireContains(t, output, "struct fd_event *ev")
requireContains(t, output, "ev->event_type = ENTER_FD_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_IO_URING_REGISTER;")
requireContains(t, output, "ev->fd = (__s32)ctx->args[0];")
}
func TestGenerateMmapHandlerUsesFdArgumentIndex(t *testing.T) {
output := generateFromPair(t, FormatMmap, FormatExitMmap)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_mmap")`)
requireContains(t, output, "struct fd_event *ev")
requireContains(t, output, "ev->event_type = ENTER_FD_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_MMAP;")
requireContains(t, output, "ev->fd = (__s32)ctx->args[4];")
}
func TestGenerateDup3Handler(t *testing.T) {
output := generateFromPair(t, FormatDup3, FormatExitDup3)
requireContains(t, output, "struct dup3_event *ev")
requireContains(t, output, "ev->event_type = ENTER_DUP3_EVENT;")
requireContains(t, output, "ev->fd = (__s32)ctx->args[0];")
requireContains(t, output, "ev->flags = (__s32)ctx->args[2];")
}
func TestGenerateOpenByHandleAtHandler(t *testing.T) {
output := generateFromPair(t, FormatOpenByHandleAt, FormatExitOpenByHandleAt)
requireContains(t, output, "struct open_by_handle_at_event *ev")
requireContains(t, output, "ev->event_type = ENTER_OPEN_BY_HANDLE_AT_EVENT;")
requireContains(t, output, "ev->flags = (__s32)ctx->args[2];")
}
func TestGenerateNameToHandleAtHandler(t *testing.T) {
output := generateFromPair(t, FormatNameToHandleAt, FormatExitNameToHandleAt)
requireContains(t, output, `SEC("tracepoint/syscalls/sys_enter_name_to_handle_at")`)
requireContains(t, output, "struct path_event *ev")
requireContains(t, output, "ev->event_type = ENTER_PATH_EVENT;")
requireContains(t, output, "ev->trace_id = SYS_ENTER_NAME_TO_HANDLE_AT;")
requireContains(t, output, "bpf_probe_read_user_str(ev->pathname, sizeof(ev->pathname), (void*)ctx->args[1]);")
}
func TestGenerateIgnoredComment(t *testing.T) {
output := generateFromPair(t, FormatKill, FormatExitKill)
requireContains(t, output, "/// Ignoring sys_enter_kill sys_exit_kill as possibly not file I/O related")
}
func TestGenerateDefineConstants(t *testing.T) {
output := generateFromPair(t, FormatRead, FormatExitRead)
requireContains(t, output, "#define SYS_ENTER_READ 844")
requireContains(t, output, "#define SYS_EXIT_READ 843")
}
func TestGenerateDefinesSortedByIDDesc(t *testing.T) {
input := FormatRead + "\n" + FormatExitRead + "\n" + FormatClose + "\n" + FormatExitClose
formats := mustParseAll(t, input)
output := GenerateTracepointsC(formats)
enterReadPos := strings.Index(output, "#define SYS_ENTER_READ")
enterClosePos := strings.Index(output, "#define SYS_ENTER_CLOSE")
if enterReadPos < 0 || enterClosePos < 0 {
t.Fatal("missing #define lines")
}
if enterReadPos > enterClosePos {
t.Error("#define SYS_ENTER_READ (844) should come before SYS_ENTER_CLOSE (778)")
}
}
func TestGenerateHandlerStructure(t *testing.T) {
output := generateFromPair(t, FormatClose, FormatExitClose)
requireContains(t, output, "int handle_sys_enter_close(struct trace_event_raw_sys_enter *ctx) {")
requireContains(t, output, "__u32 pid, tid;")
requireContains(t, output, "if (filter(&pid, &tid))")
requireContains(t, output, "ev->pid = pid;")
requireContains(t, output, "ev->tid = tid;")
requireContains(t, output, "ev->time = bpf_ktime_get_boot_ns();")
requireContains(t, output, "bpf_ringbuf_submit(ev, 0);")
requireContains(t, output, "return 0;")
}
func TestGenerateAllEventTypes(t *testing.T) {
// Verify every event type constant appears correctly
tests := []struct {
kind TracepointKind
enter string
exit string
}{
{KindFd, "ENTER_FD_EVENT", "EXIT_FD_EVENT"},
{KindOpen, "ENTER_OPEN_EVENT", "EXIT_OPEN_EVENT"},
{KindPathname, "ENTER_PATH_EVENT", "EXIT_PATH_EVENT"},
{KindName, "ENTER_NAME_EVENT", "EXIT_NAME_EVENT"},
{KindRet, "ENTER_RET_EVENT", "EXIT_RET_EVENT"},
{KindFcntl, "ENTER_FCNTL_EVENT", "EXIT_FCNTL_EVENT"},
{KindNull, "ENTER_NULL_EVENT", "EXIT_NULL_EVENT"},
{KindDup3, "ENTER_DUP3_EVENT", "EXIT_DUP3_EVENT"},
{KindOpenByHandleAt, "ENTER_OPEN_BY_HANDLE_AT_EVENT", "EXIT_OPEN_BY_HANDLE_AT_EVENT"},
}
for _, tt := range tests {
if got := eventTypeConstant(tt.kind, true); got != tt.enter {
t.Errorf("eventTypeConstant(%d, true) = %q, want %q", tt.kind, got, tt.enter)
}
if got := eventTypeConstant(tt.kind, false); got != tt.exit {
t.Errorf("eventTypeConstant(%d, false) = %q, want %q", tt.kind, got, tt.exit)
}
}
}
func TestEventStructNames(t *testing.T) {
tests := []struct {
kind TracepointKind
want string
}{
{KindFd, "fd_event"},
{KindOpen, "open_event"},
{KindPathname, "path_event"},
{KindName, "name_event"},
{KindRet, "ret_event"},
{KindFcntl, "fcntl_event"},
{KindNull, "null_event"},
{KindDup3, "dup3_event"},
{KindOpenByHandleAt, "open_by_handle_at_event"},
}
for _, tt := range tests {
if got := eventStructName(tt.kind); got != tt.want {
t.Errorf("eventStructName(%d) = %q, want %q", tt.kind, got, tt.want)
}
}
}
func TestEnterReject(t *testing.T) {
// RetTracepoint as enter type should be rejected
if !isEnterRejected(KindRet) {
t.Error("KindRet should be enter-rejected")
}
if !isEnterRejected(KindNone) {
t.Error("KindNone should be enter-rejected")
}
accepted := []TracepointKind{KindFd, KindOpen, KindPathname, KindName, KindFcntl, KindNull, KindDup3, KindOpenByHandleAt}
for _, k := range accepted {
if isEnterRejected(k) {
t.Errorf("kind %d should NOT be enter-rejected", k)
}
}
}
func TestEventStructNameUnknown(t *testing.T) {
if got := eventStructName(TracepointKind(999)); got != "unknown_event" {
t.Errorf("eventStructName(999) = %q, want \"unknown_event\"", got)
}
}
func TestEventTypeConstantUnknown(t *testing.T) {
if got := eventTypeConstant(TracepointKind(999), true); got != "ENTER_UNKNOWN_EVENT" {
t.Errorf("eventTypeConstant(999, true) = %q, want \"ENTER_UNKNOWN_EVENT\"", got)
}
if got := eventTypeConstant(TracepointKind(999), false); got != "EXIT_UNKNOWN_EVENT" {
t.Errorf("eventTypeConstant(999, false) = %q, want \"EXIT_UNKNOWN_EVENT\"", got)
}
}
func TestGroupBySyscallInvalid(t *testing.T) {
formats := []Format{
{Name: "tooshort", ID: 1},
{Name: "also_short", ID: 2},
}
output := GenerateTracepointsC(formats)
if strings.Contains(output, "SEC(") {
t.Error("formats with fewer than 3 name parts should not produce SEC handlers")
}
}
func TestClassifySyscallNoExit(t *testing.T) {
formats := mustParseAll(t, FormatRead)
output := GenerateTracepointsC(formats)
requireContains(t, output, "Ignoring")
if strings.Contains(output, "SEC(") {
t.Error("syscall with only enter and no exit should be ignored")
}
}
func requireContains(t *testing.T, haystack, needle string) {
t.Helper()
if !strings.Contains(haystack, needle) {
t.Errorf("output missing expected string: %q", needle)
}
}
|
