sentry_backtrace/
integration.rsuse std::thread;
use sentry_core::protocol::{Event, Thread};
use sentry_core::{ClientOptions, Integration};
use crate::current_stacktrace;
use crate::process::process_event_stacktrace;
#[derive(Debug, Default)]
pub struct ProcessStacktraceIntegration;
impl ProcessStacktraceIntegration {
pub fn new() -> Self {
Self
}
}
impl Integration for ProcessStacktraceIntegration {
fn name(&self) -> &'static str {
"process-stacktrace"
}
fn process_event(
&self,
mut event: Event<'static>,
options: &ClientOptions,
) -> Option<Event<'static>> {
for exc in &mut event.exception {
if let Some(ref mut stacktrace) = exc.stacktrace {
process_event_stacktrace(stacktrace, options);
}
}
for th in &mut event.threads {
if let Some(ref mut stacktrace) = th.stacktrace {
process_event_stacktrace(stacktrace, options);
}
}
if let Some(ref mut stacktrace) = event.stacktrace {
process_event_stacktrace(stacktrace, options);
}
Some(event)
}
}
#[derive(Debug, Default)]
pub struct AttachStacktraceIntegration;
impl AttachStacktraceIntegration {
pub fn new() -> Self {
Self
}
}
impl Integration for AttachStacktraceIntegration {
fn name(&self) -> &'static str {
"attach-stacktrace"
}
fn process_event(
&self,
mut event: Event<'static>,
options: &ClientOptions,
) -> Option<Event<'static>> {
if options.attach_stacktrace && !has_stacktrace(&event) {
let thread = current_thread(true);
if thread.stacktrace.is_some() {
event.threads.values.push(thread);
}
}
Some(event)
}
}
fn has_stacktrace(event: &Event) -> bool {
event.stacktrace.is_some()
|| event.exception.iter().any(|exc| exc.stacktrace.is_some())
|| event.threads.iter().any(|thrd| thrd.stacktrace.is_some())
}
pub fn current_thread(with_stack: bool) -> Thread {
let thread_id: u64 = unsafe { std::mem::transmute(thread::current().id()) };
Thread {
id: Some(thread_id.to_string().into()),
name: thread::current().name().map(str::to_owned),
current: true,
stacktrace: if with_stack {
current_stacktrace()
} else {
None
},
..Default::default()
}
}