gboolean
sgen_resume_thread (SgenThreadInfo *info)
{
- return thread_resume (info->client_info.info.native_handle) == KERN_SUCCESS;
+ kern_return_t ret;
+ do {
+ ret = thread_resume (info->client_info.info.native_handle);
+ } while (ret == KERN_ABORTED);
+ return ret == KERN_SUCCESS;
}
gboolean
state = (thread_state_t) alloca (mono_mach_arch_get_thread_state_size ());
mctx = (mcontext_t) alloca (mono_mach_arch_get_mcontext_size ());
- ret = thread_suspend (info->client_info.info.native_handle);
+ do {
+ ret = thread_suspend (info->client_info.info.native_handle);
+ } while (ret == KERN_ABORTED);
if (ret != KERN_SUCCESS)
return FALSE;
- ret = mono_mach_arch_get_thread_state (info->client_info.info.native_handle, state, &num_state);
+ do {
+ ret = mono_mach_arch_get_thread_state (info->client_info.info.native_handle, state, &num_state);
+ } while (ret == KERN_ABORTED);
if (ret != KERN_SUCCESS)
return FALSE;
if (stack_start >= info->client_info.stack_start_limit && stack_start <= info->client_info.stack_end) {
info->client_info.stack_start = stack_start;
-#ifdef USE_MONO_CTX
mono_sigctx_to_monoctx (&ctx, &info->client_info.ctx);
-#else
- ARCH_COPY_SIGCTX_REGS (&info->client_info.regs, &ctx);
-#endif
} else {
g_assert (!info->client_info.stack_start);
}
if (!sgen_suspend_thread (info))
continue;
} else {
- ret = thread_resume (info->client_info.info.native_handle);
+ do {
+ ret = thread_resume (info->client_info.info.native_handle);
+ } while (ret == KERN_ABORTED);
if (ret != KERN_SUCCESS)
continue;
}