func runtime.acquirem

41 uses

	runtime (current package)
		cgocall.go#L329: 		mp := acquirem()
		malloc.go#L978: 	mp := acquirem()
		malloc.go#L1427: 	mp := acquirem()
		mgc.go#L474: 	mp := acquirem()
		mgc.go#L580: 	mp := acquirem()
		mgc.go#L720: 	mp = acquirem()
		mgc.go#L916: 	mp := acquirem()
		mgc.go#L1185: 	node.m.set(acquirem())
		mgc.go#L1242: 		node.m.set(acquirem())
		mheap.go#L746: 	mp := acquirem()
		mheap.go#L1719: 	mp := acquirem()
		mheap.go#L1768: 	mp := acquirem()
		mheap.go#L1829: 			mp := acquirem()
		mstats.go#L879: 	mp := acquirem()
		os_linux.go#L749: 	acquirem()
		panic.go#L311: 	mp := acquirem()
		panic.go#L362: 	mp := acquirem()
		proc.go#L348: 	mp := acquirem()
		proc.go#L386: 	mp := acquirem()
		proc.go#L438: 	mp := acquirem() // avoid rescheduling to another P
		proc.go#L850: 	mp := acquirem() // disable preemption because it can be holding p in a local var
		proc.go#L1121: 	mp := acquirem()
		proc.go#L1255: 	mp := acquirem() // disable preemption because it can be holding p in a local var
		proc.go#L1577: 	mp := acquirem()
		proc.go#L1711: 	acquirem()
		proc.go#L2088: 	acquirem()
		proc.go#L2162: 	mp := acquirem()
		proc.go#L2266: 	mp := acquirem()
		proc.go#L4077: 	acquirem() // disable preemption because it can be holding p in a local var
		runtime1.go#L467: func acquirem() *m {
		rwmutex.go#L38: 	acquirem()
		time.go#L268: 	mp := acquirem()
		time.go#L313: 			mp := acquirem()
		time.go#L332: 			mp := acquirem()
		time.go#L442: 			mp = acquirem()
		time.go#L451: 			mp = acquirem()
		time.go#L464: 			mp = acquirem()
		trace.go#L220: 	mp := acquirem()
		trace.go#L625: 	mp = acquirem()
		trace.go#L997: 	mp := acquirem()
		trace.go#L1152: 	mp := acquirem()