src/runtime/write_err_android.go - go - Git at Google

 // Copyright 2014 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package runtime

 import "unsafe"

 var (
 	writeHeader = []byte{6 /* ANDROID_LOG_ERROR */, 'G', 'o', 0}
 	writePath   = []byte("/dev/log/main\x00")
 	writeLogd   = []byte("/dev/socket/logdw\x00")

 	// guarded by printlock/printunlock.
 	writeFD  uintptr
 	writeBuf [1024]byte
 	writePos int
 )

 // Prior to Android-L, logging was done through writes to /dev/log files implemented
 // in kernel ring buffers. In Android-L, those /dev/log files are no longer
 // accessible and logging is done through a centralized user-mode logger, logd.
 //
 // https://android.googlesource.com/platform/system/core/+/refs/tags/android-6.0.1_r78/liblog/logd_write.c
 type loggerType int32

 const (
 	unknown loggerType = iota
 	legacy
 	logd
 	// TODO(hakim): logging for emulator?
 )

 var logger loggerType

 func writeErr(b []byte) {
 	if logger == unknown {
 		// Use logd if /dev/socket/logdw is available.
 		if v := uintptr(access(&writeLogd[0], 0x02 /* W_OK */)); v == 0 {
 			logger = logd
 			initLogd()
 		} else {
 			logger = legacy
 			initLegacy()
 		}
 	}

 	// Write to stderr for command-line programs.
 	write(2, unsafe.Pointer(&b[0]), int32(len(b)))

 	// Log format: "<header>\x00<message m bytes>\x00"
 	//
 	// <header>
 	//   In legacy mode: "<priority 1 byte><tag n bytes>".
 	//   In logd mode: "<android_log_header_t 11 bytes><priority 1 byte><tag n bytes>"
 	//
 	// The entire log needs to be delivered in a single syscall (the NDK
 	// does this with writev). Each log is its own line, so we need to
 	// buffer writes until we see a newline.
 	var hlen int
 	switch logger {
 	case logd:
 		hlen = writeLogdHeader()
 	case legacy:
 		hlen = len(writeHeader)
 	}

 	dst := writeBuf[hlen:]
 	for _, v := range b {
 		if v == 0 { // android logging won't print a zero byte
 			v = '0'
 		}
 		dst[writePos] = v
 		writePos++
 		if v == '\n' || writePos == len(dst)-1 {
 			dst[writePos] = 0
 			write(writeFD, unsafe.Pointer(&writeBuf[0]), int32(hlen+writePos))
 			for i := range dst {
 				dst[i] = 0
 			}
 			writePos = 0
 		}
 	}
 }

 func initLegacy() {
 	// In legacy mode, logs are written to /dev/log/main
 	writeFD = uintptr(open(&writePath[0], 0x1 /* O_WRONLY */, 0))
 	if writeFD == 0 {
 		// It is hard to do anything here. Write to stderr just
 		// in case user has root on device and has run
 		//	adb shell setprop log.redirect-stdio true
 		msg := []byte("runtime: cannot open /dev/log/main\x00")
 		write(2, unsafe.Pointer(&msg[0]), int32(len(msg)))
 		exit(2)
 	}

 	// Prepopulate the invariant header part.
 	copy(writeBuf[:len(writeHeader)], writeHeader)
 }

 // used in initLogdWrite but defined here to avoid heap allocation.
 var logdAddr sockaddr_un

 func initLogd() {
 	// In logd mode, logs are sent to the logd via a unix domain socket.
 	logdAddr.family = _AF_UNIX
 	copy(logdAddr.path[:], writeLogd)

 	// We are not using non-blocking I/O because writes taking this path
 	// are most likely triggered by panic, we cannot think of the advantage of
 	// non-blocking I/O for panic but see disadvantage (dropping panic message),
 	// and blocking I/O simplifies the code a lot.
 	fd := socket(_AF_UNIX, _SOCK_DGRAM|_O_CLOEXEC, 0)
 	if fd < 0 {
 		msg := []byte("runtime: cannot create a socket for logging\x00")
 		write(2, unsafe.Pointer(&msg[0]), int32(len(msg)))
 		exit(2)
 	}

 	errno := connect(fd, unsafe.Pointer(&logdAddr), int32(unsafe.Sizeof(logdAddr)))
 	if errno < 0 {
 		msg := []byte("runtime: cannot connect to /dev/socket/logdw\x00")
 		write(2, unsafe.Pointer(&msg[0]), int32(len(msg)))
 		// TODO(hakim): or should we just close fd and hope for better luck next time?
 		exit(2)
 	}
 	writeFD = uintptr(fd)

 	// Prepopulate invariant part of the header.
 	// The first 11 bytes will be populated later in writeLogdHeader.
 	copy(writeBuf[11:11+len(writeHeader)], writeHeader)
 }

 // writeLogdHeader populates the header and returns the length of the payload.
 func writeLogdHeader() int {
 	hdr := writeBuf[:11]

 	// The first 11 bytes of the header corresponds to android_log_header_t
 	// as defined in system/core/include/private/android_logger.h
 	//   hdr[0] log type id (unsigned char), defined in <log/log.h>
 	//   hdr[1:2] tid (uint16_t)
 	//   hdr[3:11] log_time defined in <log/log_read.h>
 	//      hdr[3:7] sec unsigned uint32, little endian.
 	//      hdr[7:11] nsec unsigned uint32, little endian.
 	hdr[0] = 0 // LOG_ID_MAIN
 	sec, nsec, _ := time_now()
 	packUint32(hdr[3:7], uint32(sec))
 	packUint32(hdr[7:11], uint32(nsec))

 	// TODO(hakim):  hdr[1:2] = gettid?

 	return 11 + len(writeHeader)
 }

 func packUint32(b []byte, v uint32) {
 	// little-endian.
 	b[0] = byte(v)
 	b[1] = byte(v >> 8)
 	b[2] = byte(v >> 16)
 	b[3] = byte(v >> 24)
 }
	// Copyright 2014 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package runtime

	import "unsafe"

	var (
	writeHeader = []byte{6 /* ANDROID_LOG_ERROR */, 'G', 'o', 0}
	writePath = []byte("/dev/log/main\x00")
	writeLogd = []byte("/dev/socket/logdw\x00")

	// guarded by printlock/printunlock.
	writeFD uintptr
	writeBuf [1024]byte
	writePos int
	)

	// Prior to Android-L, logging was done through writes to /dev/log files implemented
	// in kernel ring buffers. In Android-L, those /dev/log files are no longer
	// accessible and logging is done through a centralized user-mode logger, logd.
	//
	// https://android.googlesource.com/platform/system/core/+/refs/tags/android-6.0.1_r78/liblog/logd_write.c
	type loggerType int32

	const (
	unknown loggerType = iota
	legacy
	logd
	// TODO(hakim): logging for emulator?
	)

	var logger loggerType

	func writeErr(b []byte) {
	if logger == unknown {
	// Use logd if /dev/socket/logdw is available.
	if v := uintptr(access(&writeLogd[0], 0x02 /* W_OK */)); v == 0 {
	logger = logd
	initLogd()
	} else {
	logger = legacy
	initLegacy()
	}
	}

	// Write to stderr for command-line programs.
	write(2, unsafe.Pointer(&b[0]), int32(len(b)))

	// Log format: "<header>\x00<message m bytes>\x00"
	//
	// <header>
	// In legacy mode: "<priority 1 byte><tag n bytes>".
	// In logd mode: "<android_log_header_t 11 bytes><priority 1 byte><tag n bytes>"
	//
	// The entire log needs to be delivered in a single syscall (the NDK
	// does this with writev). Each log is its own line, so we need to
	// buffer writes until we see a newline.
	var hlen int
	switch logger {
	case logd:
	hlen = writeLogdHeader()
	case legacy:
	hlen = len(writeHeader)
	}

	dst := writeBuf[hlen:]
	for _, v := range b {
	if v == 0 { // android logging won't print a zero byte
	v = '0'
	}
	dst[writePos] = v
	writePos++
	if v == '\n' \|\| writePos == len(dst)-1 {
	dst[writePos] = 0
	write(writeFD, unsafe.Pointer(&writeBuf[0]), int32(hlen+writePos))
	for i := range dst {
	dst[i] = 0
	}
	writePos = 0
	}
	}
	}

	func initLegacy() {
	// In legacy mode, logs are written to /dev/log/main
	writeFD = uintptr(open(&writePath[0], 0x1 /* O_WRONLY */, 0))
	if writeFD == 0 {
	// It is hard to do anything here. Write to stderr just
	// in case user has root on device and has run
	// adb shell setprop log.redirect-stdio true
	msg := []byte("runtime: cannot open /dev/log/main\x00")
	write(2, unsafe.Pointer(&msg[0]), int32(len(msg)))
	exit(2)
	}

	// Prepopulate the invariant header part.
	copy(writeBuf[:len(writeHeader)], writeHeader)
	}

	// used in initLogdWrite but defined here to avoid heap allocation.
	var logdAddr sockaddr_un

	func initLogd() {
	// In logd mode, logs are sent to the logd via a unix domain socket.
	logdAddr.family = _AF_UNIX
	copy(logdAddr.path[:], writeLogd)

	// We are not using non-blocking I/O because writes taking this path
	// are most likely triggered by panic, we cannot think of the advantage of
	// non-blocking I/O for panic but see disadvantage (dropping panic message),
	// and blocking I/O simplifies the code a lot.
	fd := socket(_AF_UNIX, _SOCK_DGRAM\|_O_CLOEXEC, 0)
	if fd < 0 {
	msg := []byte("runtime: cannot create a socket for logging\x00")
	write(2, unsafe.Pointer(&msg[0]), int32(len(msg)))
	exit(2)
	}

	errno := connect(fd, unsafe.Pointer(&logdAddr), int32(unsafe.Sizeof(logdAddr)))
	if errno < 0 {
	msg := []byte("runtime: cannot connect to /dev/socket/logdw\x00")
	write(2, unsafe.Pointer(&msg[0]), int32(len(msg)))
	// TODO(hakim): or should we just close fd and hope for better luck next time?
	exit(2)
	}
	writeFD = uintptr(fd)

	// Prepopulate invariant part of the header.
	// The first 11 bytes will be populated later in writeLogdHeader.
	copy(writeBuf[11:11+len(writeHeader)], writeHeader)
	}

	// writeLogdHeader populates the header and returns the length of the payload.
	func writeLogdHeader() int {
	hdr := writeBuf[:11]

	// The first 11 bytes of the header corresponds to android_log_header_t
	// as defined in system/core/include/private/android_logger.h
	// hdr[0] log type id (unsigned char), defined in <log/log.h>
	// hdr[1:2] tid (uint16_t)
	// hdr[3:11] log_time defined in <log/log_read.h>
	// hdr[3:7] sec unsigned uint32, little endian.
	// hdr[7:11] nsec unsigned uint32, little endian.
	hdr[0] = 0 // LOG_ID_MAIN
	sec, nsec, _ := time_now()
	packUint32(hdr[3:7], uint32(sec))
	packUint32(hdr[7:11], uint32(nsec))

	// TODO(hakim): hdr[1:2] = gettid?

	return 11 + len(writeHeader)
	}

	func packUint32(b []byte, v uint32) {
	// little-endian.
	b[0] = byte(v)
	b[1] = byte(v >> 8)
	b[2] = byte(v >> 16)
	b[3] = byte(v >> 24)
	}