cmake/emu/qemu.cmake - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 # SPDX-License-Identifier: Apache-2.0

 if("${ARCH}" STREQUAL "x86")
   set_ifndef(QEMU_binary_suffix i386)
 elseif("${ARCH}" STREQUAL "mips")
   if(CONFIG_BIG_ENDIAN)
     set_ifndef(QEMU_binary_suffix mips)
   else()
     set_ifndef(QEMU_binary_suffix mipsel)
   endif()
 elseif(DEFINED QEMU_ARCH)
   set_ifndef(QEMU_binary_suffix ${QEMU_ARCH})
 else()
   set_ifndef(QEMU_binary_suffix ${ARCH})
 endif()

 set(qemu_alternate_path $ENV{QEMU_BIN_PATH})
 if(qemu_alternate_path)
 find_program(
   QEMU
   PATHS ${qemu_alternate_path}
   NO_DEFAULT_PATH
   NAMES qemu-system-${QEMU_binary_suffix}
   )
 else()
 find_program(
   QEMU
   qemu-system-${QEMU_binary_suffix}
   )
 endif()

 # We need to set up uefi-run and OVMF environment
 # for testing UEFI method on qemu platforms
 if(CONFIG_QEMU_UEFI_BOOT)
   find_program(UEFI NAMES uefi-run REQUIRED)
   if(DEFINED ENV{OVMF_FD_PATH})
     set(OVMF_FD_PATH $ENV{OVMF_FD_PATH})
   else()
     message(FATAL_ERROR "Couldn't find an valid OVMF_FD_PATH.")
   endif()
   list(APPEND UEFI -b ${OVMF_FD_PATH} -q ${QEMU})
   set(QEMU ${UEFI})
 endif()

 set(qemu_targets
   run_qemu
   debugserver_qemu
   )

 set(QEMU_FLAGS -pidfile)
 if(${CMAKE_GENERATOR} STREQUAL "Unix Makefiles")
   list(APPEND QEMU_FLAGS qemu\${QEMU_INSTANCE}.pid)
 else()
   list(APPEND QEMU_FLAGS qemu${QEMU_INSTANCE}.pid)
 endif()

 # If running with sysbuild, we need to ensure this variable is populated
 zephyr_get(QEMU_PIPE)
 # Set up chardev for console.
 if(QEMU_PTY)
   # Redirect console to a pseudo-tty, used for running automated tests.
   list(APPEND QEMU_FLAGS -chardev pty,id=con,mux=on)
 elseif(QEMU_PIPE)
   # Redirect console to a pipe, used for running automated tests.
   list(APPEND QEMU_FLAGS -chardev pipe,id=con,mux=on,path=${QEMU_PIPE})
 else()
   # Redirect console to stdio, used for manual debugging.
   list(APPEND QEMU_FLAGS -chardev stdio,id=con,mux=on)
 endif()

 # Connect main serial port to the console chardev.
 list(APPEND QEMU_FLAGS -serial chardev:con)

 # Connect semihosting console to the console chardev if configured.
 if(CONFIG_SEMIHOST)
   list(APPEND QEMU_FLAGS
     -semihosting-config enable=on,target=auto,chardev=con
     )
 endif()

 # Connect monitor to the console chardev.
 list(APPEND QEMU_FLAGS -mon chardev=con,mode=readline)

 if(CONFIG_QEMU_ICOUNT)
   if(CONFIG_QEMU_ICOUNT_SLEEP)
     list(APPEND QEMU_FLAGS
 	  -icount shift=${CONFIG_QEMU_ICOUNT_SHIFT},align=off,sleep=on
 	  -rtc clock=vm)
   else()
     list(APPEND QEMU_FLAGS
 	  -icount shift=${CONFIG_QEMU_ICOUNT_SHIFT},align=off,sleep=off
 	  -rtc clock=vm)
   endif()
 endif()

 # Add a BT serial device when building for bluetooth, unless the
 # application explicitly opts out with NO_QEMU_SERIAL_BT_SERVER.
 if(CONFIG_BT)
   if(CONFIG_BT_NO_DRIVER)
       set(NO_QEMU_SERIAL_BT_SERVER 1)
   endif()
   if(NOT NO_QEMU_SERIAL_BT_SERVER)
     list(APPEND QEMU_FLAGS -serial unix:/tmp/bt-server-bredr)
   endif()
 endif()

 # If we are running a networking application in QEMU, then set proper
 # QEMU variables. This also allows two QEMUs to be hooked together and
 # pass data between them. The QEMU flags are not set for standalone
 # tests defined by CONFIG_NET_TEST. For PPP, the serial port file is
 # not available if we run unit tests which define CONFIG_NET_TEST.
 if(CONFIG_NETWORKING)
   if(CONFIG_NET_QEMU_SLIP)
     if((CONFIG_NET_SLIP_TAP) OR (CONFIG_IEEE802154_UPIPE))
       set(QEMU_NET_STACK 1)
     endif()
   elseif((CONFIG_NET_QEMU_PPP) AND NOT (CONFIG_NET_TEST))
       set(QEMU_NET_STACK 1)
   endif()
 endif()

 # TO create independent pipes for each QEMU application set QEMU_PIPE_STACK
 if(QEMU_PIPE_STACK)
   list(APPEND qemu_targets
     node
     )

   if(NOT QEMU_PIPE_ID)
     set(QEMU_PIPE_ID 1)
   endif()

   list(APPEND QEMU_FLAGS
     -serial none
     )

   list(APPEND MORE_FLAGS_FOR_node
         -serial pipe:/tmp/hub/ip-stack-node${QEMU_PIPE_ID}
         -pidfile qemu-node${QEMU_PIPE_ID}.pid
         )

   set(PIPE_NODE_IN  /tmp/hub/ip-stack-node${QEMU_PIPE_ID}.in)
   set(PIPE_NODE_OUT /tmp/hub/ip-stack-node${QEMU_PIPE_ID}.out)

   set(pipes
     ${PIPE_NODE_IN}
     ${PIPE_NODE_OUT}
     )

   set(destroy_pipe_commands
     COMMAND ${CMAKE_COMMAND} -E remove -f ${pipes}
     )

   set(create_pipe_commands
     COMMAND ${CMAKE_COMMAND} -E make_directory /tmp/hub
     COMMAND mkfifo ${PIPE_NODE_IN}
     COMMAND mkfifo ${PIPE_NODE_OUT}
     )

   set(PRE_QEMU_COMMANDS_FOR_node
     ${destroy_pipe_commands}
     ${create_pipe_commands}
     )

 elseif(QEMU_NET_STACK)
   list(APPEND qemu_targets
     client
     server
     )

   foreach(target ${qemu_targets})
     if((${target} STREQUAL client) OR (${target} STREQUAL server))
       list(APPEND MORE_FLAGS_FOR_${target}
         -serial pipe:/tmp/ip-stack-${target}
         -pidfile qemu-${target}.pid
         )
     else()
       # QEMU_INSTANCE is a command line argument to *make* (not cmake). By
       # appending the instance name to the pid file we can easily run more
       # instances of the same sample.

       if(CONFIG_NET_QEMU_PPP)
 	if(${CMAKE_GENERATOR} STREQUAL "Unix Makefiles")
 	  set(ppp_path unix:/tmp/ppp\${QEMU_INSTANCE})
 	else()
 	  set(ppp_path unix:/tmp/ppp${QEMU_INSTANCE})
 	endif()

 	list(APPEND MORE_FLAGS_FOR_${target}
           -serial ${ppp_path}
           )
       else()
 	if(${CMAKE_GENERATOR} STREQUAL "Unix Makefiles")
           set(tmp_file unix:/tmp/slip.sock\${QEMU_INSTANCE})
 	else()
           set(tmp_file unix:/tmp/slip.sock${QEMU_INSTANCE})
 	endif()

 	list(APPEND MORE_FLAGS_FOR_${target}
           -serial ${tmp_file}
           )
       endif()

     endif()
   endforeach()


   set(PIPE_SERVER_IN  /tmp/ip-stack-server.in)
   set(PIPE_SERVER_OUT /tmp/ip-stack-server.out)
   set(PIPE_CLIENT_IN  /tmp/ip-stack-client.in)
   set(PIPE_CLIENT_OUT /tmp/ip-stack-client.out)

   set(pipes
     ${PIPE_SERVER_IN}
     ${PIPE_SERVER_OUT}
     ${PIPE_CLIENT_IN}
     ${PIPE_CLIENT_OUT}
     )

   set(destroy_pipe_commands
     COMMAND ${CMAKE_COMMAND} -E remove -f ${pipes}
     )

   # TODO: Port to Windows. Perhaps using python? Or removing the
   # need for mkfifo and create_symlink somehow.
   set(create_pipe_commands
     COMMAND mkfifo ${PIPE_SERVER_IN}
     COMMAND mkfifo ${PIPE_SERVER_OUT}
     )
   if(PCAP)
     list(APPEND create_pipe_commands
       COMMAND mkfifo ${PIPE_CLIENT_IN}
       COMMAND mkfifo ${PIPE_CLIENT_OUT}
       )
   else()
     list(APPEND create_pipe_commands
       COMMAND ${CMAKE_COMMAND} -E create_symlink ${PIPE_SERVER_IN}  ${PIPE_CLIENT_OUT}
       COMMAND ${CMAKE_COMMAND} -E create_symlink ${PIPE_SERVER_OUT} ${PIPE_CLIENT_IN}
       )
   endif()

   set(PRE_QEMU_COMMANDS_FOR_server
     ${destroy_pipe_commands}
     ${create_pipe_commands}
     )
   if(PCAP)
     # Start a monitor application to capture traffic
     #
     # Assumes;
     # PCAP has been set to the file where traffic should be captured
     # NET_TOOLS has been set to the net-tools repo path
     # net-tools/monitor_15_4 has been built beforehand

     set_ifndef(NET_TOOLS ${ZEPHYR_BASE}/../net-tools) # Default if not set

     list(APPEND PRE_QEMU_COMMANDS_FOR_server
       COMMAND
       #This command is run in the background using '&'. This prevents
       #chaining other commands with '&&'. The command is enclosed in '{}'
       #to fix this.
       {
       ${NET_TOOLS}/monitor_15_4
       ${PCAP}
       /tmp/ip-stack-server
       /tmp/ip-stack-client
       > /dev/null &
       }
       # TODO: Support cleanup of the monitor_15_4 process
       )
   endif()
 endif(QEMU_PIPE_STACK)

 if(CONFIG_CAN AND NOT (CONFIG_NIOS2 OR CONFIG_SOC_LEON3))
   # Add CAN bus 0
   list(APPEND QEMU_FLAGS -object can-bus,id=canbus0)

   if(NOT "${CONFIG_CAN_QEMU_IFACE_NAME}" STREQUAL "")
     # Connect CAN bus 0 to host SocketCAN interface
     list(APPEND QEMU_FLAGS
       -object can-host-socketcan,id=canhost0,if=${CONFIG_CAN_QEMU_IFACE_NAME},canbus=canbus0)
   endif()

   if(CONFIG_CAN_KVASER_PCI)
     # Emulate a single-channel Kvaser PCIcan card connected to CAN bus 0
     list(APPEND QEMU_FLAGS -device kvaser_pci,canbus=canbus0)
   endif()
 endif()

 if(CONFIG_X86_64 AND NOT CONFIG_QEMU_UEFI_BOOT)
   # QEMU doesn't like 64-bit ELF files. Since we don't use any >4GB
   # addresses, converting it to 32-bit is safe enough for emulation.
   add_custom_target(qemu_image_target
     COMMAND
     ${CMAKE_OBJCOPY}
     -O elf32-i386
     $<TARGET_FILE:${logical_target_for_zephyr_elf}>
     ${ZEPHYR_BINARY_DIR}/zephyr-qemu.elf
     DEPENDS ${logical_target_for_zephyr_elf}
     )

   # Split the 'locore' and 'main' memory regions into separate executable
   # images and specify the 'locore' as the boot kernel, in order to prevent
   # the QEMU direct multiboot kernel loader from overwriting the BIOS and
   # option ROM areas located in between the two memory regions.
   # (for more details, refer to the issue zephyrproject-rtos/sdk-ng#168)
   add_custom_target(qemu_locore_image_target
     COMMAND
     ${CMAKE_OBJCOPY}
     -j .locore
     ${ZEPHYR_BINARY_DIR}/zephyr-qemu.elf
     ${ZEPHYR_BINARY_DIR}/zephyr-qemu-locore.elf
     2>&1 | grep -iv \"empty loadable segment detected\" || true
     DEPENDS qemu_image_target
     )

   add_custom_target(qemu_main_image_target
     COMMAND
     ${CMAKE_OBJCOPY}
     -R .locore
     ${ZEPHYR_BINARY_DIR}/zephyr-qemu.elf
     ${ZEPHYR_BINARY_DIR}/zephyr-qemu-main.elf
     2>&1 | grep -iv \"empty loadable segment detected\" || true
     DEPENDS qemu_image_target
     )

   add_custom_target(
     qemu_kernel_target
     DEPENDS qemu_locore_image_target qemu_main_image_target
     )

   set(QEMU_KERNEL_FILE "${ZEPHYR_BINARY_DIR}/zephyr-qemu-locore.elf")

   list(APPEND QEMU_EXTRA_FLAGS
     "-device;loader,file=${ZEPHYR_BINARY_DIR}/zephyr-qemu-main.elf"
     )
 endif()

 if(CONFIG_IVSHMEM)
   if(CONFIG_IVSHMEM_DOORBELL)
     list(APPEND QEMU_FLAGS
       -device ivshmem-doorbell,vectors=${CONFIG_IVSHMEM_MSI_X_VECTORS},chardev=ivshmem
       -chardev socket,path=/tmp/ivshmem_socket,id=ivshmem
     )
   else()
     list(APPEND QEMU_FLAGS
       -device ivshmem-plain,memdev=hostmem
       -object memory-backend-file,size=${CONFIG_QEMU_IVSHMEM_PLAIN_MEM_SIZE}M,share,mem-path=/dev/shm/ivshmem,id=hostmem
     )
   endif()
 endif()

 if(NOT QEMU_PIPE)
   set(QEMU_PIPE_COMMENT "\nTo exit from QEMU enter: 'CTRL+a, x'\n")
 endif()

 # Don't just test CONFIG_SMP, there is at least one test of the lower
 # level multiprocessor API that wants an auxiliary CPU but doesn't
 # want SMP using it.
 if(NOT CONFIG_MP_MAX_NUM_CPUS MATCHES "1")
   list(APPEND QEMU_SMP_FLAGS -smp cpus=${CONFIG_MP_MAX_NUM_CPUS})
 endif()

 # Use flags passed in from the environment
 set(env_qemu $ENV{QEMU_EXTRA_FLAGS})
 separate_arguments(env_qemu)
 list(APPEND QEMU_EXTRA_FLAGS ${env_qemu})

 list(APPEND MORE_FLAGS_FOR_debugserver_qemu -s -S)

 # Architectures can define QEMU_KERNEL_FILE to use a specific output
 # file to pass to qemu (and a "qemu_kernel_target" target to generate
 # it), or set QEMU_KERNEL_OPTION if they want to replace the "-kernel
 # ..." option entirely.
 if(CONFIG_QEMU_UEFI_BOOT)
   set(QEMU_UEFI_OPTION  ${PROJECT_BINARY_DIR}/${CONFIG_KERNEL_BIN_NAME}.efi)
   list(APPEND QEMU_UEFI_OPTION --)
 elseif(DEFINED QEMU_KERNEL_FILE)
   set(QEMU_KERNEL_OPTION "-kernel;${QEMU_KERNEL_FILE}")
 elseif(NOT DEFINED QEMU_KERNEL_OPTION)
   set(QEMU_KERNEL_OPTION "-kernel;$<TARGET_FILE:${logical_target_for_zephyr_elf}>")
 elseif(DEFINED QEMU_KERNEL_OPTION)
   string(CONFIGURE "${QEMU_KERNEL_OPTION}" QEMU_KERNEL_OPTION)
 endif()

 foreach(target ${qemu_targets})
   add_custom_target(${target}
     ${PRE_QEMU_COMMANDS}
     ${PRE_QEMU_COMMANDS_FOR_${target}}
     COMMAND
     ${QEMU}
     ${QEMU_UEFI_OPTION}
     ${QEMU_FLAGS_${ARCH}}
     ${QEMU_FLAGS}
     ${QEMU_EXTRA_FLAGS}
     ${MORE_FLAGS_FOR_${target}}
     ${QEMU_SMP_FLAGS}
     ${QEMU_KERNEL_OPTION}
     DEPENDS ${logical_target_for_zephyr_elf}
     WORKING_DIRECTORY ${APPLICATION_BINARY_DIR}
     COMMENT "${QEMU_PIPE_COMMENT}[QEMU] CPU: ${QEMU_CPU_TYPE_${ARCH}}"
     USES_TERMINAL
     )
   if(DEFINED QEMU_KERNEL_FILE)
     add_dependencies(${target} qemu_kernel_target)
   endif()
 endforeach()
	# SPDX-License-Identifier: Apache-2.0

	if("${ARCH}" STREQUAL "x86")
	set_ifndef(QEMU_binary_suffix i386)
	elseif("${ARCH}" STREQUAL "mips")
	if(CONFIG_BIG_ENDIAN)
	set_ifndef(QEMU_binary_suffix mips)
	else()
	set_ifndef(QEMU_binary_suffix mipsel)
	endif()
	elseif(DEFINED QEMU_ARCH)
	set_ifndef(QEMU_binary_suffix ${QEMU_ARCH})
	else()
	set_ifndef(QEMU_binary_suffix ${ARCH})
	endif()

	set(qemu_alternate_path $ENV{QEMU_BIN_PATH})
	if(qemu_alternate_path)
	find_program(
	QEMU
	PATHS ${qemu_alternate_path}
	NO_DEFAULT_PATH
	NAMES qemu-system-${QEMU_binary_suffix}
	)
	else()
	find_program(
	QEMU
	qemu-system-${QEMU_binary_suffix}
	)
	endif()

	# We need to set up uefi-run and OVMF environment
	# for testing UEFI method on qemu platforms
	if(CONFIG_QEMU_UEFI_BOOT)
	find_program(UEFI NAMES uefi-run REQUIRED)
	if(DEFINED ENV{OVMF_FD_PATH})
	set(OVMF_FD_PATH $ENV{OVMF_FD_PATH})
	else()
	message(FATAL_ERROR "Couldn't find an valid OVMF_FD_PATH.")
	endif()
	list(APPEND UEFI -b ${OVMF_FD_PATH} -q ${QEMU})
	set(QEMU ${UEFI})
	endif()

	set(qemu_targets
	run_qemu
	debugserver_qemu
	)

	set(QEMU_FLAGS -pidfile)
	if(${CMAKE_GENERATOR} STREQUAL "Unix Makefiles")
	list(APPEND QEMU_FLAGS qemu\${QEMU_INSTANCE}.pid)
	else()
	list(APPEND QEMU_FLAGS qemu${QEMU_INSTANCE}.pid)
	endif()

	# If running with sysbuild, we need to ensure this variable is populated
	zephyr_get(QEMU_PIPE)
	# Set up chardev for console.
	if(QEMU_PTY)
	# Redirect console to a pseudo-tty, used for running automated tests.
	list(APPEND QEMU_FLAGS -chardev pty,id=con,mux=on)
	elseif(QEMU_PIPE)
	# Redirect console to a pipe, used for running automated tests.
	list(APPEND QEMU_FLAGS -chardev pipe,id=con,mux=on,path=${QEMU_PIPE})
	else()
	# Redirect console to stdio, used for manual debugging.
	list(APPEND QEMU_FLAGS -chardev stdio,id=con,mux=on)
	endif()

	# Connect main serial port to the console chardev.
	list(APPEND QEMU_FLAGS -serial chardev:con)

	# Connect semihosting console to the console chardev if configured.
	if(CONFIG_SEMIHOST)
	list(APPEND QEMU_FLAGS
	-semihosting-config enable=on,target=auto,chardev=con
	)
	endif()

	# Connect monitor to the console chardev.
	list(APPEND QEMU_FLAGS -mon chardev=con,mode=readline)

	if(CONFIG_QEMU_ICOUNT)
	if(CONFIG_QEMU_ICOUNT_SLEEP)
	list(APPEND QEMU_FLAGS
	-icount shift=${CONFIG_QEMU_ICOUNT_SHIFT},align=off,sleep=on
	-rtc clock=vm)
	else()
	list(APPEND QEMU_FLAGS
	-icount shift=${CONFIG_QEMU_ICOUNT_SHIFT},align=off,sleep=off
	-rtc clock=vm)
	endif()
	endif()

	# Add a BT serial device when building for bluetooth, unless the
	# application explicitly opts out with NO_QEMU_SERIAL_BT_SERVER.
	if(CONFIG_BT)
	if(CONFIG_BT_NO_DRIVER)
	set(NO_QEMU_SERIAL_BT_SERVER 1)
	endif()
	if(NOT NO_QEMU_SERIAL_BT_SERVER)
	list(APPEND QEMU_FLAGS -serial unix:/tmp/bt-server-bredr)
	endif()
	endif()

	# If we are running a networking application in QEMU, then set proper
	# QEMU variables. This also allows two QEMUs to be hooked together and
	# pass data between them. The QEMU flags are not set for standalone
	# tests defined by CONFIG_NET_TEST. For PPP, the serial port file is
	# not available if we run unit tests which define CONFIG_NET_TEST.
	if(CONFIG_NETWORKING)
	if(CONFIG_NET_QEMU_SLIP)
	if((CONFIG_NET_SLIP_TAP) OR (CONFIG_IEEE802154_UPIPE))
	set(QEMU_NET_STACK 1)
	endif()
	elseif((CONFIG_NET_QEMU_PPP) AND NOT (CONFIG_NET_TEST))
	set(QEMU_NET_STACK 1)
	endif()
	endif()

	# TO create independent pipes for each QEMU application set QEMU_PIPE_STACK
	if(QEMU_PIPE_STACK)
	list(APPEND qemu_targets
	node
	)

	if(NOT QEMU_PIPE_ID)
	set(QEMU_PIPE_ID 1)
	endif()

	list(APPEND QEMU_FLAGS
	-serial none
	)

	list(APPEND MORE_FLAGS_FOR_node
	-serial pipe:/tmp/hub/ip-stack-node${QEMU_PIPE_ID}
	-pidfile qemu-node${QEMU_PIPE_ID}.pid
	)

	set(PIPE_NODE_IN /tmp/hub/ip-stack-node${QEMU_PIPE_ID}.in)
	set(PIPE_NODE_OUT /tmp/hub/ip-stack-node${QEMU_PIPE_ID}.out)

	set(pipes
	${PIPE_NODE_IN}
	${PIPE_NODE_OUT}
	)

	set(destroy_pipe_commands
	COMMAND ${CMAKE_COMMAND} -E remove -f ${pipes}
	)

	set(create_pipe_commands
	COMMAND ${CMAKE_COMMAND} -E make_directory /tmp/hub
	COMMAND mkfifo ${PIPE_NODE_IN}
	COMMAND mkfifo ${PIPE_NODE_OUT}
	)

	set(PRE_QEMU_COMMANDS_FOR_node
	${destroy_pipe_commands}
	${create_pipe_commands}
	)

	elseif(QEMU_NET_STACK)
	list(APPEND qemu_targets
	client
	server
	)

	foreach(target ${qemu_targets})
	if((${target} STREQUAL client) OR (${target} STREQUAL server))
	list(APPEND MORE_FLAGS_FOR_${target}
	-serial pipe:/tmp/ip-stack-${target}
	-pidfile qemu-${target}.pid
	)
	else()
	# QEMU_INSTANCE is a command line argument to make (not cmake). By
	# appending the instance name to the pid file we can easily run more
	# instances of the same sample.

	if(CONFIG_NET_QEMU_PPP)
	if(${CMAKE_GENERATOR} STREQUAL "Unix Makefiles")
	set(ppp_path unix:/tmp/ppp\${QEMU_INSTANCE})
	else()
	set(ppp_path unix:/tmp/ppp${QEMU_INSTANCE})
	endif()

	list(APPEND MORE_FLAGS_FOR_${target}
	-serial ${ppp_path}
	)
	else()
	if(${CMAKE_GENERATOR} STREQUAL "Unix Makefiles")
	set(tmp_file unix:/tmp/slip.sock\${QEMU_INSTANCE})
	else()
	set(tmp_file unix:/tmp/slip.sock${QEMU_INSTANCE})
	endif()

	list(APPEND MORE_FLAGS_FOR_${target}
	-serial ${tmp_file}
	)
	endif()

	endif()
	endforeach()


	set(PIPE_SERVER_IN /tmp/ip-stack-server.in)
	set(PIPE_SERVER_OUT /tmp/ip-stack-server.out)
	set(PIPE_CLIENT_IN /tmp/ip-stack-client.in)
	set(PIPE_CLIENT_OUT /tmp/ip-stack-client.out)

	set(pipes
	${PIPE_SERVER_IN}
	${PIPE_SERVER_OUT}
	${PIPE_CLIENT_IN}
	${PIPE_CLIENT_OUT}
	)

	set(destroy_pipe_commands
	COMMAND ${CMAKE_COMMAND} -E remove -f ${pipes}
	)

	# TODO: Port to Windows. Perhaps using python? Or removing the
	# need for mkfifo and create_symlink somehow.
	set(create_pipe_commands
	COMMAND mkfifo ${PIPE_SERVER_IN}
	COMMAND mkfifo ${PIPE_SERVER_OUT}
	)
	if(PCAP)
	list(APPEND create_pipe_commands
	COMMAND mkfifo ${PIPE_CLIENT_IN}
	COMMAND mkfifo ${PIPE_CLIENT_OUT}
	)
	else()
	list(APPEND create_pipe_commands
	COMMAND ${CMAKE_COMMAND} -E create_symlink ${PIPE_SERVER_IN} ${PIPE_CLIENT_OUT}
	COMMAND ${CMAKE_COMMAND} -E create_symlink ${PIPE_SERVER_OUT} ${PIPE_CLIENT_IN}
	)
	endif()

	set(PRE_QEMU_COMMANDS_FOR_server
	${destroy_pipe_commands}
	${create_pipe_commands}
	)
	if(PCAP)
	# Start a monitor application to capture traffic
	#
	# Assumes;
	# PCAP has been set to the file where traffic should be captured
	# NET_TOOLS has been set to the net-tools repo path
	# net-tools/monitor_15_4 has been built beforehand

	set_ifndef(NET_TOOLS ${ZEPHYR_BASE}/../net-tools) # Default if not set

	list(APPEND PRE_QEMU_COMMANDS_FOR_server
	COMMAND
	#This command is run in the background using '&'. This prevents
	#chaining other commands with '&&'. The command is enclosed in '{}'
	#to fix this.
	{
	${NET_TOOLS}/monitor_15_4
	${PCAP}
	/tmp/ip-stack-server
	/tmp/ip-stack-client
	> /dev/null &
	}
	# TODO: Support cleanup of the monitor_15_4 process
	)
	endif()
	endif(QEMU_PIPE_STACK)

	if(CONFIG_CAN AND NOT (CONFIG_NIOS2 OR CONFIG_SOC_LEON3))
	# Add CAN bus 0
	list(APPEND QEMU_FLAGS -object can-bus,id=canbus0)

	if(NOT "${CONFIG_CAN_QEMU_IFACE_NAME}" STREQUAL "")
	# Connect CAN bus 0 to host SocketCAN interface
	list(APPEND QEMU_FLAGS
	-object can-host-socketcan,id=canhost0,if=${CONFIG_CAN_QEMU_IFACE_NAME},canbus=canbus0)
	endif()

	if(CONFIG_CAN_KVASER_PCI)
	# Emulate a single-channel Kvaser PCIcan card connected to CAN bus 0
	list(APPEND QEMU_FLAGS -device kvaser_pci,canbus=canbus0)
	endif()
	endif()

	if(CONFIG_X86_64 AND NOT CONFIG_QEMU_UEFI_BOOT)
	# QEMU doesn't like 64-bit ELF files. Since we don't use any >4GB
	# addresses, converting it to 32-bit is safe enough for emulation.
	add_custom_target(qemu_image_target
	COMMAND
	${CMAKE_OBJCOPY}
	-O elf32-i386
	$<TARGET_FILE:${logical_target_for_zephyr_elf}>
	${ZEPHYR_BINARY_DIR}/zephyr-qemu.elf
	DEPENDS ${logical_target_for_zephyr_elf}
	)

	# Split the 'locore' and 'main' memory regions into separate executable
	# images and specify the 'locore' as the boot kernel, in order to prevent
	# the QEMU direct multiboot kernel loader from overwriting the BIOS and
	# option ROM areas located in between the two memory regions.
	# (for more details, refer to the issue zephyrproject-rtos/sdk-ng#168)
	add_custom_target(qemu_locore_image_target
	COMMAND
	${CMAKE_OBJCOPY}
	-j .locore
	${ZEPHYR_BINARY_DIR}/zephyr-qemu.elf
	${ZEPHYR_BINARY_DIR}/zephyr-qemu-locore.elf
	2>&1 \| grep -iv \"empty loadable segment detected\" \|\| true
	DEPENDS qemu_image_target
	)

	add_custom_target(qemu_main_image_target
	COMMAND
	${CMAKE_OBJCOPY}
	-R .locore
	${ZEPHYR_BINARY_DIR}/zephyr-qemu.elf
	${ZEPHYR_BINARY_DIR}/zephyr-qemu-main.elf
	2>&1 \| grep -iv \"empty loadable segment detected\" \|\| true
	DEPENDS qemu_image_target
	)

	add_custom_target(
	qemu_kernel_target
	DEPENDS qemu_locore_image_target qemu_main_image_target
	)

	set(QEMU_KERNEL_FILE "${ZEPHYR_BINARY_DIR}/zephyr-qemu-locore.elf")

	list(APPEND QEMU_EXTRA_FLAGS
	"-device;loader,file=${ZEPHYR_BINARY_DIR}/zephyr-qemu-main.elf"
	)
	endif()

	if(CONFIG_IVSHMEM)
	if(CONFIG_IVSHMEM_DOORBELL)
	list(APPEND QEMU_FLAGS
	-device ivshmem-doorbell,vectors=${CONFIG_IVSHMEM_MSI_X_VECTORS},chardev=ivshmem
	-chardev socket,path=/tmp/ivshmem_socket,id=ivshmem
	)
	else()
	list(APPEND QEMU_FLAGS
	-device ivshmem-plain,memdev=hostmem
	-object memory-backend-file,size=${CONFIG_QEMU_IVSHMEM_PLAIN_MEM_SIZE}M,share,mem-path=/dev/shm/ivshmem,id=hostmem
	)
	endif()
	endif()

	if(NOT QEMU_PIPE)
	set(QEMU_PIPE_COMMENT "\nTo exit from QEMU enter: 'CTRL+a, x'\n")
	endif()

	# Don't just test CONFIG_SMP, there is at least one test of the lower
	# level multiprocessor API that wants an auxiliary CPU but doesn't
	# want SMP using it.
	if(NOT CONFIG_MP_MAX_NUM_CPUS MATCHES "1")
	list(APPEND QEMU_SMP_FLAGS -smp cpus=${CONFIG_MP_MAX_NUM_CPUS})
	endif()

	# Use flags passed in from the environment
	set(env_qemu $ENV{QEMU_EXTRA_FLAGS})
	separate_arguments(env_qemu)
	list(APPEND QEMU_EXTRA_FLAGS ${env_qemu})

	list(APPEND MORE_FLAGS_FOR_debugserver_qemu -s -S)

	# Architectures can define QEMU_KERNEL_FILE to use a specific output
	# file to pass to qemu (and a "qemu_kernel_target" target to generate
	# it), or set QEMU_KERNEL_OPTION if they want to replace the "-kernel
	# ..." option entirely.
	if(CONFIG_QEMU_UEFI_BOOT)
	set(QEMU_UEFI_OPTION ${PROJECT_BINARY_DIR}/${CONFIG_KERNEL_BIN_NAME}.efi)
	list(APPEND QEMU_UEFI_OPTION --)
	elseif(DEFINED QEMU_KERNEL_FILE)
	set(QEMU_KERNEL_OPTION "-kernel;${QEMU_KERNEL_FILE}")
	elseif(NOT DEFINED QEMU_KERNEL_OPTION)
	set(QEMU_KERNEL_OPTION "-kernel;$<TARGET_FILE:${logical_target_for_zephyr_elf}>")
	elseif(DEFINED QEMU_KERNEL_OPTION)
	string(CONFIGURE "${QEMU_KERNEL_OPTION}" QEMU_KERNEL_OPTION)
	endif()

	foreach(target ${qemu_targets})
	add_custom_target(${target}
	${PRE_QEMU_COMMANDS}
	${PRE_QEMU_COMMANDS_FOR_${target}}
	COMMAND
	${QEMU}
	${QEMU_UEFI_OPTION}
	${QEMU_FLAGS_${ARCH}}
	${QEMU_FLAGS}
	${QEMU_EXTRA_FLAGS}
	${MORE_FLAGS_FOR_${target}}
	${QEMU_SMP_FLAGS}
	${QEMU_KERNEL_OPTION}
	DEPENDS ${logical_target_for_zephyr_elf}
	WORKING_DIRECTORY ${APPLICATION_BINARY_DIR}
	COMMENT "${QEMU_PIPE_COMMENT}[QEMU] CPU: ${QEMU_CPU_TYPE_${ARCH}}"
	USES_TERMINAL
	)
	if(DEFINED QEMU_KERNEL_FILE)
	add_dependencies(${target} qemu_kernel_target)
	endif()
	endforeach()