nuttx/arch/sim/Kconfig

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#
# For a description of the syntax of this configuration file,
# see the file kconfig-language.txt in the NuttX tools repository.
#
if ARCH_SIM
comment "Simulation Configuration Options"
choice
prompt "Host CPU Type"
default HOST_X86_64
config HOST_X86_64
bool "x86_64"
select ARCH_HAVE_STACKCHECK
config HOST_X86
bool "x86"
select ARCH_HAVE_STACKCHECK
config HOST_ARM
bool "arm"
select ARCH_HAVE_STACKCHECK
endchoice # Host CPU Type
config ARCH_CHIP
string
default "sim" if ARCH_SIM
config SIM_M32
bool "Build 32-bit simulation on 64-bit machine"
default n
depends on HOST_X86_64
---help---
Simulation context switching is based on logic like setjmp and longjmp. This
context switching is only available for 32-bit targets. On 64-bit machines,
this context switching will fail.
The workaround on 64-bit machines for now is to build for a 32-bit target on the
64-bit machine. The workaround for this issue has been included in NuttX 6.15 and
beyond. For thoses versions, you must add SIM_M32=y to the .config file in
order to enable building a 32-bit image on a 64-bit platform.
config SIM_CYGWIN_DECORATED
bool "Decorated Cygwin names"
default n
depends on WINDOWS_CYGWIN
---help---
Older versions of Cygwin tools decorated C symbol names by adding an
underscore to the beginning of the symbol name. Newer versions of
Cygwin do not seem to do this.
2015-09-24 22:53:04 +02:00
How do you know if you need this option? You could look at the generated
symbol tables to see if there are underscore characters at the beginning
of the symbol names. Or, if you need this option, the simulation will not
run: It will crash early, probably in some function due to the failure to
allocate memory.
choice
prompt "X64_64 ABI"
default SIM_X8664_SYSTEMV if HOST_LINUX
default SIM_X8664_MICROSOFT if HOST_WINDOWS
depends on HOST_X86_64 && !SIM_32
config SIM_X8664_SYSTEMV
bool "System V AMD64 ABI"
---help---
The calling convention of the System V AMD64 ABI is followed on Solaris,
Linux, FreeBSD, Mac OS X, and other UNIX-like or POSIX-compliant operating
systems. The first six integer or pointer arguments are passed in registers
RDI, RSI, RDX, RCX, R8, and R9, while XMM0, XMM1, XMM2, XMM3, XMM4, XMM5,
XMM6 and XMM7 are used for floating point arguments. For system calls, R10
is used instead of RCX. As in the Microsoft x64 calling convention,
additional arguments are passed on the stack and the return value is stored
in RAX.
Registers RBP, RBX, and R12-R15 are callee-save registers; all others must
be saved by the caller if they wish to preserve their values.
Unlike the Microsoft calling convention, a shadow space is not provided; on
function entry, the return address is adjacent to the seventh integer argument
on the stack.
config SIM_X8664_MICROSOFT
bool "Microsoft x64 calling convention"
---help---
The Microsoft x64 calling convention is followed on Microsoft Windows and
pre-boot UEFI (for long mode on x86-64). It uses registers RCX, RDX, R8,
R9 for the first four integer or pointer arguments (in that order), and
XMM0, XMM1, XMM2, XMM3 are used for floating point arguments. Additional
arguments are pushed onto the stack (right to left). Integer return
values (similar to x86) are returned in RAX if 64 bits or less. Floating
point return values are returned in XMM0. Parameters less than 64 bits
long are not zero extended; the high bits are not zeroed.
endchoice
config SIM_WALLTIME
bool "Execution simulation in near real-time"
default n
---help---
NOTE: In order to facility fast testing, the sim target's IDLE loop, by default,
calls the system timer "interrupt handler" as fast as possible. As a result, there
really are no noticeable delays when a task sleeps. However, the task really does
sleep -- but the time scale is wrong. If you want behavior that is closer to
normal timing, then you can define SIM_WALLTIME=y in your configuration
file. This configuration setting will cause the sim target's IDLE loop to delay
on each call so that the system "timer interrupt" is called at a rate approximately
correct for the system timer tick rate. With this definition in the configuration,
sleep() behavior is more or less normal.
config SIM_NETDEV
bool "Simulated Network Device"
default y
depends on NET
select ARCH_HAVE_NETDEV_STATISTICS
---help---
Build in support for a simulated network device using a TAP device on Linux or
WPCAP on Windows.
SUMMARY ------- This patch enhances networking support for the simulation under Linux. Includes updated support for Linux TUN/TAP, and the addition of support for Linux bridge devices. CHANGES ------- o Check to see if the d_txavail callback is present before calling it in the arp send code. This prevents a segfault when simulating the telnetd daemon with arp send enabled. o Adjust the simulation's netdriver_loop() so it will detect and respond to ARP requests. o Do not attempt to take the tap device's hardware address for use by the simulation. That hardware address belongs to the host end of the link, not the simulation end. Generate a randomized MAC address instead. o Do not assign an IP address to the interface on the host side of the TAP link. + Provide two modes: "host route" and "bridge". + In host route mode, maintain a host route that points any traffic for the simulation's IP address to the tap device. In this mode, so long as the simulation's IP is a free address in the same subnet as the host, no additional configuration will be required to talk to it from the host. Note that address changes are handled automatically if they follow the rule of if-down/set-address/if-up, which everything seems to. + In bridge mode, add the tap device to the specified bridge instance. See configs/sim/NETWORK-LINUX.txt for information and usage examples. This enables much more flexible configurations (with fewer headaches), such as running multiple simulations on a single host, all of which can access the network the host is connected to. o Refresh configurations in configs/sim where CONFIG_NET=y. They default to "host route" mode. o Add configs/sim/NETWORK-LINUX.txt CAVEATS ------- - The MAC address generation code is extremely simplistic, and does not check for potential conflicts on the network. Probably not an issue, but something to be aware of. - I was careful to leave it in a state where Cygwin/pcap should still work, but I don't have a Windows environment to test in. This should be checked. - I don't know if this was ever intended to work with OS X. I didn't even try to test it there. NOTES ----- - Was able to get telnetd working and simulate nsh over telnet, but only so long as listen backlogs were disabled. There appears to be a bug in the backlog code where sockets are being returned in SYN_RCVD state instead of waiting until they're ESTABLISHED; if you perform an immediate send after accepting the connection, it will confuse the stack and the send will hang; additionally, the connection will never reach ESTABLISHED state. Can be worked around by adding a sleep(1) after the accept in telnetd. I don't have the necessary knowledge of the IP stack to know what the correct fix is.
2016-05-21 01:36:14 +02:00
if HOST_LINUX
choice
prompt "Simulation Network Type"
default SIM_NET_HOST_ROUTE
depends on SIM_NETDEV
SUMMARY ------- This patch enhances networking support for the simulation under Linux. Includes updated support for Linux TUN/TAP, and the addition of support for Linux bridge devices. CHANGES ------- o Check to see if the d_txavail callback is present before calling it in the arp send code. This prevents a segfault when simulating the telnetd daemon with arp send enabled. o Adjust the simulation's netdriver_loop() so it will detect and respond to ARP requests. o Do not attempt to take the tap device's hardware address for use by the simulation. That hardware address belongs to the host end of the link, not the simulation end. Generate a randomized MAC address instead. o Do not assign an IP address to the interface on the host side of the TAP link. + Provide two modes: "host route" and "bridge". + In host route mode, maintain a host route that points any traffic for the simulation's IP address to the tap device. In this mode, so long as the simulation's IP is a free address in the same subnet as the host, no additional configuration will be required to talk to it from the host. Note that address changes are handled automatically if they follow the rule of if-down/set-address/if-up, which everything seems to. + In bridge mode, add the tap device to the specified bridge instance. See configs/sim/NETWORK-LINUX.txt for information and usage examples. This enables much more flexible configurations (with fewer headaches), such as running multiple simulations on a single host, all of which can access the network the host is connected to. o Refresh configurations in configs/sim where CONFIG_NET=y. They default to "host route" mode. o Add configs/sim/NETWORK-LINUX.txt CAVEATS ------- - The MAC address generation code is extremely simplistic, and does not check for potential conflicts on the network. Probably not an issue, but something to be aware of. - I was careful to leave it in a state where Cygwin/pcap should still work, but I don't have a Windows environment to test in. This should be checked. - I don't know if this was ever intended to work with OS X. I didn't even try to test it there. NOTES ----- - Was able to get telnetd working and simulate nsh over telnet, but only so long as listen backlogs were disabled. There appears to be a bug in the backlog code where sockets are being returned in SYN_RCVD state instead of waiting until they're ESTABLISHED; if you perform an immediate send after accepting the connection, it will confuse the stack and the send will hang; additionally, the connection will never reach ESTABLISHED state. Can be worked around by adding a sleep(1) after the accept in telnetd. I don't have the necessary knowledge of the IP stack to know what the correct fix is.
2016-05-21 01:36:14 +02:00
config SIM_NET_HOST_ROUTE
bool "Use local host route"
---help---
Add a host route for the simulation that points to the created tap device. The
simulation will not be able to access the public network unless iptables is
configured to masquerade for it. See boards/sim/sim sim/NETWORK-LINUX.txt
for more information.
SUMMARY ------- This patch enhances networking support for the simulation under Linux. Includes updated support for Linux TUN/TAP, and the addition of support for Linux bridge devices. CHANGES ------- o Check to see if the d_txavail callback is present before calling it in the arp send code. This prevents a segfault when simulating the telnetd daemon with arp send enabled. o Adjust the simulation's netdriver_loop() so it will detect and respond to ARP requests. o Do not attempt to take the tap device's hardware address for use by the simulation. That hardware address belongs to the host end of the link, not the simulation end. Generate a randomized MAC address instead. o Do not assign an IP address to the interface on the host side of the TAP link. + Provide two modes: "host route" and "bridge". + In host route mode, maintain a host route that points any traffic for the simulation's IP address to the tap device. In this mode, so long as the simulation's IP is a free address in the same subnet as the host, no additional configuration will be required to talk to it from the host. Note that address changes are handled automatically if they follow the rule of if-down/set-address/if-up, which everything seems to. + In bridge mode, add the tap device to the specified bridge instance. See configs/sim/NETWORK-LINUX.txt for information and usage examples. This enables much more flexible configurations (with fewer headaches), such as running multiple simulations on a single host, all of which can access the network the host is connected to. o Refresh configurations in configs/sim where CONFIG_NET=y. They default to "host route" mode. o Add configs/sim/NETWORK-LINUX.txt CAVEATS ------- - The MAC address generation code is extremely simplistic, and does not check for potential conflicts on the network. Probably not an issue, but something to be aware of. - I was careful to leave it in a state where Cygwin/pcap should still work, but I don't have a Windows environment to test in. This should be checked. - I don't know if this was ever intended to work with OS X. I didn't even try to test it there. NOTES ----- - Was able to get telnetd working and simulate nsh over telnet, but only so long as listen backlogs were disabled. There appears to be a bug in the backlog code where sockets are being returned in SYN_RCVD state instead of waiting until they're ESTABLISHED; if you perform an immediate send after accepting the connection, it will confuse the stack and the send will hang; additionally, the connection will never reach ESTABLISHED state. Can be worked around by adding a sleep(1) after the accept in telnetd. I don't have the necessary knowledge of the IP stack to know what the correct fix is.
2016-05-21 01:36:14 +02:00
config SIM_NET_BRIDGE
bool "Attach to Linux bridge"
---help---
SUMMARY ------- This patch enhances networking support for the simulation under Linux. Includes updated support for Linux TUN/TAP, and the addition of support for Linux bridge devices. CHANGES ------- o Check to see if the d_txavail callback is present before calling it in the arp send code. This prevents a segfault when simulating the telnetd daemon with arp send enabled. o Adjust the simulation's netdriver_loop() so it will detect and respond to ARP requests. o Do not attempt to take the tap device's hardware address for use by the simulation. That hardware address belongs to the host end of the link, not the simulation end. Generate a randomized MAC address instead. o Do not assign an IP address to the interface on the host side of the TAP link. + Provide two modes: "host route" and "bridge". + In host route mode, maintain a host route that points any traffic for the simulation's IP address to the tap device. In this mode, so long as the simulation's IP is a free address in the same subnet as the host, no additional configuration will be required to talk to it from the host. Note that address changes are handled automatically if they follow the rule of if-down/set-address/if-up, which everything seems to. + In bridge mode, add the tap device to the specified bridge instance. See configs/sim/NETWORK-LINUX.txt for information and usage examples. This enables much more flexible configurations (with fewer headaches), such as running multiple simulations on a single host, all of which can access the network the host is connected to. o Refresh configurations in configs/sim where CONFIG_NET=y. They default to "host route" mode. o Add configs/sim/NETWORK-LINUX.txt CAVEATS ------- - The MAC address generation code is extremely simplistic, and does not check for potential conflicts on the network. Probably not an issue, but something to be aware of. - I was careful to leave it in a state where Cygwin/pcap should still work, but I don't have a Windows environment to test in. This should be checked. - I don't know if this was ever intended to work with OS X. I didn't even try to test it there. NOTES ----- - Was able to get telnetd working and simulate nsh over telnet, but only so long as listen backlogs were disabled. There appears to be a bug in the backlog code where sockets are being returned in SYN_RCVD state instead of waiting until they're ESTABLISHED; if you perform an immediate send after accepting the connection, it will confuse the stack and the send will hang; additionally, the connection will never reach ESTABLISHED state. Can be worked around by adding a sleep(1) after the accept in telnetd. I don't have the necessary knowledge of the IP stack to know what the correct fix is.
2016-05-21 01:36:14 +02:00
Add the created tap device to the specified bridge. You will need to manually
configure the bridge IP address (if any) and routes that point to the bridge.
See boards/sim/sim/sim/NETWORK-LINUX.txt for more information.
SUMMARY ------- This patch enhances networking support for the simulation under Linux. Includes updated support for Linux TUN/TAP, and the addition of support for Linux bridge devices. CHANGES ------- o Check to see if the d_txavail callback is present before calling it in the arp send code. This prevents a segfault when simulating the telnetd daemon with arp send enabled. o Adjust the simulation's netdriver_loop() so it will detect and respond to ARP requests. o Do not attempt to take the tap device's hardware address for use by the simulation. That hardware address belongs to the host end of the link, not the simulation end. Generate a randomized MAC address instead. o Do not assign an IP address to the interface on the host side of the TAP link. + Provide two modes: "host route" and "bridge". + In host route mode, maintain a host route that points any traffic for the simulation's IP address to the tap device. In this mode, so long as the simulation's IP is a free address in the same subnet as the host, no additional configuration will be required to talk to it from the host. Note that address changes are handled automatically if they follow the rule of if-down/set-address/if-up, which everything seems to. + In bridge mode, add the tap device to the specified bridge instance. See configs/sim/NETWORK-LINUX.txt for information and usage examples. This enables much more flexible configurations (with fewer headaches), such as running multiple simulations on a single host, all of which can access the network the host is connected to. o Refresh configurations in configs/sim where CONFIG_NET=y. They default to "host route" mode. o Add configs/sim/NETWORK-LINUX.txt CAVEATS ------- - The MAC address generation code is extremely simplistic, and does not check for potential conflicts on the network. Probably not an issue, but something to be aware of. - I was careful to leave it in a state where Cygwin/pcap should still work, but I don't have a Windows environment to test in. This should be checked. - I don't know if this was ever intended to work with OS X. I didn't even try to test it there. NOTES ----- - Was able to get telnetd working and simulate nsh over telnet, but only so long as listen backlogs were disabled. There appears to be a bug in the backlog code where sockets are being returned in SYN_RCVD state instead of waiting until they're ESTABLISHED; if you perform an immediate send after accepting the connection, it will confuse the stack and the send will hang; additionally, the connection will never reach ESTABLISHED state. Can be worked around by adding a sleep(1) after the accept in telnetd. I don't have the necessary knowledge of the IP stack to know what the correct fix is.
2016-05-21 01:36:14 +02:00
endchoice
endif
if SIM_NET_BRIDGE
config SIM_NET_BRIDGE_DEVICE
string "Bridge device to attach"
default "nuttx0"
---help---
The name of the bridge device (as passed to "brctl create") to which the simulation's
TAP interface should be added.
endif
config SIM_LCDDRIVER
bool "Build a simulated LCD driver"
default y
depends on NX && NX_LCDDRIVER
---help---
Build a simulated LCD driver"
config SIM_FRAMEBUFFER
bool "Build a simulated frame buffer driver"
2015-02-01 19:15:46 +01:00
default n
depends on !NX_LCDDRIVER
---help---
Build a simulated frame buffer driver"
if SIM_FRAMEBUFFER
config SIM_X11FB
bool "Use X11 window"
default n
---help---
Use an X11 graphics window to simulate the graphics device"
config SIM_X11NOSHM
bool "Don't use shared memory with X11"
default n
depends on SIM_X11FB
---help---
Don't use shared memory with the X11 graphics device emulation."
config SIM_FBHEIGHT
int "Display height"
default 240
---help---
Simulated display height. Default: 240
config SIM_FBWIDTH
int "Display width"
default 320 if SIM_LCDDRIVER
default 480 if SIM_FRAMEBUFFER
---help---
Simulated width of the display. Default: 320 or 480
config SIM_FBBPP
int "Pixel depth in bits"
default 8
---help---
Pixel depth in bits. Valid choices are 4, 8, 16, 24, or 32.
If you use the X11 display emulation, the selected BPP must match the BPP
of your graphics hardware (probably 32 bits). Default: 8
endif # SIM_FRAMEBUFFER
if SIM_X11FB && INPUT
choice
prompt "X11 Simulated Input Device"
default SIM_NOINPUT
config SIM_TOUCHSCREEN
bool "X11 mouse-based touchscreen emulation"
---help---
Support an X11 mouse-based touchscreen emulation. Also needs INPUT=y
config SIM_AJOYSTICK
bool "X11 mouse-based analog joystick emulation"
---help---
Support an X11 mouse-based analog joystick emulation. Also needs INPUT=y
config SIM_NOINPUT
bool "No input device"
endchoice # X11 Simulated Input Device
endif # SIM_X11FB && INPUT
config SIM_TCNWAITERS
bool "Maximum number poll() waiters"
default 4
depends on SIM_TOUCHSCREEN
---help---
The maximum number of threads that can be waiting on poll() for a
touchscreen event. Default: 4
config SIM_IOEXPANDER
bool "Simulated I/O Expander"
default n
depends on IOEXPANDER
select IOEXPANDER_INT_ENABLE
---help---
Build a simple, simulated I/O Expander chip simulation (for testing
purposes only).
if SIM_IOEXPANDER
config SIM_INT_NCALLBACKS
int "Max number of interrupt callbacks"
default 4
---help---
This is the maximum number of interrupt callbacks supported
config SIM_INT_POLLDELAY
int "Interrupt poll delay (used)"
default 500000
---help---
This microsecond delay defines the polling rate for missed interrupts.
endif # SIM_IOEXPANDER
config SIM_SPIFLASH
bool "Simulated SPI FLASH with SMARTFS"
default n
select FS_SMARTFS
select MTD_SMART
---help---
Adds a simulated SPI FLASH that responds to standard M25 style
commands on the SPI bus.
choice
prompt "Simulated SPI FLASH Size"
default SIM_SPIFLASH_1M
depends on SIM_SPIFLASH
config SIM_SPIFLASH_1M
bool "1 MBit (128K Byte)"
config SIM_SPIFLASH_8M
bool "8 MBit (1M Byte)"
config SIM_SPIFLASH_32M
bool "32 MBit (4M Byte)"
config SIM_SPIFLASH_64M
bool "64 MBit (8M Byte)"
config SIM_SPIFLASH_128M
bool "128 MBit (16M Byte)"
endchoice
config SIM_SPIFLASH_SECTORSIZE
int "FLASH Sector Erase Size"
default 65536
depends on SIM_SPIFLASH
---help---
Sets the large sector erase size that the part simulates.
This driver simulates SPI devices that have both a large
sector erase as well as a "sub-sector" (per the datasheet)
erase size (typically 4K bytes).
config SIM_SPIFLASH_SUBSECTORSIZE
int "FLASH Sub-Sector Erase Size"
default 4096
depends on SIM_SPIFLASH
---help---
Sets the smaller sub-sector erase size supported by the
FLASH emulation
config SIM_SPIFLASH_M25P
bool "Enable M25Pxx FLASH"
depends on MTD_M25P
---help---
Enables simulation of an M25P type FLASH
config SIM_SPIFLASH_SST26
bool "Enable SST26 FLASH"
depends on MTD_SST26
---help---
Enables simulation of an SST26 type FLASH
config SIM_SPIFLASH_W25
bool "Enable W25 FLASH"
depends on MTD_W25
---help---
Enables simulation of a W25 type FLASH
config SIM_SPIFLASH_CUSTOM
bool "Enable Emulation of a Custom Manufacturer / ID FLASH"
depends on SIM_SPIFLASH
---help---
Enables simulation of FLASH with a custom Manufacturer, ID and Capacity
config SIM_SPIFLASH_MANUFACTURER
hex "Hex ID of the FLASH manufacturer code"
default 0x20
depends on SIM_SPIFLASH_CUSTOM
---help---
Allows the simulated FLASH Manufacturer ID to be set.
config SIM_SPIFLASH_MEMORY_TYPE
hex "Hex ID of the FLASH Memory Type code"
default 0x20
depends on SIM_SPIFLASH_CUSTOM
---help---
Allows the simulated FLASH Memory Type code to be set.
config SIM_SPIFLASH_CAPACITY
hex "Hex ID of the FLASH capacity code"
default 0x14
depends on SIM_SPIFLASH_CUSTOM
---help---
Allows the simulated FLASH Memory Capacity code to be set.
config SIM_SPIFLASH_PAGESIZE
int "FLASH Write / Program Page Size"
default 256
depends on SIM_SPIFLASH
---help---
Sets the size of a page program operation. The page size
represents the maximum number of bytes that can be sent
for a program operation. If more bytes than this are
sent on a single Page Program, then the address will
"wrap" causing the initial data sent to be overwritten.
This is consistent with standard SPI FLASH operation.
config SIM_QSPIFLASH
bool "Simulated QSPI FLASH with SMARTFS"
default n
select FS_SMARTFS
select MTD_SMART
---help---
Adds a simulated QSPI FLASH that responds to N25QXXX style
commands on the QSPI bus.
choice
prompt "Simulated QSPI FLASH Size"
default SIM_QSPIFLASH_1M
depends on SIM_QSPIFLASH
config SIM_QSPIFLASH_1M
bool "1 MBit (128K Byte)"
config SIM_QSPIFLASH_8M
bool "8 MBit (1M Byte)"
config SIM_QSPIFLASH_32M
bool "32 MBit (4M Byte)"
config SIM_QSPIFLASH_64M
bool "64 MBit (8M Byte)"
config SIM_QSPIFLASH_128M
bool "128 MBit (16M Byte)"
endchoice
config SIM_QSPIFLASH_MANUFACTURER
hex "Hex ID of the FLASH manufacturer code"
default 0x20
depends on SIM_QSPIFLASH
---help---
Allows the simulated FLASH Manufacturer ID to be set.
config SIM_QSPIFLASH_MEMORY_TYPE
hex "Hex ID of the FLASH Memory Type code"
default 0xba
depends on SIM_QSPIFLASH
---help---
Allows the simulated FLASH Memory Type code to be set.
config SIM_QSPIFLASH_SECTORSIZE
int "FLASH Sector Erase Size"
default 65536
depends on SIM_QSPIFLASH
---help---
Sets the large sector erase size that the part simulates.
This driver simulates QSPI devices that have both a large
sector erase as well as a "sub-sector" (per the datasheet)
erase size (typically 4K bytes).
config SIM_QSPIFLASH_SUBSECTORSIZE
int "FLASH Sub-Sector Erase Size"
default 4096
depends on SIM_QSPIFLASH
---help---
Sets the smaller sub-sector erase size supported by the
FLASH emulation
config SIM_QSPIFLASH_PAGESIZE
2014-09-19 21:00:42 +02:00
int "FLASH Write / Program Page Size"
default 256
depends on SIM_QSPIFLASH
---help---
Sets the size of a page program operation. The page size
represents the maximum number of bytes that can be sent
for a program operation. If more bytes than this are
sent on a single Page Program, then the address will
"wrap" causing the initial data sent to be overwritten.
This is consistent with standard SPI FLASH operation.
endif # ARCH_SIM