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123 lines
4.3 KiB
Plaintext
123 lines
4.3 KiB
Plaintext
Native Client
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=============
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This document outlines the basics of building and developing the Go runtime and
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programs in the Native Client (NaCl) environment.
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Go 1.3 supports three architectures
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* nacl/386 which is standard 386.
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* nacl/amd64p32 which is a 64 bit architecture, where the address space is
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limited to a 4gb window.
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* nacl/arm which is 32-bit ARMv7A architecture with 1GB address space.
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For background it is recommended that you read http://golang.org/s/go13nacl.
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Prerequisites
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-------------
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Native Client programs are executed inside a sandbox, the NaCl runtime. This
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runtime must be installed before you can use NaCl programs.
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The NaCl distribution comes with an installer which ensures you have access to
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the latest version of the runtime. The version tracks the Chrome numbering
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scheme.
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# Download NaCl
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Download nacl_sdk.zip file from
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https://developers.google.com/native-client/dev/sdk/download
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and unpack it. I chose /opt/nacl_sdk.
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# Update
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The zip file contains a small skeleton that can be used to download the correct
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sdk. These are released every 6-8 weeks, in line with Chrome releases.
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% cd /opt/nacl_sdk
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% ./naclsdk update
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At this time pepper_34 is the stable version. If naclsdk downloads a later
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version, please adjust accordingly. As of June 2014, only the canary sdk
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provides support for nacl/arm.
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The cmd/go helper scripts expect that the loaders sel_ldr_{x86_{32,64},arm} and
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nacl_helper_bootstrap_arm are in your path. I find it easiest to make a symlink
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from the NaCl distribution to my $GOPATH/bin directory.
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% ln -nfs /opt/nacl_sdk/pepper_34/tools/sel_ldr_x86_32 $GOPATH/bin/sel_ldr_x86_32
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% ln -nfs /opt/nacl_sdk/pepper_34/tools/sel_ldr_x86_64 $GOPATH/bin/sel_ldr_x86_64
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% ln -nfs /opt/nacl_sdk/pepper_canary/tools/sel_ldr_arm $GOPATH/bin/sel_ldr_arm
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Additionally, for NaCl/ARM only:
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% ln -nfs /opt/nacl_sdk/pepper_canary/tools/nacl_helper_bootstrap_arm $GOPATH/bin/nacl_helper_bootstrap_arm
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Support scripts
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---------------
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Symlink the two scripts in this directory into your $PATH, just as you did with
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NaCl sdk above.
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% ln -nfs $GOROOT/misc/nacl/go_nacl_amd64p32_exec $GOPATH/bin/go_nacl_amd64p32_exec
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% ln -nfs $GOROOT/misc/nacl/go_nacl_386_exec $GOPATH/bin/go_nacl_386_exec
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% ln -nfs $GOROOT/misc/nacl/go_nacl_arm_exec $GOPATH/bin/go_nacl_arm_exec
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Building and testing
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--------------------
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Building for NaCl is similar to cross compiling for other platforms. However,
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as it is not possible to ever build in a `native` NaCl environment, the cmd/go
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tool has been enhanced to allow the full build, all.bash, to be executed,
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rather than just the compile stage, make.bash.
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The cmd/go tool knows that if GOOS is set to `nacl` it should not try to
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execute any binaries itself. Instead it passes their execution to a support
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script which sets up a Native Client environment and invokes the NaCl sandbox.
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The script's name has a special format, go_$GOOS_$GOARCH_exec, so cmd/go can
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find it.
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In short, if the support scripts are in place, the cmd/go tool can be used as
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per normal.
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# Build and test Go for NaCl
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NaCl does not permit direct file system access. Instead, package syscall
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provides a simulated file system served by in-memory data. The script
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nacltest.bash is the NaCl equivalent of all.bash. It builds NaCl with an
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in-memory file system containing files needed for tests, and then it runs the
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tests.
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% cd go/src
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% env GOARCH=amd64p32 ./nacltest.bash
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Debugging
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---------
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Assuming that you have built nacl/amd64p32 binary ./mybin and can run as:
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% sel_ldr_x86_64 -l /dev/null -S -e ./mybin
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Create the nacl manifest file mybin.manifest with the following contents:
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{ "program": { "x86-64": { "url": "mybin" } } }
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url is the path to the binary relative to the manifest file.
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Then, run the program as:
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% sel_ldr_x86_64 -g -l /dev/null -S -e ./mybin
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The -g flag instructs the loader to stop at startup. Then, in another console:
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% /opt/nacl_sdk/pepper_34/toolchain/linux_x86_glibc/bin/x86_64-nacl-gdb
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% nacl-manifest mybin.manifest
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% target remote :4014
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If you see that the program is stopped in _rt0_amd64p32_nacl, then symbols are
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loaded successfully and you can type 'c' to start the program.
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Next time you can automate it as:
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% /opt/nacl_sdk/pepper_34/toolchain/linux_x86_glibc/bin/x86_64-nacl-gdb \
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-ex 'nacl-manifest mybin.manifest' -ex 'target remote :4014'
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