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// This file provides a version of the functions
//
// codegenTestX64_adhoc (src/jit-test/lib/codegen-x64-test.js)
// codegenTestX86_adhoc (src/jit-test/lib/codegen-x86-test.js)
// codegenTestARM64_adhoc (src/jit-test/lib/codegen-arm64-test.js)
// (and the equivalent arm(32) function)
//
// generalised so the output can be specified for all 4 targets in one place.
//
// Usage:
// codegenTestMultiplatform_adhoc(module_text, export_name,
// expectedAllTargets, options = {})
//
// where
// `expectedAllTargets` states the expected-output regexps for each target,
// thusly:
//
// {x64: 'text', x86: 'text', arm64: 'text', arm: 'text'}
//
// The arm(32) expected output is optional. The other 3 must be present.
//
// Each 'text' is a string that represents a regular expression, possibly
// with newlines, representing the instruction or instructions we are looking
// for for the operator. Spaces in the expected-pattern are arbitrary, we
// preprocess the pattern to replace any space string with \s+. Lines are
// separated by newlines and leading and trailing spaces are stripped.
// Pattern strings may be empty, denoting "no instruction(s)".
//
// options specifies options thusly:
//
// instanceBox: if present, an object with a `value` property that will
// receive the constructed instance
//
// log: for debugging -- print the disassembly and other info helpful to
// resolving test failures. This is also printed on a test failure
// regardless of the log setting.
//
// features: this is passed on verbatim to wasmEvalText,
// as its third argument.
//
// no_prefix: by default, the required pattern must be immediately preceded
// by `<target>_prefix`, and this is checked. Setting this to
// true skips the check. Try not to use this.
//
// no_suffix: by default, the required pattern must be immediately followed
// by `<target>_suffix`, and this is checked. Setting this to
// true skips the check. Try not to use this.
//
// no_prefix/no_suffix apply to all 4 targets. Per-target overrides are
// supported, by putting them in a suitably tagged sub-object, eg:
// options = {x86: {no_prefix: true}}
load(libdir + "codegen-test-common.js");
// Architectures supported by this script.
const knownArchs = ["x64", "x86", "arm64", "arm"];
// Architectures for which `expectedAllTargets` must supply an expected result.
const requiredArchs = ["x64", "x86", "arm64"];
// These define the end-of-prologue ("prefix") and start-of-epilogue
// ("suffix") to be matched.
const prefixAndSuffix =
{x64: {
prefix: `48 89 e5 mov %rsp, %rbp`,
suffix: `5d pop %rbp`
},
x86: {
// The mov to e[ac]x is debug code, inserted by the register
// allocator to clobber e[ac]x before a move group. But it is only
// present if there is a move group there.
prefix: `8b ec mov %esp, %ebp(
b. ef be ad de mov \\$0xDEADBEEF, %e.x)?`,
// `.bp` because zydis chooses `rbp` even on 32-bit systems.
suffix: `5d pop %.bp`
},
arm64: {
prefix: `910003fd mov x29, sp
910003fc mov x28, sp`,
suffix: `f94003fd ldr x29, \\[sp\\]`
},
arm: {
prefix: `e52db004 str fp, \\[sp, #-4\\]!
e1a0b00d mov fp, sp`,
suffix: `e49db004 ldr fp, \\[sp\\], #\\+4`
}
};
// The options object may a mix of generic (all-targets) options and contain
// sub-objects containing arch-specific options, for example:
//
// {a_generic_option: 1337, x86: {no_prefix:true}, arm64: {foo:4771}}
//
// promoteArchSpecificOptions lifts options for `archName` to the top level
// and deletes *all* arch-specific subobjects, hence producing the final
// to-be-used option set. For the above example, if `archName` is "x86" we
// get:
//
// {a_generic_option: 1337, no_prefix: true}
//
function promoteArchSpecificOptions(options, archName) {
assertEq(true, knownArchs.some(a => archName == a));
if (options.hasOwnProperty(archName)) {
let archOptions = options[archName];
for (optName in archOptions) {
options[optName] = archOptions[optName];
if (options.log) {
print("---- adding " + archName + "-specific option {"
+ optName + ":" + archOptions[optName] + "}");
}
}
}
for (a of knownArchs) {
delete options[a];
}
if (options.log) {
print("---- final options");
for (optName in options) {
print("{" + optName + ":" + options[optName] + "}");
}
}
return options;
}
// Main test function. See comments at top of this file.
function codegenTestMultiplatform_adhoc(module_text, export_name,
expectedAllTargets, options = {}) {
assertEq(hasDisassembler(), true);
// Check that we've been provided with an expected result for at least
// x64, x86 and arm64.
assertEq(true,
requiredArchs.every(a => expectedAllTargets.hasOwnProperty(a)));
// Poke the build-configuration object to find out what target we're
// generating code for.
let conf = getBuildConfiguration();
let genX64 = conf.x64;
let genX86 = conf.x86;
let genArm64 = conf.arm64;
let genArm = conf.arm;
// So far so good, except .. X64 or X86 might be emulating something else.
if (genX64 && genArm64 && conf['arm64-simulator']) {
genX64 = false;
}
if (genX86 && genArm && conf['arm-simulator']) {
genX86 = false;
}
// Check we've definitively identified exactly one architecture to test.
assertEq(1, [genX64, genX86, genArm64, genArm].map(x => x ? 1 : 0)
.reduce((a,b) => a+b, 0));
// Decide on the arch name for which we're testing. Everything is keyed
// off this.
let archName = "";
if (genX64) {
archName = "x64";
} else if (genX86) {
archName = "x86";
} else if (genArm64) {
archName = "arm64";
} else if (genArm) {
archName = "arm";
}
if (options.log) {
print("---- testing for architecture \"" + archName + "\"");
}
// If this fails, it means we're running on an "unknown" architecture.
assertEq(true, archName.length > 0);
// Finalise options, by promoting arch-specific ones to the top level of
// the options object.
options = promoteArchSpecificOptions(options, archName);
// Get the prefix and suffix strings for the target.
assertEq(true, prefixAndSuffix.hasOwnProperty(archName));
let prefix = prefixAndSuffix[archName].prefix;
let suffix = prefixAndSuffix[archName].suffix;
assertEq(true, prefix.length >= 10);
assertEq(true, suffix.length >= 10);
// Get the expected output string, or skip the test if no expected output
// has been provided. Note, because of the assertion near the top of this
// file, this will currently only allow arm(32) tests to be skipped.
let expected = "";
if (expectedAllTargets.hasOwnProperty(archName)) {
expected = expectedAllTargets[archName];
} else {
// Paranoia. Don't want to silently skip tests due to logic bugs above.
assertEq(archName, "arm");
if (options.log) {
print("---- !! no expected output for target, skipping !!");
}
return;
}
// Finalise the expected-result string, and stash the original for
// debug-printing.
expectedInitial = expected;
if (!options.no_prefix) {
expected = prefix + '\n' + expected;
}
if (!options.no_suffix) {
expected = expected + '\n' + suffix;
}
if (genArm) {
// For obscure reasons, the arm(32) disassembler prints the
// instruction word twice. Rather than forcing all expected lines to
// do the same, we detect any line starting with 8 hex digits followed
// by a space, and duplicate them so as to match the
// disassembler's output.
let newExpected = "";
let pattern = /^[0-9a-fA-F]{8} /;
for (line of expected.split(/\n+/)) {
// Remove whitespace at the start of the line. This could happen
// for continuation lines in backtick-style expected strings.
while (line.match(/^\s/)) {
line = line.slice(1);
}
if (line.match(pattern)) {
line = line.slice(0,9) + line;
}
newExpected = newExpected + line + "\n";
}
expected = newExpected;
}
expected = fixlines(expected);
// Compile the test case and collect disassembly output.
let ins = wasmEvalText(module_text, {}, options.features);
if (options.instanceBox)
options.instanceBox.value = ins;
let output = wasmDis(ins.exports[export_name], {tier:"ion", asString:true});
// Check for success, print diagnostics
let output_matches_expected = output.match(new RegExp(expected)) != null;
if (!output_matches_expected) {
print("---- adhoc-tier1-test.js: TEST FAILED ----");
}
if (options.log && output_matches_expected) {
print("---- adhoc-tier1-test.js: TEST PASSED ----");
}
if (options.log || !output_matches_expected) {
print("---- module text");
print(module_text);
print("---- actual");
print(output);
print("---- expected (initial)");
print(expectedInitial);
print("---- expected (as used)");
print(expected);
print("----");
}
// Finally, the whole point of this:
assertEq(output_matches_expected, true);
}
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