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denoland-deno/tests/unit/os_test.ts

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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import {
assert,
assertEquals,
assertNotEquals,
assertThrows,
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} from "./test_util.ts";
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Deno.test({ permissions: { env: true } }, function envSuccess() {
Deno.env.set("TEST_VAR", "A");
const env = Deno.env.toObject();
Deno.env.set("TEST_VAR", "B");
assertEquals(env["TEST_VAR"], "A");
assertNotEquals(Deno.env.get("TEST_VAR"), env["TEST_VAR"]);
});
Deno.test({ permissions: { env: true } }, function envNotFound() {
const r = Deno.env.get("env_var_does_not_exist!");
assertEquals(r, undefined);
});
Deno.test({ permissions: { env: true } }, function deleteEnv() {
Deno.env.set("TEST_VAR", "A");
assertEquals(Deno.env.get("TEST_VAR"), "A");
assertEquals(Deno.env.delete("TEST_VAR"), undefined);
assertEquals(Deno.env.get("TEST_VAR"), undefined);
});
Deno.test({ permissions: { env: true } }, function hasEnv() {
Deno.env.set("TEST_VAR", "A");
assert(Deno.env.has("TEST_VAR"));
Deno.env.delete("TEST_VAR");
assert(!Deno.env.has("TEST_VAR"));
});
Deno.test({ permissions: { env: true } }, function avoidEmptyNamedEnv() {
assertThrows(() => Deno.env.set("", "v"), TypeError);
assertThrows(() => Deno.env.set("a=a", "v"), TypeError);
assertThrows(() => Deno.env.set("a\0a", "v"), TypeError);
assertThrows(() => Deno.env.set("TEST_VAR", "v\0v"), TypeError);
assertThrows(() => Deno.env.get(""), TypeError);
assertThrows(() => Deno.env.get("a=a"), TypeError);
assertThrows(() => Deno.env.get("a\0a"), TypeError);
assertThrows(() => Deno.env.delete(""), TypeError);
assertThrows(() => Deno.env.delete("a=a"), TypeError);
assertThrows(() => Deno.env.delete("a\0a"), TypeError);
});
Deno.test({ permissions: { env: false } }, function envPermissionDenied1() {
assertThrows(() => {
Deno.env.toObject();
}, Deno.errors.PermissionDenied);
});
Deno.test({ permissions: { env: false } }, function envPermissionDenied2() {
assertThrows(() => {
Deno.env.get("PATH");
}, Deno.errors.PermissionDenied);
});
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// This test verifies that on Windows, environment variables are
// case-insensitive. Case normalization needs be done using the collation
// that Windows uses, rather than naively using String.toLowerCase().
Deno.test(
{
ignore: Deno.build.os !== "windows",
permissions: { read: true, env: true, run: true },
},
async function envCaseInsensitive() {
// Utility function that runs a Deno subprocess with the environment
// specified in `inputEnv`. The subprocess reads the environment variables
// which are in the keys of `expectedEnv` and writes them to stdout as JSON.
// It is then verified that these match with the values of `expectedEnv`.
const checkChildEnv = async (
inputEnv: Record<string, string>,
expectedEnv: Record<string, string>,
) => {
const src = `
console.log(
${JSON.stringify(Object.keys(expectedEnv))}.map(k => Deno.env.get(k))
)`;
const { success, stdout } = await new Deno.Command(Deno.execPath(), {
args: ["eval", src],
env: { ...inputEnv, NO_COLOR: "1" },
}).output();
assertEquals(success, true);
const expectedValues = Object.values(expectedEnv);
const actualValues = JSON.parse(new TextDecoder().decode(stdout));
assertEquals(actualValues, expectedValues);
};
assertEquals(Deno.env.get("path"), Deno.env.get("PATH"));
assertEquals(Deno.env.get("Path"), Deno.env.get("PATH"));
// Check 'foo', 'Foo' and 'Foo' are case folded.
await checkChildEnv({ foo: "X" }, { foo: "X", Foo: "X", FOO: "X" });
// Check that 'µ' and 'Μ' are not case folded.
const lc1 = "µ";
const uc1 = lc1.toUpperCase();
assertNotEquals(lc1, uc1);
await checkChildEnv(
{ [lc1]: "mu", [uc1]: "MU" },
{ [lc1]: "mu", [uc1]: "MU" },
);
// Check that 'dž' and 'DŽ' are folded, but 'Dž' is preserved.
const c2 = "Dž";
const lc2 = c2.toLowerCase();
const uc2 = c2.toUpperCase();
assertNotEquals(c2, lc2);
assertNotEquals(c2, uc2);
await checkChildEnv(
{ [c2]: "Dz", [lc2]: "dz" },
{ [c2]: "Dz", [lc2]: "dz", [uc2]: "dz" },
);
await checkChildEnv(
{ [c2]: "Dz", [uc2]: "DZ" },
{ [c2]: "Dz", [uc2]: "DZ", [lc2]: "DZ" },
);
},
);
Deno.test({ permissions: { env: true } }, function envInvalidChars() {
assertThrows(() => Deno.env.get(""), TypeError, "Key is an empty string");
assertThrows(
() => Deno.env.get("\0"),
TypeError,
'Key contains invalid characters: "\\0"',
);
assertThrows(
() => Deno.env.get("="),
TypeError,
'Key contains invalid characters: "="',
);
assertThrows(
() => Deno.env.set("", "foo"),
TypeError,
"Key is an empty string",
);
assertThrows(
() => Deno.env.set("\0", "foo"),
TypeError,
'Key contains invalid characters: "\\0"',
);
assertThrows(
() => Deno.env.set("=", "foo"),
TypeError,
'Key contains invalid characters: "="',
);
assertThrows(
() => Deno.env.set("foo", "\0"),
TypeError,
'Value contains invalid characters: "\\0"',
);
});
Deno.test(function osPid() {
assertEquals(typeof Deno.pid, "number");
assert(Deno.pid > 0);
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});
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Deno.test(function osPpid() {
assertEquals(typeof Deno.ppid, "number");
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assert(Deno.ppid > 0);
});
Deno.test(
{ permissions: { run: true, read: true } },
async function osPpidIsEqualToPidOfParentProcess() {
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const decoder = new TextDecoder();
const { stdout } = await new Deno.Command(Deno.execPath(), {
args: ["eval", "-p", "--unstable", "Deno.ppid"],
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env: { NO_COLOR: "true" },
}).output();
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const expected = Deno.pid;
const actual = parseInt(decoder.decode(stdout));
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assertEquals(actual, expected);
},
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);
Deno.test({ permissions: { read: true } }, function execPath() {
assertNotEquals(Deno.execPath(), "");
});
Deno.test({ permissions: { read: false } }, function execPathPerm() {
assertThrows(
() => {
Deno.execPath();
},
Deno.errors.PermissionDenied,
"Requires read access to <exec_path>, run again with the --allow-read flag",
);
});
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Deno.test(
{ permissions: { sys: ["loadavg"] } },
function loadavgSuccess() {
const load = Deno.loadavg();
assertEquals(load.length, 3);
},
);
Deno.test({ permissions: { sys: false } }, function loadavgPerm() {
assertThrows(() => {
Deno.loadavg();
}, Deno.errors.PermissionDenied);
});
Deno.test(
{ permissions: { sys: ["hostname"] } },
function hostnameDir() {
assertNotEquals(Deno.hostname(), "");
},
);
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Deno.test(
{ permissions: { run: [Deno.execPath()], read: true } },
// See https://github.com/denoland/deno/issues/16527
async function hostnameWithoutOtherNetworkUsages() {
const { stdout } = await new Deno.Command(Deno.execPath(), {
args: ["eval", "-p", "Deno.hostname()"],
}).output();
const hostname = new TextDecoder().decode(stdout).trim();
assert(hostname.length > 0);
},
);
Deno.test({ permissions: { sys: false } }, function hostnamePerm() {
assertThrows(() => {
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Deno.hostname();
}, Deno.errors.PermissionDenied);
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});
Deno.test(
{ permissions: { sys: ["osRelease"] } },
function releaseDir() {
assertNotEquals(Deno.osRelease(), "");
},
);
Deno.test({ permissions: { sys: false } }, function releasePerm() {
assertThrows(() => {
Deno.osRelease();
}, Deno.errors.PermissionDenied);
});
Deno.test({ permissions: { sys: ["osUptime"] } }, function osUptime() {
const uptime = Deno.osUptime();
assert(typeof uptime === "number");
assert(uptime > 0);
});
Deno.test({ permissions: { sys: false } }, function osUptimePerm() {
assertThrows(() => {
Deno.osUptime();
}, Deno.errors.PermissionDenied);
});
Deno.test(
{ permissions: { sys: ["systemMemoryInfo"] } },
function systemMemoryInfo() {
const info = Deno.systemMemoryInfo();
assert(info.total >= 0);
assert(info.free >= 0);
assert(info.available >= 0);
assert(info.buffers >= 0);
assert(info.cached >= 0);
assert(info.swapTotal >= 0);
assert(info.swapFree >= 0);
},
);
Deno.test({ permissions: { sys: ["uid"] } }, function getUid() {
if (Deno.build.os === "windows") {
assertEquals(Deno.uid(), null);
} else {
const uid = Deno.uid();
assert(typeof uid === "number");
assert(uid > 0);
}
});
Deno.test({ permissions: { sys: ["gid"] } }, function getGid() {
if (Deno.build.os === "windows") {
assertEquals(Deno.gid(), null);
} else {
const gid = Deno.gid();
assert(typeof gid === "number");
assert(gid > 0);
}
});
Deno.test(function memoryUsage() {
const mem = Deno.memoryUsage();
assert(typeof mem.rss === "number");
assert(typeof mem.heapTotal === "number");
assert(typeof mem.heapUsed === "number");
assert(typeof mem.external === "number");
assert(mem.rss >= mem.heapTotal);
});
Deno.test("Deno.exitCode getter and setter", () => {
// Initial value is 0
assertEquals(Deno.exitCode, 0);
try {
// Set a new value
Deno.exitCode = 5;
assertEquals(Deno.exitCode, 5);
} finally {
// Reset to initial value
Deno.exitCode = 0;
}
assertEquals(Deno.exitCode, 0);
});
Deno.test("Setting Deno.exitCode to non-number throws TypeError", () => {
// Throws on non-number values
assertThrows(
() => {
// @ts-expect-error Testing for runtime error
Deno.exitCode = "123";
},
TypeError,
"Exit code must be a number, got: 123 (string)",
);
// Throws on bigint values
assertThrows(
() => {
// @ts-expect-error Testing for runtime error
Deno.exitCode = 1n;
},
TypeError,
"Exit code must be a number, got: 1 (bigint)",
);
});
Deno.test("Setting Deno.exitCode to non-integer throws RangeError", () => {
// Throws on non-integer values
assertThrows(
() => {
Deno.exitCode = 3.14;
},
RangeError,
"Exit code must be an integer, got: 3.14",
);
});
Deno.test("Setting Deno.exitCode does not cause an immediate exit", () => {
let exited = false;
const originalExit = Deno.exit;
// @ts-expect-error; read-only
Deno.exit = () => {
exited = true;
};
try {
Deno.exitCode = 1;
assertEquals(exited, false);
} finally {
Deno.exit = originalExit;
Deno.exitCode = 0;
}
});