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|
// SPDX-License-Identifier: GPL-2.0+
/*
* Test for bootdev functions. All start with 'bootdev'
*
* Copyright 2021 Google LLC
* Written by Simon Glass <sjg@chromium.org>
*/
#include <bootdev.h>
#include <bootflow.h>
#include <bootmeth.h>
#include <bootstd.h>
#include <cli.h>
#include <dm.h>
#include <efi_default_filename.h>
#include <expo.h>
#ifdef CONFIG_SANDBOX
#include <asm/test.h>
#endif
#include <dm/device-internal.h>
#include <dm/lists.h>
#include <test/suites.h>
#include <test/ut.h>
#include "bootstd_common.h"
#include "../../boot/bootflow_internal.h"
#include "../../boot/scene_internal.h"
DECLARE_GLOBAL_DATA_PTR;
extern U_BOOT_DRIVER(bootmeth_android);
extern U_BOOT_DRIVER(bootmeth_cros);
extern U_BOOT_DRIVER(bootmeth_2script);
static int inject_response(struct unit_test_state *uts)
{
/*
* The image being booted presents a menu of options:
*
* Fedora-Workstation-armhfp-31-1.9 Boot Options.
* 1: Fedora-Workstation-armhfp-31-1.9 (5.3.7-301.fc31.armv7hl)
* Enter choice:
*
* Provide input for this, to avoid waiting two seconds for a timeout.
*/
ut_asserteq(2, console_in_puts("1\n"));
return 0;
}
/* Check 'bootflow scan/list' commands */
static int bootflow_cmd(struct unit_test_state *uts)
{
console_record_reset_enable();
ut_assertok(run_command("bootdev select 1", 0));
ut_assert_console_end();
ut_assertok(run_command("bootflow scan -lH", 0));
ut_assert_nextline("Scanning for bootflows in bootdev 'mmc1.bootdev'");
ut_assert_nextline("Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline("Scanning bootdev 'mmc2.bootdev':");
ut_assert_nextline("Scanning bootdev 'mmc1.bootdev':");
ut_assert_nextline(" 0 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_nextline("No more bootdevs");
ut_assert_nextlinen("---");
ut_assert_nextline("(1 bootflow, 1 valid)");
ut_assert_console_end();
ut_assertok(run_command("bootflow list", 0));
ut_assert_nextline("Showing bootflows for bootdev 'mmc1.bootdev'");
ut_assert_nextline("Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline(" 0 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_nextlinen("---");
ut_assert_nextline("(1 bootflow, 1 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow scan' with a label / seq */
static int bootflow_cmd_label(struct unit_test_state *uts)
{
test_set_eth_enable(false);
console_record_reset_enable();
ut_assertok(run_command("bootflow scan -lH mmc1", 0));
ut_assert_nextline("Scanning for bootflows with label 'mmc1'");
ut_assert_skip_to_line("(1 bootflow, 1 valid)");
ut_assert_console_end();
ut_assertok(run_command("bootflow scan -lH 0", 0));
ut_assert_nextline("Scanning for bootflows with label '0'");
ut_assert_skip_to_line("(0 bootflows, 0 valid)");
ut_assert_console_end();
/*
* with ethernet enabled we have 8 devices ahead of the mmc ones:
*
* ut_assertok(run_command("bootdev list", 0));
* Seq Probed Status Uclass Name
* --- ------ ------ -------- ------------------
* 0 [ + ] OK ethernet eth@10002000.bootdev
* 1 [ ] OK ethernet eth@10003000.bootdev
* 2 [ ] OK ethernet sbe5.bootdev
* 3 [ ] OK ethernet eth@10004000.bootdev
* 4 [ ] OK ethernet phy-test-eth.bootdev
* 5 [ ] OK ethernet dsa-test-eth.bootdev
* 6 [ ] OK ethernet dsa-test@0.bootdev
* 7 [ ] OK ethernet dsa-test@1.bootdev
* 8 [ ] OK mmc mmc2.bootdev
* 9 [ + ] OK mmc mmc1.bootdev
* a [ ] OK mmc mmc0.bootdev
*/
ut_assertok(run_command("bootflow scan -lH 9", 0));
ut_assert_nextline("Scanning for bootflows with label '9'");
ut_assert_skip_to_line("(1 bootflow, 1 valid)");
ut_assertok(run_command("bootflow scan -lH 0", 0));
ut_assert_nextline("Scanning for bootflows with label '0'");
ut_assert_skip_to_line("(0 bootflows, 0 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_label, UT_TESTF_DM | UT_TESTF_SCAN_FDT |
UT_TESTF_ETH_BOOTDEV);
/* Check 'bootflow scan/list' commands using all bootdevs */
static int bootflow_cmd_glob(struct unit_test_state *uts)
{
ut_assertok(bootstd_test_drop_bootdev_order(uts));
console_record_reset_enable();
ut_assertok(run_command("bootflow scan -lGH", 0));
ut_assert_nextline("Scanning for bootflows in all bootdevs");
ut_assert_nextline("Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline("Scanning bootdev 'mmc2.bootdev':");
ut_assert_nextline("Scanning bootdev 'mmc1.bootdev':");
ut_assert_nextline(" 0 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_nextline("Scanning bootdev 'mmc0.bootdev':");
ut_assert_nextline("No more bootdevs");
ut_assert_nextlinen("---");
ut_assert_nextline("(1 bootflow, 1 valid)");
ut_assert_console_end();
ut_assertok(run_command("bootflow list", 0));
ut_assert_nextline("Showing all bootflows");
ut_assert_nextline("Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline(" 0 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_nextlinen("---");
ut_assert_nextline("(1 bootflow, 1 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_glob, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow scan -e' */
static int bootflow_cmd_scan_e(struct unit_test_state *uts)
{
ut_assertok(bootstd_test_drop_bootdev_order(uts));
console_record_reset_enable();
ut_assertok(run_command("bootflow scan -aleGH", 0));
ut_assert_nextline("Scanning for bootflows in all bootdevs");
ut_assert_nextline("Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline("Scanning bootdev 'mmc2.bootdev':");
ut_assert_nextline(" 0 extlinux media mmc 0 mmc2.bootdev.whole ");
ut_assert_nextline(" ** No partition found, err=-93: Protocol not supported");
ut_assert_nextline(" 1 efi media mmc 0 mmc2.bootdev.whole ");
ut_assert_nextline(" ** No partition found, err=-93: Protocol not supported");
ut_assert_nextline("Scanning bootdev 'mmc1.bootdev':");
ut_assert_nextline(" 2 extlinux media mmc 0 mmc1.bootdev.whole ");
ut_assert_nextline(" ** No partition found, err=-2: No such file or directory");
ut_assert_nextline(" 3 efi media mmc 0 mmc1.bootdev.whole ");
ut_assert_nextline(" ** No partition found, err=-2: No such file or directory");
ut_assert_nextline(" 4 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_nextline(" 5 efi fs mmc 1 mmc1.bootdev.part_1 /EFI/BOOT/"
BOOTEFI_NAME);
ut_assert_skip_to_line("Scanning bootdev 'mmc0.bootdev':");
ut_assert_skip_to_line(
" 3f efi media mmc 0 mmc0.bootdev.whole ");
ut_assert_nextline(" ** No partition found, err=-93: Protocol not supported");
ut_assert_nextline("No more bootdevs");
ut_assert_nextlinen("---");
ut_assert_nextline("(64 bootflows, 1 valid)");
ut_assert_console_end();
ut_assertok(run_command("bootflow list", 0));
ut_assert_nextline("Showing all bootflows");
ut_assert_nextline("Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline(" 0 extlinux media mmc 0 mmc2.bootdev.whole ");
ut_assert_nextline(" 1 efi media mmc 0 mmc2.bootdev.whole ");
ut_assert_skip_to_line(
" 4 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_skip_to_line(" 3f efi media mmc 0 mmc0.bootdev.whole ");
ut_assert_nextlinen("---");
ut_assert_nextline("(64 bootflows, 1 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_scan_e, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow info' */
static int bootflow_cmd_info(struct unit_test_state *uts)
{
console_record_reset_enable();
ut_assertok(run_command("bootdev select 1", 0));
ut_assert_console_end();
ut_assertok(run_command("bootflow scan", 0));
ut_assert_console_end();
ut_assertok(run_command("bootflow select 0", 0));
ut_assert_console_end();
ut_assertok(run_command("bootflow info", 0));
ut_assert_nextline("Name: mmc1.bootdev.part_1");
ut_assert_nextline("Device: mmc1.bootdev");
ut_assert_nextline("Block dev: mmc1.blk");
ut_assert_nextline("Method: extlinux");
ut_assert_nextline("State: ready");
ut_assert_nextline("Partition: 1");
ut_assert_nextline("Subdir: (none)");
ut_assert_nextline("Filename: /extlinux/extlinux.conf");
ut_assert_nextlinen("Buffer: ");
ut_assert_nextline("Size: 253 (595 bytes)");
ut_assert_nextline("OS: Fedora-Workstation-armhfp-31-1.9 (5.3.7-301.fc31.armv7hl)");
ut_assert_nextline("Cmdline: (none)");
ut_assert_nextline("Logo: (none)");
ut_assert_nextline("FDT: <NULL>");
ut_assert_nextline("Error: 0");
ut_assert_console_end();
ut_assertok(run_command("bootflow info -d", 0));
ut_assert_nextline("Name: mmc1.bootdev.part_1");
ut_assert_skip_to_line("Error: 0");
ut_assert_nextline("Contents:");
ut_assert_nextline("%s", "");
ut_assert_nextline("# extlinux.conf generated by appliance-creator");
ut_assert_skip_to_line(" initrd /initramfs-5.3.7-301.fc31.armv7hl.img");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_info, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow scan -b' to boot the first available bootdev */
static int bootflow_scan_boot(struct unit_test_state *uts)
{
console_record_reset_enable();
ut_assertok(inject_response(uts));
ut_assertok(run_command("bootflow scan -b", 0));
ut_assert_nextline(
"** Booting bootflow 'mmc1.bootdev.part_1' with extlinux");
ut_assert_nextline("Ignoring unknown command: ui");
/*
* We expect it to get through to boot although sandbox always returns
* -EFAULT as it cannot actually boot the kernel
*/
ut_assert_skip_to_line("sandbox: continuing, as we cannot run Linux");
ut_assert_nextline("Boot failed (err=-14)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_scan_boot, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check iterating through available bootflows */
static int bootflow_iter(struct unit_test_state *uts)
{
struct bootflow_iter iter;
struct bootflow bflow;
bootstd_clear_glob();
/* The first device is mmc2.bootdev which has no media */
ut_asserteq(-EPROTONOSUPPORT,
bootflow_scan_first(NULL, NULL, &iter,
BOOTFLOWIF_ALL | BOOTFLOWIF_SKIP_GLOBAL, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(0, iter.cur_method);
ut_asserteq(0, iter.part);
ut_asserteq(0, iter.max_part);
ut_asserteq_str("extlinux", iter.method->name);
ut_asserteq(0, bflow.err);
/*
* This shows MEDIA even though there is none, since in
* bootdev_find_in_blk() we call part_get_info() which returns
* -EPROTONOSUPPORT. Ideally it would return -EEOPNOTSUPP and we would
* know.
*/
ut_asserteq(BOOTFLOWST_MEDIA, bflow.state);
ut_asserteq(-EPROTONOSUPPORT, bootflow_scan_next(&iter, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(1, iter.cur_method);
ut_asserteq(0, iter.part);
ut_asserteq(0, iter.max_part);
ut_asserteq_str("efi", iter.method->name);
ut_asserteq(0, bflow.err);
ut_asserteq(BOOTFLOWST_MEDIA, bflow.state);
bootflow_free(&bflow);
/* The next device is mmc1.bootdev - at first we use the whole device */
ut_asserteq(-ENOENT, bootflow_scan_next(&iter, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(0, iter.cur_method);
ut_asserteq(0, iter.part);
ut_asserteq(0x1e, iter.max_part);
ut_asserteq_str("extlinux", iter.method->name);
ut_asserteq(0, bflow.err);
ut_asserteq(BOOTFLOWST_MEDIA, bflow.state);
bootflow_free(&bflow);
ut_asserteq(-ENOENT, bootflow_scan_next(&iter, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(1, iter.cur_method);
ut_asserteq(0, iter.part);
ut_asserteq(0x1e, iter.max_part);
ut_asserteq_str("efi", iter.method->name);
ut_asserteq(0, bflow.err);
ut_asserteq(BOOTFLOWST_MEDIA, bflow.state);
bootflow_free(&bflow);
/* Then more to partition 1 where we find something */
ut_assertok(bootflow_scan_next(&iter, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(0, iter.cur_method);
ut_asserteq(1, iter.part);
ut_asserteq(0x1e, iter.max_part);
ut_asserteq_str("extlinux", iter.method->name);
ut_asserteq(0, bflow.err);
ut_asserteq(BOOTFLOWST_READY, bflow.state);
bootflow_free(&bflow);
ut_asserteq(-ENOENT, bootflow_scan_next(&iter, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(1, iter.cur_method);
ut_asserteq(1, iter.part);
ut_asserteq(0x1e, iter.max_part);
ut_asserteq_str("efi", iter.method->name);
ut_asserteq(0, bflow.err);
ut_asserteq(BOOTFLOWST_FS, bflow.state);
bootflow_free(&bflow);
/* Then more to partition 2 which exists but is not bootable */
ut_asserteq(-EINVAL, bootflow_scan_next(&iter, &bflow));
ut_asserteq(2, iter.num_methods);
ut_asserteq(0, iter.cur_method);
ut_asserteq(2, iter.part);
ut_asserteq(0x1e, iter.max_part);
ut_asserteq_str("extlinux", iter.method->name);
ut_asserteq(0, bflow.err);
ut_asserteq(BOOTFLOWST_MEDIA, bflow.state);
bootflow_free(&bflow);
bootflow_iter_uninit(&iter);
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_iter, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
#if defined(CONFIG_SANDBOX) && defined(CONFIG_BOOTMETH_GLOBAL)
/* Check using the system bootdev */
static int bootflow_system(struct unit_test_state *uts)
{
struct udevice *bootstd, *dev;
if (!IS_ENABLED(CONFIG_EFI_BOOTMGR))
return -EAGAIN;
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
ut_assertok(device_bind(bootstd, DM_DRIVER_GET(bootmeth_3efi_mgr),
"efi_mgr", 0, ofnode_null(), &dev));
ut_assertok(device_probe(dev));
sandbox_set_fake_efi_mgr_dev(dev, true);
/* We should get a single 'bootmgr' method right at the end */
bootstd_clear_glob();
console_record_reset_enable();
ut_assertok(run_command("bootflow scan -lH", 0));
ut_assert_skip_to_line(
" 0 efi_mgr ready (none) 0 <NULL> ");
ut_assert_skip_to_line("No more bootdevs");
ut_assert_skip_to_line("(2 bootflows, 2 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_system, UT_TESTF_DM | UT_TESTF_SCAN_PDATA |
UT_TESTF_SCAN_FDT);
#endif
/* Check disabling a bootmethod if it requests it */
static int bootflow_iter_disable(struct unit_test_state *uts)
{
struct udevice *bootstd, *dev;
struct bootflow_iter iter;
struct bootflow bflow;
int i;
/* Add the EFI bootmgr driver */
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
ut_assertok(device_bind_driver(bootstd, "bootmeth_sandbox", "sandbox",
&dev));
ut_assertok(bootstd_test_drop_bootdev_order(uts));
bootstd_clear_glob();
console_record_reset_enable();
ut_assertok(inject_response(uts));
ut_assertok(run_command("bootflow scan -lbH", 0));
/* Try to boot the bootmgr flow, which will fail */
console_record_reset_enable();
ut_assertok(bootflow_scan_first(NULL, NULL, &iter, 0, &bflow));
ut_asserteq(3, iter.num_methods);
ut_asserteq_str("sandbox", iter.method->name);
ut_assertok(inject_response(uts));
ut_asserteq(-ENOTSUPP, bootflow_run_boot(&iter, &bflow));
ut_assert_skip_to_line("Boot method 'sandbox' failed and will not be retried");
ut_assert_console_end();
/* Check that the sandbox bootmeth has been removed */
ut_asserteq(2, iter.num_methods);
for (i = 0; i < iter.num_methods; i++)
ut_assert(strcmp("sandbox", iter.method_order[i]->name));
return 0;
}
BOOTSTD_TEST(bootflow_iter_disable, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow scan' with a bootmeth ordering including a global bootmeth */
static int bootflow_scan_glob_bootmeth(struct unit_test_state *uts)
{
if (!IS_ENABLED(CONFIG_BOOTMETH_GLOBAL))
return -EAGAIN;
ut_assertok(bootstd_test_drop_bootdev_order(uts));
/*
* Make sure that the -G flag makes the scan fail, since this is not
* supported when an ordering is provided
*/
console_record_reset_enable();
ut_assertok(bootmeth_set_order("efi firmware0"));
ut_assertok(run_command("bootflow scan -lGH", 0));
ut_assert_nextline("Scanning for bootflows in all bootdevs");
ut_assert_nextline(
"Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextlinen("---");
ut_assert_nextline("(0 bootflows, 0 valid)");
ut_assert_console_end();
ut_assertok(run_command("bootflow scan -lH", 0));
ut_assert_nextline("Scanning for bootflows in all bootdevs");
ut_assert_nextline(
"Seq Method State Uclass Part Name Filename");
ut_assert_nextlinen("---");
ut_assert_nextline("Scanning global bootmeth 'firmware0':");
ut_assert_nextline("Scanning bootdev 'mmc2.bootdev':");
ut_assert_nextline("Scanning bootdev 'mmc1.bootdev':");
ut_assert_nextline("Scanning bootdev 'mmc0.bootdev':");
ut_assert_nextline("No more bootdevs");
ut_assert_nextlinen("---");
ut_assert_nextline("(0 bootflows, 0 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_scan_glob_bootmeth, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow boot' to boot a selected bootflow */
static int bootflow_cmd_boot(struct unit_test_state *uts)
{
console_record_reset_enable();
ut_assertok(run_command("bootdev select 1", 0));
ut_assert_console_end();
ut_assertok(run_command("bootflow scan", 0));
ut_assert_console_end();
ut_assertok(run_command("bootflow select 0", 0));
ut_assert_console_end();
ut_assertok(inject_response(uts));
ut_asserteq(1, run_command("bootflow boot", 0));
ut_assert_nextline(
"** Booting bootflow 'mmc1.bootdev.part_1' with extlinux");
ut_assert_nextline("Ignoring unknown command: ui");
/*
* We expect it to get through to boot although sandbox always returns
* -EFAULT as it cannot actually boot the kernel
*/
ut_assert_skip_to_line("sandbox: continuing, as we cannot run Linux");
ut_assert_nextline("Boot failed (err=-14)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_boot, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/**
* prep_mmc_bootdev() - Set up an mmc bootdev so we can access other distros
*
* After calling this function, set std->bootdev_order to *@old_orderp to
* restore normal operation of bootstd (i.e. with the original bootdev order)
*
* @uts: Unit test state
* @mmc_dev: MMC device to use, e.g. "mmc4". Note that this must remain valid
* in the caller until
* @bind_cros: true to bind the ChromiumOS and Android bootmeths
* @old_orderp: Returns the original bootdev order, which must be restored
* Returns 0 on success, -ve on failure
*/
static int prep_mmc_bootdev(struct unit_test_state *uts, const char *mmc_dev,
bool bind_cros_android, const char ***old_orderp)
{
static const char *order[] = {"mmc2", "mmc1", NULL, NULL};
struct udevice *dev, *bootstd;
struct bootstd_priv *std;
const char **old_order;
ofnode root, node;
order[2] = mmc_dev;
/* Enable the mmc4 node since we need a second bootflow */
root = oftree_root(oftree_default());
node = ofnode_find_subnode(root, mmc_dev);
ut_assert(ofnode_valid(node));
ut_assertok(lists_bind_fdt(gd->dm_root, node, &dev, NULL, false));
/* Enable the script bootmeth too */
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
ut_assertok(device_bind(bootstd, DM_DRIVER_REF(bootmeth_2script),
"bootmeth_script", 0, ofnode_null(), &dev));
/* Enable the cros bootmeth if needed */
if (IS_ENABLED(CONFIG_BOOTMETH_CROS) && bind_cros_android) {
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
ut_assertok(device_bind(bootstd, DM_DRIVER_REF(bootmeth_cros),
"cros", 0, ofnode_null(), &dev));
}
/* Enable the android bootmeths if needed */
if (IS_ENABLED(CONFIG_BOOTMETH_ANDROID) && bind_cros_android) {
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
ut_assertok(device_bind(bootstd, DM_DRIVER_REF(bootmeth_android),
"android", 0, ofnode_null(), &dev));
}
/* Change the order to include the device */
std = dev_get_priv(bootstd);
old_order = std->bootdev_order;
std->bootdev_order = order;
*old_orderp = old_order;
return 0;
}
/**
* scan_mmc_bootdev() - Set up an mmc bootdev so we can access other distros
*
* @uts: Unit test state
* @mmc_dev: MMC device to use, e.g. "mmc4"
* @bind_cros: true to bind the ChromiumOS bootmeth
* Returns 0 on success, -ve on failure
*/
static int scan_mmc_bootdev(struct unit_test_state *uts, const char *mmc_dev,
bool bind_cros)
{
struct bootstd_priv *std;
struct udevice *bootstd;
const char **old_order;
ut_assertok(prep_mmc_bootdev(uts, mmc_dev, bind_cros, &old_order));
console_record_reset_enable();
ut_assertok(run_command("bootflow scan", 0));
ut_assert_console_end();
/* Restore the order used by the device tree */
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
std = dev_get_priv(bootstd);
std->bootdev_order = old_order;
return 0;
}
/**
* scan_mmc_android_bootdev() - Set up an mmc bootdev so we can access other
* distros. Android bootflow might print "ANDROID:*" while scanning
*
* @uts: Unit test state
* @mmc_dev: MMC device to use, e.g. "mmc4"
* Returns 0 on success, -ve on failure
*/
static int scan_mmc_android_bootdev(struct unit_test_state *uts, const char *mmc_dev)
{
struct bootstd_priv *std;
struct udevice *bootstd;
const char **old_order;
ut_assertok(prep_mmc_bootdev(uts, mmc_dev, true, &old_order));
console_record_reset_enable();
ut_assertok(run_command("bootflow scan", 0));
/* Android bootflow might print one or two 'ANDROID:*' logs */
ut_check_skipline(uts);
ut_check_skipline(uts);
ut_assert_console_end();
/* Restore the order used by the device tree */
ut_assertok(uclass_first_device_err(UCLASS_BOOTSTD, &bootstd));
std = dev_get_priv(bootstd);
std->bootdev_order = old_order;
return 0;
}
/**
* scan_mmc4_bootdev() - Set up the mmc4 bootdev so we can access a fake Armbian
*
* @uts: Unit test state
* Returns 0 on success, -ve on failure
*/
static int scan_mmc4_bootdev(struct unit_test_state *uts)
{
ut_assertok(scan_mmc_bootdev(uts, "mmc4", false));
return 0;
}
/* Check 'bootflow menu' to select a bootflow */
static int bootflow_cmd_menu(struct unit_test_state *uts)
{
struct bootstd_priv *std;
char prev[3];
/* get access to the current bootflow */
ut_assertok(bootstd_get_priv(&std));
ut_assertok(scan_mmc4_bootdev(uts));
/* Add keypresses to move to and select the second one in the list */
prev[0] = CTL_CH('n');
prev[1] = '\r';
prev[2] = '\0';
ut_asserteq(2, console_in_puts(prev));
ut_assertok(run_command("bootflow menu", 0));
ut_assert_nextline("Selected: Armbian");
ut_assertnonnull(std->cur_bootflow);
ut_assert_console_end();
/* Check not selecting anything */
prev[0] = '\e';
prev[1] = '\0';
ut_asserteq(1, console_in_puts(prev));
ut_asserteq(1, run_command("bootflow menu", 0));
ut_assertnull(std->cur_bootflow);
ut_assert_nextline("Nothing chosen");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_menu, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check 'bootflow scan -m' to select a bootflow using a menu */
static int bootflow_scan_menu(struct unit_test_state *uts)
{
struct bootstd_priv *std;
const char **old_order, **new_order;
char prev[3];
/* get access to the current bootflow */
ut_assertok(bootstd_get_priv(&std));
ut_assertok(prep_mmc_bootdev(uts, "mmc4", false, &old_order));
/* Add keypresses to move to and select the second one in the list */
prev[0] = CTL_CH('n');
prev[1] = '\r';
prev[2] = '\0';
ut_asserteq(2, console_in_puts(prev));
ut_assertok(run_command("bootflow scan -lm", 0));
new_order = std->bootdev_order;
std->bootdev_order = old_order;
ut_assert_skip_to_line("No more bootdevs");
ut_assert_nextlinen("--");
ut_assert_nextline("(2 bootflows, 2 valid)");
ut_assert_nextline("Selected: Armbian");
ut_assertnonnull(std->cur_bootflow);
ut_assert_console_end();
/* Check not selecting anything */
prev[0] = '\e';
prev[1] = '\0';
ut_asserteq(1, console_in_puts(prev));
std->bootdev_order = new_order; /* Blue Monday */
ut_assertok(run_command("bootflow scan -lm", 0));
std->bootdev_order = old_order;
ut_assertnull(std->cur_bootflow);
ut_assert_skip_to_line("(2 bootflows, 2 valid)");
ut_assert_nextline("Nothing chosen");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_scan_menu,
UT_TESTF_DM | UT_TESTF_SCAN_FDT | UT_TESTF_CONSOLE_REC);
/* Check 'bootflow scan -mb' to select and boot a bootflow using a menu */
static int bootflow_scan_menu_boot(struct unit_test_state *uts)
{
struct bootstd_priv *std;
const char **old_order;
char prev[3];
/* get access to the current bootflow */
ut_assertok(bootstd_get_priv(&std));
ut_assertok(prep_mmc_bootdev(uts, "mmc4", false, &old_order));
/* Add keypresses to move to and select the second one in the list */
prev[0] = CTL_CH('n');
prev[1] = '\r';
prev[2] = '\0';
ut_asserteq(2, console_in_puts(prev));
ut_assertok(run_command("bootflow scan -lmb", 0));
std->bootdev_order = old_order;
ut_assert_skip_to_line("(2 bootflows, 2 valid)");
ut_assert_nextline("Selected: Armbian");
if (gd->flags & GD_FLG_HUSH_OLD_PARSER) {
/*
* With old hush, despite booti failing to boot, i.e. returning
* CMD_RET_FAILURE, run_command() returns 0 which leads bootflow_boot(), as
* we are using bootmeth_script here, to return -EFAULT.
*/
ut_assert_skip_to_line("Boot failed (err=-14)");
} else if (gd->flags & GD_FLG_HUSH_MODERN_PARSER) {
/*
* While with modern one, run_command() propagates CMD_RET_FAILURE returned
* by booti, so we get 1 here.
*/
ut_assert_skip_to_line("Boot failed (err=1)");
}
ut_assertnonnull(std->cur_bootflow);
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_scan_menu_boot,
UT_TESTF_DM | UT_TESTF_SCAN_FDT | UT_TESTF_CONSOLE_REC);
/* Check searching for a single bootdev using the hunters */
static int bootflow_cmd_hunt_single(struct unit_test_state *uts)
{
struct bootstd_priv *std;
/* get access to the used hunters */
ut_assertok(bootstd_get_priv(&std));
ut_assertok(bootstd_test_drop_bootdev_order(uts));
console_record_reset_enable();
ut_assertok(run_command("bootflow scan -l mmc1", 0));
ut_assert_nextline("Scanning for bootflows with label 'mmc1'");
ut_assert_skip_to_line("(1 bootflow, 1 valid)");
ut_assert_console_end();
/* check that the hunter was used */
ut_asserteq(BIT(MMC_HUNTER) | BIT(1), std->hunters_used);
return 0;
}
BOOTSTD_TEST(bootflow_cmd_hunt_single, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/* Check searching for a uclass label using the hunters */
static int bootflow_cmd_hunt_label(struct unit_test_state *uts)
{
struct bootstd_priv *std;
/* get access to the used hunters */
ut_assertok(bootstd_get_priv(&std));
test_set_skip_delays(true);
test_set_eth_enable(false);
ut_assertok(bootstd_test_drop_bootdev_order(uts));
console_record_reset_enable();
ut_assertok(run_command("bootflow scan -l mmc", 0));
/* check that the hunter was used */
ut_asserteq(BIT(MMC_HUNTER) | BIT(1), std->hunters_used);
/* check that we got the mmc1 bootflow */
ut_assert_nextline("Scanning for bootflows with label 'mmc'");
ut_assert_nextlinen("Seq");
ut_assert_nextlinen("---");
ut_assert_nextline("Hunting with: simple_bus");
ut_assert_nextline("Found 2 extension board(s).");
ut_assert_nextline("Hunting with: mmc");
ut_assert_nextline("Scanning bootdev 'mmc2.bootdev':");
ut_assert_nextline("Scanning bootdev 'mmc1.bootdev':");
ut_assert_nextline(
" 0 extlinux ready mmc 1 mmc1.bootdev.part_1 /extlinux/extlinux.conf");
ut_assert_nextline("Scanning bootdev 'mmc0.bootdev':");
ut_assert_skip_to_line("(1 bootflow, 1 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmd_hunt_label, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/**
* check_font() - Check that the font size for an item matches expectations
*
* @uts: Unit test state
* @scn: Scene containing the text object
* @id: ID of the text object
* Returns 0 on success, -ve on failure
*/
static int check_font(struct unit_test_state *uts, struct scene *scn, uint id,
int font_size)
{
struct scene_obj_txt *txt;
txt = scene_obj_find(scn, id, SCENEOBJT_TEXT);
ut_assertnonnull(txt);
ut_asserteq(font_size, txt->font_size);
return 0;
}
/* Check themes work with a bootflow menu */
static int bootflow_menu_theme(struct unit_test_state *uts)
{
const int font_size = 30;
struct scene *scn;
struct expo *exp;
ofnode node;
int i;
ut_assertok(scan_mmc4_bootdev(uts));
ut_assertok(bootflow_menu_new(&exp));
node = ofnode_path("/bootstd/theme");
ut_assert(ofnode_valid(node));
ut_assertok(bootflow_menu_apply_theme(exp, node));
scn = expo_lookup_scene_id(exp, MAIN);
ut_assertnonnull(scn);
/*
* Check that the txt objects have the correct font size from the
* device tree node: bootstd/theme
*
* Check both menu items, since there are two bootflows
*/
ut_assertok(check_font(uts, scn, OBJ_PROMPT, font_size));
ut_assertok(check_font(uts, scn, OBJ_POINTER, font_size));
for (i = 0; i < 2; i++) {
ut_assertok(check_font(uts, scn, ITEM_DESC + i, font_size));
ut_assertok(check_font(uts, scn, ITEM_KEY + i, font_size));
ut_assertok(check_font(uts, scn, ITEM_LABEL + i, font_size));
}
expo_destroy(exp);
return 0;
}
BOOTSTD_TEST(bootflow_menu_theme, UT_TESTF_DM | UT_TESTF_SCAN_FDT);
/**
* check_arg() - Check both the normal case and the buffer-overflow case
*
* @uts: Unit-test state
* @expect_ret: Expected return value (i.e. buffer length)
* @expect_str: String expected to be returned
* @buf: Buffer to use
* @from: Original cmdline to update
* @arg: Argument to update (e.g. "console")
* @val: Value to set (e.g. "ttyS2") or NULL to delete the argument if present,
* "" to set it to an empty value (e.g. "console=") and BOOTFLOWCL_EMPTY to add
* it without any value ("initrd")
*/
static int check_arg(struct unit_test_state *uts, int expect_ret,
const char *expect_str, char *buf, const char *from,
const char *arg, const char *val)
{
/* check for writing outside the reported bounds */
buf[expect_ret] = '[';
ut_asserteq(expect_ret,
cmdline_set_arg(buf, expect_ret, from, arg, val, NULL));
ut_asserteq_str(expect_str, buf);
ut_asserteq('[', buf[expect_ret]);
/* do the test again but with one less byte in the buffer */
ut_asserteq(-E2BIG, cmdline_set_arg(buf, expect_ret - 1, from, arg,
val, NULL));
return 0;
}
/* Test of bootflow_cmdline_set_arg() */
static int test_bootflow_cmdline_set(struct unit_test_state *uts)
{
char buf[50];
const int size = sizeof(buf);
/*
* note that buffer-overflow tests are immediately each test case, just
* top keep the code together
*/
/* add an arg that doesn't already exist, starting from empty */
ut_asserteq(-ENOENT, cmdline_set_arg(buf, size, NULL, "me", NULL,
NULL));
ut_assertok(check_arg(uts, 3, "me", buf, NULL, "me", BOOTFLOWCL_EMPTY));
ut_assertok(check_arg(uts, 4, "me=", buf, NULL, "me", ""));
ut_assertok(check_arg(uts, 8, "me=fred", buf, NULL, "me", "fred"));
/* add an arg that doesn't already exist, starting from non-empty */
ut_assertok(check_arg(uts, 11, "arg=123 me", buf, "arg=123", "me",
BOOTFLOWCL_EMPTY));
ut_assertok(check_arg(uts, 12, "arg=123 me=", buf, "arg=123", "me",
""));
ut_assertok(check_arg(uts, 16, "arg=123 me=fred", buf, "arg=123", "me",
"fred"));
/* update an arg at the start */
ut_assertok(check_arg(uts, 1, "", buf, "arg=123", "arg", NULL));
ut_assertok(check_arg(uts, 4, "arg", buf, "arg=123", "arg",
BOOTFLOWCL_EMPTY));
ut_assertok(check_arg(uts, 5, "arg=", buf, "arg=123", "arg", ""));
ut_assertok(check_arg(uts, 6, "arg=1", buf, "arg=123", "arg", "1"));
ut_assertok(check_arg(uts, 9, "arg=1234", buf, "arg=123", "arg",
"1234"));
/* update an arg at the end */
ut_assertok(check_arg(uts, 5, "mary", buf, "mary arg=123", "arg",
NULL));
ut_assertok(check_arg(uts, 9, "mary arg", buf, "mary arg=123", "arg",
BOOTFLOWCL_EMPTY));
ut_assertok(check_arg(uts, 10, "mary arg=", buf, "mary arg=123", "arg",
""));
ut_assertok(check_arg(uts, 11, "mary arg=1", buf, "mary arg=123", "arg",
"1"));
ut_assertok(check_arg(uts, 14, "mary arg=1234", buf, "mary arg=123",
"arg", "1234"));
/* update an arg in the middle */
ut_assertok(check_arg(uts, 16, "mary=abc john=2", buf,
"mary=abc arg=123 john=2", "arg", NULL));
ut_assertok(check_arg(uts, 20, "mary=abc arg john=2", buf,
"mary=abc arg=123 john=2", "arg",
BOOTFLOWCL_EMPTY));
ut_assertok(check_arg(uts, 21, "mary=abc arg= john=2", buf,
"mary=abc arg=123 john=2", "arg", ""));
ut_assertok(check_arg(uts, 22, "mary=abc arg=1 john=2", buf,
"mary=abc arg=123 john=2", "arg", "1"));
ut_assertok(check_arg(uts, 25, "mary=abc arg=1234 john=2", buf,
"mary=abc arg=123 john=2", "arg", "1234"));
/* handle existing args with quotes */
ut_assertok(check_arg(uts, 16, "mary=\"abc\" john", buf,
"mary=\"abc\" arg=123 john", "arg", NULL));
/* handle existing args with quoted spaces */
ut_assertok(check_arg(uts, 20, "mary=\"abc def\" john", buf,
"mary=\"abc def\" arg=123 john", "arg", NULL));
ut_assertok(check_arg(uts, 34, "mary=\"abc def\" arg=123 john def=4",
buf, "mary=\"abc def\" arg=123 john", "def",
"4"));
/* quote at the start */
ut_asserteq(-EBADF, cmdline_set_arg(buf, size,
"mary=\"abc def\" arg=\"123 456\"",
"arg", "\"4 5 6", NULL));
/* quote at the end */
ut_asserteq(-EBADF, cmdline_set_arg(buf, size,
"mary=\"abc def\" arg=\"123 456\"",
"arg", "4 5 6\"", NULL));
/* quote in the middle */
ut_asserteq(-EBADF, cmdline_set_arg(buf, size,
"mary=\"abc def\" arg=\"123 456\"",
"arg", "\"4 \"5 6\"", NULL));
/* handle updating a quoted arg */
ut_assertok(check_arg(uts, 27, "mary=\"abc def\" arg=\"4 5 6\"", buf,
"mary=\"abc def\" arg=\"123 456\"", "arg",
"4 5 6"));
/* changing a quoted arg to a non-quoted arg */
ut_assertok(check_arg(uts, 23, "mary=\"abc def\" arg=789", buf,
"mary=\"abc def\" arg=\"123 456\"", "arg",
"789"));
/* changing a non-quoted arg to a quoted arg */
ut_assertok(check_arg(uts, 29, "mary=\"abc def\" arg=\"456 789\"", buf,
"mary=\"abc def\" arg=123", "arg", "456 789"));
/* handling of spaces */
ut_assertok(check_arg(uts, 8, "arg=123", buf, " ", "arg", "123"));
ut_assertok(check_arg(uts, 8, "arg=123", buf, " ", "arg", "123"));
ut_assertok(check_arg(uts, 13, "john arg=123", buf, " john ", "arg",
"123"));
ut_assertok(check_arg(uts, 13, "john arg=123", buf, " john arg=123 ",
"arg", "123"));
ut_assertok(check_arg(uts, 18, "john arg=123 mary", buf,
" john arg=123 mary ", "arg", "123"));
/* unchanged arg */
ut_assertok(check_arg(uts, 3, "me", buf, "me", "me", BOOTFLOWCL_EMPTY));
/* arg which starts with the same name */
ut_assertok(check_arg(uts, 28, "mary=abc johnathon=2 john=3", buf,
"mary=abc johnathon=2 john=1", "john", "3"));
return 0;
}
BOOTSTD_TEST(test_bootflow_cmdline_set, 0);
/* Test of bootflow_cmdline_set_arg() */
static int bootflow_set_arg(struct unit_test_state *uts)
{
struct bootflow s_bflow, *bflow = &s_bflow;
ulong mem_start;
ut_assertok(env_set("bootargs", NULL));
mem_start = ut_check_delta(0);
/* Do a simple sanity check. Rely on bootflow_cmdline() for the rest */
bflow->cmdline = NULL;
ut_assertok(bootflow_cmdline_set_arg(bflow, "fred", "123", false));
ut_asserteq_str(bflow->cmdline, "fred=123");
ut_assertok(bootflow_cmdline_set_arg(bflow, "mary", "and here", false));
ut_asserteq_str(bflow->cmdline, "fred=123 mary=\"and here\"");
ut_assertok(bootflow_cmdline_set_arg(bflow, "mary", NULL, false));
ut_asserteq_str(bflow->cmdline, "fred=123");
ut_assertok(bootflow_cmdline_set_arg(bflow, "fred", NULL, false));
ut_asserteq_ptr(bflow->cmdline, NULL);
ut_asserteq(0, ut_check_delta(mem_start));
ut_assertok(bootflow_cmdline_set_arg(bflow, "mary", "here", true));
ut_asserteq_str("mary=here", env_get("bootargs"));
ut_assertok(env_set("bootargs", NULL));
return 0;
}
BOOTSTD_TEST(bootflow_set_arg, 0);
/* Test of bootflow_cmdline_get_arg() */
static int bootflow_cmdline_get(struct unit_test_state *uts)
{
int pos;
/* empty string */
ut_asserteq(-ENOENT, cmdline_get_arg("", "fred", &pos));
/* arg with empty value */
ut_asserteq(0, cmdline_get_arg("fred= mary", "fred", &pos));
ut_asserteq(5, pos);
/* arg with a value */
ut_asserteq(2, cmdline_get_arg("fred=23", "fred", &pos));
ut_asserteq(5, pos);
/* arg with a value */
ut_asserteq(3, cmdline_get_arg("mary=1 fred=234", "fred", &pos));
ut_asserteq(12, pos);
/* arg with a value, after quoted arg */
ut_asserteq(3, cmdline_get_arg("mary=\"1 2\" fred=234", "fred", &pos));
ut_asserteq(16, pos);
/* arg in the middle */
ut_asserteq(0, cmdline_get_arg("mary=\"1 2\" fred john=23", "fred",
&pos));
ut_asserteq(15, pos);
/* quoted arg */
ut_asserteq(3, cmdline_get_arg("mary=\"1 2\" fred=\"3 4\" john=23",
"fred", &pos));
ut_asserteq(17, pos);
/* args starting with the same prefix */
ut_asserteq(1, cmdline_get_arg("mary=abc johnathon=3 john=1", "john",
&pos));
ut_asserteq(26, pos);
return 0;
}
BOOTSTD_TEST(bootflow_cmdline_get, 0);
static int bootflow_cmdline(struct unit_test_state *uts)
{
ut_assertok(run_command("bootflow scan mmc", 0));
ut_assertok(run_command("bootflow sel 0", 0));
console_record_reset_enable();
ut_asserteq(1, run_command("bootflow cmdline get fred", 0));
ut_assert_nextline("Argument not found");
ut_assert_console_end();
ut_asserteq(0, run_command("bootflow cmdline set fred 123", 0));
ut_asserteq(0, run_command("bootflow cmdline get fred", 0));
ut_assert_nextline("123");
ut_asserteq(0, run_command("bootflow cmdline set mary abc", 0));
ut_asserteq(0, run_command("bootflow cmdline get mary", 0));
ut_assert_nextline("abc");
ut_asserteq(0, run_command("bootflow cmdline delete fred", 0));
ut_asserteq(1, run_command("bootflow cmdline get fred", 0));
ut_assert_nextline("Argument not found");
ut_asserteq(0, run_command("bootflow cmdline clear mary", 0));
ut_asserteq(0, run_command("bootflow cmdline get mary", 0));
ut_assert_nextline_empty();
ut_asserteq(0, run_command("bootflow cmdline set mary abc", 0));
ut_asserteq(0, run_command("bootflow cmdline set mary", 0));
ut_assert_nextline_empty();
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cmdline, 0);
/* test a few special changes to a long command line */
static int bootflow_cmdline_special(struct unit_test_state *uts)
{
char buf[500];
int pos;
/*
* check handling of an argument which has an embedded '=', as well as
* handling of a argument which partially matches ("ro" and "root")
*/
ut_asserteq(32, cmdline_set_arg(
buf, sizeof(buf),
"loglevel=7 root=PARTUUID=d68352e3 rootwait ro noinitrd",
"root", NULL, &pos));
ut_asserteq_str("loglevel=7 rootwait ro noinitrd", buf);
return 0;
}
BOOTSTD_TEST(bootflow_cmdline_special, 0);
/* Test ChromiumOS bootmeth */
static int bootflow_cros(struct unit_test_state *uts)
{
ut_assertok(scan_mmc_bootdev(uts, "mmc5", true));
ut_assertok(run_command("bootflow list", 0));
ut_assert_nextlinen("Showing all");
ut_assert_nextlinen("Seq");
ut_assert_nextlinen("---");
ut_assert_nextlinen(" 0 extlinux");
ut_assert_nextlinen(" 1 cros ready mmc 2 mmc5.bootdev.part_2 ");
ut_assert_nextlinen(" 2 cros ready mmc 4 mmc5.bootdev.part_4 ");
ut_assert_nextlinen("---");
ut_assert_skip_to_line("(3 bootflows, 3 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_cros, 0);
/* Test Android bootmeth */
static int bootflow_android(struct unit_test_state *uts)
{
if (!IS_ENABLED(CONFIG_BOOTMETH_ANDROID))
return -EAGAIN;
ut_assertok(scan_mmc_android_bootdev(uts, "mmc7"));
ut_assertok(run_command("bootflow list", 0));
ut_assert_nextlinen("Showing all");
ut_assert_nextlinen("Seq");
ut_assert_nextlinen("---");
ut_assert_nextlinen(" 0 extlinux");
ut_assert_nextlinen(" 1 android ready mmc 0 mmc7.bootdev.whole ");
ut_assert_nextlinen("---");
ut_assert_skip_to_line("(2 bootflows, 2 valid)");
ut_assert_console_end();
return 0;
}
BOOTSTD_TEST(bootflow_android, 0);
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