Currently, MMC test runs on default mmc modes, adding a provision to
support multiple mmc modes through user defined parameters.
Signed-off-by: Love Kumar <love.ku...@amd.com>
---
test/py/tests/test_mmc.py | 608 +++++++++++++++++++++-----------------
1 file changed, 335 insertions(+), 273 deletions(-)
diff --git a/test/py/tests/test_mmc.py b/test/py/tests/test_mmc.py
index 1193f4a95737..462404338844 100644
--- a/test/py/tests/test_mmc.py
+++ b/test/py/tests/test_mmc.py
@@ -18,16 +18,55 @@ For example:
# Setup env__mmc_device_test_skip to not skipping the test. By default, its
# value is set to True. Set it to False to run all tests for MMC device.
env__mmc_device_test_skip = False
+
+# Setup env__mmc_device to set the supported mmc modes to be tested
+env__mmc_device {
+ 'mmc_modes': ['MMC_LEGACY', 'SD_HS'],
+}
+
"""
mmc_set_up = False
controllers = 0
devices = {}
+mmc_modes_name = []
+mmc_modes = []
+
+def setup_mmc_modes(cons):
+ global mmc_modes, mmc_modes_name
+ f = cons.config.env.get('env__mmc_device', None)
+ if f:
+ mmc_modes_name = f.get('mmc_modes', None)
+
+ # Set mmc mode to default mode (legacy), if speed mode config isn't enabled
+ if cons.config.buildconfig.get('config_mmc_speed_mode_set', 'n') != 'y':
+ mmc_modes = [0]
+ return
+
+ if mmc_modes_name:
+ mmc_help = cons.run_command('mmc -help')
+ m = re.search(r"\[MMC_LEGACY(.*\n.+])", mmc_help)
+ modes = [
+ x.strip()
+ for x in m.group()
+ .replace('\n', '')
+ .replace('[', '')
+ .replace(']', '')
+ .split(',')
+ ]
+
+ for mode in mmc_modes_name:
+ mmc_modes += [modes.index(mode)]
+ else:
+ # Set mmc mode to default mode (legacy), if it is not defined in env
+ mmc_modes = [0]
def setup_mmc(u_boot_console):
if u_boot_console.config.env.get('env__mmc_device_test_skip', True):
pytest.skip('MMC device test is not enabled')
+ setup_mmc_modes(u_boot_console)
+
@pytest.mark.buildconfigspec('cmd_mmc')
def test_mmc_list(u_boot_console):
setup_mmc(u_boot_console)
@@ -58,21 +97,22 @@ def test_mmc_dev(u_boot_console):
fail = 0
for x in range(0, controllers):
devices[x]['detected'] = 'yes'
- output = u_boot_console.run_command('mmc dev %d' % x)
- # Some sort of switch here
- if 'Card did not respond to voltage select' in output:
- fail = 1
- devices[x]['detected'] = 'no'
+ for y in mmc_modes:
+ output = u_boot_console.run_command('mmc dev %d 0 %d' % x, y)
- if 'no mmc device at slot' in output:
- devices[x]['detected'] = 'no'
+ if 'Card did not respond to voltage select' in output:
+ fail = 1
+ devices[x]['detected'] = 'no'
- if 'MMC: no card present' in output:
- devices[x]['detected'] = 'no'
+ if 'no mmc device at slot' in output:
+ devices[x]['detected'] = 'no'
- if fail:
- pytest.fail('Card not present')
+ if 'MMC: no card present' in output:
+ devices[x]['detected'] = 'no'
+
+ if fail:
+ pytest.fail('Card not present')
@pytest.mark.buildconfigspec('cmd_mmc')
def test_mmcinfo(u_boot_console):
@@ -81,19 +121,22 @@ def test_mmcinfo(u_boot_console):
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
- output = u_boot_console.run_command('mmcinfo')
- if 'busy timeout' in output:
- pytest.skip('No SD/MMC/eMMC device present')
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d 0 %d' % x, y)
+ output = u_boot_console.run_command('mmcinfo')
+ if 'busy timeout' in output:
+ pytest.skip('No SD/MMC/eMMC device present')
- obj = re.search(r'Capacity: (\d+|\d+[\.]?\d)', output)
- try:
- capacity = float(obj.groups()[0])
- print(capacity)
- devices[x]['capacity'] = capacity
- print('Capacity of dev %d is: %g GiB' % (x, capacity))
- except ValueError:
- pytest.fail('MMC capacity not recognized')
+ assert mmc_modes_name[mmc_modes.index(y)] in output
+
+ obj = re.search(r'Capacity: (\d+|\d+[\.]?\d)', output)
+ try:
+ capacity = float(obj.groups()[0])
+ print(capacity)
+ devices[x]['capacity'] = capacity
+ print('Capacity of dev %d is: %g GiB' % (x, capacity))
+ except ValueError:
+ pytest.fail('MMC capacity not recognized')
@pytest.mark.buildconfigspec('cmd_mmc')
def test_mmc_info(u_boot_console):
@@ -102,19 +145,21 @@ def test_mmc_info(u_boot_console):
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d 0 %d' % x, y)
- output = u_boot_console.run_command('mmc info')
+ output = u_boot_console.run_command('mmc info')
+ assert mmc_modes_name[mmc_modes.index(y)] in output
- obj = re.search(r'Capacity: (\d+|\d+[\.]?\d)', output)
- try:
- capacity = float(obj.groups()[0])
- print(capacity)
- if devices[x]['capacity'] != capacity:
- pytest.fail("MMC capacity doesn't match mmcinfo")
+ obj = re.search(r'Capacity: (\d+|\d+[\.]?\d)', output)
+ try:
+ capacity = float(obj.groups()[0])
+ print(capacity)
+ if devices[x]['capacity'] != capacity:
+ pytest.fail("MMC capacity doesn't match mmcinfo")
- except ValueError:
- pytest.fail('MMC capacity not recognized')
+ except ValueError:
+ pytest.fail('MMC capacity not recognized')
@pytest.mark.buildconfigspec('cmd_mmc')
def test_mmc_rescan(u_boot_console):
@@ -126,12 +171,13 @@ def test_mmc_rescan(u_boot_console):
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
- output = u_boot_console.run_command('mmc rescan')
- if output:
- pytest.fail('mmc rescan has something to check')
- output = u_boot_console.run_command('echo $?')
- assert output.endswith('0')
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d 0 %d' % x, y)
+ output = u_boot_console.run_command('mmc rescan')
+ if output:
+ pytest.fail('mmc rescan has something to check')
+ output = u_boot_console.run_command('echo $?')
+ assert output.endswith('0')
@pytest.mark.buildconfigspec('cmd_mmc')
def test_mmc_part(u_boot_console):
@@ -192,7 +238,6 @@ def test_mmc_fatls_fatinfo(u_boot_console):
fs = 'fat'
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
try:
partitions = devices[x][fs]
except:
@@ -200,20 +245,22 @@ def test_mmc_fatls_fatinfo(u_boot_console):
continue
for part in partitions:
- output = u_boot_console.run_command(
- 'fatls mmc %d:%s' % (x, part))
- if 'Unrecognized filesystem type' in output:
- partitions.remove(part)
- pytest.fail('Unrecognized filesystem')
-
- if not re.search(r'\d file\(s\), \d dir\(s\)', output):
- pytest.fail('%s read failed on device %d' % (fs.upper, x))
- output = u_boot_console.run_command(
- 'fatinfo mmc %d:%s' % (x, part))
- string = 'Filesystem: %s' % fs.upper
- if re.search(string, output):
- pytest.fail('%s FS failed on device %d' % (fs.upper(), x))
- part_detect = 1
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ output = u_boot_console.run_command(
+ 'fatls mmc %d:%s' % (x, part))
+ if 'Unrecognized filesystem type' in output:
+ partitions.remove(part)
+ pytest.fail('Unrecognized filesystem')
+
+ if not re.search(r'\d file\(s\), \d dir\(s\)', output):
+ pytest.fail('%s read failed on device %d' % (fs.upper,
x))
+ output = u_boot_console.run_command(
+ 'fatinfo mmc %d:%s' % (x, part))
+ string = 'Filesystem: %s' % fs.upper
+ if re.search(string, output):
+ pytest.fail('%s FS failed on device %d' % (fs.upper(),
x))
+ part_detect = 1
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
@@ -233,7 +280,6 @@ def test_mmc_fatload_fatwrite(u_boot_console):
fs = 'fat'
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
try:
partitions = devices[x][fs]
except:
@@ -241,49 +287,51 @@ def test_mmc_fatload_fatwrite(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- addr = u_boot_utils.find_ram_base(u_boot_console)
- devices[x]['addr_%d' % part] = addr
- size = random.randint(4, 1 * 1024 * 1024)
- devices[x]['size_%d' % part] = size
- # count CRC32
- output = u_boot_console.run_command('crc32 %x %x' % (addr,
size))
- m = re.search('==> (.+?)', output)
- if not m:
- pytest.fail('CRC32 failed')
- expected_crc32 = m.group(1)
- devices[x]['expected_crc32_%d' % part] = expected_crc32
- # do write
- file = '%s_%d' % ('uboot_test', size)
- devices[x]['file_%d' % part] = file
- output = u_boot_console.run_command(
- '%swrite mmc %d:%s %x %s %x' % (fs, x, part, addr, file,
size)
- )
- assert 'Unable to write' not in output
- assert 'Error' not in output
- assert 'overflow' not in output
- expected_text = '%d bytes written' % size
- assert expected_text in output
-
- alignment = int(
- u_boot_console.config.buildconfig.get(
- 'config_sys_cacheline_size', 128
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ part_detect = 1
+ addr = u_boot_utils.find_ram_base(u_boot_console)
+ devices[x]['addr_%d' % part] = addr
+ size = random.randint(4, 1 * 1024 * 1024)
+ devices[x]['size_%d' % part] = size
+ # count CRC32
+ output = u_boot_console.run_command('crc32 %x %x' % (addr,
size))
+ m = re.search('==> (.+?)', output)
+ if not m:
+ pytest.fail('CRC32 failed')
+ expected_crc32 = m.group(1)
+ devices[x]['expected_crc32_%d' % part] = expected_crc32
+ # do write
+ file = '%s_%d' % ('uboot_test', size)
+ devices[x]['file_%d' % part] = file
+ output = u_boot_console.run_command(
+ '%swrite mmc %d:%s %x %s %x' % (fs, x, part, addr,
file, size)
)
- )
- offset = random.randrange(alignment, 1024, alignment)
- output = u_boot_console.run_command(
- '%sload mmc %d:%s %x %s' % (fs, x, part, addr + offset,
file)
- )
- assert 'Invalid FAT entry' not in output
- assert 'Unable to read file' not in output
- assert 'Misaligned buffer address' not in output
- expected_text = '%d bytes read' % size
- assert expected_text in output
-
- output = u_boot_console.run_command(
- 'crc32 %x $filesize' % (addr + offset)
- )
- assert expected_crc32 in output
+ assert 'Unable to write' not in output
+ assert 'Error' not in output
+ assert 'overflow' not in output
+ expected_text = '%d bytes written' % size
+ assert expected_text in output
+
+ alignment = int(
+ u_boot_console.config.buildconfig.get(
+ 'config_sys_cacheline_size', 128
+ )
+ )
+ offset = random.randrange(alignment, 1024, alignment)
+ output = u_boot_console.run_command(
+ '%sload mmc %d:%s %x %s' % (fs, x, part, addr +
offset, file)
+ )
+ assert 'Invalid FAT entry' not in output
+ assert 'Unable to read file' not in output
+ assert 'Misaligned buffer address' not in output
+ expected_text = '%d bytes read' % size
+ assert expected_text in output
+
+ output = u_boot_console.run_command(
+ 'crc32 %x $filesize' % (addr + offset)
+ )
+ assert expected_crc32 in output
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
@@ -307,13 +355,16 @@ def test_mmc_ext4ls(u_boot_console):
print('No %s table on this device' % fs.upper())
continue
- u_boot_console.run_command('mmc dev %d' % x)
for part in partitions:
- output = u_boot_console.run_command('%sls mmc %d:%s' % (fs, x,
part))
- if 'Unrecognized filesystem type' in output:
- partitions.remove(part)
- pytest.fail('Unrecognized filesystem')
- part_detect = 1
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ output = u_boot_console.run_command(
+ '%sls mmc %d:%s' % (fs, x, part)
+ )
+ if 'Unrecognized filesystem type' in output:
+ partitions.remove(part)
+ pytest.fail('Unrecognized filesystem')
+ part_detect = 1
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
@@ -333,7 +384,6 @@ def test_mmc_ext4load_ext4write(u_boot_console):
fs = 'ext4'
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
try:
partitions = devices[x][fs]
except:
@@ -341,42 +391,44 @@ def test_mmc_ext4load_ext4write(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- addr = u_boot_utils.find_ram_base(u_boot_console)
- devices[x]['addr_%d' % part] = addr
- size = random.randint(4, 1 * 1024 * 1024)
- devices[x]['size_%d' % part] = size
- # count CRC32
- output = u_boot_console.run_command('crc32 %x %x' % (addr,
size))
- m = re.search('==> (.+?)', output)
- if not m:
- pytest.fail('CRC32 failed')
- expected_crc32 = m.group(1)
- devices[x]['expected_crc32_%d' % part] = expected_crc32
- # do write
-
- file = '%s_%d' % ('uboot_test', size)
- devices[x]['file_%d' % part] = file
- output = u_boot_console.run_command(
- '%swrite mmc %d:%s %x /%s %x' % (fs, x, part, addr, file,
size)
- )
- assert 'Unable to write' not in output
- assert 'Error' not in output
- assert 'overflow' not in output
- expected_text = '%d bytes written' % size
- assert expected_text in output
-
- offset = random.randrange(128, 1024, 128)
- output = u_boot_console.run_command(
- '%sload mmc %d:%s %x /%s' % (fs, x, part, addr + offset,
file)
- )
- expected_text = '%d bytes read' % size
- assert expected_text in output
-
- output = u_boot_console.run_command(
- 'crc32 %x $filesize' % (addr + offset)
- )
- assert expected_crc32 in output
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ part_detect = 1
+ addr = u_boot_utils.find_ram_base(u_boot_console)
+ devices[x]['addr_%d' % part] = addr
+ size = random.randint(4, 1 * 1024 * 1024)
+ devices[x]['size_%d' % part] = size
+ # count CRC32
+ output = u_boot_console.run_command('crc32 %x %x' % (addr,
size))
+ m = re.search('==> (.+?)', output)
+ if not m:
+ pytest.fail('CRC32 failed')
+ expected_crc32 = m.group(1)
+ devices[x]['expected_crc32_%d' % part] = expected_crc32
+
+ # do write
+ file = '%s_%d' % ('uboot_test', size)
+ devices[x]['file_%d' % part] = file
+ output = u_boot_console.run_command(
+ '%swrite mmc %d:%s %x /%s %x' % (fs, x, part, addr,
file, size)
+ )
+ assert 'Unable to write' not in output
+ assert 'Error' not in output
+ assert 'overflow' not in output
+ expected_text = '%d bytes written' % size
+ assert expected_text in output
+
+ offset = random.randrange(128, 1024, 128)
+ output = u_boot_console.run_command(
+ '%sload mmc %d:%s %x /%s' % (fs, x, part, addr +
offset, file)
+ )
+ expected_text = '%d bytes read' % size
+ assert expected_text in output
+
+ output = u_boot_console.run_command(
+ 'crc32 %x $filesize' % (addr + offset)
+ )
+ assert expected_crc32 in output
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
@@ -394,7 +446,6 @@ def test_mmc_ext2ls(u_boot_console):
fs = 'ext2'
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
try:
partitions = devices[x][fs]
except:
@@ -402,12 +453,16 @@ def test_mmc_ext2ls(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- output = u_boot_console.run_command('%sls mmc %d:%s' % (fs, x,
part))
- if 'Unrecognized filesystem type' in output:
- partitions.remove(part)
- pytest.fail('Unrecognized filesystem')
- part_detect = 1
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ part_detect = 1
+ output = u_boot_console.run_command(
+ '%sls mmc %d:%s' % (fs, x, part)
+ )
+ if 'Unrecognized filesystem type' in output:
+ partitions.remove(part)
+ pytest.fail('Unrecognized filesystem')
+ part_detect = 1
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
@@ -428,7 +483,6 @@ def test_mmc_ext2load(u_boot_console):
fs = 'ext2'
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
try:
partitions = devices[x][fs]
except:
@@ -436,23 +490,25 @@ def test_mmc_ext2load(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- addr = devices[x]['addr_%d' % part]
- size = devices[x]['size_%d' % part]
- expected_crc32 = devices[x]['expected_crc32_%d' % part]
- file = devices[x]['file_%d' % part]
-
- offset = random.randrange(128, 1024, 128)
- output = u_boot_console.run_command(
- '%sload mmc %d:%s %x /%s' % (fs, x, part, addr + offset,
file)
- )
- expected_text = '%d bytes read' % size
- assert expected_text in output
-
- output = u_boot_console.run_command(
- 'crc32 %x $filesize' % (addr + offset)
- )
- assert expected_crc32 in output
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ part_detect = 1
+ addr = devices[x]['addr_%d' % part]
+ size = devices[x]['size_%d' % part]
+ expected_crc32 = devices[x]['expected_crc32_%d' % part]
+ file = devices[x]['file_%d' % part]
+
+ offset = random.randrange(128, 1024, 128)
+ output = u_boot_console.run_command(
+ '%sload mmc %d:%s %x /%s' % (fs, x, part, addr +
offset, file)
+ )
+ expected_text = '%d bytes read' % size
+ assert expected_text in output
+
+ output = u_boot_console.run_command(
+ 'crc32 %x $filesize' % (addr + offset)
+ )
+ assert expected_crc32 in output
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
@@ -469,7 +525,6 @@ def test_mmc_ls(u_boot_console):
part_detect = 0
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
for fs in ['fat', 'ext4', 'ext2']:
try:
partitions = devices[x][fs]
@@ -478,12 +533,14 @@ def test_mmc_ls(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- output = u_boot_console.run_command('ls mmc %d:%s' % (x,
part))
- if re.search(r'No \w+ table on this device', output):
- pytest.fail(
- '%s: Partition table not found %d' % (fs.upper(),
x)
- )
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x,
part, y)
+ part_detect = 1
+ output = u_boot_console.run_command('ls mmc %d:%s' %
(x, part))
+ if re.search(r'No \w+ table on this device', output):
+ pytest.fail(
+ '%s: Partition table not found %d' %
(fs.upper(), x)
+ )
if not part_detect:
pytest.skip('No partition detected')
@@ -500,7 +557,6 @@ def test_mmc_load(u_boot_console):
part_detect = 0
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
for fs in ['fat', 'ext4', 'ext2']:
try:
partitions = devices[x][fs]
@@ -509,23 +565,25 @@ def test_mmc_load(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- addr = devices[x]['addr_%d' % part]
- size = devices[x]['size_%d' % part]
- expected_crc32 = devices[x]['expected_crc32_%d' % part]
- file = devices[x]['file_%d' % part]
-
- offset = random.randrange(128, 1024, 128)
- output = u_boot_console.run_command(
- 'load mmc %d:%s %x /%s' % (x, part, addr + offset,
file)
- )
- expected_text = '%d bytes read' % size
- assert expected_text in output
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x,
part, y)
+ part_detect = 1
+ addr = devices[x]['addr_%d' % part]
+ size = devices[x]['size_%d' % part]
+ expected_crc32 = devices[x]['expected_crc32_%d' % part]
+ file = devices[x]['file_%d' % part]
+
+ offset = random.randrange(128, 1024, 128)
+ output = u_boot_console.run_command(
+ 'load mmc %d:%s %x /%s' % (x, part, addr + offset,
file)
+ )
+ expected_text = '%d bytes read' % size
+ assert expected_text in output
- output = u_boot_console.run_command(
- 'crc32 %x $filesize' % (addr + offset)
- )
- assert expected_crc32 in output
+ output = u_boot_console.run_command(
+ 'crc32 %x $filesize' % (addr + offset)
+ )
+ assert expected_crc32 in output
if not part_detect:
pytest.skip('No partition detected')
@@ -542,7 +600,6 @@ def test_mmc_save(u_boot_console):
part_detect = 0
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
for fs in ['fat', 'ext4', 'ext2']:
try:
partitions = devices[x][fs]
@@ -551,18 +608,20 @@ def test_mmc_save(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- addr = devices[x]['addr_%d' % part]
- size = 0
- file = devices[x]['file_%d' % part]
-
- offset = random.randrange(128, 1024, 128)
- output = u_boot_console.run_command(
- 'save mmc %d:%s %x /%s %d'
- % (x, part, addr + offset, file, size)
- )
- expected_text = '%d bytes written' % size
- assert expected_text in output
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x,
part, y)
+ part_detect = 1
+ addr = devices[x]['addr_%d' % part]
+ size = 0
+ file = devices[x]['file_%d' % part]
+
+ offset = random.randrange(128, 1024, 128)
+ output = u_boot_console.run_command(
+ 'save mmc %d:%s %x /%s %d'
+ % (x, part, addr + offset, file, size)
+ )
+ expected_text = '%d bytes written' % size
+ assert expected_text in output
if not part_detect:
pytest.skip('No partition detected')
@@ -589,7 +648,6 @@ def test_mmc_fat_read_write_files(u_boot_console):
for x in range(0, controllers):
if devices[x]['detected'] == 'yes':
- u_boot_console.run_command('mmc dev %d' % x)
try:
partitions = devices[x][fs]
except:
@@ -597,82 +655,86 @@ def test_mmc_fat_read_write_files(u_boot_console):
continue
for part in partitions:
- part_detect = 1
- addr = u_boot_utils.find_ram_base(u_boot_console)
- count_f = 0
- addr_l = []
- size_l = []
- file_l = []
- crc32_l = []
- offset_l = []
- addr_l.append(addr)
-
- while count_f < num_files:
- size_l.append(random.randint(4, 1 * 1024 * 1024))
-
- # CRC32 count
- output = u_boot_console.run_command(
- 'crc32 %x %x' % (addr_l[count_f], size_l[count_f])
- )
- m = re.search('==> (.+?)', output)
- if not m:
- pytest.fail('CRC32 failed')
- crc32_l.append(m.group(1))
-
- # Write operation
- file_l.append('%s_%d_%d' % ('uboot_test', count_f,
size_l[count_f]))
- output = u_boot_console.run_command(
- '%swrite mmc %d:%s %x %s %x'
- % (
- fs,
- x,
- part,
- addr_l[count_f],
- file_l[count_f],
- size_l[count_f],
+ for y in mmc_modes:
+ u_boot_console.run_command('mmc dev %d %d %d' % x, part, y)
+ part_detect = 1
+ addr = u_boot_utils.find_ram_base(u_boot_console)
+ count_f = 0
+ addr_l = []
+ size_l = []
+ file_l = []
+ crc32_l = []
+ offset_l = []
+ addr_l.append(addr)
+
+ while count_f < num_files:
+ size_l.append(random.randint(4, 1 * 1024 * 1024))
+
+ # CRC32 count
+ output = u_boot_console.run_command(
+ 'crc32 %x %x' % (addr_l[count_f], size_l[count_f])
)
- )
- assert 'Unable to write' not in output
- assert 'Error' not in output
- assert 'overflow' not in output
- expected_text = '%d bytes written' % size_l[count_f]
- assert expected_text in output
-
- addr_l.append(addr_l[count_f] + size_l[count_f] + 1048576)
- count_f += 1
-
- count_f = 0
- while count_f < num_files:
- alignment = int(
- u_boot_console.config.buildconfig.get(
- 'config_sys_cacheline_size', 128
+ m = re.search('==> (.+?)', output)
+ if not m:
+ pytest.fail('CRC32 failed')
+ crc32_l.append(m.group(1))
+
+ # Write operation
+ file_l.append(
+ '%s_%d_%d' % ('uboot_test', count_f,
size_l[count_f])
)
- )
- offset_l.append(random.randrange(alignment, 1024,
alignment))
+ output = u_boot_console.run_command(
+ '%swrite mmc %d:%s %x %s %x'
+ % (
+ fs,
+ x,
+ part,
+ addr_l[count_f],
+ file_l[count_f],
+ size_l[count_f],
+ )
+ )
+ assert 'Unable to write' not in output
+ assert 'Error' not in output
+ assert 'overflow' not in output
+ expected_text = '%d bytes written' % size_l[count_f]
+ assert expected_text in output
+
+ addr_l.append(addr_l[count_f] + size_l[count_f] +
1048576)
+ count_f += 1
+
+ count_f = 0
+ while count_f < num_files:
+ alignment = int(
+ u_boot_console.config.buildconfig.get(
+ 'config_sys_cacheline_size', 128
+ )
+ )
+ offset_l.append(random.randrange(alignment, 1024,
alignment))
- # Read operation
- output = u_boot_console.run_command(
- '%sload mmc %d:%s %x %s'
- % (
- fs,
- x,
- part,
- addr_l[count_f] + offset_l[count_f],
- file_l[count_f],
+ # Read operation
+ output = u_boot_console.run_command(
+ '%sload mmc %d:%s %x %s'
+ % (
+ fs,
+ x,
+ part,
+ addr_l[count_f] + offset_l[count_f],
+ file_l[count_f],
+ )
)
- )
- assert 'Invalid FAT entry' not in output
- assert 'Unable to read file' not in output
- assert 'Misaligned buffer address' not in output
- expected_text = '%d bytes read' % size_l[count_f]
- assert expected_text in output
+ assert 'Invalid FAT entry' not in output
+ assert 'Unable to read file' not in output
+ assert 'Misaligned buffer address' not in output
+ expected_text = '%d bytes read' % size_l[count_f]
+ assert expected_text in output
- output = u_boot_console.run_command(
- 'crc32 %x $filesize' % (addr_l[count_f] +
offset_l[count_f])
- )
- assert crc32_l[count_f] in output
+ output = u_boot_console.run_command(
+ 'crc32 %x $filesize' % (addr_l[count_f] +
offset_l[count_f])
+ )
+ assert crc32_l[count_f] in output
- count_f += 1
+ count_f += 1
if not part_detect:
pytest.skip('No %s partition detected' % fs.upper())
--
2.25.1
