From: David van Moolenbroek Date: Thu, 1 Aug 2013 16:20:33 +0000 (+0200) Subject: blocktest: add support for no alignment X-Git-Tag: v3.3.0~589 X-Git-Url: http://zhaoyanbai.com/repos/?a=commitdiff_plain;h=b0ea2920e66a05437fb557977b48033a0977a982;p=minix.git blocktest: add support for no alignment Some block drivers do not impose any alignment requirements, and this patch allows such block drivers to pass the test set. As a side effect, minimal support for min_write is added, but this part of blocktest is in need of further improvement. Change-Id: I9ea81433a6fe1177742020e6a584f876043d7e9a --- diff --git a/test/blocktest/blocktest.c b/test/blocktest/blocktest.c index 8f12f25bf..15723310e 100644 --- a/test/blocktest/blocktest.c +++ b/test/blocktest/blocktest.c @@ -33,6 +33,7 @@ static endpoint_t driver_endpt; /* driver endpoint */ static int may_write = FALSE; /* may we write to the device? */ static int sector_size = 512; /* size of a single disk sector */ static int min_read = 512; /* minimum total size of read req */ +static int min_write = 0; /* minimum total size of write req */ static int element_size = 512; /* minimum I/O vector element size */ static int max_size = 131072; /* maximum total size of any req */ /* Note that we do not test exceeding the max_size limit, so it is safe to set @@ -60,6 +61,7 @@ static struct optset optset_table[] = { { "sector", OPT_INT, §or_size, 10 }, { "element", OPT_INT, &element_size, 10 }, { "min_read", OPT_INT, &min_read, 10 }, + { "min_write", OPT_INT, &min_write, 10 }, { "max", OPT_INT, &max_size, 10 }, { NULL, 0, NULL, 0 } }; @@ -723,19 +725,28 @@ static void bad_read2(void) cpf_revoke(grant); /* Test word-unaligned position. */ - memcpy(iov, iovt, sizeof(iovt)); + /* Only perform this test if the minimum read size is not 1, in which + * case it is safe to assume that the driver expects no position + * alignment either. These tests are indeed not exhaustive yet. For now + * we assume that if no alignment is required at all, the driver does + * not implement special logic to achieve this, so we don't need to + * test all possible positions and sizes either (yes, laziness..). + */ + if (min_read > 1) { + memcpy(iov, iovt, sizeof(iovt)); - buf_sum = fill_rand(buf_ptr, buf_size); - buf2_sum = fill_rand(buf2_ptr, buf2_size); - buf3_sum = fill_rand(buf3_ptr, buf3_size); + buf_sum = fill_rand(buf_ptr, buf_size); + buf2_sum = fill_rand(buf2_ptr, buf2_size); + buf3_sum = fill_rand(buf3_ptr, buf3_size); - raw_xfer(driver_minor, 1ULL, iov, 3, FALSE, EINVAL, &res); + raw_xfer(driver_minor, 1ULL, iov, 3, FALSE, EINVAL, &res); - test_sum(buf_ptr, buf_size, buf_sum, TRUE, &res); - test_sum(buf2_ptr, buf2_size, buf2_sum, TRUE, &res); - test_sum(buf3_ptr, buf3_size, buf3_sum, TRUE, &res); + test_sum(buf_ptr, buf_size, buf_sum, TRUE, &res); + test_sum(buf2_ptr, buf2_size, buf2_sum, TRUE, &res); + test_sum(buf3_ptr, buf3_size, buf3_sum, TRUE, &res); - got_result(&res, "word-unaligned position"); + got_result(&res, "word-unaligned position"); + } /* Test normal vector request (final check). */ memcpy(iov, iovt, sizeof(iovt)); @@ -759,16 +770,14 @@ static void bad_read2(void) free_buf_and_grant(buf_ptr, buf_grant, buf_size); } -#define SECTOR_UNALIGN 2ULL /* word-aligned and sector-unaligned */ - static void bad_write(void) { /* Test various illegal write transfer requests, if writing is allowed. * If handled correctly, these requests will not actually write data. - * However, the last test currently erroneously does end up writing. + * This part of the test set is in need of further expansion. */ u8_t *buf_ptr, *buf2_ptr, *buf3_ptr; - size_t buf_size, buf2_size, buf3_size; + size_t buf_size, buf2_size, buf3_size, sector_unalign; cp_grant_id_t buf_grant, buf2_grant, buf3_grant; cp_grant_id_t grant; u32_t buf_sum, buf2_sum, buf3_sum; @@ -793,36 +802,49 @@ static void bad_write(void) iovt[2].iov_grant = buf3_grant; iovt[2].iov_size = buf3_size; - /* Test sector-unaligned write position. */ - memcpy(iov, iovt, sizeof(iovt)); + /* Only perform write alignment tests if writes require alignment. */ + if (min_write == 0) + min_write = sector_size; - buf_sum = fill_rand(buf_ptr, buf_size); - buf2_sum = fill_rand(buf2_ptr, buf2_size); - buf3_sum = fill_rand(buf3_ptr, buf3_size); + if (min_write > 1) { + /* If min_write is larger than 2, use 2 as sector-unaligned + * size, as word-unaligned values (e.g., 1) may be filtered out + * on another code path. + */ + sector_unalign = (min_write > 2) ? 2 : 1; - raw_xfer(driver_minor, SECTOR_UNALIGN, iov, 3, TRUE, EINVAL, &res); + /* Test sector-unaligned write position. */ + memcpy(iov, iovt, sizeof(iovt)); - test_sum(buf_ptr, buf_size, buf_sum, TRUE, &res); - test_sum(buf2_ptr, buf2_size, buf2_sum, TRUE, &res); - test_sum(buf3_ptr, buf3_size, buf3_sum, TRUE, &res); + buf_sum = fill_rand(buf_ptr, buf_size); + buf2_sum = fill_rand(buf2_ptr, buf2_size); + buf3_sum = fill_rand(buf3_ptr, buf3_size); - got_result(&res, "sector-unaligned write position"); + raw_xfer(driver_minor, (u64_t)sector_unalign, iov, 3, TRUE, + EINVAL, &res); - /* Test sector-unaligned write size. */ - memcpy(iov, iovt, sizeof(iovt)); - iov[1].iov_size -= SECTOR_UNALIGN; + test_sum(buf_ptr, buf_size, buf_sum, TRUE, &res); + test_sum(buf2_ptr, buf2_size, buf2_sum, TRUE, &res); + test_sum(buf3_ptr, buf3_size, buf3_sum, TRUE, &res); - buf_sum = fill_rand(buf_ptr, buf_size); - buf2_sum = fill_rand(buf2_ptr, buf2_size); - buf3_sum = fill_rand(buf3_ptr, buf3_size); + got_result(&res, "sector-unaligned write position"); - raw_xfer(driver_minor, 0ULL, iov, 3, TRUE, EINVAL, &res); + /* Test sector-unaligned write size. */ + memcpy(iov, iovt, sizeof(iovt)); + iov[1].iov_size -= sector_unalign; - test_sum(buf_ptr, buf_size, buf_sum, TRUE, &res); - test_sum(buf2_ptr, buf2_size, buf2_sum, TRUE, &res); - test_sum(buf3_ptr, buf3_size, buf3_sum, TRUE, &res); + buf_sum = fill_rand(buf_ptr, buf_size); + buf2_sum = fill_rand(buf2_ptr, buf2_size); + buf3_sum = fill_rand(buf3_ptr, buf3_size); + + raw_xfer(driver_minor, 0ULL, iov, 3, TRUE, EINVAL, &res); - got_result(&res, "sector-unaligned write size"); + test_sum(buf_ptr, buf_size, buf_sum, TRUE, &res); + test_sum(buf2_ptr, buf2_size, buf2_sum, TRUE, &res); + test_sum(buf3_ptr, buf3_size, buf3_sum, TRUE, &res); + + got_result(&res, "sector-unaligned write size"); + } /* Test write-only grant in iovec element. */ memcpy(iov, iovt, sizeof(iovt)); @@ -1933,10 +1955,9 @@ static void unaligned_size(void) static void unaligned_pos1(void) { /* Test sector-unaligned positions and total sizes for requests. This - * is a read-only test as no driver currently supports sector-unaligned - * writes. In this context, the term "lead" means an unwanted first - * part of a sector, and "trail" means an unwanted last part of a - * sector. + * is a read-only test for now. Write support should be added later. + * In the current context, the term "lead" means an unwanted first part + * of a sector, and "trail" means an unwanted last part of a sector. */ u8_t *buf_ptr, *buf2_ptr; size_t buf_size, buf2_size, size; diff --git a/test/blocktest/test.sh b/test/blocktest/test.sh index ad550b146..e03cd78ea 100755 --- a/test/blocktest/test.sh +++ b/test/blocktest/test.sh @@ -22,15 +22,17 @@ # on other partitions and possibly other disks) WILL BE DESTROYED. # Use "ro" for read-only mediums, such as CD-ROMs. # sector Sector size, in bytes. This should be 512 for ATA devices, and -# 2048 for ATAPI devices. -# min_read Minimum size of a read request. This must be at least 2 and at +# 2048 for ATAPI devices. The default is 512. +# min_read Minimum size of a read request. This must be at least 1 and at # most the sector size, and the sector size must be divisible by # it. A value other than the sector size allows blocktest to test -# sub-sector reads. Sub-sector writes are currently not supported -# by any driver and hence not by blocktest, so there is no -# matching "min_write" (yet). +# sub-sector reads. +# min_write Minimum size of a write request. This must be at least 1 and at +# most the sector size. Sub-sector write support is not common in +# drivers, and therefore not yet well tested by blocktest. This +# parameter is optional; if omitted, the sector size is used. # element Minimum size of a vector element within a larger I/O request. -# This must be at least 2 and at most min_read, and min_read must +# This must be at least 1 and at most min_read, and min_read must # be divisible by this value. The idea is that several small # elements may add up to the minimum read size. # max Maximum size of any request. This should be a multiple of the