Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Tom Hromatka | 3396 | 100.00% | 1 | 100.00% |
Total | 3396 | 1 |
// SPDX-License-Identifier: GPL-2.0 /* * selftest for sparc64's privileged ADI driver * * Author: Tom Hromatka <tom.hromatka@oracle.com> */ #include <linux/kernel.h> #include <errno.h> #include <fcntl.h> #include <stdarg.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <sys/syscall.h> #include <sys/types.h> #include <sys/stat.h> #include <unistd.h> #include "../../kselftest.h" #define DEBUG_LEVEL_1_BIT (0x0001) #define DEBUG_LEVEL_2_BIT (0x0002) #define DEBUG_LEVEL_3_BIT (0x0004) #define DEBUG_LEVEL_4_BIT (0x0008) #define DEBUG_TIMING_BIT (0x1000) /* bit mask of enabled bits to print */ #define DEBUG 0x0001 #define DEBUG_PRINT_L1(...) debug_print(DEBUG_LEVEL_1_BIT, __VA_ARGS__) #define DEBUG_PRINT_L2(...) debug_print(DEBUG_LEVEL_2_BIT, __VA_ARGS__) #define DEBUG_PRINT_L3(...) debug_print(DEBUG_LEVEL_3_BIT, __VA_ARGS__) #define DEBUG_PRINT_L4(...) debug_print(DEBUG_LEVEL_4_BIT, __VA_ARGS__) #define DEBUG_PRINT_T(...) debug_print(DEBUG_TIMING_BIT, __VA_ARGS__) static void debug_print(int level, const char *s, ...) { va_list args; va_start(args, s); if (DEBUG & level) vfprintf(stdout, s, args); va_end(args); } #ifndef min #define min(x, y) ((x) < (y) ? x : y) #endif #define RETURN_FROM_TEST(_ret) \ do { \ DEBUG_PRINT_L1( \ "\tTest %s returned %d\n", __func__, _ret); \ return _ret; \ } while (0) #define ADI_BLKSZ 64 #define ADI_MAX_VERSION 15 #define TEST_STEP_FAILURE(_ret) \ do { \ fprintf(stderr, "\tTest step failure: %d at %s:%d\n", \ _ret, __func__, __LINE__); \ goto out; \ } while (0) #define RDTICK(_x) \ asm volatile(" rd %%tick, %0\n" : "=r" (_x)) static int random_version(void) { long tick; RDTICK(tick); return tick % (ADI_MAX_VERSION + 1); } #define MAX_RANGES_SUPPORTED 5 static const char system_ram_str[] = "System RAM\n"; static int range_count; static unsigned long long int start_addr[MAX_RANGES_SUPPORTED]; static unsigned long long int end_addr[MAX_RANGES_SUPPORTED]; struct stats { char name[16]; unsigned long total; unsigned long count; unsigned long bytes; }; static struct stats read_stats = { .name = "read", .total = 0, .count = 0, .bytes = 0}; static struct stats pread_stats = { .name = "pread", .total = 0, .count = 0, .bytes = 0}; static struct stats write_stats = { .name = "write", .total = 0, .count = 0, .bytes = 0}; static struct stats pwrite_stats = { .name = "pwrite", .total = 0, .count = 0, .bytes = 0}; static struct stats seek_stats = { .name = "seek", .total = 0, .count = 0, .bytes = 0}; static void update_stats(struct stats * const ustats, unsigned long measurement, unsigned long bytes) { ustats->total += measurement; ustats->bytes += bytes; ustats->count++; } static void print_ustats(const struct stats * const ustats) { DEBUG_PRINT_L1("%s\t%7d\t%7.0f\t%7.0f\n", ustats->name, ustats->count, (float)ustats->total / (float)ustats->count, (float)ustats->bytes / (float)ustats->count); } static void print_stats(void) { DEBUG_PRINT_L1("\nSyscall\tCall\tAvgTime\tAvgSize\n" "\tCount\t(ticks)\t(bytes)\n" "-------------------------------\n"); print_ustats(&read_stats); print_ustats(&pread_stats); print_ustats(&write_stats); print_ustats(&pwrite_stats); print_ustats(&seek_stats); } static int build_memory_map(void) { char line[256]; FILE *fp; int i; range_count = 0; fp = fopen("/proc/iomem", "r"); if (!fp) { fprintf(stderr, "/proc/iomem: error %d: %s\n", errno, strerror(errno)); return -errno; } while (fgets(line, sizeof(line), fp) != 0) { if (strstr(line, system_ram_str)) { char *dash, *end_ptr; /* Given a line like this: * d0400000-10ffaffff : System RAM * replace the "-" with a space */ dash = strstr(line, "-"); dash[0] = 0x20; start_addr[range_count] = strtoull(line, &end_ptr, 16); end_addr[range_count] = strtoull(end_ptr, NULL, 16); range_count++; } } fclose(fp); DEBUG_PRINT_L1("RAM Ranges\n"); for (i = 0; i < range_count; i++) DEBUG_PRINT_L1("\trange %d: 0x%llx\t- 0x%llx\n", i, start_addr[i], end_addr[i]); if (range_count == 0) { fprintf(stderr, "No valid address ranges found. Error.\n"); return -1; } return 0; } static int read_adi(int fd, unsigned char *buf, int buf_sz) { int ret, bytes_read = 0; long start, end, elapsed_time = 0; do { RDTICK(start); ret = read(fd, buf + bytes_read, buf_sz - bytes_read); RDTICK(end); if (ret < 0) return -errno; elapsed_time += end - start; update_stats(&read_stats, elapsed_time, buf_sz); bytes_read += ret; } while (bytes_read < buf_sz); DEBUG_PRINT_T("\tread elapsed timed = %ld\n", elapsed_time); DEBUG_PRINT_L3("\tRead %d bytes\n", bytes_read); return bytes_read; } static int pread_adi(int fd, unsigned char *buf, int buf_sz, unsigned long offset) { int ret, i, bytes_read = 0; unsigned long cur_offset; long start, end, elapsed_time = 0; cur_offset = offset; do { RDTICK(start); ret = pread(fd, buf + bytes_read, buf_sz - bytes_read, cur_offset); RDTICK(end); if (ret < 0) return -errno; elapsed_time += end - start; update_stats(&pread_stats, elapsed_time, buf_sz); bytes_read += ret; cur_offset += ret; } while (bytes_read < buf_sz); DEBUG_PRINT_T("\tpread elapsed timed = %ld\n", elapsed_time); DEBUG_PRINT_L3("\tRead %d bytes starting at offset 0x%lx\n", bytes_read, offset); for (i = 0; i < bytes_read; i++) DEBUG_PRINT_L4("\t\t0x%lx\t%d\n", offset + i, buf[i]); return bytes_read; } static int write_adi(int fd, const unsigned char * const buf, int buf_sz) { int ret, bytes_written = 0; long start, end, elapsed_time = 0; do { RDTICK(start); ret = write(fd, buf + bytes_written, buf_sz - bytes_written); RDTICK(end); if (ret < 0) return -errno; elapsed_time += (end - start); update_stats(&write_stats, elapsed_time, buf_sz); bytes_written += ret; } while (bytes_written < buf_sz); DEBUG_PRINT_T("\twrite elapsed timed = %ld\n", elapsed_time); DEBUG_PRINT_L3("\tWrote %d of %d bytes\n", bytes_written, buf_sz); return bytes_written; } static int pwrite_adi(int fd, const unsigned char * const buf, int buf_sz, unsigned long offset) { int ret, bytes_written = 0; unsigned long cur_offset; long start, end, elapsed_time = 0; cur_offset = offset; do { RDTICK(start); ret = pwrite(fd, buf + bytes_written, buf_sz - bytes_written, cur_offset); RDTICK(end); if (ret < 0) { fprintf(stderr, "pwrite(): error %d: %s\n", errno, strerror(errno)); return -errno; } elapsed_time += (end - start); update_stats(&pwrite_stats, elapsed_time, buf_sz); bytes_written += ret; cur_offset += ret; } while (bytes_written < buf_sz); DEBUG_PRINT_T("\tpwrite elapsed timed = %ld\n", elapsed_time); DEBUG_PRINT_L3("\tWrote %d of %d bytes starting at address 0x%lx\n", bytes_written, buf_sz, offset); return bytes_written; } static off_t seek_adi(int fd, off_t offset, int whence) { long start, end; off_t ret; RDTICK(start); ret = lseek(fd, offset, whence); RDTICK(end); DEBUG_PRINT_L2("\tlseek ret = 0x%llx\n", ret); if (ret < 0) goto out; DEBUG_PRINT_T("\tlseek elapsed timed = %ld\n", end - start); update_stats(&seek_stats, end - start, 0); out: (void)lseek(fd, 0, SEEK_END); return ret; } static int test0_prpw_aligned_1byte(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = (end_addr[range_count - 1] - 0x1000) & ~(ADI_BLKSZ - 1); unsigned char version[1], expected_version; loff_t offset; int ret; version[0] = random_version(); expected_version = version[0]; offset = paddr / ADI_BLKSZ; ret = pwrite_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); ret = pread_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); if (expected_version != version[0]) { DEBUG_PRINT_L2("\tExpected version %d but read version %d\n", expected_version, version[0]); TEST_STEP_FAILURE(-expected_version); } ret = 0; out: RETURN_FROM_TEST(ret); } #define TEST1_VERSION_SZ 4096 static int test1_prpw_aligned_4096bytes(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = (end_addr[range_count - 1] - 0x6000) & ~(ADI_BLKSZ - 1); unsigned char version[TEST1_VERSION_SZ], expected_version[TEST1_VERSION_SZ]; loff_t offset; int ret, i; for (i = 0; i < TEST1_VERSION_SZ; i++) { version[i] = random_version(); expected_version[i] = version[i]; } offset = paddr / ADI_BLKSZ; ret = pwrite_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); ret = pread_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); for (i = 0; i < TEST1_VERSION_SZ; i++) { if (expected_version[i] != version[i]) { DEBUG_PRINT_L2( "\tExpected version %d but read version %d\n", expected_version, version[0]); TEST_STEP_FAILURE(-expected_version[i]); } } ret = 0; out: RETURN_FROM_TEST(ret); } #define TEST2_VERSION_SZ 10327 static int test2_prpw_aligned_10327bytes(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = (start_addr[0] + 0x6000) & ~(ADI_BLKSZ - 1); unsigned char version[TEST2_VERSION_SZ], expected_version[TEST2_VERSION_SZ]; loff_t offset; int ret, i; for (i = 0; i < TEST2_VERSION_SZ; i++) { version[i] = random_version(); expected_version[i] = version[i]; } offset = paddr / ADI_BLKSZ; ret = pwrite_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); ret = pread_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); for (i = 0; i < TEST2_VERSION_SZ; i++) { if (expected_version[i] != version[i]) { DEBUG_PRINT_L2( "\tExpected version %d but read version %d\n", expected_version, version[0]); TEST_STEP_FAILURE(-expected_version[i]); } } ret = 0; out: RETURN_FROM_TEST(ret); } #define TEST3_VERSION_SZ 12541 static int test3_prpw_unaligned_12541bytes(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = ((start_addr[0] + 0xC000) & ~(ADI_BLKSZ - 1)) + 17; unsigned char version[TEST3_VERSION_SZ], expected_version[TEST3_VERSION_SZ]; loff_t offset; int ret, i; for (i = 0; i < TEST3_VERSION_SZ; i++) { version[i] = random_version(); expected_version[i] = version[i]; } offset = paddr / ADI_BLKSZ; ret = pwrite_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); ret = pread_adi(fd, version, sizeof(version), offset); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); for (i = 0; i < TEST3_VERSION_SZ; i++) { if (expected_version[i] != version[i]) { DEBUG_PRINT_L2( "\tExpected version %d but read version %d\n", expected_version, version[0]); TEST_STEP_FAILURE(-expected_version[i]); } } ret = 0; out: RETURN_FROM_TEST(ret); } static int test4_lseek(int fd) { #define OFFSET_ADD (0x100) #define OFFSET_SUBTRACT (0xFFFFFFF000000000) off_t offset_out, offset_in; int ret; offset_in = 0x123456789abcdef0; offset_out = seek_adi(fd, offset_in, SEEK_SET); if (offset_out != offset_in) { ret = -1; TEST_STEP_FAILURE(ret); } /* seek to the current offset. this should return EINVAL */ offset_out = seek_adi(fd, offset_in, SEEK_SET); if (offset_out < 0 && errno == EINVAL) DEBUG_PRINT_L2( "\tSEEK_SET failed as designed. Not an error\n"); else { ret = -2; TEST_STEP_FAILURE(ret); } offset_out = seek_adi(fd, 0, SEEK_CUR); if (offset_out != offset_in) { ret = -3; TEST_STEP_FAILURE(ret); } offset_out = seek_adi(fd, OFFSET_ADD, SEEK_CUR); if (offset_out != (offset_in + OFFSET_ADD)) { ret = -4; TEST_STEP_FAILURE(ret); } offset_out = seek_adi(fd, OFFSET_SUBTRACT, SEEK_CUR); if (offset_out != (offset_in + OFFSET_ADD + OFFSET_SUBTRACT)) { ret = -5; TEST_STEP_FAILURE(ret); } ret = 0; out: RETURN_FROM_TEST(ret); } static int test5_rw_aligned_1byte(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = (end_addr[range_count - 1] - 0xF000) & ~(ADI_BLKSZ - 1); unsigned char version, expected_version; loff_t offset; off_t oret; int ret; offset = paddr / ADI_BLKSZ; version = expected_version = random_version(); oret = seek_adi(fd, offset, SEEK_SET); if (oret != offset) { ret = -1; TEST_STEP_FAILURE(ret); } ret = write_adi(fd, &version, sizeof(version)); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); oret = seek_adi(fd, offset, SEEK_SET); if (oret != offset) { ret = -1; TEST_STEP_FAILURE(ret); } ret = read_adi(fd, &version, sizeof(version)); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); if (expected_version != version) { DEBUG_PRINT_L2("\tExpected version %d but read version %d\n", expected_version, version); TEST_STEP_FAILURE(-expected_version); } ret = 0; out: RETURN_FROM_TEST(ret); } #define TEST6_VERSION_SZ 9434 static int test6_rw_aligned_9434bytes(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = (end_addr[range_count - 1] - 0x5F000) & ~(ADI_BLKSZ - 1); unsigned char version[TEST6_VERSION_SZ], expected_version[TEST6_VERSION_SZ]; loff_t offset; off_t oret; int ret, i; offset = paddr / ADI_BLKSZ; for (i = 0; i < TEST6_VERSION_SZ; i++) version[i] = expected_version[i] = random_version(); oret = seek_adi(fd, offset, SEEK_SET); if (oret != offset) { ret = -1; TEST_STEP_FAILURE(ret); } ret = write_adi(fd, version, sizeof(version)); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); memset(version, 0, TEST6_VERSION_SZ); oret = seek_adi(fd, offset, SEEK_SET); if (oret != offset) { ret = -1; TEST_STEP_FAILURE(ret); } ret = read_adi(fd, version, sizeof(version)); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); for (i = 0; i < TEST6_VERSION_SZ; i++) { if (expected_version[i] != version[i]) { DEBUG_PRINT_L2( "\tExpected version %d but read version %d\n", expected_version[i], version[i]); TEST_STEP_FAILURE(-expected_version[i]); } } ret = 0; out: RETURN_FROM_TEST(ret); } #define TEST7_VERSION_SZ 14963 static int test7_rw_aligned_14963bytes(int fd) { /* somewhat arbitrarily chosen address */ unsigned long paddr = ((start_addr[range_count - 1] + 0xF000) & ~(ADI_BLKSZ - 1)) + 39; unsigned char version[TEST7_VERSION_SZ], expected_version[TEST7_VERSION_SZ]; loff_t offset; off_t oret; int ret, i; offset = paddr / ADI_BLKSZ; for (i = 0; i < TEST7_VERSION_SZ; i++) { version[i] = random_version(); expected_version[i] = version[i]; } oret = seek_adi(fd, offset, SEEK_SET); if (oret != offset) { ret = -1; TEST_STEP_FAILURE(ret); } ret = write_adi(fd, version, sizeof(version)); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); memset(version, 0, TEST7_VERSION_SZ); oret = seek_adi(fd, offset, SEEK_SET); if (oret != offset) { ret = -1; TEST_STEP_FAILURE(ret); } ret = read_adi(fd, version, sizeof(version)); if (ret != sizeof(version)) TEST_STEP_FAILURE(ret); for (i = 0; i < TEST7_VERSION_SZ; i++) { if (expected_version[i] != version[i]) { DEBUG_PRINT_L2( "\tExpected version %d but read version %d\n", expected_version[i], version[i]); TEST_STEP_FAILURE(-expected_version[i]); } paddr += ADI_BLKSZ; } ret = 0; out: RETURN_FROM_TEST(ret); } static int (*tests[])(int fd) = { test0_prpw_aligned_1byte, test1_prpw_aligned_4096bytes, test2_prpw_aligned_10327bytes, test3_prpw_unaligned_12541bytes, test4_lseek, test5_rw_aligned_1byte, test6_rw_aligned_9434bytes, test7_rw_aligned_14963bytes, }; #define TEST_COUNT ARRAY_SIZE(tests) int main(int argc, char *argv[]) { int fd, ret, test; ret = build_memory_map(); if (ret < 0) return ret; fd = open("/dev/adi", O_RDWR); if (fd < 0) { fprintf(stderr, "open: error %d: %s\n", errno, strerror(errno)); return -errno; } for (test = 0; test < TEST_COUNT; test++) { DEBUG_PRINT_L1("Running test #%d\n", test); ret = (*tests[test])(fd); if (ret != 0) ksft_test_result_fail("Test #%d failed: error %d\n", test, ret); else ksft_test_result_pass("Test #%d passed\n", test); } print_stats(); close(fd); if (ksft_get_fail_cnt() > 0) ksft_exit_fail(); else ksft_exit_pass(); /* it's impossible to get here, but the compiler throws a warning * about control reaching the end of non-void function. bah. */ return 0; }
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