/* * Copyright © 2013 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. * */ #include #include #include #include #include #include #include #include #include #include #include #include "drmtest.h" #include "igt_aux.h" #include "igt_kms.h" #include "igt_debugfs.h" /** * SECTION:igt_debugfs * @short_description: Support code for debugfs features * @title: debugfs * @include: igt.h * * This library provides helpers to access debugfs features. On top of some * basic functions to access debugfs files with e.g. igt_debugfs_open() it also * provides higher-level wrappers for some debugfs features * * # Pipe CRC Support * * This library wraps up the kernel's support for capturing pipe CRCs into a * neat and tidy package. For the detailed usage see all the functions which * work on #igt_pipe_crc_t. This is supported on all platforms and outputs. * * Actually using pipe CRCs to write modeset tests is a bit tricky though, so * there is no way to directly check a CRC: Both the details of the plane * blending, color correction and other hardware and how exactly the CRC is * computed at each tap point vary by hardware generation and are not disclosed. * * The only way to use #igt_crc_t CRCs therefore is to compare CRCs among each * another either for equality or difference. Otherwise CRCs must be treated as * completely opaque values. Note that not even CRCs from different pipes or tap * points on the same platform can be compared. Hence only use * igt_assert_crc_equal() to inspect CRC values captured by the same * #igt_pipe_crc_t object. * * # Other debugfs interface wrappers * * This covers the miscellaneous debugfs interface wrappers: * * - drm/i915 supports interfaces to evict certain classes of gem buffer * objects, see igt_drop_caches_set(). * * - drm/i915 supports an interface to disable prefaulting, useful to test * slow paths in ioctls. See igt_disable_prefault(). */ /* * General debugfs helpers */ typedef struct { char root[128]; char dri_path[128]; } igt_debugfs_t; static bool __igt_debugfs_init(igt_debugfs_t *debugfs) { const char *path = "/sys/kernel/debug"; struct stat st; int n; if (stat("/debug/dri", &st) == 0) { path = "/debug/dri"; goto find_minor; } if (stat("/sys/kernel/debug/dri", &st) == 0) goto find_minor; igt_assert(stat("/sys/kernel/debug", &st) == 0); mount("debug", "/sys/kernel/debug", "debugfs", 0, 0); find_minor: strcpy(debugfs->root, path); for (n = 0; n < 16; n++) { int len = sprintf(debugfs->dri_path, "%s/dri/%d", path, n); sprintf(debugfs->dri_path + len, "/i915_error_state"); if (stat(debugfs->dri_path, &st) == 0) { debugfs->dri_path[len] = '\0'; return true; } } debugfs->dri_path[0] = '\0'; return false; } static igt_debugfs_t *__igt_debugfs_singleton(void) { static igt_debugfs_t singleton; static bool init_done = false; if (init_done) return &singleton; if (__igt_debugfs_init(&singleton)) { init_done = true; return &singleton; } else { return NULL; } } /** * igt_debugfs_open: * @filename: name of the debugfs node to open * @mode: mode bits as used by open() * * This opens a debugfs file as a Unix file descriptor. The filename should be * relative to the drm device's root, i.e. without "drm/". * * Returns: * The Unix file descriptor for the debugfs file or -1 if that didn't work out. */ int igt_debugfs_open(const char *filename, int mode) { char buf[1024]; igt_debugfs_t *debugfs = __igt_debugfs_singleton(); if (!debugfs) return -1; sprintf(buf, "%s/%s", debugfs->dri_path, filename); return open(buf, mode); } /** * igt_debugfs_fopen: * @filename: name of the debugfs node to open * @mode: mode string as used by fopen() * * This opens a debugfs file as a libc FILE. The filename should be * relative to the drm device's root, i.e. without "drm/". * * Returns: * The libc FILE pointer for the debugfs file or NULL if that didn't work out. */ FILE *igt_debugfs_fopen(const char *filename, const char *mode) { char buf[1024]; igt_debugfs_t *debugfs = __igt_debugfs_singleton(); if (!debugfs) return NULL; sprintf(buf, "%s/%s", debugfs->dri_path, filename); return fopen(buf, mode); } /** * __igt_debugfs_read: * @filename: file name * @buf: buffer where the contents will be stored, allocated by the caller * @buf_size: size of the buffer * * This function opens the debugfs file, reads it, stores the content in the * provided buffer, then closes the file. Users should make sure that the buffer * provided is big enough to fit the whole file, plus one byte. */ void __igt_debugfs_read(const char *filename, char *buf, int buf_size) { FILE *file; size_t n_read; file = igt_debugfs_fopen(filename, "r"); igt_assert(file); n_read = fread(buf, 1, buf_size - 1, file); igt_assert(n_read > 0); igt_assert(feof(file)); buf[n_read] = '\0'; igt_assert(fclose(file) == 0); } /** * igt_debugfs_search: * @filename: file name * @substring: string to search for in @filename * * Searches each line in @filename for the substring specified in @substring. * * Returns: True if the @substring is found to occur in @filename */ bool igt_debugfs_search(const char *filename, const char *substring) { FILE *file; size_t n = 0; char *line = NULL; bool matched = false; file = igt_debugfs_fopen(filename, "r"); igt_assert(file); while (getline(&line, &n, file) >= 0) { matched = (strstr(line, substring) != NULL); if (matched) break; } free(line); fclose(file); return matched; } /* * Pipe CRC */ /** * igt_assert_crc_equal: * @a: first pipe CRC value * @b: second pipe CRC value * * Compares two CRC values and fails the testcase if they don't match with * igt_fail(). Note that due to CRC collisions CRC based testcase can only * assert that CRCs match, never that they are different. Otherwise there might * be random testcase failures when different screen contents end up with the * same CRC by chance. */ void igt_assert_crc_equal(igt_crc_t *a, igt_crc_t *b) { int i; for (i = 0; i < a->n_words; i++) igt_assert_eq_u32(a->crc[i], b->crc[i]); } /** * igt_crc_to_string: * @crc: pipe CRC value to print * * This formats @crc into a string buffer which is owned by igt_crc_to_string(). * The next call will override the buffer again, which makes this multithreading * unsafe. * * This should only ever be used for diagnostic debug output. */ char *igt_crc_to_string(igt_crc_t *crc) { char buf[128]; igt_assert_eq(crc->n_words, 5); sprintf(buf, "%08x %08x %08x %08x %08x", crc->crc[0], crc->crc[1], crc->crc[2], crc->crc[3], crc->crc[4]); return strdup(buf); } /* (6 fields, 8 chars each, space separated (5) + '\n') */ #define PIPE_CRC_LINE_LEN (6 * 8 + 5 + 1) /* account for \'0' */ #define PIPE_CRC_BUFFER_LEN (PIPE_CRC_LINE_LEN + 1) struct _igt_pipe_crc { int ctl_fd; int crc_fd; int line_len; int buffer_len; int flags; enum pipe pipe; enum intel_pipe_crc_source source; }; static const char *pipe_crc_sources[] = { "none", "plane1", "plane2", "pf", "pipe", "TV", "DP-B", "DP-C", "DP-D", "auto" }; static const char *pipe_crc_source_name(enum intel_pipe_crc_source source) { return pipe_crc_sources[source]; } static bool igt_pipe_crc_do_start(igt_pipe_crc_t *pipe_crc) { char buf[64]; /* Stop first just to make sure we don't have lingering state left. */ igt_pipe_crc_stop(pipe_crc); sprintf(buf, "pipe %s %s", kmstest_pipe_name(pipe_crc->pipe), pipe_crc_source_name(pipe_crc->source)); errno = 0; igt_assert_eq(write(pipe_crc->ctl_fd, buf, strlen(buf)), strlen(buf)); if (errno != 0) return false; return true; } static void igt_pipe_crc_pipe_off(int fd, enum pipe pipe) { char buf[32]; sprintf(buf, "pipe %s none", kmstest_pipe_name(pipe)); igt_assert_eq(write(fd, buf, strlen(buf)), strlen(buf)); } static void igt_pipe_crc_reset(void) { int fd; fd = igt_debugfs_open("i915_display_crc_ctl", O_WRONLY); igt_pipe_crc_pipe_off(fd, PIPE_A); igt_pipe_crc_pipe_off(fd, PIPE_B); igt_pipe_crc_pipe_off(fd, PIPE_C); close(fd); } static void pipe_crc_exit_handler(int sig) { igt_pipe_crc_reset(); } /** * igt_require_pipe_crc: * * Convenience helper to check whether pipe CRC capturing is supported by the * kernel. Uses igt_skip to automatically skip the test/subtest if this isn't * the case. */ void igt_require_pipe_crc(void) { const char *cmd = "pipe A none"; FILE *ctl; size_t written; int ret; ctl = igt_debugfs_fopen("i915_display_crc_ctl", "r+"); igt_require_f(ctl, "No display_crc_ctl found, kernel too old\n"); written = fwrite(cmd, 1, strlen(cmd), ctl); ret = fflush(ctl); igt_require_f((written == strlen(cmd) && ret == 0) || errno != ENODEV, "CRCs not supported on this platform\n"); fclose(ctl); } static igt_pipe_crc_t * pipe_crc_new(enum pipe pipe, enum intel_pipe_crc_source source, int flags) { igt_pipe_crc_t *pipe_crc; char buf[128]; igt_install_exit_handler(pipe_crc_exit_handler); pipe_crc = calloc(1, sizeof(struct _igt_pipe_crc)); pipe_crc->ctl_fd = igt_debugfs_open("i915_display_crc_ctl", O_WRONLY); igt_assert(pipe_crc->ctl_fd != -1); sprintf(buf, "i915_pipe_%s_crc", kmstest_pipe_name(pipe)); pipe_crc->crc_fd = igt_debugfs_open(buf, flags); igt_assert(pipe_crc->crc_fd != -1); pipe_crc->line_len = PIPE_CRC_LINE_LEN; pipe_crc->buffer_len = PIPE_CRC_BUFFER_LEN; pipe_crc->pipe = pipe; pipe_crc->source = source; pipe_crc->flags = flags; return pipe_crc; } /** * igt_pipe_crc_new: * @pipe: display pipe to use as source * @source: CRC tap point to use as source * * This sets up a new pipe CRC capture object for the given @pipe and @source * in blocking mode. * * Returns: A pipe CRC object for the given @pipe and @source. The library * assumes that the source is always available since recent kernels support at * least INTEL_PIPE_CRC_SOURCE_AUTO everywhere. */ igt_pipe_crc_t * igt_pipe_crc_new(enum pipe pipe, enum intel_pipe_crc_source source) { return pipe_crc_new(pipe, source, O_RDONLY); } /** * igt_pipe_crc_new_nonblock: * @pipe: display pipe to use as source * @source: CRC tap point to use as source * * This sets up a new pipe CRC capture object for the given @pipe and @source * in nonblocking mode. * * Returns: A pipe CRC object for the given @pipe and @source. The library * assumes that the source is always available since recent kernels support at * least INTEL_PIPE_CRC_SOURCE_AUTO everywhere. */ igt_pipe_crc_t * igt_pipe_crc_new_nonblock(enum pipe pipe, enum intel_pipe_crc_source source) { return pipe_crc_new(pipe, source, O_RDONLY | O_NONBLOCK); } /** * igt_pipe_crc_free: * @pipe_crc: pipe CRC object * * Frees all resources associated with @pipe_crc. */ void igt_pipe_crc_free(igt_pipe_crc_t *pipe_crc) { if (!pipe_crc) return; close(pipe_crc->ctl_fd); close(pipe_crc->crc_fd); free(pipe_crc); } static bool pipe_crc_init_from_string(igt_crc_t *crc, const char *line) { int n; crc->n_words = 5; n = sscanf(line, "%8u %8x %8x %8x %8x %8x", &crc->frame, &crc->crc[0], &crc->crc[1], &crc->crc[2], &crc->crc[3], &crc->crc[4]); return n == 6; } static int read_crc(igt_pipe_crc_t *pipe_crc, igt_crc_t *out) { ssize_t bytes_read; char buf[pipe_crc->buffer_len]; igt_set_timeout(5, "CRC reading"); bytes_read = read(pipe_crc->crc_fd, &buf, pipe_crc->line_len); igt_reset_timeout(); if (bytes_read < 0 && errno == EAGAIN) { igt_assert(pipe_crc->flags & O_NONBLOCK); bytes_read = 0; } else { igt_assert_eq(bytes_read, pipe_crc->line_len); } buf[bytes_read] = '\0'; if (bytes_read && !pipe_crc_init_from_string(out, buf)) return -EINVAL; return bytes_read; } static void read_one_crc(igt_pipe_crc_t *pipe_crc, igt_crc_t *out) { while (read_crc(pipe_crc, out) == 0) usleep(1000); } /** * igt_pipe_crc_start: * @pipe_crc: pipe CRC object * * Starts the CRC capture process on @pipe_crc. */ void igt_pipe_crc_start(igt_pipe_crc_t *pipe_crc) { igt_crc_t crc; igt_assert(igt_pipe_crc_do_start(pipe_crc)); /* * For some no yet identified reason, the first CRC is bonkers. So * let's just wait for the next vblank and read out the buggy result. * * On CHV sometimes the second CRC is bonkers as well, so don't trust * that one either. */ read_one_crc(pipe_crc, &crc); read_one_crc(pipe_crc, &crc); } /** * igt_pipe_crc_stop: * @pipe_crc: pipe CRC object * * Stops the CRC capture process on @pipe_crc. */ void igt_pipe_crc_stop(igt_pipe_crc_t *pipe_crc) { char buf[32]; sprintf(buf, "pipe %s none", kmstest_pipe_name(pipe_crc->pipe)); igt_assert_eq(write(pipe_crc->ctl_fd, buf, strlen(buf)), strlen(buf)); } /** * igt_pipe_crc_get_crcs: * @pipe_crc: pipe CRC object * @n_crcs: number of CRCs to capture * @out_crcs: buffer pointer for the captured CRC values * * Read @n_crcs from @pipe_crc. This function blocks until @n_crcs are * retrieved. @out_crcs is alloced by this function and must be released with * free() by the caller. * * Callers must start and stop the capturing themselves by calling * igt_pipe_crc_start() and igt_pipe_crc_stop(). * * Returns: The number of CRCs captured. Should be equal to @n_crcs in blocking * mode, but can be less (even zero) in non-blocking mode. */ int igt_pipe_crc_get_crcs(igt_pipe_crc_t *pipe_crc, int n_crcs, igt_crc_t **out_crcs) { igt_crc_t *crcs; int n = 0; crcs = calloc(n_crcs, sizeof(igt_crc_t)); do { igt_crc_t *crc = &crcs[n]; int ret; ret = read_crc(pipe_crc, crc); if (ret < 0) continue; if (ret == 0) break; n++; } while (n < n_crcs); *out_crcs = crcs; return n; } static void crc_sanity_checks(igt_crc_t *crc) { int i; bool all_zero = true; for (i = 0; i < crc->n_words; i++) { igt_warn_on_f(crc->crc[i] == 0xffffffff, "Suspicious CRC: it looks like the CRC " "read back was from a register in a powered " "down well\n"); if (crc->crc[i]) all_zero = false; } igt_warn_on_f(all_zero, "Suspicious CRC: All values are 0.\n"); } /** * igt_pipe_crc_collect_crc: * @pipe_crc: pipe CRC object * @out_crc: buffer for the captured CRC values * * Read a single CRC from @pipe_crc. This function blocks until the CRC is * retrieved. @out_crc must be allocated by the caller. * * This function takes care of the pipe_crc book-keeping, it will start/stop * the collection of the CRC. * * This function also calls the interactive debug with the "crc" domain, so you * can make use of this feature to actually see the screen that is being CRC'd. */ void igt_pipe_crc_collect_crc(igt_pipe_crc_t *pipe_crc, igt_crc_t *out_crc) { igt_debug_wait_for_keypress("crc"); igt_pipe_crc_start(pipe_crc); read_one_crc(pipe_crc, out_crc); igt_pipe_crc_stop(pipe_crc); crc_sanity_checks(out_crc); } /* * Drop caches */ /** * igt_drop_caches_set: * @val: bitmask for DROP_* values * * This calls the debugfs interface the drm/i915 GEM driver exposes to drop or * evict certain classes of gem buffer objects. */ void igt_drop_caches_set(uint64_t val) { int fd; char data[19]; size_t nbytes; sprintf(data, "0x%" PRIx64, val); fd = igt_debugfs_open("i915_gem_drop_caches", O_WRONLY); igt_assert(fd >= 0); do { nbytes = write(fd, data, strlen(data) + 1); } while (nbytes == -1 && (errno == EINTR || errno == EAGAIN)); igt_assert(nbytes == strlen(data) + 1); close(fd); } /* * Prefault control */ #define PREFAULT_DEBUGFS "/sys/module/i915/parameters/prefault_disable" static void igt_prefault_control(bool enable) { const char *name = PREFAULT_DEBUGFS; int fd; char buf[2] = {'Y', 'N'}; int index; fd = open(name, O_RDWR); igt_require(fd >= 0); if (enable) index = 1; else index = 0; igt_require(write(fd, &buf[index], 1) == 1); close(fd); } static void enable_prefault_at_exit(int sig) { igt_enable_prefault(); } /** * igt_disable_prefault: * * Disable prefaulting in certain gem ioctls through the debugfs interface. As * usual this installs an exit handler to clean up and re-enable prefaulting * even when the test exited abnormally. * * igt_enable_prefault() will enable normale operation again. */ void igt_disable_prefault(void) { igt_prefault_control(false); igt_install_exit_handler(enable_prefault_at_exit); } /** * igt_enable_prefault: * * Enable prefault (again) through the debugfs interface. */ void igt_enable_prefault(void) { igt_prefault_control(true); } static int get_object_count(void) { FILE *file; int ret, scanned; igt_drop_caches_set(DROP_RETIRE | DROP_ACTIVE); file = igt_debugfs_fopen("i915_gem_objects", "r"); scanned = fscanf(file, "%i objects", &ret); igt_assert_eq(scanned, 1); return ret; } /** * igt_get_stable_obj_count: * @driver: fd to drm/i915 GEM driver * * This puts the driver into a stable (quiescent) state and then returns the * current number of gem buffer objects as reported in the i915_gem_objects * debugFS interface. */ int igt_get_stable_obj_count(int driver) { int obj_count; gem_quiescent_gpu(driver); obj_count = get_object_count(); /* The test relies on the system being in the same state before and * after the test so any difference in the object count is a result of * leaks during the test. gem_quiescent_gpu() mostly achieves this but * on android occasionally obj_count can still change briefly. * The loop ensures obj_count has remained stable over several checks */ #ifdef ANDROID { int loop_count = 0; int prev_obj_count = obj_count; while (loop_count < 4) { usleep(200000); gem_quiescent_gpu(driver); obj_count = get_object_count(); if (obj_count == prev_obj_count) { loop_count++; } else { igt_debug("loop_count=%d, obj_count=%d, prev_obj_count=%d\n", loop_count, obj_count, prev_obj_count); loop_count = 0; prev_obj_count = obj_count; } } } #endif return obj_count; }