Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Yuri Nudelman | 2619 | 100.00% | 2 | 100.00% |
Total | 2619 | 2 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright 2021 HabanaLabs, Ltd. * All Rights Reserved. */ #include <linux/vmalloc.h> #include <uapi/misc/habanalabs.h> #include "habanalabs.h" /** * hl_format_as_binary - helper function, format an integer as binary * using supplied scratch buffer * @buf: the buffer to use * @buf_len: buffer capacity * @n: number to format * * Returns pointer to buffer */ char *hl_format_as_binary(char *buf, size_t buf_len, u32 n) { int i; u32 bit; bool leading0 = true; char *wrptr = buf; if (buf_len > 0 && buf_len < 3) { *wrptr = '\0'; return buf; } wrptr[0] = '0'; wrptr[1] = 'b'; wrptr += 2; /* Remove 3 characters from length for '0b' and '\0' termination */ buf_len -= 3; for (i = 0; i < sizeof(n) * BITS_PER_BYTE && buf_len; ++i, n <<= 1) { /* Writing bit calculation in one line would cause a false * positive static code analysis error, so splitting. */ bit = n & (1 << (sizeof(n) * BITS_PER_BYTE - 1)); bit = !!bit; leading0 &= !bit; if (!leading0) { *wrptr = '0' + bit; ++wrptr; } } *wrptr = '\0'; return buf; } /** * resize_to_fit - helper function, resize buffer to fit given amount of data * @buf: destination buffer double pointer * @size: pointer to the size container * @desired_size: size the buffer must contain * * Returns 0 on success or error code on failure. * On success, the size of buffer is at least desired_size. Buffer is allocated * via vmalloc and must be freed with vfree. */ static int resize_to_fit(char **buf, size_t *size, size_t desired_size) { char *resized_buf; size_t new_size; if (*size >= desired_size) return 0; /* Not enough space to print all, have to resize */ new_size = max_t(size_t, PAGE_SIZE, round_up(desired_size, PAGE_SIZE)); resized_buf = vmalloc(new_size); if (!resized_buf) return -ENOMEM; memcpy(resized_buf, *buf, *size); vfree(*buf); *buf = resized_buf; *size = new_size; return 1; } /** * hl_snprintf_resize() - print formatted data to buffer, resize as needed * @buf: buffer double pointer, to be written to and resized, must be either * NULL or allocated with vmalloc. * @size: current size of the buffer * @offset: current offset to write to * @format: format of the data * * This function will write formatted data into the buffer. If buffer is not * large enough, it will be resized using vmalloc. Size may be modified if the * buffer was resized, offset will be advanced by the number of bytes written * not including the terminating character * * Returns 0 on success or error code on failure * * Note that the buffer has to be manually released using vfree. */ int hl_snprintf_resize(char **buf, size_t *size, size_t *offset, const char *format, ...) { va_list args; size_t length; int rc; if (*buf == NULL && (*size != 0 || *offset != 0)) return -EINVAL; va_start(args, format); length = vsnprintf(*buf + *offset, *size - *offset, format, args); va_end(args); rc = resize_to_fit(buf, size, *offset + length + 1); if (rc < 0) return rc; else if (rc > 0) { /* Resize was needed, write again */ va_start(args, format); length = vsnprintf(*buf + *offset, *size - *offset, format, args); va_end(args); } *offset += length; return 0; } /** * hl_sync_engine_to_string - convert engine type enum to string literal * @engine_type: engine type (TPC/MME/DMA) * * Return the resolved string literal */ const char *hl_sync_engine_to_string(enum hl_sync_engine_type engine_type) { switch (engine_type) { case ENGINE_DMA: return "DMA"; case ENGINE_MME: return "MME"; case ENGINE_TPC: return "TPC"; } return "Invalid Engine Type"; } /** * hl_print_resize_sync_engine - helper function, format engine name and ID * using hl_snprintf_resize * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container * @engine_type: engine type (TPC/MME/DMA) * @engine_id: engine numerical id * * Returns 0 on success or error code on failure */ static int hl_print_resize_sync_engine(char **buf, size_t *size, size_t *offset, enum hl_sync_engine_type engine_type, u32 engine_id) { return hl_snprintf_resize(buf, size, offset, "%s%u", hl_sync_engine_to_string(engine_type), engine_id); } /** * hl_state_dump_get_sync_name - transform sync object id to name if available * @hdev: pointer to the device * @sync_id: sync object id * * Returns a name literal or NULL if not resolved. * Note: returning NULL shall not be considered as a failure, as not all * sync objects are named. */ const char *hl_state_dump_get_sync_name(struct hl_device *hdev, u32 sync_id) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; struct hl_hw_obj_name_entry *entry; hash_for_each_possible(sds->so_id_to_str_tb, entry, node, sync_id) if (sync_id == entry->id) return entry->name; return NULL; } /** * hl_state_dump_get_monitor_name - transform monitor object dump to monitor * name if available * @hdev: pointer to the device * @mon: monitor state dump * * Returns a name literal or NULL if not resolved. * Note: returning NULL shall not be considered as a failure, as not all * monitors are named. */ const char *hl_state_dump_get_monitor_name(struct hl_device *hdev, struct hl_mon_state_dump *mon) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; struct hl_hw_obj_name_entry *entry; hash_for_each_possible(sds->monitor_id_to_str_tb, entry, node, mon->id) if (mon->id == entry->id) return entry->name; return NULL; } /** * hl_state_dump_free_sync_to_engine_map - free sync object to engine map * @map: sync object to engine map * * Note: generic free implementation, the allocation is implemented per ASIC. */ void hl_state_dump_free_sync_to_engine_map(struct hl_sync_to_engine_map *map) { struct hl_sync_to_engine_map_entry *entry; struct hlist_node *tmp_node; int i; hash_for_each_safe(map->tb, i, tmp_node, entry, node) { hash_del(&entry->node); kfree(entry); } } /** * hl_state_dump_get_sync_to_engine - transform sync_id to * hl_sync_to_engine_map_entry if available for current id * @map: sync object to engine map * @sync_id: sync object id * * Returns the translation entry if found or NULL if not. * Note, returned NULL shall not be considered as a failure as the map * does not cover all possible, it is a best effort sync ids. */ static struct hl_sync_to_engine_map_entry * hl_state_dump_get_sync_to_engine(struct hl_sync_to_engine_map *map, u32 sync_id) { struct hl_sync_to_engine_map_entry *entry; hash_for_each_possible(map->tb, entry, node, sync_id) if (entry->sync_id == sync_id) return entry; return NULL; } /** * hl_state_dump_read_sync_objects - read sync objects array * @hdev: pointer to the device * @index: sync manager block index starting with E_N * * Returns array of size SP_SYNC_OBJ_AMOUNT on success or NULL on failure */ static u32 *hl_state_dump_read_sync_objects(struct hl_device *hdev, u32 index) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; u32 *sync_objects; s64 base_addr; /* Base addr can be negative */ int i; base_addr = sds->props[SP_SYNC_OBJ_BASE_ADDR] + sds->props[SP_NEXT_SYNC_OBJ_ADDR] * index; sync_objects = vmalloc(sds->props[SP_SYNC_OBJ_AMOUNT] * sizeof(u32)); if (!sync_objects) return NULL; for (i = 0; i < sds->props[SP_SYNC_OBJ_AMOUNT]; ++i) sync_objects[i] = RREG32(base_addr + i * sizeof(u32)); return sync_objects; } /** * hl_state_dump_free_sync_objects - free sync objects array allocated by * hl_state_dump_read_sync_objects * @sync_objects: sync objects array */ static void hl_state_dump_free_sync_objects(u32 *sync_objects) { vfree(sync_objects); } /** * hl_state_dump_print_syncs_single_block - print active sync objects on a * single block * @hdev: pointer to the device * @index: sync manager block index starting with E_N * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container * @map: sync engines names map * * Returns 0 on success or error code on failure */ static int hl_state_dump_print_syncs_single_block(struct hl_device *hdev, u32 index, char **buf, size_t *size, size_t *offset, struct hl_sync_to_engine_map *map) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; const char *sync_name; u32 *sync_objects = NULL; int rc = 0, i; if (sds->sync_namager_names) { rc = hl_snprintf_resize( buf, size, offset, "%s\n", sds->sync_namager_names[index]); if (rc) goto out; } sync_objects = hl_state_dump_read_sync_objects(hdev, index); if (!sync_objects) { rc = -ENOMEM; goto out; } for (i = 0; i < sds->props[SP_SYNC_OBJ_AMOUNT]; ++i) { struct hl_sync_to_engine_map_entry *entry; u64 sync_object_addr; if (!sync_objects[i]) continue; sync_object_addr = sds->props[SP_SYNC_OBJ_BASE_ADDR] + sds->props[SP_NEXT_SYNC_OBJ_ADDR] * index + i * sizeof(u32); rc = hl_snprintf_resize(buf, size, offset, "sync id: %u", i); if (rc) goto free_sync_objects; sync_name = hl_state_dump_get_sync_name(hdev, i); if (sync_name) { rc = hl_snprintf_resize(buf, size, offset, " %s", sync_name); if (rc) goto free_sync_objects; } rc = hl_snprintf_resize(buf, size, offset, ", value: %u", sync_objects[i]); if (rc) goto free_sync_objects; /* Append engine string */ entry = hl_state_dump_get_sync_to_engine(map, (u32)sync_object_addr); if (entry) { rc = hl_snprintf_resize(buf, size, offset, ", Engine: "); if (rc) goto free_sync_objects; rc = hl_print_resize_sync_engine(buf, size, offset, entry->engine_type, entry->engine_id); if (rc) goto free_sync_objects; } rc = hl_snprintf_resize(buf, size, offset, "\n"); if (rc) goto free_sync_objects; } free_sync_objects: hl_state_dump_free_sync_objects(sync_objects); out: return rc; } /** * hl_state_dump_print_syncs - print active sync objects * @hdev: pointer to the device * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container * * Returns 0 on success or error code on failure */ static int hl_state_dump_print_syncs(struct hl_device *hdev, char **buf, size_t *size, size_t *offset) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; struct hl_sync_to_engine_map *map; u32 index; int rc = 0; map = kzalloc(sizeof(*map), GFP_KERNEL); if (!map) return -ENOMEM; rc = sds->funcs.gen_sync_to_engine_map(hdev, map); if (rc) goto free_map_mem; rc = hl_snprintf_resize(buf, size, offset, "Non zero sync objects:\n"); if (rc) goto out; if (sds->sync_namager_names) { for (index = 0; sds->sync_namager_names[index]; ++index) { rc = hl_state_dump_print_syncs_single_block( hdev, index, buf, size, offset, map); if (rc) goto out; } } else { for (index = 0; index < sds->props[SP_NUM_CORES]; ++index) { rc = hl_state_dump_print_syncs_single_block( hdev, index, buf, size, offset, map); if (rc) goto out; } } out: hl_state_dump_free_sync_to_engine_map(map); free_map_mem: kfree(map); return rc; } /** * hl_state_dump_alloc_read_sm_block_monitors - read monitors for a specific * block * @hdev: pointer to the device * @index: sync manager block index starting with E_N * * Returns an array of monitor data of size SP_MONITORS_AMOUNT or NULL * on error */ static struct hl_mon_state_dump * hl_state_dump_alloc_read_sm_block_monitors(struct hl_device *hdev, u32 index) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; struct hl_mon_state_dump *monitors; s64 base_addr; /* Base addr can be negative */ int i; monitors = vmalloc(sds->props[SP_MONITORS_AMOUNT] * sizeof(struct hl_mon_state_dump)); if (!monitors) return NULL; base_addr = sds->props[SP_NEXT_SYNC_OBJ_ADDR] * index; for (i = 0; i < sds->props[SP_MONITORS_AMOUNT]; ++i) { monitors[i].id = i; monitors[i].wr_addr_low = RREG32(base_addr + sds->props[SP_MON_OBJ_WR_ADDR_LOW] + i * sizeof(u32)); monitors[i].wr_addr_high = RREG32(base_addr + sds->props[SP_MON_OBJ_WR_ADDR_HIGH] + i * sizeof(u32)); monitors[i].wr_data = RREG32(base_addr + sds->props[SP_MON_OBJ_WR_DATA] + i * sizeof(u32)); monitors[i].arm_data = RREG32(base_addr + sds->props[SP_MON_OBJ_ARM_DATA] + i * sizeof(u32)); monitors[i].status = RREG32(base_addr + sds->props[SP_MON_OBJ_STATUS] + i * sizeof(u32)); } return monitors; } /** * hl_state_dump_free_monitors - free the monitors structure * @monitors: monitors array created with * hl_state_dump_alloc_read_sm_block_monitors */ static void hl_state_dump_free_monitors(struct hl_mon_state_dump *monitors) { vfree(monitors); } /** * hl_state_dump_print_monitors_single_block - print active monitors on a * single block * @hdev: pointer to the device * @index: sync manager block index starting with E_N * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container * * Returns 0 on success or error code on failure */ static int hl_state_dump_print_monitors_single_block(struct hl_device *hdev, u32 index, char **buf, size_t *size, size_t *offset) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; struct hl_mon_state_dump *monitors = NULL; int rc = 0, i; if (sds->sync_namager_names) { rc = hl_snprintf_resize( buf, size, offset, "%s\n", sds->sync_namager_names[index]); if (rc) goto out; } monitors = hl_state_dump_alloc_read_sm_block_monitors(hdev, index); if (!monitors) { rc = -ENOMEM; goto out; } for (i = 0; i < sds->props[SP_MONITORS_AMOUNT]; ++i) { if (!(sds->funcs.monitor_valid(&monitors[i]))) continue; /* Monitor is valid, dump it */ rc = sds->funcs.print_single_monitor(buf, size, offset, hdev, &monitors[i]); if (rc) goto free_monitors; hl_snprintf_resize(buf, size, offset, "\n"); } free_monitors: hl_state_dump_free_monitors(monitors); out: return rc; } /** * hl_state_dump_print_monitors - print active monitors * @hdev: pointer to the device * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container * * Returns 0 on success or error code on failure */ static int hl_state_dump_print_monitors(struct hl_device *hdev, char **buf, size_t *size, size_t *offset) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; u32 index; int rc = 0; rc = hl_snprintf_resize(buf, size, offset, "Valid (armed) monitor objects:\n"); if (rc) goto out; if (sds->sync_namager_names) { for (index = 0; sds->sync_namager_names[index]; ++index) { rc = hl_state_dump_print_monitors_single_block( hdev, index, buf, size, offset); if (rc) goto out; } } else { for (index = 0; index < sds->props[SP_NUM_CORES]; ++index) { rc = hl_state_dump_print_monitors_single_block( hdev, index, buf, size, offset); if (rc) goto out; } } out: return rc; } /** * hl_state_dump_print_engine_fences - print active fences for a specific * engine * @hdev: pointer to the device * @engine_type: engine type to use * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container */ static int hl_state_dump_print_engine_fences(struct hl_device *hdev, enum hl_sync_engine_type engine_type, char **buf, size_t *size, size_t *offset) { struct hl_state_dump_specs *sds = &hdev->state_dump_specs; int rc = 0, i, n_fences; u64 base_addr, next_fence; switch (engine_type) { case ENGINE_TPC: n_fences = sds->props[SP_NUM_OF_TPC_ENGINES]; base_addr = sds->props[SP_TPC0_CMDQ]; next_fence = sds->props[SP_NEXT_TPC]; break; case ENGINE_MME: n_fences = sds->props[SP_NUM_OF_MME_ENGINES]; base_addr = sds->props[SP_MME_CMDQ]; next_fence = sds->props[SP_NEXT_MME]; break; case ENGINE_DMA: n_fences = sds->props[SP_NUM_OF_DMA_ENGINES]; base_addr = sds->props[SP_DMA_CMDQ]; next_fence = sds->props[SP_DMA_QUEUES_OFFSET]; break; default: return -EINVAL; } for (i = 0; i < n_fences; ++i) { rc = sds->funcs.print_fences_single_engine( hdev, base_addr + next_fence * i + sds->props[SP_FENCE0_CNT_OFFSET], base_addr + next_fence * i + sds->props[SP_CP_STS_OFFSET], engine_type, i, buf, size, offset); if (rc) goto out; } out: return rc; } /** * hl_state_dump_print_fences - print active fences * @hdev: pointer to the device * @buf: destination buffer double pointer to be used with hl_snprintf_resize * @size: pointer to the size container * @offset: pointer to the offset container */ static int hl_state_dump_print_fences(struct hl_device *hdev, char **buf, size_t *size, size_t *offset) { int rc = 0; rc = hl_snprintf_resize(buf, size, offset, "Valid (armed) fences:\n"); if (rc) goto out; rc = hl_state_dump_print_engine_fences(hdev, ENGINE_TPC, buf, size, offset); if (rc) goto out; rc = hl_state_dump_print_engine_fences(hdev, ENGINE_MME, buf, size, offset); if (rc) goto out; rc = hl_state_dump_print_engine_fences(hdev, ENGINE_DMA, buf, size, offset); if (rc) goto out; out: return rc; } /** * hl_state_dump() - dump system state * @hdev: pointer to device structure */ int hl_state_dump(struct hl_device *hdev) { char *buf = NULL; size_t offset = 0, size = 0; int rc; rc = hl_snprintf_resize(&buf, &size, &offset, "Timestamp taken on: %llu\n\n", ktime_to_ns(ktime_get())); if (rc) goto err; rc = hl_state_dump_print_syncs(hdev, &buf, &size, &offset); if (rc) goto err; hl_snprintf_resize(&buf, &size, &offset, "\n"); rc = hl_state_dump_print_monitors(hdev, &buf, &size, &offset); if (rc) goto err; hl_snprintf_resize(&buf, &size, &offset, "\n"); rc = hl_state_dump_print_fences(hdev, &buf, &size, &offset); if (rc) goto err; hl_snprintf_resize(&buf, &size, &offset, "\n"); hl_debugfs_set_state_dump(hdev, buf, size); return 0; err: vfree(buf); return rc; }
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