// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (c) 2014 Google, Inc. */ #define IOTRACE_IMPL #include <common.h> #include <mapmem.h> #include <asm/io.h> DECLARE_GLOBAL_DATA_PTR; /** * struct iotrace - current trace status and checksum * * @start: Start address of iotrace buffer * @size: Actual size of iotrace buffer in bytes * @needed_size: Needed of iotrace buffer in bytes * @offset: Current write offset into iotrace buffer * @region_start: Address of IO region to trace * @region_size: Size of region to trace. if 0 will trace all address space * @crc32: Current value of CRC chceksum of trace records * @enabled: true if enabled, false if disabled */ static struct iotrace { ulong start; ulong size; ulong needed_size; ulong offset; ulong region_start; ulong region_size; u32 crc32; bool enabled; } iotrace; static void add_record(int flags, const void *ptr, ulong value) { struct iotrace_record srec, *rec = &srec; /* * We don't support iotrace before relocation. Since the trace buffer * is set up by a command, it can't be enabled at present. To change * this we would need to set the iotrace buffer at build-time. See * lib/trace.c for how this might be done if you are interested. */ if (!(gd->flags & GD_FLG_RELOC) || !iotrace.enabled) return; if (iotrace.region_size) if ((ulong)ptr < iotrace.region_start || (ulong)ptr > iotrace.region_start + iotrace.region_size) return; /* Store it if there is room */ if (iotrace.offset + sizeof(*rec) < iotrace.size) { rec = (struct iotrace_record *)map_sysmem( iotrace.start + iotrace.offset, sizeof(value)); } else { WARN_ONCE(1, "WARNING: iotrace buffer exhausted, please check needed length using \"iotrace stats\"\n"); iotrace.needed_size += sizeof(struct iotrace_record); return; } rec->timestamp = timer_get_us(); rec->flags = flags; rec->addr = map_to_sysmem(ptr); rec->value = value; /* Update our checksum */ iotrace.crc32 = crc32(iotrace.crc32, (unsigned char *)rec, sizeof(*rec)); iotrace.needed_size += sizeof(struct iotrace_record); iotrace.offset += sizeof(struct iotrace_record); } u32 iotrace_readl(const void *ptr) { u32 v; v = readl(ptr); add_record(IOT_32 | IOT_READ, ptr, v); return v; } void iotrace_writel(ulong value, const void *ptr) { add_record(IOT_32 | IOT_WRITE, ptr, value); writel(value, ptr); } u16 iotrace_readw(const void *ptr) { u32 v; v = readw(ptr); add_record(IOT_16 | IOT_READ, ptr, v); return v; } void iotrace_writew(ulong value, const void *ptr) { add_record(IOT_16 | IOT_WRITE, ptr, value); writew(value, ptr); } u8 iotrace_readb(const void *ptr) { u32 v; v = readb(ptr); add_record(IOT_8 | IOT_READ, ptr, v); return v; } void iotrace_writeb(ulong value, const void *ptr) { add_record(IOT_8 | IOT_WRITE, ptr, value); writeb(value, ptr); } void iotrace_reset_checksum(void) { iotrace.crc32 = 0; } u32 iotrace_get_checksum(void) { return iotrace.crc32; } void iotrace_set_region(ulong start, ulong size) { iotrace.region_start = start; iotrace.region_size = size; } void iotrace_reset_region(void) { iotrace.region_start = 0; iotrace.region_size = 0; } void iotrace_get_region(ulong *start, ulong *size) { *start = iotrace.region_start; *size = iotrace.region_size; } void iotrace_set_enabled(int enable) { iotrace.enabled = enable; } int iotrace_get_enabled(void) { return iotrace.enabled; } void iotrace_set_buffer(ulong start, ulong size) { iotrace.start = start; iotrace.size = size; iotrace.offset = 0; iotrace.crc32 = 0; } void iotrace_get_buffer(ulong *start, ulong *size, ulong *needed_size, ulong *offset, ulong *count) { *start = iotrace.start; *size = iotrace.size; *needed_size = iotrace.needed_size; *offset = iotrace.offset; *count = iotrace.offset / sizeof(struct iotrace_record); }