// SPDX-License-Identifier: Apache-2.0 // Copyright (C) 2018 IBM Corp. #include "config.h" #include #include #include #include #include "backend.h" #include "common.h" #include "lpc.h" #include "mboxd.h" #include "protocol.h" #include "windows.h" #define BLOCK_SIZE_SHIFT_V1 12 /* 4K */ static inline uint8_t protocol_get_bmc_event_mask(struct mbox_context *context) { if (context->version == API_VERSION_1) { return BMC_EVENT_V1_MASK; } return BMC_EVENT_V2_MASK; } /* * protocol_events_put() - Push the full set/cleared state of BMC events on the * provided transport * @context: The mbox context pointer * @ops: The operations struct for the transport of interest * * Return: 0 on success otherwise negative error code */ int protocol_events_put(struct mbox_context *context, const struct transport_ops *ops) { const uint8_t mask = protocol_get_bmc_event_mask(context); return ops->put_events(context, mask); } /* * protocol_events_set() - Update the set BMC events on the active transport * @context: The mbox context pointer * @bmc_event: The bits to set * * Return: 0 on success otherwise negative error code */ int protocol_events_set(struct mbox_context *context, uint8_t bmc_event) { const uint8_t mask = protocol_get_bmc_event_mask(context); /* * Store the raw value, as we may up- or down- grade the protocol * version and subsequently need to flush the appropriate set. Instead * we pass the masked value through to the transport */ context->bmc_events |= bmc_event; return context->transport->set_events(context, bmc_event, mask); } /* * protocol_events_clear() - Update the cleared BMC events on the active * transport * @context: The mbox context pointer * @bmc_event: The bits to clear * * Return: 0 on success otherwise negative error code */ int protocol_events_clear(struct mbox_context *context, uint8_t bmc_event) { const uint8_t mask = protocol_get_bmc_event_mask(context); context->bmc_events &= ~bmc_event; return context->transport->clear_events(context, bmc_event, mask); } static int protocol_negotiate_version(struct mbox_context *context, uint8_t requested); static int protocol_v1_reset(struct mbox_context *context) { return __protocol_reset(context); } static int protocol_negotiate_version(struct mbox_context *context, uint8_t requested); static int protocol_v1_get_info(struct mbox_context *context, struct protocol_get_info *io) { uint8_t old_version = context->version; int rc; /* Bootstrap protocol version. This may involve {up,down}grading */ rc = protocol_negotiate_version(context, io->req.api_version); if (rc < 0) return rc; /* Do the {up,down}grade if necessary*/ if (rc != old_version) { /* Doing version negotiation, don't alert host to reset */ windows_reset_all(context); return context->protocol->get_info(context, io); } /* Record the negotiated version for the response */ io->resp.api_version = rc; /* Now do all required intialisation for v1 */ context->backend.block_size_shift = BLOCK_SIZE_SHIFT_V1; MSG_INFO("Block Size: 0x%.8x (shift: %u)\n", 1 << context->backend.block_size_shift, context->backend.block_size_shift); /* Knowing blocksize we can allocate the window dirty_bytemap */ windows_alloc_dirty_bytemap(context); io->resp.v1.read_window_size = context->windows.default_size >> context->backend.block_size_shift; io->resp.v1.write_window_size = context->windows.default_size >> context->backend.block_size_shift; return lpc_map_memory(context); } static int protocol_v1_get_flash_info(struct mbox_context *context, struct protocol_get_flash_info *io) { io->resp.v1.flash_size = context->backend.flash_size; io->resp.v1.erase_size = 1 << context->backend.erase_size_shift; return 0; } /* * get_lpc_addr_shifted() - Get lpc address of the current window * @context: The mbox context pointer * * Return: The lpc address to access that offset shifted by block size */ static inline uint16_t get_lpc_addr_shifted(struct mbox_context *context) { uint32_t lpc_addr, mem_offset; /* Offset of the current window in the reserved memory region */ mem_offset = context->current->mem - context->mem; /* Total LPC Address */ lpc_addr = context->lpc_base + mem_offset; MSG_DBG("LPC address of current window: 0x%.8x\n", lpc_addr); return lpc_addr >> context->backend.block_size_shift; } static inline int64_t blktrace_gettime(void) { struct timespec ts; int64_t n; clock_gettime(CLOCK_REALTIME, &ts); n = (int64_t)(ts.tv_sec) * (int64_t)1000000000 + (int64_t)(ts.tv_nsec); return n; } static void blktrace_flush_start(struct mbox_context *context) { struct blk_io_trace *trace = &context->trace; struct timespec now; if (!context->blktracefd) return; if (!context->blktrace_start) { clock_gettime(CLOCK_REALTIME, &now); context->blktrace_start = blktrace_gettime(); } trace->magic = BLK_IO_TRACE_MAGIC | BLK_IO_TRACE_VERSION; trace->sequence++; trace->time = blktrace_gettime() - context->blktrace_start; trace->sector = context->current->flash_offset / 512; trace->bytes = context->current->size; if (context->current_is_write) trace->action = BLK_TA_QUEUE | BLK_TC_ACT(BLK_TC_WRITE); else trace->action = BLK_TA_QUEUE | BLK_TC_ACT(BLK_TC_READ); trace->pid = 0; trace->device = 0; trace->cpu = 0; trace->error = 0; trace->pdu_len = 0; write(context->blktracefd, trace, sizeof(*trace)); trace->sequence++; trace->time = blktrace_gettime() - context->blktrace_start; trace->action &= ~BLK_TA_QUEUE; trace->action |= BLK_TA_ISSUE; write(context->blktracefd, trace, sizeof(*trace)); } static void blktrace_flush_done(struct mbox_context *context) { struct blk_io_trace *trace = &context->trace; if (!context->blktracefd) return; trace->sequence++; trace->time = blktrace_gettime() - context->blktrace_start; trace->action &= ~BLK_TA_ISSUE; trace->action |= BLK_TA_COMPLETE; write(context->blktracefd, trace, sizeof(*trace)); } static void blktrace_window_start(struct mbox_context *context) { struct blk_io_trace *trace = &context->trace; if (!context->blktracefd) return; if (!context->blktrace_start) context->blktrace_start = blktrace_gettime(); trace->magic = BLK_IO_TRACE_MAGIC | BLK_IO_TRACE_VERSION; trace->sequence++; trace->time = blktrace_gettime() - context->blktrace_start; trace->action = BLK_TA_QUEUE | BLK_TC_ACT(BLK_TC_READ); trace->pid = 0; trace->device = 0; trace->cpu = 0; trace->error = 0; trace->pdu_len = 0; } static void blktrace_window_done(struct mbox_context *context) { struct blk_io_trace *trace = &context->trace; if (!context->blktracefd) return; trace->sector = context->current->flash_offset / 512; trace->bytes = context->current->size; write(context->blktracefd, trace, sizeof(*trace)); trace->sequence++; trace->action &= ~BLK_TA_QUEUE; trace->action |= BLK_TA_ISSUE; write(context->blktracefd, trace, sizeof(*trace)); trace->sequence++; trace->time = blktrace_gettime() - context->blktrace_start; trace->action &= ~BLK_TA_ISSUE; trace->action |= BLK_TA_COMPLETE; write(context->blktracefd, trace, sizeof(*trace)); } static int protocol_v1_create_window(struct mbox_context *context, struct protocol_create_window *io) { struct backend *backend = &context->backend; uint32_t offset; uint32_t size; int rc; offset = io->req.offset << backend->block_size_shift; size = io->req.size << backend->block_size_shift; rc = backend_validate(backend, offset, size, io->req.ro); if (rc < 0) { /* Backend does not allow window to be created. */ return rc; } /* Close the current window if there is one */ if (context->current) { /* There is an implicit flush if it was a write window * * protocol_v2_create_window() calls * protocol_v1_create_window(), so use indirect call to * write_flush() to make sure we pick the right one. */ if (context->current_is_write) { blktrace_flush_start(context); rc = context->protocol->flush(context, NULL); blktrace_flush_done(context); if (rc < 0) { MSG_ERR("Couldn't Flush Write Window\n"); return rc; } } windows_close_current(context, FLAGS_NONE); } /* Offset the host has requested */ MSG_INFO("Host requested flash @ 0x%.8x\n", offset); /* Check if we have an existing window */ blktrace_window_start(context); context->current = windows_search(context, offset, context->version == API_VERSION_1); if (!context->current) { /* No existing window */ MSG_DBG("No existing window which maps that flash offset\n"); rc = windows_create_map(context, &context->current, offset, context->version == API_VERSION_1); if (rc < 0) { /* Unable to map offset */ MSG_ERR("Couldn't create window mapping for offset 0x%.8x\n", offset); return rc; } } blktrace_window_done(context); context->current_is_write = !io->req.ro; MSG_INFO("Window @ %p for size 0x%.8x maps flash offset 0x%.8x\n", context->current->mem, context->current->size, context->current->flash_offset); io->resp.lpc_address = get_lpc_addr_shifted(context); return 0; } static int protocol_v1_mark_dirty(struct mbox_context *context, struct protocol_mark_dirty *io) { uint32_t offset = io->req.v1.offset; uint32_t size = io->req.v1.size; uint32_t off; if (!(context->current && context->current_is_write)) { MSG_ERR("Tried to call mark dirty without open write window\n"); return -EPERM; } /* For V1 offset given relative to flash - we want the window */ off = offset - ((context->current->flash_offset) >> context->backend.block_size_shift); if (off > offset) { /* Underflow - before current window */ MSG_ERR("Tried to mark dirty before start of window\n"); MSG_ERR("requested offset: 0x%x window start: 0x%x\n", offset << context->backend.block_size_shift, context->current->flash_offset); return -EINVAL; } offset = off; /* * We only track dirty at the block level. * For protocol V1 we can get away with just marking the whole * block dirty. */ size = align_up(size, 1 << context->backend.block_size_shift); size >>= context->backend.block_size_shift; MSG_INFO("Dirty window @ 0x%.8x for 0x%.8x\n", offset << context->backend.block_size_shift, size << context->backend.block_size_shift); return window_set_bytemap(context, context->current, offset, size, WINDOW_DIRTY); } static int generic_flush(struct mbox_context *context) { int rc, i, offset, count; uint8_t prev; offset = 0; count = 0; prev = WINDOW_CLEAN; MSG_INFO("Flush window @ %p for size 0x%.8x which maps flash @ 0x%.8x\n", context->current->mem, context->current->size, context->current->flash_offset); /* * We look for streaks of the same type and keep a count, when the type * (dirty/erased) changes we perform the required action on the backing * store and update the current streak-type */ for (i = 0; i < (context->current->size >> context->backend.block_size_shift); i++) { uint8_t cur = context->current->dirty_bmap[i]; if (cur != WINDOW_CLEAN) { if (cur == prev) { /* Same as previous block, incrmnt */ count++; } else if (prev == WINDOW_CLEAN) { /* Start of run */ offset = i; count++; } else { /* Change in streak type */ rc = window_flush(context, offset, count, prev); if (rc < 0) { return rc; } offset = i; count = 1; } } else { if (prev != WINDOW_CLEAN) { /* End of a streak */ rc = window_flush(context, offset, count, prev); if (rc < 0) { return rc; } offset = 0; count = 0; } } prev = cur; } if (prev != WINDOW_CLEAN) { /* Still the last streak to write */ rc = window_flush(context, offset, count, prev); if (rc < 0) { return rc; } } /* Clear the dirty bytemap since we have written back all changes */ return window_set_bytemap(context, context->current, 0, context->current->size >> context->backend.block_size_shift, WINDOW_CLEAN); } static int protocol_v1_flush(struct mbox_context *context, struct protocol_flush *io) { int rc; if (!(context->current && context->current_is_write)) { MSG_ERR("Tried to call flush without open write window\n"); return -EPERM; } /* * For V1 the Flush command acts much the same as the dirty command * except with a flush as well. Only do this on an actual flush * command not when we call flush because we've implicitly closed a * window because we might not have the required args in req. */ if (io) { struct protocol_mark_dirty *mdio = (void *)io; rc = protocol_v1_mark_dirty(context, mdio); if (rc < 0) { return rc; } } return generic_flush(context); } static int protocol_v1_close(struct mbox_context *context, struct protocol_close *io) { int rc; /* Close the current window if there is one */ if (!context->current) { return 0; } /* There is an implicit flush if it was a write window */ if (context->current_is_write) { rc = protocol_v1_flush(context, NULL); if (rc < 0) { MSG_ERR("Couldn't Flush Write Window\n"); return rc; } } /* Host asked for it -> Don't set the BMC Event */ windows_close_current(context, io->req.flags); return 0; } static int protocol_v1_ack(struct mbox_context *context, struct protocol_ack *io) { return protocol_events_clear(context, (io->req.flags & BMC_EVENT_ACK_MASK)); } /* * get_suggested_timeout() - get the suggested timeout value in seconds * @context: The mbox context pointer * * Return: Suggested timeout in seconds */ static uint16_t get_suggested_timeout(struct mbox_context *context) { struct window_context *window = windows_find_largest(context); uint32_t max_size_mb = window ? (window->size >> 20) : 0; uint16_t ret; ret = align_up(max_size_mb * FLASH_ACCESS_MS_PER_MB, 1000) / 1000; MSG_DBG("Suggested Timeout: %us, max window size: %uMB, for %dms/MB\n", ret, max_size_mb, FLASH_ACCESS_MS_PER_MB); return ret; } static int protocol_v2_get_info(struct mbox_context *context, struct protocol_get_info *io) { uint8_t old_version = context->version; int rc; /* Bootstrap protocol version. This may involve {up,down}grading */ rc = protocol_negotiate_version(context, io->req.api_version); if (rc < 0) return rc; /* Do the {up,down}grade if necessary*/ if (rc != old_version) { /* Doing version negotiation, don't alert host to reset */ windows_reset_all(context); return context->protocol->get_info(context, io); } /* Record the negotiated version for the response */ io->resp.api_version = rc; /* Now do all required intialisation for v2 */ /* Knowing blocksize we can allocate the window dirty_bytemap */ windows_alloc_dirty_bytemap(context); io->resp.v2.block_size_shift = context->backend.block_size_shift; MSG_INFO("Block Size: 0x%.8x (shift: %u)\n", 1 << context->backend.block_size_shift, context->backend.block_size_shift); io->resp.v2.timeout = get_suggested_timeout(context); return lpc_map_memory(context); } static int protocol_v2_get_flash_info(struct mbox_context *context, struct protocol_get_flash_info *io) { struct backend *backend = &context->backend; io->resp.v2.flash_size = backend->flash_size >> backend->block_size_shift; io->resp.v2.erase_size = ((1 << backend->erase_size_shift) >> backend->block_size_shift); return 0; } static int protocol_v2_create_window(struct mbox_context *context, struct protocol_create_window *io) { int rc; rc = protocol_v1_create_window(context, io); if (rc < 0) return rc; io->resp.size = context->current->size >> context->backend.block_size_shift; io->resp.offset = context->current->flash_offset >> context->backend.block_size_shift; return 0; } static int protocol_v2_mark_dirty(struct mbox_context *context, struct protocol_mark_dirty *io) { if (!(context->current && context->current_is_write)) { MSG_ERR("Tried to call mark dirty without open write window\n"); return -EPERM; } MSG_INFO("Dirty window @ 0x%.8x for 0x%.8x\n", io->req.v2.offset << context->backend.block_size_shift, io->req.v2.size << context->backend.block_size_shift); return window_set_bytemap(context, context->current, io->req.v2.offset, io->req.v2.size, WINDOW_DIRTY); } static int protocol_v2_erase(struct mbox_context *context, struct protocol_erase *io) { size_t start, len; int rc; if (!(context->current && context->current_is_write)) { MSG_ERR("Tried to call erase without open write window\n"); return -EPERM; } MSG_INFO("Erase window @ 0x%.8x for 0x%.8x\n", io->req.offset << context->backend.block_size_shift, io->req.size << context->backend.block_size_shift); rc = window_set_bytemap(context, context->current, io->req.offset, io->req.size, WINDOW_ERASED); if (rc < 0) { return rc; } /* Write 0xFF to mem -> This ensures consistency between flash & ram */ start = io->req.offset << context->backend.block_size_shift; len = io->req.size << context->backend.block_size_shift; memset(context->current->mem + start, 0xFF, len); return 0; } static int protocol_v2_flush(struct mbox_context *context, struct protocol_flush *io) { if (!(context->current && context->current_is_write)) { MSG_ERR("Tried to call flush without open write window\n"); return -EPERM; } return generic_flush(context); } static int protocol_v2_close(struct mbox_context *context, struct protocol_close *io) { int rc; /* Close the current window if there is one */ if (!context->current) { return 0; } /* There is an implicit flush if it was a write window */ if (context->current_is_write) { rc = protocol_v2_flush(context, NULL); if (rc < 0) { MSG_ERR("Couldn't Flush Write Window\n"); return rc; } } /* Host asked for it -> Don't set the BMC Event */ windows_close_current(context, io->req.flags); return 0; } static const struct protocol_ops protocol_ops_v1 = { .reset = protocol_v1_reset, .get_info = protocol_v1_get_info, .get_flash_info = protocol_v1_get_flash_info, .create_window = protocol_v1_create_window, .mark_dirty = protocol_v1_mark_dirty, .erase = NULL, .flush = protocol_v1_flush, .close = protocol_v1_close, .ack = protocol_v1_ack, }; static const struct protocol_ops protocol_ops_v2 = { .reset = protocol_v1_reset, .get_info = protocol_v2_get_info, .get_flash_info = protocol_v2_get_flash_info, .create_window = protocol_v2_create_window, .mark_dirty = protocol_v2_mark_dirty, .erase = protocol_v2_erase, .flush = protocol_v2_flush, .close = protocol_v2_close, .ack = protocol_v1_ack, }; static const struct protocol_ops *protocol_ops_map[] = { [0] = NULL, [1] = &protocol_ops_v1, [2] = &protocol_ops_v2, }; static int protocol_negotiate_version(struct mbox_context *context, uint8_t requested) { /* Check we support the version requested */ if (requested < API_MIN_VERSION) return -EINVAL; context->version = (requested > API_MAX_VERSION) ? API_MAX_VERSION : requested; context->protocol = protocol_ops_map[context->version]; return context->version; } int protocol_init(struct mbox_context *context) { protocol_negotiate_version(context, API_MAX_VERSION); return 0; } void protocol_free(struct mbox_context *context) { return; } /* Don't do any state manipulation, just perform the reset */ int __protocol_reset(struct mbox_context *context) { enum backend_reset_mode mode; int rc; windows_reset_all(context); rc = backend_reset(&context->backend, context->mem, context->mem_size); if (rc < 0) return rc; mode = rc; if (!(mode == reset_lpc_flash || mode == reset_lpc_memory)) return -EINVAL; if (mode == reset_lpc_flash) return lpc_map_flash(context); assert(mode == reset_lpc_memory); return lpc_map_memory(context); } /* Prevent the host from performing actions whilst reset takes place */ int protocol_reset(struct mbox_context *context) { int rc; rc = protocol_events_clear(context, BMC_EVENT_DAEMON_READY); if (rc < 0) { MSG_ERR("Failed to clear daemon ready state, reset failed\n"); return rc; } rc = __protocol_reset(context); if (rc < 0) { MSG_ERR("Failed to reset protocol, daemon remains not ready\n"); return rc; } rc = protocol_events_set(context, BMC_EVENT_DAEMON_READY | BMC_EVENT_PROTOCOL_RESET); if (rc < 0) { MSG_ERR("Failed to set daemon ready state, daemon remains not ready\n"); return rc; } return 0; }