/* Copyright 2017 IBM Corp. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define pr_fmt(fmt) "MBOX-FLASH: " fmt #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef __SKIBOOT__ #error "This libflash backend must be compiled with skiboot" #endif #define MBOX_DEFAULT_TIMEOUT 30 struct lpc_window { uint32_t lpc_addr; /* Offset into LPC space */ uint32_t cur_pos; /* Current position of the window in the flash */ uint32_t size; /* Size of the window into the flash */ bool open; }; struct mbox_flash_data { int version; uint32_t shift; struct lpc_window read; struct lpc_window write; struct blocklevel_device bl; uint32_t total_size; uint32_t erase_granule; int rc; bool reboot; bool pause; bool busy; bool ack; uint8_t seq; /* Plus one, commands start at 1 */ void (*handlers[MBOX_COMMAND_COUNT + 1])(struct mbox_flash_data *, struct bmc_mbox_msg*); struct bmc_mbox_msg msg_mem; }; static void mbox_flash_callback(struct bmc_mbox_msg *msg, void *priv); static void mbox_flash_attn(uint8_t attn, void *priv); static int protocol_init(struct mbox_flash_data *mbox_flash); static int lpc_window_read(struct mbox_flash_data *mbox_flash, uint32_t pos, void *buf, uint32_t len) { uint32_t off = mbox_flash->read.lpc_addr + (pos - mbox_flash->read.cur_pos); int rc; prlog(PR_TRACE, "Reading at 0x%08x for 0x%08x offset: 0x%08x\n", pos, len, off); while(len) { uint32_t chunk; uint32_t dat; /* XXX: make this read until it's aligned */ if (len > 3 && !(off & 3)) { rc = lpc_read(OPAL_LPC_FW, off, &dat, 4); if (!rc) *(uint32_t *)buf = dat; chunk = 4; } else { rc = lpc_read(OPAL_LPC_FW, off, &dat, 1); if (!rc) *(uint8_t *)buf = dat; chunk = 1; } if (rc) { prlog(PR_ERR, "lpc_read failure %d to FW 0x%08x\n", rc, off); return rc; } len -= chunk; off += chunk; buf += chunk; } return 0; } static int lpc_window_write(struct mbox_flash_data *mbox_flash, uint32_t pos, const void *buf, uint32_t len) { uint32_t off = mbox_flash->write.lpc_addr + (pos - mbox_flash->write.cur_pos); int rc; prlog(PR_TRACE, "Writing at 0x%08x for 0x%08x offset: 0x%08x\n", pos, len, off); while(len) { uint32_t chunk; if (len > 3 && !(off & 3)) { rc = lpc_write(OPAL_LPC_FW, off, *(uint32_t *)buf, 4); chunk = 4; } else { rc = lpc_write(OPAL_LPC_FW, off, *(uint8_t *)buf, 1); chunk = 1; } if (rc) { prlog(PR_ERR, "lpc_write failure %d to FW 0x%08x\n", rc, off); return rc; } len -= chunk; off += chunk; buf += chunk; } return 0; } static uint64_t mbox_flash_mask(struct mbox_flash_data *mbox_flash) { return (1ULL << mbox_flash->shift) - 1; } __unused static uint8_t msg_get_u8(struct bmc_mbox_msg *msg, int i) { return msg->args[i]; } static void msg_put_u8(struct bmc_mbox_msg *msg, int i, uint8_t val) { msg->args[i] = val; } static uint16_t msg_get_u16(struct bmc_mbox_msg *msg, int i) { return le16_to_cpu(*(uint16_t *)(&msg->args[i])); } static void msg_put_u16(struct bmc_mbox_msg *msg, int i, uint16_t val) { uint16_t tmp = cpu_to_le16(val); memcpy(&msg->args[i], &tmp, sizeof(val)); } static uint32_t msg_get_u32(struct bmc_mbox_msg *msg, int i) { return le32_to_cpu(*(uint32_t *)(&msg->args[i])); } static void msg_put_u32(struct bmc_mbox_msg *msg, int i, uint32_t val) { uint32_t tmp = cpu_to_le32(val); memcpy(&msg->args[i], &tmp, sizeof(val)); } static uint32_t blocks_to_bytes(struct mbox_flash_data *mbox_flash, uint16_t blocks) { return blocks << mbox_flash->shift; } static uint16_t bytes_to_blocks(struct mbox_flash_data *mbox_flash, uint32_t bytes) { return bytes >> mbox_flash->shift; } static struct bmc_mbox_msg *msg_alloc(struct mbox_flash_data *mbox_flash, uint8_t command) { /* * Yes this causes *slow*. * This file and lpc-mbox have far greater slow points, zeroed * data regs are VERY useful for debugging. Think twice if this is * really the performance optimisation you want to make. */ memset(&mbox_flash->msg_mem, 0, sizeof(mbox_flash->msg_mem)); mbox_flash->msg_mem.seq = ++mbox_flash->seq; mbox_flash->msg_mem.command = command; return &mbox_flash->msg_mem; } static void msg_free_memory(struct bmc_mbox_msg *mem __unused) { /* Allocation is so simple this isn't required */ } /* * The BMC may send is an out of band message to say that it doesn't * own the flash anymore. * It guarantees we can still access our (open) windows but it does * not guarantee their contents until it clears the bit without * sending us a corresponding bit to say that the windows are bad * first. * Since this is all things that will happen in the future, we should * not perform any calls speculatively as its almost impossible to * rewind. */ static bool is_paused(struct mbox_flash_data *mbox_flash) { return mbox_flash->pause; } /* * After a read or a write it is wise to check that the window we just * read/write to/from is still valid otherwise it is possible some of * the data didn't make it. * This check is an optimisation as we'll close all our windows on any * notification from the BMC that the windows are bad. See the above * comment about is_paused(). * A foolproof (but much closer) method of validating reads/writes * would be to attempt to close the window, if that fails then we can * be sure that the read/write was no good. */ static bool is_valid(struct mbox_flash_data *mbox_flash, struct lpc_window *win) { return !is_paused(mbox_flash) && win->open; } /* * Check if we've received a BMC reboot notification. * The strategy is to check on entry to mbox-flash and return a * failure accordingly. Races will be handled by the fact that the BMC * won't respond so timeouts will occur. As an added precaution * msg_send() checks right before sending a message (to make the race * as small as possible to avoid needless timeouts). */ static bool is_reboot(struct mbox_flash_data *mbox_flash) { return mbox_flash->reboot; } static int msg_send(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { if (is_reboot(mbox_flash)) return FLASH_ERR_AGAIN; mbox_flash->busy = true; mbox_flash->rc = 0; return bmc_mbox_enqueue(msg); } static int wait_for_bmc(struct mbox_flash_data *mbox_flash, unsigned int timeout_sec) { unsigned long last = 1, start = tb_to_secs(mftb()); prlog(PR_TRACE, "Waiting for BMC\n"); while (mbox_flash->busy && timeout_sec) { long now = tb_to_secs(mftb()); if (now - start > last) { timeout_sec--; last = now - start; if (last < timeout_sec / 2) prlog(PR_TRACE, "Been waiting for the BMC for %lu secs\n", last); else prlog(PR_ERR, "BMC NOT RESPONDING %lu second wait\n", last); } /* * Both functions are important. * Well time_wait_ms() relaxes the spin... so... its nice */ time_wait_ms(MBOX_DEFAULT_POLL_MS); check_timers(false); asm volatile ("" ::: "memory"); } if (mbox_flash->busy) { prlog(PR_ERR, "Timeout waiting for BMC\n"); mbox_flash->busy = false; return MBOX_R_TIMEOUT; } return mbox_flash->rc; } static int mbox_flash_ack(struct mbox_flash_data *mbox_flash, uint8_t reg) { struct bmc_mbox_msg *msg; int rc; msg = msg_alloc(mbox_flash, MBOX_C_BMC_EVENT_ACK); if (!msg) return FLASH_ERR_MALLOC_FAILED; msg_put_u8(msg, 0, reg); /* Clear this first so msg_send() doesn't freak out */ mbox_flash->reboot = false; rc = msg_send(mbox_flash, msg); /* Still need to deal with it, we've only acked it now. */ mbox_flash->reboot = true; if (rc) { prlog(PR_ERR, "Failed to enqueue/send BMC MBOX message\n"); goto out; } /* * Use a lower timeout - there is strong evidence to suggest the * BMC won't respond, don't waste time spinning here just have the * high levels retry when the BMC might be back */ rc = wait_for_bmc(mbox_flash, 3); if (rc) prlog(PR_ERR, "Error waiting for BMC\n"); out: msg_free_memory(msg); return rc; } static int do_acks(struct mbox_flash_data *mbox_flash) { int rc; if (!mbox_flash->ack) return 0; /* Nothing to do */ rc = mbox_flash_ack(mbox_flash, bmc_mbox_get_attn_reg() & MBOX_ATTN_ACK_MASK); if (!rc) mbox_flash->ack = false; return rc; } static void mbox_flash_do_nop(struct mbox_flash_data *mbox_flash __unused, struct bmc_mbox_msg *msg __unused) { } /* Version 1 and Version 2 compatible */ static void mbox_flash_do_get_mbox_info(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->version = msg_get_u8(msg, 0); if (mbox_flash->version == 1) { /* Not all version 1 daemons set argument 5 correctly */ mbox_flash->shift = 12; /* Protocol hardcodes to 4K anyway */ mbox_flash->read.size = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 1)); mbox_flash->write.size = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 3)); } else { /* V2 compatible */ mbox_flash->shift = msg_get_u8(msg, 5); } /* Callers will handle the case where the version is not known * * Here we deliberately ignore the 'default' sizes. * All windows opened will not provide a hint and we're * happy to let the BMC figure everything out. * Future optimisations may use the default size. */ } static void mbox_flash_do_get_flash_info_v2(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->total_size = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 0)); mbox_flash->erase_granule = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 2)); } static void mbox_flash_do_get_flash_info_v1(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->total_size = msg_get_u32(msg, 0); mbox_flash->erase_granule = msg_get_u32(msg, 4); } static void mbox_flash_do_create_read_window_v2(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->read.lpc_addr = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 0)); mbox_flash->read.size = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 2)); mbox_flash->read.cur_pos = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 4)); mbox_flash->read.open = true; mbox_flash->write.open = false; } static void mbox_flash_do_create_read_window_v1(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->read.lpc_addr = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 0)); mbox_flash->read.open = true; mbox_flash->write.open = false; } static void mbox_flash_do_create_write_window_v2(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->write.lpc_addr = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 0)); mbox_flash->write.size = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 2)); mbox_flash->write.cur_pos = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 4)); mbox_flash->write.open = true; mbox_flash->read.open = false; } static void mbox_flash_do_create_write_window_v1(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg) { mbox_flash->write.lpc_addr = blocks_to_bytes(mbox_flash, msg_get_u16(msg, 0)); mbox_flash->write.open = true; mbox_flash->read.open = false; } /* Version 1 and Version 2 compatible */ static void mbox_flash_do_close_window(struct mbox_flash_data *mbox_flash, struct bmc_mbox_msg *msg __unused) { mbox_flash->read.open = false; mbox_flash->write.open = false; } static int handle_reboot(struct mbox_flash_data *mbox_flash) { int rc; /* * If the BMC ready bit isn't present then we're basically * guaranteed to timeout trying to talk to it so just fail * whatever is trying to happen. * Importantly, we can't trust that the presence of the bit means * the daemon is ok - don't assume it is going to respond at all * from here onwards */ if (!(bmc_mbox_get_attn_reg() & MBOX_ATTN_BMC_DAEMON_READY)) return FLASH_ERR_AGAIN; /* Clear this first so msg_send() doesn't freak out */ mbox_flash->reboot = false; rc = do_acks(mbox_flash); if (rc) { if (rc == MBOX_R_TIMEOUT) rc = FLASH_ERR_AGAIN; mbox_flash->reboot = true; return rc; } rc = protocol_init(mbox_flash); if (rc) mbox_flash->reboot = true; return rc; } static bool do_delayed_work(struct mbox_flash_data *mbox_flash) { return is_paused(mbox_flash) || do_acks(mbox_flash) || (is_reboot(mbox_flash) && handle_reboot(mbox_flash)); } static int mbox_flash_mark_write(struct mbox_flash_data *mbox_flash, uint64_t pos, uint64_t len, int type) { struct bmc_mbox_msg *msg; int rc; msg = msg_alloc(mbox_flash, type); if (!msg) return FLASH_ERR_MALLOC_FAILED; if (mbox_flash->version == 1) { uint32_t start = ALIGN_DOWN(pos, 1 << mbox_flash->shift); msg_put_u16(msg, 0, bytes_to_blocks(mbox_flash, pos)); /* * We need to make sure that we mark dirty until up to atleast * pos + len. */ msg_put_u32(msg, 2, pos + len - start); } else { uint64_t window_pos = pos - mbox_flash->write.cur_pos; uint16_t start = bytes_to_blocks(mbox_flash, window_pos); uint16_t end = bytes_to_blocks(mbox_flash, ALIGN_UP(window_pos + len, 1 << mbox_flash->shift)); msg_put_u16(msg, 0, start); msg_put_u16(msg, 2, end - start); /* Total Length */ } rc = msg_send(mbox_flash, msg); if (rc) { prlog(PR_ERR, "Failed to enqueue/send BMC MBOX message\n"); goto out; } rc = wait_for_bmc(mbox_flash, MBOX_DEFAULT_TIMEOUT); if (rc) { prlog(PR_ERR, "Error waiting for BMC\n"); goto out; } out: msg_free_memory(msg); return rc; } static int mbox_flash_dirty(struct mbox_flash_data *mbox_flash, uint64_t pos, uint64_t len) { if (!mbox_flash->write.open) { prlog(PR_ERR, "Attempting to dirty without an open write window\n"); return FLASH_ERR_DEVICE_GONE; } return mbox_flash_mark_write(mbox_flash, pos, len, MBOX_C_MARK_WRITE_DIRTY); } static int mbox_flash_erase(struct mbox_flash_data *mbox_flash, uint64_t pos, uint64_t len) { if (!mbox_flash->write.open) { prlog(PR_ERR, "Attempting to erase without an open write window\n"); return FLASH_ERR_DEVICE_GONE; } return mbox_flash_mark_write(mbox_flash, pos, len, MBOX_C_MARK_WRITE_ERASED); } static int mbox_flash_flush(struct mbox_flash_data *mbox_flash) { struct bmc_mbox_msg *msg; int rc; if (!mbox_flash->write.open) { prlog(PR_ERR, "Attempting to flush without an open write window\n"); return FLASH_ERR_DEVICE_GONE; } msg = msg_alloc(mbox_flash, MBOX_C_WRITE_FLUSH); if (!msg) return FLASH_ERR_MALLOC_FAILED; rc = msg_send(mbox_flash, msg); if (rc) { prlog(PR_ERR, "Failed to enqueue/send BMC MBOX message\n"); goto out; } rc = wait_for_bmc(mbox_flash, MBOX_DEFAULT_TIMEOUT); if (rc) prlog(PR_ERR, "Error waiting for BMC\n"); out: msg_free_memory(msg); return rc; } /* Is the current window able perform the complete operation */ static bool mbox_window_valid(struct lpc_window *win, uint64_t pos, uint64_t len) { if (!win->open) return false; if (pos < win->cur_pos) /* start */ return false; if ((pos + len) > (win->cur_pos + win->size)) /* end */ return false; return true; } static int mbox_window_move(struct mbox_flash_data *mbox_flash, struct lpc_window *win, uint8_t command, uint64_t pos, uint64_t len, uint64_t *size) { struct bmc_mbox_msg *msg; int rc; /* Is the window currently open valid */ if (mbox_window_valid(win, pos, len)) { *size = len; return 0; } prlog(PR_DEBUG, "Adjusting the window\n"); /* V1 needs to remember where it has opened the window, note it * here. * If we're running V2 the response to the CREATE_*_WINDOW command * will overwrite what we've noted here. */ win->cur_pos = pos & ~mbox_flash_mask(mbox_flash); msg = msg_alloc(mbox_flash, command); if (!msg) return FLASH_ERR_MALLOC_FAILED; msg_put_u16(msg, 0, bytes_to_blocks(mbox_flash, pos)); rc = msg_send(mbox_flash, msg); if (rc) { prlog(PR_ERR, "Failed to enqueue/send BMC MBOX message\n"); goto out; } rc = wait_for_bmc(mbox_flash, MBOX_DEFAULT_TIMEOUT); if (rc) { prlog(PR_ERR, "Error waiting for BMC\n"); goto out; } *size = len; /* Is length past the end of the window? */ if ((pos + len) > (win->cur_pos + win->size)) /* Adjust size to meet current window */ *size = (win->cur_pos + win->size) - pos; /* * It doesn't make sense for size to be zero if len isn't zero. * If this condition happens we're most likely going to spin since * the caller will likely decerement pos by zero then call this * again. * Debateable as to if this should return non zero. At least the * bug will be obvious from the barf. */ if (len != 0 && *size == 0) { prlog(PR_ERR, "Move window is indicating size zero!\n"); prlog(PR_ERR, "pos: 0x%" PRIx64 ", len: 0x%" PRIx64 "\n", pos, len); prlog(PR_ERR, "win pos: 0x%08x win size: 0x%08x\n", win->cur_pos, win->size); } out: msg_free_memory(msg); return rc; } static int mbox_flash_write(struct blocklevel_device *bl, uint64_t pos, const void *buf, uint64_t len) { struct mbox_flash_data *mbox_flash; uint64_t size; int rc = 0; /* LPC is only 32bit */ if (pos > UINT_MAX || len > UINT_MAX) return FLASH_ERR_PARM_ERROR; mbox_flash = container_of(bl, struct mbox_flash_data, bl); if (do_delayed_work(mbox_flash)) return FLASH_ERR_AGAIN; prlog(PR_TRACE, "Flash write at %#" PRIx64 " for %#" PRIx64 "\n", pos, len); while (len > 0) { /* Move window and get a new size to read */ rc = mbox_window_move(mbox_flash, &mbox_flash->write, MBOX_C_CREATE_WRITE_WINDOW, pos, len, &size); if (rc) return rc; /* Perform the read for this window */ rc = lpc_window_write(mbox_flash, pos, buf, size); if (rc) return rc; rc = mbox_flash_dirty(mbox_flash, pos, size); if (rc) return rc; /* * Must flush here as changing the window contents * without flushing entitles the BMC to throw away the * data. Unlike the read case there isn't a need to explicitly * validate the window, the flush command will fail if the * window was compromised. */ rc = mbox_flash_flush(mbox_flash); if (rc) return rc; len -= size; pos += size; buf += size; } return rc; } static int mbox_flash_read(struct blocklevel_device *bl, uint64_t pos, void *buf, uint64_t len) { struct mbox_flash_data *mbox_flash; uint64_t size; int rc = 0; /* LPC is only 32bit */ if (pos > UINT_MAX || len > UINT_MAX) return FLASH_ERR_PARM_ERROR; mbox_flash = container_of(bl, struct mbox_flash_data, bl); if (do_delayed_work(mbox_flash)) return FLASH_ERR_AGAIN; prlog(PR_TRACE, "Flash read at %#" PRIx64 " for %#" PRIx64 "\n", pos, len); while (len > 0) { /* Move window and get a new size to read */ rc = mbox_window_move(mbox_flash, &mbox_flash->read, MBOX_C_CREATE_READ_WINDOW, pos, len, &size); if (rc) return rc; /* Perform the read for this window */ rc = lpc_window_read(mbox_flash, pos, buf, size); if (rc) return rc; len -= size; pos += size; buf += size; /* * Ensure my window is still open, if it isn't we can't trust * what we read */ if (!is_valid(mbox_flash, &mbox_flash->read)) return FLASH_ERR_AGAIN; } return rc; } static int mbox_flash_get_info(struct blocklevel_device *bl, const char **name, uint64_t *total_size, uint32_t *erase_granule) { struct mbox_flash_data *mbox_flash; struct bmc_mbox_msg *msg; int rc; mbox_flash = container_of(bl, struct mbox_flash_data, bl); if (do_delayed_work(mbox_flash)) return FLASH_ERR_AGAIN; msg = msg_alloc(mbox_flash, MBOX_C_GET_FLASH_INFO); if (!msg) return FLASH_ERR_MALLOC_FAILED; /* * We want to avoid runtime mallocs in skiboot. The expected * behavour to uses of libflash is that one can free() the memory * returned. * NULL will do for now. */ if (name) *name = NULL; mbox_flash->busy = true; rc = msg_send(mbox_flash, msg); if (rc) { prlog(PR_ERR, "Failed to enqueue/send BMC MBOX message\n"); goto out; } if (wait_for_bmc(mbox_flash, MBOX_DEFAULT_TIMEOUT)) { prlog(PR_ERR, "Error waiting for BMC\n"); goto out; } mbox_flash->bl.erase_mask = mbox_flash->erase_granule - 1; if (total_size) *total_size = mbox_flash->total_size; if (erase_granule) *erase_granule = mbox_flash->erase_granule; out: msg_free_memory(msg); return rc; } static int mbox_flash_erase_v2(struct blocklevel_device *bl, uint64_t pos, uint64_t len) { struct mbox_flash_data *mbox_flash; /* LPC is only 32bit */ if (pos > UINT_MAX || len > UINT_MAX) return FLASH_ERR_PARM_ERROR; mbox_flash = container_of(bl, struct mbox_flash_data, bl); prlog(PR_TRACE, "Flash erase at 0x%08x for 0x%08x\n", (u32) pos, (u32) len); while (len > 0) { uint64_t size; int rc; /* Move window and get a new size to erase */ rc = mbox_window_move(mbox_flash, &mbox_flash->write, MBOX_C_CREATE_WRITE_WINDOW, pos, len, &size); if (rc) return rc; rc = mbox_flash_erase(mbox_flash, pos, size); if (rc) return rc; /* * Flush directly, don't mark that region dirty otherwise it * isn't clear if a write happened there or not */ rc = mbox_flash_flush(mbox_flash); if (rc) return rc; len -= size; pos += size; } return 0; } static int mbox_flash_erase_v1(struct blocklevel_device *bl __unused, uint64_t pos __unused, uint64_t len __unused) { /* * We can probably get away with doing nothing. * TODO: Rethink this, causes interesting behaviour in pflash. * Users do expect pflash -{e,E} to do something. This is because * on real flash this would have set that region to all 0xFF but * really the erase at the blocklevel interface was only designed * to be "please make this region writeable". * It may be wise (despite the large performance penalty) to * actually write all 0xFF here. I'll leave that as an exercise * for the future. */ return 0; } /* Called from interrupt handler, don't send any mbox messages */ static void mbox_flash_attn(uint8_t attn, void *priv) { struct mbox_flash_data *mbox_flash = priv; if (attn & MBOX_ATTN_ACK_MASK) mbox_flash->ack = true; if (attn & MBOX_ATTN_BMC_REBOOT) { mbox_flash->reboot = true; mbox_flash->read.open = false; mbox_flash->write.open = false; attn &= ~MBOX_ATTN_BMC_REBOOT; } if (attn & MBOX_ATTN_BMC_WINDOW_RESET) { mbox_flash->read.open = false; mbox_flash->write.open = false; attn &= ~MBOX_ATTN_BMC_WINDOW_RESET; } if (attn & MBOX_ATTN_BMC_FLASH_LOST) { mbox_flash->pause = true; attn &= ~MBOX_ATTN_BMC_FLASH_LOST; } else { mbox_flash->pause = false; } if (attn & MBOX_ATTN_BMC_DAEMON_READY) attn &= ~MBOX_ATTN_BMC_DAEMON_READY; } static void mbox_flash_callback(struct bmc_mbox_msg *msg, void *priv) { struct mbox_flash_data *mbox_flash = priv; prlog(PR_TRACE, "BMC OK command %u\n", msg->command); if (msg->response != MBOX_R_SUCCESS) { prlog(PR_ERR, "Bad response code from BMC %d\n", msg->response); mbox_flash->rc = msg->response; goto out; } if (msg->seq != mbox_flash->seq) { /* Uhoh */ prlog(PR_ERR, "Sequence numbers don't match! Got: %02x Expected: %02x\n", msg->seq, mbox_flash->seq); mbox_flash->rc = MBOX_R_SYSTEM_ERROR; goto out; } if (msg->command > MBOX_COMMAND_COUNT) { prlog(PR_ERR, "Got response to unknown command %02x\n", msg->command); mbox_flash->rc = -1; goto out; } if (!mbox_flash->handlers[msg->command]) { prlog(PR_ERR, "Couldn't find handler for message! command: %u, seq: %u\n", msg->command, msg->seq); mbox_flash->rc = MBOX_R_SYSTEM_ERROR; goto out; } mbox_flash->rc = 0; mbox_flash->handlers[msg->command](mbox_flash, msg); out: mbox_flash->busy = false; } static int protocol_init(struct mbox_flash_data *mbox_flash) { struct bmc_mbox_msg *msg; int rc; /* Assume V2 */ mbox_flash->bl.read = &mbox_flash_read; mbox_flash->bl.write = &mbox_flash_write; mbox_flash->bl.erase = &mbox_flash_erase_v2; mbox_flash->bl.get_info = &mbox_flash_get_info; /* Assume V2 */ mbox_flash->handlers[0] = NULL; mbox_flash->handlers[MBOX_C_RESET_STATE] = &mbox_flash_do_nop; mbox_flash->handlers[MBOX_C_GET_MBOX_INFO] = &mbox_flash_do_get_mbox_info; mbox_flash->handlers[MBOX_C_GET_FLASH_INFO] = &mbox_flash_do_get_flash_info_v2; mbox_flash->handlers[MBOX_C_CREATE_READ_WINDOW] = &mbox_flash_do_create_read_window_v2; mbox_flash->handlers[MBOX_C_CLOSE_WINDOW] = &mbox_flash_do_close_window; mbox_flash->handlers[MBOX_C_CREATE_WRITE_WINDOW] = &mbox_flash_do_create_write_window_v2; mbox_flash->handlers[MBOX_C_MARK_WRITE_DIRTY] = &mbox_flash_do_nop; mbox_flash->handlers[MBOX_C_WRITE_FLUSH] = &mbox_flash_do_nop; mbox_flash->handlers[MBOX_C_BMC_EVENT_ACK] = &mbox_flash_do_nop; mbox_flash->handlers[MBOX_C_MARK_WRITE_ERASED] = &mbox_flash_do_nop; bmc_mbox_register_callback(&mbox_flash_callback, mbox_flash); bmc_mbox_register_attn(&mbox_flash_attn, mbox_flash); /* * For V1 of the protocol this is fixed. * V2: The init code will update this */ mbox_flash->shift = 12; /* * Always attempt init with V2. * The GET_MBOX_INFO response will confirm that the other side can * talk V2, we'll update this variable then if V2 is not supported */ mbox_flash->version = 2; msg = msg_alloc(mbox_flash, MBOX_C_GET_MBOX_INFO); if (!msg) return FLASH_ERR_MALLOC_FAILED; msg_put_u8(msg, 0, mbox_flash->version); rc = msg_send(mbox_flash, msg); if (rc) { prlog(PR_ERR, "Failed to enqueue/send BMC MBOX message\n"); goto out; } rc = wait_for_bmc(mbox_flash, MBOX_DEFAULT_TIMEOUT); if (rc) { prlog(PR_ERR, "Error waiting for BMC\n"); goto out; } msg_free_memory(msg); prlog(PR_INFO, "Detected mbox protocol version %d\n", mbox_flash->version); if (mbox_flash->version == 1) { mbox_flash->bl.erase = &mbox_flash_erase_v1; /* Not all handlers differ, update those which do */ mbox_flash->handlers[MBOX_C_GET_FLASH_INFO] = &mbox_flash_do_get_flash_info_v1; mbox_flash->handlers[MBOX_C_CREATE_READ_WINDOW] = &mbox_flash_do_create_read_window_v1; mbox_flash->handlers[MBOX_C_CREATE_WRITE_WINDOW] = &mbox_flash_do_create_write_window_v1; mbox_flash->handlers[MBOX_C_MARK_WRITE_ERASED] = NULL; /* Not in V1 */ } else if (mbox_flash->version > 2) { /* * Uh, we requested version 2... The BMC is can only lower the * requested version not do anything else. FWIW there is no * verion 0 */ prlog(PR_CRIT, "Bad version: %u\n", mbox_flash->version); rc = FLASH_ERR_PARM_ERROR; goto out; } return 0; out: msg_free_memory(msg); return rc; } int mbox_flash_init(struct blocklevel_device **bl) { struct mbox_flash_data *mbox_flash; int rc; if (!bl) return FLASH_ERR_PARM_ERROR; *bl = NULL; mbox_flash = zalloc(sizeof(struct mbox_flash_data)); if (!mbox_flash) return FLASH_ERR_MALLOC_FAILED; /* Assume V2 */ mbox_flash->bl.read = &mbox_flash_read; mbox_flash->bl.write = &mbox_flash_write; mbox_flash->bl.erase = &mbox_flash_erase_v2; mbox_flash->bl.get_info = &mbox_flash_get_info; if (bmc_mbox_get_attn_reg() & MBOX_ATTN_BMC_REBOOT) rc = handle_reboot(mbox_flash); else rc = protocol_init(mbox_flash); if (rc) { free(mbox_flash); return rc; } mbox_flash->bl.keep_alive = 0; *bl = &(mbox_flash->bl); return 0; } void mbox_flash_exit(struct blocklevel_device *bl) { struct mbox_flash_data *mbox_flash; if (bl) { mbox_flash = container_of(bl, struct mbox_flash_data, bl); free(mbox_flash); } }