// SPDX-License-Identifier: Apache-2.0 // Copyright (C) 2018 IBM Corp. #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "mboxd.h" #include "common.h" #include "transport_mbox.h" #include "windows.h" #include "lpc.h" struct errno_map { int rc; int mbox_errno; }; static const struct errno_map errno_map_v1[] = { { 0, MBOX_R_SUCCESS }, { EACCES, MBOX_R_PARAM_ERROR }, { EBADMSG, MBOX_R_PARAM_ERROR }, { EBUSY, MBOX_R_SYSTEM_ERROR }, { EINVAL, MBOX_R_PARAM_ERROR }, { ENOTSUP, MBOX_R_PARAM_ERROR }, { EPERM, MBOX_R_PARAM_ERROR }, { EPROTO, MBOX_R_PARAM_ERROR }, { ETIMEDOUT, MBOX_R_TIMEOUT }, { -1, MBOX_R_SYSTEM_ERROR }, }; static const struct errno_map errno_map_v2[] = { { 0, MBOX_R_SUCCESS }, { EACCES, MBOX_R_WINDOW_ERROR }, { EBADMSG, MBOX_R_SEQ_ERROR }, { EBUSY, MBOX_R_BUSY }, { EINVAL, MBOX_R_PARAM_ERROR }, { ENOTSUP, MBOX_R_PARAM_ERROR }, { EPERM, MBOX_R_WINDOW_ERROR }, { EPROTO, MBOX_R_PARAM_ERROR }, { ETIMEDOUT, MBOX_R_TIMEOUT }, { -1, MBOX_R_SYSTEM_ERROR }, }; static const struct errno_map *errno_maps[] = { [0] = NULL, [1] = errno_map_v1, [2] = errno_map_v2, }; static inline int mbox_xlate_errno(struct mbox_context *context, int rc) { const struct errno_map *entry; rc = -rc; MSG_DBG("Translating errno %d: %s\n", rc, strerror(rc)); for(entry = errno_maps[context->version]; entry->rc != -1; entry++) { if (rc == entry->rc) { return entry->mbox_errno; } } return entry->mbox_errno; } /* * transport_mbox_flush_events() - Write to the BMC controlled status register * (reg 15) * @context: The mbox context pointer * * Return: 0 on success otherwise negative error code */ static int transport_mbox_flush_events(struct mbox_context *context, uint8_t events) { int rc; /* Seek mbox registers */ rc = lseek(context->fds[MBOX_FD].fd, MBOX_BMC_EVENT, SEEK_SET); if (rc != MBOX_BMC_EVENT) { MSG_ERR("Couldn't lseek mbox to byte %d: %s\n", MBOX_BMC_EVENT, strerror(errno)); return -errno; } /* Write to mbox status register */ rc = write(context->fds[MBOX_FD].fd, &events, 1); if (rc != 1) { MSG_ERR("Couldn't write to BMC status reg: %s\n", strerror(errno)); return -errno; } /* Reset to start */ rc = lseek(context->fds[MBOX_FD].fd, 0, SEEK_SET); if (rc) { MSG_ERR("Couldn't reset MBOX offset to zero: %s\n", strerror(errno)); return -errno; } return 0; } static int transport_mbox_put_events(struct mbox_context *context, uint8_t mask) { return transport_mbox_flush_events(context, context->bmc_events & mask); } static int transport_mbox_update_events(struct mbox_context *context, uint8_t events, uint8_t mask) { return transport_mbox_flush_events(context, context->bmc_events & mask); } static const struct transport_ops transport_mbox_ops = { .put_events = transport_mbox_put_events, .set_events = transport_mbox_update_events, .clear_events = transport_mbox_update_events, }; /* Command Handlers */ /* * Command: RESET_STATE * Reset the LPC mapping to point back at the flash, or memory in case we're * using a virtual pnor. */ static int mbox_handle_reset(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { return context->protocol->reset(context); } /* * Command: GET_MBOX_INFO * Get the API version, default window size and block size * We also set the LPC mapping to point to the reserved memory region here so * this command must be called before any window manipulation * * V1: * ARGS[0]: API Version * * RESP[0]: API Version * RESP[1:2]: Default read window size (number of blocks) * RESP[3:4]: Default write window size (number of blocks) * RESP[5]: Block size (as shift) * * V2: * ARGS[0]: API Version * * RESP[0]: API Version * RESP[1:2]: Default read window size (number of blocks) * RESP[3:4]: Default write window size (number of blocks) * RESP[5]: Block size (as shift) */ static int mbox_handle_mbox_info(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { uint8_t mbox_api_version = req->msg.args[0]; struct protocol_get_info io = { .req = { .api_version = mbox_api_version } }; int rc; rc = context->protocol->get_info(context, &io); if (rc < 0) { return rc; } /* * Switch transport to mbox, however we need to delay flushing the * event state until after the command is processed. */ context->transport = &transport_mbox_ops; resp->args[0] = io.resp.api_version; if (io.resp.api_version == API_VERSION_1) { put_u16(&resp->args[1], io.resp.v1.read_window_size); put_u16(&resp->args[3], io.resp.v1.write_window_size); } else if (io.resp.api_version >= API_VERSION_2) { resp->args[5] = io.resp.v2.block_size_shift; put_u16(&resp->args[6], io.resp.v2.timeout); } return 0; } /* * Command: GET_FLASH_INFO * Get the flash size and erase granularity * * V1: * RESP[0:3]: Flash Size (bytes) * RESP[4:7]: Erase Size (bytes) * V2: * RESP[0:1]: Flash Size (number of blocks) * RESP[2:3]: Erase Size (number of blocks) */ static int mbox_handle_flash_info(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_get_flash_info io; int rc; rc = context->protocol->get_flash_info(context, &io); if (rc < 0) { return rc; } switch (context->version) { case API_VERSION_1: /* Both Sizes in Bytes */ put_u32(&resp->args[0], io.resp.v1.flash_size); put_u32(&resp->args[4], io.resp.v1.erase_size); break; case API_VERSION_2: /* Both Sizes in Block Size */ put_u16(&resp->args[0], io.resp.v2.flash_size); put_u16(&resp->args[2], io.resp.v2.erase_size); break; default: MSG_ERR("API Version Not Valid - Invalid System State\n"); return -MBOX_R_SYSTEM_ERROR; } 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 int mbox_handle_create_window(struct mbox_context *context, bool ro, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_create_window io; int rc; io.req.offset = get_u16(&req->msg.args[0]); io.req.ro = ro; rc = context->protocol->create_window(context, &io); if (rc < 0) { return rc; } put_u16(&resp->args[0], io.resp.lpc_address); if (context->version >= API_VERSION_2) { put_u16(&resp->args[2], io.resp.size); put_u16(&resp->args[4], io.resp.offset); } return 0; } /* * Command: CREATE_READ_WINDOW * Opens a read window * First checks if any current window with the requested data, if so we just * point the host to that. Otherwise we read the request data in from flash and * point the host there. * * V1: * ARGS[0:1]: Window Location as Offset into Flash (number of blocks) * * RESP[0:1]: LPC bus address for host to access this window (number of blocks) * * V2: * ARGS[0:1]: Window Location as Offset into Flash (number of blocks) * ARGS[2:3]: Requested window size (number of blocks) * * RESP[0:1]: LPC bus address for host to access this window (number of blocks) * RESP[2:3]: Actual window size that the host can access (number of blocks) */ static int mbox_handle_read_window(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { return mbox_handle_create_window(context, true, req, resp); } /* * Command: CREATE_WRITE_WINDOW * Opens a write window * First checks if any current window with the requested data, if so we just * point the host to that. Otherwise we read the request data in from flash and * point the host there. * * V1: * ARGS[0:1]: Window Location as Offset into Flash (number of blocks) * * RESP[0:1]: LPC bus address for host to access this window (number of blocks) * * V2: * ARGS[0:1]: Window Location as Offset into Flash (number of blocks) * ARGS[2:3]: Requested window size (number of blocks) * * RESP[0:1]: LPC bus address for host to access this window (number of blocks) * RESP[2:3]: Actual window size that was mapped/host can access (n.o. blocks) */ static int mbox_handle_write_window(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { return mbox_handle_create_window(context, false, req, resp); } /* * Commands: MARK_WRITE_DIRTY * Marks a portion of the current (write) window dirty, informing the daemon * that is has been written to and thus must be at some point written to the * backing store * These changes aren't written back to the backing store unless flush is then * called or the window closed * * V1: * ARGS[0:1]: Where within flash to start (number of blocks) * ARGS[2:5]: Number to mark dirty (number of bytes) * * V2: * ARGS[0:1]: Where within window to start (number of blocks) * ARGS[2:3]: Number to mark dirty (number of blocks) */ static int mbox_handle_dirty_window(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_mark_dirty io; if (context->version == API_VERSION_1) { io.req.v1.offset = get_u16(&req->msg.args[0]); io.req.v1.size = get_u32(&req->msg.args[2]); } else { io.req.v2.offset = get_u16(&req->msg.args[0]); io.req.v2.size = get_u16(&req->msg.args[2]); } return context->protocol->mark_dirty(context, &io); } /* * Commands: MARK_WRITE_ERASE * Erases a portion of the current window * These changes aren't written back to the backing store unless flush is then * called or the window closed * * V1: * Unimplemented * * V2: * ARGS[0:1]: Where within window to start (number of blocks) * ARGS[2:3]: Number to erase (number of blocks) */ static int mbox_handle_erase_window(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_erase io; io.req.offset = get_u16(&req->msg.args[0]); io.req.size = get_u16(&req->msg.args[2]); if (!context->protocol->erase) { MSG_ERR("Protocol Version invalid for Erase Command\n"); return -ENOTSUP; } return context->protocol->erase(context, &io); } /* * Command: WRITE_FLUSH * Flushes any dirty or erased blocks in the current window back to the backing * store * NOTE: For V1 this behaves much the same as the dirty command in that it * takes an offset and number of blocks to dirty, then also performs a flush as * part of the same command. For V2 this will only flush blocks already marked * dirty/erased with the appropriate commands and doesn't take any arguments * directly. * * V1: * ARGS[0:1]: Where within window to start (number of blocks) * ARGS[2:5]: Number to mark dirty (number of bytes) * * V2: * NONE */ static int mbox_handle_flush_window(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_flush io = { 0 }; if (context->version == API_VERSION_1) { io.req.offset = get_u16(&req->msg.args[0]); io.req.size = get_u32(&req->msg.args[2]); } return context->protocol->flush(context, &io); } /* * Command: CLOSE_WINDOW * Close the current window * NOTE: There is an implicit flush * * V1: * NONE * * V2: * ARGS[0]: FLAGS */ static int mbox_handle_close_window(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_close io = { 0 }; if (context->version >= API_VERSION_2) { io.req.flags = req->msg.args[0]; } return context->protocol->close(context, &io); } /* * Command: BMC_EVENT_ACK * Sent by the host to acknowledge BMC events supplied in mailbox register 15 * * ARGS[0]: Bitmap of bits to ack (by clearing) */ static int mbox_handle_ack(struct mbox_context *context, union mbox_regs *req, struct mbox_msg *resp) { struct protocol_ack io; io.req.flags = req->msg.args[0]; return context->protocol->ack(context, &io); } /* * check_req_valid() - Check if the given request is a valid mbox request * @context: The mbox context pointer * @cmd: The request registers * * Return: 0 if request is valid otherwise negative error code */ static int check_req_valid(struct mbox_context *context, union mbox_regs *req) { uint8_t cmd = req->msg.command; uint8_t seq = req->msg.seq; if (cmd > NUM_MBOX_CMDS) { MSG_ERR("Unknown mbox command: %d\n", cmd); return -ENOTSUP; } if (seq == context->prev_seq && cmd != MBOX_C_GET_MBOX_INFO) { MSG_ERR("Invalid sequence number: %d, previous: %d\n", seq, context->prev_seq); return -EBADMSG; } if (context->state & STATE_SUSPENDED) { if (cmd != MBOX_C_GET_MBOX_INFO && cmd != MBOX_C_ACK) { MSG_ERR("Cannot use that cmd while suspended: %d\n", cmd); return -EBUSY; } } if (context->transport != &transport_mbox_ops) { if (cmd != MBOX_C_RESET_STATE && cmd != MBOX_C_GET_MBOX_INFO) { MSG_ERR("Cannot switch transport with command %d\n", cmd); return -EPROTO; } } if (!(context->state & MAPS_MEM)) { if (cmd != MBOX_C_RESET_STATE && cmd != MBOX_C_GET_MBOX_INFO && cmd != MBOX_C_ACK) { MSG_ERR("Must call GET_MBOX_INFO before %d\n", cmd); return -EPROTO; } } return 0; } typedef int (*mboxd_mbox_handler)(struct mbox_context *, union mbox_regs *, struct mbox_msg *); static const mboxd_mbox_handler transport_mbox_handlers[] = { mbox_handle_reset, mbox_handle_mbox_info, mbox_handle_flash_info, mbox_handle_read_window, mbox_handle_close_window, mbox_handle_write_window, mbox_handle_dirty_window, mbox_handle_flush_window, mbox_handle_ack, mbox_handle_erase_window }; /* * handle_mbox_req() - Handle an incoming mbox command request * @context: The mbox context pointer * @req: The mbox request message * * Return: 0 if handled successfully otherwise negative error code */ static int handle_mbox_req(struct mbox_context *context, union mbox_regs *req) { const struct transport_ops *old_transport = context->transport; struct mbox_msg resp = { .command = req->msg.command, .seq = req->msg.seq, .args = { 0 }, .response = MBOX_R_SUCCESS }; int rc = 0, len, i; MSG_INFO("Received MBOX command: %u\n", req->msg.command); rc = check_req_valid(context, req); if (!rc) { mboxd_mbox_handler handler; /* Commands start at 1 so we have to subtract 1 from the cmd */ handler = transport_mbox_handlers[req->msg.command - 1]; rc = handler(context, req, &resp); if (rc < 0) { MSG_ERR("Error handling mbox cmd: %d\n", req->msg.command); } } rc = mbox_xlate_errno(context, rc); resp.response = rc; context->prev_seq = req->msg.seq; MSG_DBG("Writing MBOX response:\n"); MSG_DBG("MBOX cmd: %u\n", resp.command); MSG_DBG("MBOX seq: %u\n", resp.seq); for (i = 0; i < MBOX_ARGS_BYTES; i++) { MSG_DBG("MBOX arg[%d]: 0x%.2x\n", i, resp.args[i]); } MSG_INFO("Writing MBOX response: %u\n", resp.response); len = write(context->fds[MBOX_FD].fd, &resp, sizeof(resp)); if (len < sizeof(resp)) { MSG_ERR("Didn't write the full response\n"); rc = -errno; } if (context->transport != old_transport && context->transport == &transport_mbox_ops) { /* A bit messy, but we need the correct event mask */ protocol_events_set(context, context->bmc_events); } return rc; } /* * get_message() - Read an mbox request message from the mbox registers * @context: The mbox context pointer * @msg: Where to put the received message * * Return: 0 if read successfully otherwise negative error code */ static int get_message(struct mbox_context *context, union mbox_regs *msg) { int rc, i; rc = read(context->fds[MBOX_FD].fd, msg, sizeof(msg->raw)); if (rc < 0) { MSG_ERR("Couldn't read: %s\n", strerror(errno)); return -errno; } else if (rc < sizeof(msg->raw)) { MSG_ERR("Short read: %d expecting %zu\n", rc, sizeof(msg->raw)); return -1; } MSG_DBG("Received MBOX request:\n"); MSG_DBG("MBOX cmd: %u\n", msg->msg.command); MSG_DBG("MBOX seq: %u\n", msg->msg.seq); for (i = 0; i < MBOX_ARGS_BYTES; i++) { MSG_DBG("MBOX arg[%d]: 0x%.2x\n", i, msg->msg.args[i]); } return 0; } /* * transport_mbox_dispatch() - handle an mbox interrupt * @context: The mbox context pointer * * Return: 0 if handled successfully otherwise negative error code */ int transport_mbox_dispatch(struct mbox_context *context) { int rc = 0; union mbox_regs req = { 0 }; assert(context); rc = get_message(context, &req); if (rc) { return rc; } return handle_mbox_req(context, &req); } int __transport_mbox_init(struct mbox_context *context, const char *path) { int fd; context->transport = &transport_mbox_ops; /* Open MBOX Device */ fd = open(path, O_RDWR | O_NONBLOCK); if (fd < 0) { MSG_ERR("Couldn't open %s with flags O_RDWR: %s\n", path, strerror(errno)); return -errno; } MSG_DBG("Opened mbox dev: %s\n", path); context->fds[MBOX_FD].fd = fd; return 0; } int transport_mbox_init(struct mbox_context *context, const struct transport_ops **ops) { int rc; rc = __transport_mbox_init(context, MBOX_HOST_PATH); if (rc) return rc; if (ops) { *ops = &transport_mbox_ops; } return 0; } void transport_mbox_free(struct mbox_context *context) { close(context->fds[MBOX_FD].fd); }