/* support for networking enabled bootloader */ #include "network.h" #if AP_BOOTLOADER_NETWORK_ENABLED #include #include #include #include #include #include #if LWIP_DHCP #include #endif #include #include "../../modules/ChibiOS/os/various/evtimer.h" #include #include #include #include "support.h" #include "bl_protocol.h" #include #include "app_comms.h" #include "can.h" #include #include #include #ifndef AP_NETWORKING_BOOTLOADER_DEFAULT_MAC_ADDR #define AP_NETWORKING_BOOTLOADER_DEFAULT_MAC_ADDR "C2:AF:51:03:CF:46" #endif #ifndef AP_NETWORKING_BOOTLOADER_DEFAULT_IP #define AP_NETWORKING_BOOTLOADER_DEFAULT_IP "192.168.1.100" #endif #ifndef AP_NETWORKING_BOOTLOADER_DEFAULT_GATEWAY #define AP_NETWORKING_BOOTLOADER_DEFAULT_GATEWAY "192.168.1.1" #endif #ifndef AP_NETWORKING_BOOTLOADER_DEFAULT_NETMASK #define AP_NETWORKING_BOOTLOADER_DEFAULT_NETMASK "255.255.255.0" #endif #ifndef AP_BOOTLOADER_NETWORK_USE_DHCP #define AP_BOOTLOADER_NETWORK_USE_DHCP 0 #endif #define LWIP_SEND_TIMEOUT_MS 50 #define LWIP_NETIF_MTU 1500 #define LWIP_LINK_POLL_INTERVAL TIME_S2I(5) #define PERIODIC_TIMER_ID 1 #define FRAME_RECEIVED_ID 2 #define MIN(a,b) ((a)<(b)?(a):(b)) void BL_Network::link_up_cb(void *p) { auto *driver = (BL_Network *)p; #if AP_BOOTLOADER_NETWORK_USE_DHCP dhcp_start(driver->thisif); #endif char ipstr[IP4_STR_LEN]; can_printf("IP %s", SocketAPM::inet_addr_to_str(ntohl(driver->thisif->ip_addr.addr), ipstr, sizeof(ipstr))); } void BL_Network::link_down_cb(void *p) { #if AP_BOOTLOADER_NETWORK_USE_DHCP auto *driver = (BL_Network *)p; dhcp_stop(driver->thisif); #endif } /* * This function does the actual transmission of the packet. The packet is * contained in the pbuf that is passed to the function. This pbuf * might be chained. * * @param netif the lwip network interface structure for this ethernetif * @param p the MAC packet to send (e.g. IP packet including MAC addresses and type) * @return ERR_OK if the packet could be sent * an err_t value if the packet couldn't be sent * * @note Returning ERR_MEM here if a DMA queue of your MAC is full can lead to * strange results. You might consider waiting for space in the DMA queue * to become available since the stack doesn't retry to send a packet * dropped because of memory failure (except for the TCP timers). */ int8_t BL_Network::low_level_output(struct netif *netif, struct pbuf *p) { struct pbuf *q; MACTransmitDescriptor td; (void)netif; if (macWaitTransmitDescriptor(ÐD1, &td, TIME_MS2I(LWIP_SEND_TIMEOUT_MS)) != MSG_OK) { return ERR_TIMEOUT; } #if ETH_PAD_SIZE pbuf_header(p, -ETH_PAD_SIZE); /* drop the padding word */ #endif /* Iterates through the pbuf chain. */ for(q = p; q != NULL; q = q->next) { macWriteTransmitDescriptor(&td, (uint8_t *)q->payload, (size_t)q->len); } macReleaseTransmitDescriptorX(&td); #if ETH_PAD_SIZE pbuf_header(p, ETH_PAD_SIZE); /* reclaim the padding word */ #endif return ERR_OK; } /* * Receives a frame. * Allocates a pbuf and transfers the bytes of the incoming * packet from the interface into the pbuf. * * @param netif the lwip network interface structure for this ethernetif * @return a pbuf filled with the received packet (including MAC header) * NULL on memory error */ bool BL_Network::low_level_input(struct netif *netif, struct pbuf **pbuf) { MACReceiveDescriptor rd; struct pbuf *q; u16_t len; (void)netif; if (macWaitReceiveDescriptor(ÐD1, &rd, TIME_IMMEDIATE) != MSG_OK) { return false; } len = (u16_t)rd.size; #if ETH_PAD_SIZE len += ETH_PAD_SIZE; /* allow room for Ethernet padding */ #endif /* We allocate a pbuf chain of pbufs from the pool. */ *pbuf = pbuf_alloc(PBUF_RAW, len, PBUF_POOL); if (*pbuf != nullptr) { #if ETH_PAD_SIZE pbuf_header(*pbuf, -ETH_PAD_SIZE); /* drop the padding word */ #endif /* Iterates through the pbuf chain. */ for(q = *pbuf; q != NULL; q = q->next) { macReadReceiveDescriptor(&rd, (uint8_t *)q->payload, (size_t)q->len); } macReleaseReceiveDescriptorX(&rd); #if ETH_PAD_SIZE pbuf_header(*pbuf, ETH_PAD_SIZE); /* reclaim the padding word */ #endif } else { macReleaseReceiveDescriptorX(&rd); // Drop packet } return true; } int8_t BL_Network::ethernetif_init(struct netif *netif) { netif->state = NULL; netif->name[0] = 'm'; netif->name[1] = 's'; netif->output = etharp_output; netif->linkoutput = low_level_output; /* set MAC hardware address length */ netif->hwaddr_len = ETHARP_HWADDR_LEN; /* maximum transfer unit */ netif->mtu = LWIP_NETIF_MTU; /* device capabilities */ netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP; #if LWIP_IGMP // also enable multicast netif->flags |= NETIF_FLAG_IGMP; #endif return ERR_OK; } /* networking thread */ void BL_Network::net_thread() { /* start tcpip thread */ tcpip_init(NULL, NULL); thread_sleep_ms(100); AP_Networking::convert_str_to_macaddr(AP_NETWORKING_BOOTLOADER_DEFAULT_MAC_ADDR, thisif->hwaddr); ip4_addr_t ip, gateway, netmask; if (addr.ip == 0) { // no IP from AP_Periph, use defaults ip.addr = htonl(SocketAPM::inet_str_to_addr(AP_NETWORKING_BOOTLOADER_DEFAULT_IP)); gateway.addr = htonl(SocketAPM::inet_str_to_addr(AP_NETWORKING_BOOTLOADER_DEFAULT_GATEWAY)); netmask.addr = htonl(SocketAPM::inet_str_to_addr(AP_NETWORKING_BOOTLOADER_DEFAULT_NETMASK)); } else { // use addresses from AP_Periph ip.addr = htonl(addr.ip); netmask.addr = htonl(addr.netmask); gateway.addr = htonl(addr.gateway); } const MACConfig mac_config = {thisif->hwaddr}; macStart(ÐD1, &mac_config); /* Add interface. */ auto result = netifapi_netif_add(thisif, &ip, &netmask, &gateway, NULL, ethernetif_init, tcpip_input); if (result != ERR_OK) { AP_HAL::panic("Failed to initialise netif"); } netifapi_netif_set_default(thisif); netifapi_netif_set_up(thisif); /* Setup event sources.*/ event_timer_t evt; event_listener_t el0, el1; evtObjectInit(&evt, LWIP_LINK_POLL_INTERVAL); evtStart(&evt); chEvtRegisterMask(&evt.et_es, &el0, PERIODIC_TIMER_ID); chEvtRegisterMaskWithFlags(macGetEventSource(ÐD1), &el1, FRAME_RECEIVED_ID, MAC_FLAGS_RX); chEvtAddEvents(PERIODIC_TIMER_ID | FRAME_RECEIVED_ID); while (true) { eventmask_t mask = chEvtWaitAny(ALL_EVENTS); if (mask & PERIODIC_TIMER_ID) { bool current_link_status = macPollLinkStatus(ÐD1); if (current_link_status != netif_is_link_up(thisif)) { if (current_link_status) { tcpip_callback_with_block((tcpip_callback_fn) netif_set_link_up, thisif, 0); tcpip_callback_with_block(link_up_cb, this, 0); } else { tcpip_callback_with_block((tcpip_callback_fn) netif_set_link_down, thisif, 0); tcpip_callback_with_block(link_down_cb, this, 0); } } } if (mask & FRAME_RECEIVED_ID) { struct pbuf *p; while (low_level_input(thisif, &p)) { if (p != NULL) { struct eth_hdr *ethhdr = (struct eth_hdr *)p->payload; switch (htons(ethhdr->type)) { /* IP or ARP packet? */ case ETHTYPE_IP: case ETHTYPE_ARP: /* full packet send to tcpip_thread to process */ if (thisif->input(p, thisif) == ERR_OK) { break; } /* Falls through */ default: pbuf_free(p); } } } } } } void BL_Network::net_thread_trampoline(void *ctx) { auto *net = (BL_Network *)ctx; net->net_thread(); } void BL_Network::web_server_trampoline(void *ctx) { auto *net = (BL_Network *)ctx; net->web_server(); } #define STR_HELPER(x) #x #define STR(x) STR_HELPER(x) BL_Network::web_var BL_Network::variables[] = { { "BOARD_NAME", CHIBIOS_BOARD_NAME }, { "BOARD_ID", STR(APJ_BOARD_ID) }, { "FLASH_SIZE", STR(BOARD_FLASH_SIZE) }, }; /* substitute variables of the form {VARNAME} */ char *BL_Network::substitute_vars(const char *str, uint32_t size) { // assume 1024 is enough room for new variables char *result = (char *)malloc(strlen(str) + 1024); if (result == nullptr) { return nullptr; } char *p = result; const char *str0 = str; while (*str && str-str0recv(&c, 1, 100); if (n != 1) { break; } *p++ = c; if (p-ret >= 4 && strcmp(p-4, "\r\n\r\n") == 0) { break; } } return ret; } /* handle an incoming HTTP POST request */ void BL_Network::handle_post(SocketAPM *sock, uint32_t content_length) { /* skip over form boundary. We don't care about the filename as we only support one file */ uint8_t state = 0; while (true) { char c; if (sock->recv(&c, 1, 100) != 1) { return; } content_length--; // absorb up to \r\n\r\n if (c == '\r') { if (state == 2) { state = 3; } else { state = 1; } } else if (c == '\n') { if (state == 1 || state == 3) { state++; } else { state = 0; } if (state == 4) { break; } } else { state = 0; } } /* erase all of flash */ status_printf("Erasing ..."); flash_set_keep_unlocked(true); uint32_t sec=0; while (flash_func_sector_size(sec) != 0 && flash_func_erase_sector(sec)) { thread_sleep_ms(10); sec++; if (stm32_flash_getpageaddr(sec) - stm32_flash_getpageaddr(0) >= content_length) { break; } } /* receive file and write to flash */ uint32_t buf[128]; uint32_t ofs = 0; // must be multiple of 4 content_length &= ~3; const uint32_t max_ofs = MIN(BOARD_FLASH_SIZE*1024, content_length); uint8_t last_pct = 0; while (ofs < max_ofs) { const uint32_t needed = MIN(sizeof(buf), max_ofs-ofs); auto n = sock->recv((void*)buf, needed, 10000); if (n <= 0) { break; } // we need a whole number of words if (n % 4 != 0 && n < needed) { auto n2 = sock->recv(((uint8_t*)buf)+n, 4 - n%4, 10000); if (n2 > 0) { n += n2; } } flash_write_buffer(ofs, buf, n/4); ofs += n; uint8_t pct = ofs*100/max_ofs; if (pct % 10 == 0 && last_pct != pct) { last_pct = pct; status_printf("Flashing %u%%", unsigned(pct)); } } if (ofs % 32 != 0) { // pad to 32 bytes memset(buf, 0xff, sizeof(buf)); flash_write_buffer(ofs, buf, (32 - ofs%32)/4); } flash_write_flush(); flash_set_keep_unlocked(false); const auto ok = check_good_firmware(); if (ok == check_fw_result_t::CHECK_FW_OK) { need_launch = true; status_printf("Flash done: OK"); const char *str = "Flash OK, booting"; sock->send(str, strlen(str)); } else { status_printf("Flash done: ERR:%u", unsigned(ok)); } } /* handle an incoming HTTP request */ void BL_Network::handle_request(SocketAPM *sock) { /* read HTTP headers */ char *headers = read_headers(sock); const char *header = "HTTP/1.1 200 OK\r\n" "Content-Type: text/html\r\n" "Connection: close\r\n" "\r\n"; sock->send(header, strlen(header)); if (strncmp(headers, "POST / ", 7) == 0) { const char *clen = "\r\nContent-Length:"; const char *p = strstr(headers, clen); if (p != nullptr) { p += strlen(clen); const uint32_t content_length = atoi(p); handle_post(sock, content_length); delete headers; delete sock; return; } } /* check for async status */ const char *get_status = "GET /bootloader_status.html"; if (strncmp(headers, get_status, strlen(get_status)) == 0) { { WITH_SEMAPHORE(status_mtx); sock->send(bl_status, strlen(bl_status)); } delete headers; delete sock; return; } const char *get_reboot = "GET /REBOOT"; if (strncmp(headers, get_reboot, strlen(get_reboot)) == 0) { need_reboot = true; } uint32_t size = 0; const auto *msg = AP_ROMFS::find_decompress("index.html", size); if (need_reboot) { const char *str = ""; sock->send(str, strlen(str)); } else { char *msg2 = substitute_vars((const char *)msg, size); sock->send(msg2, strlen(msg2)); delete msg2; } delete headers; delete sock; AP_ROMFS::free(msg); } struct req_context { BL_Network *driver; SocketAPM *sock; }; void BL_Network::net_request_trampoline(void *ctx) { auto *req = (req_context *)ctx; req->driver->handle_request(req->sock); auto *driver = req->driver; auto *thd = chThdGetSelfX(); delete req; WITH_SEMAPHORE(driver->web_delete_mtx); thd->delete_next = driver->web_delete_list; driver->web_delete_list = thd; } /* web server thread */ void BL_Network::web_server(void) { auto *listen_socket = new SocketAPM(0); listen_socket->bind("0.0.0.0", 80); listen_socket->listen(20); while (true) { auto *sock = listen_socket->accept(20); if (need_reboot) { need_reboot = false; NVIC_SystemReset(); } if (need_launch) { need_launch = false; thread_sleep_ms(1000); jump_to_app(); } if (sock == nullptr) { continue; } // a new thread for each connection to allow for AJAX auto *req = new req_context; req->driver = this; req->sock = sock; thread_create_alloc(THD_WORKING_AREA_SIZE(2048), "web_request", 60, net_request_trampoline, req); // cleanup any finished threads WITH_SEMAPHORE(web_delete_mtx); while (web_delete_list != nullptr) { auto *thd = web_delete_list; web_delete_list = thd->delete_next; chThdRelease(thd); } } } /* initialise bootloader networking */ void BL_Network::init() { AP_Networking_ChibiOS::allocate_buffers(); macInit(); thisif = new netif; net_thread_ctx = thread_create_alloc(THD_WORKING_AREA_SIZE(2048), "network", 60, net_thread_trampoline, this); thread_create_alloc(THD_WORKING_AREA_SIZE(2048), "web_server", 60, web_server_trampoline, this); } /* save IP address from AP_Periph */ void BL_Network::save_comms_ip(void) { struct app_bootloader_comms *comms = (struct app_bootloader_comms *)HAL_RAM0_START; if (comms->magic == APP_BOOTLOADER_COMMS_MAGIC && comms->ip != 0) { addr.ip = comms->ip; addr.netmask = comms->netmask; addr.gateway = comms->gateway; } } /* update status message */ void BL_Network::status_printf(const char *fmt, ...) { WITH_SEMAPHORE(status_mtx); va_list ap; va_start(ap, fmt); vsnprintf(bl_status, sizeof(bl_status), fmt, ap); va_end(ap); can_printf("%s", bl_status); } #endif // AP_BOOTLOADER_NETWORK_ENABLED