#include #include #if defined (BIOS) # include #elif defined (UEFI) # include #endif #include #include #include #include // cache the dhcp packet uint8_t cached_dhcp_packet[DHCP_ACK_PACKET_LEN] = { 0 }; bool cached_dhcp_ack_valid = false; #if defined (BIOS) static uint32_t get_boot_server_info(void) { struct pxenv_get_cached_info cachedinfo = { 0 }; cachedinfo.packet_type = PXENV_PACKET_TYPE_CACHED_REPLY; pxe_call(PXENV_GET_CACHED_INFO, ((uint16_t)rm_seg(&cachedinfo)), (uint16_t)rm_off(&cachedinfo)); struct bootph *ph = (struct bootph*)(void *) (((((uint32_t)cachedinfo.buffer) >> 16) << 4) + (((uint32_t)cachedinfo.buffer) & 0xFFFF)); if (!cached_dhcp_ack_valid) { memcpy(cached_dhcp_packet, ph, DHCP_ACK_PACKET_LEN); cached_dhcp_ack_valid = true; } return ph->sip; } static uint32_t parse_ip_addr(const char *server_addr) { uint32_t out; if (!server_addr || !strlen(server_addr)) { return get_boot_server_info(); } if (inet_pton(server_addr, &out)) { panic(true, "tftp: Invalid IPv4 address: \"%s\"", server_addr); } return out; } struct file_handle *tftp_open(struct volume *part, const char *server_addr, const char *name) { uint32_t server_ip = parse_ip_addr(server_addr); const uint16_t server_port = 69; // This couldn't be changed previously either int ret = 0; (void)part; struct PXENV_UNDI_GET_INFORMATION undi_info = { 0 }; ret = pxe_call(UNDI_GET_INFORMATION, ((uint16_t)rm_seg(&undi_info)), (uint16_t)rm_off(&undi_info)); if (ret) { return NULL; } //TODO figure out a more proper way to do this. uint16_t mtu = undi_info.MaxTranUnit - 48; struct pxenv_get_file_size fsize = { .status = 0, .sip = server_ip, }; strcpy((char*)fsize.name, name); ret = pxe_call(TFTP_GET_FILE_SIZE, ((uint16_t)rm_seg(&fsize)), (uint16_t)rm_off(&fsize)); if (ret) { return NULL; } struct file_handle *handle = ext_mem_alloc(sizeof(struct file_handle)); handle->size = fsize.file_size; handle->is_memfile = true; handle->pxe = true; handle->pxe_ip = server_ip; handle->pxe_port = server_port; size_t name_len = strlen(name); handle->path = ext_mem_alloc(1 + name_len + 1); handle->path[0] = '/'; memcpy(&handle->path[1], name, name_len); handle->path_len = 1 + name_len + 1; struct pxenv_open open = { .status = 0, .sip = server_ip, .port = (server_port) << 8, .packet_size = mtu }; strcpy((char*)open.name, name); ret = pxe_call(TFTP_OPEN, ((uint16_t)rm_seg(&open)), (uint16_t)rm_off(&open)); if (ret) { print("tftp: Failed to open file %x or bad packet size", open.status); pmm_free(handle, sizeof(struct file_handle)); return NULL; } mtu = open.packet_size; uint8_t *buf = conv_mem_alloc(mtu); handle->fd = ext_mem_alloc(handle->size); size_t progress = 0; bool slow = false; while (progress < handle->size) { struct pxenv_read read = { .boff = ((uint16_t)rm_off(buf)), .bseg = ((uint16_t)rm_seg(buf)), }; ret = pxe_call(TFTP_READ, ((uint16_t)rm_seg(&read)), (uint16_t)rm_off(&read)); if (ret) { panic(false, "tftp: Read failure"); } memcpy(handle->fd + progress, buf, read.bsize); progress += read.bsize; if (read.bsize < mtu && !slow && progress < handle->size) { slow = true; print("tftp: Server is sending the file in smaller packets (it sent %d bytes), download might take longer.\n", read.bsize); } } uint16_t close = 0; ret = pxe_call(TFTP_CLOSE, ((uint16_t)rm_seg(&close)), (uint16_t)rm_off(&close)); if (ret) { panic(false, "tftp: Close failure"); } pmm_free(buf, mtu); return handle; } #elif defined (UEFI) static EFI_IP_ADDRESS *parse_ip_addr(struct volume *part, const char *server_addr) { static EFI_IP_ADDRESS out; if (!server_addr || !strlen(server_addr)) { EFI_PXE_BASE_CODE_PACKET* packet; if (part->pxe_base_code->Mode->PxeReplyReceived) packet = &part->pxe_base_code->Mode->PxeReply; else if (part->pxe_base_code->Mode->ProxyOfferReceived) packet = &part->pxe_base_code->Mode->ProxyOffer; else packet = &part->pxe_base_code->Mode->DhcpAck; memcpy(out.Addr, packet->Dhcpv4.BootpSiAddr, 4); if (!cached_dhcp_ack_valid) { memcpy(cached_dhcp_packet, packet, DHCP_ACK_PACKET_LEN); cached_dhcp_ack_valid = true; } } else { if (inet_pton(server_addr, &out.Addr)) { panic(true, "tftp: Invalid IPv4 address: \"%s\"", server_addr); } } return &out; } struct file_handle *tftp_open(struct volume *part, const char *server_addr, const char *name) { if (!part->pxe_base_code) { return NULL; } EFI_IP_ADDRESS *ip = parse_ip_addr(part, server_addr); uint64_t file_size; EFI_STATUS status; status = part->pxe_base_code->Mtftp( part->pxe_base_code, EFI_PXE_BASE_CODE_TFTP_GET_FILE_SIZE, NULL, false, &file_size, NULL, ip, (uint8_t *)name, NULL, false); if (status) { return NULL; } struct file_handle *handle = ext_mem_alloc(sizeof(struct file_handle)); handle->size = file_size; handle->is_memfile = true; handle->pxe = true; handle->pxe_ip = *(uint32_t *)&ip; handle->pxe_port = 69; size_t name_len = strlen(name); handle->path = ext_mem_alloc(1 + name_len + 1); handle->path[0] = '/'; memcpy(&handle->path[1], name, name_len); handle->path_len = 1 + name_len + 1; handle->fd = ext_mem_alloc(handle->size); status = part->pxe_base_code->Mtftp( part->pxe_base_code, EFI_PXE_BASE_CODE_TFTP_READ_FILE, handle->fd, false, &file_size, NULL, ip, (uint8_t *)name, NULL, false); if (status) { return NULL; } return handle; } #endif