// SPDX-License-Identifier: GPL-2.0-only // Interface to PSP for CCP/SEV-TIO/SNP-VM #include #include #include #include #include #include #include #include #include #include "sev-dev.h" #include "sev-dev-tio.h" #define to_tio_status(dev_data) \ (container_of((dev_data), struct tio_dsm, data)->sev->tio_status) #define SLA_PAGE_TYPE_DATA 0 #define SLA_PAGE_TYPE_SCATTER 1 #define SLA_PAGE_SIZE_4K 0 #define SLA_PAGE_SIZE_2M 1 #define SLA_SZ(s) ((s).page_size == SLA_PAGE_SIZE_2M ? SZ_2M : SZ_4K) #define SLA_SCATTER_LEN(s) (SLA_SZ(s) / sizeof(struct sla_addr_t)) #define SLA_EOL ((struct sla_addr_t) { .pfn = ((1UL << 40) - 1) }) #define SLA_NULL ((struct sla_addr_t) { 0 }) #define IS_SLA_NULL(s) ((s).sla == SLA_NULL.sla) #define IS_SLA_EOL(s) ((s).sla == SLA_EOL.sla) static phys_addr_t sla_to_pa(struct sla_addr_t sla) { u64 pfn = sla.pfn; u64 pa = pfn << PAGE_SHIFT; return pa; } static void *sla_to_va(struct sla_addr_t sla) { void *va = __va(__sme_clr(sla_to_pa(sla))); return va; } #define sla_to_pfn(sla) (__pa(sla_to_va(sla)) >> PAGE_SHIFT) #define sla_to_page(sla) virt_to_page(sla_to_va(sla)) static struct sla_addr_t make_sla(struct page *pg, bool stp) { u64 pa = __sme_set(page_to_phys(pg)); struct sla_addr_t ret = { .pfn = pa >> PAGE_SHIFT, .page_size = SLA_PAGE_SIZE_4K, /* Do not do SLA_PAGE_SIZE_2M ATM */ .page_type = stp ? SLA_PAGE_TYPE_SCATTER : SLA_PAGE_TYPE_DATA }; return ret; } /* the BUFFER Structure */ #define SLA_BUFFER_FLAG_ENCRYPTION BIT(0) /* * struct sla_buffer_hdr - Scatter list address buffer header * * @capacity_sz: Total capacity of the buffer in bytes * @payload_sz: Size of buffer payload in bytes, must be multiple of 32B * @flags: Buffer flags (SLA_BUFFER_FLAG_ENCRYPTION: buffer is encrypted) * @iv: Initialization vector used for encryption * @authtag: Authentication tag for encrypted buffer */ struct sla_buffer_hdr { u32 capacity_sz; u32 payload_sz; /* The size of BUFFER_PAYLOAD in bytes. Must be multiple of 32B */ u32 flags; u8 reserved1[4]; u8 iv[16]; /* IV used for the encryption of this buffer */ u8 authtag[16]; /* Authentication tag for this buffer */ u8 reserved2[16]; } __packed; enum spdm_data_type_t { DOBJ_DATA_TYPE_SPDM = 0x1, DOBJ_DATA_TYPE_SECURE_SPDM = 0x2, }; struct spdm_dobj_hdr_req { struct spdm_dobj_hdr hdr; /* hdr.id == SPDM_DOBJ_ID_REQ */ u8 data_type; /* spdm_data_type_t */ u8 reserved2[5]; } __packed; struct spdm_dobj_hdr_resp { struct spdm_dobj_hdr hdr; /* hdr.id == SPDM_DOBJ_ID_RESP */ u8 data_type; /* spdm_data_type_t */ u8 reserved2[5]; } __packed; /* Defined in sev-dev-tio.h so sev-dev-tsm.c can read types of blobs */ struct spdm_dobj_hdr_cert; struct spdm_dobj_hdr_meas; struct spdm_dobj_hdr_report; /* Used in all SPDM-aware TIO commands */ struct spdm_ctrl { struct sla_addr_t req; struct sla_addr_t resp; struct sla_addr_t scratch; struct sla_addr_t output; } __packed; static size_t sla_dobj_id_to_size(u8 id) { size_t n; BUILD_BUG_ON(sizeof(struct spdm_dobj_hdr_resp) != 0x10); switch (id) { case SPDM_DOBJ_ID_REQ: n = sizeof(struct spdm_dobj_hdr_req); break; case SPDM_DOBJ_ID_RESP: n = sizeof(struct spdm_dobj_hdr_resp); break; default: WARN_ON(1); n = 0; break; } return n; } #define SPDM_DOBJ_HDR_SIZE(hdr) sla_dobj_id_to_size((hdr)->id) #define SPDM_DOBJ_DATA(hdr) ((u8 *)(hdr) + SPDM_DOBJ_HDR_SIZE(hdr)) #define SPDM_DOBJ_LEN(hdr) ((hdr)->length - SPDM_DOBJ_HDR_SIZE(hdr)) #define sla_to_dobj_resp_hdr(buf) ((struct spdm_dobj_hdr_resp *) \ sla_to_dobj_hdr_check((buf), SPDM_DOBJ_ID_RESP)) #define sla_to_dobj_req_hdr(buf) ((struct spdm_dobj_hdr_req *) \ sla_to_dobj_hdr_check((buf), SPDM_DOBJ_ID_REQ)) static struct spdm_dobj_hdr *sla_to_dobj_hdr(struct sla_buffer_hdr *buf) { if (!buf) return NULL; return (struct spdm_dobj_hdr *) &buf[1]; } static struct spdm_dobj_hdr *sla_to_dobj_hdr_check(struct sla_buffer_hdr *buf, u32 check_dobjid) { struct spdm_dobj_hdr *hdr = sla_to_dobj_hdr(buf); if (WARN_ON_ONCE(!hdr)) return NULL; if (hdr->id != check_dobjid) { pr_err("! ERROR: expected %d, found %d\n", check_dobjid, hdr->id); return NULL; } return hdr; } static void *sla_to_data(struct sla_buffer_hdr *buf, u32 dobjid) { struct spdm_dobj_hdr *hdr = sla_to_dobj_hdr(buf); if (WARN_ON_ONCE(dobjid != SPDM_DOBJ_ID_REQ && dobjid != SPDM_DOBJ_ID_RESP)) return NULL; if (!hdr) return NULL; return (u8 *) hdr + sla_dobj_id_to_size(dobjid); } /* * struct sev_data_tio_status - SEV_CMD_TIO_STATUS command * * @length: Length of this command buffer in bytes * @status_paddr: System physical address of the TIO_STATUS structure */ struct sev_data_tio_status { u32 length; u8 reserved[4]; u64 status_paddr; } __packed; /* TIO_INIT */ struct sev_data_tio_init { u32 length; u8 reserved[12]; } __packed; /* * struct sev_data_tio_dev_create - TIO_DEV_CREATE command * * @length: Length in bytes of this command buffer * @dev_ctx_sla: Scatter list address pointing to a buffer to be used as a device context buffer * @device_id: PCIe Routing Identifier of the device to connect to * @root_port_id: PCIe Routing Identifier of the root port of the device * @segment_id: PCIe Segment Identifier of the device to connect to */ struct sev_data_tio_dev_create { u32 length; u8 reserved1[4]; struct sla_addr_t dev_ctx_sla; u16 device_id; u16 root_port_id; u8 segment_id; u8 reserved2[11]; } __packed; /* * struct sev_data_tio_dev_connect - TIO_DEV_CONNECT command * * @length: Length in bytes of this command buffer * @spdm_ctrl: SPDM control structure defined in Section 5.1 * @dev_ctx_sla: Scatter list address of the device context buffer * @tc_mask: Bitmask of the traffic classes to initialize for SEV-TIO usage. * Setting the kth bit of the TC_MASK to 1 indicates that the traffic * class k will be initialized * @cert_slot: Slot number of the certificate requested for constructing the SPDM session * @ide_stream_id: IDE stream IDs to be associated with this device. * Valid only if corresponding bit in TC_MASK is set */ struct sev_data_tio_dev_connect { u32 length; u8 reserved1[4]; struct spdm_ctrl spdm_ctrl; u8 reserved2[8]; struct sla_addr_t dev_ctx_sla; u8 tc_mask; u8 cert_slot; u8 reserved3[6]; u8 ide_stream_id[8]; u8 reserved4[8]; } __packed; /* * struct sev_data_tio_dev_disconnect - TIO_DEV_DISCONNECT command * * @length: Length in bytes of this command buffer * @flags: Command flags (TIO_DEV_DISCONNECT_FLAG_FORCE: force disconnect) * @spdm_ctrl: SPDM control structure defined in Section 5.1 * @dev_ctx_sla: Scatter list address of the device context buffer */ #define TIO_DEV_DISCONNECT_FLAG_FORCE BIT(0) struct sev_data_tio_dev_disconnect { u32 length; u32 flags; struct spdm_ctrl spdm_ctrl; struct sla_addr_t dev_ctx_sla; } __packed; /* * struct sev_data_tio_dev_meas - TIO_DEV_MEASUREMENTS command * * @length: Length in bytes of this command buffer * @flags: Command flags (TIO_DEV_MEAS_FLAG_RAW_BITSTREAM: request raw measurements) * @spdm_ctrl: SPDM control structure defined in Section 5.1 * @dev_ctx_sla: Scatter list address of the device context buffer * @meas_nonce: Nonce for measurement freshness verification */ #define TIO_DEV_MEAS_FLAG_RAW_BITSTREAM BIT(0) struct sev_data_tio_dev_meas { u32 length; u32 flags; struct spdm_ctrl spdm_ctrl; struct sla_addr_t dev_ctx_sla; u8 meas_nonce[32]; } __packed; /* * struct sev_data_tio_dev_certs - TIO_DEV_CERTIFICATES command * * @length: Length in bytes of this command buffer * @spdm_ctrl: SPDM control structure defined in Section 5.1 * @dev_ctx_sla: Scatter list address of the device context buffer */ struct sev_data_tio_dev_certs { u32 length; u8 reserved[4]; struct spdm_ctrl spdm_ctrl; struct sla_addr_t dev_ctx_sla; } __packed; /* * struct sev_data_tio_dev_reclaim - TIO_DEV_RECLAIM command * * @length: Length in bytes of this command buffer * @dev_ctx_sla: Scatter list address of the device context buffer * * This command reclaims resources associated with a device context. */ struct sev_data_tio_dev_reclaim { u32 length; u8 reserved[4]; struct sla_addr_t dev_ctx_sla; } __packed; static struct sla_buffer_hdr *sla_buffer_map(struct sla_addr_t sla) { struct sla_buffer_hdr *buf; BUILD_BUG_ON(sizeof(struct sla_buffer_hdr) != 0x40); if (IS_SLA_NULL(sla)) return NULL; if (sla.page_type == SLA_PAGE_TYPE_SCATTER) { struct sla_addr_t *scatter = sla_to_va(sla); unsigned int i, npages = 0; for (i = 0; i < SLA_SCATTER_LEN(sla); ++i) { if (WARN_ON_ONCE(SLA_SZ(scatter[i]) > SZ_4K)) return NULL; if (WARN_ON_ONCE(scatter[i].page_type == SLA_PAGE_TYPE_SCATTER)) return NULL; if (IS_SLA_EOL(scatter[i])) { npages = i; break; } } if (WARN_ON_ONCE(!npages)) return NULL; struct page **pp = kmalloc_array(npages, sizeof(pp[0]), GFP_KERNEL); if (!pp) return NULL; for (i = 0; i < npages; ++i) pp[i] = sla_to_page(scatter[i]); buf = vm_map_ram(pp, npages, 0); kfree(pp); } else { struct page *pg = sla_to_page(sla); buf = vm_map_ram(&pg, 1, 0); } return buf; } static void sla_buffer_unmap(struct sla_addr_t sla, struct sla_buffer_hdr *buf) { if (!buf) return; if (sla.page_type == SLA_PAGE_TYPE_SCATTER) { struct sla_addr_t *scatter = sla_to_va(sla); unsigned int i, npages = 0; for (i = 0; i < SLA_SCATTER_LEN(sla); ++i) { if (IS_SLA_EOL(scatter[i])) { npages = i; break; } } if (!npages) return; vm_unmap_ram(buf, npages); } else { vm_unmap_ram(buf, 1); } } static void dobj_response_init(struct sla_buffer_hdr *buf) { struct spdm_dobj_hdr *dobj = sla_to_dobj_hdr(buf); dobj->id = SPDM_DOBJ_ID_RESP; dobj->version.major = 0x1; dobj->version.minor = 0; dobj->length = 0; buf->payload_sz = sla_dobj_id_to_size(dobj->id) + dobj->length; } static void sla_free(struct sla_addr_t sla, size_t len, bool firmware_state) { unsigned int npages = PAGE_ALIGN(len) >> PAGE_SHIFT; struct sla_addr_t *scatter = NULL; int ret = 0, i; if (IS_SLA_NULL(sla)) return; if (firmware_state) { if (sla.page_type == SLA_PAGE_TYPE_SCATTER) { scatter = sla_to_va(sla); for (i = 0; i < npages; ++i) { if (IS_SLA_EOL(scatter[i])) break; ret = snp_reclaim_pages(sla_to_pa(scatter[i]), 1, false); if (ret) break; } } else { ret = snp_reclaim_pages(sla_to_pa(sla), 1, false); } } if (WARN_ON(ret)) return; if (scatter) { for (i = 0; i < npages; ++i) { if (IS_SLA_EOL(scatter[i])) break; free_page((unsigned long)sla_to_va(scatter[i])); } } free_page((unsigned long)sla_to_va(sla)); } static struct sla_addr_t sla_alloc(size_t len, bool firmware_state) { unsigned long i, npages = PAGE_ALIGN(len) >> PAGE_SHIFT; struct sla_addr_t *scatter = NULL; struct sla_addr_t ret = SLA_NULL; struct sla_buffer_hdr *buf; struct page *pg; if (npages == 0) return ret; if (WARN_ON_ONCE(npages > ((PAGE_SIZE / sizeof(struct sla_addr_t)) + 1))) return ret; BUILD_BUG_ON(PAGE_SIZE < SZ_4K); if (npages > 1) { pg = alloc_page(GFP_KERNEL | __GFP_ZERO); if (!pg) return SLA_NULL; ret = make_sla(pg, true); scatter = page_to_virt(pg); for (i = 0; i < npages; ++i) { pg = alloc_page(GFP_KERNEL | __GFP_ZERO); if (!pg) goto no_reclaim_exit; scatter[i] = make_sla(pg, false); } scatter[i] = SLA_EOL; } else { pg = alloc_page(GFP_KERNEL | __GFP_ZERO); if (!pg) return SLA_NULL; ret = make_sla(pg, false); } buf = sla_buffer_map(ret); if (!buf) goto no_reclaim_exit; buf->capacity_sz = (npages << PAGE_SHIFT); sla_buffer_unmap(ret, buf); if (firmware_state) { if (scatter) { for (i = 0; i < npages; ++i) { if (rmp_make_private(sla_to_pfn(scatter[i]), 0, PG_LEVEL_4K, 0, true)) goto free_exit; } } else { if (rmp_make_private(sla_to_pfn(ret), 0, PG_LEVEL_4K, 0, true)) goto no_reclaim_exit; } } return ret; no_reclaim_exit: firmware_state = false; free_exit: sla_free(ret, len, firmware_state); return SLA_NULL; } /* Expands a buffer, only firmware owned buffers allowed for now */ static int sla_expand(struct sla_addr_t *sla, size_t *len) { struct sla_buffer_hdr *oldbuf = sla_buffer_map(*sla), *newbuf; struct sla_addr_t oldsla = *sla, newsla; size_t oldlen = *len, newlen; if (!oldbuf) return -EFAULT; newlen = oldbuf->capacity_sz; if (oldbuf->capacity_sz == oldlen) { /* This buffer does not require expansion, must be another buffer */ sla_buffer_unmap(oldsla, oldbuf); return 1; } pr_notice("Expanding BUFFER from %ld to %ld bytes\n", oldlen, newlen); newsla = sla_alloc(newlen, true); if (IS_SLA_NULL(newsla)) return -ENOMEM; newbuf = sla_buffer_map(newsla); if (!newbuf) { sla_free(newsla, newlen, true); return -EFAULT; } memcpy(newbuf, oldbuf, oldlen); sla_buffer_unmap(newsla, newbuf); sla_free(oldsla, oldlen, true); *sla = newsla; *len = newlen; return 0; } static int sev_tio_do_cmd(int cmd, void *data, size_t data_len, int *psp_ret, struct tsm_dsm_tio *dev_data) { int rc; *psp_ret = 0; rc = sev_do_cmd(cmd, data, psp_ret); if (WARN_ON(!rc && *psp_ret == SEV_RET_SPDM_REQUEST)) return -EIO; if (rc == 0 && *psp_ret == SEV_RET_EXPAND_BUFFER_LENGTH_REQUEST) { int rc1, rc2; rc1 = sla_expand(&dev_data->output, &dev_data->output_len); if (rc1 < 0) return rc1; rc2 = sla_expand(&dev_data->scratch, &dev_data->scratch_len); if (rc2 < 0) return rc2; if (!rc1 && !rc2) /* Neither buffer requires expansion, this is wrong */ return -EFAULT; *psp_ret = 0; rc = sev_do_cmd(cmd, data, psp_ret); } if ((rc == 0 || rc == -EIO) && *psp_ret == SEV_RET_SPDM_REQUEST) { struct spdm_dobj_hdr_resp *resp_hdr; struct spdm_dobj_hdr_req *req_hdr; struct sev_tio_status *tio_status = to_tio_status(dev_data); size_t resp_len = tio_status->spdm_req_size_max - (sla_dobj_id_to_size(SPDM_DOBJ_ID_RESP) + sizeof(struct sla_buffer_hdr)); if (!dev_data->cmd) { if (WARN_ON_ONCE(!data_len || (data_len != *(u32 *) data))) return -EINVAL; if (WARN_ON(data_len > sizeof(dev_data->cmd_data))) return -EFAULT; memcpy(dev_data->cmd_data, data, data_len); memset(&dev_data->cmd_data[data_len], 0xFF, sizeof(dev_data->cmd_data) - data_len); dev_data->cmd = cmd; } req_hdr = sla_to_dobj_req_hdr(dev_data->reqbuf); resp_hdr = sla_to_dobj_resp_hdr(dev_data->respbuf); switch (req_hdr->data_type) { case DOBJ_DATA_TYPE_SPDM: rc = PCI_DOE_FEATURE_CMA; break; case DOBJ_DATA_TYPE_SECURE_SPDM: rc = PCI_DOE_FEATURE_SSESSION; break; default: return -EINVAL; } resp_hdr->data_type = req_hdr->data_type; dev_data->spdm.req_len = req_hdr->hdr.length - sla_dobj_id_to_size(SPDM_DOBJ_ID_REQ); dev_data->spdm.rsp_len = resp_len; } else if (dev_data && dev_data->cmd) { /* For either error or success just stop the bouncing */ memset(dev_data->cmd_data, 0, sizeof(dev_data->cmd_data)); dev_data->cmd = 0; } return rc; } int sev_tio_continue(struct tsm_dsm_tio *dev_data) { struct spdm_dobj_hdr_resp *resp_hdr; int ret; if (!dev_data || !dev_data->cmd) return -EINVAL; resp_hdr = sla_to_dobj_resp_hdr(dev_data->respbuf); resp_hdr->hdr.length = ALIGN(sla_dobj_id_to_size(SPDM_DOBJ_ID_RESP) + dev_data->spdm.rsp_len, 32); dev_data->respbuf->payload_sz = resp_hdr->hdr.length; ret = sev_tio_do_cmd(dev_data->cmd, dev_data->cmd_data, 0, &dev_data->psp_ret, dev_data); if (ret) return ret; if (dev_data->psp_ret != SEV_RET_SUCCESS) return -EINVAL; return 0; } static void spdm_ctrl_init(struct spdm_ctrl *ctrl, struct tsm_dsm_tio *dev_data) { ctrl->req = dev_data->req; ctrl->resp = dev_data->resp; ctrl->scratch = dev_data->scratch; ctrl->output = dev_data->output; } static void spdm_ctrl_free(struct tsm_dsm_tio *dev_data) { struct sev_tio_status *tio_status = to_tio_status(dev_data); size_t len = tio_status->spdm_req_size_max - (sla_dobj_id_to_size(SPDM_DOBJ_ID_RESP) + sizeof(struct sla_buffer_hdr)); struct tsm_spdm *spdm = &dev_data->spdm; sla_buffer_unmap(dev_data->resp, dev_data->respbuf); sla_buffer_unmap(dev_data->req, dev_data->reqbuf); spdm->rsp = NULL; spdm->req = NULL; sla_free(dev_data->req, len, true); sla_free(dev_data->resp, len, false); sla_free(dev_data->scratch, tio_status->spdm_scratch_size_max, true); dev_data->req.sla = 0; dev_data->resp.sla = 0; dev_data->scratch.sla = 0; dev_data->respbuf = NULL; dev_data->reqbuf = NULL; sla_free(dev_data->output, tio_status->spdm_out_size_max, true); } static int spdm_ctrl_alloc(struct tsm_dsm_tio *dev_data) { struct sev_tio_status *tio_status = to_tio_status(dev_data); struct tsm_spdm *spdm = &dev_data->spdm; int ret; dev_data->req = sla_alloc(tio_status->spdm_req_size_max, true); dev_data->resp = sla_alloc(tio_status->spdm_req_size_max, false); dev_data->scratch_len = tio_status->spdm_scratch_size_max; dev_data->scratch = sla_alloc(dev_data->scratch_len, true); dev_data->output_len = tio_status->spdm_out_size_max; dev_data->output = sla_alloc(dev_data->output_len, true); if (IS_SLA_NULL(dev_data->req) || IS_SLA_NULL(dev_data->resp) || IS_SLA_NULL(dev_data->scratch) || IS_SLA_NULL(dev_data->dev_ctx)) { ret = -ENOMEM; goto free_spdm_exit; } dev_data->reqbuf = sla_buffer_map(dev_data->req); dev_data->respbuf = sla_buffer_map(dev_data->resp); if (!dev_data->reqbuf || !dev_data->respbuf) { ret = -EFAULT; goto free_spdm_exit; } spdm->req = sla_to_data(dev_data->reqbuf, SPDM_DOBJ_ID_REQ); spdm->rsp = sla_to_data(dev_data->respbuf, SPDM_DOBJ_ID_RESP); if (!spdm->req || !spdm->rsp) { ret = -EFAULT; goto free_spdm_exit; } dobj_response_init(dev_data->respbuf); return 0; free_spdm_exit: spdm_ctrl_free(dev_data); return ret; } int sev_tio_init_locked(void *tio_status_page) { struct sev_tio_status *tio_status = tio_status_page; struct sev_data_tio_status data_status = { .length = sizeof(data_status), }; int ret, psp_ret; data_status.status_paddr = __psp_pa(tio_status_page); ret = __sev_do_cmd_locked(SEV_CMD_TIO_STATUS, &data_status, &psp_ret); if (ret) return ret; if (tio_status->length < offsetofend(struct sev_tio_status, tdictx_size) || tio_status->reserved) return -EFAULT; if (!tio_status->tio_en && !tio_status->tio_init_done) return -ENOENT; if (tio_status->tio_init_done) return -EBUSY; struct sev_data_tio_init ti = { .length = sizeof(ti) }; ret = __sev_do_cmd_locked(SEV_CMD_TIO_INIT, &ti, &psp_ret); if (ret) return ret; ret = __sev_do_cmd_locked(SEV_CMD_TIO_STATUS, &data_status, &psp_ret); if (ret) return ret; return 0; } int sev_tio_dev_create(struct tsm_dsm_tio *dev_data, u16 device_id, u16 root_port_id, u8 segment_id) { struct sev_tio_status *tio_status = to_tio_status(dev_data); struct sev_data_tio_dev_create create = { .length = sizeof(create), .device_id = device_id, .root_port_id = root_port_id, .segment_id = segment_id, }; void *data_pg; int ret; dev_data->dev_ctx = sla_alloc(tio_status->devctx_size, true); if (IS_SLA_NULL(dev_data->dev_ctx)) return -ENOMEM; data_pg = snp_alloc_firmware_page(GFP_KERNEL_ACCOUNT); if (!data_pg) { ret = -ENOMEM; goto free_ctx_exit; } create.dev_ctx_sla = dev_data->dev_ctx; ret = sev_do_cmd(SEV_CMD_TIO_DEV_CREATE, &create, &dev_data->psp_ret); if (ret) goto free_data_pg_exit; dev_data->data_pg = data_pg; return 0; free_data_pg_exit: snp_free_firmware_page(data_pg); free_ctx_exit: sla_free(create.dev_ctx_sla, tio_status->devctx_size, true); return ret; } int sev_tio_dev_reclaim(struct tsm_dsm_tio *dev_data) { struct sev_tio_status *tio_status = to_tio_status(dev_data); struct sev_data_tio_dev_reclaim r = { .length = sizeof(r), .dev_ctx_sla = dev_data->dev_ctx, }; int ret; if (dev_data->data_pg) { snp_free_firmware_page(dev_data->data_pg); dev_data->data_pg = NULL; } if (IS_SLA_NULL(dev_data->dev_ctx)) return 0; ret = sev_do_cmd(SEV_CMD_TIO_DEV_RECLAIM, &r, &dev_data->psp_ret); sla_free(dev_data->dev_ctx, tio_status->devctx_size, true); dev_data->dev_ctx = SLA_NULL; spdm_ctrl_free(dev_data); return ret; } int sev_tio_dev_connect(struct tsm_dsm_tio *dev_data, u8 tc_mask, u8 ids[8], u8 cert_slot) { struct sev_data_tio_dev_connect connect = { .length = sizeof(connect), .tc_mask = tc_mask, .cert_slot = cert_slot, .dev_ctx_sla = dev_data->dev_ctx, .ide_stream_id = { ids[0], ids[1], ids[2], ids[3], ids[4], ids[5], ids[6], ids[7] }, }; int ret; if (WARN_ON(IS_SLA_NULL(dev_data->dev_ctx))) return -EFAULT; if (!(tc_mask & 1)) return -EINVAL; ret = spdm_ctrl_alloc(dev_data); if (ret) return ret; spdm_ctrl_init(&connect.spdm_ctrl, dev_data); return sev_tio_do_cmd(SEV_CMD_TIO_DEV_CONNECT, &connect, sizeof(connect), &dev_data->psp_ret, dev_data); } int sev_tio_dev_disconnect(struct tsm_dsm_tio *dev_data, bool force) { struct sev_data_tio_dev_disconnect dc = { .length = sizeof(dc), .dev_ctx_sla = dev_data->dev_ctx, .flags = force ? TIO_DEV_DISCONNECT_FLAG_FORCE : 0, }; if (WARN_ON_ONCE(IS_SLA_NULL(dev_data->dev_ctx))) return -EFAULT; spdm_ctrl_init(&dc.spdm_ctrl, dev_data); return sev_tio_do_cmd(SEV_CMD_TIO_DEV_DISCONNECT, &dc, sizeof(dc), &dev_data->psp_ret, dev_data); } int sev_tio_cmd_buffer_len(int cmd) { switch (cmd) { case SEV_CMD_TIO_STATUS: return sizeof(struct sev_data_tio_status); case SEV_CMD_TIO_INIT: return sizeof(struct sev_data_tio_init); case SEV_CMD_TIO_DEV_CREATE: return sizeof(struct sev_data_tio_dev_create); case SEV_CMD_TIO_DEV_RECLAIM: return sizeof(struct sev_data_tio_dev_reclaim); case SEV_CMD_TIO_DEV_CONNECT: return sizeof(struct sev_data_tio_dev_connect); case SEV_CMD_TIO_DEV_DISCONNECT: return sizeof(struct sev_data_tio_dev_disconnect); default: return 0; } }