1f69767a1SWei Huang // SPDX-License-Identifier: GPL-2.0
2f69767a1SWei Huang /*
3f69767a1SWei Huang * TPH (TLP Processing Hints) support
4f69767a1SWei Huang *
5f69767a1SWei Huang * Copyright (C) 2024 Advanced Micro Devices, Inc.
6f69767a1SWei Huang * Eric Van Tassell <Eric.VanTassell@amd.com>
7f69767a1SWei Huang * Wei Huang <wei.huang2@amd.com>
8f69767a1SWei Huang */
9f69767a1SWei Huang #include <linux/pci.h>
10d2e8a348SWei Huang #include <linux/pci-acpi.h>
11d2e8a348SWei Huang #include <linux/msi.h>
12f69767a1SWei Huang #include <linux/bitfield.h>
13f69767a1SWei Huang #include <linux/pci-tph.h>
14f69767a1SWei Huang
15f69767a1SWei Huang #include "pci.h"
16f69767a1SWei Huang
17f69767a1SWei Huang /* System-wide TPH disabled */
18f69767a1SWei Huang static bool pci_tph_disabled;
19f69767a1SWei Huang
20d2e8a348SWei Huang #ifdef CONFIG_ACPI
21d2e8a348SWei Huang /*
22d2e8a348SWei Huang * The st_info struct defines the Steering Tag (ST) info returned by the
23d2e8a348SWei Huang * firmware PCI ACPI _DSM method (rev=0x7, func=0xF, "_DSM to Query Cache
24d2e8a348SWei Huang * Locality TPH Features"), as specified in the approved ECN for PCI Firmware
25d2e8a348SWei Huang * Spec and available at https://members.pcisig.com/wg/PCI-SIG/document/15470.
26d2e8a348SWei Huang *
27d2e8a348SWei Huang * @vm_st_valid: 8-bit ST for volatile memory is valid
28d2e8a348SWei Huang * @vm_xst_valid: 16-bit extended ST for volatile memory is valid
29d2e8a348SWei Huang * @vm_ph_ignore: 1 => PH was and will be ignored, 0 => PH should be supplied
30d2e8a348SWei Huang * @vm_st: 8-bit ST for volatile mem
31d2e8a348SWei Huang * @vm_xst: 16-bit extended ST for volatile mem
32d2e8a348SWei Huang * @pm_st_valid: 8-bit ST for persistent memory is valid
33d2e8a348SWei Huang * @pm_xst_valid: 16-bit extended ST for persistent memory is valid
34d2e8a348SWei Huang * @pm_ph_ignore: 1 => PH was and will be ignored, 0 => PH should be supplied
35d2e8a348SWei Huang * @pm_st: 8-bit ST for persistent mem
36d2e8a348SWei Huang * @pm_xst: 16-bit extended ST for persistent mem
37d2e8a348SWei Huang */
38d2e8a348SWei Huang union st_info {
39d2e8a348SWei Huang struct {
40d2e8a348SWei Huang u64 vm_st_valid : 1;
41d2e8a348SWei Huang u64 vm_xst_valid : 1;
42d2e8a348SWei Huang u64 vm_ph_ignore : 1;
43d2e8a348SWei Huang u64 rsvd1 : 5;
44d2e8a348SWei Huang u64 vm_st : 8;
45d2e8a348SWei Huang u64 vm_xst : 16;
46d2e8a348SWei Huang u64 pm_st_valid : 1;
47d2e8a348SWei Huang u64 pm_xst_valid : 1;
48d2e8a348SWei Huang u64 pm_ph_ignore : 1;
49d2e8a348SWei Huang u64 rsvd2 : 5;
50d2e8a348SWei Huang u64 pm_st : 8;
51d2e8a348SWei Huang u64 pm_xst : 16;
52d2e8a348SWei Huang };
53d2e8a348SWei Huang u64 value;
54d2e8a348SWei Huang };
55d2e8a348SWei Huang
tph_extract_tag(enum tph_mem_type mem_type,u8 req_type,union st_info * info)56d2e8a348SWei Huang static u16 tph_extract_tag(enum tph_mem_type mem_type, u8 req_type,
57d2e8a348SWei Huang union st_info *info)
58d2e8a348SWei Huang {
59d2e8a348SWei Huang switch (req_type) {
60d2e8a348SWei Huang case PCI_TPH_REQ_TPH_ONLY: /* 8-bit tag */
61d2e8a348SWei Huang switch (mem_type) {
62d2e8a348SWei Huang case TPH_MEM_TYPE_VM:
63d2e8a348SWei Huang if (info->vm_st_valid)
64d2e8a348SWei Huang return info->vm_st;
65d2e8a348SWei Huang break;
66d2e8a348SWei Huang case TPH_MEM_TYPE_PM:
67d2e8a348SWei Huang if (info->pm_st_valid)
68d2e8a348SWei Huang return info->pm_st;
69d2e8a348SWei Huang break;
70d2e8a348SWei Huang }
71d2e8a348SWei Huang break;
72d2e8a348SWei Huang case PCI_TPH_REQ_EXT_TPH: /* 16-bit tag */
73d2e8a348SWei Huang switch (mem_type) {
74d2e8a348SWei Huang case TPH_MEM_TYPE_VM:
75d2e8a348SWei Huang if (info->vm_xst_valid)
76d2e8a348SWei Huang return info->vm_xst;
77d2e8a348SWei Huang break;
78d2e8a348SWei Huang case TPH_MEM_TYPE_PM:
79d2e8a348SWei Huang if (info->pm_xst_valid)
80d2e8a348SWei Huang return info->pm_xst;
81d2e8a348SWei Huang break;
82d2e8a348SWei Huang }
83d2e8a348SWei Huang break;
84d2e8a348SWei Huang default:
85d2e8a348SWei Huang return 0;
86d2e8a348SWei Huang }
87d2e8a348SWei Huang
88d2e8a348SWei Huang return 0;
89d2e8a348SWei Huang }
90d2e8a348SWei Huang
91d2e8a348SWei Huang #define TPH_ST_DSM_FUNC_INDEX 0xF
tph_invoke_dsm(acpi_handle handle,u32 cpu_uid,union st_info * st_out)92d2e8a348SWei Huang static acpi_status tph_invoke_dsm(acpi_handle handle, u32 cpu_uid,
93d2e8a348SWei Huang union st_info *st_out)
94d2e8a348SWei Huang {
95d2e8a348SWei Huang union acpi_object arg3[3], in_obj, *out_obj;
96d2e8a348SWei Huang
97d2e8a348SWei Huang if (!acpi_check_dsm(handle, &pci_acpi_dsm_guid, 7,
98d2e8a348SWei Huang BIT(TPH_ST_DSM_FUNC_INDEX)))
99d2e8a348SWei Huang return AE_ERROR;
100d2e8a348SWei Huang
101d2e8a348SWei Huang /* DWORD: feature ID (0 for processor cache ST query) */
102d2e8a348SWei Huang arg3[0].integer.type = ACPI_TYPE_INTEGER;
103d2e8a348SWei Huang arg3[0].integer.value = 0;
104d2e8a348SWei Huang
105d2e8a348SWei Huang /* DWORD: target UID */
106d2e8a348SWei Huang arg3[1].integer.type = ACPI_TYPE_INTEGER;
107d2e8a348SWei Huang arg3[1].integer.value = cpu_uid;
108d2e8a348SWei Huang
109d2e8a348SWei Huang /* QWORD: properties, all 0's */
110d2e8a348SWei Huang arg3[2].integer.type = ACPI_TYPE_INTEGER;
111d2e8a348SWei Huang arg3[2].integer.value = 0;
112d2e8a348SWei Huang
113d2e8a348SWei Huang in_obj.type = ACPI_TYPE_PACKAGE;
114d2e8a348SWei Huang in_obj.package.count = ARRAY_SIZE(arg3);
115d2e8a348SWei Huang in_obj.package.elements = arg3;
116d2e8a348SWei Huang
117d2e8a348SWei Huang out_obj = acpi_evaluate_dsm(handle, &pci_acpi_dsm_guid, 7,
118d2e8a348SWei Huang TPH_ST_DSM_FUNC_INDEX, &in_obj);
119d2e8a348SWei Huang if (!out_obj)
120d2e8a348SWei Huang return AE_ERROR;
121d2e8a348SWei Huang
122d2e8a348SWei Huang if (out_obj->type != ACPI_TYPE_BUFFER) {
123d2e8a348SWei Huang ACPI_FREE(out_obj);
124d2e8a348SWei Huang return AE_ERROR;
125d2e8a348SWei Huang }
126d2e8a348SWei Huang
127d2e8a348SWei Huang st_out->value = *((u64 *)(out_obj->buffer.pointer));
128d2e8a348SWei Huang
129d2e8a348SWei Huang ACPI_FREE(out_obj);
130d2e8a348SWei Huang
131d2e8a348SWei Huang return AE_OK;
132d2e8a348SWei Huang }
133d2e8a348SWei Huang #endif
134d2e8a348SWei Huang
135d2e8a348SWei Huang /* Update the TPH Requester Enable field of TPH Control Register */
set_ctrl_reg_req_en(struct pci_dev * pdev,u8 req_type)136d2e8a348SWei Huang static void set_ctrl_reg_req_en(struct pci_dev *pdev, u8 req_type)
137d2e8a348SWei Huang {
138d2e8a348SWei Huang u32 reg;
139d2e8a348SWei Huang
140d2e8a348SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, ®);
141d2e8a348SWei Huang
142d2e8a348SWei Huang reg &= ~PCI_TPH_CTRL_REQ_EN_MASK;
143d2e8a348SWei Huang reg |= FIELD_PREP(PCI_TPH_CTRL_REQ_EN_MASK, req_type);
144d2e8a348SWei Huang
145d2e8a348SWei Huang pci_write_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, reg);
146d2e8a348SWei Huang }
147d2e8a348SWei Huang
get_st_modes(struct pci_dev * pdev)148f69767a1SWei Huang static u8 get_st_modes(struct pci_dev *pdev)
149f69767a1SWei Huang {
150f69767a1SWei Huang u32 reg;
151f69767a1SWei Huang
152f69767a1SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CAP, ®);
153f69767a1SWei Huang reg &= PCI_TPH_CAP_ST_NS | PCI_TPH_CAP_ST_IV | PCI_TPH_CAP_ST_DS;
154f69767a1SWei Huang
155f69767a1SWei Huang return reg;
156f69767a1SWei Huang }
157f69767a1SWei Huang
get_st_table_loc(struct pci_dev * pdev)158d2e8a348SWei Huang static u32 get_st_table_loc(struct pci_dev *pdev)
159d2e8a348SWei Huang {
160d2e8a348SWei Huang u32 reg;
161d2e8a348SWei Huang
162d2e8a348SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CAP, ®);
163d2e8a348SWei Huang
164d2e8a348SWei Huang return FIELD_GET(PCI_TPH_CAP_LOC_MASK, reg);
165d2e8a348SWei Huang }
166d2e8a348SWei Huang
167d2e8a348SWei Huang /*
168d2e8a348SWei Huang * Return the size of ST table. If ST table is not in TPH Requester Extended
169d2e8a348SWei Huang * Capability space, return 0. Otherwise return the ST Table Size + 1.
170d2e8a348SWei Huang */
get_st_table_size(struct pci_dev * pdev)171d2e8a348SWei Huang static u16 get_st_table_size(struct pci_dev *pdev)
172d2e8a348SWei Huang {
173d2e8a348SWei Huang u32 reg;
174d2e8a348SWei Huang u32 loc;
175d2e8a348SWei Huang
176d2e8a348SWei Huang /* Check ST table location first */
177d2e8a348SWei Huang loc = get_st_table_loc(pdev);
178d2e8a348SWei Huang
179d2e8a348SWei Huang /* Convert loc to match with PCI_TPH_LOC_* defined in pci_regs.h */
180d2e8a348SWei Huang loc = FIELD_PREP(PCI_TPH_CAP_LOC_MASK, loc);
181d2e8a348SWei Huang if (loc != PCI_TPH_LOC_CAP)
182d2e8a348SWei Huang return 0;
183d2e8a348SWei Huang
184d2e8a348SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CAP, ®);
185d2e8a348SWei Huang
186d2e8a348SWei Huang return FIELD_GET(PCI_TPH_CAP_ST_MASK, reg) + 1;
187d2e8a348SWei Huang }
188d2e8a348SWei Huang
189f69767a1SWei Huang /* Return device's Root Port completer capability */
get_rp_completer_type(struct pci_dev * pdev)190f69767a1SWei Huang static u8 get_rp_completer_type(struct pci_dev *pdev)
191f69767a1SWei Huang {
192f69767a1SWei Huang struct pci_dev *rp;
193f69767a1SWei Huang u32 reg;
194f69767a1SWei Huang int ret;
195f69767a1SWei Huang
196f69767a1SWei Huang rp = pcie_find_root_port(pdev);
197f69767a1SWei Huang if (!rp)
198f69767a1SWei Huang return 0;
199f69767a1SWei Huang
200f69767a1SWei Huang ret = pcie_capability_read_dword(rp, PCI_EXP_DEVCAP2, ®);
201f69767a1SWei Huang if (ret)
202f69767a1SWei Huang return 0;
203f69767a1SWei Huang
204f69767a1SWei Huang return FIELD_GET(PCI_EXP_DEVCAP2_TPH_COMP_MASK, reg);
205f69767a1SWei Huang }
206f69767a1SWei Huang
207d2e8a348SWei Huang /* Write ST to MSI-X vector control reg - Return 0 if OK, otherwise -errno */
write_tag_to_msix(struct pci_dev * pdev,int msix_idx,u16 tag)208d2e8a348SWei Huang static int write_tag_to_msix(struct pci_dev *pdev, int msix_idx, u16 tag)
209d2e8a348SWei Huang {
210d2e8a348SWei Huang #ifdef CONFIG_PCI_MSI
211d2e8a348SWei Huang struct msi_desc *msi_desc = NULL;
212d2e8a348SWei Huang void __iomem *vec_ctrl;
213d2e8a348SWei Huang u32 val;
214d2e8a348SWei Huang int err = 0;
215d2e8a348SWei Huang
216d2e8a348SWei Huang msi_lock_descs(&pdev->dev);
217d2e8a348SWei Huang
218d2e8a348SWei Huang /* Find the msi_desc entry with matching msix_idx */
219d2e8a348SWei Huang msi_for_each_desc(msi_desc, &pdev->dev, MSI_DESC_ASSOCIATED) {
220d2e8a348SWei Huang if (msi_desc->msi_index == msix_idx)
221d2e8a348SWei Huang break;
222d2e8a348SWei Huang }
223d2e8a348SWei Huang
224d2e8a348SWei Huang if (!msi_desc) {
225d2e8a348SWei Huang err = -ENXIO;
226d2e8a348SWei Huang goto err_out;
227d2e8a348SWei Huang }
228d2e8a348SWei Huang
229d2e8a348SWei Huang /* Get the vector control register (offset 0xc) pointed by msix_idx */
230d2e8a348SWei Huang vec_ctrl = pdev->msix_base + msix_idx * PCI_MSIX_ENTRY_SIZE;
231d2e8a348SWei Huang vec_ctrl += PCI_MSIX_ENTRY_VECTOR_CTRL;
232d2e8a348SWei Huang
233d2e8a348SWei Huang val = readl(vec_ctrl);
234d2e8a348SWei Huang val &= ~PCI_MSIX_ENTRY_CTRL_ST;
235d2e8a348SWei Huang val |= FIELD_PREP(PCI_MSIX_ENTRY_CTRL_ST, tag);
236d2e8a348SWei Huang writel(val, vec_ctrl);
237d2e8a348SWei Huang
238d2e8a348SWei Huang /* Read back to flush the update */
239d2e8a348SWei Huang val = readl(vec_ctrl);
240d2e8a348SWei Huang
241d2e8a348SWei Huang err_out:
242d2e8a348SWei Huang msi_unlock_descs(&pdev->dev);
243d2e8a348SWei Huang return err;
244d2e8a348SWei Huang #else
245d2e8a348SWei Huang return -ENODEV;
246d2e8a348SWei Huang #endif
247d2e8a348SWei Huang }
248d2e8a348SWei Huang
249d2e8a348SWei Huang /* Write tag to ST table - Return 0 if OK, otherwise -errno */
write_tag_to_st_table(struct pci_dev * pdev,int index,u16 tag)250d2e8a348SWei Huang static int write_tag_to_st_table(struct pci_dev *pdev, int index, u16 tag)
251d2e8a348SWei Huang {
252d2e8a348SWei Huang int st_table_size;
253d2e8a348SWei Huang int offset;
254d2e8a348SWei Huang
255d2e8a348SWei Huang /* Check if index is out of bound */
256d2e8a348SWei Huang st_table_size = get_st_table_size(pdev);
257d2e8a348SWei Huang if (index >= st_table_size)
258d2e8a348SWei Huang return -ENXIO;
259d2e8a348SWei Huang
260d2e8a348SWei Huang offset = pdev->tph_cap + PCI_TPH_BASE_SIZEOF + index * sizeof(u16);
261d2e8a348SWei Huang
262d2e8a348SWei Huang return pci_write_config_word(pdev, offset, tag);
263d2e8a348SWei Huang }
264d2e8a348SWei Huang
265d2e8a348SWei Huang /**
266d2e8a348SWei Huang * pcie_tph_get_cpu_st() - Retrieve Steering Tag for a target memory associated
267d2e8a348SWei Huang * with a specific CPU
268d2e8a348SWei Huang * @pdev: PCI device
269d2e8a348SWei Huang * @mem_type: target memory type (volatile or persistent RAM)
270d2e8a348SWei Huang * @cpu_uid: associated CPU id
271d2e8a348SWei Huang * @tag: Steering Tag to be returned
272d2e8a348SWei Huang *
273d2e8a348SWei Huang * Return the Steering Tag for a target memory that is associated with a
274d2e8a348SWei Huang * specific CPU as indicated by cpu_uid.
275d2e8a348SWei Huang *
276d2e8a348SWei Huang * Return: 0 if success, otherwise negative value (-errno)
277d2e8a348SWei Huang */
pcie_tph_get_cpu_st(struct pci_dev * pdev,enum tph_mem_type mem_type,unsigned int cpu_uid,u16 * tag)278d2e8a348SWei Huang int pcie_tph_get_cpu_st(struct pci_dev *pdev, enum tph_mem_type mem_type,
279d2e8a348SWei Huang unsigned int cpu_uid, u16 *tag)
280d2e8a348SWei Huang {
281d2e8a348SWei Huang #ifdef CONFIG_ACPI
282d2e8a348SWei Huang struct pci_dev *rp;
283d2e8a348SWei Huang acpi_handle rp_acpi_handle;
284d2e8a348SWei Huang union st_info info;
285d2e8a348SWei Huang
286d2e8a348SWei Huang rp = pcie_find_root_port(pdev);
287d2e8a348SWei Huang if (!rp || !rp->bus || !rp->bus->bridge)
288d2e8a348SWei Huang return -ENODEV;
289d2e8a348SWei Huang
290d2e8a348SWei Huang rp_acpi_handle = ACPI_HANDLE(rp->bus->bridge);
291d2e8a348SWei Huang
292d2e8a348SWei Huang if (tph_invoke_dsm(rp_acpi_handle, cpu_uid, &info) != AE_OK) {
293d2e8a348SWei Huang *tag = 0;
294d2e8a348SWei Huang return -EINVAL;
295d2e8a348SWei Huang }
296d2e8a348SWei Huang
297d2e8a348SWei Huang *tag = tph_extract_tag(mem_type, pdev->tph_req_type, &info);
298d2e8a348SWei Huang
299d2e8a348SWei Huang pci_dbg(pdev, "get steering tag: mem_type=%s, cpu_uid=%d, tag=%#04x\n",
300d2e8a348SWei Huang (mem_type == TPH_MEM_TYPE_VM) ? "volatile" : "persistent",
301d2e8a348SWei Huang cpu_uid, *tag);
302d2e8a348SWei Huang
303d2e8a348SWei Huang return 0;
304d2e8a348SWei Huang #else
305d2e8a348SWei Huang return -ENODEV;
306d2e8a348SWei Huang #endif
307d2e8a348SWei Huang }
308d2e8a348SWei Huang EXPORT_SYMBOL(pcie_tph_get_cpu_st);
309d2e8a348SWei Huang
310d2e8a348SWei Huang /**
311d2e8a348SWei Huang * pcie_tph_set_st_entry() - Set Steering Tag in the ST table entry
312d2e8a348SWei Huang * @pdev: PCI device
313d2e8a348SWei Huang * @index: ST table entry index
314d2e8a348SWei Huang * @tag: Steering Tag to be written
315d2e8a348SWei Huang *
316d2e8a348SWei Huang * Figure out the proper location of ST table, either in the MSI-X table or
317d2e8a348SWei Huang * in the TPH Extended Capability space, and write the Steering Tag into
318d2e8a348SWei Huang * the ST entry pointed by index.
319d2e8a348SWei Huang *
320d2e8a348SWei Huang * Return: 0 if success, otherwise negative value (-errno)
321d2e8a348SWei Huang */
pcie_tph_set_st_entry(struct pci_dev * pdev,unsigned int index,u16 tag)322d2e8a348SWei Huang int pcie_tph_set_st_entry(struct pci_dev *pdev, unsigned int index, u16 tag)
323d2e8a348SWei Huang {
324d2e8a348SWei Huang u32 loc;
325d2e8a348SWei Huang int err = 0;
326d2e8a348SWei Huang
327d2e8a348SWei Huang if (!pdev->tph_cap)
328d2e8a348SWei Huang return -EINVAL;
329d2e8a348SWei Huang
330d2e8a348SWei Huang if (!pdev->tph_enabled)
331d2e8a348SWei Huang return -EINVAL;
332d2e8a348SWei Huang
333d2e8a348SWei Huang /* No need to write tag if device is in "No ST Mode" */
334d2e8a348SWei Huang if (pdev->tph_mode == PCI_TPH_ST_NS_MODE)
335d2e8a348SWei Huang return 0;
336d2e8a348SWei Huang
337d2e8a348SWei Huang /*
338d2e8a348SWei Huang * Disable TPH before updating ST to avoid potential instability as
339d2e8a348SWei Huang * cautioned in PCIe r6.2, sec 6.17.3, "ST Modes of Operation"
340d2e8a348SWei Huang */
341d2e8a348SWei Huang set_ctrl_reg_req_en(pdev, PCI_TPH_REQ_DISABLE);
342d2e8a348SWei Huang
343d2e8a348SWei Huang loc = get_st_table_loc(pdev);
344d2e8a348SWei Huang /* Convert loc to match with PCI_TPH_LOC_* */
345d2e8a348SWei Huang loc = FIELD_PREP(PCI_TPH_CAP_LOC_MASK, loc);
346d2e8a348SWei Huang
347d2e8a348SWei Huang switch (loc) {
348d2e8a348SWei Huang case PCI_TPH_LOC_MSIX:
349d2e8a348SWei Huang err = write_tag_to_msix(pdev, index, tag);
350d2e8a348SWei Huang break;
351d2e8a348SWei Huang case PCI_TPH_LOC_CAP:
352d2e8a348SWei Huang err = write_tag_to_st_table(pdev, index, tag);
353d2e8a348SWei Huang break;
354d2e8a348SWei Huang default:
355d2e8a348SWei Huang err = -EINVAL;
356d2e8a348SWei Huang }
357d2e8a348SWei Huang
358d2e8a348SWei Huang if (err) {
359d2e8a348SWei Huang pcie_disable_tph(pdev);
360d2e8a348SWei Huang return err;
361d2e8a348SWei Huang }
362d2e8a348SWei Huang
363*6f64b83dSRobin Murphy set_ctrl_reg_req_en(pdev, pdev->tph_req_type);
364d2e8a348SWei Huang
365d2e8a348SWei Huang pci_dbg(pdev, "set steering tag: %s table, index=%d, tag=%#04x\n",
366d2e8a348SWei Huang (loc == PCI_TPH_LOC_MSIX) ? "MSI-X" : "ST", index, tag);
367d2e8a348SWei Huang
368d2e8a348SWei Huang return 0;
369d2e8a348SWei Huang }
370d2e8a348SWei Huang EXPORT_SYMBOL(pcie_tph_set_st_entry);
371d2e8a348SWei Huang
372f69767a1SWei Huang /**
373f69767a1SWei Huang * pcie_disable_tph - Turn off TPH support for device
374f69767a1SWei Huang * @pdev: PCI device
375f69767a1SWei Huang *
376f69767a1SWei Huang * Return: none
377f69767a1SWei Huang */
pcie_disable_tph(struct pci_dev * pdev)378f69767a1SWei Huang void pcie_disable_tph(struct pci_dev *pdev)
379f69767a1SWei Huang {
380f69767a1SWei Huang if (!pdev->tph_cap)
381f69767a1SWei Huang return;
382f69767a1SWei Huang
383f69767a1SWei Huang if (!pdev->tph_enabled)
384f69767a1SWei Huang return;
385f69767a1SWei Huang
386f69767a1SWei Huang pci_write_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, 0);
387f69767a1SWei Huang
388f69767a1SWei Huang pdev->tph_mode = 0;
389f69767a1SWei Huang pdev->tph_req_type = 0;
390f69767a1SWei Huang pdev->tph_enabled = 0;
391f69767a1SWei Huang }
392f69767a1SWei Huang EXPORT_SYMBOL(pcie_disable_tph);
393f69767a1SWei Huang
394f69767a1SWei Huang /**
395f69767a1SWei Huang * pcie_enable_tph - Enable TPH support for device using a specific ST mode
396f69767a1SWei Huang * @pdev: PCI device
397f69767a1SWei Huang * @mode: ST mode to enable. Current supported modes include:
398f69767a1SWei Huang *
399f69767a1SWei Huang * - PCI_TPH_ST_NS_MODE: NO ST Mode
400f69767a1SWei Huang * - PCI_TPH_ST_IV_MODE: Interrupt Vector Mode
401f69767a1SWei Huang * - PCI_TPH_ST_DS_MODE: Device Specific Mode
402f69767a1SWei Huang *
403f69767a1SWei Huang * Check whether the mode is actually supported by the device before enabling
404f69767a1SWei Huang * and return an error if not. Additionally determine what types of requests,
405f69767a1SWei Huang * TPH or extended TPH, can be issued by the device based on its TPH requester
406f69767a1SWei Huang * capability and the Root Port's completer capability.
407f69767a1SWei Huang *
408f69767a1SWei Huang * Return: 0 on success, otherwise negative value (-errno)
409f69767a1SWei Huang */
pcie_enable_tph(struct pci_dev * pdev,int mode)410f69767a1SWei Huang int pcie_enable_tph(struct pci_dev *pdev, int mode)
411f69767a1SWei Huang {
412f69767a1SWei Huang u32 reg;
413f69767a1SWei Huang u8 dev_modes;
414f69767a1SWei Huang u8 rp_req_type;
415f69767a1SWei Huang
416f69767a1SWei Huang /* Honor "notph" kernel parameter */
417f69767a1SWei Huang if (pci_tph_disabled)
418f69767a1SWei Huang return -EINVAL;
419f69767a1SWei Huang
420f69767a1SWei Huang if (!pdev->tph_cap)
421f69767a1SWei Huang return -EINVAL;
422f69767a1SWei Huang
423f69767a1SWei Huang if (pdev->tph_enabled)
424f69767a1SWei Huang return -EBUSY;
425f69767a1SWei Huang
426f69767a1SWei Huang /* Sanitize and check ST mode compatibility */
427f69767a1SWei Huang mode &= PCI_TPH_CTRL_MODE_SEL_MASK;
428f69767a1SWei Huang dev_modes = get_st_modes(pdev);
429f69767a1SWei Huang if (!((1 << mode) & dev_modes))
430f69767a1SWei Huang return -EINVAL;
431f69767a1SWei Huang
432f69767a1SWei Huang pdev->tph_mode = mode;
433f69767a1SWei Huang
434f69767a1SWei Huang /* Get req_type supported by device and its Root Port */
435f69767a1SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CAP, ®);
436f69767a1SWei Huang if (FIELD_GET(PCI_TPH_CAP_EXT_TPH, reg))
437f69767a1SWei Huang pdev->tph_req_type = PCI_TPH_REQ_EXT_TPH;
438f69767a1SWei Huang else
439f69767a1SWei Huang pdev->tph_req_type = PCI_TPH_REQ_TPH_ONLY;
440f69767a1SWei Huang
441f69767a1SWei Huang rp_req_type = get_rp_completer_type(pdev);
442f69767a1SWei Huang
443f69767a1SWei Huang /* Final req_type is the smallest value of two */
444f69767a1SWei Huang pdev->tph_req_type = min(pdev->tph_req_type, rp_req_type);
445f69767a1SWei Huang
446f69767a1SWei Huang if (pdev->tph_req_type == PCI_TPH_REQ_DISABLE)
447f69767a1SWei Huang return -EINVAL;
448f69767a1SWei Huang
449f69767a1SWei Huang /* Write them into TPH control register */
450f69767a1SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, ®);
451f69767a1SWei Huang
452f69767a1SWei Huang reg &= ~PCI_TPH_CTRL_MODE_SEL_MASK;
453f69767a1SWei Huang reg |= FIELD_PREP(PCI_TPH_CTRL_MODE_SEL_MASK, pdev->tph_mode);
454f69767a1SWei Huang
455f69767a1SWei Huang reg &= ~PCI_TPH_CTRL_REQ_EN_MASK;
456f69767a1SWei Huang reg |= FIELD_PREP(PCI_TPH_CTRL_REQ_EN_MASK, pdev->tph_req_type);
457f69767a1SWei Huang
458f69767a1SWei Huang pci_write_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, reg);
459f69767a1SWei Huang
460f69767a1SWei Huang pdev->tph_enabled = 1;
461f69767a1SWei Huang
462f69767a1SWei Huang return 0;
463f69767a1SWei Huang }
464f69767a1SWei Huang EXPORT_SYMBOL(pcie_enable_tph);
465f69767a1SWei Huang
pci_restore_tph_state(struct pci_dev * pdev)466f69767a1SWei Huang void pci_restore_tph_state(struct pci_dev *pdev)
467f69767a1SWei Huang {
468f69767a1SWei Huang struct pci_cap_saved_state *save_state;
469d2e8a348SWei Huang int num_entries, i, offset;
470d2e8a348SWei Huang u16 *st_entry;
471f69767a1SWei Huang u32 *cap;
472f69767a1SWei Huang
473f69767a1SWei Huang if (!pdev->tph_cap)
474f69767a1SWei Huang return;
475f69767a1SWei Huang
476f69767a1SWei Huang if (!pdev->tph_enabled)
477f69767a1SWei Huang return;
478f69767a1SWei Huang
479f69767a1SWei Huang save_state = pci_find_saved_ext_cap(pdev, PCI_EXT_CAP_ID_TPH);
480f69767a1SWei Huang if (!save_state)
481f69767a1SWei Huang return;
482f69767a1SWei Huang
483f69767a1SWei Huang /* Restore control register and all ST entries */
484f69767a1SWei Huang cap = &save_state->cap.data[0];
485f69767a1SWei Huang pci_write_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, *cap++);
486d2e8a348SWei Huang st_entry = (u16 *)cap;
487d2e8a348SWei Huang offset = PCI_TPH_BASE_SIZEOF;
488d2e8a348SWei Huang num_entries = get_st_table_size(pdev);
489d2e8a348SWei Huang for (i = 0; i < num_entries; i++) {
490d2e8a348SWei Huang pci_write_config_word(pdev, pdev->tph_cap + offset,
491d2e8a348SWei Huang *st_entry++);
492d2e8a348SWei Huang offset += sizeof(u16);
493d2e8a348SWei Huang }
494f69767a1SWei Huang }
495f69767a1SWei Huang
pci_save_tph_state(struct pci_dev * pdev)496f69767a1SWei Huang void pci_save_tph_state(struct pci_dev *pdev)
497f69767a1SWei Huang {
498f69767a1SWei Huang struct pci_cap_saved_state *save_state;
499d2e8a348SWei Huang int num_entries, i, offset;
500d2e8a348SWei Huang u16 *st_entry;
501f69767a1SWei Huang u32 *cap;
502f69767a1SWei Huang
503f69767a1SWei Huang if (!pdev->tph_cap)
504f69767a1SWei Huang return;
505f69767a1SWei Huang
506f69767a1SWei Huang if (!pdev->tph_enabled)
507f69767a1SWei Huang return;
508f69767a1SWei Huang
509f69767a1SWei Huang save_state = pci_find_saved_ext_cap(pdev, PCI_EXT_CAP_ID_TPH);
510f69767a1SWei Huang if (!save_state)
511f69767a1SWei Huang return;
512f69767a1SWei Huang
513f69767a1SWei Huang /* Save control register */
514f69767a1SWei Huang cap = &save_state->cap.data[0];
515f69767a1SWei Huang pci_read_config_dword(pdev, pdev->tph_cap + PCI_TPH_CTRL, cap++);
516d2e8a348SWei Huang
517d2e8a348SWei Huang /* Save all ST entries in extended capability structure */
518d2e8a348SWei Huang st_entry = (u16 *)cap;
519d2e8a348SWei Huang offset = PCI_TPH_BASE_SIZEOF;
520d2e8a348SWei Huang num_entries = get_st_table_size(pdev);
521d2e8a348SWei Huang for (i = 0; i < num_entries; i++) {
522d2e8a348SWei Huang pci_read_config_word(pdev, pdev->tph_cap + offset,
523d2e8a348SWei Huang st_entry++);
524d2e8a348SWei Huang offset += sizeof(u16);
525d2e8a348SWei Huang }
526f69767a1SWei Huang }
527f69767a1SWei Huang
pci_no_tph(void)528f69767a1SWei Huang void pci_no_tph(void)
529f69767a1SWei Huang {
530f69767a1SWei Huang pci_tph_disabled = true;
531f69767a1SWei Huang
532f69767a1SWei Huang pr_info("PCIe TPH is disabled\n");
533f69767a1SWei Huang }
534f69767a1SWei Huang
pci_tph_init(struct pci_dev * pdev)535f69767a1SWei Huang void pci_tph_init(struct pci_dev *pdev)
536f69767a1SWei Huang {
537d2e8a348SWei Huang int num_entries;
538f69767a1SWei Huang u32 save_size;
539f69767a1SWei Huang
540f69767a1SWei Huang pdev->tph_cap = pci_find_ext_capability(pdev, PCI_EXT_CAP_ID_TPH);
541f69767a1SWei Huang if (!pdev->tph_cap)
542f69767a1SWei Huang return;
543f69767a1SWei Huang
544d2e8a348SWei Huang num_entries = get_st_table_size(pdev);
545d2e8a348SWei Huang save_size = sizeof(u32) + num_entries * sizeof(u16);
546f69767a1SWei Huang pci_add_ext_cap_save_buffer(pdev, PCI_EXT_CAP_ID_TPH, save_size);
547f69767a1SWei Huang }
548