[PATCH v3 07/10] lib: sbi: Add support for Smepmp

Himanshu Chauhan hchauhan at ventanamicro.com
Tue Jul 11 21:34:33 PDT 2023


- If Smepmp is enabled, the access flags of an entry are determined based on
  truth table defined in Smepmp.
- First PMP entry (index 0) is reserved.
- Existing boot PMP entries start from index 1.
- Since enabling Smepmp revokes the access privileges of the M-mode software
  on S/U-mode region, first PMP entry is used to map/unmap the shared memory
  between M and S/U-mode. This allows a temporary access window for the M-mode
  software to read/write to S/U-mode memory region.

Signed-off-by: Himanshu Chauhan <hchauhan at ventanamicro.com>
---
 include/sbi/sbi_hart.h |  15 +++++
 lib/sbi/sbi_hart.c     | 132 +++++++++++++++++++++++++++++++++++------
 2 files changed, 128 insertions(+), 19 deletions(-)

diff --git a/include/sbi/sbi_hart.h b/include/sbi/sbi_hart.h
index 8b0e896..1b78343 100644
--- a/include/sbi/sbi_hart.h
+++ b/include/sbi/sbi_hart.h
@@ -45,6 +45,21 @@ enum sbi_hart_extensions {
 	SBI_HART_EXT_MAX,
 };
 
+/*
+ * Smepmp enforces access boundaries between M-mode and
+ * S/U-mode. When it is enabled, the PMPs are programmed
+ * such that M-mode doesn't have access to S/U-mode memory.
+ *
+ * To give M-mode R/W access to the shared memory between M and
+ * S/U-mode, first entry is reserved. It is disabled at boot.
+ * When shared memory access is required, the physical address
+ * should be programmed into the first PMP entry with R/W
+ * permissions to the M-mode. Once the work is done, it should be
+ * unmapped. sbi_hart_map_saddr/sbi_hart_unmap_saddr function
+ * pair should be used to map/unmap the shared memory.
+ */
+#define SBI_SMEPMP_RESV_ENTRY		0
+
 struct sbi_hart_features {
 	bool detected;
 	int priv_version;
diff --git a/lib/sbi/sbi_hart.c b/lib/sbi/sbi_hart.c
index 4dfa170..c816f80 100644
--- a/lib/sbi/sbi_hart.c
+++ b/lib/sbi/sbi_hart.c
@@ -284,11 +284,75 @@ unsigned int sbi_hart_mhpm_bits(struct sbi_scratch *scratch)
 	return hfeatures->mhpm_bits;
 }
 
+/*
+ * Returns Smepmp flags for a given domain and region based on permissions.
+ */
+unsigned int sbi_hart_get_smepmp_flags(struct sbi_scratch *scratch,
+				       struct sbi_domain *dom,
+				       struct sbi_domain_memregion *reg)
+{
+	unsigned int pmp_flags = 0;
+
+	if (SBI_DOMAIN_MEMREGION_IS_SHARED(reg->flags)) {
+		/* Read only for both M and SU modes */
+		if (SBI_DOMAIN_MEMREGION_IS_SUR_MR(reg->flags))
+			pmp_flags = (PMP_R | PMP_W | PMP_X);
+
+		/* Execute for SU but Read/Execute for M mode */
+		else if (SBI_DOMAIN_MEMREGION_IS_SUX_MRX(reg->flags))
+			/* locked region */
+			pmp_flags = (PMP_L | PMP_W | PMP_X);
+
+		/* Execute only for both M and SU modes */
+		else if (SBI_DOMAIN_MEMREGION_IS_SUX_MX(reg->flags))
+			pmp_flags = (PMP_L | PMP_W);
+
+		/* Read/Write for both M and SU modes */
+		else if (SBI_DOMAIN_MEMREGION_IS_SURW_MRW(reg->flags))
+			pmp_flags = (PMP_W | PMP_X);
+
+		/* Read only for SU mode but Read/Write for M mode */
+		else if (SBI_DOMAIN_MEMREGION_IS_SUR_MRW(reg->flags))
+			pmp_flags = (PMP_W);
+	} else if (SBI_DOMAIN_MEMREGION_M_ONLY_ACCESS(reg->flags)) {
+		/*
+		 * When smepmp is supported and used, M region cannot have RWX
+		 * permissions on any region.
+		 */
+		if ((reg->flags & SBI_DOMAIN_MEMREGION_M_ACCESS_MASK)
+		    == SBI_DOMAIN_MEMREGION_M_RWX) {
+			sbi_printf("%s: M-mode only regions cannot have"
+				   "RWX permissions\n", __func__);
+			return 0;
+		}
+
+		/* M-mode only access regions are always locked */
+		pmp_flags |= PMP_L;
+
+		if (reg->flags & SBI_DOMAIN_MEMREGION_M_READABLE)
+			pmp_flags |= PMP_R;
+		if (reg->flags & SBI_DOMAIN_MEMREGION_M_WRITABLE)
+			pmp_flags |= PMP_W;
+		if (reg->flags & SBI_DOMAIN_MEMREGION_M_EXECUTABLE)
+			pmp_flags |= PMP_X;
+	} else if (SBI_DOMAIN_MEMREGION_SU_ONLY_ACCESS(reg->flags)) {
+		if (reg->flags & SBI_DOMAIN_MEMREGION_SU_READABLE)
+			pmp_flags |= PMP_R;
+		if (reg->flags & SBI_DOMAIN_MEMREGION_SU_WRITABLE)
+			pmp_flags |= PMP_W;
+		if (reg->flags & SBI_DOMAIN_MEMREGION_SU_EXECUTABLE)
+			pmp_flags |= PMP_X;
+	}
+
+	return pmp_flags;
+}
+
 int sbi_hart_pmp_configure(struct sbi_scratch *scratch)
 {
 	struct sbi_domain_memregion *reg;
 	struct sbi_domain *dom = sbi_domain_thishart_ptr();
-	unsigned int pmp_idx = 0, pmp_flags, pmp_bits, pmp_gran_log2;
+	unsigned int pmp_idx = 0;
+	unsigned int pmp_flags, pmp_bits, pmp_gran_log2;
 	unsigned int pmp_count = sbi_hart_pmp_count(scratch);
 	unsigned long pmp_addr = 0, pmp_addr_max = 0;
 
@@ -299,36 +363,66 @@ int sbi_hart_pmp_configure(struct sbi_scratch *scratch)
 	pmp_bits = sbi_hart_pmp_addrbits(scratch) - 1;
 	pmp_addr_max = (1UL << pmp_bits) | ((1UL << pmp_bits) - 1);
 
+	if (sbi_hart_has_extension(scratch, SBI_HART_EXT_SMEPMP)) {
+		/* Reserve first entry for dynamic shared mappings */
+		 pmp_idx = SBI_SMEPMP_RESV_ENTRY + 1;
+
+		/*
+		 * Set the RLB now so that, we can write to entries
+		 * even if some entries are locked.
+		 */
+		csr_write(CSR_MSECCFG, MSECCFG_RLB);
+
+		/* Disable the reserved entry */
+		pmp_disable(SBI_SMEPMP_RESV_ENTRY);
+	}
+
 	sbi_domain_for_each_memregion(dom, reg) {
 		if (pmp_count <= pmp_idx)
 			break;
 
 		pmp_flags = 0;
 
-		/*
-		 * If permissions are to be enforced for all modes on this
-		 * region, the lock bit should be set.
-		 */
-		if (reg->flags & SBI_DOMAIN_MEMREGION_ENF_PERMISSIONS)
-			pmp_flags |= PMP_L;
-
-		if (reg->flags & SBI_DOMAIN_MEMREGION_SU_READABLE)
-			pmp_flags |= PMP_R;
-		if (reg->flags & SBI_DOMAIN_MEMREGION_SU_WRITABLE)
-			pmp_flags |= PMP_W;
-		if (reg->flags & SBI_DOMAIN_MEMREGION_SU_EXECUTABLE)
-			pmp_flags |= PMP_X;
+		if (sbi_hart_has_extension(scratch, SBI_HART_EXT_SMEPMP)) {
+			pmp_flags = sbi_hart_get_smepmp_flags(scratch, dom, reg);
+
+			if (pmp_flags == 0)
+				return 0;
+		} else {
+			/*
+			 * If permissions are to be enforced for all modes on
+			 * this region, the lock bit should be set.
+			 */
+			if (reg->flags & SBI_DOMAIN_MEMREGION_ENF_PERMISSIONS)
+				pmp_flags |= PMP_L;
+
+			if (reg->flags & SBI_DOMAIN_MEMREGION_SU_READABLE)
+				pmp_flags |= PMP_R;
+			if (reg->flags & SBI_DOMAIN_MEMREGION_SU_WRITABLE)
+				pmp_flags |= PMP_W;
+			if (reg->flags & SBI_DOMAIN_MEMREGION_SU_EXECUTABLE)
+				pmp_flags |= PMP_X;
+		}
 
 		pmp_addr =  reg->base >> PMP_SHIFT;
-		if (pmp_gran_log2 <= reg->order && pmp_addr < pmp_addr_max)
+		if (pmp_gran_log2 <= reg->order && pmp_addr < pmp_addr_max) {
 			pmp_set(pmp_idx++, pmp_flags, reg->base, reg->order);
-		else {
-			sbi_printf("Can not configure pmp for domain %s", dom->name);
-			sbi_printf(" because memory region address %lx or size %lx is not in range\n",
-				    reg->base, reg->order);
+		} else {
+			sbi_printf("Can not configure pmp for domain %s because"
+				   " memory region address 0x%lx or size 0x%lx "
+				   "is not in range.\n", dom->name, reg->base,
+				   reg->order);
 		}
 	}
 
+	if (sbi_hart_has_extension(scratch, SBI_HART_EXT_SMEPMP)) {
+		/*
+		 * All entries are programmed. Enable MML bit.
+		 * Keep the RLB bit so that dynamic mappings can be done.
+		 */
+		csr_write(CSR_MSECCFG, (MSECCFG_RLB | MSECCFG_MML));
+	}
+
 	/*
 	 * As per section 3.7.2 of privileged specification v1.12,
 	 * virtual address translations can be speculatively performed
-- 
2.34.1




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