sw/device/lib/crypto/drivers/otbn.c - 3p/lowrisc/opentitan - Git at Google

 // Copyright lowRISC contributors.
 // Licensed under the Apache License, Version 2.0, see LICENSE for details.
 // SPDX-License-Identifier: Apache-2.0

 #include "sw/device/lib/crypto/drivers/otbn.h"

 #include "sw/device/lib/base/abs_mmio.h"
 #include "sw/device/lib/base/bitfield.h"
 #include "sw/device/lib/base/hardened.h"

 #include "hw/top_earlgrey/sw/autogen/top_earlgrey.h"
 #include "otbn_regs.h"  // Generated.

 #define ASSERT_ERR_BIT_MATCH(enum_val, autogen_val) \
   static_assert(enum_val == 1 << (autogen_val),     \
                 "OTBN register bit doesn't match autogen value.");

 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsBadDataAddr, OTBN_ERR_BITS_BAD_DATA_ADDR_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsBadInsnAddr, OTBN_ERR_BITS_BAD_INSN_ADDR_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsCallStack, OTBN_ERR_BITS_CALL_STACK_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsIllegalInsn, OTBN_ERR_BITS_ILLEGAL_INSN_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsLoop, OTBN_ERR_BITS_LOOP_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsImemIntgViolation,
                      OTBN_ERR_BITS_IMEM_INTG_VIOLATION_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsDmemIntgViolation,
                      OTBN_ERR_BITS_DMEM_INTG_VIOLATION_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsRegIntgViolation,
                      OTBN_ERR_BITS_REG_INTG_VIOLATION_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsBusIntgViolation,
                      OTBN_ERR_BITS_BUS_INTG_VIOLATION_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsIllegalBusAccess,
                      OTBN_ERR_BITS_ILLEGAL_BUS_ACCESS_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsLifecycleEscalation,
                      OTBN_ERR_BITS_LIFECYCLE_ESCALATION_BIT);
 ASSERT_ERR_BIT_MATCH(kOtbnErrBitsFatalSoftware,
                      OTBN_ERR_BITS_FATAL_SOFTWARE_BIT);

 const size_t kOtbnDMemSizeBytes = OTBN_DMEM_SIZE_BYTES;
 const size_t kOtbnIMemSizeBytes = OTBN_IMEM_SIZE_BYTES;

 enum { kBase = TOP_EARLGREY_OTBN_BASE_ADDR };

 /**
  * Ensures that `offset_bytes` and `len` are valid for a given `mem_size`.
  */
 static otbn_error_t check_offset_len(uint32_t offset_bytes, size_t num_words,
                                      size_t mem_size) {
   if (offset_bytes + num_words * sizeof(uint32_t) <
           num_words * sizeof(uint32_t) ||
       offset_bytes + num_words * sizeof(uint32_t) > mem_size) {
     return kOtbnErrorBadOffsetLen;
   }
   return kOtbnErrorOk;
 }

 otbn_error_t otbn_assert_idle(void) {
   uint32_t status = launder32(~kOtbnStatusIdle);
   otbn_error_t res = launder32(kOtbnErrorOk ^ status);
   status = abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET);
   res ^= ~status;
   if (launder32(res) == kOtbnErrorOk) {
     HARDENED_CHECK_EQ(res, kOtbnErrorOk);
     HARDENED_CHECK_EQ(abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET),
                       kOtbnStatusIdle);
     return res;
   }
   return kOtbnErrorUnavailable;
 }

 otbn_error_t otbn_busy_wait_for_done(void) {
   uint32_t status = launder32(UINT32_MAX);
   otbn_error_t res = launder32(kOtbnErrorOk ^ status);
   do {
     status = abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET);
   } while (launder32(status) != kOtbnStatusIdle &&
            launder32(status) != kOtbnStatusLocked);
   res ^= ~status;

   otbn_err_bits_t err_bits;
   otbn_err_bits_get(&err_bits);

   if (launder32(res) == kOtbnErrorOk &&
       launder32(err_bits) == kOtbnErrBitsNoError) {
     HARDENED_CHECK_EQ(res, kOtbnErrorOk);
     otbn_err_bits_get(&err_bits);
     HARDENED_CHECK_EQ(err_bits, kOtbnErrBitsNoError);
     HARDENED_CHECK_EQ(abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET),
                       kOtbnStatusIdle);
     return res;
   }
   return kOtbnErrorExecutionFailed;
 }

 /**
  * Helper function for writing to OTBN's DMEM or IMEM.
  *
  * @param dest_addr Destination address.
  * @param src Source buffer.
  * @param num_words Number of words to copy.
  */
 static void otbn_write(uint32_t dest_addr, const uint32_t *src,
                        size_t num_words) {
   // TODO: replace 0 with a random index like the silicon_creator driver
   // (requires an interface to Ibex's RND valid bit and data register).
   size_t i = ((uint64_t)0 * (uint64_t)num_words) >> 32;
   enum { kStep = 1 };
   size_t iter_cnt = 0;
   for (; launder32(iter_cnt) < num_words; ++iter_cnt) {
     abs_mmio_write32(dest_addr + i * sizeof(uint32_t), src[i]);
     i += kStep;
     if (launder32(i) >= num_words) {
       i -= num_words;
     }
     HARDENED_CHECK_LT(i, num_words);
   }
   HARDENED_CHECK_EQ(iter_cnt, num_words);
 }

 otbn_error_t otbn_execute(void) {
   // Ensure OTBN is idle before attempting to run a command.
   OTBN_RETURN_IF_ERROR(otbn_assert_idle());

   abs_mmio_write32(kBase + OTBN_CMD_REG_OFFSET, kOtbnCmdExecute);
   return kOtbnErrorOk;
 }

 void otbn_err_bits_get(otbn_err_bits_t *err_bits) {
   *err_bits = abs_mmio_read32(kBase + OTBN_ERR_BITS_REG_OFFSET);
 }

 uint32_t otbn_instruction_count_get(void) {
   return abs_mmio_read32(kBase + OTBN_INSN_CNT_REG_OFFSET);
 }

 otbn_error_t otbn_imem_sec_wipe(void) {
   OTBN_RETURN_IF_ERROR(otbn_assert_idle());
   abs_mmio_write32(kBase + OTBN_CMD_REG_OFFSET, kOtbnCmdSecWipeImem);
   OTBN_RETURN_IF_ERROR(otbn_busy_wait_for_done());
   return kOtbnErrorOk;
 }

 otbn_error_t otbn_imem_write(uint32_t offset_bytes, const uint32_t *src,
                              size_t num_words) {
   OTBN_RETURN_IF_ERROR(
       check_offset_len(offset_bytes, num_words, kOtbnIMemSizeBytes));
   otbn_write(kBase + OTBN_IMEM_REG_OFFSET + offset_bytes, src, num_words);
   return kOtbnErrorOk;
 }

 otbn_error_t otbn_dmem_sec_wipe(void) {
   OTBN_RETURN_IF_ERROR(otbn_assert_idle());
   abs_mmio_write32(kBase + OTBN_CMD_REG_OFFSET, kOtbnCmdSecWipeDmem);
   OTBN_RETURN_IF_ERROR(otbn_busy_wait_for_done());
   return kOtbnErrorOk;
 }

 otbn_error_t otbn_dmem_write(uint32_t offset_bytes, const uint32_t *src,
                              size_t num_words) {
   OTBN_RETURN_IF_ERROR(
       check_offset_len(offset_bytes, num_words, kOtbnDMemSizeBytes));
   otbn_write(kBase + OTBN_DMEM_REG_OFFSET + offset_bytes, src, num_words);
   return kOtbnErrorOk;
 }

 otbn_error_t otbn_dmem_read(uint32_t offset_bytes, uint32_t *dest,
                             size_t num_words) {
   OTBN_RETURN_IF_ERROR(
       check_offset_len(offset_bytes, num_words, kOtbnDMemSizeBytes));

   size_t i = 0;
   for (; launder32(i) < num_words; ++i) {
     dest[i] = abs_mmio_read32(kBase + OTBN_DMEM_REG_OFFSET + offset_bytes +
                               i * sizeof(uint32_t));
   }
   HARDENED_CHECK_EQ(i, num_words);

   return kOtbnErrorOk;
 }

 otbn_error_t otbn_set_ctrl_software_errs_fatal(bool enable) {
   // Ensure OTBN is idle (otherwise CTRL writes will be ignored).
   OTBN_RETURN_IF_ERROR(otbn_assert_idle());

   // Only one bit in the CTRL register so no need to read current value.
   uint32_t new_ctrl;

   if (enable) {
     new_ctrl = 1;
   } else {
     new_ctrl = 0;
   }

   abs_mmio_write32(kBase + OTBN_CTRL_REG_OFFSET, new_ctrl);

   return kOtbnErrorOk;
 }
	// Copyright lowRISC contributors.
	// Licensed under the Apache License, Version 2.0, see LICENSE for details.
	// SPDX-License-Identifier: Apache-2.0

	#include "sw/device/lib/crypto/drivers/otbn.h"

	#include "sw/device/lib/base/abs_mmio.h"
	#include "sw/device/lib/base/bitfield.h"
	#include "sw/device/lib/base/hardened.h"

	#include "hw/top_earlgrey/sw/autogen/top_earlgrey.h"
	#include "otbn_regs.h" // Generated.

	#define ASSERT_ERR_BIT_MATCH(enum_val, autogen_val) \
	static_assert(enum_val == 1 << (autogen_val), \
	"OTBN register bit doesn't match autogen value.");

	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsBadDataAddr, OTBN_ERR_BITS_BAD_DATA_ADDR_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsBadInsnAddr, OTBN_ERR_BITS_BAD_INSN_ADDR_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsCallStack, OTBN_ERR_BITS_CALL_STACK_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsIllegalInsn, OTBN_ERR_BITS_ILLEGAL_INSN_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsLoop, OTBN_ERR_BITS_LOOP_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsImemIntgViolation,
	OTBN_ERR_BITS_IMEM_INTG_VIOLATION_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsDmemIntgViolation,
	OTBN_ERR_BITS_DMEM_INTG_VIOLATION_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsRegIntgViolation,
	OTBN_ERR_BITS_REG_INTG_VIOLATION_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsBusIntgViolation,
	OTBN_ERR_BITS_BUS_INTG_VIOLATION_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsIllegalBusAccess,
	OTBN_ERR_BITS_ILLEGAL_BUS_ACCESS_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsLifecycleEscalation,
	OTBN_ERR_BITS_LIFECYCLE_ESCALATION_BIT);
	ASSERT_ERR_BIT_MATCH(kOtbnErrBitsFatalSoftware,
	OTBN_ERR_BITS_FATAL_SOFTWARE_BIT);

	const size_t kOtbnDMemSizeBytes = OTBN_DMEM_SIZE_BYTES;
	const size_t kOtbnIMemSizeBytes = OTBN_IMEM_SIZE_BYTES;

	enum { kBase = TOP_EARLGREY_OTBN_BASE_ADDR };

	/**
	* Ensures that `offset_bytes` and `len` are valid for a given `mem_size`.
	*/
	static otbn_error_t check_offset_len(uint32_t offset_bytes, size_t num_words,
	size_t mem_size) {
	if (offset_bytes + num_words * sizeof(uint32_t) <
	num_words * sizeof(uint32_t) \|\|
	offset_bytes + num_words * sizeof(uint32_t) > mem_size) {
	return kOtbnErrorBadOffsetLen;
	}
	return kOtbnErrorOk;
	}

	otbn_error_t otbn_assert_idle(void) {
	uint32_t status = launder32(~kOtbnStatusIdle);
	otbn_error_t res = launder32(kOtbnErrorOk ^ status);
	status = abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET);
	res ^= ~status;
	if (launder32(res) == kOtbnErrorOk) {
	HARDENED_CHECK_EQ(res, kOtbnErrorOk);
	HARDENED_CHECK_EQ(abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET),
	kOtbnStatusIdle);
	return res;
	}
	return kOtbnErrorUnavailable;
	}

	otbn_error_t otbn_busy_wait_for_done(void) {
	uint32_t status = launder32(UINT32_MAX);
	otbn_error_t res = launder32(kOtbnErrorOk ^ status);
	do {
	status = abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET);
	} while (launder32(status) != kOtbnStatusIdle &&
	launder32(status) != kOtbnStatusLocked);
	res ^= ~status;

	otbn_err_bits_t err_bits;
	otbn_err_bits_get(&err_bits);

	if (launder32(res) == kOtbnErrorOk &&
	launder32(err_bits) == kOtbnErrBitsNoError) {
	HARDENED_CHECK_EQ(res, kOtbnErrorOk);
	otbn_err_bits_get(&err_bits);
	HARDENED_CHECK_EQ(err_bits, kOtbnErrBitsNoError);
	HARDENED_CHECK_EQ(abs_mmio_read32(kBase + OTBN_STATUS_REG_OFFSET),
	kOtbnStatusIdle);
	return res;
	}
	return kOtbnErrorExecutionFailed;
	}

	/**
	* Helper function for writing to OTBN's DMEM or IMEM.
	*
	* @param dest_addr Destination address.
	* @param src Source buffer.
	* @param num_words Number of words to copy.
	*/
	static void otbn_write(uint32_t dest_addr, const uint32_t *src,
	size_t num_words) {
	// TODO: replace 0 with a random index like the silicon_creator driver
	// (requires an interface to Ibex's RND valid bit and data register).
	size_t i = ((uint64_t)0 * (uint64_t)num_words) >> 32;
	enum { kStep = 1 };
	size_t iter_cnt = 0;
	for (; launder32(iter_cnt) < num_words; ++iter_cnt) {
	abs_mmio_write32(dest_addr + i * sizeof(uint32_t), src[i]);
	i += kStep;
	if (launder32(i) >= num_words) {
	i -= num_words;
	}
	HARDENED_CHECK_LT(i, num_words);
	}
	HARDENED_CHECK_EQ(iter_cnt, num_words);
	}

	otbn_error_t otbn_execute(void) {
	// Ensure OTBN is idle before attempting to run a command.
	OTBN_RETURN_IF_ERROR(otbn_assert_idle());

	abs_mmio_write32(kBase + OTBN_CMD_REG_OFFSET, kOtbnCmdExecute);
	return kOtbnErrorOk;
	}

	void otbn_err_bits_get(otbn_err_bits_t *err_bits) {
	*err_bits = abs_mmio_read32(kBase + OTBN_ERR_BITS_REG_OFFSET);
	}

	uint32_t otbn_instruction_count_get(void) {
	return abs_mmio_read32(kBase + OTBN_INSN_CNT_REG_OFFSET);
	}

	otbn_error_t otbn_imem_sec_wipe(void) {
	OTBN_RETURN_IF_ERROR(otbn_assert_idle());
	abs_mmio_write32(kBase + OTBN_CMD_REG_OFFSET, kOtbnCmdSecWipeImem);
	OTBN_RETURN_IF_ERROR(otbn_busy_wait_for_done());
	return kOtbnErrorOk;
	}

	otbn_error_t otbn_imem_write(uint32_t offset_bytes, const uint32_t *src,
	size_t num_words) {
	OTBN_RETURN_IF_ERROR(
	check_offset_len(offset_bytes, num_words, kOtbnIMemSizeBytes));
	otbn_write(kBase + OTBN_IMEM_REG_OFFSET + offset_bytes, src, num_words);
	return kOtbnErrorOk;
	}

	otbn_error_t otbn_dmem_sec_wipe(void) {
	OTBN_RETURN_IF_ERROR(otbn_assert_idle());
	abs_mmio_write32(kBase + OTBN_CMD_REG_OFFSET, kOtbnCmdSecWipeDmem);
	OTBN_RETURN_IF_ERROR(otbn_busy_wait_for_done());
	return kOtbnErrorOk;
	}

	otbn_error_t otbn_dmem_write(uint32_t offset_bytes, const uint32_t *src,
	size_t num_words) {
	OTBN_RETURN_IF_ERROR(
	check_offset_len(offset_bytes, num_words, kOtbnDMemSizeBytes));
	otbn_write(kBase + OTBN_DMEM_REG_OFFSET + offset_bytes, src, num_words);
	return kOtbnErrorOk;
	}

	otbn_error_t otbn_dmem_read(uint32_t offset_bytes, uint32_t *dest,
	size_t num_words) {
	OTBN_RETURN_IF_ERROR(
	check_offset_len(offset_bytes, num_words, kOtbnDMemSizeBytes));

	size_t i = 0;
	for (; launder32(i) < num_words; ++i) {
	dest[i] = abs_mmio_read32(kBase + OTBN_DMEM_REG_OFFSET + offset_bytes +
	i * sizeof(uint32_t));
	}
	HARDENED_CHECK_EQ(i, num_words);

	return kOtbnErrorOk;
	}

	otbn_error_t otbn_set_ctrl_software_errs_fatal(bool enable) {
	// Ensure OTBN is idle (otherwise CTRL writes will be ignored).
	OTBN_RETURN_IF_ERROR(otbn_assert_idle());

	// Only one bit in the CTRL register so no need to read current value.
	uint32_t new_ctrl;

	if (enable) {
	new_ctrl = 1;
	} else {
	new_ctrl = 0;
	}

	abs_mmio_write32(kBase + OTBN_CTRL_REG_OFFSET, new_ctrl);

	return kOtbnErrorOk;
	}