sw/device/lib/runtime/ibex.h - 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

 #ifndef OPENTITAN_SW_DEVICE_LIB_RUNTIME_IBEX_H_
 #define OPENTITAN_SW_DEVICE_LIB_RUNTIME_IBEX_H_

 #include <stdbool.h>
 #include <stddef.h>
 #include <stdint.h>

 #include "sw/device/lib/arch/device.h"
 #include "sw/device/lib/base/math.h"
 #include "sw/device/lib/base/stdasm.h"

 // IBEX_SPIN_FOR needs a dependency on check.h, but the build fails if a
 // dependency on sw_lib_testing_check is added.

 /**
  * @file
  * @brief This header provides Ibex-specific functions and enums, such as
  * cycle-accurate busy loops.
  */

 /**
  * An Ibex exception type.
  *
  * This enum is used to decode RISC-V exception causes generated by Ibex.
  */
 typedef enum ibex_exc {
   kIbexExcInstrMisaligned = 0,
   kIbexExcInstrAccessFault = 1,
   kIbexExcIllegalInstrFault = 2,
   kIbexExcBreakpoint = 3,
   kIbexExcLoadAccessFault = 5,
   kIbexExcStoreAccessFault = 7,
   kIbexExcUserECall = 8,
   kIbexExcSupervisorECall = 9,
   kIbexExcMachineECall = 11,
   kIbexExcMax = 31
 } ibex_exc_t;

 /**
  * An Ibex internal IRQ type.
  *
  * This enum is used to decode RISC-V internal IRQs generated by Ibex.
  */
 typedef enum ibex_internal_irq {
   kIbexInternalIrqLoadInteg = 0xffffffe0,
   kIbexInternalIrqNmi = 0x8000001f
 } ibex_internal_irq_t;

 /**
  * A spinwait timeout type.
  */
 typedef struct ibex_timeout {
   /**
    * The number of cycles to timeout.
    */
   uint64_t cycles;
   /**
    * The initial cycle count.
    */
   uint64_t start;
 } ibex_timeout_t;

 /**
  * Read the cycle counter.
  *
  * The value of the counter is stored across two 32-bit registers: `mcycle` and
  * `mcycleh`. This function is guaranteed to return a valid 64-bit cycle
  * counter value, even if `mcycle` overflows before reading `mcycleh`.
  *
  * Adapted from: The RISC-V Instruction Set Manual, Volume I: Unprivileged ISA
  * V20191213, pp. 61.
  */
 inline uint64_t ibex_mcycle_read(void) {
   uint32_t cycle_low = 0;
   uint32_t cycle_high = 0;
   uint32_t cycle_high_2 = 0;
   asm volatile(
       "1:"
       "  csrr %0, mcycleh;"  // Read `mcycleh`.
       "  csrr %1, mcycle;"   // Read `mcycle`.
       "  csrr %2, mcycleh;"  // Read `mcycleh` again.
       "  bne  %0, %2, 1b;"   // Try again if `mcycle` overflowed before
                              // reading `mcycleh`.
       : "=r"(cycle_high), "=r"(cycle_low), "=r"(cycle_high_2)
       :);
   return (uint64_t)cycle_high << 32 | cycle_low;
 }

 /**
  * Reads the mcause register.
  *
  * When an exception is encountered, the corresponding exception code is stored
  * in mcause register.
  *
  * A list of the exception codes can be found at:
  * https://ibex-core.readthedocs.io/en/latest/03_reference/
  * exception_interrupts.html#exceptions
  */
 uint32_t ibex_mcause_read(void);

 /**
  * Reads the mtval register.
  *
  * When an exception is encountered, the Machine Trap Value (mtval) register
  * can holds exception-specific information to assist software in handling the
  * trap.
  *
  * From the Ibex documentation (found at
  * https://ibex-core.readthedocs.io/en/latest/03_reference/cs_registers.html)
  * - In the case of errors in the load-store unit mtval holds the address of
  * the transaction causing the error.
  *
  * - If a transaction is misaligned, mtval holds the address of the missing
  *   transaction part.
  *
  * - In the case of illegal instruction exceptions, mtval holds the actual
  * faulting instruction.
  *
  * - For all other exceptions, mtval is 0.
  */
 uint32_t ibex_mtval_read(void);

 /**
  * Reads the mepc register.
  *
  * When an exception is encountered, the current program counter is saved in
  * mepc, and the core jumps to the exception address. When an MRET instruction
  * is executed, the value from mepc replaces the current program counter.
  *
  * From the Ibex documentation (found at
  * https://ibex-core.readthedocs.io/en/latest/03_reference/cs_registers.html)
  *
  * Please note that in case of a fault, mepc must be modified to hold the
  * address of the next instruction, which can be at the 2byte (16bit) or 4byte
  * (32bit) offset, dependent on the fault cause instruction type (standard or
  * compressed).
  *
  * @return The mepc register value.
  */
 uint32_t ibex_mepc_read(void);

 /**
  * Writes the mepc register.
  *
  * When an exception is encountered, the current program counter is saved in
  * mepc, and the core jumps to the exception address. When an MRET instruction
  * is executed, the value from mepc replaces the current program counter.
  *
  * From the Ibex documentation (found at
  * https://ibex-core.readthedocs.io/en/latest/03_reference/cs_registers.html)
  *
  * Please note that in case of a fault, mepc must be modified to hold the
  * address of the next instruction, which can be at the 2byte (16bit) or 4byte
  * (32bit) offset, dependent on the fault cause instruction type (standard or
  * compressed).
  *
  * @param The new value to be written to the mepc register.
  */
 void ibex_mepc_write(uint32_t mepc);

 /**
  * Initializes the ibex timeout based on current mcycle count.
  *
  * @param timeout_usec Timeout in microseconds.
  * @return The initialized timeout value.
  */
 inline ibex_timeout_t ibex_timeout_init(uint32_t timeout_usec) {
   return (ibex_timeout_t){
       .cycles = udiv64_slow(kClockFreqCpuHz * timeout_usec, 1000000, NULL),
       .start = ibex_mcycle_read(),
   };
 }

 /**
  * Check whether the timeout has expired.
  *
  * @param timeout Holds the counter start value.
  * @return True if the timeout has expired and false otherwise.
  */
 inline bool ibex_timeout_check(const ibex_timeout_t *timeout) {
   return ibex_mcycle_read() - timeout->start > timeout->cycles;
 }

 /**
  * Returns the time elapsed in microseconds since `ibex_timeout_init` was
  * called.
  *
  * @param timeout Holds the counter start value..
  * @return Time elapsed in microseconds.
  */
 inline uint64_t ibex_timeout_elapsed(const ibex_timeout_t *timeout) {
   return udiv64_slow((ibex_mcycle_read() - timeout->start) * 1000000,
                      kClockFreqCpuHz, NULL);
 }

 /**
  * Convenience macro to spin with timeout in microseconds.
  *
  * @param expr An expression that is evaluated multiple times until true.
  * @param timeout_usec Timeout in microseconds.
  */
 #define IBEX_SPIN_FOR(expr, timeout_usec)                                 \
   do {                                                                    \
     const ibex_timeout_t timeout_ = ibex_timeout_init(timeout_usec);      \
     while (!(expr)) {                                                     \
       CHECK(!ibex_timeout_check(&timeout_),                               \
             "Timed out after %d usec (%d CPU cycles) waiting for " #expr, \
             timeout_usec, (uint32_t)timeout_.cycles);                     \
     }                                                                     \
   } while (0)

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

	#ifndef OPENTITAN_SW_DEVICE_LIB_RUNTIME_IBEX_H_
	#define OPENTITAN_SW_DEVICE_LIB_RUNTIME_IBEX_H_

	#include <stdbool.h>
	#include <stddef.h>
	#include <stdint.h>

	#include "sw/device/lib/arch/device.h"
	#include "sw/device/lib/base/math.h"
	#include "sw/device/lib/base/stdasm.h"

	// IBEX_SPIN_FOR needs a dependency on check.h, but the build fails if a
	// dependency on sw_lib_testing_check is added.

	/**
	* @file
	* @brief This header provides Ibex-specific functions and enums, such as
	* cycle-accurate busy loops.
	*/

	/**
	* An Ibex exception type.
	*
	* This enum is used to decode RISC-V exception causes generated by Ibex.
	*/
	typedef enum ibex_exc {
	kIbexExcInstrMisaligned = 0,
	kIbexExcInstrAccessFault = 1,
	kIbexExcIllegalInstrFault = 2,
	kIbexExcBreakpoint = 3,
	kIbexExcLoadAccessFault = 5,
	kIbexExcStoreAccessFault = 7,
	kIbexExcUserECall = 8,
	kIbexExcSupervisorECall = 9,
	kIbexExcMachineECall = 11,
	kIbexExcMax = 31
	} ibex_exc_t;

	/**
	* An Ibex internal IRQ type.
	*
	* This enum is used to decode RISC-V internal IRQs generated by Ibex.
	*/
	typedef enum ibex_internal_irq {
	kIbexInternalIrqLoadInteg = 0xffffffe0,
	kIbexInternalIrqNmi = 0x8000001f
	} ibex_internal_irq_t;

	/**
	* A spinwait timeout type.
	*/
	typedef struct ibex_timeout {
	/**
	* The number of cycles to timeout.
	*/
	uint64_t cycles;
	/**
	* The initial cycle count.
	*/
	uint64_t start;
	} ibex_timeout_t;

	/**
	* Read the cycle counter.
	*
	* The value of the counter is stored across two 32-bit registers: `mcycle` and
	* `mcycleh`. This function is guaranteed to return a valid 64-bit cycle
	* counter value, even if `mcycle` overflows before reading `mcycleh`.
	*
	* Adapted from: The RISC-V Instruction Set Manual, Volume I: Unprivileged ISA
	* V20191213, pp. 61.
	*/
	inline uint64_t ibex_mcycle_read(void) {
	uint32_t cycle_low = 0;
	uint32_t cycle_high = 0;
	uint32_t cycle_high_2 = 0;
	asm volatile(
	"1:"
	" csrr %0, mcycleh;" // Read `mcycleh`.
	" csrr %1, mcycle;" // Read `mcycle`.
	" csrr %2, mcycleh;" // Read `mcycleh` again.
	" bne %0, %2, 1b;" // Try again if `mcycle` overflowed before
	// reading `mcycleh`.
	: "=r"(cycle_high), "=r"(cycle_low), "=r"(cycle_high_2)
	:);
	return (uint64_t)cycle_high << 32 \| cycle_low;
	}

	/**
	* Reads the mcause register.
	*
	* When an exception is encountered, the corresponding exception code is stored
	* in mcause register.
	*
	* A list of the exception codes can be found at:
	* https://ibex-core.readthedocs.io/en/latest/03_reference/
	* exception_interrupts.html#exceptions
	*/
	uint32_t ibex_mcause_read(void);

	/**
	* Reads the mtval register.
	*
	* When an exception is encountered, the Machine Trap Value (mtval) register
	* can holds exception-specific information to assist software in handling the
	* trap.
	*
	* From the Ibex documentation (found at
	* https://ibex-core.readthedocs.io/en/latest/03_reference/cs_registers.html)
	* - In the case of errors in the load-store unit mtval holds the address of
	* the transaction causing the error.
	*
	* - If a transaction is misaligned, mtval holds the address of the missing
	* transaction part.
	*
	* - In the case of illegal instruction exceptions, mtval holds the actual
	* faulting instruction.
	*
	* - For all other exceptions, mtval is 0.
	*/
	uint32_t ibex_mtval_read(void);

	/**
	* Reads the mepc register.
	*
	* When an exception is encountered, the current program counter is saved in
	* mepc, and the core jumps to the exception address. When an MRET instruction
	* is executed, the value from mepc replaces the current program counter.
	*
	* From the Ibex documentation (found at
	* https://ibex-core.readthedocs.io/en/latest/03_reference/cs_registers.html)
	*
	* Please note that in case of a fault, mepc must be modified to hold the
	* address of the next instruction, which can be at the 2byte (16bit) or 4byte
	* (32bit) offset, dependent on the fault cause instruction type (standard or
	* compressed).
	*
	* @return The mepc register value.
	*/
	uint32_t ibex_mepc_read(void);

	/**
	* Writes the mepc register.
	*
	* When an exception is encountered, the current program counter is saved in
	* mepc, and the core jumps to the exception address. When an MRET instruction
	* is executed, the value from mepc replaces the current program counter.
	*
	* From the Ibex documentation (found at
	* https://ibex-core.readthedocs.io/en/latest/03_reference/cs_registers.html)
	*
	* Please note that in case of a fault, mepc must be modified to hold the
	* address of the next instruction, which can be at the 2byte (16bit) or 4byte
	* (32bit) offset, dependent on the fault cause instruction type (standard or
	* compressed).
	*
	* @param The new value to be written to the mepc register.
	*/
	void ibex_mepc_write(uint32_t mepc);

	/**
	* Initializes the ibex timeout based on current mcycle count.
	*
	* @param timeout_usec Timeout in microseconds.
	* @return The initialized timeout value.
	*/
	inline ibex_timeout_t ibex_timeout_init(uint32_t timeout_usec) {
	return (ibex_timeout_t){
	.cycles = udiv64_slow(kClockFreqCpuHz * timeout_usec, 1000000, NULL),
	.start = ibex_mcycle_read(),
	};
	}

	/**
	* Check whether the timeout has expired.
	*
	* @param timeout Holds the counter start value.
	* @return True if the timeout has expired and false otherwise.
	*/
	inline bool ibex_timeout_check(const ibex_timeout_t *timeout) {
	return ibex_mcycle_read() - timeout->start > timeout->cycles;
	}

	/**
	* Returns the time elapsed in microseconds since `ibex_timeout_init` was
	* called.
	*
	* @param timeout Holds the counter start value..
	* @return Time elapsed in microseconds.
	*/
	inline uint64_t ibex_timeout_elapsed(const ibex_timeout_t *timeout) {
	return udiv64_slow((ibex_mcycle_read() - timeout->start) * 1000000,
	kClockFreqCpuHz, NULL);
	}

	/**
	* Convenience macro to spin with timeout in microseconds.
	*
	* @param expr An expression that is evaluated multiple times until true.
	* @param timeout_usec Timeout in microseconds.
	*/
	#define IBEX_SPIN_FOR(expr, timeout_usec) \
	do { \
	const ibex_timeout_t timeout_ = ibex_timeout_init(timeout_usec); \
	while (!(expr)) { \
	CHECK(!ibex_timeout_check(&timeout_), \
	"Timed out after %d usec (%d CPU cycles) waiting for " #expr, \
	timeout_usec, (uint32_t)timeout_.cycles); \
	} \
	} while (0)

	#endif // OPENTITAN_SW_DEVICE_LIB_RUNTIME_IBEX_H_