//***************************************************************************** // // am_hal_flash.c //! @file //! //! @brief Functions for performing Flash operations. //! //! @addtogroup flash2 Flash //! @ingroup apollo2hal //! //! IMPORTANT: Interrupts are active during execution of all HAL flash //! functions. If an interrupt occurs during execution of a flash function //! that programs or erases flash or INFO space, errors will occur if the //! interrupt service routine (ISR) is located in on-chip flash. //! If interrupts are expected during execution of a flash function that //! programs or erases either flash or INFO space: //! - Interrupts must be disabled via a critical section handler prior to //! calling the flash function. //! - Alternatively, applicable ISRs must be located in non-flash address space //! (i.e. SRAM, off-chip ROM, etc.). //! //! @{ // //***************************************************************************** //***************************************************************************** // // Copyright (c) 2017, Ambiq Micro // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its // contributors may be used to endorse or promote products derived from this // software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE // LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR // CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN // CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE // POSSIBILITY OF SUCH DAMAGE. // // This is part of revision 1.2.11 of the AmbiqSuite Development Package. // //***************************************************************************** #include #include #include "am_mcu_apollo.h" // // Look-up table // g_am_hal_flash_t g_am_hal_flash = { // // The basics. // // flash_mass_erase() ((int (*) (uint32_t, uint32_t)) 0x0800004d), // flash_page_erase() ((int (*) (uint32_t, uint32_t, uint32_t)) 0x08000051), // flash_program_main() ((int (*) (uint32_t, uint32_t *, uint32_t *, uint32_t)) 0x08000055), // flash_program_info() ((int (*) (uint32_t, uint32_t, uint32_t *, uint32_t, uint32_t)) 0x08000059), // // Non-blocking variants, but be careful these are not interrupt safe so // mask interrupts while these very long operations proceed. // // flash_mass_erase_nb() ((int (*)(uint32_t, uint32_t)) 0x0800006d), // flash_page_erase_nb() ((int (*)(uint32_t, uint32_t, uint32_t)) 0x08000071), // flash_nb_operation_complete() ((bool (*)(void)) 0x0800007d), // // Essentially these are recovery options. // // flash_erase_info() ((int (*)(uint32_t, uint32_t)) 0x08000081), // flash_erase_main_plus_info() ((int (*)(uint32_t, uint32_t)) 0x08000089), // flash_erase_main_plus_info_both_instances() ((int (*)(uint32_t)) 0x08000091), // flash_recovery() ((void (*)(uint32_t)) 0x08000099), // // Useful utilities. // // flash_util_read_word() ((uint32_t (*)(uint32_t*)) 0x08000075), // flash_util_write_word() ((void (*)(uint32_t*, uint32_t)) 0x08000079), // delay_cycles() ((void (*)(uint32_t)) 0x0800009d), // // The following functions pointers must never be called from user // programs. They are here primarily to document these entry points // which are usable from a debugger or debugger script. // // flash_program_main_sram() ((void (*) (void)) 0x0800005d), // flash_program_info_sram() ((void (*) (void)) 0x08000061), // flash_erase_main_pages_sram() ((void (*) (void)) 0x08000065), // flash_mass_erase_sram() ((void (*) (void)) 0x08000069), // flash_erase_info_sram() ((void (*)(void)) 0x08000085), // flash_erase_main_plus_info_sram() ((void (*)(void)) 0x0800008d) }; //***************************************************************************** // //! @brief This function performs a mass erase on a flash instance. //! //! @param ui32Value - The flash program key. //! @param ui32FlashInst - The flash instance to erase. //! //! This function will erase the desired instance of flash. //! //! @note For Apollo2, each flash instance contains a maximum of 512KB. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_mass_erase(uint32_t ui32Value, uint32_t ui32FlashInst) { return g_am_hal_flash.flash_mass_erase(ui32Value, ui32FlashInst); } //***************************************************************************** // //! @brief This function performs a page erase on a flash instance. //! //! @param ui32Value - The flash program key. //! @param ui32FlashInst - The flash instance to reference the page number with. //! @param ui32PageNum - The flash page relative to the specified instance. //! //! This function will erase the desired flash page in the desired instance of //! flash. //! //! @note For Apollo2, each flash page is 8KB (or AM_HAL_FLASH_PAGE_SIZE). //! Each flash instance contains a maximum of 64 pages (or //! AM_HAL_FLASH_INSTANCE_PAGES). //! //! @note When given an absolute flash address, a couple of helpful macros can //! be utilized when calling this function. //! For example: //! am_hal_flash_page_erase(AM_HAL_FLASH_PROGRAM_KEY, //! AM_HAL_FLASH_ADDR2INST(ui32Addr), //! AM_HAL_FLASH_ADDR2PAGE(ui32Addr) ); //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_page_erase(uint32_t ui32Value, uint32_t ui32FlashInst, uint32_t ui32PageNum) { return g_am_hal_flash.flash_page_erase(ui32Value, ui32FlashInst, ui32PageNum); } //***************************************************************************** // //! @brief This programs up to N words of the Main array on one flash instance. //! //! @param ui32Value - The programming key, AM_HAL_FLASH_PROGRAM_KEY. //! @param pui32Src - Pointer to word aligned array of data to program into //! the flash instance. //! @param pui32Dst - Pointer to the word aligned flash location where //! programming of the flash instance is to begin. //! @param ui32NumWords - The number of words to be programmed. //! //! This function will program multiple words in main flash. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_program_main(uint32_t ui32Value, uint32_t *pui32Src, uint32_t *pui32Dst, uint32_t ui32NumWords) { return g_am_hal_flash.flash_program_main(ui32Value, pui32Src, pui32Dst, ui32NumWords); } //***************************************************************************** // //! @brief This function programs multiple words in the customer INFO space. //! //! @param ui32Value - The customer INFO space key. //! @param ui32InfoInst - The INFO space instance, 0 or 1. //! @param *pui32Src - Pointer to word aligned array of data to program into //! the customer INFO space. //! @param ui32Offset - Word offset into customer INFO space (offset of 0 is //! the first word, 1 is second word, etc.). //! @param ui32NumWords - The number of words to be programmed, must not //! exceed AM_HAL_FLASH_INFO_SIZE/4. //! //! This function will program multiple words in the customer INFO space. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_program_info(uint32_t ui32Value, uint32_t ui32InfoInst, uint32_t *pui32Src, uint32_t ui32Offset, uint32_t ui32NumWords) { return g_am_hal_flash.flash_program_info(ui32Value, 0, pui32Src, ui32Offset, ui32NumWords); } //***************************************************************************** // //! @brief This function erases an instance of the customer INFO space. //! //! @param ui32ProgramKey - The customer INFO space programming key //! (AM_HAL_FLASH_PROGRAM_KEY). //! @param ui32Inst - The flash instance, either 0 or 1. //! //! This function will erase the the customer INFO space of the specified //! instance. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_erase_info(uint32_t ui32ProgramKey, uint32_t ui32Inst) { return g_am_hal_flash.flash_erase_info(ui32ProgramKey, ui32Inst); } //***************************************************************************** // //! @brief This function erases the main instance + the customer INFO space. //! //! @param ui32ProgramKey - The customer INFO space key. //! @param ui32Inst - The flash instance, either 0 or 1. //! //! This function will erase the main flash + the customer INFO space of the //! specified instance. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_erase_main_plus_info(uint32_t ui32ProgramKey, uint32_t ui32Inst) { return g_am_hal_flash.flash_erase_main_plus_info(ui32ProgramKey, ui32Inst); } //***************************************************************************** // //! @brief This function erases the main flash + the customer INFO space. //! //! @param ui32ProgramKey - The customer INFO space key. //! //! This function will erase both instances the main flash + the //! customer INFO space. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return 0 for success, non-zero for failure. // //***************************************************************************** int am_hal_flash_erase_main_plus_info_both_instances(uint32_t ui32ProgramKey) { return g_am_hal_flash.flash_erase_main_plus_info_both_instances( ui32ProgramKey); } //***************************************************************************** // //! @brief This function erases both main flash instances + both customer INFO //! space instances. //! //! @param ui32RecoveryKey - The recovery key. //! //! This function erases both main instances and both customer INFOinstances //! even if the customer INFO space is programmed to not be erasable. This //! function completely erases the flash main and info instances and wipes the //! SRAM. Upon completion of the erasure operations, it does a POI (power on //! initialization) reset. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Never Returns!!! // //***************************************************************************** void am_hal_flash_recovery(uint32_t ui32RecoveryKey) { g_am_hal_flash.flash_recovery(ui32RecoveryKey); } //***************************************************************************** // //! @brief Return ui32 value obtained from anywhere in D Code or System Bus //! //! @param ui32Address - return the value corresponding to this location. //! //! Use this function to read a value from various peripheral locations //! that must be read from code running external to flash. //! //! @return the value found // //***************************************************************************** uint32_t am_hal_flash_load_ui32(uint32_t ui32Address) { return g_am_hal_flash.flash_util_read_word((uint32_t*)ui32Address); } //***************************************************************************** // //! @brief Use the bootrom to write to a location in SRAM or the system bus. //! //! @param ui32Address - Store the data value corresponding to this location. //! @param ui32Data - 32-bit Data to be stored. //! //! Use this function to store a value to various peripheral or SRAM locations //! that can not be touched from code running in SRAM or FLASH. There is no //! known need for this function in Apollo2 at this time. //! //! @return None. // //***************************************************************************** void am_hal_flash_store_ui32(uint32_t ui32Address, uint32_t ui32Data) { g_am_hal_flash.flash_util_write_word((uint32_t*)ui32Address, ui32Data); } //***************************************************************************** // //! @brief Use the bootrom to implement a spin loop. //! //! @param ui32Iterations - Number of iterations to delay. //! //! Use this function to implement a CPU busy waiting spin loop without cache //! or delay uncertainties. //! //! Note that the ROM-based function executes at 3 cycles per iteration plus //! the regular function call, entry, and exit overhead. //! The call and return overhead, including the call to this function, is //! somewhere in the neighborhood of 14 cycles, or 4.7 iterations. //! //! Example: //! - MCU operating at 48MHz -> 20.83 ns / cycle //! - Therefore each iteration (once inside the bootrom function) will consume //! 62.5ns. //! - The total overhead (assuming 14 cycles) is 292ns. //! - For ui32Iterations=28: Total delay time = 0.292 + (0.0625 * 28) = 2.04us. //! //! The FLASH_CYCLES_US(n) macro can be used with am_hal_flash_delay() to //! get an approximate microsecond delay. //! e.g. For a 2us delay, use: //! am_hal_flash_delay( FLASH_CYCLES_US(2) ); //! //! @note Interrupts are active during execution of this function. Therefore, //! any interrupt taken will affect the delay timing. //! //! @return None. // //***************************************************************************** void am_hal_flash_delay(uint32_t ui32Iterations) { g_am_hal_flash.delay_cycles(ui32Iterations); } //***************************************************************************** // //! @brief Delays for a desired amount of cycles while also waiting for a //! status change. //! //! @param ui32usMaxDelay - Maximum number of ~1uS delay loops. //! @param ui32Address - Address of the register for the status change. //! @param ui32Mask - Mask for the status change. //! @param ui32Value - Target value for the status change. //! //! This function will delay for approximately the given number of microseconds //! while checking for a status change, exiting when either the given time has //! expired or the status change is detected. //! //! @returns 0 = timeout. //! 1 = status change detected. // //***************************************************************************** uint32_t am_hal_flash_delay_status_change(uint32_t ui32usMaxDelay, uint32_t ui32Address, uint32_t ui32Mask, uint32_t ui32Value) { while ( ui32usMaxDelay-- ) { // // Check the status // if ( ( AM_REGVAL(ui32Address) & ui32Mask ) == ui32Value ) { return 1; } // // Call the BOOTROM cycle function to delay for about 1 microsecond. // am_hal_flash_delay( FLASH_CYCLES_US(1) ); } return 0; } // am_hal_flash_delay_status_change() //***************************************************************************** // //! @brief Static Helper Function to check customer info valid bits erasure. //! //! Use this function to test the state of the 128 valid bits at the beginning //! of customer info space. If these are all erased then return true. //! //! @return true if the customer info bits are currently erased. // //***************************************************************************** static bool customer_info_signature_erased(void) { uint32_t *pui32Signature = (uint32_t *) AM_HAL_FLASH_INFO_ADDR; return ( (pui32Signature[3] == 0xFFFFFFFF) && (pui32Signature[2] == 0xFFFFFFFF) && (pui32Signature[1] == 0xFFFFFFFF) && (pui32Signature[0] == 0xFFFFFFFF) ) ? true : false; } //***************************************************************************** // //! @brief Static Helper Function to set customer info valid bits //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space. If these bits are not set correctly then the //! customer protection bits in the INFO space will not be honored by the //! hardware. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** static int customer_info_signature_set(void) { uint32_t ui32Valid[4]; int iRC; // // If they are already set then we are done. // if ( am_hal_flash_customer_info_signature_check() ) { return 0; } // // If they are not erased at this point we have an error. // if ( !customer_info_signature_erased() ) { return (2 << 16); } // // OK they need to be set so do it. // ui32Valid[3] = AM_HAL_FLASH_INFO_SIGNATURE3; ui32Valid[2] = AM_HAL_FLASH_INFO_SIGNATURE2; ui32Valid[1] = AM_HAL_FLASH_INFO_SIGNATURE1; ui32Valid[0] = AM_HAL_FLASH_INFO_SIGNATURE0; iRC = g_am_hal_flash.flash_program_info(AM_HAL_FLASH_PROGRAM_KEY, 0, // instance ui32Valid, // source data 0, // offset 4); // number of words return iRC | ((iRC) ? (1 << 16) : 0); } //***************************************************************************** // //! @brief Check that the customer info bits are valid. //! //! Use this function to test the state of the 128 valid bits at the beginning //! of customer info space. If these are not set correctly then the customer //! protection bits in the INFO space will not be honored by the hardware. //! //! @return true if valid. // //***************************************************************************** bool am_hal_flash_customer_info_signature_check(void) { uint32_t *pui32Signature = (uint32_t *)AM_HAL_FLASH_INFO_ADDR; return ( (pui32Signature[3] == AM_HAL_FLASH_INFO_SIGNATURE3) && (pui32Signature[2] == AM_HAL_FLASH_INFO_SIGNATURE2) && (pui32Signature[1] == AM_HAL_FLASH_INFO_SIGNATURE1) && (pui32Signature[0] == AM_HAL_FLASH_INFO_SIGNATURE0) ); } //***************************************************************************** // //! @brief INFO signature set. //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** bool am_hal_flash_info_signature_set(void) { // // Check and set signature. // return customer_info_signature_set() ? false : true; } //***************************************************************************** // //! @brief Disable FLASH INFO space. //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. Then disable FLASH erasure. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** int32_t am_hal_flash_info_erase_disable(void) { int iRC; uint32_t ui32SecurityValue; // // Security protection only works if the signature data is correct. // iRC = customer_info_signature_set(); if ( iRC ) { return iRC; } // // Clear bit in INFO space to disable erasure. // ui32SecurityValue = AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & ~AM_HAL_FLASH_INFO_SECURITY_ENINFOERASE_M; // // Now write the word to the flash INFO space. // return g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32SecurityValue, // source data AM_HAL_FLASH_INFO_SECURITY_O / 4, // word offset 1 ); // number of words } //***************************************************************************** // //! @brief Check for Disabled FLASH INFO space. //! //! Use this function to determine whether FLASH INFO erasure is disabled. //! //! @return true if FLASH INFO erase is disabled, otherwise false. // //***************************************************************************** bool am_hal_flash_info_erase_disable_check(void) { // // If they are erased at this point then SRAM wipe can't be enabled. // if ( customer_info_signature_erased() ) { return false; } // // If they are not valid at this point then SRAM wipe can't be enabled. // if ( !am_hal_flash_customer_info_signature_check() ) { return false; } // // Looking good so far, now check the SRAM WIPE bit. // return AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & AM_HAL_FLASH_INFO_SECURITY_ENINFOERASE_M ? false : true; } //***************************************************************************** // //! @brief Mask off 1 to 4 quadrants of FLASH INFO space for programming. //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. Then and the mask bits with the INFO //! space programming disable bits. //! //! @param ui32Mask - A mask of the 4 quadrants of info space where //! bit0 = First quadrant (first 2KB). //! bit1 = Second quadrant (second 2KB). //! bit2 = Third quadrant (third 2KB). //! bit3 = Fourth quadrant (fourth 2KB). //! //! @note This function disables only, any quadrant already disabled is not //! reenabled. That is, any ui32Mask bits specified as 0 are essentially nops. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** int32_t am_hal_flash_info_program_disable(uint32_t ui32Mask) { int iRC; uint32_t ui32SecurityValue; // // Security protection only works if the signature data is correct. // iRC = customer_info_signature_set(); if ( iRC ) { return iRC; } // // Make sure we have a valid mask and get the mask into the correct position. // ui32Mask <<= AM_HAL_FLASH_INFO_SECURITY_ENINFOPRGM_S; ui32Mask &= AM_HAL_FLASH_INFO_SECURITY_ENINFOPRGM_M; // // The security bit set to 1 enables programming, 0 disables programming. // ui32SecurityValue = AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & ~ui32Mask; // // Now write the word to the flash INFO space. // return g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32SecurityValue, // source data AM_HAL_FLASH_INFO_SECURITY_O / 4, // word offset 1 ); // number of words } //***************************************************************************** // //! @brief Return a mask specifying which quadrants of customer INFO space have //! been disabled for programming. //! //! Use this function to determine whether programming of customer INFO space //! has been disabled. //! //! @return A 4-bit mask of the disabled quadrants. //! 0xFFFFFFFF indicates an error. //! 0x0 indicates all customer INFO space programming is enabled. //! 0xF indicates all customer INFO space programming is disabled. //! bit0 indicates the first customer INFO space is disabled for programming. //! bit1 indicates the second customer INFO space is disabled for programming. //! bit2 indicates the third customer INFO space is disabled for programming. //! bit3 indicates the fourth customer INFO space is disabled for programming. // //***************************************************************************** uint32_t am_hal_flash_info_program_disable_get(void) { // // If they are erased at this point then SRAM wipe can't be enabled. // if ( customer_info_signature_erased() ) { return 0xFFFFFFFF; } // // If not valid at this point, then INFO programming can't be enabled. // if ( !am_hal_flash_customer_info_signature_check() ) { return 0xFFFFFFFF; } // // Looking good so far, now return a mask of the disabled bits. // return ((AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & AM_HAL_FLASH_INFO_SECURITY_ENINFOPRGM_M) ^ AM_HAL_FLASH_INFO_SECURITY_ENINFOPRGM_M) >> AM_HAL_FLASH_INFO_SECURITY_ENINFOPRGM_S; } //***************************************************************************** // //! @brief Enable FLASH debugger protection (FLASH gets wiped if a debugger is //! connected). //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. Then set the FLASH wipe bit to zero. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** int32_t am_hal_flash_wipe_flash_enable(void) { int iRC; uint32_t ui32SecurityValue; // // Security protection only works if the signature data is correct. // iRC = customer_info_signature_set(); if ( iRC ) { return iRC; } // // Clear the FLASH Wipe bit. // ui32SecurityValue = AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & ~AM_HAL_FLASH_INFO_SECURITY_FLASHWIPE_M; // // Now write the word to the flash INFO space. // return g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32SecurityValue, // source data AM_HAL_FLASH_INFO_SECURITY_O / 4, // word offset 1 ); // number of words } //***************************************************************************** // //! @brief check for FLASH wipe protection enabled. //! //! Use this function to determine if FLASH wipe protection is enabled. //! //! @return true if FLASH wipe protection is enabled, otherwise false. // //***************************************************************************** bool am_hal_flash_wipe_flash_enable_check(void) { // // If they are erased at this point then flash wipe can't be enabled. // if ( customer_info_signature_erased() ) { return false; } // // If they are not valid at this point then flash wipe can't be enabled. // if ( !am_hal_flash_customer_info_signature_check() ) { return false; } // // Looking good so far, now check the Flash WIPE bit. // return AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & AM_HAL_FLASH_INFO_SECURITY_FLASHWIPE_M ? false : true; } //***************************************************************************** // //! @brief Enable SRAM protection so SRAM gets wiped if a debgger is connected. //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. Then set the SRAM wipe bit to zero. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** int32_t am_hal_flash_wipe_sram_enable(void) { int iRC; uint32_t ui32SecurityValue; // // Security protection only works if the signature data is correct. // iRC = customer_info_signature_set(); if ( iRC ) { return iRC; } // // Clear the SRAM Wipe bit. // ui32SecurityValue = AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & ~AM_HAL_FLASH_INFO_SECURITY_SRAMWIPE_M; // // Now write the word to the flash INFO space. // return g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32SecurityValue, // source data AM_HAL_FLASH_INFO_SECURITY_O / 4, // word offset 1 ); // number of words } //***************************************************************************** // //! @brief check for SRAM protection enabled. //! //! Use this function to determine if SRAM protection is enabled. //! //! @return true if SRAM wipe protection is enabled, otherwise false. // //***************************************************************************** bool am_hal_flash_wipe_sram_enable_check(void) { // // If they are erased at this point then SRAM wipe can't be enabled. // if ( customer_info_signature_erased() ) { return false; } // // If they are not vale at this point then SRAM wipe can't be enabled. // if ( !am_hal_flash_customer_info_signature_check() ) { return false; } // // Looking good so far, now check the SRAM WIPE bit. // return AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & AM_HAL_FLASH_INFO_SECURITY_SRAMWIPE_M ? false : true; } //***************************************************************************** // //! @brief Disable Output from ITM/SWO. //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. Set the SWO disable bit to zero. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** int32_t am_hal_flash_swo_disable(void) { int iRC; uint32_t ui32SecurityValue; // // Security protection only works if the signature data is correct. // iRC = customer_info_signature_set(); if ( iRC ) { return iRC; } // // Clear the SWO bit. // ui32SecurityValue = AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & ~AM_HAL_FLASH_INFO_SECURITY_SWOCTRL_M; // // Now write the word to the flash INFO space. // return g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32SecurityValue, // source data AM_HAL_FLASH_INFO_SECURITY_O / 4, // word offset 1 ); // number of words } //***************************************************************************** // //! @brief check for SWO disabled. //! //! Use this function to determine if the SWO is disabled. //! //! @return true if the ITM/SWO is disabled, otherwise false. // //***************************************************************************** bool am_hal_flash_swo_disable_check(void) { // // If they are erased at this point then SRAM wipe can't be enabled. // if ( customer_info_signature_erased() ) { return false; } // // If they are not vale at this point then SRAM wipe can't be enabled. // if ( !am_hal_flash_customer_info_signature_check() ) { return false; } // // Looking good so far, now check the SWO bit. // return AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & AM_HAL_FLASH_INFO_SECURITY_SWOCTRL_M ? false : true; } //***************************************************************************** // //! @brief Disable Connections from a debugger on the SWD interface. //! //! Use this function to set the state of the 128 valid bits at the beginning //! of customer info space, if needed. Set the debugger disable bit to zero. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return Zero for success. Non-Zero for errors. // //***************************************************************************** int32_t am_hal_flash_debugger_disable(void) { int iRC; uint32_t ui32SecurityValue; // // Security protection only works if the signature data is correct. // iRC = customer_info_signature_set(); if ( iRC ) { return iRC; } // // Clear the DEBUGGER bit. // ui32SecurityValue = AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & ~AM_HAL_FLASH_INFO_SECURITY_DEBUGGERPROT_M; // // Now write the word to the flash INFO space. // return g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32SecurityValue, // source data AM_HAL_FLASH_INFO_SECURITY_O / 4, // word offset 1 ); // number of words } //***************************************************************************** // //! @brief check for debugger disabled. //! //! Use this function to determine if the debugger is disabled. //! //! @return true if the debugger is disabled, otherwise false. // //***************************************************************************** bool am_hal_flash_debugger_disable_check(void) { // // If they are erased at this point then SRAM wipe can't be enabled. // if ( customer_info_signature_erased() ) { return false; } // // If they are not vale at this point then SRAM wipe can't be enabled. // if ( !am_hal_flash_customer_info_signature_check() ) { return false; } // // Looking good so far, now check the debugger disable bit. // return AM_REGVAL(AM_HAL_FLASH_INFO_SECURITY_ADDR) & AM_HAL_FLASH_INFO_SECURITY_DEBUGGERPROT_M ? false : true; } //***************************************************************************** // //! @brief This static helper function generates a 64-bit protection mask. //! //! @param pui32StartAddress - Starting address in flash to begin protection. //! @param pui32StopAddress - Ending address in flash to stop protection. //! //! This function computes a chunk map for the protection range. //! //! @return Inverse of the actual chunk mask. That is, chunks to be protected //! are represented as 0 in the returned mask, while chunks to be left alone //! are represented as 1. This value can therefore be directly ANDed with the //! existing bits in INFO space. //! Note that -1 is returned if input parameters are invalid - this return //! value would indicate that no chunks are to be protected. //! // //***************************************************************************** static uint64_t generate_chunk_mask(uint32_t *pui32StartAddress, uint32_t *pui32StopAddress) { uint32_t ui32ChunkStart, ui32ChunkStop; uint32_t ui32Width; uint64_t ui64Mask; // // Validate the address input parameters // if ( (pui32StartAddress > pui32StopAddress) || (pui32StopAddress > (uint32_t*)AM_HAL_FLASH_LARGEST_VALID_ADDR) ) { // // Argument error, return value to leave all chunks unprotected. // return 0xFFFFFFFFFFFFFFFF; } // // Extract chunk related information // ui32ChunkStart = AM_HAL_FLASH_INFO_ADDR2CHUNK((uint32_t)pui32StartAddress); ui32ChunkStop = AM_HAL_FLASH_INFO_ADDR2CHUNK((uint32_t)pui32StopAddress); ui32Width = ui32ChunkStop - ui32ChunkStart + 1; if ( ui32Width == 64 ) { ui64Mask = (uint64_t)0xFFFFFFFFFFFFFFFFLLU; } else { ui64Mask = ( ((uint64_t)0x0000000000000001) << ui32Width) - 1; ui64Mask <<= ui32ChunkStart; } // // OK now return the chunk mask (inverted). // return ~ui64Mask; } //***************************************************************************** // //! @brief This function sets copy protection for a range of flash chunks. //! //! @param pui32StartAddress - Starting address in flash to begin protection. //! @param pui32StopAddress - Ending address in flash to stop protection. //! //! This function will set copy protection bits for a range of flash chunks //! //! @note Each flash chunk contains 16KBytes and corresponds to one bit in //! the protection register. Set the bit to zero to enable protection. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return //! 0 for success. //! 0x400000 if the protection bits were already programmed (mask the return //! value with 0x3FFFFF to ignore this case and treat as success). //! Otherwise, non-zero for failure. // //***************************************************************************** int32_t am_hal_flash_copy_protect_set(uint32_t *pui32StartAddress, uint32_t *pui32StopAddress) { int iRC; bool bModified = false; uint64_t ui64Mask; uint32_t ui32Work; uint32_t ui32Protection[2]; uint32_t *pui32Protection = (uint32_t *)AM_HAL_FLASH_INFO_COPYPROT_ADDR; // // Extract chunk mask from parameters. // Also checks parameter validity (returns -1 if bad parameters). // ui64Mask = generate_chunk_mask(pui32StartAddress, pui32StopAddress); if ( ~ui64Mask == 0x0 ) { return 0x100000; } // // Go get the current settings for copy protection. // ui32Protection[0] = pui32Protection[0]; ui32Protection[1] = pui32Protection[1]; // // AND mask off the necessary protection bits in the lower word. // ui32Work = (uint32_t)ui64Mask; if ( ( ~ui32Work ) && ( ui32Work != ui32Protection[0] ) ) { bModified = true; ui32Protection[0] &= ui32Work; iRC = g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32Protection[0], // source data (AM_HAL_FLASH_INFO_COPYPROT_O / 4) + 0, // word offset 1 ); // number of words if ( iRC ) { return iRC | 0x10000; } } // // AND mask off the necessary protection bits in the upper word. // ui32Work = (uint32_t)(ui64Mask >> 32); if ( ( ~ui32Work ) && ( ui32Work != ui32Protection[1] ) ) { bModified = true; ui32Protection[1] &= ui32Work; iRC = g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32Protection[1], // source data (AM_HAL_FLASH_INFO_COPYPROT_O / 4) + 1, // word offset 1 ); // number of words if ( iRC ) { return iRC | 0x20000; } } if ( bModified ) { return 0; } else { return 0x400000; } } //***************************************************************************** // //! @brief This function checks copy protection for a range of flash chunks. //! //! @param pui32StartAddress - Starting address in flash. //! @param pui32StopAddress - Ending address in flash. //! //! This function will check copy protection bits for a range of flash chunks //! it expects all chunks in the range to be protected. //! //! @note Each flash chunk contains 16KBytes and corresponds to one bit in //! the protection register. Set the bit to zero to enable protection. //! //! @return false for at least one chunk in the covered range is not protected, //! and true if all chunks in the covered range are protected. //! // //***************************************************************************** bool am_hal_flash_copy_protect_check(uint32_t *pui32StartAddress, uint32_t *pui32StopAddress) { uint64_t ui64Mask; uint32_t ui32Work; uint32_t *pui32Protection = (uint32_t *)AM_HAL_FLASH_INFO_COPYPROT_ADDR; // // Extract chunk mask from parameters. // Also checks parameter validity (returns -1 if bad parameters). // ui64Mask = generate_chunk_mask(pui32StartAddress, pui32StopAddress); if ( ~ui64Mask == 0x0 ) { return false; } // // Now check the lower word of protection bits. // ui32Work = (uint32_t)ui64Mask; if ( ~ui32Work & pui32Protection[0] ) { return false; } // // Now check the lower word of protection bits. // ui32Work = (uint32_t)(ui64Mask >> 32); if ( ~ui32Work & pui32Protection[1] ) { return false; } // // If we get here, there are no unprotected chunks within specified range. // return true; } //***************************************************************************** // //! @brief This function sets write protection for a range of flash chunks. //! //! @param pui32StartAddress - Starting address in flash to begin protection. //! @param pui32StopAddress - Ending address in flash to stop protection. //! //! This function will set write protection bits for a range of flash chunks //! //! @note Each flash chunk contains 16KBytes and corresponds to one bit in //! the protection register. Set the bit to zero to enable protection. //! //! @note Interrupts are active during execution of this function. Any interrupt //! taken could cause execution errors. Please see the IMPORTANT note under //! Detailed Description above for more details. //! //! @return //! 0 for success. //! 0x400000 if the protection bits were already programmed (mask the return //! value with 0x3FFFFF to ignore this case and treat as success). //! Otherwise, non-zero for failure. // //***************************************************************************** int32_t am_hal_flash_write_protect_set(uint32_t *pui32StartAddress, uint32_t *pui32StopAddress) { int iRC; bool bModified = false; uint64_t ui64Mask; uint32_t ui32Work; uint32_t ui32Protection[2]; uint32_t *pui32Protection = (uint32_t *)AM_HAL_FLASH_INFO_WRITPROT_ADDR; // // Extract chunk mask from parameters. // Also checks parameter validity (returns -1 if bad parameters). // ui64Mask = generate_chunk_mask(pui32StartAddress, pui32StopAddress); if ( ~ui64Mask == 0x0 ) { return 0x100000; } // // Go get the current settings for copy protection. // ui32Protection[0] = pui32Protection[0]; ui32Protection[1] = pui32Protection[1]; // // AND mask off the necessary protection bits in the lower word. // ui32Work = (uint32_t)ui64Mask; if ( ( ~ui32Work ) && ( ui32Work != ui32Protection[0] ) ) { bModified = true; ui32Protection[0] &= ui32Work; iRC = g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32Protection[0], // source data (AM_HAL_FLASH_INFO_WRITPROT_O / 4) + 0, // word offset 1 ); // number of words if ( iRC ) { return iRC | 0x10000; } } // // AND mask off the necessary protection bits in the upper word. // ui32Work = (uint32_t)(ui64Mask >> 32); if ( ( ~ui32Work ) && ( ui32Work != ui32Protection[1] ) ) { bModified = true; ui32Protection[1] &= ui32Work; iRC = g_am_hal_flash.flash_program_info( AM_HAL_FLASH_PROGRAM_KEY, 0, // instance &ui32Protection[1], // source data (AM_HAL_FLASH_INFO_WRITPROT_O / 4) + 1, // word offset 1 ); // number of words if ( iRC ) { return iRC | 0x20000; } } if ( bModified ) { return 0; } else { return 0x400000; } } //***************************************************************************** // //! @brief This function checks write protection for a range of flash chunks. //! //! @param pui32StartAddress - Starting address in flash. //! @param pui32StopAddress - Ending address in flash. //! //! This function will check write protection bits for a range of flash chunks //! it expects all chunks in the range to be protected. //! //! @note Each flash chunk contains 16KBytes and corresponds to one bit in //! the protection register. Set the bit to zero to enable protection. //! //! @return false for at least one chunk in the covered range is not protected, //! and true if all chunks in the covered range are protected. //! // //***************************************************************************** bool am_hal_flash_write_protect_check(uint32_t *pui32StartAddress, uint32_t *pui32StopAddress) { uint64_t ui64Mask; uint32_t ui32Work; uint32_t *pui32Protection = (uint32_t *)AM_HAL_FLASH_INFO_WRITPROT_ADDR; // // Extract chunk mask from parameters. // Also checks parameter validity (returns -1 if bad parameters). // ui64Mask = generate_chunk_mask(pui32StartAddress, pui32StopAddress); if ( ~ui64Mask == 0x0 ) { return false; } // // Now check the lower word of protection bits. // ui32Work = (uint32_t)ui64Mask; if ( ~ui32Work & pui32Protection[0] ) { return false; } // // Now check the lower word of protection bits. // ui32Work = (uint32_t)(ui64Mask >> 32); if ( ~ui32Work & pui32Protection[1] ) { return false; } // // If we get here, there are no unprotected chunks within specified range. // return true; } //***************************************************************************** // // End Doxygen group. //! @} // //*****************************************************************************