diff options
Diffstat (limited to 'drivers/mxc/security/sahara2/sah_status_manager.c')
-rw-r--r-- | drivers/mxc/security/sahara2/sah_status_manager.c | 714 |
1 files changed, 714 insertions, 0 deletions
diff --git a/drivers/mxc/security/sahara2/sah_status_manager.c b/drivers/mxc/security/sahara2/sah_status_manager.c new file mode 100644 index 000000000000..f881b47591c2 --- /dev/null +++ b/drivers/mxc/security/sahara2/sah_status_manager.c @@ -0,0 +1,714 @@ +/* + * Copyright (C) 2004-2011 Freescale Semiconductor, Inc. All Rights Reserved. + */ + +/* + * The code contained herein is licensed under the GNU General Public + * License. You may obtain a copy of the GNU General Public License + * Version 2 or later at the following locations: + * + * http://www.opensource.org/licenses/gpl-license.html + * http://www.gnu.org/copyleft/gpl.html + */ + +/*! +* @file sah_status_manager.c +* +* @brief Status Manager Function +* +* This file contains the function which processes the Sahara status register +* during an interrupt. +* +* This file does not need porting. +*/ + +#include "portable_os.h" + +#include <sah_status_manager.h> +#include <sah_hardware_interface.h> +#include <sah_queue_manager.h> +#include <sah_memory_mapper.h> +#include <sah_kernel.h> + +#if defined(DIAG_DRV_INTERRUPT) && defined(DIAG_DURING_INTERRUPT) +#include <diagnostic.h> +#endif + +/*! Compile-time flag to count various interrupt types. */ +#define DIAG_INT_COUNT + +/*! + * Number of interrupts processed with Done1Done2 status. Updates to this + * value should only be done in interrupt processing. + */ +uint32_t done1_count; + +/*! + * Number of interrupts processed with Done1Busy2 status. Updates to this + * value should only be done in interrupt processing. + */ +uint32_t done1busy2_count; + +/*! + * Number of interrupts processed with Done1Done2 status. Updates to this + * value should only be done in interrupt processing. + */ +uint32_t done1done2_count; + +/*! + * the dynameic power management flag is false when power management is not + * asserted and true when dpm is. + */ +#ifdef SAHARA_POWER_MANAGEMENT +bool sah_dpm_flag = FALSE; + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) +static int sah_dpm_suspend(struct device *dev, uint32_t state, uint32_t level); +static int sah_dpm_resume(struct device *dev, uint32_t level); +#else +static int sah_dpm_suspend(struct platform_device *dev, pm_message_t state); +static int sah_dpm_resume(struct platform_device *dev); +#endif +#endif + +#ifndef SAHARA_POLL_MODE +/*! +******************************************************************************* +* This functionx processes the status register of the Sahara, updates the state +* of the finished queue entry, and then tries to find more work for Sahara to +* do. +* +* @brief The bulk of the interrupt handling code. +* +* @param hw_status The status register of Sahara at time of interrupt. +* The Clear interrupt bit is already handled by this +* register read prior to entry into this function. +* @return void +*/ +unsigned long sah_Handle_Interrupt(sah_Execute_Status hw_status) +{ + unsigned long reset_flag = 0; /* assume no SAHARA reset needed */ + os_lock_context_t lock_flags; + sah_Head_Desc *current_entry; + + /* HW status at time of interrupt */ + sah_Execute_Status state = hw_status & SAH_EXEC_STATE_MASK; + + do { + uint32_t dar; + +#ifdef DIAG_INT_COUNT + if (state == SAH_EXEC_DONE1) { + done1_count++; + } else if (state == SAH_EXEC_DONE1_BUSY2) { + done1busy2_count++; + } else if (state == SAH_EXEC_DONE1_DONE2) { + done1done2_count++; + } +#endif + + /* if the first entry on sahara has completed... */ + if ((state & SAH_EXEC_DONE1_BIT) || + (state == SAH_EXEC_ERROR1)) { + /* lock queue while searching */ + os_lock_save_context(desc_queue_lock, lock_flags); + current_entry = + sah_Find_With_State(SAH_STATE_ON_SAHARA); + os_unlock_restore_context(desc_queue_lock, lock_flags); + + /* an active descriptor was not found */ + if (current_entry == NULL) { + /* change state to avoid an infinite loop (possible if + * state is SAH_EXEC_DONE1_BUSY2 first time into loop) */ + hw_status = SAH_EXEC_IDLE; +#if defined(DIAG_DRV_INTERRUPT) && defined(DIAG_DURING_INTERRUPT) + LOG_KDIAG + ("Interrupt received with nothing on queue."); +#endif + } else { + /* SAHARA has completed its work on this descriptor chain */ + current_entry->status = SAH_STATE_OFF_SAHARA; + + if (state == SAH_EXEC_ERROR1) { + if (hw_status & STATUS_ERROR) { + /* Gather extra diagnostic information */ + current_entry->fault_address = + sah_HW_Read_Fault_Address(); + /* Read this last - it clears the error */ + current_entry->error_status = + sah_HW_Read_Error_Status(); + current_entry->op_status = 0; +#ifdef FSL_HAVE_SAHARA4 + } else { + current_entry->op_status = + sah_HW_Read_Op_Status(); + current_entry->error_status = 0; +#endif + } + + } else { + /* indicate that no errors were found with descriptor + * chain 1 */ + current_entry->error_status = 0; + current_entry->op_status = 0; + + /* is there a second, successfully, completed descriptor + * chain? (done1/error2 processing is handled later) */ + if (state == SAH_EXEC_DONE1_DONE2) { + os_lock_save_context + (desc_queue_lock, + lock_flags); + current_entry = + sah_Find_With_State + (SAH_STATE_ON_SAHARA); + os_unlock_restore_context + (desc_queue_lock, + lock_flags); + + if (current_entry == NULL) { +#if defined(DIAG_DRV_INTERRUPT) && defined(DIAG_DURING_INTERRUPT) + LOG_KDIAG + ("Done1_Done2 Interrupt received with " + "one entry on queue."); +#endif + } else { + /* indicate no errors in descriptor chain 2 */ + current_entry-> + error_status = 0; + current_entry->status = + SAH_STATE_OFF_SAHARA; + } + } + } + } + +#ifdef SAHARA_POWER_MANAGEMENT + /* check dynamic power management is not asserted */ + if (!sah_dpm_flag) { +#endif + do { + /* protect DAR and main_queue */ + os_lock_save_context(desc_queue_lock, + lock_flags); + dar = sah_HW_Read_DAR(); + /* check if SAHARA has space for another descriptor. SAHARA + * only accepts up to the DAR queue size number of DAR + * entries, after that 'dar' will not be zero until the + * pending interrupt is serviced */ + if (dar == 0) { + current_entry = + sah_Find_With_State + (SAH_STATE_PENDING); + if (current_entry != NULL) { +#ifndef SUBMIT_MULTIPLE_DARS + /* BUG FIX: state machine can transition from Done1 + * Busy2 directly to Idle. To fix that problem, + * only one DAR is being allowed on SAHARA at a + * time. If a high level interrupt has happened, + * there could * be an active descriptor chain */ + if (sah_Find_With_State + (SAH_STATE_ON_SAHARA) + == NULL) { +#endif +#if defined(DIAG_DRV_IF) && defined(DIAG_DURING_INTERRUPT) + sah_Dump_Chain + (¤t_entry-> + desc, + current_entry-> + desc. + dma_addr); +#endif /* DIAG_DRV_IF */ + sah_HW_Write_DAR + (current_entry-> + desc. + dma_addr); + current_entry-> + status = + SAH_STATE_ON_SAHARA; +#ifndef SUBMIT_MULTIPLE_DARS + } + current_entry = NULL; /* exit loop */ +#endif + } + } + os_unlock_restore_context + (desc_queue_lock, lock_flags); + } while ((dar == 0) && (current_entry != NULL)); +#ifdef SAHARA_POWER_MANAGEMENT + } /* sah_device_power_manager */ +#endif + } else { + if (state == SAH_EXEC_FAULT) { + sah_Head_Desc *previous_entry; /* point to chain 1 */ + /* Address of request when fault occured */ + uint32_t bad_dar = sah_HW_Read_IDAR(); + + reset_flag = 1; /* SAHARA needs to be reset */ + + /* get first of possible two descriptor chain that was + * on SAHARA */ + os_lock_save_context(desc_queue_lock, + lock_flags); + previous_entry = + sah_Find_With_State(SAH_STATE_ON_SAHARA); + os_unlock_restore_context(desc_queue_lock, + lock_flags); + + /* if it exists, continue processing the fault */ + if (previous_entry) { + /* assume this chain didn't complete correctly */ + previous_entry->error_status = -1; + previous_entry->status = + SAH_STATE_OFF_SAHARA; + + /* get the second descriptor chain */ + os_lock_save_context(desc_queue_lock, + lock_flags); + current_entry = + sah_Find_With_State + (SAH_STATE_ON_SAHARA); + os_unlock_restore_context + (desc_queue_lock, lock_flags); + + /* if it exists, continue processing both chains */ + if (current_entry) { + /* assume this chain didn't complete correctly */ + current_entry->error_status = + -1; + current_entry->status = + SAH_STATE_OFF_SAHARA; + + /* now see if either can be identified as the one + * in progress when the fault occured */ + if (current_entry->desc. + dma_addr == bad_dar) { + /* the second descriptor chain was active when the + * fault occured, so the first descriptor chain + * was successfull */ + previous_entry-> + error_status = 0; + } else { + if (previous_entry-> + desc.dma_addr == + bad_dar) { + /* if the first chain was in progress when the + * fault occured, the second has not yet been + * touched, so reset it to PENDING */ + current_entry-> + status = + SAH_STATE_PENDING; + } + } + } + } +#if defined(DIAG_DRV_INTERRUPT) && defined(DIAG_DURING_INTERRUPT) + } else { + /* shouldn't ever get here */ + if (state == SAH_EXEC_BUSY) { + LOG_KDIAG + ("Got Sahara interrupt in Busy state"); + } else { + if (state == SAH_EXEC_IDLE) { + LOG_KDIAG + ("Got Sahara interrupt in Idle state"); + } else { + LOG_KDIAG + ("Got Sahara interrupt in unknown state"); + } + } +#endif + } + } + + /* haven't handled the done1/error2 (the error 2 part), so setup to + * do that now. Otherwise, exit loop */ + state = (state == SAH_EXEC_DONE1_ERROR2) ? + SAH_EXEC_ERROR1 : SAH_EXEC_IDLE; + + /* Keep going while further status is available. */ + } while (state == SAH_EXEC_ERROR1); + + return reset_flag; +} + +#endif /* ifndef SAHARA_POLL_MODE */ + +#ifdef SAHARA_POLL_MODE +/*! +******************************************************************************* +* Submits descriptor chain to SAHARA, polls on SAHARA for completion, process +* results, and dephysicalizes chain +* +* @brief Handle poll mode. +* +* @param entry Virtual address of a physicalized chain +* +* @return 0 this function is always successful +*/ + +unsigned long sah_Handle_Poll(sah_Head_Desc * entry) +{ + sah_Execute_Status hw_status; /* Sahara's status register */ + os_lock_context_t lock_flags; + + /* lock SARAHA */ + os_lock_save_context(desc_queue_lock, lock_flags); + +#ifdef SAHARA_POWER_MANAGEMENT + /* check if the dynamic power management is asserted */ + if (sah_dpm_flag) { + /* return that request failed to be processed */ + entry->result = FSL_RETURN_ERROR_S; + entry->fault_address = 0xBAD; + entry->op_status= 0xBAD; + entry->error_status = 0xBAD; + } else { +#endif /* SAHARA_POWER_MANAGEMENT */ + +#if defined(DIAG_DRV_IF) + sah_Dump_Chain(&entry->desc, entry->desc.dma_addr); +#endif /* DIAG_DRV_IF */ + /* Nothing can be in the dar if we got the lock */ + sah_HW_Write_DAR((uint32_t) (entry->desc.dma_addr)); + + /* Wait for SAHARA to finish with this entry */ + hw_status = sah_Wait_On_Sahara(); + + /* if entry completed successfully, mark it as such */ + /**** HARDWARE ERROR WORK AROUND (hw_status == SAH_EXEC_IDLE) *****/ + if ( +#ifndef SUBMIT_MULTIPLE_DARS + (hw_status == SAH_EXEC_IDLE) || (hw_status == SAH_EXEC_DONE1_BUSY2) || /* should not happen */ +#endif + (hw_status == SAH_EXEC_DONE1) + ) { + entry->error_status = 0; + entry->result = FSL_RETURN_OK_S; + } else { + /* SAHARA is reporting an error with entry */ + if (hw_status == SAH_EXEC_ERROR1) { + /* Gather extra diagnostic information */ + entry->fault_address = + sah_HW_Read_Fault_Address(); + /* Read this register last - it clears the error */ + entry->error_status = + sah_HW_Read_Error_Status(); + entry->op_status = 0; + /* translate from SAHARA error status to fsl_shw return values */ + entry->result = + sah_convert_error_status(entry-> + error_status); +#ifdef DIAG_DRV_STATUS + sah_Log_Error(entry->op_status, + entry->error_status, + entry->fault_address); +#endif + } else if (hw_status == SAH_EXEC_OPSTAT1) { + entry->op_status = sah_HW_Read_Op_Status(); + entry->error_status = 0; + entry->result = + sah_convert_op_status(op_status); + } else { + /* SAHARA entered FAULT state (or something bazaar has + * happened) */ + pr_debug + ("Sahara: hw_status = 0x%x; Stat: 0x%08x; IDAR: 0x%08x; " + "CDAR: 0x%08x; FltAdr: 0x%08x; Estat: 0x%08x\n", + hw_status, sah_HW_Read_Status(), + sah_HW_Read_IDAR(), sah_HW_Read_CDAR(), + sah_HW_Read_Fault_Address(), + sah_HW_Read_Error_Status()); +#ifdef DIAG_DRV_IF + { + int old_level = console_loglevel; + console_loglevel = 8; + sah_Dump_Chain(&(entry->desc), + entry->desc.dma_addr); + console_loglevel = old_level; + } +#endif + + entry->error_status = -1; + entry->result = FSL_RETURN_ERROR_S; + sah_HW_Reset(); + } + } +#ifdef SAHARA_POWER_MANAGEMENT + } +#endif + + if (!(entry->uco_flags & FSL_UCO_BLOCKING_MODE)) { + /* put it in results pool to allow get_results to work */ + sah_Queue_Append_Entry(&entry->user_info->result_pool, entry); + if (entry->uco_flags & FSL_UCO_CALLBACK_MODE) { + /* invoke callback */ + entry->user_info->callback(entry->user_info); + } + } else { + /* convert the descriptor link back to virtual memory, mark dirty pages + * if they are from user mode, and release the page cache for user + * pages + */ + entry = sah_DePhysicalise_Descriptors(entry); + } + + os_unlock_restore_context(desc_queue_lock, lock_flags); + + return 0; +} + +#endif /* SAHARA_POLL_MODE */ + +/****************************************************************************** +* The following is the implementation of the Dynamic Power Management +* functionality. +******************************************************************************/ +#ifdef SAHARA_POWER_MANAGEMENT + +static bool sah_dpm_init_flag; + +/* dynamic power management information for the sahara driver */ +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) +static struct device_driver sah_dpm_driver = { + .name = "sahara_", + .bus = &platform_bus_type, +#else +static struct platform_driver sah_dpm_driver = { + .driver.name = "sahara_", + .driver.bus = &platform_bus_type, +#endif + .suspend = sah_dpm_suspend, + .resume = sah_dpm_resume +}; + +/* dynamic power management information for the sahara HW device */ +static struct platform_device sah_dpm_device = { + .name = "sahara_", + .id = 1, +}; + +/*! +******************************************************************************* +* Initilaizes the dynamic power managment functionality +* +* @brief Initialization of the Dynamic Power Management functionality +* +* @return 0 = success; failed otherwise +*/ +int sah_dpm_init() +{ + int status; + + /* dpm is not asserted */ + sah_dpm_flag = FALSE; + + /* register the driver to the kernel */ +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) + status = os_register_to_driver(&sah_dpm_driver); +#else + status = os_register_to_driver(&sah_dpm_driver.driver); +#endif + + if (status == 0) { + /* register a single sahara chip */ + /*status = platform_device_register(&sah_dpm_device); */ + status = os_register_a_device(&sah_dpm_device); + + /* if something went awry, unregister the driver */ + if (status != 0) { + /*driver_unregister(&sah_dpm_driver); */ +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) + os_unregister_from_driver(&sah_dpm_driver); +#else + os_unregister_from_driver(&sah_dpm_driver.driver); +#endif + sah_dpm_init_flag = FALSE; + } else { + /* if everything went okay, flag that life is good */ + sah_dpm_init_flag = TRUE; + } + } + + /* let the kernel know how it went */ + return status; + +} + +/*! +******************************************************************************* +* Unregister the dynamic power managment functionality +* +* @brief Unregister the Dynamic Power Management functionality +* +*/ +void sah_dpm_close() +{ + /* if dynamic power management was initilaized, kill it */ + if (sah_dpm_init_flag == TRUE) { + /*driver_unregister(&sah_dpm_driver); */ +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) + os_unregister_from_driver(&sah_dpm_driver); +#else + os_unregister_from_driver(&sah_dpm_driver.driver); +#endif + /*platform_device_register(&sah_dpm_device); */ + os_unregister_a_device(&sah_dpm_device); + } +} + +/*! +******************************************************************************* +* Callback routine defined by the Linux Device Model / Dynamic Power management +* extension. It sets a global flag to disallow the driver to enter queued items +* into Sahara's DAR. +* +* It allows the current active descriptor chains to complete before it returns +* +* @brief Suspends the driver +* +* @param dev contains device information +* @param state contains state information +* @param level level of shutdown +* +* @return 0 = success; failed otherwise +*/ + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) +static int sah_dpm_suspend(struct device *dev, uint32_t state, uint32_t level) +#else +static int sah_dpm_suspend(struct platform_device *dev, pm_message_t state) +#endif +{ + sah_Head_Desc *entry = NULL; + os_lock_context_t lock_flags; + int error_code = 0; + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) + switch (level) { + case SUSPEND_DISABLE: + /* Assert dynamic power management. This stops the driver from + * entering queued requests to Sahara */ + sah_dpm_flag = TRUE; + break; + + case SUSPEND_SAVE_STATE: + break; + + case SUSPEND_POWER_DOWN: + /* hopefully between the DISABLE call and this one, the outstanding + * work Sahara was doing complete. this checks (and waits) for + * those entries that were already active on Sahara to complete */ + /* lock queue while searching */ + os_lock_save_context(desc_queue_lock, lock_flags); + do { + entry = sah_Find_With_State(SAH_STATE_ON_SAHARA); + } while (entry != NULL); + os_unlock_restore_context(desc_queue_lock, lock_flags); + + /* now we kill the clock so the control circuitry isn't sucking + * any power */ + mxc_clks_disable(SAHARA2_CLK); + break; + } +#else + /* Assert dynamic power management. This stops the driver from + * entering queued requests to Sahara */ + sah_dpm_flag = TRUE; + + /* Now wait for any outstanding work Sahara was doing to complete. + * this checks (and waits) for + * those entries that were already active on Sahara to complete */ + do { + /* lock queue while searching */ + os_lock_save_context(desc_queue_lock, lock_flags); + entry = sah_Find_With_State(SAH_STATE_ON_SAHARA); + os_unlock_restore_context(desc_queue_lock, lock_flags); + } while (entry != NULL); + + /* now we kill the clock so the control circuitry isn't sucking + * any power */ + { + struct clk *clk = clk_get(NULL, "sahara_clk"); + if (IS_ERR(clk)) + error_code = PTR_ERR(clk); + else + clk_disable(clk); + } +#endif + + return error_code; +} + +/*! +******************************************************************************* +* Callback routine defined by the Linux Device Model / Dynamic Power management +* extension. It cleears a global flag to allow the driver to enter queued items +* into Sahara's DAR. +* +* It primes the mechanism to start depleting the queue +* +* @brief Resumes the driver +* +* @param dev contains device information +* @param level level of resumption +* +* @return 0 = success; failed otherwise +*/ +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) +static int sah_dpm_resume(struct device *dev, uint32_t level) +#else +static int sah_dpm_resume(struct platform_device *dev) +#endif +{ + sah_Head_Desc *entry = NULL; + os_lock_context_t lock_flags; + int error_code = 0; + +#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,11) + switch (level) { + case RESUME_POWER_ON: + /* enable Sahara's clock */ + mxc_clks_enable(SAHARA2_CLK); + break; + + case RESUME_RESTORE_STATE: + break; + + case RESUME_ENABLE: + /* Disable dynamic power managment. This allows the driver to put + * entries into Sahara's DAR */ + sah_dpm_flag = FALSE; + + /* find a pending entry to prime the pump */ + os_lock_save_context(desc_queue_lock, lock_flags); + entry = sah_Find_With_State(SAH_STATE_PENDING); + if (entry != NULL) { + sah_Queue_Manager_Prime(entry); + } + os_unlock_restore_context(desc_queue_lock, lock_flags); + break; + } +#else + { + /* enable Sahara's clock */ + struct clk *clk = clk_get(NULL, "sahara_clk"); + + if (IS_ERR(clk)) + error_code = PTR_ERR(clk); + else + clk_disable(clk); + } + sah_dpm_flag = FALSE; + + /* find a pending entry to prime the pump */ + os_lock_save_context(desc_queue_lock, lock_flags); + entry = sah_Find_With_State(SAH_STATE_PENDING); + if (entry != NULL) { + sah_Queue_Manager_Prime(entry); + } + os_unlock_restore_context(desc_queue_lock, lock_flags); +#endif + return error_code; +} + +#endif /* SAHARA_POWER_MANAGEMENT */ |