FreeCalypso > hg > freecalypso-sw
view gsm-fw/services/ffs/task.c @ 733:d01d6b3ac2a9
rr_attp.c compiles
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Sun, 05 Oct 2014 03:12:20 +0000 |
parents | d779078abe40 |
children | 6ffebb8cec78 |
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/****************************************************************************** * Flash File System (ffs) * Idea, design and coding by Mads Meisner-Jensen, mmj@ti.com * * FFS task. ONLY for target! * * $Id: task.c 1.48.1.1.1.24 Thu, 18 Dec 2003 10:50:52 +0100 tsj $ * ******************************************************************************/ #include "../../include/config.h" #include "ffs.h" #include "core.h" #include "task.h" #include "ffstrace.h" #include "intctl.h" #include "ramffs.h" #include "../../riviera/rvm/rvm_use_id_list.h" #include <string.h> /****************************************************************************** * Globals and function prototypes ******************************************************************************/ extern UINT8 pcm_init(void); void ffs_task(void); static effs_t ffs_init_status; req_id_t request_id_last = 0; T_OS_MB_ID ffs_mb_id; UINT16 ffs_addr_id; /****************************************************************************** * FFS Test Task ******************************************************************************/ // For this to work, change: // 1. MAX_RVF_TASKS define in rvf_target.h // Note that the FFS_TEST_TASK_ID is set one too low! We assume we are lucky // that no other task has the same ID... #if (WITH_TFFS == 1) #define FFS_TEST_STACK_SIZE 1024 #define FFS_TEST_TASK_ID (MAX_RVF_TASKS - 1 - 1) void ffs_test_task(void); void test_init(int keepgoing); int test_run(char *testname); static uint8 ffs_test_stack[FFS_TEST_STACK_SIZE]; // This is the string of test cases to run by calling test_run(). This // string as written to from tmffs module. char ffs_test_string[128]; // Delay for <delay> milliseconds void tffs_delay(int delay) { delay = 14 * delay / 64; // approx. same as division by 60/13 OS_DELAY(delay); } UINT32 rvf_get_tick_count(void); // Timer functions for benchmarking UINT32 tffs_timer_begin(void) { return rvf_get_tick_count(); } UINT32 tffs_timer_end(UINT32 time_begin) { // return current time minus time_begin UINT32 ticks; ticks = rvf_get_tick_count(); return (ticks - time_begin) * 60 / 13; } void ffs_test_task(void) { effs_t error; OS_DELAY(217); // wait approx. 1000ms ttw(str(TTrTest, "ffs_test_task()" NL)); while (1) { OS_DELAY(217); // wait approx. 1000ms // Poll to see if we have tests to run... We know that the writer of // ffs_test_string has a higher priority than us, so it is properly // written when we reach here. if (*ffs_test_string) { test_init(0); error = test_run(ffs_test_string); *ffs_test_string = 0; if (error == 0) ttw(str(TTrTest, "TEST succeeded" NL)); else ttw(ttr(TTrTest, "TEST cases failed: %d" NL, error)); } } } #endif // End of WITH_TFFS /****************************************************************************** * Target Platform Abstraction Functions ******************************************************************************/ req_id_t request_id_get(void) { uint32 cpsr; // We disable interrupt to avoid any other tasks to get the same id. cpsr = int_disable(); request_id_last++; if (request_id_last < 0) request_id_last = 0; int_enable(cpsr); return request_id_last; } void *target_malloc(unsigned int size) { char *buf; #if (_RVF == 1) if ((rvf_get_buf(ffs_mb_id, size, (T_RVF_BUFFER*) &buf)) == RVF_RED) return 0; else return buf; #else return 0; #endif } void target_free(void *buf) { int error; #if (_RVF == 1) if ((error = OS_FREE(buf)) != OS_OK) ttw(ttr(TTrFatal, "target_free() %d (FAILED)" NL, error)); #endif } /****************************************************************************** * FFS Blocking Call Handling ******************************************************************************/ effs_t ffs_b_begin(struct ffs_blocking_s *fb, T_RVF_MUTEX *mutex, int *result) { effs_t error; if ((error = rvf_initialize_mutex(mutex)) < 0) return error; if ((error = rvf_lock_mutex(mutex)) < 0) // This will succeed return error; fb->result = result; fb->mutex = mutex; return EFFS_OK; } effs_t ffs_b_end(T_RVF_MUTEX *mutex, int result) { effs_t error; // Do not lock the mutex if the message send operation failed if (result >= 0) // This will block the task until the mutex has been released if ((error = rvf_lock_mutex(mutex)) < 0) return error; if ((error = rvf_unlock_mutex(mutex)) < 0) return error; if ((error = rvf_delete_mutex(mutex)) < 0) return error; return EFFS_OK; } /****************************************************************************** * FFS Task ******************************************************************************/ /* The below access to the intenal Nucleus variable "TCD_Interrupt_Level" is * a workaround for a known Nucleus BUG (see CQ SWI-FIX-17560) */ void ffs_main_init() { extern int TCD_Interrupt_Level; int tmp_int_level; ttr_init(TTrTask|TTrTest|TTrTestInfo); //ttr_init(TTrTask|TTrTest|TTrTestInfo|TTrDrvErase|TTrDrvWrite|TTrTaskLow|TTrApi); tmp_int_level = TCD_Interrupt_Level; // Backup Int level TCD_Interrupt_Level = 0xC0; // The Interrups are not yet enabled.. #if FFS_IN_RAM memset(_RAMFFS_area, 0xFF, RAMFFS_TOTAL_SIZE); #endif ffs_init_status = ffs_initialize(); TCD_Interrupt_Level = tmp_int_level; // Restore Int level #if 0 // moved to Application_Initialize() - FreeCalypso change pcm_init(); // We have to call pcm_init() before G23 starts. #endif } void ffs_task_init(T_OS_MB_ID mbid, T_RVF_ADDR_ID addr_id) { int error; ffs_mb_id = mbid; ffs_addr_id = addr_id; #if (WITH_TFFS == 1) error = OS_CREATE_TASK((TASKPTR) ffs_test_task, FFS_TEST_TASK_ID, "TFFS", ffs_test_stack, FFS_TEST_STACK_SIZE, 249, // priority 4, // ET4_TASK type 0, // no time slicing RUNNING); // start state ttw(ttr(TTrTask, "os_create_task('TFFS') %d" NL, error)); #endif } void ffs_task() { extern int etm_ffs_init(void); struct ffs_req_s *request; T_FFS_FILE_CNF *confirm_file; T_FFS_STREAM_CNF *confirm_stream; T_RVF_MUTEX *mutex_p; int error, free_mail, os_error = OS_OK; uint16 revision, manufacturer_id, device_id; uint32 base; fd_t fdi; char *temp_path; req_id_t temp_id; #if FFS_IN_RAM // Non formatted FFS should be formatted // So we don't have to use PCTM to format it if (fs.initerror == EFFS_NOFORMAT) { ffs_format_nb("/", 0x2BAD, 0); } /* ffs_InitRFCap(); */ #endif ttr(TTrTask, "ffs_init() %d" NL, ffs_init_status); ffs_query(Q_FFS_REVISION, &revision); ttr(TTrTask,"FFS revision: 0x%x" NL, revision); ffs_query(Q_DEV_MANUFACTURER, &manufacturer_id); ffs_query(Q_DEV_DEVICE, &device_id); ffs_query(Q_DEV_DRIVER, &revision); ttr(TTrTask,"FFS device, driver: 0x%02x, 0x%04x, %d" NL, manufacturer_id, device_id, revision); ffs_query(Q_DEV_BASE, &base); ffs_query(Q_DEV_BLOCKS, &revision); ttr(TTrTask,"FFS base, blocks: 0x%x, %d" NL, base, revision); ffs_query(Q_FFS_FORMAT_READ, &manufacturer_id); ffs_query(Q_FFS_FORMAT_WRITE, &device_id); ttr(TTrTask,"FFS format read, write: 0x%x, 0x%x" NL NL, manufacturer_id, device_id); // If some blocks has been marked for reclaim, reclaim them now... blocks_reclaim(); // We can only mkdir("pcm") *after* our mailbox has been allocated // otherwise mkdir("pcm") will fail. error = ffs_mkdir_nb("/pcm", 0); // Register FFS to ETM database error = etm_ffs_init(); while (1) { OS_MAIL_WAIT(OS_MAIL_EVENT_MASK); request = (struct ffs_req_s *) OS_MAIL_READ(); ttw(ttr(TTrTaskLow, "ffs_task(%d):" NL, request->cmd)); switch (request->cmd) { case WRITE: case SEEK: case CLOSE: case FTRUNC: case FDATASYNC: ttw(ttr(TTrTaskLow, " fdi = %d" NL, request->fdi)); // Save a local copy of fdi because the task we call later can // modify it and we have to use the fdi if a callback is used fdi = (fd_t)request->fdi; break; default: ttw(ttr(TTrTaskLow, " name = %s" NL, request->path)); break; } ttw(ttr(TTrTaskLow, " src = 0x%x" NL, request->src)); ttw(ttr(TTrTaskLow, " size = %d" NL, request->size)); if (tr_query(TTrTaskDelays)) OS_DELAY(5); switch (request->cmd) { case NOP: error = EFFS_OK; break; case FILE_WRITE: error = task_file_write(request); break; case SYMLINK: error = task_symlink(request); break; case MKDIR: error = task_mkdir(request); break; case REMOVE: error = task_remove(request); break; case RENAME: error = task_rename(request); break; case FCONTROL: error = task_fcontrol(request); break; case PREFORMAT: error = task_preformat(request); break; case FORMAT: error = task_format(request); break; case OPEN: error = task_open(request); break; case WRITE: error = task_write(request); break; case SEEK: error = task_seek(request); break; case CLOSE: error = task_close(request); break; case TRUNC: error = task_trunc(request); break; case FTRUNC: error = task_ftrunc(request); break; case FDATASYNC: error = task_fdatasync(request); break; default: ttr(TTrFatal, "FFS FATAL: bad request: %d" NL, request->cmd); break; } ttw(ttr(TTrTaskLow, "ffs_task(%d) %d" NL, request->cmd, error)); if (tr_query(TTrTaskDelays)) OS_DELAY(5); // Call-back to caller mutex_p = 0; if (request->cp) { free_mail = 0; // don't free mail we will reuse it // We reuse the mail we received for our call-back. Due to // this reuse, we must be careful with the order of // assignments. If this is a stream modify function use // ffs_stream_cnf else use ffs_file_cnf temp_id = request->request_id; // Save id before we reuse the mail mem. switch (request->cmd) { case WRITE: case SEEK: case CLOSE: case FTRUNC: case FDATASYNC: confirm_stream = (T_FFS_STREAM_CNF *) request; confirm_stream->error = error; confirm_stream->request_id = temp_id; confirm_stream->fdi = fdi; confirm_stream->header.msg_id = FFS_MESSAGE_OFFSET; if (request->cp->callback_func) { request->cp->callback_func((T_FFS_STREAM_CNF *) confirm_stream); } else if (request->cp->addr_id) { os_error = OS_MAIL_SEND(request->cp->addr_id, confirm_stream); } else { ttr(TTrFatal, "FFS WARNING: empty return path" NL); free_mail = 1; // free mail } break; default: temp_path = (char *) request->path; confirm_file = (T_FFS_FILE_CNF *) request; confirm_file->error = error; confirm_file->request_id = temp_id; confirm_file->path = temp_path; confirm_file->header.msg_id = FFS_MESSAGE_OFFSET; if (request->cp->callback_func) { request->cp->callback_func((T_FFS_FILE_CNF *) confirm_file); } else if (request->cp->addr_id) { os_error = OS_MAIL_SEND(request->cp->addr_id, confirm_file); } else { ttr(TTrFatal, "FFS WARNING: empty return path" NL); free_mail = 1; // free mail } break; } if (os_error != OS_OK) ttr(TTrFatal, "FFS FATAL: os_send_msg() %d" NL, os_error); } // Blocking handling / unlocking mutex else if (request->fb) { // Save the pointer to the mutex and the error value (allocated // on the stack by the macro FFS_BLOCKING_BEGIN) mutex_p = request->fb->mutex; *request->fb->result = error; free_mail = 1; // free mail } else { // The task must have been a non blocking without any callback free_mail = 1; // free mail } // Free the mail memory. Note that we always free it, except when we // have successfully reused it for sending a mail call-back. if (free_mail == 1) { os_error = OS_FREE(request); if (os_error != OS_OK) ttr(TTrFatal, "FFS FATAL: os_free() %d" NL, os_error); } // Blocking handling / unlocking mutex if (mutex_p) { // Wake up the caller task if ((os_error = rvf_unlock_mutex(mutex_p)) < 0) ttr(TTrFatal, "FFS FATAL: rvf_unlock_mutex() %d" NL, os_error); } tr_bstat(); } }