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view src/cs/drivers/drv_app/ffs/board/task.h @ 273:5caa86ee2cfa

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enable L1_NEW_AEC in l1_confg.h (bold change) The AEC function implemented in DSP ROM 3606 on the Calypso silicon we work with is the one that corresponds to L1_NEW_AEC; the same holds for DSP 34 and even for DSP 33 with more recent patch versions. However, TI shipped their TCS211 reference fw with L1_NEW_AEC set to 0, thus driving AEC the old way if anyone tried to enable it, either via AT%Nxxxx or via the audio mode facility. As a result, the fw would try to control features which no longer exist in the DSP (long vs short echo and the old echo suppression level bits), while providing no way to tune the 8 new parameter words added to the DSP's NDB page. The only sensible solution is to bite the bullet and enable L1_NEW_AEC in L1 config, with fallout propagating into RiViera Audio Service T_AUDIO_AEC_CFG structure and into /aud/*.cfg binary file format. The latter fallout will be addressed in further code changes.
author Mychaela Falconia <falcon@freecalypso.org>
date Thu, 29 Jul 2021 18:32:40 +0000
parents 4e78acac3d88
children
line wrap: on
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/******************************************************************************
 * Flash File System (ffs)
 * Idea, design and coding by Mads Meisner-Jensen, mmj@ti.com
 *
 * ffs task
 *
 * $Id: task.h 1.23.1.17 Wed, 29 Oct 2003 12:54:27 +0100 tsj $
 *
 ******************************************************************************/

#if (TARGET == 1)
#include "ffs.cfg"
#include "rvf/rvf_api.h"
#endif

#include "ffs/ffs.h"


#define OS_FREE(addr) rvf_free_buf(addr)
#define OS_MAIL_WAIT(event) rvf_wait(event, 0)
#define OS_MAIL_READ() rvf_read_mbox(RVF_TASK_MBOX_0)
#define OS_MAIL_SEND(dest, data) rvf_send_msg(dest, data);
#define OS_DELAY(time) rvf_delay(time)
#define OS_CREATE_TASK rvf_create_task

#define OS_OK RV_OK
#define OS_TASK_MBOX_0 RVF_TASK_MBOX_0
#define OS_MAIL_EVENT_MASK RVF_TASK_MBOX_0_EVT_MASK
#define T_OS_MB_ID T_RVF_MB_ID

/******************************************************************************
 * Globals
 ******************************************************************************/

extern T_OS_MB_ID ffs_mb_id;
extern UINT16	  ffs_addr_id;
void ffs_task(void);

/******************************************************************************
 * Macros
 ******************************************************************************/

#define MSG_ALLOC(mail) if ((rvf_get_buf(ffs_mb_id, sizeof(struct ffs_req_s), \
                                         (T_RVF_BUFFER*) &mail)) == RVF_RED) { \
                                  return EFFS_MEMORY; \
                        }

#define MSG_SEND(mail)  if (rvf_send_msg(ffs_addr_id, mail)) { \
                            return EFFS_MSGSEND; \
                        } 
	                   

#define FFS_BLOCKING_CALL_BEGIN() \
    int result, error; \
    struct ffs_blocking_s fb; \
    T_RVF_MUTEX mutex; \
    if ((error = ffs_b_begin(&fb, &mutex, &result)) < 0) \
        return error;

// The result variable contains the output from the ffs_xx_b()
// function. After the requested task has been executed is the contents in
// result replaced with the output from that task
#define FFS_BLOCKING_CALL_END() \
     if ((error = ffs_b_end(&mutex, result)) < 0) \
        return error;

/******************************************************************************
 * Target Platform Abstraction Functions
 ******************************************************************************/

req_id_t request_id_get(void);
void *target_malloc(unsigned int size);


/******************************************************************************
 * Types
 ******************************************************************************/

// In and output variables to blocking functions
struct ffs_blocking_s {
    int *result;
    T_RVF_MUTEX *mutex;
};

// Structure of operation request mail sent from targetffs.c to FFS task.
struct ffs_req_s {
	T_RV_HDR   header;
    const char *path;
    char       *src;
    int        size;
    uint16     value16;
    req_id_t   request_id;
    char       cmd;
    fd_t       fdi;
    T_RV_RETURN *cp;
    struct ffs_blocking_s *fb;
};

// NOTEME: should we use the indices from tmffs.h instead?
typedef enum FFS_REQ_CMD {
    NOP = 0,
    PREFORMAT,
    FORMAT,
    FILE_WRITE,
    REMOVE,
    RENAME,
    MKDIR,
    SYMLINK,
    FCONTROL,
    OPEN,
    WRITE,
    CLOSE,
    SEEK,
    TRUNC,
    FTRUNC,
    FDATASYNC
} ffs_req_e;

effs_t task_file_write(struct ffs_req_s *req);
effs_t task_symlink(struct ffs_req_s *req);
effs_t task_format(struct ffs_req_s *req);
effs_t task_preformat(struct ffs_req_s *req);
effs_t task_mkdir(struct ffs_req_s *req);
effs_t task_remove(struct ffs_req_s *req);
effs_t task_fcontrol(struct ffs_req_s *req);
effs_t task_rename(struct ffs_req_s *p);
fd_t   task_open(struct ffs_req_s *req);
int    task_write(struct ffs_req_s *req);
effs_t task_close(struct ffs_req_s *req);
int    task_seek(struct ffs_req_s *req);
effs_t task_trunc(struct ffs_req_s *req);
effs_t task_ftrunc(struct ffs_req_s *req);
effs_t task_fdatasync(struct ffs_req_s *req);

effs_t ffs_b_begin(struct ffs_blocking_s *fb, T_RVF_MUTEX *mutex, int *result); 
effs_t ffs_b_end(T_RVF_MUTEX *mutex, int result); 
void target_free(void *buf);