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authorwdenk <wdenk>2004-06-08 00:22:43 +0000
committerwdenk <wdenk>2004-06-08 00:22:43 +0000
commit1eaeb58e3c0022812b70d717bf1f458cfb48fdd3 (patch)
treed6f8b795d3bf1450bc0031bf35d8b323227d14f9 /board/netta
parent79fa88f3ede051ca860667d5397e6cdc7e74a6d0 (diff)
downloadu-boot-1eaeb58e3c0022812b70d717bf1f458cfb48fdd3.zip
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* Patch by Rishi Bhattacharya, 08 May 2004:
Add support for TI OMAP5912 OSK Board * Patch by Sam Song May, 07 May 2004: Fix typo of UPM table for rmu board
Diffstat (limited to 'board/netta')
-rw-r--r--board/netta/codec.c291
1 files changed, 150 insertions, 141 deletions
diff --git a/board/netta/codec.c b/board/netta/codec.c
index fb2dab8..01ab14b 100644
--- a/board/netta/codec.c
+++ b/board/netta/codec.c
@@ -38,8 +38,8 @@
#define PCM_RESYNC_CMD_CH_A 0x42
#define PCM_RESYNC_CMD_CH_B 0x4A
-#define ACTIVE_HOOK_LEV_4 0
-#define ACTIVE_HOOK_LEV_12 1
+#define ACTIVE_HOOK_LEV_4 0
+#define ACTIVE_HOOK_LEV_12 1
#define SLIC_P_NORMAL 0x01
@@ -140,17 +140,17 @@
#define CIS_DAT_ADDR 0x00
-#define LEC_LEN_ADDR 0x3A
-#define LEC_POWR_ADDR 0x3B
-#define LEC_DELP_ADDR 0x3C
-#define LEC_DELQ_ADDR 0x3D
-#define LEC_GAIN_XI_ADDR 0x3E
-#define LEC_GAIN_RI_ADDR 0x3F
-#define LEC_GAIN_XO_ADDR 0x40
-#define LEC_RES_1_ADDR 0x41
+#define LEC_LEN_ADDR 0x3A
+#define LEC_POWR_ADDR 0x3B
+#define LEC_DELP_ADDR 0x3C
+#define LEC_DELQ_ADDR 0x3D
+#define LEC_GAIN_XI_ADDR 0x3E
+#define LEC_GAIN_RI_ADDR 0x3F
+#define LEC_GAIN_XO_ADDR 0x40
+#define LEC_RES_1_ADDR 0x41
#define LEC_RES_2_ADDR 0x42
-#define NLP_POW_LPF_ADDR 0x30
+#define NLP_POW_LPF_ADDR 0x30
#define NLP_POW_LPS_ADDR 0x31
#define NLP_BN_LEV_X_ADDR 0x32
#define NLP_BN_LEV_R_ADDR 0x33
@@ -170,18 +170,18 @@
#define NLP_CT_LEV_RE_ADDR 0x41
#define NLP_CTRL_ADDR 0x42
-#define UTD_CF_H_ADDR 0x4B
-#define UTD_CF_L_ADDR 0x4C
-#define UTD_BW_H_ADDR 0x4D
-#define UTD_BW_L_ADDR 0x4E
-#define UTD_NLEV_ADDR 0x4F
-#define UTD_SLEV_H_ADDR 0x50
-#define UTD_SLEV_L_ADDR 0x51
-#define UTD_DELT_ADDR 0x52
-#define UTD_RBRK_ADDR 0x53
-#define UTD_RTIME_ADDR 0x54
-#define UTD_EBRK_ADDR 0x55
-#define UTD_ETIME_ADDR 0x56
+#define UTD_CF_H_ADDR 0x4B
+#define UTD_CF_L_ADDR 0x4C
+#define UTD_BW_H_ADDR 0x4D
+#define UTD_BW_L_ADDR 0x4E
+#define UTD_NLEV_ADDR 0x4F
+#define UTD_SLEV_H_ADDR 0x50
+#define UTD_SLEV_L_ADDR 0x51
+#define UTD_DELT_ADDR 0x52
+#define UTD_RBRK_ADDR 0x53
+#define UTD_RTIME_ADDR 0x54
+#define UTD_EBRK_ADDR 0x55
+#define UTD_ETIME_ADDR 0x56
#define DTMF_LEV_ADDR 0x30
#define DTMF_TWI_ADDR 0x31
@@ -205,45 +205,45 @@
/*=====================================*/
-#define HOOK_LEV_ACT_START_ADDR 0x89
+#define HOOK_LEV_ACT_START_ADDR 0x89
#define RO1_START_ADDR 0x70
#define RO2_START_ADDR 0x95
#define RO3_START_ADDR 0x96
#define TG1_FREQ_START_ADDR 0x38
#define TG1_GAIN_START_ADDR 0x39
-#define TG1_BANDPASS_START_ADDR 0x3B
+#define TG1_BANDPASS_START_ADDR 0x3B
#define TG1_BANDPASS_END_ADDR 0x3D
#define TG2_FREQ_START_ADDR 0x40
#define TG2_GAIN_START_ADDR 0x41
-#define TG2_BANDPASS_START_ADDR 0x43
+#define TG2_BANDPASS_START_ADDR 0x43
#define TG2_BANDPASS_END_ADDR 0x45
/*====================================*/
-#define PCM_HW_B 0x80
+#define PCM_HW_B 0x80
#define PCM_HW_A 0x00
-#define PCM_TIME_SLOT_0 0x00 /* Byte 0 of PCM Frame (by default is assigned to channel A ) */
-#define PCM_TIME_SLOT_1 0x01 /* Byte 1 of PCM Frame (by default is assigned to channel B ) */
-#define PCM_TIME_SLOT_4 0x04 /* Byte 4 of PCM Frame (Corresponds to B1 of the Second GCI ) */
+#define PCM_TIME_SLOT_0 0x00 /* Byte 0 of PCM Frame (by default is assigned to channel A ) */
+#define PCM_TIME_SLOT_1 0x01 /* Byte 1 of PCM Frame (by default is assigned to channel B ) */
+#define PCM_TIME_SLOT_4 0x04 /* Byte 4 of PCM Frame (Corresponds to B1 of the Second GCI ) */
#define RX_LEV_ADDR 0x28
#define TX_LEV_ADDR 0x30
-#define Ik1_ADDR 0x83
+#define Ik1_ADDR 0x83
-#define AR_ROW 3 /* Is the row (AR Params) of the ac_Coeff array in SMS_CODEC_Defaults struct */
-#define AX_ROW 6 /* Is the row (AX Params) of the ac_Coeff array in SMS_CODEC_Defaults struct */
-#define DCF_ROW 0 /* Is the row (DCF Params) of the dc_Coeff array in SMS_CODEC_Defaults struct */
+#define AR_ROW 3 /* Is the row (AR Params) of the ac_Coeff array in SMS_CODEC_Defaults struct */
+#define AX_ROW 6 /* Is the row (AX Params) of the ac_Coeff array in SMS_CODEC_Defaults struct */
+#define DCF_ROW 0 /* Is the row (DCF Params) of the dc_Coeff array in SMS_CODEC_Defaults struct */
/* Mark the start byte of Duslic parameters that we use with configurator */
-#define Ik1_START_BYTE 3
+#define Ik1_START_BYTE 3
#define RX_LEV_START_BYTE 0
#define TX_LEV_START_BYTE 0
/************************************************/
-#define INTREG4_CIS_ACT (1 << 0)
+#define INTREG4_CIS_ACT (1 << 0)
#define BCR1_SLEEP 0x20
#define BCR1_REVPOL 0x10
@@ -257,30 +257,30 @@
#define BCR2_HIMAN 0x08
#define BCR2_PDOT 0x01
-#define BCR3_PCMX_EN (1 << 4)
-
-#define BCR5_DTMF_EN (1 << 0)
-#define BCR5_DTMF_SRC (1 << 1)
-#define BCR5_LEC_EN (1 << 2)
-#define BCR5_LEC_OUT (1 << 3)
-#define BCR5_CIS_EN (1 << 4)
-#define BCR5_CIS_AUTO (1 << 5)
-#define BCR5_UTDX_EN (1 << 6)
-#define BCR5_UTDR_EN (1 << 7)
-
-#define DSCR_TG1_EN (1 << 0)
-#define DSCR_TG2_EN (1 << 1)
-#define DSCR_PTG (1 << 2)
-#define DSCR_COR8 (1 << 3)
-#define DSCR_DG_KEY(x) (((x) & 0x0F) << 4)
-
-#define CIS_LEC_MODE_CIS_V23 (1 << 0)
-#define CIS_LEC_MODE_CIS_FRM (1 << 1)
-#define CIS_LEC_MODE_NLP_EN (1 << 2)
-#define CIS_LEC_MODE_UTDR_SUM (1 << 4)
-#define CIS_LEC_MODE_UTDX_SUM (1 << 5)
+#define BCR3_PCMX_EN (1 << 4)
+
+#define BCR5_DTMF_EN (1 << 0)
+#define BCR5_DTMF_SRC (1 << 1)
+#define BCR5_LEC_EN (1 << 2)
+#define BCR5_LEC_OUT (1 << 3)
+#define BCR5_CIS_EN (1 << 4)
+#define BCR5_CIS_AUTO (1 << 5)
+#define BCR5_UTDX_EN (1 << 6)
+#define BCR5_UTDR_EN (1 << 7)
+
+#define DSCR_TG1_EN (1 << 0)
+#define DSCR_TG2_EN (1 << 1)
+#define DSCR_PTG (1 << 2)
+#define DSCR_COR8 (1 << 3)
+#define DSCR_DG_KEY(x) (((x) & 0x0F) << 4)
+
+#define CIS_LEC_MODE_CIS_V23 (1 << 0)
+#define CIS_LEC_MODE_CIS_FRM (1 << 1)
+#define CIS_LEC_MODE_NLP_EN (1 << 2)
+#define CIS_LEC_MODE_UTDR_SUM (1 << 4)
+#define CIS_LEC_MODE_UTDX_SUM (1 << 5)
#define CIS_LEC_MODE_LEC_FREEZE (1 << 6)
-#define CIS_LEC_MODE_LEC_ADAPT (1 << 7)
+#define CIS_LEC_MODE_LEC_ADAPT (1 << 7)
#define TSTR4_COR_64 (1 << 5)
@@ -290,12 +290,12 @@
#define LMCR1_TEST_EN (1 << 7)
-#define LMCR1_LM_EN (1 << 6)
+#define LMCR1_LM_EN (1 << 6)
#define LMCR1_LM_THM (1 << 5)
-#define LMCR1_LM_ONCE (1 << 2)
+#define LMCR1_LM_ONCE (1 << 2)
#define LMCR1_LM_MASK (1 << 1)
-#define LMCR2_LM_RECT (1 << 5)
+#define LMCR2_LM_RECT (1 << 5)
#define LMCR2_LM_SEL_VDD 0x0D
#define LMCR2_LM_SEL_IO3 0x0A
#define LMCR2_LM_SEL_IO4 0x0B
@@ -313,27 +313,27 @@
/************************************************/
#define TARGET_ONHOOK_BATH_x100 4600 /* 46.0 Volt */
-#define TARGET_ONHOOK_BATL_x100 2500 /* 25.0 Volt */
+#define TARGET_ONHOOK_BATL_x100 2500 /* 25.0 Volt */
#define TARGET_V_DIVIDER_RATIO_x100 21376L /* (R1+R2)/R2 = 213.76 */
#define DIVIDER_RATIO_ACCURx100 (22 * 100)
#define V_AD_x10000 10834L /* VAD = 1.0834 */
#define TARGET_VDDx100 330 /* VDD = 3.3 * 10 */
#define VDD_MAX_DIFFx100 20 /* VDD Accur = 0.2*100 */
-#define RMS_MULTIPLIERx100 111 /* pi/(2xsqrt(2)) = 1.11*/
-#define K_INTDC_RECT_ON 4 /* When Rectifier is ON this value is necessary(2^4) */
-#define K_INTDC_RECT_OFF 2 /* 2^2 */
-#define RNG_FREQ 25
-#define SAMPLING_FREQ (2000L)
-#define N_SAMPLES (SAMPLING_FREQ/RNG_FREQ) /* for Ring Freq =25Hz (40ms Integration Period)[Sampling rate 2KHz -->1 Sample every 500us] */
-#define HOOK_THRESH_RING_START_ADDR 0x8B
-#define RING_PARAMS_START_ADDR 0x70
+#define RMS_MULTIPLIERx100 111 /* pi/(2xsqrt(2)) = 1.11*/
+#define K_INTDC_RECT_ON 4 /* When Rectifier is ON this value is necessary(2^4) */
+#define K_INTDC_RECT_OFF 2 /* 2^2 */
+#define RNG_FREQ 25
+#define SAMPLING_FREQ (2000L)
+#define N_SAMPLES (SAMPLING_FREQ/RNG_FREQ) /* for Ring Freq =25Hz (40ms Integration Period)[Sampling rate 2KHz -->1 Sample every 500us] */
+#define HOOK_THRESH_RING_START_ADDR 0x8B
+#define RING_PARAMS_START_ADDR 0x70
#define V_OUT_BATH_MAX_DIFFx100 300 /* 3.0 x100 */
#define V_OUT_BATL_MAX_DIFFx100 400 /* 4.0 x100 */
-#define MAX_V_RING_MEANx100 50
-#define TARGET_V_RING_RMSx100 2720
-#define V_RMS_RING_MAX_DIFFx100 250
+#define MAX_V_RING_MEANx100 50
+#define TARGET_V_RING_RMSx100 2720
+#define V_RMS_RING_MAX_DIFFx100 250
#define LM_OK_SRC_IRG_2 (1 << 4)
@@ -624,97 +624,106 @@ unsigned short codsp_read_cop_short(int duslic_id, int channel, unsigned char ad
/****************************************************************************/
-#define MAX_POP_BLOCK 50
+#define MAX_POP_BLOCK 50
-void codsp_write_pop_block(int duslic_id, int channel, unsigned char addr, const unsigned char *block, int len)
+void codsp_write_pop_block (int duslic_id, int channel, unsigned char addr,
+ const unsigned char *block, int len)
{
unsigned char cmd[2 + MAX_POP_BLOCK];
- if (len > MAX_POP_BLOCK) /* truncate */
- len = MAX_POP_BLOCK;
+ if (len > MAX_POP_BLOCK) /* truncate */
+ len = MAX_POP_BLOCK;
- cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = addr;
- memcpy(cmd + 2, block, len);
- codsp_send(duslic_id, cmd, 2 + len, 0, 0);
+ memcpy (cmd + 2, block, len);
+ codsp_send (duslic_id, cmd, 2 + len, 0, 0);
}
-void codsp_write_pop_char(int duslic_id, int channel, unsigned char regno, unsigned char val)
+void codsp_write_pop_char (int duslic_id, int channel, unsigned char regno,
+ unsigned char val)
{
unsigned char cmd[3];
- cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = regno;
cmd[2] = val;
- codsp_send(duslic_id, cmd, 3, 0, 0);
+ codsp_send (duslic_id, cmd, 3, 0, 0);
}
-void codsp_write_pop_short(int duslic_id, int channel, unsigned char regno, unsigned short val)
+void codsp_write_pop_short (int duslic_id, int channel, unsigned char regno,
+ unsigned short val)
{
unsigned char cmd[4];
- cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = regno;
- cmd[2] = (unsigned char)(val >> 8);
- cmd[3] = (unsigned char)val;
+ cmd[2] = (unsigned char) (val >> 8);
+ cmd[3] = (unsigned char) val;
- codsp_send(duslic_id, cmd, 4, 0, 0);
+ codsp_send (duslic_id, cmd, 4, 0, 0);
}
-void codsp_write_pop_int(int duslic_id, int channel, unsigned char regno, unsigned int val)
+void codsp_write_pop_int (int duslic_id, int channel, unsigned char regno,
+ unsigned int val)
{
unsigned char cmd[5];
- cmd[0] = CODSP_WR | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_WR | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = regno;
- cmd[2] = (unsigned char)(val >> 24);
- cmd[3] = (unsigned char)(val >> 16);
- cmd[4] = (unsigned char)(val >> 8);
- cmd[5] = (unsigned char)val;
+ cmd[2] = (unsigned char) (val >> 24);
+ cmd[3] = (unsigned char) (val >> 16);
+ cmd[4] = (unsigned char) (val >> 8);
+ cmd[5] = (unsigned char) val;
- codsp_send(duslic_id, cmd, 6, 0, 0);
+ codsp_send (duslic_id, cmd, 6, 0, 0);
}
-unsigned char codsp_read_pop_char(int duslic_id, int channel, unsigned char regno)
+unsigned char codsp_read_pop_char (int duslic_id, int channel,
+ unsigned char regno)
{
unsigned char cmd[3];
unsigned char res[2];
- cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = regno;
- codsp_send(duslic_id, cmd, 2, res, 2);
+ codsp_send (duslic_id, cmd, 2, res, 2);
return res[1];
}
-unsigned short codsp_read_pop_short(int duslic_id, int channel, unsigned char regno)
+unsigned short codsp_read_pop_short (int duslic_id, int channel,
+ unsigned char regno)
{
unsigned char cmd[2];
unsigned char res[3];
- cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = regno;
- codsp_send(duslic_id, cmd, 2, res, 3);
+ codsp_send (duslic_id, cmd, 2, res, 3);
- return ((unsigned short)res[1] << 8) | res[2];
+ return ((unsigned short) res[1] << 8) | res[2];
}
-unsigned int codsp_read_pop_int(int duslic_id, int channel, unsigned char regno)
+unsigned int codsp_read_pop_int (int duslic_id, int channel,
+ unsigned char regno)
{
unsigned char cmd[2];
unsigned char res[5];
- cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR (channel) | CODSP_CMD_POP;
cmd[1] = regno;
- codsp_send(duslic_id, cmd, 2, res, 5);
+ codsp_send (duslic_id, cmd, 2, res, 5);
- return ((unsigned int)res[1] << 24) | ((unsigned int)res[2] << 16) | ((unsigned int)res[3] << 8) | res[4];
+ return (((unsigned int) res[1] << 24) |
+ ((unsigned int) res[2] << 16) |
+ ((unsigned int) res[3] << 8) |
+ res[4] );
}
-
/****************************************************************************/
struct _coeffs {
@@ -725,12 +734,12 @@ struct _coeffs {
struct _coeffs ac_coeffs[11] = {
{ 0x60, {0xAD,0xDA,0xB5,0x9B,0xC7,0x2A,0x9D,0x00} }, /* 0x60 IM-Filter part 1 */
{ 0x68, {0x10,0x00,0xA9,0x82,0x0D,0x77,0x0A,0x00} }, /* 0x68 IM-Filter part 2 */
- { 0x18, {0x08,0xC0,0xD2,0xAB,0xA5,0xE2,0xAB,0x07} }, /* 0x18 FRR-Filter */
- { 0x28, {0x44,0x93,0xF5,0x92,0x88,0x00,0x00,0x00} }, /* 0x28 AR-Filter */
- { 0x48, {0x96,0x38,0x29,0x96,0xC9,0x2B,0x8B,0x00} }, /* 0x48 LPR-Filter */
- { 0x20, {0x08,0xB0,0xDA,0x9D,0xA7,0xFA,0x93,0x06} }, /* 0x20 FRX-Filter */
- { 0x30, {0xBA,0xAC,0x00,0x01,0x85,0x50,0xC0,0x1A} }, /* 0x30 AX-Filter */
- { 0x50, {0x96,0x38,0x29,0xF5,0xFA,0x2B,0x8B,0x00} }, /* 0x50 LPX-Filter */
+ { 0x18, {0x08,0xC0,0xD2,0xAB,0xA5,0xE2,0xAB,0x07} }, /* 0x18 FRR-Filter */
+ { 0x28, {0x44,0x93,0xF5,0x92,0x88,0x00,0x00,0x00} }, /* 0x28 AR-Filter */
+ { 0x48, {0x96,0x38,0x29,0x96,0xC9,0x2B,0x8B,0x00} }, /* 0x48 LPR-Filter */
+ { 0x20, {0x08,0xB0,0xDA,0x9D,0xA7,0xFA,0x93,0x06} }, /* 0x20 FRX-Filter */
+ { 0x30, {0xBA,0xAC,0x00,0x01,0x85,0x50,0xC0,0x1A} }, /* 0x30 AX-Filter */
+ { 0x50, {0x96,0x38,0x29,0xF5,0xFA,0x2B,0x8B,0x00} }, /* 0x50 LPX-Filter */
{ 0x00, {0x00,0x08,0x08,0x81,0x00,0x80,0x00,0x08} }, /* 0x00 TH-Filter part 1 */
{ 0x08, {0x81,0x00,0x80,0x00,0xD7,0x33,0xBA,0x01} }, /* 0x08 TH-Filter part 2 */
{ 0x10, {0xB3,0x6C,0xDC,0xA3,0xA4,0xE5,0x88,0x00} } /* 0x10 TH-Filter part 3 */
@@ -752,14 +761,14 @@ struct _coeffs ac_coeffs_0dB[11] = {
struct _coeffs dc_coeffs[9] = {
{ 0x80, {0x25,0x59,0x9C,0x23,0x24,0x23,0x32,0x1C} }, /* 0x80 DC-Parameter */
- { 0x70, {0x90,0x30,0x1B,0xC0,0x33,0x43,0xAC,0x02} }, /* 0x70 Ringing */
- { 0x90, {0x3F,0xC3,0x2E,0x3A,0x80,0x90,0x00,0x09} }, /* 0x90 LP-Filters */
+ { 0x70, {0x90,0x30,0x1B,0xC0,0x33,0x43,0xAC,0x02} }, /* 0x70 Ringing */
+ { 0x90, {0x3F,0xC3,0x2E,0x3A,0x80,0x90,0x00,0x09} }, /* 0x90 LP-Filters */
{ 0x88, {0xAF,0x80,0x27,0x7B,0x01,0x4C,0x7B,0x02} }, /* 0x88 Hook Levels */
{ 0x78, {0x00,0xC0,0x6D,0x7A,0xB3,0x78,0x89,0x00} }, /* 0x78 Ramp Generator */
- { 0x58, {0xA5,0x44,0x34,0xDB,0x0E,0xA2,0x2A,0x00} }, /* 0x58 TTX */
- { 0x38, {0x33,0x49,0x9A,0x65,0xBB,0x00,0x00,0x00} }, /* 0x38 TG1 */
- { 0x40, {0x33,0x49,0x9A,0x65,0xBB,0x00,0x00,0x00} }, /* 0x40 TG2 */
- { 0x98, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00} } /* 0x98 Reserved */
+ { 0x58, {0xA5,0x44,0x34,0xDB,0x0E,0xA2,0x2A,0x00} }, /* 0x58 TTX */
+ { 0x38, {0x33,0x49,0x9A,0x65,0xBB,0x00,0x00,0x00} }, /* 0x38 TG1 */
+ { 0x40, {0x33,0x49,0x9A,0x65,0xBB,0x00,0x00,0x00} }, /* 0x40 TG2 */
+ { 0x98, {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00} } /* 0x98 Reserved */
};
void program_coeffs(int duslic_id, int channel, struct _coeffs *coeffs, int tab_size)
@@ -767,7 +776,7 @@ void program_coeffs(int duslic_id, int channel, struct _coeffs *coeffs, int tab_
int i;
for (i = 0; i < tab_size; i++)
- codsp_write_cop_block(duslic_id, channel, coeffs[i].addr, coeffs[i].values);
+ codsp_write_cop_block(duslic_id, channel, coeffs[i].addr, coeffs[i].values);
}
#define SS_OPEN_CIRCUIT 0
@@ -800,7 +809,7 @@ static void codsp_set_slic(int duslic_id, int channel, int state)
break;
case SS_ACTIVE_RING:
- case SS_ONHOOKTRNSM:
+ case SS_ONHOOKTRNSM:
codsp_write_sop_char(duslic_id, channel, BCR1_ADDR, (v & ~BCR1_ACTL) | BCR1_ACTR);
codsp_set_ciop_m(duslic_id, channel, CODSP_M_ANY_ACT);
break;
@@ -864,7 +873,7 @@ int wait_level_metering_finish(int duslic_id, int channel)
}
int measure_on_hook_voltages(int slic_id, long *vdd,
- long *v_oh_H, long *v_oh_L, long *ring_mean_v, long *ring_rms_v)
+ long *v_oh_H, long *v_oh_L, long *ring_mean_v, long *ring_rms_v)
{
short LM_Result, Offset_Compensation; /* Signed 16 bit */
long int VDD, VDD_diff, V_in, V_out, Divider_Ratio, Vout_diff ;
@@ -1029,7 +1038,7 @@ int measure_on_hook_voltages(int slic_id, long *vdd,
udelay(10000); /* wait at least 500us to be sure that the Integration Result are valid !!! */
/* Now Read the LM Result Registers (They will hold their value until LM_EN become zero again */
- /* ==>After that Result Regs will be updated every 500us !!!) */
+ /* ==>After that Result Regs will be updated every 500us !!!) */
LM_Result = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
V_in = (-1) * ( ( (((long int)LM_Result) * V_AD_x10000) / N_SAMPLES) >> (15 - K_INTDC_RECT_OFF)) ; /* Vin x 10000*/
@@ -1080,7 +1089,7 @@ int measure_on_hook_voltages(int slic_id, long *vdd,
udelay(10000);
/* Now Read the LM Result Registers (They will hold their value until LM_EN become zero again */
- /* ==>After that Result Regs will be updated every 500us !!!) */
+ /* ==>After that Result Regs will be updated every 500us !!!) */
Offset_Compensation = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
Offset_Compensation = (-1) * ((Offset_Compensation * (1 << K_INTDC_RECT_ON)) / N_SAMPLES);
@@ -1107,7 +1116,7 @@ int measure_on_hook_voltages(int slic_id, long *vdd,
udelay(10000);
/* Now Read the LM Result Registers (They will hold their value until LM_EN become zero again */
- /* ==>After that Result Regs will be updated every 500us !!!) */
+ /* ==>After that Result Regs will be updated every 500us !!!) */
LM_Result = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
V_in = (-1) * ( ( (((long int)LM_Result) * V_AD_x10000) / N_SAMPLES) >> (15 - K_INTDC_RECT_ON) ) ; /* Vin x 10000*/
@@ -1149,22 +1158,22 @@ int test_dtmf(int slic_id)
int channel = slic_id & 1;
for (code = 0; code < 16; code++) {
- b = codsp_read_sop_char(duslic_id, channel, DSCR_ADDR);
- codsp_write_sop_char(duslic_id, channel, DSCR_ADDR,
- (b & ~(DSCR_PTG | DSCR_DG_KEY(15))) | DSCR_DG_KEY(code) | DSCR_TG1_EN | DSCR_TG2_EN);
- udelay(80000);
+ b = codsp_read_sop_char(duslic_id, channel, DSCR_ADDR);
+ codsp_write_sop_char(duslic_id, channel, DSCR_ADDR,
+ (b & ~(DSCR_PTG | DSCR_DG_KEY(15))) | DSCR_DG_KEY(code) | DSCR_TG1_EN | DSCR_TG2_EN);
+ udelay(80000);
intreg = codsp_read_sop_int(duslic_id, channel, INTREG1_ADDR);
- if ((intreg & CODSP_INTREG_INT_CH) == 0)
+ if ((intreg & CODSP_INTREG_INT_CH) == 0)
break;
if ((intreg & CODSP_INTREG_DTMF_OK) == 0 ||
codsp_dtmf_map[(intreg >> 10) & 15] != codsp_dtmf_map[code])
break;
- b = codsp_read_sop_char(duslic_id, channel, DSCR_ADDR);
- codsp_write_sop_char(duslic_id, channel, DSCR_ADDR,
- b & ~(DSCR_COR8 | DSCR_TG1_EN | DSCR_TG2_EN));
+ b = codsp_read_sop_char(duslic_id, channel, DSCR_ADDR);
+ codsp_write_sop_char(duslic_id, channel, DSCR_ADDR,
+ b & ~(DSCR_COR8 | DSCR_TG1_EN | DSCR_TG2_EN));
udelay(80000);
@@ -1172,9 +1181,9 @@ int test_dtmf(int slic_id)
}
if (code != 16) {
- b = codsp_read_sop_char(duslic_id, channel, DSCR_ADDR); /* stop dtmf */
- codsp_write_sop_char(duslic_id, channel, DSCR_ADDR,
- b & ~(DSCR_COR8 | DSCR_TG1_EN | DSCR_TG2_EN));
+ b = codsp_read_sop_char(duslic_id, channel, DSCR_ADDR); /* stop dtmf */
+ codsp_write_sop_char(duslic_id, channel, DSCR_ADDR,
+ b & ~(DSCR_COR8 | DSCR_TG1_EN | DSCR_TG2_EN));
return(1);
}
@@ -1276,7 +1285,7 @@ static int codsp_chip_full_reset(int duslic_id)
}
if (cnt == 5) {
- printf("PCM_Resync(%u) not completed\n", duslic_id);
+ printf("PCM_Resync(%u) not completed\n", duslic_id);
return -2;
}
@@ -1305,11 +1314,11 @@ int slic_self_test(int duslic_mask)
for (slic = 0; slic < MAX_SLICS; slic++) { /* voltages self test */
if (duslic_mask & (1 << (slic >> 1))) {
r = measure_on_hook_voltages(slic, &vdd,
- &v_oh_H, &v_oh_L, &ring_mean_v, &ring_rms_v);
+ &v_oh_H, &v_oh_L, &ring_mean_v, &ring_rms_v);
printf("SLIC %u measured voltages (x100):\n\t"
- "VDD = %ld\tV_OH_H = %ld\tV_OH_L = %ld\tV_RING_MEAN = %ld\tV_RING_RMS = %ld\n",
- slic, vdd, v_oh_H, v_oh_L, ring_mean_v, ring_rms_v);
+ "VDD = %ld\tV_OH_H = %ld\tV_OH_L = %ld\tV_RING_MEAN = %ld\tV_RING_RMS = %ld\n",
+ slic, vdd, v_oh_H, v_oh_L, ring_mean_v, ring_rms_v);
if (r != 0)
error |= 1 << slic;