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authorwdenk <wdenk>2004-06-07 23:46:25 +0000
committerwdenk <wdenk>2004-06-07 23:46:25 +0000
commit79fa88f3ede051ca860667d5397e6cdc7e74a6d0 (patch)
treea720e281e25d5846b9c05cb65e58e7e589591b70 /board/netta
parentcea655a224456d043192156fb2d44a0896194adc (diff)
downloadu-boot-imx-79fa88f3ede051ca860667d5397e6cdc7e74a6d0.zip
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Patch by Pantelis Antoniou, 5 May 2004:
- Intracom board update. - Add Codec POST.
Diffstat (limited to 'board/netta')
-rw-r--r--board/netta/Makefile2
-rw-r--r--board/netta/codec.c1475
-rw-r--r--board/netta/dsp.c293
-rw-r--r--board/netta/netta.c29
4 files changed, 1735 insertions, 64 deletions
diff --git a/board/netta/Makefile b/board/netta/Makefile
index c89e4c5..68e2402 100644
--- a/board/netta/Makefile
+++ b/board/netta/Makefile
@@ -25,7 +25,7 @@ include $(TOPDIR)/config.mk
LIB = lib$(BOARD).a
-OBJS = $(BOARD).o flash.o dsp.o
+OBJS = $(BOARD).o flash.o dsp.o codec.o
$(LIB): .depend $(OBJS)
$(AR) crv $@ $(OBJS)
diff --git a/board/netta/codec.c b/board/netta/codec.c
new file mode 100644
index 0000000..fb2dab8
--- /dev/null
+++ b/board/netta/codec.c
@@ -0,0 +1,1475 @@
+/*
+ * CODEC
+ */
+
+#include <common.h>
+#include <post.h>
+
+#include "mpc8xx.h"
+
+/***********************************************/
+
+#define MAX_DUSLIC 4
+
+#define NUM_CHANNELS 2
+#define MAX_SLICS (MAX_DUSLIC * NUM_CHANNELS)
+
+/***********************************************/
+
+#define SOP_READ_CH_0 0xC4 /* Read SOP Register for Channel A */
+#define SOP_READ_CH_1 0xCC /* Read SOP Register for Channel B */
+#define SOP_WRITE_CH_0 0x44 /* Write SOP Register for Channel A */
+#define SOP_WRITE_CH_1 0x4C /* Write SOP Register for Channel B */
+
+#define COP_READ_CH_0 0xC5
+#define COP_READ_CH_1 0xCD
+#define COP_WRITE_CH_0 0x45
+#define COP_WRITE_CH_1 0x4D
+
+#define POP_READ_CH_0 0xC6
+#define POP_READ_CH_1 0xCE
+#define POP_WRITE_CH_0 0x46
+#define POP_WRITE_CH_1 0x4E
+
+#define RST_CMD_DUSLIC_CHIP 0x40 /* OR 0x48 */
+#define RST_CMD_DUSLIC_CH_A 0x41
+#define RST_CMD_DUSLIC_CH_B 0x49
+
+#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 SLIC_P_NORMAL 0x01
+
+/************************************************/
+
+#define CODSP_WR 0x00
+#define CODSP_RD 0x80
+#define CODSP_OP 0x40
+#define CODSP_ADR(x) (((unsigned char)(x) & 7) << 3)
+#define CODSP_M(x) ((unsigned char)(x) & 7)
+#define CODSP_CMD(x) ((unsigned char)(x) & 7)
+
+/************************************************/
+
+/* command indication ops */
+#define CODSP_M_SLEEP_PWRDN 7
+#define CODSP_M_PWRDN_HIZ 0
+#define CODSP_M_ANY_ACT 2
+#define CODSP_M_RING 5
+#define CODSP_M_ACT_MET 6
+#define CODSP_M_GND_START 4
+#define CODSP_M_RING_PAUSE 1
+
+/* single byte commands */
+#define CODSP_CMD_SOFT_RESET CODSP_CMD(0)
+#define CODSP_CMD_RESET_CH CODSP_CMD(1)
+#define CODSP_CMD_RESYNC CODSP_CMD(2)
+
+/* two byte commands */
+#define CODSP_CMD_SOP CODSP_CMD(4)
+#define CODSP_CMD_COP CODSP_CMD(5)
+#define CODSP_CMD_POP CODSP_CMD(6)
+
+/************************************************/
+
+/* read as 4-bytes */
+#define CODSP_INTREG_INT_CH 0x80000000
+#define CODSP_INTREG_HOOK 0x40000000
+#define CODSP_INTREG_GNDK 0x20000000
+#define CODSP_INTREG_GNDP 0x10000000
+#define CODSP_INTREG_ICON 0x08000000
+#define CODSP_INTREG_VRTLIM 0x04000000
+#define CODSP_INTREG_OTEMP 0x02000000
+#define CODSP_INTREG_SYNC_FAIL 0x01000000
+#define CODSP_INTREG_LM_THRES 0x00800000
+#define CODSP_INTREG_READY 0x00400000
+#define CODSP_INTREG_RSTAT 0x00200000
+#define CODSP_INTREG_LM_OK 0x00100000
+#define CODSP_INTREG_IO4_DU 0x00080000
+#define CODSP_INTREG_IO3_DU 0x00040000
+#define CODSP_INTREG_IO2_DU 0x00020000
+#define CODSP_INTREG_IO1_DU 0x00010000
+#define CODSP_INTREG_DTMF_OK 0x00008000
+#define CODSP_INTREG_DTMF_KEY4 0x00004000
+#define CODSP_INTREG_DTMF_KEY3 0x00002000
+#define CODSP_INTREG_DTMF_KEY2 0x00001000
+#define CODSP_INTREG_DTMF_KEY1 0x00000800
+#define CODSP_INTREG_DTMF_KEY0 0x00000400
+#define CODSP_INTREG_UTDR_OK 0x00000200
+#define CODSP_INTREG_UTDX_OK 0x00000100
+#define CODSP_INTREG_EDSP_FAIL 0x00000080
+#define CODSP_INTREG_CIS_BOF 0x00000008
+#define CODSP_INTREG_CIS_BUF 0x00000004
+#define CODSP_INTREG_CIS_REQ 0x00000002
+#define CODSP_INTREG_CIS_ACT 0x00000001
+
+/************************************************/
+
+/* ======== SOP REG ADDRESSES =======*/
+
+#define REVISION_ADDR 0x00
+#define PCMC1_ADDR 0x05
+#define XCR_ADDR 0x06
+#define INTREG1_ADDR 0x07
+#define INTREG2_ADDR 0x08
+#define INTREG3_ADDR 0x09
+#define INTREG4_ADDR 0x0A
+#define LMRES1_ADDR 0x0D
+#define MASK_ADDR 0x11
+#define IOCTL3_ADDR 0x14
+#define BCR1_ADDR 0x15
+#define BCR2_ADDR 0x16
+#define BCR3_ADDR 0x17
+#define BCR4_ADDR 0x18
+#define BCR5_ADDR 0x19
+#define DSCR_ADDR 0x1A
+#define LMCR1_ADDR 0x1C
+#define LMCR2_ADDR 0x1D
+#define LMCR3_ADDR 0x1E
+#define OFR1_ADDR 0x1F
+#define PCMR1_ADDR 0x21
+#define PCMX1_ADDR 0x25
+#define TSTR3_ADDR 0x2B
+#define TSTR4_ADDR 0x2C
+#define TSTR5_ADDR 0x2D
+
+/* ========= POP REG ADDRESSES ========*/
+
+#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_RES_2_ADDR 0x42
+
+#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
+#define NLP_BN_INC_ADDR 0x34
+#define NLP_BN_DEC_ADDR 0x35
+#define NLP_BN_MAX_ADDR 0x36
+#define NLP_BN_ADJ_ADDR 0x37
+#define NLP_RE_MIN_ERLL_ADDR 0x38
+#define NLP_RE_EST_ERLL_ADDR 0x39
+#define NLP_SD_LEV_X_ADDR 0x3A
+#define NLP_SD_LEV_R_ADDR 0x3B
+#define NLP_SD_LEV_BN_ADDR 0x3C
+#define NLP_SD_LEV_RE_ADDR 0x3D
+#define NLP_SD_OT_DT_ADDR 0x3E
+#define NLP_ERL_LIN_LP_ADDR 0x3F
+#define NLP_ERL_LEC_LP_ADDR 0x40
+#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 DTMF_LEV_ADDR 0x30
+#define DTMF_TWI_ADDR 0x31
+#define DTMF_NCF_H_ADDR 0x32
+#define DTMF_NCF_L_ADDR 0x33
+#define DTMF_NBW_H_ADDR 0x34
+#define DTMF_NBW_L_ADDR 0x35
+#define DTMF_GAIN_ADDR 0x36
+#define DTMF_RES1_ADDR 0x37
+#define DTMF_RES2_ADDR 0x38
+#define DTMF_RES3_ADDR 0x39
+
+#define CIS_LEV_H_ADDR 0x43
+#define CIS_LEV_L_ADDR 0x44
+#define CIS_BRS_ADDR 0x45
+#define CIS_SEIZ_H_ADDR 0x46
+#define CIS_SEIZ_L_ADDR 0x47
+#define CIS_MARK_H_ADDR 0x48
+#define CIS_MARK_L_ADDR 0x49
+#define CIS_LEC_MODE_ADDR 0x4A
+
+/*=====================================*/
+
+#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_END_ADDR 0x3D
+
+#define TG2_FREQ_START_ADDR 0x40
+#define TG2_GAIN_START_ADDR 0x41
+#define TG2_BANDPASS_START_ADDR 0x43
+#define TG2_BANDPASS_END_ADDR 0x45
+
+/*====================================*/
+
+#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 RX_LEV_ADDR 0x28
+#define TX_LEV_ADDR 0x30
+#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 */
+
+/* Mark the start byte of Duslic parameters that we use with configurator */
+#define Ik1_START_BYTE 3
+#define RX_LEV_START_BYTE 0
+#define TX_LEV_START_BYTE 0
+
+/************************************************/
+
+#define INTREG4_CIS_ACT (1 << 0)
+
+#define BCR1_SLEEP 0x20
+#define BCR1_REVPOL 0x10
+#define BCR1_ACTR 0x08
+#define BCR1_ACTL 0x04
+#define BCR1_SLIC_MASK 0x03
+
+#define BCR2_HARD_POL_REV 0x40
+#define BCR2_TTX 0x20
+#define BCR2_TTX_12K 0x10
+#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 CIS_LEC_MODE_LEC_FREEZE (1 << 6)
+#define CIS_LEC_MODE_LEC_ADAPT (1 << 7)
+
+#define TSTR4_COR_64 (1 << 5)
+
+#define TSTR3_AC_DLB_8K (1 << 2)
+#define TSTR3_AC_DLB_32K (1 << 3)
+#define TSTR3_AC_DLB_4M (1 << 5)
+
+
+#define LMCR1_TEST_EN (1 << 7)
+#define LMCR1_LM_EN (1 << 6)
+#define LMCR1_LM_THM (1 << 5)
+#define LMCR1_LM_ONCE (1 << 2)
+#define LMCR1_LM_MASK (1 << 1)
+
+#define LMCR2_LM_RECT (1 << 5)
+#define LMCR2_LM_SEL_VDD 0x0D
+#define LMCR2_LM_SEL_IO3 0x0A
+#define LMCR2_LM_SEL_IO4 0x0B
+#define LMCR2_LM_SEL_IO4_MINUS_IO3 0x0F
+
+#define LMCR3_RTR_SEL (1 << 6)
+
+#define LMCR3_RNG_OFFSET_NONE 0x00
+#define LMCR3_RNG_OFFSET_1 0x01
+#define LMCR3_RNG_OFFSET_2 0x02
+#define LMCR3_RNG_OFFSET_3 0x03
+
+#define TSTR5_DC_HOLD (1 << 3)
+
+/************************************************/
+
+#define TARGET_ONHOOK_BATH_x100 4600 /* 46.0 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 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 LM_OK_SRC_IRG_2 (1 << 4)
+
+/************************************************/
+
+#define PORTB (((volatile immap_t *)CFG_IMMR)->im_cpm.cp_pbdat)
+#define PORTC (((volatile immap_t *)CFG_IMMR)->im_ioport.iop_pcdat)
+#define PORTD (((volatile immap_t *)CFG_IMMR)->im_ioport.iop_pddat)
+
+#define _PORTD_SET(mask, state) \
+ do { \
+ if (state) \
+ PORTD |= mask; \
+ else \
+ PORTD &= ~mask; \
+ } while (0)
+
+#define _PORTB_SET(mask, state) \
+ do { \
+ if (state) \
+ PORTB |= mask; \
+ else \
+ PORTB &= ~mask; \
+ } while (0)
+
+#define _PORTB_TGL(mask) do { PORTB ^= mask; } while (0)
+#define _PORTB_GET(mask) (!!(PORTB & mask))
+
+#define _PORTC_GET(mask) (!!(PORTC & mask))
+
+/* port B */
+#define SPI_RXD (1 << (31 - 28))
+#define SPI_TXD (1 << (31 - 29))
+#define SPI_CLK (1 << (31 - 30))
+
+/* port C */
+#define COM_HOOK1 (1 << (15 - 9))
+#define COM_HOOK2 (1 << (15 - 10))
+
+#ifndef CONFIG_NETTA_SWAPHOOK
+
+#define COM_HOOK3 (1 << (15 - 11))
+#define COM_HOOK4 (1 << (15 - 12))
+
+#else
+
+#define COM_HOOK3 (1 << (15 - 12))
+#define COM_HOOK4 (1 << (15 - 11))
+
+#endif
+
+/* port D */
+#define SPIENC1 (1 << (15 - 9))
+#define SPIENC2 (1 << (15 - 10))
+#define SPIENC3 (1 << (15 - 11))
+#define SPIENC4 (1 << (15 - 14))
+
+#define SPI_DELAY() udelay(1)
+
+static inline unsigned int __SPI_Transfer(unsigned int tx)
+{
+ unsigned int rx;
+ int b;
+
+ rx = 0; b = 8;
+ while (--b >= 0) {
+ _PORTB_SET(SPI_TXD, tx & 0x80);
+ tx <<= 1;
+ _PORTB_TGL(SPI_CLK);
+ SPI_DELAY();
+ rx <<= 1;
+ rx |= _PORTB_GET(SPI_RXD);
+ _PORTB_TGL(SPI_CLK);
+ SPI_DELAY();
+ }
+
+ return rx;
+}
+
+static const char *codsp_dtmf_map = "D1234567890*#ABC";
+
+static const int spienc_mask_tab[4] = { SPIENC1, SPIENC2, SPIENC3, SPIENC4 };
+static const int com_hook_mask_tab[4] = { COM_HOOK1, COM_HOOK2, COM_HOOK3, COM_HOOK4 };
+
+static unsigned int codsp_send(int duslic_id, const unsigned char *cmd, int cmdlen, unsigned char *res, int reslen)
+{
+ unsigned int rx;
+ int i;
+
+ /* just some sanity checks */
+ if (cmd == 0 || cmdlen < 0)
+ return -1;
+
+ _PORTD_SET(spienc_mask_tab[duslic_id], 0);
+
+ /* first 2 bytes are without response */
+ i = 2;
+ while (i-- > 0 && cmdlen-- > 0)
+ __SPI_Transfer(*cmd++);
+
+ while (cmdlen-- > 0) {
+ rx = __SPI_Transfer(*cmd++);
+ if (res != 0 && reslen-- > 0)
+ *res++ = (unsigned char)rx;
+ }
+ if (res != 0) {
+ while (reslen-- > 0)
+ *res++ = __SPI_Transfer(0xFF);
+ }
+
+ _PORTD_SET(spienc_mask_tab[duslic_id], 1);
+
+ return 0;
+}
+
+/****************************************************************************/
+
+void codsp_set_ciop_m(int duslic_id, int channel, unsigned char m)
+{
+ unsigned char cmd = CODSP_WR | CODSP_ADR(channel) | CODSP_M(m);
+ codsp_send(duslic_id, &cmd, 1, 0, 0);
+}
+
+void codsp_reset_chip(int duslic_id)
+{
+ static const unsigned char cmd = CODSP_WR | CODSP_OP | CODSP_CMD_SOFT_RESET;
+ codsp_send(duslic_id, &cmd, 1, 0, 0);
+}
+
+void codsp_reset_channel(int duslic_id, int channel)
+{
+ unsigned char cmd = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_RESET_CH;
+ codsp_send(duslic_id, &cmd, 1, 0, 0);
+}
+
+void codsp_resync_channel(int duslic_id, int channel)
+{
+ unsigned char cmd = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_RESYNC;
+ codsp_send(duslic_id, &cmd, 1, 0, 0);
+}
+
+/****************************************************************************/
+
+void codsp_write_sop_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_SOP;
+ cmd[1] = regno;
+ cmd[2] = val;
+
+ codsp_send(duslic_id, cmd, 3, 0, 0);
+}
+
+void codsp_write_sop_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_SOP;
+ cmd[1] = regno;
+ cmd[2] = (unsigned char)(val >> 8);
+ cmd[3] = (unsigned char)val;
+
+ codsp_send(duslic_id, cmd, 4, 0, 0);
+}
+
+void codsp_write_sop_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_SOP;
+ 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;
+
+ codsp_send(duslic_id, cmd, 6, 0, 0);
+}
+
+unsigned char codsp_read_sop_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_SOP;
+ cmd[1] = regno;
+
+ codsp_send(duslic_id, cmd, 2, res, 2);
+
+ return res[1];
+}
+
+unsigned short codsp_read_sop_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_SOP;
+ cmd[1] = regno;
+
+ codsp_send(duslic_id, cmd, 2, res, 3);
+
+ return ((unsigned short)res[1] << 8) | res[2];
+}
+
+unsigned int codsp_read_sop_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_SOP;
+ cmd[1] = regno;
+
+ 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];
+}
+
+/****************************************************************************/
+
+void codsp_write_cop_block(int duslic_id, int channel, unsigned char addr, const unsigned char *block)
+{
+ unsigned char cmd[10];
+
+ cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_COP;
+ cmd[1] = addr;
+ memcpy(cmd + 2, block, 8);
+ codsp_send(duslic_id, cmd, 10, 0, 0);
+}
+
+void codsp_write_cop_char(int duslic_id, int channel, unsigned char addr, unsigned char val)
+{
+ unsigned char cmd[3];
+
+ cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_COP;
+ cmd[1] = addr;
+ cmd[2] = val;
+ codsp_send(duslic_id, cmd, 3, 0, 0);
+}
+
+void codsp_write_cop_short(int duslic_id, int channel, unsigned char addr, unsigned short val)
+{
+ unsigned char cmd[3];
+
+ cmd[0] = CODSP_WR | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_COP;
+ cmd[1] = addr;
+ cmd[2] = (unsigned char)(val >> 8);
+ cmd[3] = (unsigned char)val;
+
+ codsp_send(duslic_id, cmd, 4, 0, 0);
+}
+
+void codsp_read_cop_block(int duslic_id, int channel, unsigned char addr, unsigned char *block)
+{
+ unsigned char cmd[2];
+ unsigned char res[9];
+
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_COP;
+ cmd[1] = addr;
+ codsp_send(duslic_id, cmd, 2, res, 9);
+ memcpy(block, res + 1, 8);
+}
+
+unsigned char codsp_read_cop_char(int duslic_id, int channel, unsigned char addr)
+{
+ unsigned char cmd[2];
+ unsigned char res[2];
+
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_COP;
+ cmd[1] = addr;
+ codsp_send(duslic_id, cmd, 2, res, 2);
+ return res[1];
+}
+
+unsigned short codsp_read_cop_short(int duslic_id, int channel, unsigned char addr)
+{
+ unsigned char cmd[2];
+ unsigned char res[3];
+
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_COP;
+ cmd[1] = addr;
+
+ codsp_send(duslic_id, cmd, 2, res, 3);
+
+ return ((unsigned short)res[1] << 8) | res[2];
+}
+
+/****************************************************************************/
+
+#define MAX_POP_BLOCK 50
+
+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;
+
+ 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);
+}
+
+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[1] = regno;
+ cmd[2] = val;
+
+ codsp_send(duslic_id, cmd, 3, 0, 0);
+}
+
+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[1] = regno;
+ cmd[2] = (unsigned char)(val >> 8);
+ cmd[3] = (unsigned char)val;
+
+ codsp_send(duslic_id, cmd, 4, 0, 0);
+}
+
+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[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;
+
+ codsp_send(duslic_id, cmd, 6, 0, 0);
+}
+
+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[1] = regno;
+
+ 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 char cmd[2];
+ unsigned char res[3];
+
+ cmd[0] = CODSP_RD | CODSP_OP | CODSP_ADR(channel) | CODSP_CMD_POP;
+ cmd[1] = regno;
+
+ codsp_send(duslic_id, cmd, 2, res, 3);
+
+ return ((unsigned short)res[1] << 8) | res[2];
+}
+
+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[1] = regno;
+
+ 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];
+}
+
+/****************************************************************************/
+
+struct _coeffs {
+ unsigned char addr;
+ unsigned char values[8];
+};
+
+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 */
+ { 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 */
+};
+
+struct _coeffs ac_coeffs_0dB[11] = {
+ { 0x60, {0xAC,0x2A,0xB5,0x9A,0xB7,0x2A,0x9D,0x00} },
+ { 0x68, {0x10,0x00,0xA9,0x82,0x0D,0x83,0x0A,0x00} },
+ { 0x18, {0x08,0x20,0xD4,0xA4,0x65,0xEE,0x92,0x07} },
+ { 0x28, {0x2B,0xAB,0x36,0xA5,0x88,0x00,0x00,0x00} },
+ { 0x48, {0xAB,0xE9,0x4E,0x32,0xAB,0x25,0xA5,0x03} },
+ { 0x20, {0x08,0x20,0xDB,0x9C,0xA7,0xFA,0xB4,0x07} },
+ { 0x30, {0xF3,0x10,0x07,0x60,0x85,0x40,0xC0,0x1A} },
+ { 0x50, {0x96,0x38,0x29,0x97,0x39,0x19,0x8B,0x00} },
+ { 0x00, {0x00,0x08,0x08,0x81,0x00,0x80,0x00,0x08} },
+ { 0x08, {0x81,0x00,0x80,0x00,0x47,0x3C,0xD2,0x01} },
+ { 0x10, {0x62,0xDB,0x4A,0x87,0x73,0x28,0x88,0x00} }
+};
+
+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 */
+ { 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 */
+};
+
+void program_coeffs(int duslic_id, int channel, struct _coeffs *coeffs, int tab_size)
+{
+ int i;
+
+ for (i = 0; i < tab_size; i++)
+ codsp_write_cop_block(duslic_id, channel, coeffs[i].addr, coeffs[i].values);
+}
+
+#define SS_OPEN_CIRCUIT 0
+#define SS_RING_PAUSE 1
+#define SS_ACTIVE 2
+#define SS_ACTIVE_HIGH 3
+#define SS_ACTIVE_RING 4
+#define SS_RINGING 5
+#define SS_ACTIVE_WITH_METERING 6
+#define SS_ONHOOKTRNSM 7
+#define SS_STANDBY 8
+#define SS_MAX 8
+
+static void codsp_set_slic(int duslic_id, int channel, int state)
+{
+ unsigned char v;
+
+ v = codsp_read_sop_char(duslic_id, channel, BCR1_ADDR);
+
+ switch (state) {
+
+ case SS_ACTIVE:
+ codsp_write_sop_char(duslic_id, channel, BCR1_ADDR, (v & ~BCR1_ACTR) | BCR1_ACTL);
+ codsp_set_ciop_m(duslic_id, channel, CODSP_M_ANY_ACT);
+ break;
+
+ case SS_ACTIVE_HIGH:
+ codsp_write_sop_char(duslic_id, channel, BCR1_ADDR, v & ~(BCR1_ACTR | BCR1_ACTL));
+ codsp_set_ciop_m(duslic_id, channel, CODSP_M_ANY_ACT);
+ break;
+
+ case SS_ACTIVE_RING:
+ 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;
+
+ case SS_STANDBY:
+ codsp_write_sop_char(duslic_id, channel, BCR1_ADDR, v & ~(BCR1_ACTL | BCR1_ACTR));
+ codsp_set_ciop_m(duslic_id, channel, CODSP_M_SLEEP_PWRDN);
+ break;
+
+ case SS_OPEN_CIRCUIT:
+ codsp_set_ciop_m(duslic_id, channel, CODSP_M_PWRDN_HIZ);
+ break;
+
+ case SS_RINGING:
+ codsp_set_ciop_m(duslic_id, channel, CODSP_M_RING);
+ break;
+
+ case SS_RING_PAUSE:
+ codsp_set_ciop_m(duslic_id, channel, CODSP_M_RING_PAUSE);
+ break;
+ }
+}
+
+const unsigned char Ring_Sin_28Vrms_25Hz[8] = { 0x90, 0x30, 0x1B, 0xC0, 0xC3, 0x9C, 0x88, 0x00 };
+const unsigned char Max_HookRingTh[3] = { 0x7B, 0x41, 0x62 };
+
+void retrieve_slic_state(int slic_id)
+{
+ int duslic_id = slic_id >> 1;
+ int channel = slic_id & 1;
+
+ /* Retrieve the state of the SLICs */
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR, 0x00);
+
+ /* wait at least 1000us to clear the LM_OK and 500us to set the LM_OK ==> for the LM to make the first Measurement */
+ udelay(10000);
+
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK);
+ codsp_set_slic(duslic_id, channel, SS_ACTIVE_HIGH);
+ codsp_write_sop_char(duslic_id, channel, LMCR3_ADDR, 0x40);
+
+ /* Program Default Hook Ring thresholds */
+ codsp_write_cop_block(duslic_id, channel, dc_coeffs[1].addr, dc_coeffs[1].values);
+
+ /* Now program Hook Threshold while Ring and ac RingTrip to max values */
+ codsp_write_cop_block(duslic_id, channel, dc_coeffs[3].addr, dc_coeffs[3].values);
+
+ codsp_write_sop_short(duslic_id, channel, OFR1_ADDR, 0x0000);
+
+ udelay(40000);
+}
+
+int wait_level_metering_finish(int duslic_id, int channel)
+{
+ int cnt;
+
+ for (cnt = 0; cnt < 1000 &&
+ (codsp_read_sop_char(duslic_id, channel, INTREG2_ADDR) & LM_OK_SRC_IRG_2) == 0; cnt++) { }
+
+ return cnt != 1000;
+}
+
+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)
+{
+ short LM_Result, Offset_Compensation; /* Signed 16 bit */
+ long int VDD, VDD_diff, V_in, V_out, Divider_Ratio, Vout_diff ;
+ unsigned char err_mask = 0;
+ int duslic_id = slic_id >> 1;
+ int channel = slic_id & 1;
+ int i;
+
+ /* measure VDD */
+ /* Now select the VDD level Measurement (but first of all Hold the DC characteristic) */
+ codsp_write_sop_char(duslic_id, channel, TSTR5_ADDR, TSTR5_DC_HOLD);
+
+ /* Activate Test Mode ==> To Enable DC Hold !!! */
+ /* (else the LMRES is treated as Feeding Current and the Feeding voltage changes */
+ /* imediatelly (after 500us when the LMRES Registers is updated for the first time after selection of (IO4-IO3) measurement !!!!))*/
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_TEST_EN | LMCR1_LM_THM | LMCR1_LM_MASK);
+
+ udelay(40000);
+
+ /* Now I Can select what to measure by DC Level Meter (select IO4-IO3) */
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR, LMCR2_LM_SEL_VDD);
+
+ /* wait at least 1000us to clear the LM_OK and 500us to set the LM_OK ==> for the LM to make the first Measurement */
+ udelay(10000);
+
+ /* Now Read the LM Result Registers */
+ LM_Result = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
+ VDD = (-1)*((((long int)LM_Result) * 390L ) >> 15) ; /* VDDx100 */
+
+ *vdd = VDD;
+
+ VDD_diff = VDD - TARGET_VDDx100;
+
+ if (VDD_diff < 0)
+ VDD_diff = -VDD_diff;
+
+ if (VDD_diff > VDD_MAX_DIFFx100)
+ err_mask |= 1;
+
+ Divider_Ratio = TARGET_V_DIVIDER_RATIO_x100;
+
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR, 0x00);
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK);
+
+ codsp_set_slic(duslic_id, channel, SS_ACTIVE_HIGH); /* Go back to ONHOOK Voltage */
+
+ udelay(40000);
+
+ codsp_write_sop_char(duslic_id, channel,
+ LMCR1_ADDR, LMCR1_TEST_EN | LMCR1_LM_THM | LMCR1_LM_MASK);
+
+ udelay(40000);
+
+ /* Now I Can select what to measure by DC Level Meter (select IO4-IO3) */
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR, LMCR2_LM_SEL_IO4_MINUS_IO3);
+
+ /* wait at least 1000us to clear the LM_OK and 500us to set the LM_OK ==> for the LM to make the first Measurement */
+ udelay(10000);
+
+ /* Now Read the LM Result Registers */
+ LM_Result = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
+ V_in = (-1)* ((((long int)LM_Result) * V_AD_x10000 ) >> 15) ; /* Vin x 10000*/
+
+ V_out = (V_in * Divider_Ratio) / 10000L ; /* Vout x100 */
+
+ *v_oh_H = V_out;
+
+ Vout_diff = V_out - TARGET_ONHOOK_BATH_x100;
+
+ if (Vout_diff < 0)
+ Vout_diff = -Vout_diff;
+
+ if (Vout_diff > V_OUT_BATH_MAX_DIFFx100)
+ err_mask |= 2;
+
+ codsp_set_slic(duslic_id, channel, SS_ACTIVE); /* Go back to ONHOOK Voltage */
+
+ udelay(40000);
+
+ /* Now Read the LM Result Registers */
+ LM_Result = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
+
+ V_in = (-1)* ((((long int)LM_Result) * V_AD_x10000 ) >> 15) ; /* Vin x 10000*/
+
+ V_out = (V_in * Divider_Ratio) / 10000L ; /* Vout x100 */
+
+ *v_oh_L = V_out;
+
+ Vout_diff = V_out - TARGET_ONHOOK_BATL_x100;
+
+ if (Vout_diff < 0)
+ Vout_diff = -Vout_diff;
+
+ if (Vout_diff > V_OUT_BATL_MAX_DIFFx100)
+ err_mask |= 4;
+
+ /* perform ring tests */
+
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR, 0x00);
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK);
+
+ udelay(40000);
+
+ codsp_write_sop_char(duslic_id, channel, LMCR3_ADDR, LMCR3_RTR_SEL | LMCR3_RNG_OFFSET_NONE);
+
+ /* Now program RO1 =0V , Ring Amplitude and frequency and shift factor K = 1 (LMDC=0x0088)*/
+ codsp_write_cop_block(duslic_id, channel, RING_PARAMS_START_ADDR, Ring_Sin_28Vrms_25Hz);
+
+ /* By Default RO1 is selected when ringing RNG-OFFSET = 00 */
+
+ /* Now program Hook Threshold while Ring and ac RingTrip to max values */
+ for(i = 0; i < sizeof(Max_HookRingTh); i++)
+ codsp_write_cop_char(duslic_id, channel, HOOK_THRESH_RING_START_ADDR + i, Max_HookRingTh[i]);
+
+ codsp_write_sop_short(duslic_id, channel, OFR1_ADDR, 0x0000);
+
+ codsp_set_slic(duslic_id, channel, SS_RING_PAUSE); /* Start Ringing */
+
+ /* select source for the levelmeter to be IO4-IO3 */
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR, LMCR2_LM_SEL_IO4_MINUS_IO3);
+
+ udelay(40000);
+
+ /* Before Enabling Level Meter Programm the apropriate shift factor K_INTDC=(4 if Rectifier Enabled and 2 if Rectifier Disabled) */
+ codsp_write_cop_char(duslic_id, channel, RING_PARAMS_START_ADDR + 7, K_INTDC_RECT_OFF);
+
+ udelay(10000);
+
+ /* Enable LevelMeter to Integrate only once (Rectifier Disabled) */
+ codsp_write_sop_char(duslic_id, channel,
+ LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_EN | LMCR1_LM_ONCE);
+
+ udelay(40000); /* Integration Period == Ring Period = 40ms (for 25Hz Ring) */
+
+ if (wait_level_metering_finish(duslic_id, channel)) {
+
+ udelay(10000); /* To be sure that Integration Results are Valid wait at least 500us !!! */
+
+ /* Now Read the LM Result Registers (Will be valid until LM_EN becomes zero again( after that the Result is updated every 500us) ) */
+ Offset_Compensation = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
+ Offset_Compensation = (-1) * ((Offset_Compensation * (1 << K_INTDC_RECT_OFF)) / N_SAMPLES);
+
+ /* Disable LevelMeter ==> In order to be able to restart Integrator again (for the next integration) */
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_ONCE);
+
+ /* Now programm Integrator Offset Registers !!! */
+ codsp_write_sop_short(duslic_id, channel, OFR1_ADDR, Offset_Compensation);
+
+ codsp_set_slic(duslic_id, channel, SS_RINGING); /* Start Ringing */
+
+ udelay(40000);
+
+ /* Reenable Level Meter Integrator (The Result will be valid after Integration Period=Ring Period and until LN_EN become zero again) */
+ codsp_write_sop_char(duslic_id, channel,
+ LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_EN | LMCR1_LM_ONCE);
+
+ udelay(40000); /* Integration Period == Ring Period = 40ms (for 25Hz Ring) */
+
+ /* Poll the LM_OK bit to see when Integration Result is Ready */
+ if (wait_level_metering_finish(duslic_id, channel)) {
+
+ 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 !!!) */
+ 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*/
+
+ V_out = (V_in * Divider_Ratio) / 10000L ; /* Vout x100 */
+
+ if (V_out < 0)
+ V_out= -V_out;
+
+ if (V_out > MAX_V_RING_MEANx100)
+ err_mask |= 8;
+
+ *ring_mean_v = V_out;
+ } else {
+ err_mask |= 8;
+ *ring_mean_v = 0;
+ }
+ } else {
+ err_mask |= 8;
+ *ring_mean_v = 0;
+ }
+
+ /* Disable LevelMeter ==> In order to be able to restart Integrator again (for the next integration) */
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR,
+ LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_ONCE);
+ codsp_write_sop_short(duslic_id, channel, OFR1_ADDR, 0x0000);
+
+ codsp_set_slic(duslic_id, channel, SS_RING_PAUSE); /* Start Ringing */
+
+ /* Now Enable Rectifier */
+ /* select source for the levelmeter to be IO4-IO3 */
+ codsp_write_sop_char(duslic_id, channel, LMCR2_ADDR,
+ LMCR2_LM_SEL_IO4_MINUS_IO3 | LMCR2_LM_RECT);
+
+ /* Program the apropriate shift factor K_INTDC (in order to avoid Overflow at Integtation Result !!!) */
+ codsp_write_cop_char(duslic_id, channel, RING_PARAMS_START_ADDR + 7, K_INTDC_RECT_ON);
+
+ udelay(40000);
+
+ /* Reenable Level Meter Integrator (The Result will be valid after Integration Period=Ring Period and until LN_EN become zero again) */
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR,
+ LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_EN | LMCR1_LM_ONCE);
+
+ udelay(40000);
+
+ /* Poll the LM_OK bit to see when Integration Result is Ready */
+ if (wait_level_metering_finish(duslic_id, channel)) {
+
+ 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 !!!) */
+ Offset_Compensation = codsp_read_sop_short(duslic_id, channel, LMRES1_ADDR);
+ Offset_Compensation = (-1) * ((Offset_Compensation * (1 << K_INTDC_RECT_ON)) / N_SAMPLES);
+
+ /* Disable LevelMeter ==> In order to be able to restart Integrator again (for the next integration) */
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_ONCE);
+
+ /* Now programm Integrator Offset Registers !!! */
+ codsp_write_sop_short(duslic_id, channel, OFR1_ADDR, Offset_Compensation);
+
+ /* Be sure that a Ring is generated !!!! */
+ codsp_set_slic(duslic_id, channel, SS_RINGING); /* Start Ringing again */
+
+ udelay(40000);
+
+ /* Reenable Level Meter Integrator (The Result will be valid after Integration Period=Ring Period and until LN_EN become zero again) */
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR,
+ LMCR1_LM_THM | LMCR1_LM_MASK | LMCR1_LM_EN | LMCR1_LM_ONCE);
+
+ udelay(40000);
+
+ /* Poll the LM_OK bit to see when Integration Result is Ready */
+ if (wait_level_metering_finish(duslic_id, channel)) {
+
+ 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 !!!) */
+ 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*/
+
+ V_out = (((V_in * Divider_Ratio) / 10000L) * RMS_MULTIPLIERx100) / 100 ; /* Vout_RMS x100 */
+ if (V_out < 0)
+ V_out = -V_out;
+
+ Vout_diff = (V_out - TARGET_V_RING_RMSx100);
+
+ if (Vout_diff < 0)
+ Vout_diff = -Vout_diff;
+
+ if (Vout_diff > V_RMS_RING_MAX_DIFFx100)
+ err_mask |= 16;
+
+ *ring_rms_v = V_out;
+ } else {
+ err_mask |= 16;
+ *ring_rms_v = 0;
+ }
+ } else {
+ err_mask |= 16;
+ *ring_rms_v = 0;
+ }
+ /* Disable LevelMeter ==> In order to be able to restart Integrator again (for the next integration) */
+ codsp_write_sop_char(duslic_id, channel, LMCR1_ADDR, LMCR1_LM_THM | LMCR1_LM_MASK);
+
+ retrieve_slic_state(slic_id);
+
+ return(err_mask);
+}
+
+int test_dtmf(int slic_id)
+{
+ unsigned char code;
+ unsigned char b;
+ unsigned int intreg;
+ int duslic_id = slic_id >> 1;
+ 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);
+
+ intreg = codsp_read_sop_int(duslic_id, channel, INTREG1_ADDR);
+ 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));
+
+ udelay(80000);
+
+ intreg = codsp_read_sop_int(duslic_id, channel, INTREG1_ADDR); /* for dtmf_pause irq */
+ }
+
+ 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));
+ return(1);
+ }
+
+ return(0);
+}
+
+void data_up_persist_time(int duslic_id, int channel, int time_ms)
+{
+ unsigned char b;
+
+ b = codsp_read_sop_char(duslic_id, channel, IOCTL3_ADDR);
+ b = (b & 0x0F) | ((time_ms & 0x0F) << 4);
+ codsp_write_sop_char(duslic_id, channel, IOCTL3_ADDR, b);
+}
+
+static void program_dtmf_params(int duslic_id, int channel)
+{
+ unsigned char b;
+
+ codsp_write_pop_char(duslic_id, channel, DTMF_LEV_ADDR, 0x10);
+ codsp_write_pop_char(duslic_id, channel, DTMF_TWI_ADDR, 0x0C);
+ codsp_write_pop_char(duslic_id, channel, DTMF_NCF_H_ADDR, 0x79);
+ codsp_write_pop_char(duslic_id, channel, DTMF_NCF_L_ADDR, 0x10);
+ codsp_write_pop_char(duslic_id, channel, DTMF_NBW_H_ADDR, 0x02);
+ codsp_write_pop_char(duslic_id, channel, DTMF_NBW_L_ADDR, 0xFB);
+ codsp_write_pop_char(duslic_id, channel, DTMF_GAIN_ADDR, 0x91);
+ codsp_write_pop_char(duslic_id, channel, DTMF_RES1_ADDR, 0x00);
+ codsp_write_pop_char(duslic_id, channel, DTMF_RES2_ADDR, 0x00);
+ codsp_write_pop_char(duslic_id, channel, DTMF_RES3_ADDR, 0x00);
+
+ b = codsp_read_sop_char(duslic_id, channel, BCR5_ADDR);
+ codsp_write_sop_char(duslic_id, channel, BCR5_ADDR, b | BCR5_DTMF_EN);
+}
+
+static void codsp_channel_full_reset(int duslic_id, int channel)
+{
+
+ program_coeffs(duslic_id, channel, ac_coeffs, sizeof(ac_coeffs) / sizeof(struct _coeffs));
+ program_coeffs(duslic_id, channel, dc_coeffs, sizeof(dc_coeffs) / sizeof(struct _coeffs));
+
+ /* program basic configuration registers */
+ codsp_write_sop_char(duslic_id, channel, BCR1_ADDR, 0x01);
+ codsp_write_sop_char(duslic_id, channel, BCR2_ADDR, 0x41);
+ codsp_write_sop_char(duslic_id, channel, BCR3_ADDR, 0x43);
+ codsp_write_sop_char(duslic_id, channel, BCR4_ADDR, 0x00);
+ codsp_write_sop_char(duslic_id, channel, BCR5_ADDR, 0x00);
+
+ codsp_write_sop_char(duslic_id, channel, DSCR_ADDR, 0x04); /* PG */
+
+ program_dtmf_params(duslic_id, channel);
+
+ codsp_write_sop_char(duslic_id, channel, LMCR3_ADDR, 0x40); /* RingTRip_SEL */
+
+ data_up_persist_time(duslic_id, channel, 4);
+
+ codsp_write_sop_char(duslic_id, channel, MASK_ADDR, 0xFF); /* All interrupts masked */
+
+ codsp_set_slic(duslic_id, channel, SS_ACTIVE_HIGH);
+}
+
+static int codsp_chip_full_reset(int duslic_id)
+{
+ int i, cnt;
+ int intreg[NUM_CHANNELS];
+ unsigned char pcm_resync;
+ unsigned char revision;
+
+ codsp_reset_chip(duslic_id);
+
+ udelay(2000);
+
+ for (i = 0; i < NUM_CHANNELS; i++)
+ intreg[i] = codsp_read_sop_int(duslic_id, i, INTREG1_ADDR);
+
+ udelay(1500);
+
+ if (_PORTC_GET(com_hook_mask_tab[duslic_id]) == 0) {
+ printf("_HOOK(%d) stayed low\n", duslic_id);
+ return -1;
+ }
+
+ for (pcm_resync = 0, i = 0; i < NUM_CHANNELS; i++) {
+ if (intreg[i] & CODSP_INTREG_SYNC_FAIL)
+ pcm_resync |= 1 << i;
+ }
+
+ for (cnt = 0; cnt < 5 && pcm_resync; cnt++) {
+ for (i = 0; i < NUM_CHANNELS; i++)
+ codsp_resync_channel(duslic_id, i);
+
+ udelay(2000);
+
+ pcm_resync = 0;
+
+ for (i = 0; i < NUM_CHANNELS; i++) {
+ if (codsp_read_sop_int(duslic_id, i, INTREG1_ADDR) & CODSP_INTREG_SYNC_FAIL)
+ pcm_resync |= 1 << i;
+ }
+ }
+
+ if (cnt == 5) {
+ printf("PCM_Resync(%u) not completed\n", duslic_id);
+ return -2;
+ }
+
+ revision = codsp_read_sop_char(duslic_id, 0, REVISION_ADDR);
+ printf("DuSLIC#%d hardware version %d.%d\r\n", duslic_id, (revision & 0xF0) >> 4, revision & 0x0F);
+
+ codsp_write_sop_char(duslic_id, 0, XCR_ADDR, 0x80); /* EDSP_EN */
+
+ for (i = 0; i < NUM_CHANNELS; i++) {
+ codsp_write_sop_char(duslic_id, i, PCMC1_ADDR, 0x01);
+ codsp_channel_full_reset(duslic_id, i);
+ }
+
+ return 0;
+}
+
+int slic_self_test(int duslic_mask)
+{
+ int slic;
+ int i;
+ int r;
+ long vdd, v_oh_H, v_oh_L, ring_mean_v, ring_rms_v;
+ const char *err_txt[] = { "VDD", "V_OH_H", "V_OH_L", "V_RING_MEAN", "V_RING_RMS" };
+ int error = 0;
+
+ 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);
+
+ 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);
+
+ if (r != 0)
+ error |= 1 << slic;
+
+ for (i = 0; i < 5; i++)
+ if (r & (1 << i))
+ printf("\t%s out of range\n", err_txt[i]);
+ }
+ }
+
+ for (slic = 0; slic < MAX_SLICS; slic++) { /* voice path self test */
+ if (duslic_mask & (1 << (slic >> 1))) {
+ printf("SLIC %u VOICE PATH...CHECKING", slic);
+ printf("\rSLIC %u VOICE PATH...%s\n", slic,
+ (r = test_dtmf(slic)) != 0 ? "FAILED " : "PASSED ");
+
+ if (r != 0)
+ error |= 1 << slic;
+ }
+ }
+
+ return(error);
+}
+
+#if defined(CONFIG_NETTA_ISDN)
+
+#define SPIENS1 (1 << (31 - 15))
+#define SPIENS2 (1 << (31 - 19))
+
+static const int spiens_mask_tab[2] = { SPIENS1, SPIENS2 };
+int s_initialized = 0;
+
+static inline unsigned int s_transfer_internal(int s_id, unsigned int address, unsigned int value)
+{
+ unsigned int rx, v;
+
+ _PORTB_SET(spiens_mask_tab[s_id], 0);
+
+ rx = __SPI_Transfer(address);
+
+ switch (address & 0xF0) {
+ case 0x60: /* write byte register */
+ case 0x70:
+ rx = __SPI_Transfer(value);
+ break;
+
+ case 0xE0: /* read R6 register */
+ v = __SPI_Transfer(0);
+
+ rx = (rx << 8) | v;
+
+ break;
+
+ case 0xF0: /* read byte register */
+ rx = __SPI_Transfer(0);
+
+ break;
+ }
+
+ _PORTB_SET(spiens_mask_tab[s_id], 1);
+
+ return rx;
+}
+
+static void s_write_BR(int s_id, unsigned int regno, unsigned int val)
+{
+ unsigned int address;
+ unsigned int v;
+
+ address = 0x70 | (regno & 15);
+ val &= 0xff;
+
+ v = s_transfer_internal(s_id, address, val);
+}
+
+static void s_write_OR(int s_id, unsigned int regno, unsigned int val)
+{
+ unsigned int address;
+ unsigned int v;
+
+ address = 0x70 | (regno & 15);
+ val &= 0xff;
+
+ v = s_transfer_internal(s_id, address, val);
+}
+
+static void s_write_NR(int s_id, unsigned int regno, unsigned int val)
+{
+ unsigned int address;
+ unsigned int v;
+
+ address = (regno & 7) << 4;
+ val &= 0xf;
+
+ v = s_transfer_internal(s_id, address | val, 0x00);
+}
+
+#define BR7_IFR 0x08 /* IDL2 free run */
+#define BR7_ICSLSB 0x04 /* IDL2 clock speed LSB */
+
+#define BR15_OVRL_REG_EN 0x80
+#define OR7_D3VR 0x80 /* disable 3V regulator */
+
+#define OR8_TEME 0x10 /* TE mode enable */
+#define OR8_MME 0x08 /* master mode enable */
+
+void s_initialize(void)
+{
+ int s_id;
+
+ for (s_id = 0; s_id < 2; s_id++) {
+ s_write_BR(s_id, 7, BR7_IFR | BR7_ICSLSB);
+ s_write_BR(s_id, 15, BR15_OVRL_REG_EN);
+ s_write_OR(s_id, 8, OR8_TEME | OR8_MME);
+ s_write_OR(s_id, 7, OR7_D3VR);
+ s_write_OR(s_id, 6, 0);
+ s_write_BR(s_id, 15, 0);
+ s_write_NR(s_id, 3, 0);
+ }
+}
+
+#endif
+
+int board_post_codec(int flags)
+{
+ int j;
+ int r;
+ int duslic_mask;
+
+ printf("board_post_dsp\n");
+
+#if defined(CONFIG_NETTA_ISDN)
+ if (s_initialized == 0) {
+ s_initialize();
+ s_initialized = 1;
+
+ printf("s_initialized\n");
+
+ udelay(20000);
+ }
+#endif
+ duslic_mask = 0;
+
+ for (j = 0; j < MAX_DUSLIC; j++) {
+ if (codsp_chip_full_reset(j) < 0)
+ printf("Error initializing DuSLIC#%d\n", j);
+ else
+ duslic_mask |= 1 << j;
+ }
+
+ if (duslic_mask != 0) {
+ printf("Testing SLICs...\n");
+
+ r = slic_self_test(duslic_mask);
+ for (j = 0; j < MAX_SLICS; j++) {
+ if (duslic_mask & (1 << (j >> 1)))
+ printf("SLIC %u...%s\n", j, r & (1 << j) ? "FAULTY" : "OK");
+ }
+ }
+ printf("DuSLIC self test finished\n");
+
+ return 0; /* return -1 on error */
+}
diff --git a/board/netta/dsp.c b/board/netta/dsp.c
index 2bea3ad..66e0b85 100644
--- a/board/netta/dsp.c
+++ b/board/netta/dsp.c
@@ -1,5 +1,5 @@
/*
- * Intracom TI6711 DSP
+ * Intracom TI6711/TI6412 DSP
*/
#include <common.h>
@@ -12,6 +12,38 @@ struct ram_range {
u32 size;
};
+#if defined(CONFIG_NETTA_6412)
+
+static const struct ram_range int_ram[] = {
+ { 0x00000000U, 0x00040000U },
+};
+
+static const struct ram_range ext_ram[] = {
+ { 0x80000000U, 0x00100000U },
+};
+
+static const struct ram_range ranges[] = {
+ { 0x00000000U, 0x00040000U },
+ { 0x80000000U, 0x00100000U },
+};
+
+static inline u16 bit_invert(u16 d)
+{
+ register u8 i;
+ register u16 r;
+ register u16 bit;
+
+ r = 0;
+ for (i = 0; i < 16; i++) {
+ bit = d & (1 << i);
+ if (bit != 0)
+ r |= 1 << (15 - i);
+ }
+ return r;
+}
+
+#else
+
static const struct ram_range int_ram[] = {
{ 0x00000000U, 0x00010000U },
};
@@ -25,6 +57,8 @@ static const struct ram_range ranges[] = {
{ 0x80000000U, 0x00100000U },
};
+#endif
+
/*******************************************************************************************************/
static inline int addr_in_int_ram(u32 addr)
@@ -62,8 +96,11 @@ static volatile u32 *ti6711_delay = &dummy_delay;
static inline void dsp_go_slow(void)
{
volatile memctl8xx_t *memctl = &((immap_t *)CFG_IMMR)->im_memctl;
-
+#if defined(CONFIG_NETTA_6412)
+ memctl->memc_or6 |= OR_SCY_15_CLK | OR_TRLX;
+#else
memctl->memc_or2 |= OR_SCY_15_CLK | OR_TRLX;
+#endif
memctl->memc_or5 |= OR_SCY_15_CLK | OR_TRLX;
ti6711_delay = (u32 *)DUMMY_BASE;
@@ -72,8 +109,11 @@ static inline void dsp_go_slow(void)
static inline void dsp_go_fast(void)
{
volatile memctl8xx_t *memctl = &((immap_t *)CFG_IMMR)->im_memctl;
-
+#if defined(CONFIG_NETTA_6412)
+ memctl->memc_or6 = (memctl->memc_or6 & ~(OR_SCY_15_CLK | OR_TRLX)) | OR_SCY_0_CLK;
+#else
memctl->memc_or2 = (memctl->memc_or2 & ~(OR_SCY_15_CLK | OR_TRLX)) | OR_SCY_3_CLK;
+#endif
memctl->memc_or5 = (memctl->memc_or5 & ~(OR_SCY_15_CLK | OR_TRLX)) | OR_SCY_0_CLK;
ti6711_delay = &dummy_delay;
@@ -89,62 +129,50 @@ static inline void dsp_delay(void)
static inline u16 dsp_read_hpic(void)
{
+#if defined(CONFIG_NETTA_6412)
+ return bit_invert(*((volatile u16 *)DSP_BASE));
+#else
return *((volatile u16 *)DSP_BASE);
+#endif
}
static inline void dsp_write_hpic(u16 val)
{
+#if defined(CONFIG_NETTA_6412)
+ *((volatile u16 *)DSP_BASE) = bit_invert(val);
+#else
*((volatile u16 *)DSP_BASE) = val;
+#endif
}
static inline void dsp_reset(void)
{
+#if defined(CONFIG_NETTA_6412)
+ ((volatile immap_t *)CFG_IMMR)->im_ioport.iop_pddat &= ~(1 << (15 - 15));
+ udelay(500);
+ ((volatile immap_t *)CFG_IMMR)->im_ioport.iop_pddat |= (1 << (15 - 15));
+ udelay(500);
+#else
((volatile immap_t *)CFG_IMMR)->im_ioport.iop_pddat &= ~(1 << (15 - 7));
udelay(250);
((volatile immap_t *)CFG_IMMR)->im_ioport.iop_pddat |= (1 << (15 - 7));
udelay(250);
-}
-
-static inline void dsp_init_hpic(void)
-{
- int i;
- volatile u16 *p;
-
- dsp_go_slow();
-
- i = 0;
- while (i < 1000 && (dsp_read_hpic() & 0x08) == 0) {
- dsp_delay();
- i++;
- }
- dsp_delay();
-
- /* write control register */
- p = (volatile u16 *)DSP_BASE;
- p[0] = 0x0000;
- dsp_delay();
- p[1] = 0x0000;
- dsp_delay();
-
- dsp_go_fast();
-}
-
-static inline void dsp_wait_hrdy(void)
-{
- int i;
-
- i = 0;
- while (i < 1000 && (dsp_read_hpic() & 0x08) == 0) {
- dsp_delay();
- i++;
- }
+#endif
}
static inline u32 dsp_read_hpic_word(u32 addr)
{
u32 val;
volatile u16 *p;
+#if defined(CONFIG_NETTA_6412)
+ p = (volatile u16 *)((volatile u8 *)DSP_BASE + addr);
+ val = ((u32) bit_invert(p[0]) << 16);
+ /* dsp_delay(); */
+
+ val |= bit_invert(p[1]);
+ /* dsp_delay(); */
+#else
p = (volatile u16 *)((volatile u8 *)DSP_BASE + addr);
val = ((u32) p[0] << 16);
@@ -152,40 +180,80 @@ static inline u32 dsp_read_hpic_word(u32 addr)
val |= p[1];
dsp_delay();
-
+#endif
return val;
}
static inline u16 dsp_read_hpic_hi_hword(u32 addr)
{
+#if defined(CONFIG_NETTA_6412)
+ return bit_invert(*(volatile u16 *)((volatile u8 *)DSP_BASE + addr));
+#else
return *(volatile u16 *)((volatile u8 *)DSP_BASE + addr);
+#endif
}
static inline u16 dsp_read_hpic_lo_hword(u32 addr)
{
+#if defined(CONFIG_NETTA_6412)
+ return bit_invert(*(volatile u16 *)((volatile u8 *)DSP_BASE + addr + 2));
+#else
return *(volatile u16 *)((volatile u8 *)DSP_BASE + addr + 2);
+#endif
+}
+
+static inline void dsp_wait_hrdy(void)
+{
+ int i;
+
+ i = 0;
+#if defined(CONFIG_NETTA_6412)
+ while (i < 1000 && (dsp_read_hpic_word(DSP_HPIC) & 0x08) == 0) {
+#else
+ while (i < 1000 && (dsp_read_hpic() & 0x08) == 0) {
+#endif
+ dsp_delay();
+ i++;
+ }
}
static inline void dsp_write_hpic_word(u32 addr, u32 val)
{
volatile u16 *p;
+#if defined(CONFIG_NETTA_6412)
+ p = (volatile u16 *)((volatile u8 *)DSP_BASE + addr);
+ p[0] = bit_invert((u16)(val >> 16));
+ /* dsp_delay(); */
+ p[1] = bit_invert((u16)val);
+ /* dsp_delay(); */
+#else
p = (volatile u16 *)((volatile u8 *)DSP_BASE + addr);
p[0] = (u16)(val >> 16);
dsp_delay();
p[1] = (u16)val;
dsp_delay();
+#endif
}
static inline void dsp_write_hpic_hi_hword(u32 addr, u16 val_h)
{
+#if defined(CONFIG_NETTA_6412)
+ *(volatile u16 *)((volatile u8 *)DSP_BASE + addr) = bit_invert(val_h);
+#else
+
*(volatile u16 *)((volatile u8 *)DSP_BASE + addr) = val_h;
+#endif
}
static inline void dsp_write_hpic_lo_hword(u32 addr, u16 val_l)
{
+#if defined(CONFIG_NETTA_6412)
+ *(volatile u16 *)((volatile u8 *)DSP_BASE + addr + 2) = bit_invert(val_l);
+#else
*(volatile u16 *)((volatile u8 *)DSP_BASE + addr + 2) = val_l;
+#endif
}
/********************************************************************/
@@ -193,21 +261,29 @@ static inline void dsp_write_hpic_lo_hword(u32 addr, u16 val_l)
static inline void c62_write_word(u32 addr, u32 val)
{
dsp_write_hpic_hi_hword(DSP_HPIA, (u16)(addr >> 16));
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
+#endif
dsp_write_hpic_lo_hword(DSP_HPIA, (u16)addr);
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
+#endif
dsp_wait_hrdy();
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
-
+#endif
dsp_write_hpic_hi_hword(DSP_HPID2, (u16)(val >> 16));
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
- dsp_wait_hrdy();
- dsp_delay();
-
+ /* dsp_wait_hrdy();
+ dsp_delay(); */
+#endif
dsp_write_hpic_lo_hword(DSP_HPID2, (u16)val);
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
+#endif
}
static u32 c62_read_word(u32 addr)
@@ -215,26 +291,36 @@ static u32 c62_read_word(u32 addr)
u32 val;
dsp_write_hpic_hi_hword(DSP_HPIA, (u16)(addr >> 16));
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
+#endif
dsp_write_hpic_lo_hword(DSP_HPIA, (u16)addr);
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
+#endif
/* FETCH */
+#if defined(CONFIG_NETTA_6412)
+ dsp_write_hpic_word(DSP_HPIC, 0x00100010);
+#else
dsp_write_hpic(0x10);
dsp_delay();
-
+#endif
dsp_wait_hrdy();
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
-
+#endif
val = (u32)dsp_read_hpic_hi_hword(DSP_HPID2) << 16;
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
- dsp_wait_hrdy();
- dsp_delay();
-
+ /* dsp_wait_hrdy();
+ dsp_delay(); */
+#endif
val |= dsp_read_hpic_lo_hword(DSP_HPID2);
+#if !defined(CONFIG_NETTA_6412)
dsp_delay();
-
+#endif
return val;
}
@@ -300,8 +386,88 @@ static inline int c62_write_validated(u32 addr, const u32 *buffer, int numdata)
return 0;
}
+#if defined(CONFIG_NETTA_6412)
+
+#define DRAM_REGS_BASE 0x1800000
+
+#define GBLCTL DRAM_REGS_BASE
+#define CECTL1 (DRAM_REGS_BASE + 0x4)
+#define CECTL0 (DRAM_REGS_BASE + 0x8)
+#define CECTL2 (DRAM_REGS_BASE + 0x10)
+#define CECTL3 (DRAM_REGS_BASE + 0x14)
+#define SDCTL (DRAM_REGS_BASE + 0x18)
+#define SDTIM (DRAM_REGS_BASE + 0x1C)
+#define SDEXT (DRAM_REGS_BASE + 0x20)
+#define SESEC1 (DRAM_REGS_BASE + 0x44)
+#define SESEC0 (DRAM_REGS_BASE + 0x48)
+#define SESEC2 (DRAM_REGS_BASE + 0x50)
+#define SESEC3 (DRAM_REGS_BASE + 0x54)
+
+#define MAR128 0x1848200
+#define MAR129 0x1848204
+
+void dsp_dram_initialize(void)
+{
+ c62_write_word(GBLCTL, 0x120E4);
+ c62_write_word(CECTL1, 0x18);
+ c62_write_word(CECTL0, 0xD0);
+ c62_write_word(CECTL2, 0x18);
+ c62_write_word(CECTL3, 0x18);
+ c62_write_word(SDCTL, 0x47115000);
+ c62_write_word(SDTIM, 1536);
+ c62_write_word(SDEXT, 0x534A9);
+#if 0
+ c62_write_word(SESEC1, 0);
+ c62_write_word(SESEC0, 0);
+ c62_write_word(SESEC2, 0);
+ c62_write_word(SESEC3, 0);
+#endif
+ c62_write_word(MAR128, 1);
+ c62_write_word(MAR129, 0);
+}
+
+#endif
+
+static inline void dsp_init_hpic(void)
+{
+ int i;
+ volatile u16 *p;
+#if defined(CONFIG_NETTA_6412)
+ dsp_go_fast();
+#else
+ dsp_go_slow();
+#endif
+ i = 0;
+#if defined(CONFIG_NETTA_6412)
+ while (i < 1000 && (dsp_read_hpic_word(DSP_HPIC) & 0x08) == 0) {
+#else
+ while (i < 1000 && (dsp_read_hpic() & 0x08) == 0) {
+#endif
+ dsp_delay();
+ i++;
+ }
+
+ if (i == 1000)
+ printf("HRDY stuck\n");
+
+ dsp_delay();
+
+ /* write control register */
+ p = (volatile u16 *)DSP_BASE;
+ p[0] = 0x0000;
+ dsp_delay();
+ p[1] = 0x0000;
+ dsp_delay();
+
+#if !defined(CONFIG_NETTA_6412)
+ dsp_go_fast();
+#endif
+}
+
/***********************************************************************************************************/
+#if !defined(CONFIG_NETTA_6412)
+
static const u8 bootstrap_rbin[5084] = {
0x52, 0x42, 0x49, 0x4e, 0xc5, 0xa9, 0x9f, 0x1a, 0x00, 0x00, 0x00, 0x02,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x20, 0x00,
@@ -931,18 +1097,23 @@ static void run_bootstrap(void)
dsp_go_fast();
}
+#endif
+
/***********************************************************************************************************/
int board_post_dsp(int flags)
{
u32 ramS, ramE;
u32 data, data2;
- int i, j, k, r;
-
+ int i, j, k;
+#if !defined(CONFIG_NETTA_6412)
+ int r;
+#endif
dsp_reset();
dsp_init_hpic();
+#if !defined(CONFIG_NETTA_6412)
dsp_go_slow();
-
+#endif
data = 0x11223344;
dsp_write_hpic_word(DSP_HPIA, data);
data2 = dsp_read_hpic_word(DSP_HPIA);
@@ -958,7 +1129,9 @@ int board_post_dsp(int flags)
printf("HPIA: ** ERROR; wrote 0x%08X read 0x%08X **\n", data, data2);
goto err;
}
-
+#if defined(CONFIG_NETTA_6412)
+ dsp_dram_initialize();
+#else
r = load_bootstrap();
if (r < 0) {
printf("BOOTSTRAP: ** ERROR ** failed to load\n");
@@ -968,7 +1141,7 @@ int board_post_dsp(int flags)
run_bootstrap();
dsp_go_fast();
-
+#endif
printf(" ");
/* test RAMs */
@@ -1001,12 +1174,12 @@ int board_post_dsp(int flags)
}
printf("\b\b\b\b \b\b\b\bOK\n");
-
+#if !defined(CONFIG_NETTA_6412)
/* XXX assume that this works */
load_bootstrap();
run_bootstrap();
dsp_go_fast();
-
+#endif
return 0;
err:
@@ -1015,10 +1188,14 @@ err:
int board_dsp_reset(void)
{
+#if !defined(CONFIG_NETTA_6412)
int r;
-
+#endif
dsp_reset();
dsp_init_hpic();
+#if defined(CONFIG_NETTA_6412)
+ dsp_dram_initialize();
+#else
dsp_go_slow();
r = load_bootstrap();
if (r < 0)
@@ -1026,6 +1203,6 @@ int board_dsp_reset(void)
run_bootstrap();
dsp_go_fast();
-
+#endif
return 0;
}
diff --git a/board/netta/netta.c b/board/netta/netta.c
index afb3fe1..e7024e5 100644
--- a/board/netta/netta.c
+++ b/board/netta/netta.c
@@ -64,6 +64,11 @@ int checkboard(void)
#if defined(CONFIG_NETTA_ISDN)
" with ISDN support"
#endif
+#if defined(CONFIG_NETTA_6412)
+ " (DSP:TI6412)"
+#else
+ " (DSP:TI6711)"
+#endif
"\n"
);
return (0);
@@ -462,10 +467,10 @@ int last_stage_init(void)
#define PA_SP_DIRVAL 0
#define PB_GP_INMASK (_B(28) | _B(31))
-#define PB_GP_OUTMASK (_BR(16, 19) | _BR(26, 27) | _BR(29, 30))
+#define PB_GP_OUTMASK (_BR(15, 19) | _BR(26, 27) | _BR(29, 30))
#define PB_SP_MASK (_BR(22, 25))
#define PB_ODR_VAL 0
-#define PB_GP_OUTVAL (_BR(16, 19) | _BR(26, 27) | _BR(29, 31))
+#define PB_GP_OUTVAL (_BR(15, 19) | _BR(26, 27) | _BR(29, 31))
#define PB_SP_DIRVAL 0
#define PC_GP_INMASK (_BW(5) | _BW(7) | _BW(8) | _BWR(9, 11) | _BWR(13, 15))
@@ -479,7 +484,17 @@ int last_stage_init(void)
#define PD_GP_INMASK 0
#define PD_GP_OUTMASK _BWR(3, 15)
#define PD_SP_MASK 0
+
+#if defined(CONFIG_NETTA_6412)
+
+#define PD_GP_OUTVAL (_BWR(5, 7) | _BW(9) | _BW(11) | _BW(15))
+
+#else
+
#define PD_GP_OUTVAL (_BWR(5, 7) | _BW(9) | _BW(11))
+
+#endif
+
#define PD_SP_DIRVAL 0
int board_early_init_f(void)
@@ -492,11 +507,15 @@ int board_early_init_f(void)
/* CS1: NAND chip select */
memctl->memc_or1 = ((0xFFFFFFFFLU & ~(NAND_SIZE - 1)) | OR_BI | OR_SCY_2_CLK | OR_TRLX | OR_ACS_DIV2) ;
memctl->memc_br1 = ((NAND_BASE & BR_BA_MSK) | BR_PS_8 | BR_V);
-
+#if !defined(CONFIG_NETTA_6412)
/* CS2: DSP */
memctl->memc_or2 = ((0xFFFFFFFFLU & ~(DSP_SIZE - 1)) | OR_CSNT_SAM | OR_BI | OR_SCY_7_CLK | OR_ACS_DIV2);
memctl->memc_br2 = ((DSP_BASE & BR_BA_MSK) | BR_PS_16 | BR_V);
-
+#else
+ /* CS6: DSP */
+ memctl->memc_or6 = ((0xFFFFFFFFLU & ~(DSP_SIZE - 1)) | OR_CSNT_SAM | OR_BI | OR_SCY_7_CLK | OR_ACS_DIV2);
+ memctl->memc_br6 = ((DSP_BASE & BR_BA_MSK) | BR_PS_16 | BR_V);
+#endif
/* CS4: External register chip select */
memctl->memc_or4 = ((0xFFFFFFFFLU & ~(ER_SIZE - 1)) | OR_BI | OR_SCY_4_CLK);
memctl->memc_br4 = ((ER_BASE & BR_BA_MSK) | BR_PS_32 | BR_V);
@@ -525,7 +544,7 @@ int board_early_init_f(void)
ioport->iop_pddir = PD_GP_OUTMASK | PD_SP_DIRVAL;
ioport->iop_pdpar = PD_SP_MASK;
- ioport->iop_pddat |= (1 << (15 - 6)) | (1 << (15 - 7));
+ /* ioport->iop_pddat |= (1 << (15 - 6)) | (1 << (15 - 7)); */
return 0;
}