/*----------------------------------------------------------------------------- * Function: hdcp_lib_generate_an *----------------------------------------------------------------------------- */ static void hdcp_lib_generate_an(u8 *an) { /* Generate An using HDCP HW */ DBG("hdcp_lib_generate_an()"); /* Start AN Gen */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 3, 3, 0); /* Delay of 10 ms */ mdelay(10); /* Stop AN Gen */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 3, 3, 1); /* Must set 0x72:0x0F[3] twice to guarantee that takes effect */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 3, 3, 1); hdcp_lib_read_an(an); DBG("AN: %x %x %x %x %x %x %x %x", an[0], an[1], an[2], an[3], an[4], an[5], an[6], an[7]); }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_auto_ri_check *----------------------------------------------------------------------------- */ void hdcp_lib_auto_ri_check(bool state) { u8 reg_val; unsigned long flags; DBG("hdcp_lib_auto_ri_check() state=%s", state == true ? "ON" : "OFF"); spin_lock_irqsave(&hdcp.spinlock, flags); reg_val = RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__INT_UNMASK3); reg_val = (state == true) ? (reg_val | 0xB0) : (reg_val & ~0xB0); /* Turn on/off the following Auto Ri interrupts */ WR_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__INT_UNMASK3, reg_val); /* Enable/Disable Ri */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__RI_CMD, 0, 0, ((state == true) ? 1 : 0)); /* Read to flush */ RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__RI_CMD); spin_unlock_irqrestore(&hdcp.spinlock, flags); }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_auto_bcaps_rdy_check *----------------------------------------------------------------------------- */ void hdcp_lib_auto_bcaps_rdy_check(bool state) { u8 reg_val; unsigned long flags; DBG("hdcp_lib_auto_bcaps_rdy_check() state=%s", state == true ? "ON" : "OFF"); spin_lock_irqsave(&hdcp.spinlock, flags); /* Enable KSV_READY / BACP_DONE interrupt */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__INT_UNMASK2, 7, 7, ((state == true) ? 1 : 0)); /* Enable/Disable Ri & Bcap */ reg_val = RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__RI_CMD); /* Enable RI_EN & BCAP_EN OR disable BCAP_EN */ reg_val = (state == true) ? (reg_val | 0x3) : (reg_val & ~0x2); WR_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__RI_CMD, reg_val); /* Read to flush */ RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__RI_CMD); spin_unlock_irqrestore(&hdcp.spinlock, flags); DBG("hdcp_lib_auto_bcaps_rdy_check() Done\n"); }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_set_repeater_bit_in_tx *----------------------------------------------------------------------------- */ static void hdcp_lib_set_repeater_bit_in_tx(enum hdcp_repeater rx_mode) { DBG("hdcp_lib_set_repeater_bit_in_tx() value=%d", rx_mode); WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 4, 4, rx_mode); }
/*----------------------------------------------------------------------------- * Function: hdcp_3des_encrypt_key *----------------------------------------------------------------------------- */ void hdcp_3des_encrypt_key(struct hdcp_encrypt_control *enc_ctrl, uint32_t out_key[DESHDCP_KEY_SIZE]) { int counter = 0; DBG("Encrypting HDCP keys..."); /* Reset encrypted key array */ for (counter = 0; counter < DESHDCP_KEY_SIZE; counter++) out_key[counter] = 0; /* Set encryption mode in DES control register */ WR_FIELD_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_CTRL, DESHDCP__DHDCP_CTRL__DIRECTION_POS_F, DESHDCP__DHDCP_CTRL__DIRECTION_POS_L, 0x1); /* Write raw data and read encrypted data */ counter = 0; #ifdef POWER_TRANSITION_DBG printk(KERN_ERR "\n**************************\n" "ENCRYPTION: WAIT FOR DSS TRANSITION\n" "*************************\n"); mdelay(10000); printk(KER_INFO "\n**************************\n" "DONE\n" "*************************\n"); #endif while (counter < DESHDCP_KEY_SIZE) { /* Fill Data registers */ WR_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_L, enc_ctrl->in_key[counter]); WR_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_H, enc_ctrl->in_key[counter + 1]); /* Wait for output bit at '1' */ while (RD_FIELD_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_CTRL, DESHDCP__DHDCP_CTRL__OUTPUT_READY_POS_F, DESHDCP__DHDCP_CTRL__OUTPUT_READY_POS_L ) != 0x1) ; /* Read enrypted data */ out_key[counter] = RD_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_L); out_key[counter + 1] = RD_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_H); counter += 2; } }
int hdcp_3des_load_key(uint32_t *deshdcp_encrypted_key) { int counter = 0, status = HDCP_OK; if (!deshdcp_encrypted_key) { HDCP_ERR("HDCP keys NULL, failed to load keys\n"); return HDCP_3DES_ERROR; } HDCP_DBG("Loading HDCP keys...\n"); /* Set decryption mode in DES control register */ WR_FIELD_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_CTRL, DESHDCP__DHDCP_CTRL__DIRECTION_POS_F, DESHDCP__DHDCP_CTRL__DIRECTION_POS_L, 0x0); /* Write encrypted data */ while (counter < DESHDCP_KEY_SIZE) { /* Fill Data registers */ WR_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_L, deshdcp_encrypted_key[counter]); WR_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_H, deshdcp_encrypted_key[counter + 1]); /* Wait for output bit at '1' */ while (RD_FIELD_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_CTRL, DESHDCP__DHDCP_CTRL__OUTPUT_READY_POS_F, DESHDCP__DHDCP_CTRL__OUTPUT_READY_POS_L) != 0x1) ; /* Dummy read (indeed data are transfered directly into * key memory) */ if (RD_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_L) != 0x0) { status = -HDCP_3DES_ERROR; HDCP_ERR("DESHDCP dummy read error\n"); } if (RD_REG_32(hdcp.deshdcp_base_addr, DESHDCP__DHDCP_DATA_H) != 0x0) { status = -HDCP_3DES_ERROR; HDCP_ERR("DESHDCP dummy read error\n"); } counter += 2; } if (status == HDCP_OK) hdcp.hdcp_keys_loaded = true; return status; }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_disable *----------------------------------------------------------------------------- */ int hdcp_lib_disable() { DBG("hdcp_lib_disable() %u", jiffies_to_msecs(jiffies)); /* CP reset */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 2, 2, 0); /* Clear AV mute in case it was set */ hdcp_lib_set_av_mute(AV_MUTE_CLEAR); return HDCP_OK; }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_set_av_mute *----------------------------------------------------------------------------- */ void hdcp_lib_set_av_mute(enum av_mute av_mute_state) { unsigned long flags; DBG("hdcp_lib_set_av_mute() av_mute=%d", av_mute_state); spin_lock_irqsave(&hdcp.spinlock, flags); { u8 RegVal, TimeOutCount = 64; RegVal = RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_CORE_AV_BASE, HDMI_CORE_AV_PB_CTRL2); /* PRguide-GPC: To change the content of the CP_BYTE1 register, * CP_EN must be zero * set PB_CTRL2 :: CP_RPT = 0 */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_CORE_AV_BASE, HDMI_CORE_AV_PB_CTRL2, 2, 2, 0); /* Set/clear AV mute state */ WR_REG_32(hdcp.hdmi_wp_base_addr + HDMI_CORE_AV_BASE, HDMI_CORE_AV_CP_BYTE1, av_mute_state); /* FIXME: This loop should be removed */ while (TimeOutCount--) { /* Continue in this loop till CP_EN becomes 0, * prior to TimeOutCount becoming 0 */ if (!RD_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_CORE_AV_BASE, HDMI_CORE_AV_PB_CTRL2, 3, 3)) break; } DBG(" timeoutcount=%d", TimeOutCount); /* FIXME: why is this if condition required?, according to prg, * this shall be unconditioanlly */ if (TimeOutCount) { /* set PB_CTRL2 :: CP_EN = 1 & CP_RPT = 1 */ RegVal = FLD_MOD(RegVal, 0x3, 3, 2); WR_REG_32(hdcp.hdmi_wp_base_addr + HDMI_CORE_AV_BASE, HDMI_CORE_AV_PB_CTRL2, RegVal); } } spin_unlock_irqrestore(&hdcp.spinlock, flags); }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_set_encryption *----------------------------------------------------------------------------- */ void hdcp_lib_set_encryption(enum encryption_state enc_state) { unsigned long flags; spin_lock_irqsave(&hdcp.spinlock, flags); /* HDCP_CTRL::ENC_EN set/clear */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 0, 0, enc_state); /* Read to flush */ RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL); spin_unlock_irqrestore(&hdcp.spinlock, flags); pr_info("HDCP: Encryption state changed: %s hdcp_ctrl: %02x", enc_state == HDCP_ENC_OFF ? "OFF" : "ON", RD_REG_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL)); }
/*----------------------------------------------------------------------------- * Function: hdcp_lib_initiate_step1 *----------------------------------------------------------------------------- */ static int hdcp_lib_initiate_step1(void) { /* HDCP authentication steps: * 1) Read Bksv - check validity (is HDMI Rx supporting HDCP ?) * 2) Initializes HDCP (CP reset release) * 3) Read Bcaps - is HDMI Rx a repeater ? * *** First part authentication *** * 4) Read Bksv - check validity (is HDMI Rx supporting HDCP ?) * 5) Generates An * 6) DDC: Writes An, Aksv * 7) DDC: Write Bksv */ uint8_t an_ksv_data[8], an_bksv_data[8]; uint8_t rx_type; DBG("hdcp_lib_initiate_step1()\n"); /* DDC: Read BKSV from RX */ if (hdcp_ddc_read(DDC_BKSV_LEN, DDC_BKSV_ADDR , an_ksv_data)) return -HDCP_DDC_ERROR; if (hdcp.pending_disable) return -HDCP_CANCELLED_AUTH; DBG("BKSV: %02x %02x %02x %02x %02x", an_ksv_data[0], an_ksv_data[1], an_ksv_data[2], an_ksv_data[3], an_ksv_data[4]); if (hdcp_lib_check_ksv(an_ksv_data)) { DBG("BKSV error (number of 0 and 1)"); return -HDCP_AUTH_FAILURE; } /* TODO: Need to confirm it is required */ #ifndef _9032_AN_STOP_FIX_ hdcp_lib_toggle_repeater_bit_in_tx(); #endif /* Release CP reset bit */ WR_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 2, 2, 1); /* Read BCAPS to determine if HDCP RX is a repeater */ if (hdcp_ddc_read(DDC_BCAPS_LEN, DDC_BCAPS_ADDR, &rx_type)) return -HDCP_DDC_ERROR; if (hdcp.pending_disable) return -HDCP_CANCELLED_AUTH; rx_type = FLD_GET(rx_type, DDC_BIT_REPEATER, DDC_BIT_REPEATER); /* Set repeater bit in HDCP CTRL */ if (rx_type == 1) { hdcp_lib_set_repeater_bit_in_tx(HDCP_REPEATER); DBG("HDCP RX is a repeater"); } else { hdcp_lib_set_repeater_bit_in_tx(HDCP_RECEIVER); DBG("HDCP RX is a receiver"); } /* Power debug code */ #ifdef POWER_TRANSITION_DBG printk(KERN_INFO "\n**************************\n" "AUTHENTICATION: WAIT FOR DSS TRANSITION\n" "*************************\n"); mdelay(10000); printk(KERN_INFO "\n**************************\n" "DONE\n" "*************************\n"); #endif /* DDC: Read BKSV from RX */ if (hdcp_ddc_read(DDC_BKSV_LEN, DDC_BKSV_ADDR , an_bksv_data)) return -HDCP_DDC_ERROR; /* Generate An */ hdcp_lib_generate_an(an_ksv_data); /* Authentication 1st step initiated HERE */ /* DDC: Write An */ if (hdcp_ddc_write(DDC_AN_LEN, DDC_AN_ADDR , an_ksv_data)) return -HDCP_DDC_ERROR; if (hdcp.pending_disable) return -HDCP_CANCELLED_AUTH; /* Read AKSV from IP: (HDCP AKSV register) */ hdcp_lib_read_aksv(an_ksv_data); DBG("AKSV: %02x %02x %02x %02x %02x", an_ksv_data[0], an_ksv_data[1], an_ksv_data[2], an_ksv_data[3], an_ksv_data[4]); if (hdcp_lib_check_ksv(an_ksv_data)) { printk(KERN_INFO "HDCP: AKSV error (number of 0 and 1)\n"); return -HDCP_AKSV_ERROR; } if (hdcp.pending_disable) return -HDCP_CANCELLED_AUTH; /* DDC: Write AKSV */ if (hdcp_ddc_write(DDC_AKSV_LEN, DDC_AKSV_ADDR, an_ksv_data)) return -HDCP_DDC_ERROR; if (hdcp.pending_disable) return -HDCP_CANCELLED_AUTH; /* Write Bksv to IP */ hdcp_lib_write_bksv(an_bksv_data); /* Check IP BKSV error */ if (RD_FIELD_32(hdcp.hdmi_wp_base_addr + HDMI_IP_CORE_SYSTEM, HDMI_IP_CORE_SYSTEM__HDCP_CTRL, 5, 5)) return -HDCP_AUTH_FAILURE; /* Here BSKV should be checked against revokation list */ return HDCP_OK; }