/****************************************************************************** * * Copyright (C) 2016-2017 Cadence Design Systems, Inc. * All rights reserved worldwide. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation and/or * other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors * may be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, * INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE * OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Copyright 2017-2018 NXP * ****************************************************************************** * * API_General.c * ****************************************************************************** */ #include "API_General.h" #include "address.h" #include "apb_cfg.h" #include "opcodes.h" #include "general_handler.h" #include "util.h" static u32 alive; CDN_API_STATUS CDN_API_LoadFirmware(state_struct *state, u8 *iMem, int imemSize, u8 *dMem, int dmemSize) { int i; for (i = 0; i < imemSize; i += 4) if (cdn_apb_write(state, ADDR_IMEM + i, (u32) iMem[i] << 0 | (u32) iMem[i + 1] << 8 | (u32) iMem[i + 2] << 16 | (u32) iMem[i + 3] << 24)) return CDN_ERR; for (i = 0; i < dmemSize; i += 4) if (cdn_apb_write(state, ADDR_DMEM + i, (u32) dMem[i] << 0 | (u32) dMem[i + 1] << 8 | (u32) dMem[i + 2] << 16 | (u32) dMem[i + 3] << 24)) return CDN_ERR; return CDN_OK; } CDN_API_STATUS CDN_API_General_Test_Echo(state_struct *state, u32 val, CDN_BUS_TYPE bus_type) { CDN_API_STATUS ret; if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; state->bus_type = bus_type; state->rxEnable = 1; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_TEST_ECHO, 1, 4, val); return CDN_STARTED; } if (state->txEnable && !internal_mbox_tx_process(state).txend) return CDN_BSY; if (state->rxEnable && !internal_mbox_rx_process(state).rxend) return CDN_BSY; ret = internal_test_rx_head(state, MB_MODULE_ID_GENERAL, GENERAL_TEST_ECHO); if (ret != CDN_OK) { state->running = 0; return ret; } state->running = 0; if (val != internal_betoi(state->rxBuffer + INTERNAL_CMD_HEAD_SIZE, 4)) return CDN_ERR; return CDN_OK; } CDN_API_STATUS CDN_API_General_Test_Echo_blocking(state_struct *state, u32 val, CDN_BUS_TYPE bus_type) { internal_block_function(&state->mutex, CDN_API_General_Test_Echo (state, val, bus_type)); } CDN_API_STATUS CDN_API_General_Test_Echo_Ext(state_struct *state, u8 const *msg, u8 *resp, u16 num_bytes, CDN_BUS_TYPE bus_type) { CDN_API_STATUS ret; if (!msg || !resp) { return CDN_ERR; } if ((num_bytes > GENERAL_TEST_ECHO_MAX_PAYLOAD) || (num_bytes < GENERAL_TEST_ECHO_MIN_PAYLOAD)) { return CDN_ERR; } if (!state->running) { if (!internal_apb_available(state)) { return CDN_BSY; } state->bus_type = bus_type; state->rxEnable = 1; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_TEST_ECHO, 1, -num_bytes, msg); return CDN_STARTED; } if (state->txEnable && !internal_mbox_tx_process(state).txend) { return CDN_BSY; } if (state->rxEnable && !internal_mbox_rx_process(state).rxend) { return CDN_BSY; } ret = internal_test_rx_head(state, MB_MODULE_ID_GENERAL, GENERAL_TEST_ECHO); if (ret != CDN_OK) { state->running = 0; return ret; } state->running = 0; memcpy(resp, state->rxBuffer + INTERNAL_CMD_HEAD_SIZE, num_bytes); if (memcmp(msg, resp, num_bytes) != 0) { return CDN_ERR; } return CDN_OK; } CDN_API_STATUS CDN_API_General_Test_Echo_Ext_blocking(state_struct *state, u8 const *msg, u8 *resp, u16 num_bytes, CDN_BUS_TYPE bus_type) { internal_block_function(&state->mutex, CDN_API_General_Test_Echo_Ext (state, msg, resp, num_bytes, bus_type)); } CDN_API_STATUS CDN_API_General_getCurVersion(state_struct *state, u16 *ver, u16 *verlib) { u32 vh, vl, vlh, vll; if (cdn_apb_read(state, VER_L << 2, &vl)) return CDN_ERR; if (cdn_apb_read(state, VER_H << 2, &vh)) return CDN_ERR; if (cdn_apb_read(state, VER_LIB_L_ADDR << 2, &vll)) return CDN_ERR; if (cdn_apb_read(state, VER_LIB_H_ADDR << 2, &vlh)) return CDN_ERR; *ver = F_VER_MSB_RD(vh) << 8 | F_VER_LSB_RD(vl); *verlib = F_SW_LIB_VER_H_RD(vlh) << 8 | F_SW_LIB_VER_L_RD(vll); return CDN_OK; } CDN_API_STATUS CDN_API_Get_Event(state_struct *state, u32 *events) { u32 evt[4] = { 0 }; if (!events) { return CDN_ERR; } if (cdn_apb_read(state, SW_EVENTS0 << 2, &evt[0]) || cdn_apb_read(state, SW_EVENTS1 << 2, &evt[1]) || cdn_apb_read(state, SW_EVENTS2 << 2, &evt[2]) || cdn_apb_read(state, SW_EVENTS3 << 2, &evt[3])) { printk("Failed to read events registers.\n"); return CDN_ERR; } *events = (evt[0] & 0xFF) | ((evt[1] & 0xFF) << 8) | ((evt[2] & 0xFF) << 16) | ((evt[3] & 0xFF) << 24); return CDN_OK; } CDN_API_STATUS CDN_API_Get_Debug_Reg_Val(state_struct *state, u16 *val) { u32 dbg[2] = { 0 }; if (!val) { printk("val pointer is NULL!\n"); return CDN_ERR; } if (cdn_apb_read(state, SW_DEBUG_L << 2, &dbg[0]) || cdn_apb_read(state, SW_DEBUG_H << 2, &dbg[1])) { printk("Failed to read debug registers.\n"); return CDN_ERR; } *val = (u16) ((dbg[0] & 0xFF) | ((dbg[1] & 0xFF) << 8)); return CDN_OK; } CDN_API_STATUS CDN_API_CheckAlive(state_struct *state) { u32 newalive; if (cdn_apb_read(state, KEEP_ALIVE << 2, &newalive)) return CDN_ERR; if (alive == newalive) return CDN_BSY; alive = newalive; return CDN_OK; } CDN_API_STATUS CDN_API_CheckAlive_blocking(state_struct *state) { internal_block_function(&state->mutex, CDN_API_CheckAlive(state)); } CDN_API_STATUS CDN_API_MainControl(state_struct *state, u8 mode, u8 *resp) { if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; state->bus_type = CDN_BUS_TYPE_APB; state->rxEnable = 1; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_MAIN_CONTROL, 1, 1, mode); return CDN_STARTED; } internal_process_messages(state); internal_opcode_ok_or_return(state, MB_MODULE_ID_GENERAL, GENERAL_MAIN_CONTROL_RESP); internal_readmsg(state, 1, 1, resp); return CDN_OK; } CDN_API_STATUS CDN_API_MainControl_blocking(state_struct *state, u8 mode, u8 *resp) { internal_block_function(&state->mutex, CDN_API_MainControl(state, mode, resp)); } CDN_API_STATUS CDN_API_ApbConf(state_struct *state, u8 dpcd_bus_sel, u8 dpcd_bus_lock, u8 hdcp_bus_sel, u8 hdcp_bus_lock, u8 capb_bus_sel, u8 capb_bus_lock, u8 *dpcd_resp, u8 *hdcp_resp, u8 *capb_resp) { u8 resp; u8 set = 0; if (!state->running) { if (!internal_apb_available(state)) { return CDN_BSY; } state->bus_type = CDN_BUS_TYPE_APB; state->rxEnable = 1; set |= (dpcd_bus_sel) ? (1 << GENERAL_BUS_SETTINGS_DPCD_BUS_BIT) : 0; set |= (dpcd_bus_lock) ? (1 << GENERAL_BUS_SETTINGS_DPCD_BUS_LOCK_BIT) : 0; set |= (hdcp_bus_sel) ? (1 << GENERAL_BUS_SETTINGS_HDCP_BUS_BIT) : 0; set |= (hdcp_bus_lock) ? (1 << GENERAL_BUS_SETTINGS_HDCP_BUS_LOCK_BIT) : 0; set |= (capb_bus_sel) ? (1 << GENERAL_BUS_SETTINGS_CAPB_OWNER_BIT) : 0; set |= (capb_bus_lock) ? (1 << GENERAL_BUS_SETTINGS_CAPB_OWNER_LOCK_BIT) : 0; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_BUS_SETTINGS, 1, 1, set); return CDN_STARTED; } internal_process_messages(state); internal_opcode_ok_or_return(state, MB_MODULE_ID_GENERAL, GENERAL_BUS_SETTINGS_RESP); /* Read one one-byte response */ internal_readmsg(state, 1, 1, &resp); *dpcd_resp = (resp & (1 << GENERAL_BUS_SETTINGS_RESP_DPCD_BUS_BIT)) ? 1 : 0; *hdcp_resp = (resp & (1 << GENERAL_BUS_SETTINGS_RESP_HDCP_BUS_BIT)) ? 1 : 0; *capb_resp = (resp & (1 << GENERAL_BUS_SETTINGS_RESP_CAPB_OWNER_BIT)) ? 1 : 0; return CDN_OK; } CDN_API_STATUS CDN_API_ApbConf_blocking(state_struct *state, u8 dpcd_bus_sel, u8 dpcd_bus_lock, u8 hdcp_bus_sel, u8 hdcp_bus_lock, u8 capb_bus_sel, u8 capb_bus_lock, u8 *dpcd_resp, u8 *hdcp_resp, u8 *capb_resp) { internal_block_function(&state->mutex, CDN_API_ApbConf (state, dpcd_bus_sel, dpcd_bus_lock, hdcp_bus_sel, hdcp_bus_lock, capb_bus_sel, capb_bus_lock, dpcd_resp, hdcp_resp, capb_resp)); } CDN_API_STATUS CDN_API_SetClock(state_struct *state, u8 MHz) { return cdn_apb_write(state, SW_CLK_H << 2, MHz); } CDN_API_STATUS CDN_API_GetClock(state_struct *state, u32 *MHz) { return cdn_apb_read(state, SW_CLK_H << 2, MHz); } CDN_API_STATUS CDN_API_General_Read_Register(state_struct *state, u32 addr, GENERAL_Read_Register_response *resp) { CDN_API_STATUS ret; if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_READ_REGISTER, 1, 4, addr); state->bus_type = CDN_BUS_TYPE_APB; state->rxEnable = 1; return CDN_STARTED; } internal_process_messages(state); ret = internal_test_rx_head(state, MB_MODULE_ID_GENERAL, GENERAL_READ_REGISTER_RESP); if (ret != CDN_OK) return ret; internal_readmsg(state, 2, 4, &resp->addr, 4, &resp->val); return CDN_OK; } CDN_API_STATUS CDN_API_General_Read_Register_blocking(state_struct *state, u32 addr, GENERAL_Read_Register_response *resp) { internal_block_function(&state->mutex, CDN_API_General_Read_Register (state, addr, resp)); } CDN_API_STATUS CDN_API_General_Write_Register(state_struct *state, u32 addr, u32 val) { if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_WRITE_REGISTER, 2, 4, addr, 4, val); state->bus_type = CDN_BUS_TYPE_APB; return CDN_STARTED; } internal_process_messages(state); return CDN_OK; } CDN_API_STATUS CDN_API_General_Write_Register_blocking(state_struct *state, u32 addr, u32 val) { internal_block_function(&state->mutex, CDN_API_General_Write_Register (state, addr, val)); } CDN_API_STATUS CDN_API_General_Write_Field(state_struct *state, u32 addr, u8 startBit, u8 bitsNo, u32 val) { if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_WRITE_FIELD, 4, 4, addr, 1, startBit, 1, bitsNo, 4, val); state->bus_type = CDN_BUS_TYPE_APB; return CDN_STARTED; } internal_process_messages(state); return CDN_OK; } CDN_API_STATUS CDN_API_General_Write_Field_blocking(state_struct *state, u32 addr, u8 startBit, u8 bitsNo, u32 val) { internal_block_function(&state->mutex, CDN_API_General_Write_Field (state, addr, startBit, bitsNo, val)); } CDN_API_STATUS CDN_API_General_Phy_Test_Access(state_struct *state, u8 *resp) { CDN_API_STATUS ret; *resp = 0; if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_TEST_ACCESS, 0); state->bus_type = CDN_BUS_TYPE_APB; state->rxEnable = 1; return CDN_STARTED; } internal_process_messages(state); ret = internal_test_rx_head(state, MB_MODULE_ID_GENERAL, GENERAL_TEST_ACCESS); if (ret != CDN_OK) return ret; internal_readmsg(state, 1, 1, resp); return CDN_OK; } CDN_API_STATUS CDN_API_General_Phy_Test_Access_blocking(state_struct *state, u8 *resp) { internal_block_function(&state->mutex, CDN_API_General_Phy_Test_Access(state, resp)); } CDN_API_STATUS CDN_API_General_GetHpdState(state_struct *state, u8 *hpd_state) { CDN_API_STATUS ret; *hpd_state = 0; if (!state->running) { if (!internal_apb_available(state)) return CDN_BSY; internal_tx_mkfullmsg(state, MB_MODULE_ID_GENERAL, GENERAL_GET_HPD_STATE, 0); state->bus_type = CDN_BUS_TYPE_APB; state->rxEnable = 1; return CDN_STARTED; } internal_process_messages(state); ret = internal_test_rx_head(state, MB_MODULE_ID_GENERAL, GENERAL_GET_HPD_STATE); if (ret != CDN_OK) return ret; internal_readmsg(state, 1, 1, hpd_state); return CDN_OK; } CDN_API_STATUS CDN_API_General_GetHpdState_blocking(state_struct *state, u8 *hpd_state) { internal_block_function(&state->mutex, CDN_API_General_GetHpdState(state, hpd_state)); }