/* SPDX-License-Identifier: BSD-3-Clause */ /* * Copyright 2020 NXP */ enum soc_domain { RTD_DOMAIN = 0, APD_DOMAIN = 1, UPWR_MAIN_DOMAINS, /* RTD, AVD */ AVD_DOMAIN = UPWR_MAIN_DOMAINS, UPWR_DOMAIN_COUNT, /* RTD, APD, AVD */ PSD_DOMAIN = UPWR_DOMAIN_COUNT, UPWR_ALL_DOMAINS /* RTD, APD, AVD, PSD */ }; enum upwr_api_state { UPWR_API_INIT_WAIT, /* waiting for ROM firmware initialization */ UPWR_API_INITLZED, /* ROM firmware initialized */ UPWR_API_START_WAIT, /* waiting for start services */ UPWR_API_READY /* ready to receive service requests */ }; enum upwr_sg { /* Service Groups in priority order, high to low */ UPWR_SG_EXCEPT, /* 0 = exception */ UPWR_SG_PWRMGMT, /* 1 = power management */ UPWR_SG_DELAYM, /* 2 = delay measurement */ UPWR_SG_VOLTM, /* 3 = voltage measurement */ UPWR_SG_CURRM, /* 4 = current measurement */ UPWR_SG_TEMPM, /* 5 = temperature measurement */ UPWR_SG_DIAG, /* 6 = diagnostic */ UPWR_SG_COUNT }; enum upwr_xcp_f { /* Exception Functions */ /* 0 = init msg (not a service request itself) */ UPWR_XCP_INIT, /* 0 = also ping request, since its response is an init msg */ UPWR_XCP_PING = UPWR_XCP_INIT, UPWR_XCP_START, /* 1 = service start: upwr_start (not a service request itself) */ UPWR_XCP_SHUTDOWN, /* 2 = service shutdown: upwr_xcp_shutdown */ UPWR_XCP_CONFIG, /* 3 = uPower configuration: upwr_xcp_config */ UPWR_XCP_SW_ALARM, /* 4 = uPower software alarm: upwr_xcp_sw_alarm */ UPWR_XCP_I2C, /* 5 = I2C access: upwr_xcp_i2c_access */ UPWR_XCP_SPARE_6, /* 6 = spare */ UPWR_XCP_SET_DDR_RETN, /* 7 = set/clear ddr retention */ UPWR_XCP_SPARE_8, /* 8 = spare */ UPWR_XCP_SPARE_9, /* 9 = spare */ UPWR_XCP_SPARE_10, /* 10 = spare */ UPWR_XCP_SPARE_11, /* 11 = spare */ UPWR_XCP_SPARE_12, /* 12 = spare */ UPWR_XCP_SPARE_13, /* 13 = spare */ UPWR_XCP_SPARE_14, /* 14 = spare */ UPWR_XCP_SPARE_15, /* 15 = spare */ UPWR_XCP_F_COUNT }; enum upwr_resp { /* response error codes */ UPWR_RESP_OK = 0, /* no error */ UPWR_RESP_SG_BUSY, /* service group is busy */ UPWR_RESP_SHUTDOWN, /* services not up or shutting down */ UPWR_RESP_BAD_REQ, /* invalid request */ UPWR_RESP_BAD_STATE, /* system state doesn't allow perform the request */ UPWR_RESP_UNINSTALLD, /* service or function not installed */ UPWR_RESP_UNINSTALLED = UPWR_RESP_UNINSTALLD, /* service or function not installed (alias) */ UPWR_RESP_RESOURCE, /* resource not available */ UPWR_RESP_TIMEOUT, /* service timeout */ UPWR_RESP_COUNT }; #define UPWR_SRVGROUP_BITS (4) #define UPWR_FUNCTION_BITS (4) #define UPWR_PWDOMAIN_BITS (4) #define UPWR_HEADER_BITS (UPWR_SRVGROUP_BITS + UPWR_FUNCTION_BITS + UPWR_PWDOMAIN_BITS) #define UPWR_ARG_BITS (32 - UPWR_HEADER_BITS) #define UPWR_DUAL_OFFSET_BITS ((UPWR_ARG_BITS + 32) >> 1) struct upwr_msg_hdr { u32 domain :UPWR_PWDOMAIN_BITS; /* power domain */ u32 srvgrp :UPWR_SRVGROUP_BITS; /* service group */ u32 function :UPWR_FUNCTION_BITS; /* function */ u32 arg :UPWR_ARG_BITS; /* function-specific argument */ }; union upwr_down_1w_msg { struct upwr_msg_hdr hdr; u32 word; /* message first word */ }; #define upwr_start_msg union upwr_down_1w_msg #define upwr_xcp_ping_msg union upwr_down_1w_msg #define UPWR_RESP_ERR_BITS (4) #define UPWR_RESP_HDR_BITS (UPWR_RESP_ERR_BITS + \ UPWR_SRVGROUP_BITS + UPWR_FUNCTION_BITS) #define UPWR_RESP_RET_BITS (32 - UPWR_RESP_HDR_BITS) struct upwr_resp_hdr { u32 errcode :UPWR_RESP_ERR_BITS; u32 srvgrp :UPWR_SRVGROUP_BITS; /* service group */ u32 function:UPWR_FUNCTION_BITS; u32 ret :UPWR_RESP_RET_BITS; /* return value, if any */ }; struct upwr_up_2w_msg { struct upwr_resp_hdr hdr; u32 word2; /* message second word */ }; #define upwr_up_max_msg struct upwr_up_2w_msg union upwr_2pointer_msg { struct upwr_msg_hdr hdr; struct { u64:UPWR_HEADER_BITS; u64 ptr0:UPWR_DUAL_OFFSET_BITS; u64 ptr1:UPWR_DUAL_OFFSET_BITS; } ptrs; }; #define upwr_pwm_pwron_msg union upwr_2pointer_msg struct upwr_pointer_msg { struct upwr_msg_hdr hdr; u32 ptr; /* config struct offset */ }; struct upwr_i2c_access { /* structure pointed by message upwr_xcp_i2c_msg */ u16 addr; s8 data_size; u8 subaddr_size; u32 subaddr; u32 data; }; enum upwr_req_status { UPWR_REQ_OK, /* request succeeded */ UPWR_REQ_ERR, /* request failed */ UPWR_REQ_BUSY /* request execution ongoing */ }; #define UPWR_SOC_BITS (7) #define UPWR_VMINOR_BITS (4) #define UPWR_VFIXES_BITS (4) #define UPWR_VMAJOR_BITS \ (32 - UPWR_HEADER_BITS - UPWR_SOC_BITS - UPWR_VMINOR_BITS - UPWR_VFIXES_BITS) union upwr_init_msg { struct upwr_resp_hdr hdr; struct { u32 rsv:UPWR_RESP_HDR_BITS; u32 soc:UPWR_SOC_BITS; /* SoC identification */ u32 vmajor:UPWR_VMAJOR_BITS; /* firmware major version */ u32 vminor:UPWR_VMINOR_BITS; /* firmware minor version */ u32 vfixes:UPWR_VFIXES_BITS; /* firmware fixes version */ } args; }; #define UPWR_RAM_VMINOR_BITS (7) #define UPWR_RAM_VFIXES_BITS (6) #define UPWR_RAM_VMAJOR_BITS (32 - UPWR_HEADER_BITS - UPWR_RAM_VFIXES_BITS - UPWR_RAM_VMINOR_BITS) union upwr_ready_msg { struct upwr_resp_hdr hdr; struct { u32 rsv:UPWR_RESP_HDR_BITS; u32 vmajor:UPWR_RAM_VMAJOR_BITS; /* RAM fw major version */ u32 vminor:UPWR_RAM_VMINOR_BITS; /* RAM fw minor version */ u32 vfixes:UPWR_RAM_VFIXES_BITS; /* RAM fw fixes version */ } args; }; struct upwr_reg_access_t { u32 addr; u32 data; u32 mask; /* mask=0 commands read */ }; union upwr_xcp_union { struct upwr_reg_access_t reg_access; }; enum { /* Power Management Functions */ UPWR_PWM_REGCFG, /* 0 = regulator config: upwr_pwm_reg_config */ UPWR_PWM_DEVMODE = UPWR_PWM_REGCFG, /* deprecated, for old compile */ UPWR_PWM_VOLT, /* 1 = voltage change: upwr_pwm_chng_reg_voltage */ UPWR_PWM_SWITCH, /* 2 = switch control: upwr_pwm_chng_switch_mem */ UPWR_PWM_PWR_ON, /* 3 = switch/RAM/ROM power on: upwr_pwm_power_on */ UPWR_PWM_PWR_OFF, /* 4 = switch/RAM/ROM power off: upwr_pwm_power_off */ UPWR_PWM_RETAIN, /* 5 = retain memory array: upwr_pwm_mem_retain */ UPWR_PWM_DOM_BIAS, /* 6 = Domain bias control: upwr_pwm_chng_dom_bias */ UPWR_PWM_MEM_BIAS, /* 7 = Memory bias control: upwr_pwm_chng_mem_bias */ UPWR_PWM_PMICCFG, /* 8 = PMIC configuration: upwr_pwm_pmic_config */ UPWR_PWM_PMICMOD = UPWR_PWM_PMICCFG, /* deprecated, for old compile */ UPWR_PWM_PES, /* 9 = Power Event Sequencer */ UPWR_PWM_CONFIG, /* 10= apply power mode defined configuration */ UPWR_PWM_CFGPTR, /* 11= configuration pointer */ UPWR_PWM_DOM_PWRON, /* 12 = domain power on: upwr_pwm_dom_power_on */ UPWR_PWM_BOOT, /* 13 = boot start: upwr_pwm_boot_start */ UPWR_PWM_FREQ, /* 14 = domain frequency setup */ UPWR_PWM_PARAM, /* 15 = power management parameters */ UPWR_PWM_F_COUNT }; #ifndef UPWR_PMC_SWT_WORDS #define UPWR_PMC_SWT_WORDS (1) #endif #ifndef UPWR_PMC_MEM_WORDS #define UPWR_PMC_MEM_WORDS (2) #endif #define UPWR_API_ASSERT(c) do { } while (0) struct upwr_code_vers { u32 soc_id; u32 vmajor; u32 vminor; u32 vfixes; }; #define UPWR_MU_MSG_SIZE (2) #define UPWR_MU_TSR_EMPTY ((u32)((1 << UPWR_MU_MSG_SIZE) - 1)) #ifndef UPWR_DRAM_SHARED_BASE_ADDR #define UPWR_DRAM_SHARED_BASE_ADDR (0x28330000) #endif #ifndef UPWR_DRAM_SHARED_SIZE #define UPWR_DRAM_SHARED_SIZE (2048) #endif #define UPWR_DRAM_SHARED_ENDPLUS (UPWR_DRAM_SHARED_BASE_ADDR + UPWR_DRAM_SHARED_SIZE) #ifndef UPWR_API_BUFFER_BASE #define UPWR_API_BUFFER_BASE (0x28330600) #endif #ifndef UPWR_API_BUFFER_ENDPLUS #define UPWR_API_BUFFER_ENDPLUS (UPWR_DRAM_SHARED_ENDPLUS - 64) #endif typedef void (*upwr_rdy_callb)(u32 vmajor, u32 vminor, u32 vfixes); typedef void (*upwr_callb)(enum upwr_sg sg, u32 func, enum upwr_resp errcode, int ret); int upwr_init(enum soc_domain domain, struct mu_type *muptr); int upwr_start(u32 launchopt, const upwr_rdy_callb rdycallb); u32 upwr_rom_version(u32 *vmajor, u32 *vminor, u32 *vfixes); typedef void (*UPWR_RX_CALLB_FUNC_T)(void); int upwr_xcp_set_ddr_retention(enum soc_domain domain, u32 enable, const upwr_callb callb); int upwr_pwm_power_on(const u32 swton[], const u32 memon[], upwr_callb callb); int upwr_xcp_i2c_access(u16 addr, s8 data_size, u8 subaddr_size, u32 subaddr, u32 wdata, const upwr_callb callb); enum upwr_req_status upwr_poll_req_status(enum upwr_sg sg, u32 *sgfptr, enum upwr_resp *errptr, int *retptr, u32 attempts); void upwr_txrx_isr(void);