/* * Copyright (C) 2015 Broadcom Corporation * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include #include #define TZPC_TZPCR0SIZE 0x18034000 #define TZPC_TZPCR0SIZE_MASK 0x000003ff #define TZPC_TZPCDECPROT0SET 0x18034804 #define TZPC_TZPCDECPROT0CLR 0x18034808 #define TZPC_TZPCDECPROT1SET 0x18034810 #define TZPC_TZPCDECPROT1CLR 0x18034814 #define TZPC_TZPCDECPROT2SET 0x1803481c #define TZPC_TZPCDECPROT2CLR 0x18034820 #define TZPCDECPROT0_MASK 0x000000FF #define TZPCDECPROT1_MASK 0x000000FF #define TZPCDECPROT2_MASK 0x000000FF #define AXIIC_Ihost_acp_security 0x1a000008 #define AXIIC_PCIe0_s0_security 0x1a000010 #define AXIIC_PCIe1_s0_security 0x1a000014 #define AXIIC_APBY_s0_security 0x1a00002c #define AXIIC_APBZ_s0_security 0x1a000030 #define AXIIC_APBX_s0_security 0x1a000034 #define AXIIC_ihost_s0_security 0x1a000038 #define AXIIC_A9jtag_s0_security 0x1a00003c #define AXIIC_APB_W1_security 0x1a000040 #define AXIIC_APB_W2_security 0x1a000044 #define AXIIC_APB_W3_security 0x1a000048 #define AXIIC_APB_W4_security 0x1a00004c #define AXIIC_APBR_s0_security 0x1a00006c #define AXIIC_APBS_s0_security 0x1a000070 #define AXIIC_CMICd_s0_security 0x1a000074 #define AXIIC_mhost0_s0_security 0x1a000078 #define AXIIC_mhost1_s0_security 0x1a00007c #define AXIIC_Crypto_s0_security 0x1a000080 #define AXIIC_DMU_s0_security 0x1a000084 #define AXIIC_ext_s0_security 0x1a000088 #define AXIIC_ext_s1_security 0x1a00008c #define AXIIC_APBY_s0_security_MASK 0x00003f1f #define AXIIC_APBZ_s0_security_MASK 0x0000003f #define AXIIC_APBX_s0_security_MASK 0x0000cfff #define AXIIC_ext_s0_security_MASK 0xffffffff #define AXIIC_ext_s1_security_MASK 0xffffffff #define AXIIC_APBR_s0_security_MASK 0x0000436d #define AXIIC_APBS_s0_security_MASK 0x000057ee #define AXIIC_APB_W1_security_MASK 0x0000ffff #define AXIIC_APB_W2_security_MASK 0x0000000f #define AXIIC_APB_W3_security_MASK 0x00003fff #define AXIIC_APB_W4_security_MASK 0x0000007f /* * Note: the order need to match corresponding definitions for * non virtual slave slave_vector in tz.h */ static uint32_t non_virtual_slave_regs[] = { AXIIC_Ihost_acp_security, AXIIC_PCIe0_s0_security, AXIIC_PCIe1_s0_security, AXIIC_ihost_s0_security, AXIIC_A9jtag_s0_security, AXIIC_CMICd_s0_security, AXIIC_mhost0_s0_security, AXIIC_mhost1_s0_security, AXIIC_Crypto_s0_security, AXIIC_DMU_s0_security }; /* * Set master security. * Use defines in tz.h for both parameters. */ void tz_set_masters_security(uint32_t masters, uint32_t ns_bit) { uint32_t val; /* Check any TZPCDECPROT0 is set and then write to TZPCDECPROT0 */ if (masters & TZPCDECPROT0_MASK) { val = masters & TZPCDECPROT0_MASK; if (ns_bit) write32((void *)TZPC_TZPCDECPROT0SET, val); else write32((void *)TZPC_TZPCDECPROT0CLR, val); } /* Check any TZPCDECPROT1 is set and then write to TZPCDECPROT1 */ if ((masters >> 8) & TZPCDECPROT1_MASK) { val = (masters >> 8) & TZPCDECPROT1_MASK; if (ns_bit) write32((void *)TZPC_TZPCDECPROT1SET, val); else write32((void *)TZPC_TZPCDECPROT1CLR, val); } /* Check any TZPCDECPROT2 is set and then write to TZPCDECPROT2 */ if ((masters >> 16) & TZPCDECPROT2_MASK) { val = (masters >> 16) & TZPCDECPROT2_MASK; if (ns_bit) write32((void *)TZPC_TZPCDECPROT2SET, val); else write32((void *)TZPC_TZPCDECPROT2CLR, val); } } /* * Set non virtual slave security. * Use defines in tz.h for both parameters. */ void tz_set_non_virtual_slaves_security(uint32_t slave_vector, uint32_t ns_bit) { uint32_t i; uint32_t total = sizeof(non_virtual_slave_regs) / sizeof(non_virtual_slave_regs[0]); uint32_t mask = ~(0xffffffff << total); ns_bit &= 0x1; slave_vector = slave_vector & mask; for (i = 0; i < total; i++) { if (slave_vector & (0x1 << i)) write32((void *)(non_virtual_slave_regs[i]), ns_bit); } } /* * Set peripheral security. * Use defines in tz.h for both parameters. */ void tz_set_periph_security(uint32_t slave_vector, uint32_t ns_bit) { uint32_t val; uint32_t mask_x = AXIIC_APBX_s0_security_MASK; uint32_t mask_y = AXIIC_APBY_s0_security_MASK; uint32_t tz_periphs_sec_status = (mask_x & read32((void *)AXIIC_APBX_s0_security)) | ((mask_y & read32((void *)AXIIC_APBY_s0_security)) << 16); if (ns_bit == TZ_STATE_SECURE) tz_periphs_sec_status &= ~slave_vector; else tz_periphs_sec_status |= slave_vector; val = tz_periphs_sec_status & mask_x; write32((void *)AXIIC_APBX_s0_security, val); val = (tz_periphs_sec_status >> 16) & mask_y; write32((void *)AXIIC_APBY_s0_security, val); } /* * Set sec peripheral security. * Use defines in tz.h for both parameters. */ void tz_set_sec_periphs_security(uint32_t slave_vector, uint32_t ns_bit) { uint32_t val; uint32_t mask = AXIIC_APBZ_s0_security_MASK; uint32_t tz_sec_periphs_sec_status = read32((void *)AXIIC_APBZ_s0_security); if (ns_bit == TZ_STATE_SECURE) tz_sec_periphs_sec_status &= ~slave_vector; else tz_sec_periphs_sec_status |= slave_vector; val = tz_sec_periphs_sec_status & mask; write32((void *)AXIIC_APBZ_s0_security, val); } /* * Set external slave security. * Use defines in tz.h for both parameters. */ void tz_set_ext_slaves_security(uint32_t slave_vector, uint32_t ns_bit) { uint32_t val; uint32_t mask_s0 = AXIIC_ext_s0_security_MASK; uint32_t mask_s1 = AXIIC_ext_s1_security_MASK; uint32_t tz_ext_slaves_sec_status = (mask_s0 & read32((void *)AXIIC_ext_s0_security)) | ((mask_s1 & read32((void *)AXIIC_ext_s0_security)) << 16); if (ns_bit == TZ_STATE_SECURE) tz_ext_slaves_sec_status &= ~slave_vector; else tz_ext_slaves_sec_status |= slave_vector; val = tz_ext_slaves_sec_status & mask_s0; write32((void *)AXIIC_ext_s0_security, val); val = (tz_ext_slaves_sec_status >> 16) & mask_s1; write32((void *)AXIIC_ext_s1_security, val); } /* * Set cfg slave security * Use defines in tz.h for both parameters. */ void tz_set_cfg_slaves_security(uint32_t slave_vector, uint32_t ns_bit) { uint32_t val; uint32_t mask_r = AXIIC_APBR_s0_security_MASK; uint32_t mask_s = AXIIC_APBS_s0_security_MASK; uint32_t tz_cfg_slaves_sec_status = (mask_r & read32((void *)AXIIC_APBR_s0_security)) | ((mask_s & read32((void *)AXIIC_APBS_s0_security)) << 16); if (ns_bit == TZ_STATE_SECURE) tz_cfg_slaves_sec_status &= ~slave_vector; else tz_cfg_slaves_sec_status |= slave_vector; val = tz_cfg_slaves_sec_status & mask_r; write32((void *)AXIIC_APBR_s0_security, val); val = (tz_cfg_slaves_sec_status >> 16) & mask_s; write32((void *)AXIIC_APBS_s0_security, val); } /* * Set SRAM secure region * parameter 'r0size' specify the secure RAM region in 4KB steps: * 0x00000000 = no secure region * 0x00000001 = 4KB secure region * 0x00000002 = 8KB secure region * ....... * 0x000001FF = 2044KB secure region. * 0x00000200 or above sets the entire SRAM to secure regardless of size */ void tz_set_sram_sec_region(uint32_t r0size) { uint32_t mask = TZPC_TZPCR0SIZE_MASK; write32((void *)TZPC_TZPCR0SIZE, r0size & mask); } /* * Set wrapper security * Use defines in tz.h for all parameters. */ void tz_set_wrapper_security(uint32_t wrapper1, uint32_t wrapper2, uint32_t wrapper3, uint32_t wrapper4, uint32_t ns_bit) { uint32_t mask_w4 = AXIIC_APB_W4_security_MASK; uint32_t mask_w3 = AXIIC_APB_W3_security_MASK; uint32_t mask_w2 = AXIIC_APB_W2_security_MASK; uint32_t mask_w1 = AXIIC_APB_W1_security_MASK; uint32_t tz_wrapper1_sec_status = read32((void *)AXIIC_APB_W1_security); uint32_t tz_wrapper2_sec_status = read32((void *)AXIIC_APB_W2_security); uint32_t tz_wrapper3_sec_status = read32((void *)AXIIC_APB_W3_security); uint32_t tz_wrapper4_sec_status = read32((void *)AXIIC_APB_W4_security); if (ns_bit == TZ_STATE_SECURE) { tz_wrapper1_sec_status &= ~wrapper1; tz_wrapper2_sec_status &= ~wrapper2; tz_wrapper3_sec_status &= ~wrapper3; tz_wrapper4_sec_status &= ~wrapper4; } else { tz_wrapper1_sec_status |= wrapper1; tz_wrapper2_sec_status |= wrapper2; tz_wrapper3_sec_status |= wrapper3; tz_wrapper4_sec_status |= wrapper4; } write32((void *)AXIIC_APB_W1_security, tz_wrapper1_sec_status & mask_w1); write32((void *)AXIIC_APB_W2_security, tz_wrapper2_sec_status & mask_w2); write32((void *)AXIIC_APB_W3_security, tz_wrapper3_sec_status & mask_w3); write32((void *)AXIIC_APB_W4_security, tz_wrapper4_sec_status & mask_w4); }