- 08 Jan, 2019 26 commits
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Marek Vasut authored
Use the SCIF SCFSR:TEND bit to check that all data were transmitted by the SCIF and that there are no more valid data to transmit in the FIFO. Signed-off-by:Marek Vasut <marek.vasut+renesas@gmail.com>
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Marek Vasut authored
Synchronize the QoS tables with Renesas ATF release 2.0.0 . Signed-off-by: -
Marek Vasut authored
Synchronize the pin control tables with Renesas ATF release 2.0.0 . Signed-off-by: -
Marek Vasut authored
Synchronize the R-Car DDR-B driver, used on R-Car H3/M3W/M3N, with Renesas ATF release 2.0.0 . Signed-off-by: -
Marek Vasut authored
Run Linux kernel checkpatch on the DDR-A init code to clean it up: $ checkpatch.pl --fix --fix-inplace -f drivers/staging/renesas/rcar/ddr/ddr_a/* Signed-off-by: -
Marek Vasut authored
Synchronize the R-Car DDR-A driver, used on R-Car E3, with Renesas ATF release 2.0.0 . Signed-off-by: -
Marek Vasut authored
Move the rcar_cpld_reset_cpu() function into header file and zap the externs. Signed-off-by: -
Marek Vasut authored
The code runs in EL3, use EL3 accessors to manipulate the interrupt bit. Signed-off-by: -
Marek Vasut authored
The code runs in EL3, use EL3 accessors to manipulate the cache bits. Signed-off-by: -
Marek Vasut authored
Since the interrupts are handled in EL3, dump the EL3 error registers in case an error happens. Signed-off-by: -
Marek Vasut authored
The reset address is programmable on the R-Car Gen3, enable it. Signed-off-by: -
Marek Vasut authored
Disable the IPMMU PV0 cache on E3 rev. 1.x . Signed-off-by: -
Marek Vasut authored
Add support for R-Car E3 silicon rev. 1.1 Signed-off-by: -
Marek Vasut authored
Add missing TARGET_NAME for the case where RCAR_LSI is set to AUTO, which is platform auto-detection. Signed-off-by: -
Marek Vasut authored
Call the function only from architecture setup and at the end of suspend cycle instead of calling it all over the place. Signed-off-by: -
Marek Vasut authored
Rename BL2_LIMIT to BL2_IMAGE_LIMIT and BL2_SYSRAM_LIMIT to BL2_LIMIT to correctly set BL2_LIMIT value. Set correct DEVICE_SRAM_BASE to match the hardware. Use BL2_END in rcar_configure_mmu_el3() to mark the cacheable BL2 area. Signed-off-by: -
Marek Vasut authored
Staticize the platform memory map tables as they are only used within the platform_common.c file. Signed-off-by: -
Marek Vasut authored
Replace foo_t with struct foo. Signed-off-by: -
Marek Vasut authored
The CPU has cache line size of 64 Bytes, fix the cache line size. Signed-off-by: -
Marek Vasut authored
Apply 3872fc2d ("Do not enable SVE on pre-v8.2 platforms") to R-Car Gen3 too. Signed-off-by:
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Marek Vasut authored
Add missing dependency on the bl2.elf and bl31.elf into the rcar_srecord target, which uses those ELF files to generate the SRECs. Signed-off-by: -
Marek Vasut authored
Rename the H3 label to avoid confusing clang, which generates an error if the label is just H3. Rename it to RCARH3. Signed-off-by: -
Marek Vasut authored
This function is unused and triggers clang error, drop it. Signed-off-by: -
Antonio Niño Díaz authored
stm32mp1: do not include platform header files directly in drivers
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Antonio Niño Díaz authored
maintainers: Fix path of Marvell documentation
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Antonio Niño Díaz authored
plat: xilinx: Clock and PLL EEMI API Support
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- 07 Jan, 2019 3 commits
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Antonio Niño Díaz authored
Remove ASM_ASSERTION check in Makefile
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Antonio Niño Díaz authored
plat/arm: Remove comment that mentions LOAD_IMAGE_V2
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Yann Gautier authored
Instead, only platform_def.h is included. The required files to be included are added in stm32mp1_def.h. Signed-off-by:Yann Gautier <yann.gautier@st.com>
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- 04 Jan, 2019 11 commits
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Jolly Shah authored
This clock does not drive any clock in LPD so there is no need for Linux to try to initialize it. Signed-off-by:
Mirela Simonovic <mirela.simonovic@aggios.com> Acked-by:
Will Wong <WILLW@xilinx.com> Signed-off-by:
Jolly Shah <jollys@xilinx.com>
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Jolly Shah authored
Linux has no reason to use these system and debug clocks and therefore shouldn't access them. These clocks are marked as invalid in order to prevent Linux from registering and querying them. Note that despite clocks being marked as invalid a security issue still remains in place as there is nothing that prevents the non-secure world from gating these clocks and that way causing damage to the system. Signed-off-by:
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Jolly Shah authored
These clocks are marked as invalid in order to prevent Linux from registering them. Note that despite clocks being marked as invalid a security issue still remains in place as there is nothing that prevents the non-secure world from gating these clocks and that way halt the whole APU subsystem. Signed-off-by:
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Jolly Shah authored
In the existing model for ACPU clock the mux, divider, and gate were represented as one clock and ACPU_HALF was modelled as child of ACPU clock. This is not correct. ACPU clock model contains only mux and the divider, and it has 2 children: ACPU_FULL and ACPU_HALF clocks which have only gates. The models of ACPU and ACPU_HALF clocks are fixed and ACPU_FULL clock is added. Signed-off-by:
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Jolly Shah authored
Clock get parent EEMI API is reimplemented to use system-level clock and pll EEMI APIs rather than direct MMIO read/write accesses to clock and pll control registers. Since linux still uses clock set parent API to get pre_src, post_src, div2 and bypasss, in the implementation of pm_clock_get_parent() we need to workaround this by distinguishing two cases: 1) if the given clock ID corresponds to a PLL-related clock ID (*_PRE_SRC, *_POST_SRC, *_INT_MUX or *_PLL clock IDs); or 2) given clock ID is truly an on-chip clock. For case 1) we'll map the call onto PLL-specific EEMI API with the respective parameter ID. For case 2) the call is passed to the PMU. Signed-off-by:
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Jolly Shah authored
Clock set parent EEMI API is reimplemented to use system-level clock and pll EEMI APIs rather than direct MMIO read/write accesses to clock and pll control registers. Since linux still uses clock set parent API to set pre_src, post_src, div2 and bypass, in the implementation of pm_clock_set_parent() we need to workaround this by distinguishing two cases: 1) if the given clock ID corresponds to a PLL-related clock ID (*_PRE_SRC, *_POST_SRC, *_INT_MUX or *PLL clock IDs); or 2) given clock ID is truly an on-chip clock. For case 1) we'll map the call onto PLL set parameter EEMI API with the respective parameter ID. Since clock set parent interface to EL1/2 receives parent index (mux select value), the value is just passed to PMU. Functions that appear to be unused after this change is made are removed. Setting the parent of *PLL clocks, that actually model bypass, is not possible. This is already ensured by the existing clock model having the CLK_SET_RATE_NO_REPARENT flag. The API also doesn't allow changing the bypass parent. Bypass is controlled only by the PMU firmware. Signed-off-by:
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Jolly Shah authored
Clock set/get rate are not implemented and will likely never be. Remove empty function stubs. Signed-off-by:
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Jolly Shah authored
Clock get divider EEMI API is reimplemented to use system-level clock get divider EEMI API rather than direct MMIO read/write accesses to clock control registers. Signed-off-by:
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Jolly Shah authored
Clock set divider EEMI API is reimplemented to use system-level clock set divider EEMI API rather than direct MMIO read/write accesses to clock control registers. Signed-off-by:
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Jolly Shah authored
Clock get state EEMI API is reimplemented to use system-level clock and pll EEMI APIs rather than direct MMIO read/write accesses to clock and pll control registers. Since linux is_enabled method for PLLs still uses clock get state API get the PLL state, in the implementation of pm_clock_getstate() we need to workaround this by distinguishing two cases: 1) if the given clock ID corresponds to a PLL output clock ID; or 2) given clock ID is truly an on-chip clock whose state of the gate should be returned. For case 1) we'll call pm_api_clock_pll_getstate() implemented in pm_api_clock.h/c. This function will query the PLL state from PMU using the system-level PLL get mode EEMI API. For case 2) we'll call the PMU to query the clock gate state using system-level clock get status EEMI API. Functions that appear to be unused after this change is made are removed. Signed-off-by:
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Jolly Shah authored
Clock disable EEMI API is reimplemented to use system-level clock and pll EEMI APIs rather than direct MMIO read/write accesses to clock and pll control registers. Since linux still uses clock disable API to reset the PLL in the implementation of pm_clock_disable() we need to workaround this by distinguishing two cases: 1) if the given clock ID corresponds to a PLL output clock ID; or 2) given clock ID is truly an on-chip clock that can be gated. For case 1) we'll call pm_api_clock_pll_disable() implemented in pm_api_clock.h/c. This function will reset the PLL using the system-level PLL set mode EEMI API with the reset mode argument. For case 2) we'll call the PMU to configure the clock gate. This is done using system-level clock disable EEMI API. Functions that appear to be unused after this change is made are removed. Signed-off-by:
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